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File details
| File name: | nxp_60_1_1.lbr |
| Uploaded by: | bramfm |
| Download options: | Download original file from DIYmodules.org ( 2,614.7 KiB )Download file converted to the latest EAGLE format ( 2,614.7 KiB ) |
Library description
NXP Library
marco.kuystermans@nxp.com
Disclaimer: The information contained in this library is made available for general information and public access only. By using our library, you accept this disclaimer in full. If you disagree with any part of this disclaimer, you must not use our library. Use of this library is permitted on the basis that NXP will not be liable for any loss or damage including without limitation, indirect or consequential loss or damage, arising out of or in connection with the use of this library. Information: Footprints are according to NXP footprint information, see NXP website SMD Footprints in this library are for reflow soldering only. Library is generated as a courtesy: Information is NOT guaranteed, use at your own risk NXP package numbers (SOT/SOD) numbers used Please send your comments to the mail address above.
List of devices
| Name & variants | Symbol | Package |
|---|---|---|
| 1PS10SB82 | Schottky barrier diodeAn epitaxial Schottky barrier diode encapsulated in a
SOD882 leadless ultra small plastic package.
ESD sensitive device, observe handling precautions. AAL Eindhoven MK
|
|
Variants: |
 |
 |
| 1PS66SB17 | 4 V, 30 mA low Cd Schottky barrier diodePlanar low capacitance Schottky barrier diode encapsulated in a very small SMD plastic
package. AAL Eindhoven MK
|
|
Variants: |
|
 |
| 1PS66SB82 | 15 V, 30 mA low Cd Schottky barrier diode Epitaxial low capacitance Schottky barrier diodes encapsulated in very small SMD plastic
packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| 1PS70SB10 | Schottky barrier diodePlanar Schottky barrier diode
encapsulated in a SOT323 very small
plastic SMD package. Single diodes
and double diodes with different
pinning are available. AAL Eindhoven MK
|
|
Variants: |
|
 |
| 1PS70SB14 | Schottky barrier (double) diodesPlanar Schottky barrier diode
encapsulated in a SOT323 very small
plastic SMD package. Single diodes
and double diodes with different
pinning are available. AAL Eindhoven MK
|
|
Variants: |
 |
|
| 1PS70SB15 | Schottky barrier (double) diodesPlanar Schottky barrier diode
encapsulated in a SOT323 very small
plastic SMD package. Single diodes
and double diodes with different
pinning are available. AAL Eindhoven MK
|
|
Variants: |
 |
|
| 1PS70SB16 | Schottky barrier (double) diodesPlanar Schottky barrier diode
encapsulated in a SOT323 very small
plastic SMD package. Single diodes
and double diodes with different
pinning are available. AAL Eindhoven MK
|
|
Variants: |
 |
|
| 1PS70SB20 | Schottky barrier diode Planar Schottky barrier diode with an integrated guard ring for stress protection
in a SOT323 (SC-70) small SMD plastic package. AAL Eindhoven MK
|
|
Variants: |
|
|
| 1PS70SB40 | General-purpose Schottky diode General-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| 1PS70SB44 | General-purpose Schottky diodesGeneral-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages AAL Eindhoven MK
|
|
Variants: |
|
|
| 1PS70SB45 | General-purpose Schottky diodesGeneral-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages AAL Eindhoven MK
|
|
Variants: |
|
|
| 1PS70SB46 | General-purpose Schottky diodesGeneral-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages AAL Eindhoven MK
|
|
Variants: |
|
|
| 1PS70SB82 | Schottky barrier (double) diodes Planar Schottky barrier diodes
encapsulated in a SOT323 (SC-70)
very small plastic SMD package.
Single diodes and double diodes with
different pinning are available. ESD
sensitive device, observe handling
precautions. AAL Eindhoven MK
|
|
Variants: |
|
|
| 1PS70SB84 | Schottky barrier (double) diodes Planar Schottky barrier diodes
encapsulated in a SOT323 (SC-70)
very small plastic SMD package.
Single diodes and double diodes with
different pinning are available. ESD
sensitive device, observe handling
precautions. AAL Eindhoven MK
|
|
Variants: |
|
|
| 1PS70SB85 | Schottky barrier (double) diodes Planar Schottky barrier diodes
encapsulated in a SOT323 (SC-70)
very small plastic SMD package.
Single diodes and double diodes with
different pinning are available. ESD
sensitive device, observe handling
precautions. AAL Eindhoven MK
|
|
Variants: |
|
|
| 1PS70SB86 | Schottky barrier (double) diodes Planar Schottky barrier diodes
encapsulated in a SOT323 (SC-70)
very small plastic SMD package.
Single diodes and double diodes with
different pinning are available. ESD
sensitive device, observe handling
precautions. AAL Eindhoven MK
|
|
Variants: |
|
|
| 1PS74SB23 | Schottky barrier diodePlanar Schottky barrier diode encapsulated in an SC-74
(SOT457) small plastic SMD package. AAL Eindhoven MK
|
|
Variants: |
|
 |
| 1PS75SB45 | General-purpose Schottky diodesGeneral-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages AAL Eindhoven MK
|
|
Variants: |
|
 |
| 1PS76SB10 | Schottky barrier diodePlanar Schottky barrier diode encapsulated in a SOD323
very small plastic SMD package. AAL Eindhoven MK
|
|
Variants: |
|
 |
| 1PS76SB17 | 4 V, 30 mA low Cd Schottky barrier diodePlanar low capacitance Schottky barrier diode encapsulated in a very small SMD plastic
package. AAL Eindhoven MK
|
|
Variants: |
|
|
| 1PS76SB21 | Schottky barrier diodes in small packagesPlanar Schottky barrier diodes with an integrated guard ring for stress protection.
Encapsulated in small Surface-Mounted Device (SMD) plastic packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| 1PS76SB40 | General-purpose Schottky diode General-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| 1PS76SB70 | General-purpose Schottky diode General-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| 1PS79SB10 | Schottky barrier diodePlanar Schottky barrier diode encapsulated in a SC-79 ultra small plastic SMD
package. AAL Eindhoven MK
|
|
Variants: |
|
 |
| 1PS79SB17 | 4 V, 30 mA low Cd Schottky barrier diodePlanar low capacitance Schottky barrier diode encapsulated in a very small SMD plastic
package. AAL Eindhoven MK
|
|
Variants: |
|
|
| 1PS79SB30 | Schottky barrier diodePlanar Schottky barrier diode encapsulated in a SC-79 ultra small plastic SMD
package. AAL Eindhoven MK
|
|
Variants: |
|
|
| 1PS79SB31 | Schottky barrier diodePlanar Schottky barrier diode encapsulated in a SC-79 ultra small plastic SMD
package. AAL Eindhoven MK
|
|
Variants: |
|
|
| 1PS79SB40 | General-purpose Schottky diode General-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| 1PS79SB70 | General-purpose Schottky diode General-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| 1PS88SB48 | General-purpose Schottky diodes General-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages. AAL Eindhoven MK
|
|
Variants: |
|
 |
| 1PS88SB82 | 15 V, 30 mA low Cd Schottky barrier diode Epitaxial low capacitance Schottky barrier diodes encapsulated in very small SMD plastic
packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| 2N7002 | N-channel TrenchMOS FET
N-channel enhancement mode Field-Effect Transistor (FET) in a plastic package using
TrenchMOS technology.
AAL Eindhoven MK
|
|
Variants: |
 |
 |
| 2N7002B | 60 V, single N-channel Trench MOSFETN-channel enhancement mode Field-Effect Transistor (FET) in a leadless ultra small
DFN1006B-3 (SOT883B) Surface-Mounted Device (SMD) plastic package using Trench
MOSFET technology. AAL Eindhoven MK
|
|
Variants: |
 |
 |
| 2N7002BK | 60 V, 340 mA dual N-channel Trench MOSFET
Dual N-channel enhancement mode Field-Effect Transistor (FET) in an ultra small
SOT666 Surface-Mounted Device (SMD) plastic package using Trench MOSFET
technology.
AAL Eindhoven MK
|
|
Variants: |
|
|
| 2N7002CK | 60 V, 0.3 A N-channel Trench MOSFET
ESD protected N-channel enhancement mode Field-Effect Transistor (FET) in a
small SOT23 (TO-236AB) Surface-Mounted Device (SMD) plastic package using
Trench MOSFET technology.
AAL Eindhoven MK
|
|
Variants: |
|
|
| 2N7002K | N-channel TrenchMOS FET
N-channel enhancement mode Field-Effect Transistor (FET) in a plastic package using
TrenchMOS technology.
AAL Eindhoven MK
|
|
Variants: |
|
|
| 2N7002P | 60 V, 320 mA N-channel Trench MOSFET
Dual N-channel enhancement mode Field-Effect Transistor (FET) in a very small
SOT363 (SC-88) Surface-Mounted Device (SMD) plastic package using Trench MOSFET
technology.
AAL Eindhoven MK
|
|
Variants: |
|
|
| 74ABT125 | Quad bus BUFFER, 3-stateThe 74ABT125 high-performance BiCMOS device combines low static and dynamic
power dissipation with high speed and high output drive.
The 74ABT125 device is a quad buffer that is ideal for driving bus lines. The device
features four Output Enables (1OE, 2OE, 3OE, 4OE), each controlling one of the 3-state
outputs. AAL Eindhoven MK
|
|
Variants: |
  |
     |
| 74AUP1G07 | Low-power buffer with open-drain output
The 74AUP1G07 provides the single non-inverting buffer with open-drain output. The
output of the device is an open drain and can be connected to other open-drain outputs to
implement active-LOW wired-OR or active-HIGH wired-AND functions.
Schmitt-trigger action at all inputs makes the circuit tolerant to slower input rise and fall
times across the entire VCC range from 0.8 V to 3.6 V.
This device ensures a very low static and dynamic power consumption across the entire
VCC range from 0.8 V to 3.6 V.
This device is fully specified for partial power-down applications using IOFF.
The IOFF circuitry disables the output, preventing the damaging backflow current through
the device when it is powered down.
AAL Eindhoven MK
|
|
Variants: |
  |
      |
| 74AUP1G17 | Low-power Schmitt trigger
The 74AUP1G17 provides the single Schmitt trigger buffer. It is capable of transforming
slowly changing input signals into sharply defined, jitter-free output signals.
This device ensures a very low static and dynamic power consumption across the entire
VCC range from 0.8 V to 3.6 V.
This device is fully specified for partial Power-down applications using IOFF.
The IOFF circuitry disables the output, preventing the damaging backflow current through
the device when it is powered down.
The inputs switch at different points for positive and negative-going signals. The difference
between the positive voltage VT+ and the negative voltage VTï is defined as the input
hysteresis voltage VH.
AAL Eindhoven MK
|
|
Variants: |
 |
|
| 74AUP1G32 | Low-power 2-input OR-gate
The 74AUP1G32 provides the single 2-input OR function.
Schmitt-trigger action at all inputs makes the circuit tolerant to slower input rise and fall
times across the entire VCC range from 0.8 V to 3.6 V.
This device ensures a very low static and dynamic power consumption across the entire
VCC range from 0.8 V to 3.6 V.
This device is fully specified for partial power-down applications using IOFF.
The IOFF circuitry disables the output, preventing the damaging backflow current through
the device when it is powered down.
AAL Eindhoven MK
|
|
Variants: |
 |
|
| 74AUP1G57 | Low-power configurable gateThe 74AUP1G57 provides configurable multiple functions. The output state is determined
by eight patterns of 3-bit input. The user can choose the logic functions AND, OR, NAND,
NOR, XNOR, inverter, and buffer. All inputs can be connected to VCC or GND.
This device ensures a very low static and dynamic power consumption across the entire
VCC range from 0.8 V to 3.6 V.
This device is fully specified for partial power-down applications using IOFF. The IOFF
circuitry disables the output, preventing the damaging backflow current through the device
when it is powered down.
The 74AUP1G57 has Schmitt trigger inputs making it capable of transforming slowly
changing input signals into sharply defined, jitter-free output signals.
The inputs switch at different points for positive and negative-going signals. The difference
between the positive voltage VT+ and the negative voltage VT- is defined as the input
hysteresis voltage VH. AAL Eindhoven MK
|
|
Variants: |
 |
|
| 74AUP1G58 | Low-power configurable multiple function gateThe 74AUP1G58 provides configurable multiple functions. The output state is determined
by eight patterns of 3-bit input. The user can choose the logic functions AND, OR, NAND,
NOR, XOR, inverter and buffer. All inputs can be connected to VCC or GND.
This device ensures a very low static and dynamic power consumption across the entire
VCC range from 0.8 V to 3.6 V.
This device is fully specified for partial power-down applications using IOFF.
The IOFF circuitry disables the output, preventing the damaging backflow current through
the device when it is powered down.
The 74AUP1G58 has Schmitt trigger inputs making it capable of transforming slowly
changing input signals into sharply defined, jitter-free output signals.
The inputs switch at different points for positive and negative-going signals. The difference
between the positive voltage VT+ and the negative voltage VT- is defined as the input
hysteresis voltage VH. AAL Eindhoven MK
|
|
Variants: |
|
|
| 74AUP1G86 | Low-power 2-input EXCLUSIVE-OR gate
The 74AUP1G86 provides the single 2-input EXCLUSIVE-OR function.
Schmitt-trigger action at all inputs makes the circuit tolerant to slower input rise and fall
times across the entire VCC range from 0.8 V to 3.6 V.
This device ensures a very low static and dynamic power consumption across the entire
VCC range from 0.8 V to 3.6 V.
This device is fully specified for partial power-down applications using IOFF.
The IOFF circuitry disables the output, preventing the damaging backflow current through
the device when it is powered down.
AAL Eindhoven MK
|
|
Variants: |
 |
|
| 74AUP1T57 | Low-power configurable gate with voltage-level translatorThe 74AUP1T57 provides low-power, low-voltage configurable logic gate functions. The
output state is determined by eight patterns of 3-bit input. The user can choose the logic
functions AND, OR, NAND, NOR, XNOR, inverter and buffer. All inputs can be connected
to VCC or GND.
This device ensures a very low static and dynamic power consumption across the entire
VCC range from 2.3 V to 3.6 V.
The 74AUP1T57 is designed for logic-level translation applications with input switching
levels that accept 1.8 V low-voltage CMOS signals, while operating from either a single
2.5 V or 3.3 V supply voltage.
The wide supply voltage range ensures normal operation as battery voltage drops from
3.6 V to 2.3 V.
This device is fully specified for partial power-down applications using IOFF. The IOFF
circuitry disables the output, preventing the damaging backflow current through the device
when it is powered down.
Schmitt trigger inputs make the circuit tolerant to slower input rise and fall times across
the entire VCC range. AAL Eindhoven MK
|
|
Variants: |
|
|
| 74LVC125A | Quad buffer/line driver with 5 V tolerant input/outputs; 3-stateThe 74LVC125A consists of four non-inverting buffers/line drivers with 3-state outputs
(nY) that are controlled by the output enable input (nOE). A HIGH at nOE causes the
outputs to assume a high-impedance OFF-state.
Inputs can be driven from either 3.3 V or 5 V devices. When disabled, up to 5.5 V can be
applied to the outputs. AAL Eindhoven MK
|
|
Variants: |
 |
|
| 74LVC1G125 | Bus buffer/line driver; 3-state
The 74LVC1G125 provides one non-inverting buffer/line driver with 3-state output.
The 3-state output is controlled by the output enable input (OE). A HIGH-level at pin OE
causes the output to assume a high-impedance OFF-state.
The input can be driven from either 3.3 V or 5 V devices. This feature allows the use of
this device in a mixed 3.3 V and 5 V environment.
This device is fully specified for partial power-down applications using IOFF. The IOFF
circuitry disables the output, preventing the damaging backflow current through the device
when it is powered down.
AAL Eindhoven MK
|
|
Variants: |
|
 |
| 74LVC1G14 | Single Schmitt-trigger inverter
The 74LVC1G14 provides the inverting buffer function with Schmitt-trigger input. It is
capable of transforming slowly changing input signals into sharply defined, jitter-free
output signals.
The input can be driven from either 3.3 V or 5 V devices. This feature allows the use of
this device in a mixed 3.3 V and 5 V environment. Schmitt-trigger action at the input
makes the circuit tolerant for slower input rise and fall time.
This device is fully specified for partial power-down applications using IOFF. The IOFF
circuitry disables the output, preventing the damaging backflow current through the device
when it is powered down.
AAL Eindhoven MK
|
|
Variants: |
 |
|
| 74LVC1G32 | Single 2-input OR gate The 74LVC1G32 provides one 2-input OR function.
Inputs can be driven from either 3.3 V or 5 V devices. This feature allows the use of these
devices as translators in mixed 3.3 V and 5 V applications.
Schmitt trigger action at all inputs makes the circuit tolerant of slower input rise and fall
time.
This device is fully specified for partial power-down applications using IOFF.
The IOFF circuitry disables the output, preventing the damaging backflow current through
the device when it is powered down. AAL Eindhoven MK
|
|
Variants: |
|
|
| 74LVC1G99 | Ultra-configurable multiple function gate; 3-state
The 74LVC1G99 provides a low voltage, ultra-configurable, multiple function gate with
3-state output. The device can be configured as one of several logic functions including,
AND, OR, NAND, NOR, XOR, XNOR, inverter, buffer and MUX. No external components
are required to configure the device as all inputs can be connected directly to VCC or
GND. The 3-state output is controlled by the output enable input (OE). A HIGH level at OE
causes the output (Y) to assume a high-impedance OFF-state. When OE is LOW, the
output state is determined by the signals applied to the Schmitt trigger inputs (A, B, C and
D).
Due to the use of Schmitt trigger inputs the device is tolerant of slowly changing input
signals, transforming them into sharply defined, jitter free output signals. By eliminating
leakage current paths to VCC and GND, the inputs and disabled output are also
over-voltage tolerant, making the device suitable for mixed-voltage applications.
This device is fully specified for partial power-down applications using IOFF.
The IOFF circuitry disables the output, preventing the damaging backflow current through
the device when it is powered down.
The 74LVC1G99 is fully specified over the supply range from 1.65 V to 5.5 V.
AAL Eindhoven MK
|
|
Variants: |
 |
      |
| 74LVC2G06 | Inverters with open-drain outputsThe 74LVC2G06 provides two inverting buffers.
The output of this device is an open drain and can be connected to other open-drain
outputs to implement active-LOW wired-OR or active-HIGH wired-AND functions.
Input can be driven from either 3.3 V or 5 V devices. This feature allows the use of this
device in a mixed 3.3 V and 5 V environment.
Schmitt trigger action at all inputs makes the circuit tolerant for slower input rise and fall
time.
This device is fully specified for partial power-down applications using IOFF. The IOFF
circuitry disables the output, preventing the damaging backflow current through the device
when it is powered down. AAL Eindhoven MK
|
|
Variants: |
|
|
| 74LVC2G125 | Dual bus buffer/line driver; 3-state
The 74LVC2G125 provides a dual non-inverting buffer/line driver with 3-state output.
The 3-state output is controlled by the output enable input (pin nOE). A HIGH-level at pin
nOE causes the output to assume a high-impedance OFF-state. Schmitt trigger action at
all inputs makes the circuit highly tolerant of slower input rise and fall times.
Inputs can be driven from either 3.3 V or 5 V devices. This feature allows the use of these
devices as translators in a mixed 3.3 V and 5 V environment.
This device is fully specified for partial power-down applications using IOFF. The IOFF
circuitry disables the output, preventing a damaging backflow current through the device
when it is powered down.
AAL Eindhoven MK
|
|
Variants: |
|
 |
| ACT102H-600D | AC Thyristor power switchAn AC Thyristor power switch with very high noise immunity and over-voltage protection
configured for negative gate triggering in a SOT96-1 (SO8) small surface-mountable
plastic package AAL Eindhoven MK
|
|
Variants: |
 |
 |
| ACT108 | AC Thyristor power switch AC Thyristor power switch in a SOT54 plastic package with self-protective capabilities
against low and high energy transients AAL Eindhoven MK
|
|
Variants: |
 |
 |
| ACT108W | AC Thyristor power switchAC Thyristor power switch in a SOT223 surface-mountable plastic package with
self-protective capabilities against low and high energy transients AAL Eindhoven MK
|
|
Variants: |
|
 |
| BA277 | Band-switching diodePlanar high performance band-switching diode in a small
plastic SOD523 (SC-79) SMD package. AAL Eindhoven MK
|
|
Variants: |
 |
|
| BA591 | Band-switching diodeThe BA591 is a planar, high performance band-switching
diode in the very small SOD323 (SC-76) SMD plastic
package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BA891 | Band-switching diodeThe BA891 is a planar high performance band-switching
diode in the ultra small SOD523 SMD plastic package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAP1321 | Silicon PIN diode
Planar PIN diode AAL Eindhoven MK
|
|
Variants: |
|
|
| BAP1321-04 | Silicon PIN diode
Planar PIN diode AAL Eindhoven MK
|
|
Variants: |
 |
|
| BAP50 | General purpose PIN diodeGeneral purpose PIN diode AAL Eindhoven MK
|
|
Variants: |
|
|
| BAP50-04 | General purpose PIN diodeTwo planar PIN diodes in series configuration. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAP50-05 | General purpose PIN diodeTwo planar PIN diodes in common cathode configuration.
AAL Eindhoven MK
|
|
Variants: |
 |
|
| BAS101 | High-voltage switching diodeHigh-voltage switching diode, encapsulated in a SOT23 small Surface-Mounted
Device (SMD) plastic package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS101S | High-voltage switching diodesHigh-voltage switching diodes, encapsulated in a SOT23 small Surface-Mounted
Device (SMD) plastic package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS116H | Low leakage switching diodeLow leakage switching diode, encapsulated in a SOD123F small and flat lead
Surface-Mounted Device (SMD) plastic package. AAL Eindhoven MK
|
|
Variants: |
|
 |
| BAS116T | Single low leakage current switching diodeSingle low leakage current switching diode, encapsulated in an ultra small
SOT416 (SC-75) Surface-Mounted Device (SMD) plastic package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS16 | High-speed switching diodeHigh-speed switching diode, encapsulated in small Surface-Mounted Device (SMD)
plastic packages. AAL Eindhoven MK
|
|
Variants: |
|
 |
| BAS16V | High-speed switching diodesHigh-speed switching diodes, encapsulated in small Surface-Mounted Device (SMD)
plastic packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS17 | Low-voltage stabistorLow-voltage stabilization diode in a small SOT23 plastic
package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS19 | General purpose diodeThe BAS19, BAS20 and BAS21 are general purpose
diodes fabricated in planar technology, and encapsulated
in a small SOT23 plastic SMD package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS20 | General purpose diodeThe BAS19, BAS20 and BAS21 are general purpose
diodes fabricated in planar technology, and encapsulated
in a small SOT23 plastic SMD package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS21 | General purpose diodeThe BAS19, BAS20 and BAS21 are general purpose
diodes fabricated in planar technology, and encapsulated
in a small SOT23 plastic SMD package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS21A | High-voltage switching diodes
High-voltage switching diodes, encapsulated in a very small Surface-Mounted
Device (SMD) plastic package.
AAL Eindhoven MK
|
|
Variants: |
 |
|
| BAS21AVD | High-voltage switching diodesTriple high-voltage switching diodes, encapsulated in a SOT457 (SC-74) small
Surface-Mounted Device (SMD) plastic package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS21J | Single high-speed switching diodeSingle high-speed switching diode, encapsulated in a SOD323F (SC-90) very small and
?at lead Surface-Mounted Device (SMD) plastic package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS21S | High-voltage switching diodes
High-voltage switching diodes, encapsulated in a very small Surface-Mounted
Device (SMD) plastic package.
AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS21VD | High-voltage switching diodesTriple high-voltage switching diodes, encapsulated in a SOT457 (SC-74) small
Surface-Mounted Device (SMD) plastic package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS28 | High-speed double diode Two high-speed switching diodes fabricated in planar technology, and encapsulated in a
small SOT143B Surface-Mounted Device (SMD) plastic package. The diodes are not
connected. AAL Eindhoven MK
|
|
Variants: |
|
 |
| BAS29 | General purpose controlled avalanche diode General purpose switching diodes fabricated in planar
technology, and encapsulated in small rectangular plastic
SMD SOT23 packages. The BAS29 consists of a single
diode. The BAS31 has two diodes in series. The BAS35
has two diodes with a common anode. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS31 | General purpose controlled avalanche diode (double) General purpose switching diodes fabricated in planar
technology, and encapsulated in small rectangular plastic
SMD SOT23 packages. The BAS29 consists of a single
diode. The BAS31 has two diodes in series. The BAS35
has two diodes with a common anode. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS316 | High-speed switching diodeHigh-speed switching diode, encapsulated in small Surface-Mounted Device (SMD)
plastic packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS321 | General purpose diodeThe BAS321 is a general purpose diode fabricated in
planar technology and encapsulated in a plastic SOD323
package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS32L | High-speed switching diode Single high-speed switching diode, fabricated in planar technology, and encapsulated in a
small hermetically sealed glass SOD80C Surface-Mounted Device (SMD) package. AAL Eindhoven MK
|
|
Variants: |
|
 |
| BAS35 | General purpose controlled avalanche diode (double) General purpose switching diodes fabricated in planar
technology, and encapsulated in small rectangular plastic
SMD SOT23 packages. The BAS29 consists of a single
diode. The BAS31 has two diodes in series. The BAS35
has two diodes with a common anode. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS40 | General-purpose Schottky diode General-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS40-04 | General-purpose Schottky diodesGeneral-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS40-05 | General-purpose Schottky diodesGeneral-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS40-05V | General-purpose Schottky diodes General-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS40-06 | General-purpose Schottky diodesGeneral-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS40-07 | General-purpose Schottky diodes General-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS40XY | General-purpose Schottky diodes General-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS416 | Low-leakage diodeEpitaxial, medium-speed switching diode with a low
leakage current encapsulated in a small SOD323 SMD
plastic package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS45A | Low-leakage diodeEpitaxial medium-speed switching diode with a low leakage current, encapsulated in a
small hermetically sealed glass SOD80C Surface-Mounted Device (SMD) package. AAL Eindhoven MK
|
|
Variants: |
|
 |
| BAS516 | High-speed switching diodeHigh-speed switching diode, encapsulated in small Surface-Mounted Device (SMD)
plastic packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS521 | Single high-voltage switching diodeSingle high-voltage switching diode, fabricated in planar technology, and encapsulated in
a SOD523 (SC-79) ultra small Surface-Mounted Device (SMD) plastic package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS56 | High-speed double diodeTwo high-speed switching diodes fabricated in planar technology, and encapsulated in a
small SOT143B Surface-Mounted Device (SMD) plastic package. The diodes are not
connected. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS70 | General-purpose Schottky diode General-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS70-04 | General-purpose Schottky diodesGeneral-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS70-05 | General-purpose Schottky diodesGeneral-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS70-06 | General-purpose Schottky diodesGeneral-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS70-07 | General-purpose Schottky diodes General-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS70H | General-purpose Schottky diode General-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS70L | General-purpose Schottky diode General-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS70VV | General-purpose Schottky diodesGeneral-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS70W | General-purpose Schottky diode General-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS70XY | General-purpose Schottky diodes General-purpose Schottky diodes in small Surface-Mounted Device (SMD) plastic
packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS716 | Low-leakage diode Epitaxial medium-speed switching diode with a low
leakage current in an ultra small SOD523 (SC-79) SMD
plastic package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS85 | Schottky barrier diodePlanar Schottky barrier diode with an integrated guard ring for stress protection,
encapsulated in a small hermetically sealed glass SOD80C Surface-Mounted
Device SMD package with tin-plated metal discs at each end. It is suitable for
?automatic placement? and as such it can withstand immersion soldering. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAS86 | Schottky barrier diodePlanar Schottky barrier diode with an integrated guard ring against static discharges. This
surface-mounted device is encapsulated in a small hermetically sealed SOD80C glass
Surface-Mounted Device (SMD) package with tin-plated metal discs at each end.
It is suitable for ?automatic placement? and as such it can withstand immersion soldering. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT120A | Schottky barrier double diodesPlanar Schottky barrier double diodes encapsulated in a
SOT223 plastic SMD package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT120C | Schottky barrier double diodesPlanar Schottky barrier double diodes encapsulated in a
SOT223 plastic SMD package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT120S | Schottky barrier double diodesPlanar Schottky barrier double diodes encapsulated in a
SOT223 plastic SMD package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT160A | Schottky barrier double diodesPlanar Schottky barrier double diodes encapsulated in a
SOT223 plastic SMD package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT160C | Schottky barrier double diodesPlanar Schottky barrier double diodes encapsulated in a
SOT223 plastic SMD package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT160S | Schottky barrier double diodesPlanar Schottky barrier double diodes encapsulated in a
SOT223 plastic SMD package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT17 | Schottky barrier diodePlanar Schottky barrier diode in a small SOT23 plastic SMD package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT18 | Silicon planar diodePlanar high performance band-switching diode in a small rectangular SOT23 SMD plastic
package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT46W | Single Schottky barrier diodeSingle planar Schottky barrier diode with an integrated guard ring for stress protection,
encapsulated in a Surface-Mounted
Device (SMD) plastic package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT54 | Schottky barrier diodePlanar Schottky barrier diode encapsulated in small plastic SMD packages. Single diodes and double
diodes with different pinning are available AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT54A | Schottky barrier (double) diodesPlanar Schottky barrier diodes encapsulated in a SOT23
small plastic SMD package. Single diodes and double diodes with different pinning are available. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT54C | Schottky barrier (double) diodesPlanar Schottky barrier diodes encapsulated in a SOT23
small plastic SMD package. Single diodes and double diodes with different pinning are available. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT54CV | Two Schottky barrier double diodes Two planar Schottky barrier double diodes with common cathodes and an integrated
guard ring for stress protection encapsulated in a SOT666 ultra small and flat lead
Surface-Mounted Device (SMD) plastic package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT54S | Schottky barrier (double) diodesPlanar Schottky barrier diodes encapsulated in a SOT23
small plastic SMD package. Single diodes and double diodes with different pinning are available. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT54VV | Schottky barrier triple diodePlanar Schottky barrier triple diode with an integrated guard ring for stress protection.
Three electrically isolated Schottky barrier diodes, encapsulated in a SOT666 ultra small
SMD plastic package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT54XY | Schottky barrier quadruple diode in very small SOT363
package Schottky barrier quadruple diode with an integrated guard ring for stress protection. Two
electrically isolated dual Schottky barrier diodes series, encapsulated in a SOT363 very
small SMD plastic package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT720 | Schottky barrier diodePlanar Schottky barrier diode with an integrated guard ring for stress protection in a small SOT23 plastic SMD package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT721 | Schottky barrier diodes in small packagesPlanar Schottky barrier diodes with an integrated guard ring for stress protection.
Encapsulated in small Surface-Mounted Device (SMD) plastic packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT721A | Schottky barrier diodes in small packagesPlanar Schottky barrier diodes with an integrated guard ring for stress protection.
Encapsulated in small Surface-Mounted Device (SMD) plastic packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT721C | Schottky barrier diodes in small packagesPlanar Schottky barrier diodes with an integrated guard ring for stress protection.
Encapsulated in small Surface-Mounted Device (SMD) plastic packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT721S | Schottky barrier diodes in small packagesPlanar Schottky barrier diodes with an integrated guard ring for stress protection.
Encapsulated in small Surface-Mounted Device (SMD) plastic packages. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT74 | Schottky barrier double diodePlanar Schottky barrier double diode with an integrated guard ring for stress protection.
Two electrically isolated Schottky barrier diodes, encapsulated in a small SOT143B
Surface-Mounted Device (SMD) plastic package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT754 | Schottky barrier diodePlanar Schottky barrier diodes
encapsulated in a SOT23 small
plastic SMD package. Low forward
voltage selection of the BAT54 series.
Single diodes and double diodes with
different pinning are available. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT754A | Schottky barrier (double) diodesPlanar Schottky barrier diodes encapsulated in a SOT23 small plastic SMD package. Low forward voltage selection of the BAT54 series. Single diodes and double diodes with different pinning are available. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT754C | Schottky barrier (double) diodesPlanar Schottky barrier diodes encapsulated in a SOT23 small plastic SMD package. Low forward voltage selection of the BAT54 series. Single diodes and double diodes with different pinning are available. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT754L | Schottky barrier triple diodeThree internal (galvanic) isolated silicon epitaxial Schottky
barrier diodes in a SOT363 small SMD plastic package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT754S | Schottky barrier (double) diodesPlanar Schottky barrier diodes encapsulated in a SOT23 small plastic SMD package. Low forward voltage selection of the BAT54 series. Single diodes and double diodes with different pinning are available. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT760 | Medium power Schottky barrier single diodePlanar medium power Schottky barrier single diode with an integrated guard ring for
stress protection, encapsulated in a SOD323 (SC-76) very small Surface-Mounted
Device SMD plastic package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT85 | Schottky barrier diode Planar Schottky barrier diode with an integrated protection ring against static
discharges, encapsulated in a hermetically-sealed subminiature SOD68
(DO-34) package. The diode is suitable for mounting on a 2 E (5.08 mm) pitch. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT854 | Schottky barrier (double) diodesPlanar Schottky barrier diodes encapsulated in a SOT323 very small SMD plastic package. Single diodes and double diodes with different pinning are available. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT854A | Schottky barrier (double) diodesPlanar Schottky barrier diodes encapsulated in a SOT323 very small SMD plastic package. Single diodes and double diodes with different pinning are available. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT854C | Schottky barrier (double) diodesPlanar Schottky barrier diodes encapsulated in a SOT323 very small SMD plastic package. Single diodes and double diodes with different pinning are available. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT854S | Schottky barrier (double) diodesPlanar Schottky barrier diodes encapsulated in a SOT323 very small SMD plastic package. Single diodes and double diodes with different pinning are available. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT86 | Schottky barrier diode Planar Schottky barrier diode with an integrated protection ring against static
discharges, encapsulated in a hermetically-sealed subminiature SOD68
(DO-34) package. The diode is suitable for mounting on a 2 E (5.08 mm) pitch. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAT960 | Schottky barrier diode Planar Schottky barrier diode with an integrated guard ring for stress protection in a SOT666 ultra small SMD plastic package. AAL Eindhoven MK
|
|
Variants: |
|
|
| BAV99 | High-speed switching diode
High-speed switching diodes, encapsulated in small Surface-Mounted Device (SMD)
plastic packages.
AAL Eindhoven MK
|
|
Variants: |
|
|
| BAV99S | High-speed switching diode
High-speed switching diodes, encapsulated in small Surface-Mounted Device (SMD)
plastic packages.
AAL Eindhoven MK
|
|
Variants: |
|
|
| BB131 | VHF variable capacitance diodeThe BB131 is a variable capacitance diode, fabricated in
planar technology, and encapsulated in the SOD323 (SC-76) very small plastic SMD package AAL Eindhoven MK
|
|
Variants: |
 |
|
| BB135 | UHF variable capacitance diodeThe BB135 is a variable capacitance diode, fabricated in planar technology, and encapsulated in the SOD323 very small plastic SMD package.The matched type, BB134 has the same specification.e AAL Eindhoven MK
|
|
Variants: |
|
|
| BC846 | 65 V, 100 mA NPN general-purpose transistors
AAL Eindhoven MK
|
|
Variants: |
 |
|
| BC846BS | Dual 65 V, 100 mA NPN/NPN general-purpose transistor
AAL Eindhoven MK
|
|
Variants: |
|
|
| BC846DS | Dual 65 V, 100 mA NPN/NPN general-purpose transistor
AAL Eindhoven MK
|
|
Variants: |
|
|
| BC846S | Dual 65 V, 100 mA NPN/NPN general-purpose transistor
AAL Eindhoven MK
|
|
Variants: |
|
|
| BC847 | 45 V, 100 mA NPN general-purpose transistors
NPN general-purpose transistor
AAL Eindhoven MK
|
|
Variants: |
|
  |
| BC847BPN | NPN/PNP general-purpose transistor pair in a very small SOT363 (SC-88) Surface-Mounted Device (SMD) plastic package.
AAL Eindhoven MK
|
|
Variants: |
 |
|
| BC847BS | NPN/NPN general-purpose transistor pair in a very small SOT363 (SC-88) Surface-Mounted Device (SMD) plastic package.
AAL Eindhoven MK
|
|
Variants: |
|
|
| BC847BV | NPN/NPN general-purpose transistor pair in a very small SOT363 (SC-88) Surface-Mounted Device (SMD) plastic package.
AAL Eindhoven MK
|
|
Variants: |
|
|
| BC847DS | NPN/NPN general-purpose transistor pair in a small SOT457 (SC-74) Surface-Mounted Device (SMD) plastic package.
AAL Eindhoven MK
|
|
Variants: |
|
|
| BC848 | 30 V, 100 mA NPN general-purpose transistors
AAL Eindhoven MK
|
|
Variants: |
|
|
| BC849 | 45 V, 100 mA NPN general-purpose transistors
AAL Eindhoven MK
|
|
Variants: |
|
|
| BC850 | BC849; BC850
NPN general purpose transistors
AAL Eindhoven MK
|
|
Variants: |
|
|
| BC856 | PNP general purpose transistors
AAL Eindhoven MK
|
|
Variants: |
|
|
| BC857 | PNP general purpose transistors AAL Eindhoven MK
|
|
Variants: |
|
|
| BC857BS | PNP double transistor in an SC-88; SOT363 plastic package.
AAL Eindhoven MK
|
|
Variants: |
|
|
| BC857BV | PNP double transistor in a SOT666 plastic package. NPN complement: BC847BV.
AAL Eindhoven MK
|
|
Variants: |
|
|
| BC858 | PNP general purpose transistors
AAL Eindhoven MK
|
|
Variants: |
|
|
| BC859 | PNP general purpose transistors
AAL Eindhoven MK
|
|
Variants: |
|
|
| BC860 | PNP general purpose transistors
AAL Eindhoven MK
|
|
Variants: |
|
|
| BCV26 | NXP darlington transistor Ic=500mA | |
Variants: |
 |
|
| BCX17 | PNP general purpose transistors PNP transistor in a SOT23 plastic package.
NPN complement: BCX19. AAL Eindhoven MK
|
|
Variants: |
|
|
| BCX18 | PNP general purpose transistors PNP transistor in a SOT23 plastic package.
NPN complement: BCX19. AAL Eindhoven MK
|
|
Variants: |
|
|
| BCX19 | NPN general purpose transistorNPN transistor in a SOT23 plastic package. PNP complement: BCX17. AAL Eindhoven MK
|
|
Variants: |
|
|
| BGA2850 | Silicon Monolithic Microwave Integrated Circuit (MMIC) wideband amplifier with internal matching circuit in a 6-pin SOT363 plastic SMD package. AAL Eindhoven MV+ MK
|
|
Variants: |
 |
|
| BGA7210 | 700 MHz to 3800 MHz high linearity variable gain amplifier | |
Variants: |
 |
 |
| BGU7032 | 1 GHz wideband low-noise amplifier with bypass
The BGU7032 MMIC is a wideband amplifier with bypass mode. It is designed specifically
for high linearity, low-noise applications over a frequency range of 40 MHz to 1 GHz. It is
especially suited to Set-Top Box applications.
The LNA is housed in a 6-pin SOT363 plastic SMD package.
AAL Eindhoven MK
|
|
Variants: |
 |
|
| BGU7045 | 1 GHz wideband low-noise amplifier with bypass
The BGU7045 MMIC is a 3.3 V wideband amplifier with bypass mode. It is designed
specifically for high linearity, low-noise applications over a frequency range of 40 MHz to
1 GHz. It is especially suited for Set-Top Box applications.
The LNA is housed in a 6-pin SOT363 plastic SMD package.
AAL Eindhoven MK
|
|
Variants: |
|
|
| BGU8007 | SiGe:C Low Noise Amplifier MMIC for GPS, GLONASS, Galileo
and Compass
The BGU8007 is a Low Noise Amplifier (LNA) for GNSS receiver applications in a plastic
leadless 6-pin, extremely small SOT886 package. The BGU8007 requires only one
external matching inductor and one external decoupling capacitor.
The BGU8007 adapts itself to the changing environment resulting from co-habitation of
different radio systems in modern cellular handsets. It has been designed for low power
consumption and optimal performance when jamming signals from co-existing cellular
transmitters are present. At low jamming power levels it delivers 19 dB gain at a noise
figure of 0.75 dB. During high jamming power levels, resulting for example from a cellular
transmit burst, it temporarily increases its bias current to improve sensitivity
AAL Eindhoven MK
|
|
Variants: |
 |
|
| BSH105 | N-channel enhancement mode MOS transistor | |
Variants: |
|
|
| BSS84 | P-channel enhancement mode vertical DMOS transistor
P-channel enhancement mode vertical Diffusion Metal-Oxide Semiconductor (DMOS)
transistor in a small Surface-Mounted Device (SMD) plastic package.
AAL Eindhoven MK
|
|
Variants: |
 |
|
| BSS84A | 50 V, 150 mA P-channel Trench MOSFET
P-channel enhancement mode Field-Effect Transistor (FET) in a small
Surface-Mounted Device (SMD) plastic package using Trench MOSFET technology.
AAL Eindhoven MK
|
|
Variants: |
 |
|
| BTA316 | Planar passivated high commutation three quadrant triac in a SOT78 plastic package
intended for use in circuits where high static and dynamic dV/dt and high dI/dt can occur AAL Eindhoven MV+ MK
|
|
Variants: |
|
  |
| BTA316-800E | Planar passivated high commutation three quadrant triac in a SOT78 plastic package
intended for use in circuits where high static and dynamic dV/dt and high dI/dt can occur AAL Eindhoven MV+ MK
|
|
Variants: |
|
|
| BTA410X | 3Q Hi-Com Triac | |
Variants: |
|
 |
| BUK625R0-40C | N-channel TrenchMOS intermediate level FETIntermediate level gate drive N-channel enhancement mode Field-Effect Transistor (FET)
in a plastic package using advanced TrenchMOS technology. This product has been
designed and qualified to the appropriate AEC Q101 standard for use in high performance
automotive applications. AAL Eindhoven MK
|
|
Variants: |
|
 |
| BUK761R3-30E | N-channel TrenchMOS standard level FETStandard level N-channel MOSFET in a SOT404 package using TrenchMOS technology.
This product has been designed and qualified to AEC Q101 standard for use in high
performance automotive applications. AAL Eindhoven MK
|
|
Variants: |
|
|
| BUK98180-100A | N-channel TrenchMOS logic level FETLogic level N-channel enhancement mode Field-Effect Transistor (FET) in a plastic
package using TrenchMOS technology. This product has been designed and qualified to
the appropriate AEC standard for use in automotive critical applications. AAL Eindhoven MK
|
|
Variants: |
|
|
| BUK9Y19 | N-channel TrenchMOS logic level FET
Logic level N-channel enhancement mode Field-Effect Transistor (FET) in a plastic
package using TrenchMOS technology. This product has been designed and qualified to the appropriate AEC standard for use in automotive critical applications. AAL Eindhoven MK
|
|
Variants: |
|
 |
| BYC8X-600P | Hyperfast power diode | |
Variants: |
|
 |
| BZX84J | ||
Variants: |
 |
|
| CBTL02043A | CBTL02043A/B is a 2 differential channel, 2-to-1 multiplexer/demultiplexer switch for
PCI Express Generation 3 (Gen3), or other high-speed serial interface applications. The
CBTL02043A/B can switch two differential signals to one of two locations. Using a unique
design technique, NXP has minimized the impedance of the switch such that the
attenuation observed through the switch is negligible, and also minimized the
channel-to-channel skew as well as channel-to-channel crosstalk, as required by the
high-speed serial interface. CBTL02043A/B allows expansion of existing high speed ports
for extremely low power. AAL Eindhoven MK
|
|
Variants: |
 |
 |
| CBTL02043B | AAL Eindhoven MK
|
|
Variants: |
|
|
| CBTL06DP212 | High-performance DisplayPort Gen2 2 : 1 multiplexer AAL Eindhoven MK
|
|
Variants: |
 |
 |
| CBTL12131 | DisplayPort multiplexer for bidirectional video AAL Eindhoven MK
|
|
Variants: |
 |
 |
| CLRC663 | NXP ISO14443 ISO15693 reader IC AAL Eindhoven MK
|
|
Variants: |
 |
 |
| FIDUCIAL_0.6-1.2MM | ||
Variants: |
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| IP4294CZ10-TBR | ESD protection for ultra high-speed interfaces
The device is designed to protect high-speed interfaces such as SuperSpeed USB,
High-Definition Multimedia Interface (HDMI), DisplayPort, external Serial Advanced
Technology Attachment (eSATA) and Low Voltage Differential Signaling (LVDS) interfaces
against ElectroStatic Discharge (ESD).
The device includes four high-level ESD protection diode structures for ultra high-speed
signal lines and is encapsulated in leadless ultra small DFN2510A-10 (SOT1176-1) plastic
package.
All signal lines are protected by a special diode configuration offering ultra low line
capacitance of only 0.5 pF. These diodes utilize a unique snap-back structure in order to
provide protection to downstream components from ESD voltages up to ï±10 kV contact
exceeding IEC 61000-4-2, level 4.
In order to reduce the capacitance variation versus channel DC voltage, the ground
diodes between each channel and ground pins 3 and 8 are implemented as Shockley
diodes.
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| KTY84 | AAL Eindhoven MK
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| LD6805 | Low-dropout regulators, high PSRR, 150 mA
The LD6805 series is a small-size Low DropOut regulator (LDO) family with ultra high
Power Supply Rejection Ratio (PSRR) of 75 dB. The voltage drop is 250 mV at 150 mA
current rating.
Operating voltages can range from 2.3 V to 5.5 V. The devices are available with fixed
output voltages between 1.2 V to 3.6 V.
The LD6805K/xxH devices show a high-ohmic state at the output pin when set to disabled
mode. The LD6805K/xxP devices contain a pull-down switching transistor to provide a
low-ohmic output state (auto discharge function) in disabled mode.
The LD6805 series devices are available in a 1 x 1 mm DFN plastic package making them
ideal for use in portable applications requiring component miniaturization. All devices are
manufactured in monolithic silicon technology. AAL Eindhoven MK
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| LD6806 | Ultra low-dropout regulator, low noise, 200 mA The LD6806 series is a small-size Low-DropOut regulator (LDO) family with a typical voltage drop of 60 mV at 200 mA current rating. The device is available in three different surface-mounted packages, one 0.4 mm pitch CSP, one leadless plastic package SOT886 and one gull wing package SOT753. The operating voltage ranges from 2.3 V to 5.5 V and the output voltage ranges from 1.2 V to 3.6 V. LD6806x/xxH devices show a high-ohmic state at the output pin, while the LD6806x/xxP contains a pull-down switching transistor, to provide a low-ohmic output stage when the device is disabled. All devices use the same regulator design and are manufactured in monolithic silicon technology. These features make the LD6806 series ideal for use in applications requiring component miniaturization, such as mobile phone handsets, cordless telephones and personal digital devices. | |
Variants: |
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| LD6815TD | Low dropout regulator, high PSRR, 150 mA
The LD6815 series is a small-size Low DropOut regulator (LDO) family with ultra high
Power Supply Rejection Ratio (PSRR) of 75 dB. The voltage drop is 250 mV at 150 mA
current rating.
Operating voltages can range from 2.3 V to 5.5 V. The devices are available with fixed
output voltages between 1.2 V and 3.6 V.
The LD6815TD/xxH devices show a high-ohmic state at the output pin when set to
disabled mode. The LD6815TD/xxP devices contain a pull-down switching transistor to
provide a low-ohmic output state (auto discharge function) in disabled mode.
The LD6815 series devices are available in SOT753 (TSOP5) plastic package. All devices
are manufactured in monolithic silicon technology.
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| LM75B | Digital temperature sensor and thermal watchdog AAL Eindhoven MK
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| LPC1101LVUK | 32-bit ARM Cortex-M0 MCU; up to 32 kB flash, 8 kB SRAM;
8-bit ADC
The LPC111xLV/LPC11xxLVUK is an ARM Cortex-M0-based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC111xLV/LPC11xxLVUK operate at CPU frequencies of up to 50 MHz.
The peripherals of the LPC111xLV/LPC11xxLVUK include up to 32 kB of flash memory, up
to 8 kB of SRAM data memory, a Fast-mode Plus I
2
C-bus interface, one SSP/SPI
interface, one UART, four general-purpose counter/timers, an 8-bit ADC, and up to 27
general-purpose I/O pins.
AAL Eindhoven MK
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| LPC1102LVUK | 32-bit ARM Cortex-M0 MCU; up to 32 kB flash, 8 kB SRAM;
8-bit ADC
The LPC111xLV/LPC11xxLVUK is an ARM Cortex-M0-based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC111xLV/LPC11xxLVUK operate at CPU frequencies of up to 50 MHz.
The peripherals of the LPC111xLV/LPC11xxLVUK include up to 32 kB of flash memory, up
to 8 kB of SRAM data memory, a Fast-mode Plus I
2
C-bus interface, one SSP/SPI
interface, one UART, four general-purpose counter/timers, an 8-bit ADC, and up to 27
general-purpose I/O pins.
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| LPC1102UK | ||
Variants: |
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| LPC1104UK | ||
Variants: |
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| LPC1110FD20 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
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| LPC1111FDH20 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
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| LPC1111FHN33 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1111FHN33/103 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1111FHN33/203 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1112FD20 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1112FDH20 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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| LPC1112FDH28 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1112FHI33/202 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1112FHI33/203 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1112FHN24 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1112FHN33 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1112FHN33/103 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1112FHN33/203 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1112LVFHI33 | 32-bit ARM Cortex-M0 microcontroller The LPC111xLV/LPC11xxLVUK is an ARM Cortex-M0-based, low-cost 32-bit MCU family, designed for 8/16-bit microcontroller applications, offering performance, low power, simple instruction set and memory addressing together with reduced code size compared to existing 8/16-bit architectures. The LPC111xLV/LPC11xxLVUK operate at CPU frequencies of up to 50 MHz. The peripherals of the LPC111xLV/LPC11xxLVUK include up to 32 kB of flash memory, up to 8 kB of SRAM data memory, a Fast-mode Plus I 2 C-bus interface, one SSP/SPI interface, one UART, four general-purpose counter/timers, an 8-bit ADC, and up to 27 general-purpose I/O pins. MK - Datasheet available on www.nxp.com
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Variants: |
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| LPC1112LVFHN24 | 32-bit ARM Cortex-M0 microcontroller The LPC111xLV/LPC11xxLVUK is an ARM Cortex-M0-based, low-cost 32-bit MCU family, designed for 8/16-bit microcontroller applications, offering performance, low power, simple instruction set and memory addressing together with reduced code size compared to existing 8/16-bit architectures. The LPC111xLV/LPC11xxLVUK operate at CPU frequencies of up to 50 MHz. The peripherals of the LPC111xLV/LPC11xxLVUK include up to 32 kB of flash memory, up to 8 kB of SRAM data memory, a Fast-mode Plus I 2 C-bus interface, one SSP/SPI interface, one UART, four general-purpose counter/timers, an 8-bit ADC, and up to 27 general-purpose I/O pins. MK - Datasheet available on www.nxp.com
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Variants: |
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| LPC1113FBD48 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1113FBD48/303 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1113FHN33 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1113FHN33/203 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1113FHN33/303 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1114FBD48 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1114FBD48/303 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1114FBD48/323 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1114FBD48/333 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1114FDH28 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1114FHI33/302 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1114FHI33/303 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1114FHN33 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1114FHN33/203 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1114FHN33/303 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1114FHN33/333 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1114FN28 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC1114LVFHI33 | 32-bit ARM Cortex-M0 microcontroller The LPC111xLV/LPC11xxLVUK is an ARM Cortex-M0-based, low-cost 32-bit MCU family, designed for 8/16-bit microcontroller applications, offering performance, low power, simple instruction set and memory addressing together with reduced code size compared to existing 8/16-bit architectures. The LPC111xLV/LPC11xxLVUK operate at CPU frequencies of up to 50 MHz. The peripherals of the LPC111xLV/LPC11xxLVUK include up to 32 kB of flash memory, up to 8 kB of SRAM data memory, a Fast-mode Plus I 2 C-bus interface, one SSP/SPI interface, one UART, four general-purpose counter/timers, an 8-bit ADC, and up to 27 general-purpose I/O pins. MK - Datasheet available on www.nxp.com
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Variants: |
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| LPC1114LVFHN24 | 32-bit ARM Cortex-M0 microcontroller The LPC111xLV/LPC11xxLVUK is an ARM Cortex-M0-based, low-cost 32-bit MCU family, designed for 8/16-bit microcontroller applications, offering performance, low power, simple instruction set and memory addressing together with reduced code size compared to existing 8/16-bit architectures. The LPC111xLV/LPC11xxLVUK operate at CPU frequencies of up to 50 MHz. The peripherals of the LPC111xLV/LPC11xxLVUK include up to 32 kB of flash memory, up to 8 kB of SRAM data memory, a Fast-mode Plus I 2 C-bus interface, one SSP/SPI interface, one UART, four general-purpose counter/timers, an 8-bit ADC, and up to 27 general-purpose I/O pins. MK - Datasheet available on www.nxp.com
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Variants: |
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| LPC1115FBD48/303 | 32-bit ARM Cortex-M0 microcontroller; up to 64 kB flash and 8 kB SRAM
The LPC1110/11/12/13/14/15 are a ARM Cortex-M0 based, low-cost 32-bit MCU family,
designed for 8/16-bit microcontroller applications, offering performance, low power, simple
instruction set and memory addressing together with reduced code size compared to
existing 8/16-bit architectures.
The LPC1110/11/12/13/14/15 operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC1110/11/12/13/14/15 includes up to 64 kB of flash
memory, up to 8 kB of data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 UART, up to two SPI interfaces with SSP features, four general purpose
counter/timers, a 10-bit ADC, and up to 42 general purpose I/O pins.
Remark: The LPC111x series consists of the LPC1100 series (parts
LPC111x/101/201/301), LPC1100L series (parts LPC111x/002/102/202/302), and the
LPC1100XL series (parts LPC111x/103/203/303/323/333). The LPC1100L and
LPC1100XL series include the power profiles, a windowed watchdog timer, and a
configurable open-drain mode.
AAL Eindhoven MK
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Variants: |
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| LPC11A13FHI33 | 32-bit ARM Cortex-M0 microcontroller; up to 32 kB flash, 8 kB
SRAM, 4 kB EEPROM; configurable analog/mixed-signal
The LPC11Axx are an ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11Axx operate at CPU frequencies of up to 50 MHz.
Analog/mixed-signal subsystems can be configured by software from interconnected
digital and analog peripherals.
The digital peripherals on the LPC11Axx include up to 32 kB of flash memory, up to 4 kB
of EEPROM data memory, up to 8 kB of SRAM data memory, a Fast-mode Plus I
2
C-bus
interface, a RS-485/EIA-485 USART, two SSP controllers, four general purpose
counter/timers, and up to 42 general purpose I/O pins.
Analog peripherals include a 10-bit ADC, a 10-bit DAC, an analog comparator, a
temperature sensor, an internal voltage reference, and UnderVoltage LockOut (UVLO)
protection.
AAL Eindhoven MK
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Variants: |
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| LPC11A1XFBD48 | 32-bit ARM Cortex-M0 microcontroller; up to 32 kB flash, 8 kB
SRAM, 4 kB EEPROM; configurable analog/mixed-signal
The LPC11Axx are an ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11Axx operate at CPU frequencies of up to 50 MHz.
Analog/mixed-signal subsystems can be configured by software from interconnected
digital and analog peripherals.
The digital peripherals on the LPC11Axx include up to 32 kB of flash memory, up to 4 kB
of EEPROM data memory, up to 8 kB of SRAM data memory, a Fast-mode Plus I
2
C-bus
interface, a RS-485/EIA-485 USART, two SSP controllers, four general purpose
counter/timers, and up to 42 general purpose I/O pins.
Analog peripherals include a 10-bit ADC, a 10-bit DAC, an analog comparator, a
temperature sensor, an internal voltage reference, and UnderVoltage LockOut (UVLO)
protection.
AAL Eindhoven MK
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Variants: |
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| LPC11A1XFHN33 | 32-bit ARM Cortex-M0 microcontroller; up to 32 kB flash, 8 kB
SRAM, 4 kB EEPROM; configurable analog/mixed-signal
The LPC11Axx are an ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11Axx operate at CPU frequencies of up to 50 MHz.
Analog/mixed-signal subsystems can be configured by software from interconnected
digital and analog peripherals.
The digital peripherals on the LPC11Axx include up to 32 kB of flash memory, up to 4 kB
of EEPROM data memory, up to 8 kB of SRAM data memory, a Fast-mode Plus I
2
C-bus
interface, a RS-485/EIA-485 USART, two SSP controllers, four general purpose
counter/timers, and up to 42 general purpose I/O pins.
Analog peripherals include a 10-bit ADC, a 10-bit DAC, an analog comparator, a
temperature sensor, an internal voltage reference, and UnderVoltage LockOut (UVLO)
protection.
AAL Eindhoven MK
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Variants: |
|
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| LPC11E36FHN33 | 32-bit ARM Cortex-M0 microcontroller; up to 128 kB flash; up
to 12 kB SRAM and 4 kB EEPROM; USART
The LPC11E3x are a ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11E3x operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC11E3x includes up to 128 kB of flash memory, up to
12 kB of SRAM data memory and 4 kB EEPROM, one Fast-mode Plus I
2
C-bus interface,
one RS-485/EIA-485 USART with support for synchronous mode and smart card
interface, two SSP interfaces, four general purpose counter/timers, a 10-bit ADC, and up
to 54 general purpose I/O pins.
AAL Eindhoven MK
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Variants: |
 |
|
| LPC11E3XFBD48 | 32-bit ARM Cortex-M0 microcontroller; up to 128 kB flash; up
to 12 kB SRAM and 4 kB EEPROM; USART
The LPC11E3x are a ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11E3x operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC11E3x includes up to 128 kB of flash memory, up to
12 kB of SRAM data memory and 4 kB EEPROM, one Fast-mode Plus I
2
C-bus interface,
one RS-485/EIA-485 USART with support for synchronous mode and smart card
interface, two SSP interfaces, four general purpose counter/timers, a 10-bit ADC, and up
to 54 general purpose I/O pins.
AAL Eindhoven MK
|
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Variants: |
 |
|
| LPC11E3XFBD64 | 32-bit ARM Cortex-M0 microcontroller; up to 128 kB flash; up
to 12 kB SRAM and 4 kB EEPROM; USART
The LPC11E3x are a ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11E3x operate at CPU frequencies of up to 50 MHz.
The peripheral complement of the LPC11E3x includes up to 128 kB of flash memory, up to
12 kB of SRAM data memory and 4 kB EEPROM, one Fast-mode Plus I
2
C-bus interface,
one RS-485/EIA-485 USART with support for synchronous mode and smart card
interface, two SSP interfaces, four general purpose counter/timers, a 10-bit ADC, and up
to 54 general purpose I/O pins.
AAL Eindhoven MK
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Variants: |
 |
 |
| LPC11U12FBD48 | 32-bit ARM Cortex-M0 microcontroller; up to 32 kB flash; 6 kB
SRAM; USB device; USART
The LPC11U1x are an ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U1x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full Speed USB 2.0 device controller, the
LPC11U1x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U1x includes up to 32 kB of flash memory, 6 kB
of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one RS-485/EIA-485
USART with support for synchronous mode and smart card interface, two SSP interfaces,
four general purpose counter/timers, a 10-bit ADC, and up to 40 general purpose I/O pins.
AAL Eindhoven MK
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|
Variants: |
 |
|
| LPC11U12FHN33 | 32-bit ARM Cortex-M0 microcontroller; up to 32 kB flash; 6 kB
SRAM; USB device; USART
The LPC11U1x are an ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U1x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full Speed USB 2.0 device controller, the
LPC11U1x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U1x includes up to 32 kB of flash memory, 6 kB
of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one RS-485/EIA-485
USART with support for synchronous mode and smart card interface, two SSP interfaces,
four general purpose counter/timers, a 10-bit ADC, and up to 40 general purpose I/O pins.
AAL Eindhoven MK
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Variants: |
 |
|
| LPC11U13FBD48 | 32-bit ARM Cortex-M0 microcontroller; up to 32 kB flash; 6 kB
SRAM; USB device; USART
The LPC11U1x are an ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U1x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full Speed USB 2.0 device controller, the
LPC11U1x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U1x includes up to 32 kB of flash memory, 6 kB
of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one RS-485/EIA-485
USART with support for synchronous mode and smart card interface, two SSP interfaces,
four general purpose counter/timers, a 10-bit ADC, and up to 40 general purpose I/O pins.
AAL Eindhoven MK
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Variants: |
|
|
| LPC11U14FBD48 | 32-bit ARM Cortex-M0 microcontroller; up to 32 kB flash; 6 kB
SRAM; USB device; USART
The LPC11U1x are an ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U1x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full Speed USB 2.0 device controller, the
LPC11U1x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U1x includes up to 32 kB of flash memory, 6 kB
of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one RS-485/EIA-485
USART with support for synchronous mode and smart card interface, two SSP interfaces,
four general purpose counter/timers, a 10-bit ADC, and up to 40 general purpose I/O pins.
AAL Eindhoven MK
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|
Variants: |
|
|
| LPC11U14FET48 | 32-bit ARM Cortex-M0 microcontroller; up to 32 kB flash; 6 kB
SRAM; USB device; USART
The LPC11U1x are an ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U1x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full Speed USB 2.0 device controller, the
LPC11U1x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U1x includes up to 32 kB of flash memory, 6 kB
of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one RS-485/EIA-485
USART with support for synchronous mode and smart card interface, two SSP interfaces,
four general purpose counter/timers, a 10-bit ADC, and up to 40 general purpose I/O pins.
AAL Eindhoven MK
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Variants: |
 |
 |
| LPC11U14FHI33 | 32-bit ARM Cortex-M0 microcontroller; up to 32 kB flash; 6 kB
SRAM; USB device; USART
The LPC11U1x are an ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U1x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full Speed USB 2.0 device controller, the
LPC11U1x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U1x includes up to 32 kB of flash memory, 6 kB
of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one RS-485/EIA-485
USART with support for synchronous mode and smart card interface, two SSP interfaces,
four general purpose counter/timers, a 10-bit ADC, and up to 40 general purpose I/O pins.
AAL Eindhoven MK
|
|
Variants: |
|
|
| LPC11U14FHN33 | 32-bit ARM Cortex-M0 microcontroller; up to 32 kB flash; 6 kB
SRAM; USB device; USART
The LPC11U1x are an ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U1x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full Speed USB 2.0 device controller, the
LPC11U1x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U1x includes up to 32 kB of flash memory, 6 kB
of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one RS-485/EIA-485
USART with support for synchronous mode and smart card interface, two SSP interfaces,
four general purpose counter/timers, a 10-bit ADC, and up to 40 general purpose I/O pins.
AAL Eindhoven MK
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Variants: |
|
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| LPC11U23FBD48 | 32-bit ARM Cortex-M0 microcontroller; up to 32 kB flash; up
to 10 kB SRAM and 4 kB EEPROM; USB device; USART
The LPC11U2x are an ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U2x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full-Speed USB 2.0 device controller, the
LPC11U2x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U2x includes up to 32 kB of flash memory, up to
10 kB of SRAM data memory and 4 kB EEPROM, one Fast-mode Plus I
2
C-bus interface,
one RS-485/EIA-485 USART with support for synchronous mode and smart card
interface, two SSP interfaces, four general-purpose counter/timers, a 10-bit ADC
(Analog-to-Digital Converter), and up to 54 general-purpose I/O pins. AAL Eindhoven MK
|
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Variants: |
|
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| LPC11U24FBD48 | 32-bit ARM Cortex-M0 microcontroller; up to 32 kB flash; up
to 10 kB SRAM and 4 kB EEPROM; USB device; USART
The LPC11U2x are an ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U2x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full-Speed USB 2.0 device controller, the
LPC11U2x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U2x includes up to 32 kB of flash memory, up to
10 kB of SRAM data memory and 4 kB EEPROM, one Fast-mode Plus I
2
C-bus interface,
one RS-485/EIA-485 USART with support for synchronous mode and smart card
interface, two SSP interfaces, four general-purpose counter/timers, a 10-bit ADC
(Analog-to-Digital Converter), and up to 54 general-purpose I/O pins. AAL Eindhoven MK
|
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Variants: |
|
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| LPC11U24FBD64 | 32-bit ARM Cortex-M0 microcontroller; up to 32 kB flash; up
to 10 kB SRAM and 4 kB EEPROM; USB device; USART
The LPC11U2x are an ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U2x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full-Speed USB 2.0 device controller, the
LPC11U2x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U2x includes up to 32 kB of flash memory, up to
10 kB of SRAM data memory and 4 kB EEPROM, one Fast-mode Plus I
2
C-bus interface,
one RS-485/EIA-485 USART with support for synchronous mode and smart card
interface, two SSP interfaces, four general-purpose counter/timers, a 10-bit ADC
(Analog-to-Digital Converter), and up to 54 general-purpose I/O pins. AAL Eindhoven MK
|
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Variants: |
 |
|
| LPC11U24FHI33 | 32-bit ARM Cortex-M0 microcontroller; up to 32 kB flash; up
to 10 kB SRAM and 4 kB EEPROM; USB device; USART
The LPC11U2x are an ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U2x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full-Speed USB 2.0 device controller, the
LPC11U2x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U2x includes up to 32 kB of flash memory, up to
10 kB of SRAM data memory and 4 kB EEPROM, one Fast-mode Plus I
2
C-bus interface,
one RS-485/EIA-485 USART with support for synchronous mode and smart card
interface, two SSP interfaces, four general-purpose counter/timers, a 10-bit ADC
(Analog-to-Digital Converter), and up to 54 general-purpose I/O pins. AAL Eindhoven MK
|
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Variants: |
|
|
| LPC11U24FHN33 | 32-bit ARM Cortex-M0 microcontroller; up to 32 kB flash; up
to 10 kB SRAM and 4 kB EEPROM; USB device; USART
The LPC11U2x are an ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U2x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full-Speed USB 2.0 device controller, the
LPC11U2x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U2x includes up to 32 kB of flash memory, up to
10 kB of SRAM data memory and 4 kB EEPROM, one Fast-mode Plus I
2
C-bus interface,
one RS-485/EIA-485 USART with support for synchronous mode and smart card
interface, two SSP interfaces, four general-purpose counter/timers, a 10-bit ADC
(Analog-to-Digital Converter), and up to 54 general-purpose I/O pins. AAL Eindhoven MK
|
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Variants: |
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| LPC11U34FBD48 | 32-bit ARM Cortex-M0 microcontroller; up to 128 kB flash; up
to 12 kB SRAM and 4 kB EEPROM; USB device; USART
The LPC11U3x are a ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U3x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full Speed USB 2.0 device controller, the
LPC11U3x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U3x includes up to 128 kB of flash memory, up
to 12 kB of SRAM data memory and 4 kB EEPROM, one Fast-mode Plus I
2
C-bus
interface, one RS-485/EIA-485 USART with support for synchronous mode and smart
card interface, two SSP interfaces, four general purpose counter/timers, a 10-bit ADC,
and up to 54 general purpose I/O pins.
AAL Eindhoven MK
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Variants: |
|
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| LPC11U34FHN33 | 32-bit ARM Cortex-M0 microcontroller; up to 128 kB flash; up
to 12 kB SRAM and 4 kB EEPROM; USB device; USART
The LPC11U3x are a ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U3x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full Speed USB 2.0 device controller, the
LPC11U3x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U3x includes up to 128 kB of flash memory, up
to 12 kB of SRAM data memory and 4 kB EEPROM, one Fast-mode Plus I
2
C-bus
interface, one RS-485/EIA-485 USART with support for synchronous mode and smart
card interface, two SSP interfaces, four general purpose counter/timers, a 10-bit ADC,
and up to 54 general purpose I/O pins.
AAL Eindhoven MK
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Variants: |
|
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| LPC11U35FBD48 | 32-bit ARM Cortex-M0 microcontroller; up to 128 kB flash; up
to 12 kB SRAM and 4 kB EEPROM; USB device; USART
The LPC11U3x are a ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U3x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full Speed USB 2.0 device controller, the
LPC11U3x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U3x includes up to 128 kB of flash memory, up
to 12 kB of SRAM data memory and 4 kB EEPROM, one Fast-mode Plus I
2
C-bus
interface, one RS-485/EIA-485 USART with support for synchronous mode and smart
card interface, two SSP interfaces, four general purpose counter/timers, a 10-bit ADC,
and up to 54 general purpose I/O pins.
AAL Eindhoven MK
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Variants: |
|
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| LPC11U35FBD64 | 32-bit ARM Cortex-M0 microcontroller; up to 128 kB flash; up
to 12 kB SRAM and 4 kB EEPROM; USB device; USART
The LPC11U3x are a ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U3x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full Speed USB 2.0 device controller, the
LPC11U3x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U3x includes up to 128 kB of flash memory, up
to 12 kB of SRAM data memory and 4 kB EEPROM, one Fast-mode Plus I
2
C-bus
interface, one RS-485/EIA-485 USART with support for synchronous mode and smart
card interface, two SSP interfaces, four general purpose counter/timers, a 10-bit ADC,
and up to 54 general purpose I/O pins.
AAL Eindhoven MK
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Variants: |
|
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| LPC11U35FET48 | 32-bit ARM Cortex-M0 microcontroller; up to 128 kB flash; up
to 12 kB SRAM and 4 kB EEPROM; USB device; USART
The LPC11U3x are a ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U3x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full Speed USB 2.0 device controller, the
LPC11U3x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U3x includes up to 128 kB of flash memory, up
to 12 kB of SRAM data memory and 4 kB EEPROM, one Fast-mode Plus I
2
C-bus
interface, one RS-485/EIA-485 USART with support for synchronous mode and smart
card interface, two SSP interfaces, four general purpose counter/timers, a 10-bit ADC,
and up to 54 general purpose I/O pins.
AAL Eindhoven MK
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|
Variants: |
|
|
| LPC11U35FHI33 | 32-bit ARM Cortex-M0 microcontroller; up to 128 kB flash; up
to 12 kB SRAM and 4 kB EEPROM; USB device; USART
The LPC11U3x are a ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U3x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full Speed USB 2.0 device controller, the
LPC11U3x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U3x includes up to 128 kB of flash memory, up
to 12 kB of SRAM data memory and 4 kB EEPROM, one Fast-mode Plus I
2
C-bus
interface, one RS-485/EIA-485 USART with support for synchronous mode and smart
card interface, two SSP interfaces, four general purpose counter/timers, a 10-bit ADC,
and up to 54 general purpose I/O pins.
AAL Eindhoven MK
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|
Variants: |
|
|
| LPC11U35FHN33 | 32-bit ARM Cortex-M0 microcontroller; up to 128 kB flash; up
to 12 kB SRAM and 4 kB EEPROM; USB device; USART
The LPC11U3x are a ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U3x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full Speed USB 2.0 device controller, the
LPC11U3x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U3x includes up to 128 kB of flash memory, up
to 12 kB of SRAM data memory and 4 kB EEPROM, one Fast-mode Plus I
2
C-bus
interface, one RS-485/EIA-485 USART with support for synchronous mode and smart
card interface, two SSP interfaces, four general purpose counter/timers, a 10-bit ADC,
and up to 54 general purpose I/O pins.
AAL Eindhoven MK
|
|
Variants: |
|
|
| LPC11U36FBD48 | 32-bit ARM Cortex-M0 microcontroller; up to 128 kB flash; up
to 12 kB SRAM and 4 kB EEPROM; USB device; USART
The LPC11U3x are a ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U3x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full Speed USB 2.0 device controller, the
LPC11U3x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U3x includes up to 128 kB of flash memory, up
to 12 kB of SRAM data memory and 4 kB EEPROM, one Fast-mode Plus I
2
C-bus
interface, one RS-485/EIA-485 USART with support for synchronous mode and smart
card interface, two SSP interfaces, four general purpose counter/timers, a 10-bit ADC,
and up to 54 general purpose I/O pins.
AAL Eindhoven MK
|
|
Variants: |
|
|
| LPC11U36FBD64 | 32-bit ARM Cortex-M0 microcontroller; up to 128 kB flash; up
to 12 kB SRAM and 4 kB EEPROM; USB device; USART
The LPC11U3x are a ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U3x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full Speed USB 2.0 device controller, the
LPC11U3x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U3x includes up to 128 kB of flash memory, up
to 12 kB of SRAM data memory and 4 kB EEPROM, one Fast-mode Plus I
2
C-bus
interface, one RS-485/EIA-485 USART with support for synchronous mode and smart
card interface, two SSP interfaces, four general purpose counter/timers, a 10-bit ADC,
and up to 54 general purpose I/O pins.
AAL Eindhoven MK
|
|
Variants: |
|
|
| LPC11U37FBD48 | 32-bit ARM Cortex-M0 microcontroller; up to 128 kB flash; up
to 12 kB SRAM and 4 kB EEPROM; USB device; USART
The LPC11U3x are a ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U3x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full Speed USB 2.0 device controller, the
LPC11U3x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U3x includes up to 128 kB of flash memory, up
to 12 kB of SRAM data memory and 4 kB EEPROM, one Fast-mode Plus I
2
C-bus
interface, one RS-485/EIA-485 USART with support for synchronous mode and smart
card interface, two SSP interfaces, four general purpose counter/timers, a 10-bit ADC,
and up to 54 general purpose I/O pins.
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| LPC11U37FBD64 | 32-bit ARM Cortex-M0 microcontroller; up to 128 kB flash; up
to 12 kB SRAM and 4 kB EEPROM; USB device; USART
The LPC11U3x are a ARM Cortex-M0 based, low-cost 32-bit MCU family, designed for
8/16-bit microcontroller applications, offering performance, low power, simple instruction
set and memory addressing together with reduced code size compared to existing 8/16-bit
architectures.
The LPC11U3x operate at CPU frequencies of up to 50 MHz.
Equipped with a highly flexible and configurable Full Speed USB 2.0 device controller, the
LPC11U3x brings unparalleled design flexibility and seamless integration to todayâs
demanding connectivity solutions.
The peripheral complement of the LPC11U3x includes up to 128 kB of flash memory, up
to 12 kB of SRAM data memory and 4 kB EEPROM, one Fast-mode Plus I
2
C-bus
interface, one RS-485/EIA-485 USART with support for synchronous mode and smart
card interface, two SSP interfaces, four general purpose counter/timers, a 10-bit ADC,
and up to 54 general purpose I/O pins.
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| LPC122XFBD48 | NXP ARM M0 32 bit Microcontroller AAL Eindhoven MV+ MK
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| LPC122XFBD64 | NXP ARM M0 32 bit Microcontroller AAL Eindhoven MV+ MK
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| LPC12D27FBD100 | LPC12D27 32-bit ARM Cortex-M0 microcontroller; 128 kB flash and 8 kB SRAM; 40 segment x 4 LCD driver AAL Eindhoven MK
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| LPC1311FHN33 | 32-bit ARM Cortex-M3 microcontroller; up to 32 kB flash and
8 kB SRAM; USB device
The LPC1311/13/42/43 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1311/13/42/43 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
The peripheral complement of the LPC1311/13/42/43 includes up to 32 kB of flash
memory, up to 8 kB of data memory, USB Device (LPC1342/43 only), one Fast-mode Plus
I
2
C-bus interface, one UART, four general purpose timers, and up to 42 general purpose
I/O pins.
Remark: The LPC1311/13/42/43 series consists of the LPC1300 series (parts
LPC1311/13/42/43) and the LPC1300L series (parts LPC1311/01 and LPC1313/01). The
LPC1300L series features the following enhancements over the LPC1300 series:
Power profiles with lower power consumption in Active and Sleep modes.
Four levels for BOD forced reset.
Second SSP controller (LPC1313FBD48/01 only).
Windowed Watchdog Timer (WWDT).
Internal pull-up resistors pull up pins to full VDD level.
Programmable pseudo open-drain mode for GPIO pins.
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| LPC1313FBD48 | 32-bit ARM Cortex-M3 microcontroller; up to 32 kB flash and
8 kB SRAM; USB device
The LPC1311/13/42/43 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1311/13/42/43 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
The peripheral complement of the LPC1311/13/42/43 includes up to 32 kB of flash
memory, up to 8 kB of data memory, USB Device (LPC1342/43 only), one Fast-mode Plus
I
2
C-bus interface, one UART, four general purpose timers, and up to 42 general purpose
I/O pins.
Remark: The LPC1311/13/42/43 series consists of the LPC1300 series (parts
LPC1311/13/42/43) and the LPC1300L series (parts LPC1311/01 and LPC1313/01). The
LPC1300L series features the following enhancements over the LPC1300 series:
Power profiles with lower power consumption in Active and Sleep modes.
Four levels for BOD forced reset.
Second SSP controller (LPC1313FBD48/01 only).
Windowed Watchdog Timer (WWDT).
Internal pull-up resistors pull up pins to full VDD level.
Programmable pseudo open-drain mode for GPIO pins.
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| LPC1313FBD48/01 | 32-bit ARM Cortex-M3 microcontroller; up to 32 kB flash and
8 kB SRAM; USB device
The LPC1311/13/42/43 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1311/13/42/43 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
The peripheral complement of the LPC1311/13/42/43 includes up to 32 kB of flash
memory, up to 8 kB of data memory, USB Device (LPC1342/43 only), one Fast-mode Plus
I
2
C-bus interface, one UART, four general purpose timers, and up to 42 general purpose
I/O pins.
Remark: The LPC1311/13/42/43 series consists of the LPC1300 series (parts
LPC1311/13/42/43) and the LPC1300L series (parts LPC1311/01 and LPC1313/01). The
LPC1300L series features the following enhancements over the LPC1300 series:
Power profiles with lower power consumption in Active and Sleep modes.
Four levels for BOD forced reset.
Second SSP controller (LPC1313FBD48/01 only).
Windowed Watchdog Timer (WWDT).
Internal pull-up resistors pull up pins to full VDD level.
Programmable pseudo open-drain mode for GPIO pins.
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| LPC1313FHN33 | 32-bit ARM Cortex-M3 microcontroller; up to 32 kB flash and
8 kB SRAM; USB device
The LPC1311/13/42/43 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1311/13/42/43 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
The peripheral complement of the LPC1311/13/42/43 includes up to 32 kB of flash
memory, up to 8 kB of data memory, USB Device (LPC1342/43 only), one Fast-mode Plus
I
2
C-bus interface, one UART, four general purpose timers, and up to 42 general purpose
I/O pins.
Remark: The LPC1311/13/42/43 series consists of the LPC1300 series (parts
LPC1311/13/42/43) and the LPC1300L series (parts LPC1311/01 and LPC1313/01). The
LPC1300L series features the following enhancements over the LPC1300 series:
Power profiles with lower power consumption in Active and Sleep modes.
Four levels for BOD forced reset.
Second SSP controller (LPC1313FBD48/01 only).
Windowed Watchdog Timer (WWDT).
Internal pull-up resistors pull up pins to full VDD level.
Programmable pseudo open-drain mode for GPIO pins.
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| LPC1315FBD48 | 32-bit ARM Cortex-M3 microcontroller; up to 64 kB flash;
up to 12 kB SRAM; USB device; USART; EEPROM
The LPC1315/16/17/45/46/47 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1315/16/17/45/46/47 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
Equipped with a highly flexible and configurable Full-Speed USB 2.0 device controller
available on the LPC1345/46/47, this series brings unparalleled design flexibility and
seamless integration to todayâs demanding connectivity solutions.
The peripheral complement of the LPC1315/16/17/45/46/47 includes up to 64 kB of flash
memory, 8 kB or 10 kB of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 USART with support for synchronous mode and smart card interface,
two SSP interfaces, four general purpose counter/timers, an 8-channel, 12-bit ADC, and
up to 51 general purpose I/O pins.
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Variants: |
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| LPC1315FHN33 | 32-bit ARM Cortex-M3 microcontroller; up to 64 kB flash;
up to 12 kB SRAM; USB device; USART; EEPROM
The LPC1315/16/17/45/46/47 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1315/16/17/45/46/47 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
Equipped with a highly flexible and configurable Full-Speed USB 2.0 device controller
available on the LPC1345/46/47, this series brings unparalleled design flexibility and
seamless integration to todayâs demanding connectivity solutions.
The peripheral complement of the LPC1315/16/17/45/46/47 includes up to 64 kB of flash
memory, 8 kB or 10 kB of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 USART with support for synchronous mode and smart card interface,
two SSP interfaces, four general purpose counter/timers, an 8-channel, 12-bit ADC, and
up to 51 general purpose I/O pins.
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Variants: |
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| LPC1316FBD48 | 32-bit ARM Cortex-M3 microcontroller; up to 64 kB flash;
up to 12 kB SRAM; USB device; USART; EEPROM
The LPC1315/16/17/45/46/47 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1315/16/17/45/46/47 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
Equipped with a highly flexible and configurable Full-Speed USB 2.0 device controller
available on the LPC1345/46/47, this series brings unparalleled design flexibility and
seamless integration to todayâs demanding connectivity solutions.
The peripheral complement of the LPC1315/16/17/45/46/47 includes up to 64 kB of flash
memory, 8 kB or 10 kB of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 USART with support for synchronous mode and smart card interface,
two SSP interfaces, four general purpose counter/timers, an 8-channel, 12-bit ADC, and
up to 51 general purpose I/O pins.
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Variants: |
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| LPC1316FHN33 | 32-bit ARM Cortex-M3 microcontroller; up to 64 kB flash;
up to 12 kB SRAM; USB device; USART; EEPROM
The LPC1315/16/17/45/46/47 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1315/16/17/45/46/47 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
Equipped with a highly flexible and configurable Full-Speed USB 2.0 device controller
available on the LPC1345/46/47, this series brings unparalleled design flexibility and
seamless integration to todayâs demanding connectivity solutions.
The peripheral complement of the LPC1315/16/17/45/46/47 includes up to 64 kB of flash
memory, 8 kB or 10 kB of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 USART with support for synchronous mode and smart card interface,
two SSP interfaces, four general purpose counter/timers, an 8-channel, 12-bit ADC, and
up to 51 general purpose I/O pins.
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Variants: |
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| LPC1317FBD48 | 32-bit ARM Cortex-M3 microcontroller; up to 64 kB flash;
up to 12 kB SRAM; USB device; USART; EEPROM
The LPC1315/16/17/45/46/47 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1315/16/17/45/46/47 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
Equipped with a highly flexible and configurable Full-Speed USB 2.0 device controller
available on the LPC1345/46/47, this series brings unparalleled design flexibility and
seamless integration to todayâs demanding connectivity solutions.
The peripheral complement of the LPC1315/16/17/45/46/47 includes up to 64 kB of flash
memory, 8 kB or 10 kB of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 USART with support for synchronous mode and smart card interface,
two SSP interfaces, four general purpose counter/timers, an 8-channel, 12-bit ADC, and
up to 51 general purpose I/O pins.
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Variants: |
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| LPC1317FBD64 | 32-bit ARM Cortex-M3 microcontroller; up to 64 kB flash;
up to 12 kB SRAM; USB device; USART; EEPROM
The LPC1315/16/17/45/46/47 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1315/16/17/45/46/47 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
Equipped with a highly flexible and configurable Full-Speed USB 2.0 device controller
available on the LPC1345/46/47, this series brings unparalleled design flexibility and
seamless integration to todayâs demanding connectivity solutions.
The peripheral complement of the LPC1315/16/17/45/46/47 includes up to 64 kB of flash
memory, 8 kB or 10 kB of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 USART with support for synchronous mode and smart card interface,
two SSP interfaces, four general purpose counter/timers, an 8-channel, 12-bit ADC, and
up to 51 general purpose I/O pins.
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Variants: |
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| LPC1317FHN33 | 32-bit ARM Cortex-M3 microcontroller; up to 64 kB flash;
up to 12 kB SRAM; USB device; USART; EEPROM
The LPC1315/16/17/45/46/47 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1315/16/17/45/46/47 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
Equipped with a highly flexible and configurable Full-Speed USB 2.0 device controller
available on the LPC1345/46/47, this series brings unparalleled design flexibility and
seamless integration to todayâs demanding connectivity solutions.
The peripheral complement of the LPC1315/16/17/45/46/47 includes up to 64 kB of flash
memory, 8 kB or 10 kB of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 USART with support for synchronous mode and smart card interface,
two SSP interfaces, four general purpose counter/timers, an 8-channel, 12-bit ADC, and
up to 51 general purpose I/O pins.
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Variants: |
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| LPC1342FBD48 | 32-bit ARM Cortex-M3 microcontroller; up to 32 kB flash and
8 kB SRAM; USB device
The LPC1311/13/42/43 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1311/13/42/43 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
The peripheral complement of the LPC1311/13/42/43 includes up to 32 kB of flash
memory, up to 8 kB of data memory, USB Device (LPC1342/43 only), one Fast-mode Plus
I
2
C-bus interface, one UART, four general purpose timers, and up to 42 general purpose
I/O pins.
Remark: The LPC1311/13/42/43 series consists of the LPC1300 series (parts
LPC1311/13/42/43) and the LPC1300L series (parts LPC1311/01 and LPC1313/01). The
LPC1300L series features the following enhancements over the LPC1300 series:
Power profiles with lower power consumption in Active and Sleep modes.
Four levels for BOD forced reset.
Second SSP controller (LPC1313FBD48/01 only).
Windowed Watchdog Timer (WWDT).
Internal pull-up resistors pull up pins to full VDD level.
Programmable pseudo open-drain mode for GPIO pins.
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| LPC1342FHN33 | 32-bit ARM Cortex-M3 microcontroller; up to 32 kB flash and
8 kB SRAM; USB device
The LPC1311/13/42/43 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1311/13/42/43 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
The peripheral complement of the LPC1311/13/42/43 includes up to 32 kB of flash
memory, up to 8 kB of data memory, USB Device (LPC1342/43 only), one Fast-mode Plus
I
2
C-bus interface, one UART, four general purpose timers, and up to 42 general purpose
I/O pins.
Remark: The LPC1311/13/42/43 series consists of the LPC1300 series (parts
LPC1311/13/42/43) and the LPC1300L series (parts LPC1311/01 and LPC1313/01). The
LPC1300L series features the following enhancements over the LPC1300 series:
Power profiles with lower power consumption in Active and Sleep modes.
Four levels for BOD forced reset.
Second SSP controller (LPC1313FBD48/01 only).
Windowed Watchdog Timer (WWDT).
Internal pull-up resistors pull up pins to full VDD level.
Programmable pseudo open-drain mode for GPIO pins.
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Variants: |
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| LPC1343FBD48 | 32-bit ARM Cortex-M3 microcontroller; up to 32 kB flash and
8 kB SRAM; USB device
The LPC1311/13/42/43 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1311/13/42/43 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
The peripheral complement of the LPC1311/13/42/43 includes up to 32 kB of flash
memory, up to 8 kB of data memory, USB Device (LPC1342/43 only), one Fast-mode Plus
I
2
C-bus interface, one UART, four general purpose timers, and up to 42 general purpose
I/O pins.
Remark: The LPC1311/13/42/43 series consists of the LPC1300 series (parts
LPC1311/13/42/43) and the LPC1300L series (parts LPC1311/01 and LPC1313/01). The
LPC1300L series features the following enhancements over the LPC1300 series:
Power profiles with lower power consumption in Active and Sleep modes.
Four levels for BOD forced reset.
Second SSP controller (LPC1313FBD48/01 only).
Windowed Watchdog Timer (WWDT).
Internal pull-up resistors pull up pins to full VDD level.
Programmable pseudo open-drain mode for GPIO pins.
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Variants: |
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| LPC1343FHN33 | 32-bit ARM Cortex-M3 microcontroller; up to 32 kB flash and
8 kB SRAM; USB device
The LPC1311/13/42/43 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1311/13/42/43 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
The peripheral complement of the LPC1311/13/42/43 includes up to 32 kB of flash
memory, up to 8 kB of data memory, USB Device (LPC1342/43 only), one Fast-mode Plus
I
2
C-bus interface, one UART, four general purpose timers, and up to 42 general purpose
I/O pins.
Remark: The LPC1311/13/42/43 series consists of the LPC1300 series (parts
LPC1311/13/42/43) and the LPC1300L series (parts LPC1311/01 and LPC1313/01). The
LPC1300L series features the following enhancements over the LPC1300 series:
Power profiles with lower power consumption in Active and Sleep modes.
Four levels for BOD forced reset.
Second SSP controller (LPC1313FBD48/01 only).
Windowed Watchdog Timer (WWDT).
Internal pull-up resistors pull up pins to full VDD level.
Programmable pseudo open-drain mode for GPIO pins.
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Variants: |
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| LPC1345FBD48 | 32-bit ARM Cortex-M3 microcontroller; up to 64 kB flash;
up to 12 kB SRAM; USB device; USART; EEPROM
The LPC1315/16/17/45/46/47 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1315/16/17/45/46/47 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
Equipped with a highly flexible and configurable Full-Speed USB 2.0 device controller
available on the LPC1345/46/47, this series brings unparalleled design flexibility and
seamless integration to todayâs demanding connectivity solutions.
The peripheral complement of the LPC1315/16/17/45/46/47 includes up to 64 kB of flash
memory, 8 kB or 10 kB of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 USART with support for synchronous mode and smart card interface,
two SSP interfaces, four general purpose counter/timers, an 8-channel, 12-bit ADC, and
up to 51 general purpose I/O pins.
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Variants: |
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| LPC1345FHN33 | 32-bit ARM Cortex-M3 microcontroller; up to 64 kB flash;
up to 12 kB SRAM; USB device; USART; EEPROM
The LPC1315/16/17/45/46/47 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1315/16/17/45/46/47 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
Equipped with a highly flexible and configurable Full-Speed USB 2.0 device controller
available on the LPC1345/46/47, this series brings unparalleled design flexibility and
seamless integration to todayâs demanding connectivity solutions.
The peripheral complement of the LPC1315/16/17/45/46/47 includes up to 64 kB of flash
memory, 8 kB or 10 kB of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 USART with support for synchronous mode and smart card interface,
two SSP interfaces, four general purpose counter/timers, an 8-channel, 12-bit ADC, and
up to 51 general purpose I/O pins.
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| LPC1346FBD48 | 32-bit ARM Cortex-M3 microcontroller; up to 64 kB flash;
up to 12 kB SRAM; USB device; USART; EEPROM
The LPC1315/16/17/45/46/47 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1315/16/17/45/46/47 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
Equipped with a highly flexible and configurable Full-Speed USB 2.0 device controller
available on the LPC1345/46/47, this series brings unparalleled design flexibility and
seamless integration to todayâs demanding connectivity solutions.
The peripheral complement of the LPC1315/16/17/45/46/47 includes up to 64 kB of flash
memory, 8 kB or 10 kB of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 USART with support for synchronous mode and smart card interface,
two SSP interfaces, four general purpose counter/timers, an 8-channel, 12-bit ADC, and
up to 51 general purpose I/O pins.
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| LPC1346FHN33 | 32-bit ARM Cortex-M3 microcontroller; up to 64 kB flash;
up to 12 kB SRAM; USB device; USART; EEPROM
The LPC1315/16/17/45/46/47 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1315/16/17/45/46/47 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
Equipped with a highly flexible and configurable Full-Speed USB 2.0 device controller
available on the LPC1345/46/47, this series brings unparalleled design flexibility and
seamless integration to todayâs demanding connectivity solutions.
The peripheral complement of the LPC1315/16/17/45/46/47 includes up to 64 kB of flash
memory, 8 kB or 10 kB of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 USART with support for synchronous mode and smart card interface,
two SSP interfaces, four general purpose counter/timers, an 8-channel, 12-bit ADC, and
up to 51 general purpose I/O pins.
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| LPC1347FBD48 | 32-bit ARM Cortex-M3 microcontroller; up to 64 kB flash;
up to 12 kB SRAM; USB device; USART; EEPROM
The LPC1315/16/17/45/46/47 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1315/16/17/45/46/47 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
Equipped with a highly flexible and configurable Full-Speed USB 2.0 device controller
available on the LPC1345/46/47, this series brings unparalleled design flexibility and
seamless integration to todayâs demanding connectivity solutions.
The peripheral complement of the LPC1315/16/17/45/46/47 includes up to 64 kB of flash
memory, 8 kB or 10 kB of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 USART with support for synchronous mode and smart card interface,
two SSP interfaces, four general purpose counter/timers, an 8-channel, 12-bit ADC, and
up to 51 general purpose I/O pins.
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| LPC1347FBD64 | 32-bit ARM Cortex-M3 microcontroller; up to 64 kB flash;
up to 12 kB SRAM; USB device; USART; EEPROM
The LPC1315/16/17/45/46/47 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1315/16/17/45/46/47 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
Equipped with a highly flexible and configurable Full-Speed USB 2.0 device controller
available on the LPC1345/46/47, this series brings unparalleled design flexibility and
seamless integration to todayâs demanding connectivity solutions.
The peripheral complement of the LPC1315/16/17/45/46/47 includes up to 64 kB of flash
memory, 8 kB or 10 kB of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 USART with support for synchronous mode and smart card interface,
two SSP interfaces, four general purpose counter/timers, an 8-channel, 12-bit ADC, and
up to 51 general purpose I/O pins.
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| LPC1347FHN33 | 32-bit ARM Cortex-M3 microcontroller; up to 64 kB flash;
up to 12 kB SRAM; USB device; USART; EEPROM
The LPC1315/16/17/45/46/47 are ARM Cortex-M3 based microcontrollers for embedded
applications featuring a high level of integration and low power consumption. The ARM
Cortex-M3 is a next generation core that offers system enhancements such as enhanced
debug features and a higher level of support block integration.
The LPC1315/16/17/45/46/47 operate at CPU frequencies of up to 72 MHz. The ARM
Cortex-M3 CPU incorporates a 3-stage pipeline and uses a Harvard architecture with
separate local instruction and data buses as well as a third bus for peripherals. The ARM
Cortex-M3 CPU also includes an internal prefetch unit that supports speculative
branching.
Equipped with a highly flexible and configurable Full-Speed USB 2.0 device controller
available on the LPC1345/46/47, this series brings unparalleled design flexibility and
seamless integration to todayâs demanding connectivity solutions.
The peripheral complement of the LPC1315/16/17/45/46/47 includes up to 64 kB of flash
memory, 8 kB or 10 kB of SRAM data memory, one Fast-mode Plus I
2
C-bus interface, one
RS-485/EIA-485 USART with support for synchronous mode and smart card interface,
two SSP interfaces, four general purpose counter/timers, an 8-channel, 12-bit ADC, and
up to 51 general purpose I/O pins.
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| LPC1751FBD80 | LPC1751 100 MHz 32-bit ARM Cortex-M3 based microcontroller featuring a high level of integration and low power consumption. 32 kB Flash, 8 kB SRAM, USB Device, CAN MarcVl - Datasheet available on www.nxp.com |
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Variants: |
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| LPC1752FBD80 | LPC1752 100 MHz 32-bit ARM Cortex-M3 based microcontroller featuring a high level of integration and low power consumption. 64 kB Flash, 16 kB SRAM, USB Device, CAN MarcVl - Datasheet available on www.nxp.com |
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Variants: |
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| LPC1754FBD80 | LPC1754 100 MHz 32-bit ARM Cortex-M3 based microcontroller featuring a high level of integration and low power consumption. 128 kB Flash, 32 kB SRAM, USB Device/Host/OTG, CAN, DAC MarcVl - Datasheet available on www.nxp.com |
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Variants: |
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| LPC1756FBD80 | LPC1756 100 MHz 32-bit ARM Cortex-M3 based microcontroller featuring a high level of integration and low power consumption. 256 kB Flash, 32 kB SRAM, USB Device/Host/OTG, 2 CAN, DAC MarcVl - Datasheet available on www.nxp.com |
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Variants: |
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| LPC1758FBD80 | LPC1758 100 MHz 32-bit ARM Cortex-M3 based microcontroller featuring a high level of integration and low power consumption. 512 kB Flash, 64 kB SRAM, USB Device/Host/OTG, 2 CAN, DAC, Ethernet MarcVl - Datasheet available on www.nxp.com |
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Variants: |
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| LPC1764FBD100 | LPC1764 100 MHz 32-bit ARM Cortex-M3 based microcontroller featuring a high level of integration and low power consumption. 128 kB Flash, 32 kB SRAM, USB Device, 2 CAN, Ethernet MarcVl - Datasheet available on www.nxp.com |
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Variants: |
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| LPC1765FBD100 | LPC1765 100 MHz 32-bit ARM Cortex-M3 based microcontroller featuring a high level of integration and low power consumption. 256 kB Flash, 64 kB SRAM, USB Device/Host/OTG, 2 CAN, DAC MarcVl - Datasheet available on www.nxp.com
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Variants: |
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| LPC1766FBD100 | LPC1766 100 MHz 32-bit ARM Cortex-M3 based microcontroller featuring a high level of integration and low power consumption. 256 kB Flash, 64 kB SRAM, USB Device/Host/OTG, 2 CAN, DAC, Ethernet MarcVl - Datasheet available on www.nxp.com |
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Variants: |
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| LPC1768FBD100 | LPC1768 100 MHz 32-bit ARM Cortex-M3 based microcontroller featuring a high level of integration and low power consumption. 512 kB Flash, 64 kB SRAM, USB Device/Host/OTG, 2 CAN, DAC, Ethernet MarcVl - Datasheet available on www.nxp.com |
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Variants: |
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| LPC1768FET100 | LPC1768 100 MHz 32-bit ARM Cortex-M3 based microcontroller featuring a high level of integration and low power consumption. 512 kB Flash, 64 kB SRAM, USB Device/Host/OTG, 2 CAN, DAC, Ethernet MarcVl - Datasheet available on www.nxp.comPackage added by AAL Eindhoven MV+ MK
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| LPC4072FBD80 | 32-bit ARM Cortex-M4 MCU; up to 512 kB flash, 96 kB SRAM;
USB Device/Host/OTG; Ethernet; LCD; EMC; SPIFI
The LPC408x/7x is an ARM Cortex-M4 based digital signal controller for embedded
applications requiring a high level of integration and low power dissipation.
The ARM Cortex-M4 is a next generation core that offers system enhancements such as
low power consumption, enhanced debug features, and a high level of support block
integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a Harvard
architecture with separate local instruction and data buses as well as a third bus for
peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point processor is integrated in the core for several
versions of the part.
The LPC408x/7x adds a specialized flash memory accelerator to accomplish optimal
performance when executing code from flash. The LPC408x/7x is targeted to operate at
up to 120 MHz CPU frequency.
The peripheral complement of the LPC408x/7x includes up to 512 kB of flash program
memory, up to 96 kB of SRAM data memory, up to 4032 byte of EEPROM data memory,
External Memory controller (EMC), LCD, Ethernet, USB Device/Host/OTG, an SPI Flash
Interface (SPIFI), a General Purpose DMA controller, five UARTs, three SSP controllers,
three I
2
C-bus interfaces, a Quadrature Encoder Interface, four general purpose timers,
two general purpose PWMs with six outputs each and one motor control PWM, an
ultra-low power RTC with separate battery supply and event recorder, a windowed
watchdog timer, a CRC calculation engine and up to 165 general purpose I/O pins.
The analog peripherals include one eight-channel 12-bit ADC, two analog comparators,
and a DAC.
The pinout of LPC408x/7x is intended to allow pin function compatibility with the
LPC24xx/23xx as well as the LPC178x/7x families.
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| LPC4074FBD144 | 32-bit ARM Cortex-M4 MCU; up to 512 kB flash, 96 kB SRAM;
USB Device/Host/OTG; Ethernet; LCD; EMC; SPIFI
The LPC408x/7x is an ARM Cortex-M4 based digital signal controller for embedded
applications requiring a high level of integration and low power dissipation.
The ARM Cortex-M4 is a next generation core that offers system enhancements such as
low power consumption, enhanced debug features, and a high level of support block
integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a Harvard
architecture with separate local instruction and data buses as well as a third bus for
peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point processor is integrated in the core for several
versions of the part.
The LPC408x/7x adds a specialized flash memory accelerator to accomplish optimal
performance when executing code from flash. The LPC408x/7x is targeted to operate at
up to 120 MHz CPU frequency.
The peripheral complement of the LPC408x/7x includes up to 512 kB of flash program
memory, up to 96 kB of SRAM data memory, up to 4032 byte of EEPROM data memory,
External Memory controller (EMC), LCD, Ethernet, USB Device/Host/OTG, an SPI Flash
Interface (SPIFI), a General Purpose DMA controller, five UARTs, three SSP controllers,
three I
2
C-bus interfaces, a Quadrature Encoder Interface, four general purpose timers,
two general purpose PWMs with six outputs each and one motor control PWM, an
ultra-low power RTC with separate battery supply and event recorder, a windowed
watchdog timer, a CRC calculation engine and up to 165 general purpose I/O pins.
The analog peripherals include one eight-channel 12-bit ADC, two analog comparators,
and a DAC.
The pinout of LPC408x/7x is intended to allow pin function compatibility with the
LPC24xx/23xx as well as the LPC178x/7x families.
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Variants: |
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| LPC4074FBD80 | 32-bit ARM Cortex-M4 MCU; up to 512 kB flash, 96 kB SRAM;
USB Device/Host/OTG; Ethernet; LCD; EMC; SPIFI
The LPC408x/7x is an ARM Cortex-M4 based digital signal controller for embedded
applications requiring a high level of integration and low power dissipation.
The ARM Cortex-M4 is a next generation core that offers system enhancements such as
low power consumption, enhanced debug features, and a high level of support block
integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a Harvard
architecture with separate local instruction and data buses as well as a third bus for
peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point processor is integrated in the core for several
versions of the part.
The LPC408x/7x adds a specialized flash memory accelerator to accomplish optimal
performance when executing code from flash. The LPC408x/7x is targeted to operate at
up to 120 MHz CPU frequency.
The peripheral complement of the LPC408x/7x includes up to 512 kB of flash program
memory, up to 96 kB of SRAM data memory, up to 4032 byte of EEPROM data memory,
External Memory controller (EMC), LCD, Ethernet, USB Device/Host/OTG, an SPI Flash
Interface (SPIFI), a General Purpose DMA controller, five UARTs, three SSP controllers,
three I
2
C-bus interfaces, a Quadrature Encoder Interface, four general purpose timers,
two general purpose PWMs with six outputs each and one motor control PWM, an
ultra-low power RTC with separate battery supply and event recorder, a windowed
watchdog timer, a CRC calculation engine and up to 165 general purpose I/O pins.
The analog peripherals include one eight-channel 12-bit ADC, two analog comparators,
and a DAC.
The pinout of LPC408x/7x is intended to allow pin function compatibility with the
LPC24xx/23xx as well as the LPC178x/7x families.
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| LPC4076FBD144 | 32-bit ARM Cortex-M4 MCU; up to 512 kB flash, 96 kB SRAM;
USB Device/Host/OTG; Ethernet; LCD; EMC; SPIFI
The LPC408x/7x is an ARM Cortex-M4 based digital signal controller for embedded
applications requiring a high level of integration and low power dissipation.
The ARM Cortex-M4 is a next generation core that offers system enhancements such as
low power consumption, enhanced debug features, and a high level of support block
integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a Harvard
architecture with separate local instruction and data buses as well as a third bus for
peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point processor is integrated in the core for several
versions of the part.
The LPC408x/7x adds a specialized flash memory accelerator to accomplish optimal
performance when executing code from flash. The LPC408x/7x is targeted to operate at
up to 120 MHz CPU frequency.
The peripheral complement of the LPC408x/7x includes up to 512 kB of flash program
memory, up to 96 kB of SRAM data memory, up to 4032 byte of EEPROM data memory,
External Memory controller (EMC), LCD, Ethernet, USB Device/Host/OTG, an SPI Flash
Interface (SPIFI), a General Purpose DMA controller, five UARTs, three SSP controllers,
three I
2
C-bus interfaces, a Quadrature Encoder Interface, four general purpose timers,
two general purpose PWMs with six outputs each and one motor control PWM, an
ultra-low power RTC with separate battery supply and event recorder, a windowed
watchdog timer, a CRC calculation engine and up to 165 general purpose I/O pins.
The analog peripherals include one eight-channel 12-bit ADC, two analog comparators,
and a DAC.
The pinout of LPC408x/7x is intended to allow pin function compatibility with the
LPC24xx/23xx as well as the LPC178x/7x families.
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| LPC4076FET180 | 32-bit ARM Cortex-M4 MCU; up to 512 kB flash, 96 kB SRAM;
USB Device/Host/OTG; Ethernet; LCD; EMC; SPIFI
The LPC408x/7x is an ARM Cortex-M4 based digital signal controller for embedded
applications requiring a high level of integration and low power dissipation.
The ARM Cortex-M4 is a next generation core that offers system enhancements such as
low power consumption, enhanced debug features, and a high level of support block
integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a Harvard
architecture with separate local instruction and data buses as well as a third bus for
peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point processor is integrated in the core for several
versions of the part.
The LPC408x/7x adds a specialized flash memory accelerator to accomplish optimal
performance when executing code from flash. The LPC408x/7x is targeted to operate at
up to 120 MHz CPU frequency.
The peripheral complement of the LPC408x/7x includes up to 512 kB of flash program
memory, up to 96 kB of SRAM data memory, up to 4032 byte of EEPROM data memory,
External Memory controller (EMC), LCD, Ethernet, USB Device/Host/OTG, an SPI Flash
Interface (SPIFI), a General Purpose DMA controller, five UARTs, three SSP controllers,
three I
2
C-bus interfaces, a Quadrature Encoder Interface, four general purpose timers,
two general purpose PWMs with six outputs each and one motor control PWM, an
ultra-low power RTC with separate battery supply and event recorder, a windowed
watchdog timer, a CRC calculation engine and up to 165 general purpose I/O pins.
The analog peripherals include one eight-channel 12-bit ADC, two analog comparators,
and a DAC.
The pinout of LPC408x/7x is intended to allow pin function compatibility with the
LPC24xx/23xx as well as the LPC178x/7x families.
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| LPC4078FBD144 | 32-bit ARM Cortex-M4 MCU; up to 512 kB flash, 96 kB SRAM;
USB Device/Host/OTG; Ethernet; LCD; EMC; SPIFI
The LPC408x/7x is an ARM Cortex-M4 based digital signal controller for embedded
applications requiring a high level of integration and low power dissipation.
The ARM Cortex-M4 is a next generation core that offers system enhancements such as
low power consumption, enhanced debug features, and a high level of support block
integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a Harvard
architecture with separate local instruction and data buses as well as a third bus for
peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point processor is integrated in the core for several
versions of the part.
The LPC408x/7x adds a specialized flash memory accelerator to accomplish optimal
performance when executing code from flash. The LPC408x/7x is targeted to operate at
up to 120 MHz CPU frequency.
The peripheral complement of the LPC408x/7x includes up to 512 kB of flash program
memory, up to 96 kB of SRAM data memory, up to 4032 byte of EEPROM data memory,
External Memory controller (EMC), LCD, Ethernet, USB Device/Host/OTG, an SPI Flash
Interface (SPIFI), a General Purpose DMA controller, five UARTs, three SSP controllers,
three I
2
C-bus interfaces, a Quadrature Encoder Interface, four general purpose timers,
two general purpose PWMs with six outputs each and one motor control PWM, an
ultra-low power RTC with separate battery supply and event recorder, a windowed
watchdog timer, a CRC calculation engine and up to 165 general purpose I/O pins.
The analog peripherals include one eight-channel 12-bit ADC, two analog comparators,
and a DAC.
The pinout of LPC408x/7x is intended to allow pin function compatibility with the
LPC24xx/23xx as well as the LPC178x/7x families.
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| LPC4078FBD208 | 32-bit ARM Cortex-M4 MCU; up to 512 kB flash, 96 kB SRAM;
USB Device/Host/OTG; Ethernet; LCD; EMC; SPIFI
The LPC408x/7x is an ARM Cortex-M4 based digital signal controller for embedded
applications requiring a high level of integration and low power dissipation.
The ARM Cortex-M4 is a next generation core that offers system enhancements such as
low power consumption, enhanced debug features, and a high level of support block
integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a Harvard
architecture with separate local instruction and data buses as well as a third bus for
peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point processor is integrated in the core for several
versions of the part.
The LPC408x/7x adds a specialized flash memory accelerator to accomplish optimal
performance when executing code from flash. The LPC408x/7x is targeted to operate at
up to 120 MHz CPU frequency.
The peripheral complement of the LPC408x/7x includes up to 512 kB of flash program
memory, up to 96 kB of SRAM data memory, up to 4032 byte of EEPROM data memory,
External Memory controller (EMC), LCD, Ethernet, USB Device/Host/OTG, an SPI Flash
Interface (SPIFI), a General Purpose DMA controller, five UARTs, three SSP controllers,
three I
2
C-bus interfaces, a Quadrature Encoder Interface, four general purpose timers,
two general purpose PWMs with six outputs each and one motor control PWM, an
ultra-low power RTC with separate battery supply and event recorder, a windowed
watchdog timer, a CRC calculation engine and up to 165 general purpose I/O pins.
The analog peripherals include one eight-channel 12-bit ADC, two analog comparators,
and a DAC.
The pinout of LPC408x/7x is intended to allow pin function compatibility with the
LPC24xx/23xx as well as the LPC178x/7x families.
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Variants: |
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| LPC4078FBD80 | 32-bit ARM Cortex-M4 MCU; up to 512 kB flash, 96 kB SRAM;
USB Device/Host/OTG; Ethernet; LCD; EMC; SPIFI
The LPC408x/7x is an ARM Cortex-M4 based digital signal controller for embedded
applications requiring a high level of integration and low power dissipation.
The ARM Cortex-M4 is a next generation core that offers system enhancements such as
low power consumption, enhanced debug features, and a high level of support block
integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a Harvard
architecture with separate local instruction and data buses as well as a third bus for
peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point processor is integrated in the core for several
versions of the part.
The LPC408x/7x adds a specialized flash memory accelerator to accomplish optimal
performance when executing code from flash. The LPC408x/7x is targeted to operate at
up to 120 MHz CPU frequency.
The peripheral complement of the LPC408x/7x includes up to 512 kB of flash program
memory, up to 96 kB of SRAM data memory, up to 4032 byte of EEPROM data memory,
External Memory controller (EMC), LCD, Ethernet, USB Device/Host/OTG, an SPI Flash
Interface (SPIFI), a General Purpose DMA controller, five UARTs, three SSP controllers,
three I
2
C-bus interfaces, a Quadrature Encoder Interface, four general purpose timers,
two general purpose PWMs with six outputs each and one motor control PWM, an
ultra-low power RTC with separate battery supply and event recorder, a windowed
watchdog timer, a CRC calculation engine and up to 165 general purpose I/O pins.
The analog peripherals include one eight-channel 12-bit ADC, two analog comparators,
and a DAC.
The pinout of LPC408x/7x is intended to allow pin function compatibility with the
LPC24xx/23xx as well as the LPC178x/7x families.
AAL Eindhoven MK
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Variants: |
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| LPC4078FET180 | 32-bit ARM Cortex-M4 MCU; up to 512 kB flash, 96 kB SRAM;
USB Device/Host/OTG; Ethernet; LCD; EMC; SPIFI
The LPC408x/7x is an ARM Cortex-M4 based digital signal controller for embedded
applications requiring a high level of integration and low power dissipation.
The ARM Cortex-M4 is a next generation core that offers system enhancements such as
low power consumption, enhanced debug features, and a high level of support block
integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a Harvard
architecture with separate local instruction and data buses as well as a third bus for
peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point processor is integrated in the core for several
versions of the part.
The LPC408x/7x adds a specialized flash memory accelerator to accomplish optimal
performance when executing code from flash. The LPC408x/7x is targeted to operate at
up to 120 MHz CPU frequency.
The peripheral complement of the LPC408x/7x includes up to 512 kB of flash program
memory, up to 96 kB of SRAM data memory, up to 4032 byte of EEPROM data memory,
External Memory controller (EMC), LCD, Ethernet, USB Device/Host/OTG, an SPI Flash
Interface (SPIFI), a General Purpose DMA controller, five UARTs, three SSP controllers,
three I
2
C-bus interfaces, a Quadrature Encoder Interface, four general purpose timers,
two general purpose PWMs with six outputs each and one motor control PWM, an
ultra-low power RTC with separate battery supply and event recorder, a windowed
watchdog timer, a CRC calculation engine and up to 165 general purpose I/O pins.
The analog peripherals include one eight-channel 12-bit ADC, two analog comparators,
and a DAC.
The pinout of LPC408x/7x is intended to allow pin function compatibility with the
LPC24xx/23xx as well as the LPC178x/7x families.
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Variants: |
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| LPC4078FET208 | 32-bit ARM Cortex-M4 MCU; up to 512 kB flash, 96 kB SRAM;
USB Device/Host/OTG; Ethernet; LCD; EMC; SPIFI
The LPC408x/7x is an ARM Cortex-M4 based digital signal controller for embedded
applications requiring a high level of integration and low power dissipation.
The ARM Cortex-M4 is a next generation core that offers system enhancements such as
low power consumption, enhanced debug features, and a high level of support block
integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a Harvard
architecture with separate local instruction and data buses as well as a third bus for
peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point processor is integrated in the core for several
versions of the part.
The LPC408x/7x adds a specialized flash memory accelerator to accomplish optimal
performance when executing code from flash. The LPC408x/7x is targeted to operate at
up to 120 MHz CPU frequency.
The peripheral complement of the LPC408x/7x includes up to 512 kB of flash program
memory, up to 96 kB of SRAM data memory, up to 4032 byte of EEPROM data memory,
External Memory controller (EMC), LCD, Ethernet, USB Device/Host/OTG, an SPI Flash
Interface (SPIFI), a General Purpose DMA controller, five UARTs, three SSP controllers,
three I
2
C-bus interfaces, a Quadrature Encoder Interface, four general purpose timers,
two general purpose PWMs with six outputs each and one motor control PWM, an
ultra-low power RTC with separate battery supply and event recorder, a windowed
watchdog timer, a CRC calculation engine and up to 165 general purpose I/O pins.
The analog peripherals include one eight-channel 12-bit ADC, two analog comparators,
and a DAC.
The pinout of LPC408x/7x is intended to allow pin function compatibility with the
LPC24xx/23xx as well as the LPC178x/7x families.
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Variants: |
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| LPC4088FBD144 | 32-bit ARM Cortex-M4 MCU; up to 512 kB flash, 96 kB SRAM;
USB Device/Host/OTG; Ethernet; LCD; EMC; SPIFI
The LPC408x/7x is an ARM Cortex-M4 based digital signal controller for embedded
applications requiring a high level of integration and low power dissipation.
The ARM Cortex-M4 is a next generation core that offers system enhancements such as
low power consumption, enhanced debug features, and a high level of support block
integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a Harvard
architecture with separate local instruction and data buses as well as a third bus for
peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point processor is integrated in the core for several
versions of the part.
The LPC408x/7x adds a specialized flash memory accelerator to accomplish optimal
performance when executing code from flash. The LPC408x/7x is targeted to operate at
up to 120 MHz CPU frequency.
The peripheral complement of the LPC408x/7x includes up to 512 kB of flash program
memory, up to 96 kB of SRAM data memory, up to 4032 byte of EEPROM data memory,
External Memory controller (EMC), LCD, Ethernet, USB Device/Host/OTG, an SPI Flash
Interface (SPIFI), a General Purpose DMA controller, five UARTs, three SSP controllers,
three I
2
C-bus interfaces, a Quadrature Encoder Interface, four general purpose timers,
two general purpose PWMs with six outputs each and one motor control PWM, an
ultra-low power RTC with separate battery supply and event recorder, a windowed
watchdog timer, a CRC calculation engine and up to 165 general purpose I/O pins.
The analog peripherals include one eight-channel 12-bit ADC, two analog comparators,
and a DAC.
The pinout of LPC408x/7x is intended to allow pin function compatibility with the
LPC24xx/23xx as well as the LPC178x/7x families.
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Variants: |
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| LPC4088FBD208 | 32-bit ARM Cortex-M4 MCU; up to 512 kB flash, 96 kB SRAM;
USB Device/Host/OTG; Ethernet; LCD; EMC; SPIFI
The LPC408x/7x is an ARM Cortex-M4 based digital signal controller for embedded
applications requiring a high level of integration and low power dissipation.
The ARM Cortex-M4 is a next generation core that offers system enhancements such as
low power consumption, enhanced debug features, and a high level of support block
integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a Harvard
architecture with separate local instruction and data buses as well as a third bus for
peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point processor is integrated in the core for several
versions of the part.
The LPC408x/7x adds a specialized flash memory accelerator to accomplish optimal
performance when executing code from flash. The LPC408x/7x is targeted to operate at
up to 120 MHz CPU frequency.
The peripheral complement of the LPC408x/7x includes up to 512 kB of flash program
memory, up to 96 kB of SRAM data memory, up to 4032 byte of EEPROM data memory,
External Memory controller (EMC), LCD, Ethernet, USB Device/Host/OTG, an SPI Flash
Interface (SPIFI), a General Purpose DMA controller, five UARTs, three SSP controllers,
three I
2
C-bus interfaces, a Quadrature Encoder Interface, four general purpose timers,
two general purpose PWMs with six outputs each and one motor control PWM, an
ultra-low power RTC with separate battery supply and event recorder, a windowed
watchdog timer, a CRC calculation engine and up to 165 general purpose I/O pins.
The analog peripherals include one eight-channel 12-bit ADC, two analog comparators,
and a DAC.
The pinout of LPC408x/7x is intended to allow pin function compatibility with the
LPC24xx/23xx as well as the LPC178x/7x families.
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Variants: |
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| LPC4088FET180 | 32-bit ARM Cortex-M4 MCU; up to 512 kB flash, 96 kB SRAM;
USB Device/Host/OTG; Ethernet; LCD; EMC; SPIFI
The LPC408x/7x is an ARM Cortex-M4 based digital signal controller for embedded
applications requiring a high level of integration and low power dissipation.
The ARM Cortex-M4 is a next generation core that offers system enhancements such as
low power consumption, enhanced debug features, and a high level of support block
integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a Harvard
architecture with separate local instruction and data buses as well as a third bus for
peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point processor is integrated in the core for several
versions of the part.
The LPC408x/7x adds a specialized flash memory accelerator to accomplish optimal
performance when executing code from flash. The LPC408x/7x is targeted to operate at
up to 120 MHz CPU frequency.
The peripheral complement of the LPC408x/7x includes up to 512 kB of flash program
memory, up to 96 kB of SRAM data memory, up to 4032 byte of EEPROM data memory,
External Memory controller (EMC), LCD, Ethernet, USB Device/Host/OTG, an SPI Flash
Interface (SPIFI), a General Purpose DMA controller, five UARTs, three SSP controllers,
three I
2
C-bus interfaces, a Quadrature Encoder Interface, four general purpose timers,
two general purpose PWMs with six outputs each and one motor control PWM, an
ultra-low power RTC with separate battery supply and event recorder, a windowed
watchdog timer, a CRC calculation engine and up to 165 general purpose I/O pins.
The analog peripherals include one eight-channel 12-bit ADC, two analog comparators,
and a DAC.
The pinout of LPC408x/7x is intended to allow pin function compatibility with the
LPC24xx/23xx as well as the LPC178x/7x families.
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Variants: |
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| LPC4088FET208 | 32-bit ARM Cortex-M4 MCU; up to 512 kB flash, 96 kB SRAM;
USB Device/Host/OTG; Ethernet; LCD; EMC; SPIFI
The LPC408x/7x is an ARM Cortex-M4 based digital signal controller for embedded
applications requiring a high level of integration and low power dissipation.
The ARM Cortex-M4 is a next generation core that offers system enhancements such as
low power consumption, enhanced debug features, and a high level of support block
integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a Harvard
architecture with separate local instruction and data buses as well as a third bus for
peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point processor is integrated in the core for several
versions of the part.
The LPC408x/7x adds a specialized flash memory accelerator to accomplish optimal
performance when executing code from flash. The LPC408x/7x is targeted to operate at
up to 120 MHz CPU frequency.
The peripheral complement of the LPC408x/7x includes up to 512 kB of flash program
memory, up to 96 kB of SRAM data memory, up to 4032 byte of EEPROM data memory,
External Memory controller (EMC), LCD, Ethernet, USB Device/Host/OTG, an SPI Flash
Interface (SPIFI), a General Purpose DMA controller, five UARTs, three SSP controllers,
three I
2
C-bus interfaces, a Quadrature Encoder Interface, four general purpose timers,
two general purpose PWMs with six outputs each and one motor control PWM, an
ultra-low power RTC with separate battery supply and event recorder, a windowed
watchdog timer, a CRC calculation engine and up to 165 general purpose I/O pins.
The analog peripherals include one eight-channel 12-bit ADC, two analog comparators,
and a DAC.
The pinout of LPC408x/7x is intended to allow pin function compatibility with the
LPC24xx/23xx as well as the LPC178x/7x families.
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Variants: |
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| LPC4312JBD144 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
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Variants: |
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| LPC4312JET100 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
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Variants: |
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| LPC4313JBD144 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
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Variants: |
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| LPC4313JET100 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
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Variants: |
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| LPC4315JBD144 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
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Variants: |
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| LPC4315JET100 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
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Variants: |
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| LPC4317JBD144 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
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Variants: |
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| LPC4317JET100 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
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Variants: |
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| LPC4322JBD144 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
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Variants: |
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| LPC4322JET100 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
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Variants: |
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| LPC4323JBD144 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
AAL Eindhoven MK
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Variants: |
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| LPC4323JET100 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
AAL Eindhoven MK
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Variants: |
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| LPC4325JBD144 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
AAL Eindhoven MK
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Variants: |
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| LPC4325JET100 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
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Variants: |
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| LPC4327JBD144 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
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Variants: |
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| LPC4327JET100 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
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Variants: |
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| LPC4333FET256 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
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Variants: |
 |
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| LPC4333JBD144 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
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Variants: |
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| LPC4333JET100 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
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Variants: |
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| LPC4333JET256 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
AAL Eindhoven MK
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Variants: |
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| LPC4337FET256 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
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Variants: |
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| LPC4337JBD144 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
AAL Eindhoven MK
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Variants: |
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| LPC4337JET100 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
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Variants: |
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| LPC4337JET256 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
AAL Eindhoven MK
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Variants: |
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| LPC4353FET256 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
AAL Eindhoven MK
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Variants: |
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| LPC4353JBD208 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
AAL Eindhoven MK
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Variants: |
 |
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| LPC4353JET256 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
AAL Eindhoven MK
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Variants: |
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| LPC4357FET256 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
AAL Eindhoven MK
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Variants: |
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| LPC4357JBD208 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
AAL Eindhoven MK
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Variants: |
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| LPC4357JET256 | 32-bit ARM Cortex-M4/M0 MCU; up to 1 MB flash and 136 kB
SRAM; Ethernet, two High-speed USB, LCD, EMC
The LPC435x/3x/2x/1x are ARM Cortex-M4 based microcontrollers for embedded
applications which include an ARM Cortex-M0 coprocessor, up to 1 MB of flash and
136 kB of on-chip SRAM, 16 kB of EEPROM memory, a quad SPI Flash Interface (SPIFI),
advanced configurable peripherals such as the State Configurable Timer (SCT) and the
Serial General Purpose I/O (SGPIO) interface, two High-speed USB controllers, Ethernet,
LCD, an external memory controller, and multiple digital and analog peripherals. The
LPC435x/3x/2x/1x operate at CPU frequencies of up to 204 MHz.
The ARM Cortex-M4 is a next generation 32-bit core that offers system enhancements
such as low power consumption, enhanced debug features, and a high level of support
block integration. The ARM Cortex-M4 CPU incorporates a 3-stage pipeline, uses a
Harvard architecture with separate local instruction and data buses as well as a third bus
for peripherals, and includes an internal prefetch unit that supports speculative branching.
The ARM Cortex-M4 supports single-cycle digital signal processing and SIMD
instructions. A hardware floating-point unit is integrated in the core.
The ARM Cortex-M0 coprocessor is an energy-efficient and easy-to-use 32-bit core which
is upward code- and tool-compatible with the Cortex-M4 core. The Cortex-M0
coprocessor, designed as a replacement for existing 8/16-bit microcontrollers, offers up to
204 MHz performance with a simple instruction set and reduced code size.
AAL Eindhoven MK
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Variants: |
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| LPC810M021FN8 | 32-bit ARM Cortex-M0+ microcontroller
The LPC81xM are an ARM Cortex-M0+ based, low-cost 32-bit MCU family operating at
CPU frequencies of up to 30 MHz. The LPC81xM support up to 16 kB of flash memory
and 4 kB of SRAM.
The peripheral complement of the LPC81xM includes a CRC engine, one I
2
C-bus
interface, up to three USARTs, up to two SPI interfaces, one multi-rate timer, self wake-up
timer, and state-configurable timer, one comparator, function-configurable I/O ports
through a switch matrix, an input pattern match engine, and up to 18 general-purpose I/O
pins.
AAL Eindhoven MK
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Variants: |
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| LPC811M001FDH16 | 32-bit ARM Cortex-M0+ microcontroller
The LPC81xM are an ARM Cortex-M0+ based, low-cost 32-bit MCU family operating at
CPU frequencies of up to 30 MHz. The LPC81xM support up to 16 kB of flash memory
and 4 kB of SRAM.
The peripheral complement of the LPC81xM includes a CRC engine, one I
2
C-bus
interface, up to three USARTs, up to two SPI interfaces, one multi-rate timer, self wake-up
timer, and state-configurable timer, one comparator, function-configurable I/O ports
through a switch matrix, an input pattern match engine, and up to 18 general-purpose I/O
pins.
AAL Eindhoven MK
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Variants: |
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| LPC812M101 | 32-bit ARM Cortex-M0+ microcontroller
The LPC81xM are an ARM Cortex-M0+ based, low-cost 32-bit MCU family operating at
CPU frequencies of up to 30 MHz. The LPC81xM support up to 16 kB of flash memory
and 4 kB of SRAM.
The peripheral complement of the LPC81xM includes a CRC engine, one I
2
C-bus
interface, up to three USARTs, up to two SPI interfaces, one multi-rate timer, self wake-up
timer, and state-configurable timer, one comparator, function-configurable I/O ports
through a switch matrix, an input pattern match engine, and up to 18 general-purpose I/O
pins.
AAL Eindhoven MK
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Variants: |
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| LPC812M101FDH16 | 32-bit ARM Cortex-M0+ microcontroller
The LPC81xM are an ARM Cortex-M0+ based, low-cost 32-bit MCU family operating at
CPU frequencies of up to 30 MHz. The LPC81xM support up to 16 kB of flash memory
and 4 kB of SRAM.
The peripheral complement of the LPC81xM includes a CRC engine, one I
2
C-bus
interface, up to three USARTs, up to two SPI interfaces, one multi-rate timer, self wake-up
timer, and state-configurable timer, one comparator, function-configurable I/O ports
through a switch matrix, an input pattern match engine, and up to 18 general-purpose I/O
pins.
AAL Eindhoven MK
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Variants: |
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| NCX2200 | Low voltage comparator
The NCX2200 provides a single low voltage, low power, comparator.
The NCX2200 has a very low supply current of 6 ïA and is guaranteed to operate at a low
voltage of 1.3 V and is fully operational up to 5.5 V. These characteristics make the device
convenient for use in both 3.0 V and 5.0 V systems. AAL Eindhoven MK
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Variants: |
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| NPC1100B | Low Cost Narrow Band Communication Controller The ASIC DLC-3
is a low cost narrow band communication controller MCM (Multi Carrier Modulation) and power line
chip. The integrated ARMÃ CortexTM CPU, memory and common interfaces makes it possible to build
different systems with a minimum of external components. For communication with DLC-3 the most
popular interfaces like Ethernet MII, SPI, several freely configurable serial interfaces and general IO
ports for CPU and DSC are included.
The ASIC includes all components for a power-line communication while Analog Front End and Power
Amplifier are already integrated. With its On-Chip Power-Factor-Correction, Ballast Control and 4 PWM
outputs the LCI is a optimal solution for lighting control units. The freely configurable serial interfaces
makes it easy to build electronic power meters for smart-metering applications. AAL Eindhoven MK
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| NTS0102 | Dual supply translating transceiver; open drain; auto direction sensing | |
Variants: |
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| NX1117C | The NX1117C/NX1117CE are two series of low-dropout positive voltage regulators with an output current capability of 1 A. AAL Eindhoven MK
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Variants: |
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| NX1117CADJZ | The NX1117C/NX1117CE are two series of low-dropout positive voltage regulators with an output current capability of 1 A. AAL Eindhoven MK
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Variants: |
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| NX1117CEADJZ | The NX1117C/NX1117CE are two series of low-dropout positive voltage regulators with an output current capability of 1 A. AAL Eindhoven MK
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| NX3008NBKMB | 30 V, single N-channel Trench MOSFET
AAL Eindhoven MK
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| NX3008PBKMB | 30 V, single P-channel Trench MOSFET
AAL Eindhoven MK
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| NX3DV221 | High-speed USB 2.0 switch with enable | |
Variants: |
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| NX3L2467 | The NX3L2467 is a dual low-ohmic double-pole double-throw analog switch suitable for use as an analog or digital multiplexer/demultiplexer. It consists of four switches, each with two independent input/outputs (nY0 and nY1) and a common input/output (nZ).
The two digital inputs (1S and 2S) are used to select the switch position. 1S is used in selecting the independent inputs/outputs switched to 1Z and 2Z, and 2S is used in selecting the independent inputs/outputs switched to 3Z and 4Z.
Schmitt trigger action at the select input (nS) makes the circuit tolerant to slower input rise and fall times across the entire VCC range from 1.4 V to 4.3 V. AAL Eindhoven MK
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| NXPS20H100C | Dual power Schottky diodeDual common cathode power Schottky diode designed for high frequency switched mode
power supplies in a SOT78 (TO-220AB) plastic package. AAL Eindhoven MK
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Variants: |
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| NXPS20H110C | Dual power Schottky diodeDual common cathode power Schottky diode designed for high frequency switched mode
power supplies in a SOT78 (TO-220AB) plastic package. AAL Eindhoven MK
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| PBSS2515MB | 15 V, 0.5 A NPN low VCEsat (BISS) transistor AAL Eindhoven MK
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| PBSS3515MB | 15 V, 0.5 A PNP low VCEsat (BISS) transistor | |
Variants: |
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| PBSS4240X | 40 V, 2 A NPN low VCEsat (BISS) transistor
NPN low VCEsat
Breakthrough In Small Signal (BISS) transistor in a medium power and
flat lead SOT89 Surface-Mounted Device (SMD) plastic package. PNP complement:
PBSS5240X.
AAL Eindhoven MK
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Variants: |
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| PCA21125 | SPI-bus Real-Time Clock and calendar
The PCA21125 is a CMOS1
Real-Time Clock (RTC) and calendar optimized for low-power
consumption and an operating temperature up to 125 °C. Data is transferred via a Serial
Peripheral Interface (SPI-bus) with a maximum data rate of 6.0 Mbit/s. Alarm and timer
functions are also available with the possibility to generate a wake-up signal on the
interrupt pin.
AEC Q100 compliant for automotive applications.
AAL Eindhoven MK
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Variants: |
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| PCA9509 | The PCA9509 is a level translating I2C-bus/SMBus repeater with two voltage supplies
that enables processor low voltage 2-wire serial bus to interface with standard I2C-bus or
SMBus I/O. AAL Eindhoven MK
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Variants: |
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| PCA9509A | The PCA9509A is a level translating I2C-bus/SMBus repeater with two voltage supplies
that enables processor low voltage 2-wire serial bus to interface with standard I2C-bus or
SMBus I/O. AAL Eindhoven MK
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Variants: |
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| PCA9525 | The PCA9525 is a monolithic CMOS integrated circuit for bus buffering in applications including I2C-bus, SMBus, DDC, PMBus, and other systems based on similar principles. AAL Eindhoven MK
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Variants: |
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| PCA9605 | The PCA9605 is a monolithic CMOS integrated circuit for bus buffering in applications including I2C-bus, SMBus, DDC, PMBus, and other systems based on similar principles. AAL Eindhoven MK
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Variants: |
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| PCA9646 | The PCA9646 is a monolithic CMOS integrated circuit for 2-wire bus buffering and switching in applications including I2C-bus, SMBus, PMBus, and other systems based on similar principles. AAL Eindhoven MK
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Variants: |
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| PCA9661 | The PCA9661 is an advanced single master mode I2C-bus controller. It is a fourth
generation bus controller designed for data intensive I2C-bus data transfers.
AAL Eindhoven MK
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Variants: |
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| PCAL6408A | Low-voltage translating, 8-bit I2C-bus/SMBus I/O expander
with interrupt output, reset, and configuration registers
The PCAL6408A is an 8-bit general purpose I/O expander that provides remote I/O
expansion for most microcontroller families via the I2C-bus interface.
AAL Eindhoven MK
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Variants: |
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| PCAL6416A | Short
Description
AAL Eindhoven MK
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| PCF1252 | Threshold detector and reset generator
The PCF1252-Xs are low-power CMOS voltage threshold
detectors designed especially for supervision of
microcontroller/microprocessor systems for detection of
power-on/off conditions and generation of a system reset
pulse. The PCF1252-X also provides a POWF (power fail)
output which is activated at a precise factory-programmed
trip point. A system RESET output has a built-in delay with
duration determined by an external capacitor (CCT).
A second comparator (comparator 2) has been included to
enable the possibility of a second monitoring point in the
system.
AAL Eindhoven MK
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Variants: |
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| PCF2123 | SPI Real time clock/calendar
AAL Eindhoven MK
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Variants: |
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| PCF8523 | The PCF8523 is a CMOS Real-Time Clock (RTC) and calendar optimized for low power
consumption. Data is transferred serially via an I2C-bus with a maximum data rate of
1000 kbit/s. Alarm and timer functions are available with the possibility to generate a
wake-up signal on an interrupt pin. An offset register allows fine-tuning of the clock. The
PCF8523 has a backup battery switch-over circuit, which detects power failures and
automatically switches to the battery supply when a power failure occurs. AAL Eindhoven MK
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Variants: |
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| PCF8523TS | The PCF8523 is a CMOS Real-Time Clock (RTC) and calendar optimized for low power
consumption. Data is transferred serially via an I2C-bus with a maximum data rate of
1000 kbit/s. Alarm and timer functions are available with the possibility to generate a
wake-up signal on an interrupt pin. An offset register allows fine-tuning of the clock. The
PCF8523 has a backup battery switch-over circuit, which detects power failures and
automatically switches to the battery supply when a power failure occurs. AAL Eindhoven MK
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Variants: |
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| PCF8537A | Industrial LCD driver for multiplex rates up to 1:8. I2C version.
The PCF8537 is a fully featured Liquid Crystal Display (LCD) driver, specifically designed
for high-contrast Vertical Alignment (VA) LCD with multiplex rates up to 1:8. It generates
the drive signals for any static or multiplexed LCD containing up to eight backplanes,
46 segments, and up to 352 elements. The PCF8537 features an internal charge pump
with internal capacitors for on-chip generation of the LCD driving voltage. To ensure an
optimal and stable contrast over the full temperature range, the PCF8537 offers a
programmable temperature compensation of the LCD supply voltage. The PCF8537 can
be easily connected to a microcontroller by either the two-line I2C-bus (PCF8537AH) or a
three-line bidirectional SPI-bus (PCF8537BH).
AAL Eindhoven MK
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Variants: |
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| PCF8537B | Industrial LCD driver for multiplex rates up to 1:8. SPI version.
The PCF8537 is a fully featured Liquid Crystal Display (LCD) driver, specifically designed
for high-contrast Vertical Alignment (VA) LCD with multiplex rates up to 1:8. It generates
the drive signals for any static or multiplexed LCD containing up to eight backplanes,
46 segments, and up to 352 elements. The PCF8537 features an internal charge pump
with internal capacitors for on-chip generation of the LCD driving voltage. To ensure an
optimal and stable contrast over the full temperature range, the PCF8537 offers a
programmable temperature compensation of the LCD supply voltage. The PCF8537 can
be easily connected to a microcontroller by either the two-line I2C-bus (PCF8537AH) or a
three-line bidirectional SPI-bus (PCF8537BH).
AAL Eindhoven MK
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Variants: |
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| PCF8594C | The PCF8594C-2 is a ?oating gate Electrically Erasable Programmable Read Only Memory (EEPROM) with 4 kbits (512 Ã 8-bit) non-volatile storage.
AAL Eindhoven MK
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Variants: |
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| PCF8885 | NXP Capacitive 8-channel proximity switch with auto-calibration and very low power consumption AAL Eindhoven MK
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Variants: |
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| PDTA114 | PNP Resistor-Equipped Transistor (RET) family in small Surface-Mounted Device (SMD)
plastic packages. AAL Eindhoven MK
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Variants: |
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| PDTA114T | PNP Resistor-Equipped Transistor (RET) family in small Surface-Mounted Device (SMD)
plastic packages. AAL Eindhoven MK
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Variants: |
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| PDTC114 | NPN Resistor-Equipped Transistor (RET) family in small Surface-Mounted Device (SMD)
plastic packages. AAL Eindhoven MK
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Variants: |
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| PDTC114T | PDTC114T
NPN Resistor-Equipped Transistor (RET) family in small Surface-Mounted Device (SMD)
plastic packages.
AAL Eindhoven MK
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Variants: |
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| PESD1LVDS | ESD protection for in-vehicle ultra high-speed interfaces
The device is designed to protect in-vehicle ultra high-speed interfaces in automotive
applications, such as Low-Voltage Differential Signaling (LVDS), High-Definition
Multimedia Interface (HDMI) and DisplayPort interfaces against ElectroStatic
Discharge (ESD). AAL Eindhoven MK
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Variants: |
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| PESD5V0F5UF | Femtofarad unidirectional fivefold ESD protection array
Femtofarad capacitance unidirectional ElectroStatic Discharge (ESD) protection diode
array designed to protect up to five signal lines from the damage caused by ESD and
other transients. The device is encapsulated in a leadless ultra small
DFN1410-6 (SOT886) Surface-Mounted Device (SMD) plastic package.
The combination of extremely low capacitance, high ESD maximum rating and ultra small
package makes the device ideal for high-speed data line protection and antenna
protection applications.
AAL Eindhoven MK
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Variants: |
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| PESD5V0S1BSF | Bidirectional low capacitance ESD protection diode
Low capacitance bidirectional ElectroStatic Discharge (ESD) protection diode in a
SOD962 leadless ultra small Surface-Mounted Device (SMD) package designed to
protect one signal line from the damage caused by ESD and other transients.
AAL Eindhoven MK
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Variants: |
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| PESD5V0X1UB | Ultra low capacitance unidirectional ElectroStatic Discharge (ESD) protection diode in a
SOD523 (SC-79) ultra small and flat lead Surface-Mounted Device (SMD) plastic
package designed to protect one signal line from the damage caused by ESD and other
transients. AAL Eindhoven MK
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Variants: |
 |
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| PMBD353 | Schottky barrier double diode Planar Schottky barrier double diode in a SOT23 small plastic SMD
package. AAL Eindhoven MK
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Variants: |
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| PMBD354 | Schottky barrier double diode Planar Schottky barrier double diode in a SOT23 small plastic SMD
package. AAL Eindhoven MK
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Variants: |
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| PMBT5401 | PNP high-voltage transistor AAL Eindhoven MK
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Variants: |
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| PMBT5550 | NPN high-voltage transistor
AAL Eindhoven MK
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Variants: |
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| PMBT5551 | AAL Eindhoven MK
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Variants: |
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| PMDPB58UPE | 20 V dual P-channel Trench MOSFET Dual small-signal P-channel enhancement mode Field-Effect Transistor (FET) in a
leadless medium power DFN2020-6 (SOT1118) Surface-Mounted Device (SMD) plastic
package using Trench MOSFET technology. AAL Eindhoven MK
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Variants: |
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| PMDPB80XP | 20 V, dual P-channel Trench MOSFET AAL Eindhoven MK
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Variants: |
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| PMEG1020E | 10 V, 2 A ultra low VF MEGA Schottky barrier rectifiersPlanar Maximum Efficiency General Application (MEGA) Schottky barrier rectifiers with an
integrated guard ring for stress protection, encapsulated in small and flat lead plastic SMD
packages. AAL Eindhoven MK
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Variants: |
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| PMEG1030E | 10 V, 3 A ultra low VF MEGA Schottky barrier rectifiersPlanar Maximum Efficiency General Application (MEGA) Schottky barrier rectifiers with an
integrated guard ring for stress protection, encapsulated in small and flat lead plastic SMD
packages. AAL Eindhoven MK
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Variants: |
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| PMEG2005 | 20 V, 0.5 A low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection, encapsulated in a Surface-Mounted Device (SMD)
AAL Eindhoven MK
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Variants: |
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| PMEG2005CT | 500 mA low VF dual MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier in
common cathode configuration with an integrated guard ring for stress protection,
encapsulated in a SOT23 (TO-236AB) small Surface-Mounted Device (SMD) plastic
package. AAL Eindhoven MK
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Variants: |
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| PMEG2010 | 20V, 1A low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection, encapsulated in a Surface-Mounted Device (SMD)
AAL Eindhoven MK
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Variants: |
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| PMEG2015 | 20V, 1.5A low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection, encapsulated in a Surface-Mounted Device (SMD)
AAL Eindhoven MK
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Variants: |
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| PMEG2020 | 20V, 2A low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection, encapsulated in a Surface-Mounted Device (SMD)
AAL Eindhoven MK
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Variants: |
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| PMEG2020CPA | 20V 2A low VF dual MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier in
common cathode configuration with an integrated guard ring for stress protection,
encapsulated in a SOT1061 leadless small Surface-Mounted Device (SMD) plastic
package with medium power capability. AAL Eindhoven MK
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Variants: |
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| PMEG3005 | 30 V, 0.5 A low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection, encapsulated in a Surface-Mounted Device (SMD)
AAL Eindhoven MK
|
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Variants: |
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| PMEG3005CT | 30V 500 mA low VF dual MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier in
common cathode configuration with an integrated guard ring for stress protection,
encapsulated in a SOT23 (TO-236AB) small Surface-Mounted Device (SMD) plastic
package. AAL Eindhoven MK
|
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Variants: |
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| PMEG3010 | 30 V, 1A low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection, encapsulated in a Surface-Mounted Device (SMD)
AAL Eindhoven MK
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Variants: |
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| PMEG3015 | 20V, 1.5A low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection, encapsulated in a Surface-Mounted Device (SMD)
AAL Eindhoven MK
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Variants: |
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| PMEG3020 | 30 V, 2A low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection, encapsulated in a Surface-Mounted Device (SMD)
AAL Eindhoven MK
|
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Variants: |
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| PMEG3020CPA | 30V 2A low VF dual MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier in
common cathode configuration with an integrated guard ring for stress protection,
encapsulated in a SOT1061 leadless small Surface-Mounted Device (SMD) plastic
package with medium power capability. AAL Eindhoven MK
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Variants: |
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| PMEG3030 | 30V, 3A low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection, encapsulated in a Surface-Mounted Device (SMD)
AAL Eindhoven MK
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Variants: |
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| PMEG3050 | 30V, 5A low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection, encapsulated in a Surface-Mounted Device (SMD)
AAL Eindhoven MK
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Variants: |
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| PMEG4002 | 40 V 0.2 A Very low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA)
Schottky barrier rectifier with an integrated guard ring for
stress protection, encapsulated in a SOD323 (SC-76) very
small SMD plastic packag AAL Eindhoven MK
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Variants: |
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| PMEG4005 | 40 V 0.5 A Very low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA)
Schottky barrier rectifier with an integrated guard ring for
stress protection, encapsulated in a SOD323 (SC-76) very
small SMD plastic packag AAL Eindhoven MK
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Variants: |
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| PMEG4005CT | 40 V, 0.5 A low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection, encapsulated in a leadless ultra small
SOD1608 (DFN1608D-2) Surface-Mounted Device (SMD) plastic package with visible
and solderable side pads
AAL Eindhoven MK
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Variants: |
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| PMEG4010 | 40 V, 1 A low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection.
AAL Eindhoven MK
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Variants: |
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| PMEG4010CPA | 40 V, 1 A low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection, encapsulated in a leadless ultra small
SOD1608 (DFN1608D-2) Surface-Mounted Device (SMD) plastic package with visible
and solderable side pads
AAL Eindhoven MK
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Variants: |
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| PMEG4015 | 40 V, 1.5 A low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection, encapsulated in a leadless ultra small
SOD1608 (DFN1608D-2) Surface-Mounted Device (SMD) plastic package with visible
and solderable side pads
AAL Eindhoven MK
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Variants: |
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| PMEG4020E | 40 V, 2 A low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection.
AAL Eindhoven MK
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Variants: |
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| PMEG4030E | 40 V, 3 A low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection.
AAL Eindhoven MK
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Variants: |
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| PMEG4050E | 40 V, 5 A low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection.
AAL Eindhoven MK
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Variants: |
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| PMEG6002 | 60V 0.2A very low VF MEGA Schottky barrier recti?ersPlanar Maximum Ef?ciency General Application (MEGA) Schottky barrier recti?ers with an
integrated guard ring for stress protection, encapsulated in ultra small and ?at lead
Surface-Mounted Device (SMD) plastic packages. AAL Eindhoven MK
|
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Variants: |
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| PMEG6002TV | 60V 0.2A very low VF MEGA Schottky barrier recti?ersPlanar Maximum Ef?ciency General Application (MEGA) Schottky barrier recti?ers with an
integrated guard ring for stress protection, encapsulated in ultra small and ?at lead
Surface-Mounted Device (SMD) plastic packages. AAL Eindhoven MK
|
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Variants: |
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| PMEG6010 | 60 V, 1 A low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection, encapsulated in a leadless ultra small
SOD1608 (DFN1608D-2) Surface-Mounted Device (SMD) plastic package with visible
and solderable side pads
AAL Eindhoven MK
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|
Variants: |
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| PMEG6010CPA | 60 V, 1 A low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection, encapsulated in a leadless ultra small
SOD1608 (DFN1608D-2) Surface-Mounted Device (SMD) plastic package with visible
and solderable side pads
AAL Eindhoven MK
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Variants: |
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| PMEG6020 | 60V 2A low VF dual MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier in
common cathode configuration with an integrated guard ring for stress protection,
encapsulated in a SOT1061 leadless small Surface-Mounted Device (SMD) plastic
package with medium power capability. AAL Eindhoven MK
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Variants: |
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| PMEG6030 | 60V 3A low VF dual MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier in
common cathode configuration with an integrated guard ring for stress protection,
encapsulated in a SOT1061 leadless small Surface-Mounted Device (SMD) plastic
package with medium power capability. AAL Eindhoven MK
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Variants: |
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| PMGD130UN | 20 V, dual N-channel Trench MOSFET
AAL Eindhoven MK
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Variants: |
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| PMLL4148L | Single high-speed switching diodes, fabricated in planar technology, and encapsulated in small hermetically sealed glass SOD80C Surface-Mounted Device (SMD) packages.
AAL Eindhoven MK
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Variants: |
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| PMST5401 | AAL Eindhoven MK
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Variants: |
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| PMST5550 | AAL Eindhoven MK
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Variants: |
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| PMST5551 | AAL Eindhoven MK
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Variants: |
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| PMZB290UN | 20 V, single N-channel Trench MOSFET AAL Eindhoven MK
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Variants: |
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| PMZB290UNE | 20 V, single N-channel Trench MOSFET AAL Eindhoven MK
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Variants: |
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| PMZB370UNE | 30 V, single N-channel Trench MOSFET AAL Eindhoven MK
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Variants: |
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| PMZB420UN | 30 V, single N-channel Trench MOSFET AAL Eindhoven MK
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Variants: |
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| PMZB670UPE | 20 V, single P-channel Trench MOSFET AAL Eindhoven MK
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Variants: |
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| PNS40010ER | 400 V, 1 A high power density, standard switching time PN-rectifier
High power density, standard switching time PN-rectifier with high-efficiency planar
technology, encapsulated in a small and flat lead SOD123W Surface-Mounted
Device (SMD) plastic package.
AAL Eindhoven MK
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Variants: |
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| PRTR5V0U4AD | ESD protection
AAL Eindhoven MK
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Variants: |
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| PSMN | N-channel logic level TrenchMOS(TM) transistor
AAL Eindhoven MK
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| PTN36241B | PLEASE CHECK AOUT+ AND AOUT- PTN36241B is a USB 3.0 (SuperSpeed) re-driver that enhances signal quality by performing receive equalization on the deteriorated input signal followed by transmit de-emphasis maximizing system link performance. With its superior differential signal conditioning and enhancement capability, the device delivers significant flexibility and performance scaling for various systems with different PCB trace and cable channel conditions and still benefit from optimum power consumption. PTN36241B is a dual-channel (channel A and channel B) device that supports data signaling rate of 5 Gbit/s through each channel. PTN36241B is flexibly powered from 3.3 V and is available in HVQFN24 4 mm à 4 mm package with 0.5 mm pitch. AAL Eindhoven MK
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Variants: |
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| PTVS3V3P1UP | NXP TVS Diode
AAL Eindhoven MK
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Variants: |
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| RB520CS30L | 100 mA low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection, encapsulated in a SOD882 leadless ultra small
Surface-Mounted Device (SMD) plastic package. AAL Eindhoven MK
|
|
Variants: |
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| RB520S30 | 200 mA low Vf MEGA Schottky barrier rectifierPlanar Maximum Ef?ciency General Application (MEGA) Schottky barrier recti?er with an
integrated guard ring for stress protection, encapsulated in a SOD523 (SC-79) ultra small
and ?at lead Surface-Mounted Device (SMD) plastic package. AAL Eindhoven MK
|
|
Variants: |
|
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| RB521CS30L | 100 mA low VF MEGA Schottky barrier rectifier Planar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with an
integrated guard ring for stress protection, encapsulated in a SOD882 leadless ultra small
Surface-Mounted Device (SMD) plastic package. AAL Eindhoven MK
|
|
Variants: |
|
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| RB521S30 | 200 mA low Vf MEGA Schottky barrier rectifierPlanar Maximum Ef?ciency General Application (MEGA) Schottky barrier recti?er with an
integrated guard ring for stress protection, encapsulated in a SOD523 (SC-79) ultra small
and ?at lead Surface-Mounted Device (SMD) plastic package. AAL Eindhoven MK
|
|
Variants: |
|
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| RB751 | Schottky barrier single diodePlanar Schottky barrier single diodes with an integrated guard ring for stress protection,
encapsulated in small Surface-Mounted Device (SMD) plastic packages. AAL Eindhoven MK
|
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Variants: |
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| SA57000 | CapFREE 150 mA, low-noise, low-drop regulator with thermal protection | |
Variants: |
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| SC16C550B | ||
Variants: |
||
| SL3S4001 | The UHF EPCglobal Generation 2 standard allows the commercialized provision of mass
adoption of UHF RFID technology for passive smart tags and labels. Main fields of
applications are supply chain management and logistics for worldwide use with special
consideration of European, US and Chinese frequencies to ensure that operating
distances of several meters can be realized.
The UCODE I2C is a product out of the NXP Semiconductors UCODE product family. The
entire UCODE product family offers anti-collision and collision arbitration functionality.
This allows a reader to simultaneously operate multiple labels/tags within its antenna field.
A UCODE I2C based label/ tag requires no external power supply for contactless
operation.
Its contactless interface generates the power supply via the antenna circuit by propagative
energy transmission from the interrogator (reader), while the system clock is generated by
an on-chip oscillator. Data transmitted from the interrogator to the label/tag is
demodulated by the interface, and it also modulates the interrogator's electromagnetic
field for data transmission from the label/tag to the interrogator.
A label/tag can be operated without the need for line of sight or battery, as long as it is
connected to a dedicated antenna for the targeted frequency range. When the label/tag is
within the interrogator's operating range, the high-speed wireless interface allows data
transmission in both directions.
The UCODE I2C also features an I2C interface to read/write data from its build in memory.
In this mode the UCODE I2C needs to be supplied externally. The I2C interface supports
standard and fast I2C modes.
The used EEPROM is based on a field proven non-volatile memory technology. The
EEPROM memory cell is also used in high quality automotive applications.
AAL Eindhoven MK
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Variants: |
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| TEA1623 | STARplug switched mode power supply controller IC
The TEA1623 is a Switched Mode Power Supply (SMPS) controller IC that operates
directly from rectified universal mains. It is implemented in the high voltage EZ-HV SOI
process, combined with a low voltage BiCMOS process.
The device includes a high voltage power switch and a circuit for start-up directly from the
rectified mains voltage. A dedicated circuit for valley switching is built in, which makes a
very efficient slim-line electronic power-plug concept possible.
In its most basic version of application, the TEA1623 acts as a voltage source. Here, no
additional secondary electronics are required. A combined voltage and current source can
be realized with minimum costs for external components. Implementation of the TEA1623
renders an efficient and low cost power supply system.
AAL Eindhoven MK
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Variants: |
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| TEA1703 | GreenChip SMPS standby control IC | |
Variants: |
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| TEA1713 | Resonant power supply control IC with PFC. AAL Eindhoven MK
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Variants: |
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| TEA1721 | HV start-up flyback controller with integrated MOSFET for 5 W applications
The TEA1721 is a small and low cost module Switched Mode Power Supply (SMPS)
controller IC for low power applications (up to 5 W) and operates directly from the rectified
universal mains input. The device includes a high voltage power switch (700 V) and has
been optimized for flyback converter topologies to provide high-efficiency over the entire
load range with ultra-low power consumption in the no-load condition. It provides a circuit
for start-up directly from the rectified mains voltage without any external bleeder circuits.
The converter operates as a regulated voltage source from no-load up to the maximum
output current and operates as current source that delivers the maximum current over a
broad output voltage range. Using the TEA1721, a low power converter can be built at
minimum cost and with the minimum number of external components.
The controller regulates the output voltage with primary-side sensing which eliminates the
need for an additional secondary feedback circuitry and simplifies the design. At higher
power levels, a frequency and current control mode is used. It operates with Burst mode
control at low power levels and no-load condition. The burst mode minimizes audible
noise and provides an energy saver state which reduces the power consumption in
no-load condition.
AAL Eindhoven MK
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Variants: |
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 |
| TEA1723 | Switch mode power supply controller AAL Eindhoven MK
|
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Variants: |
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| TEA1731 | GreenChip SMPS control IC
The TEA1731LTS is a low cost Switched Mode Power Supply (SMPS) controller IC
intended for flyback topologies. The TEA1731LTS operates in peak current and frequency
control mode. Frequency jitter has been implemented to reduce ElectroMagnetic
Interference (EMI). Slope compensation is integrated for Continuous Conduction Mode
(CCM) operation.
The TEA1731LTS IC features OverPower Protection (OPP). The controller accepts an
overpower situation for a limited amount of time.
One pin is reserved for protection purposes. OverTemperature Protection (OTP) can be
implemented with a minimal number of external components.
At low-power levels, the primary peak current is set to 25 % of the maximum peak current.
The switching frequency is reduced to limit the switching losses. The combination of fixed
frequency operation at high output power and frequency reduction at low output power
provides high efficiency over the total load range.
The TEA1731LTS makes the design of low cost, highly efficient and reliable supplies for
power requirements up to 75 W easier by requiring a minimum number of external
components.
AAL Eindhoven MK
|
|
Variants: |
 |
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| TEA1738(L)T | The TEA1738(T) is a low cost Switched Mode Power Supply (SMPS) controller IC intended for flyback topologies. The TEA1738(T) operates in peak current and frequency control mode. To reduce Electro Magnetic Interference (EMI), frequency jitter has been implemented. Slope compensation is integrated for Continuous Conduction Mode (CCM) operation. AAL Eindhoven MK
|
|
Variants: |
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| TEA1753 | The GreenChip III is the third generation of green Switched Mode Power Supply (SMPS) controller ICs. The GreenChip III combines a controller for Power Factor Correction (PFC) and a flyback controller. Its high level of integration allows the design of a cost-effective power supply with a very low number of external components. AAL Eindhoven MK
|
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Variants: |
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| TEA1791 | The TEA1791AT is a member of the new generation of Synchronous Rectifier (SR) controller ICs for switched mode power supplies. Its high level of integration allows the design of a cost-effective power supply with a very low number of external components. AAL Eindhoven MK
|
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Variants: |
 |
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| TEA1795 | The TEA1795T is a member of the new generation of Synchronous Rectifier (SR) controller ICs for switched mode power supplies. Its high level of integration enables the design of a cost-effective power supply with a minimum number of external components. AAL Eindhoven MK
|
|
Variants: |
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| TLVH431 | Low voltage adjustable precision shunt regulators
Low voltage three-terminal shunt regulator family with an output voltage range between
Vref
(1.24 V) and 18 V, to be set by two external resistors.
AAL Eindhoven MK
|
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Variants: |
 |
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| TOPT12-800C0 | Top Triac
Planar passivated Temperature and Overload Protected Triac with high commutation
performance in a SOT78 (TO-220AB) plastic package. This TOPTriac
TM
conveniently self
protects by turning off in the event of excessive temperature. It is triggered negatively,
which can be continuous DC or pulsed.
AAL Eindhoven MK
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Variants: |
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| Z0109MN0 | 4Q Triac
Planar passivated sensitive gate four quadrant triac in a SOT223 (SC-73)
surface-mountable plastic package intended for applications requiring enhanced immunity
to noise and direct interfacing to logic level ICs and low power gate drivers.
AAL Eindhoven MK
|
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Variants: |
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List of symbols
List of packages
| Name | View | Description |
|---|---|---|
| FIDUCIAL0.6-1.2 | |
FIDUCAL |
| HVQFN33-7X7 |  |
HVQFN33 Plastic thermal enhanced very thin quad flat package; 33 terminals; body 7x7x0.85 mm; Original Library package |
| JENNIC_QFN56 |  |
JENNIC QFN56, NO SOT number. Equals to HVQFN56 (SOT684) without heatsink. Foutprint based on SOT684. |
| MO-252 |  |
|
| NX3P190/NX3P191 | |
NX3P190/NX3P191 WLCSP4: wafer level chip-size package. 4 bumps; body 0.76 x 0.76 x 0.51 mm. (Backside Coating included) JEDEC: -- IEC: -- JEITA: -- |
| SOD113 | |
SOD113 Plastic single-ended package; isolated heatsink mounted; 1 mounting hole; 2-lead TO-220 'full pack JEDEC: 2-lead TO-220F IEC: -- |
| SOD123F | |
SOD123F Plastic surface-mounted package; 2 leads JEDEC: -- IEC: -- JEITA: -- |
| SOD123W | |
SOT123W Plastic surface-mounted package; 2 leadsJEDEC: -- IEC: -- JEITA: -- |
| SOD128 | |
SOD128 Plastic surface-mounted package; 2 leadsJEDEC: -- IEC: -- JEITA: -- |
| SOD1608 | |
|
| SOD323(F) | |
SOD323(F) Plastic surface-mounted package; 2 leads JEDEC: -- IEC: -- JEITA: SC-90 |
| SOD523 | |
SOD523 Plastic surface-mounted package; 2 leadsJEDEC: -- IEC: -- JEITA: SC-79 |
| SOD68 | |
SOD68 Hermetically sealed glass package; axial leaded; 2 leads JEDEC: DO-34 IEC: -- JEITA: -- |
| SOD80C | |
SOD80C Hermetically sealed glass surface-mounted package; 2 connectors JEDEC: -- IEC: 100H01 JEITA: -- |
| SOD882(T) | |
SOD882(T) Leadless ultra small plastic package; 2 terminals; body 1.0 x 0.6 x 0.5 mmJEDEC: -- IEC: -- JEITA: -- |
| SOD882D | |
SOT882D Leadless ultra small plastic package; 2 terminals; body 1 x 0.6 x 0.4 mmJEDEC: -- IEC: -- JEITA: -- |
| SOD962 | |
|
| SOT-HVQFN33 | |
SOTxxx HVQFN33: plastic thermal enhanced very thin quad flat package; no leads; 33 terminals; body 7 x 7 x 0.85 mm JEDEC: --- IEC: --- Package according LPC111x datasheet |
| SOT101 |  |
SOT101 DIP24: plastic dual in-line package; 24 leads (600 mil) JEDEC: MO-015 IEC: 051G02 JEITA: SC-509-24 |
| SOT102 |  |
SOT102 DIP18: plastic dual in-line package; 18 leads (300 mil) JEDEC: -- IEC: MS-001 JEITA: -- |
| SOT1023 | |
SOT1023 Plastic single-ended surface-mounted package (LFPAK); 4 leadsJEDEC: -- IEC: -- JEITA: -- |
| SOT1031-1 |  |
SOT1031-1 HWQFN48R: plastic thermal enhanced very very thin quad flat package; no leads 48 terminals; resin based; body 7 x 7 x 0.7 mm JEDEC: -- IEC: -- JEITA: -- |
| SOT1031-2 |  |
SOT1031-2 HWQFN48R: plastic thermal enhanced very very thin quad flat package; no leads 48 terminals; resin based; body 7 x 7 x 0.7 mm JEDEC: -- IEC: -- JEITA: -- |
| SOT1039-1 | |
SOT1039-1 HXQFN16U: plastic thermal enhanced extremely thin quad flat package; no leads;16 terminals; UTLP based; body 3 x 3 x |