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EAGLE Library Structure

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File name:power_integrations.lbr
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Library description

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Below description of the library from CadSoft webpage:

Power Integrations, Inc., founded in 1988, is the leading supplier of high-voltage analog integrated circuits (ICs) used in power conversion. Power Integrations ICs enable compact, lightweight power supplies that are simpler to design and manufacture, more reliable, and more energy-efficient than those made with competing technologies.

List of devices

Name & variantsSymbolPackage
CAP0XXXX When AC voltage is applied, CAPZero blocks current flow in the X capacitor safety discharge resistors, reducing the power loss to less than 5 mW, or essentially zero1 at 230 VAC. When AC voltage is disconnected, CAPZero automatically discharges the X capacitor by connecting the series discharge resistors. This operation allows total flexibility in the choice of the X capacitor to optimize differential mode EMI filtering and reduce inductor costs, with no change in power consumption.

Variants:

CAP0XXXX

Preview Preview
DPA422-426 The DPA-Switch IC family is a highly integrated solution for DC-DC conversion applications with 16‑75 VDC input. DPA-Switch uses the same proven topology as TOPSwitch®, cost effectively integrating a power MOSFET, PWM control, fault protection and other control circuitry onto a single CMOS chip. High performance features are enabled with three user configurable pins. Hysteretic thermal shutdown is also provided. In addition, all critical parameters (i.e. current limit, frequency, PWM gain) have tight temperature and absolute tolerance, to simplify design and reduce system cost.

Variants:

DPA422-426

DPA422-426DIL08

DPA422-426DIP8

Preview PreviewPreviewPreview
LCS700-708 The HiperLCS is an integrated LLC power stage incorporating a multi-function controller, high-side and low-side gate drivers, plus two power MOSFETs in a half-bridge configuration. Figure 1 shows a simplified schematic of a HiperLCS based power stage where the LLC resonant inductor is integrated into the transformer. The variable frequency controller provides high efficiency by switching the power MOSFETs at zero voltage (ZVS), eliminating switching losses.

Variants:

LCS700-708

LCS700-708SIP-E-16K(L_PACKAGE)

Preview PreviewPreview
LNK362-364 LinkSwitch-XT incorporates a 700 V power MOSFET, oscillator, simple ON/OFF control scheme, a high-voltage switched current source, frequency jittering, cycle-by-cycle current limit and thermal shutdown circuitry onto a monolithic IC. The startupand operating power are derived directly from the DRAIN pin, eliminating the need for a bias winding and associated circuitry.

Variants:

LNK362-364

LNK362-364DIL8

LNK362-364SO8-C(D_PACKAGE)

Preview PreviewPreviewPreview
LNK403-410/413-420 The LinkSwitch-PH dramatically simplifi es implementation of LED drivers requiring long lifetime, high effi ciency, PF >0.9, and TRIAC dimming capability (LNK403-410). The single-stage combined power factor and constant-current controller eliminates a switching stage and the electrolytic bulk capacitor. The advanced primaryside control used by the LinkSwitch-PH device provides accurate constant current control while eliminating the need for an optocoupler and current sensing circuits. LinkSwitch-PH incorporates a 725 V power FET, a continuousmode PWM controller, a high-voltage switched current source for self biasing, frequency jittering, protection circuitry including cycle-by-cycle current limit and hysteretic thermal shutdown.

Variants:

LNK403-410/413-420

LNK403-410/413-420SIP-E-7C(E_PACKAGE)

Preview PreviewPreview
LNK454/456-458/460 The LinkSwitch-PL family enables a very small and low cost single-stage power factor corrected constant current driver for solid state lighting. Optimized for direct LED current sensing, the LinkSwitch-PL operates over a wide input voltage range delivering an output power of up to 16 W. The LinkSwitch-PL control algorithm provides flicker-free TRIAC dimming with minimal external components. Each device incorporates a 725 V rated power MOSFET, a novel discontinuous mode variable frequency variable on-time controller, frequency jitter, cycle-by-cycle current limit and hysteretic thermal shutdown in a monolithic 4-pin IC, available in SO-8C, eSOP-12, and eDIP-12 packages.

Variants:

LNK454/456-458/460

LNK454/456-458/460DIP-E-12B(V_PACKAGE)

LNK454/456-458/460SOP-E-12B

Preview PreviewPreviewPreview
LNK562-564 LinkSwitch-LP comprises a 700 V power MOSFET switch with a power supply controller on the same die. Unlike conventional PWM (pulse width modulation) controllers, it uses a simple ON/OFF control to regulate the output voltage. The controller consists of an oscillator, feedback (sense and logic) circuit, 5.8 V regulator, BYPASS pin undervoltage circuit, over-temperature protection, frequency jittering, current limit circuit, and leading edge blanking.

Variants:

LNK562-564

LNK562-564DIP8B_SMD

LNK562-564SO8-C

Preview PreviewPreviewPreview
LNK574 LinkZero-LP is an upgrade to the popular LinkSwitch-LP, the industry’s lowest component count charger/adapter and standby power switcher IC. The LinkZero-LP controller incorporates new technology which enables the device to automatically enter into and wake up from no-load mode while taking less than 5 mW from the AC power. IEC 62301 specifies measurements of standby power to a minimum accuracy of 10 mW, and so LinkZero-LP’s consumption of substantially less than 5 mW at 230 VAC rounds to zero based on the IEC definition. This low power level is also immeasurable on most power meters. The tightly specified FEEDBACK (FB) pin voltage reference enables universal input primary side regulated power supplies with accurate constant voltage from 5% to full load. The start-up and operating power are derived directly from the DRAIN pin which eliminates start-up circuitry. The internal oscillator frequency is jittered to significantly reduce both quasi-peak and average EMI, minimizing filter cost.

Variants:

LNK574

Preview Preview
LNK584-586 LinkZero-AX combines extremely low standby/Power-Down energy use with the industry’s lowest component count standby supply solution. Below 3 mW at 230 VAC in Power-Down (PD) mode meets IEC 62301 definition of zero power consumption and is immeasurable on most power meters. LinkZero-AX is set into Power-Down mode using an external signal to pull the FEEDBACK pin high for 2.5 ms. Such an external signal can be generated by a system micro controller or infrared controller. In Power-Down mode the BYPASS pin remains regulated allowing the LinkZero-AX to be woken up with a reset pulse to pull the BYPASS pin below a reset threshold (1.5 V). Ultra low system consumption is therefore achieved without needing to disconnect the input voltage with a relay. LinkZero-AX is designed to be used in isolated or non-isolated converters. In either, the tightly specified FEEDBACK (FB) pin voltage reference enables universal input primary side regulated power supplies that cost effectively replace unregulated linear transformer and other switched mode supplies. The start-up and operating power are derived directly from the DRAIN pin. The internal oscillator frequency is jittered to significantly reduce both quasi-peak and average EMI, minimizing filter cost.

Variants:

LNK584-586

LNK584-586SO8-C(D_PACKAGE)

Preview PreviewPreview
LNK603-606/613-616 The LinkSwitch-II dramatically simplifies low power CV/CC charger designs by eliminating an optocoupler and secondary control circuitry. The device introduces a revolutionary control technique to provide very tight output voltage and current regulation, compensating for transformer and internal parameter tolerances along with input voltage variations. The device incorporates a 700 V power MOSFET, a novel ON/OFF control state machine, a high voltage switched current source for self biasing, frequency jittering, cycle-by-cycle current limit and hysteretic thermal shutdown circuitry onto a monolithic IC.

Variants:

LNK603-606/613-616

LNK603-606/613-616PDIP-8C

LNK603-606/613-616SO8-C

Preview PreviewPreviewPreview
LNK623-626 The LinkSwitch-CV dramatically simplifies low power, constant voltage (CV) converter design through a revolutionary control technique which eliminates the need for both an optocoupler and secondary CV control circuitry while providing very tight output voltage regulation. The combination of proprietary IC trimming and E-Shield™ transformer construction techniques enables Clampless™ designs with the LinkSwitch-CV LNK623/4.

Variants:

LNK623-626

LNK623-626PDIP-8C

Preview PreviewPreview
LNK632DG The LNK632DG dramatically simplifies low power CV/CC charger designs by eliminating an optocoupler and secondary control circuitry. The device uses an ON/OFF control technique to provide very tight output voltage regulation, in addition to output current control ideal for battery charging applications. The combination of proprietary IC trimming and E-Shield™ transformer construction techniques enables Clampless designs with the LNK632DG when an external bias circuit is used. The device incorporates a 700 V power MOSFET, a novel ON/OFF control state machine, a high voltage switched current source for self biasing, frequency jittering, cycle-by-cycle current limit and

Variants:

LNK632DG

Preview Preview
LNK6XXXX A LinkSwitch-HP device monolithically integrates a controller and high-voltage power MOSFET into one package. It has a newly developed analogue control scheme, which enables continuous conduction mode (CCM), primary side regulated (PSR) power supplies up to 90 W without the efficiency limitation of DCM or audible noise. It uses an enhanced peak current mode PWM control scheme with multi-mode operation. The multi-mode control engine uses the error amplifier output signal voltage at the COMPENSATION pin to set the operating peak current and switching frequency to maintain the output voltage in regulation as shown in Figure 5. For COMPENSATION pin voltages lower than VC(MCM) (typ. 1.25 V) the device enters multi-cycle modulation (MCM) with a fixed peak current of 25% of the programmed current limit. Several innovative improvements have been added to the peak current mode control to allow primary side regulated CCM operation with no instability. The device meets less than 30 mW input power with no-load at high-line (LNK67xx families).

Variants:

LNK6XXXX

LNK6XXXXDIP-E-12B(V_PACKAGE)

Preview PreviewPreview
LYT4211-4217/4311-4317 A LYTSwitch device monolithically combines a controller and high-voltage power FET into one package. The controller provides both high power factor and constant current output in a single-stage. The LYTSwitch controller consists of an oscillator, feedback (sense and logic) circuit, 5.9 V regulator, hysteretic over-temperature protection, frequency jittering, cycle-by-cycle current limit, auto-restart, inductance correction, power factor and constant current control.

Variants:

LYT4211-4217/4311-4317

LYT4211-4217/4311-4317SIP-E-7F(L_PACKAGE)

Preview PreviewPreview
PFS704-729EG The HiperPFS device family members incorporate a continuous conduction mode (CCM) boost PFC controller, gate driver, and high voltage power MOSFET in a single, low-profile eSIP™ power package that is able to provide near unity input power factor. The HiperPFS devices eliminate the PFC converter’s need for external current sense resistors, the power loss associated with those components, and leverages an innovative control technique that adjusts the switching frequency over output load, input line voltage, and even input line cycle. This control technique is designed to maximize efficiency over the entire load range of the converter, particularly at light loads. Additionally, this control technique significantly minimizes the EMI filtering requirements due to its wide-bandwidth spread spectrum effect. HiperPFS includes Power Integrations’ standard set of comprehensive protection features, such as integrated soft-start, UV, OV, brown-in/out, and hysteretic thermal shutdown. HiperPFS also provides cycle-by-cycle current limit for the power MOSFET, power limiting of the output for overload protection, and pin-to-pin short-circuit protection.

Variants:

PFS704-729EG

Preview Preview
PLC810PG The PLC810PG is a combined PFC and LLC off-line controller with integrated high voltage half-bridge drivers. Figure 1 shows a simplified schematic of a PLC810PG based power supply where the LLC resonant inductor is integrated into the transformer. The PFC section of the PLC810PG is a universal input continuous current mode (CCM) design that does not require a sinusoidal input reference, thereby reducing system cost and external components. The DC-DC controller drives an LLC resonant topology. This variable frequency controller provides high efficiency by switching the power MOSFETs at zero voltage, eliminating most switching losses. The LLC controller is built around a current controlled oscillator with a control range selected to support the traditional frequency of operation found in televisions.

Variants:

PLC810PG

Preview Preview
SEN012DG SENZero is a compact low cost solution to eliminate losses in resistive signal paths connected between high-voltage rails and switching power supply controller(s). Examples include feedforward or feedback signal paths connected to boost controllers in power factor corrected systems and feedforward signal paths in two switch forward / LLC / half and full bridge converters. The device is available in 2 (SEN012) and 3 (SEN013) channel versions according to the application’s requirements. The internal gate drive and protection circuitry provides gate drive signals to the internal 650 V MOSFETs in response to the voltage applied to the VCC pin. This simple configuration provides easy integration into existing systems by using the system VCC rail as an input to the SENZero. The SENZero family uses a low cost compact SO-8 package to reduce PCB area while the pin configuration is designed to meet pin-pin fault conditions.

Variants:

SEN012DG

Preview Preview
SEN013DG SENZero is a compact low cost solution to eliminate losses in resistive signal paths connected between high-voltage rails and switching power supply controller(s). Examples include feedforward or feedback signal paths connected to boost controllers in power factor corrected systems and feedforward signal paths in two switch forward / LLC / half and full bridge converters. The device is available in 2 (SEN012) and 3 (SEN013) channel versions according to the application’s requirements. The internal gate drive and protection circuitry provides gate drive signals to the internal 650 V MOSFETs in response to the voltage applied to the VCC pin. This simple configuration provides easy integration into existing systems by using the system VCC rail as an input to the SENZero. The SENZero family uses a low cost compact SO-8 package to reduce PCB area while the

Variants:

SEN013DG

Preview Preview
TFS757-764HG The HiperTFS device family members incorporate both a high-power two-switch-forward converter and a mid-power flyback (standby) converter into a single, low-profile eSIP™ power package. The single chip solution provides the controllers for the two-switch-forward and flyback converters, high- and low-side drivers, all three of the high-voltage power MOSFETs, and eliminates the converter’s need for costly external pulse transformers. The device is ideal for high power applications that require both a main power converter (two-switch forward) up to 414 W, and standby converter (flyback) up to 20 W. HiperTFS includes Power Integrations’ standard set of comprehensive protection features, such as integrated soft-start, fault and over-load protection, and hysteretic thermal shutdown. HiperTFS utilizes advanced power packaging technology that simplifies the complexity of two-switch forward layout, mounting and thermal management, while providing very high power capabilities in a single compact package. The devices operate over a wide input voltage range, and can be used following a power-factor correction stage such as HiperPFS.

Variants:

TFS757-764HG

Preview Preview
TNY253/254/255 The TinySwitch family uses a breakthrough design to provide the lowest cost, high efficiency, off-line switcher solution in the 0 to 10 W range. These devices integrate a 700 V power MOSFET, oscillator, high voltage switched current source, current limit and thermal shutdown circuitry. They start-up and run on power derived from the DRAIN voltage, eliminating the need for a transformer bias winding and the associated circuitry. And yet, they consume only about 80 mW at no load, from 265 VAC input. A simple ON/OFF control scheme also eliminates the need for loop compensation.

Variants:

TNY253/254/255

TNY253/254/255DIP8

Preview PreviewPreview
TNY263-268 TinySwitch-II integrates a 700 V power MOSFET, oscillator, high voltage switched current source, current limit and thermal shutdown circuitry onto a monolithic device. The start-up and operating power are derived directly from the voltage on the DRAIN pin, eliminating the need for a bias winding and associated circuitry. In addition, the TinySwitch-II devices incorporate auto-restart, line undervoltage sense, and frequency jittering. An innovative design minimizes audio frequency components in the simple ON/OFF control scheme to practically eliminate audible noise with standard taped/varnished transformer construction. The fully integrated auto-restart circuit safely limits output power during fault conditions such as output short circuit or open loop, reducing component count and secondary feedback circuitry cost. An optional line sense resistor externally programs a line undervoltage threshold, which eliminates power down glitches caused by the slow discharge of input storage capacitors present in applications such as standby supplies. The operating frequency of 132 kHz is jittered to signifi cantly reduce both the quasi-peak and average EMI, minimizing fi ltering cost.

Variants:

TNY263-268

TNY263-268DIP-8B

Preview PreviewPreview
TNY375-380 TinySwitch-PK incorporates a 700 V MOSFET, oscillator, highvoltage switched current source, current limit (user selectable), and thermal shutdown circuitry. A unique peak mode feature boosts current limit and frequency for peak load conditions. The boosted current limit provides the peak output power while the increased peak mode frequency ensures the transformer can be sized for continuous load conditions rather than peak power demands.

Variants:

TNY375-380

TNY375-380PDIP-8C

TNY375-380SO8-C

Preview PreviewPreviewPreview
TOP221-227 The second generation TOPSwitch-II family is more cost effective and provides several enhancements over the first generation TOPSwitch family. The TOPSwitch-II family extends the power range from 100W to 150W for 100/115/230 VAC input and from 50W to 90W for 85-265 VAC universal input. This brings TOPSwitch technology advantages to many new applications, i.e. TV, Monitor, Audio amplifiers, etc. Many significant circuit enhancements that reduce the sensitivity to board layout and line transients now make the design even easier. The standard 8L PDIP package option reduces cost in lower power, high efficiency applications. The internal lead frame of this package uses six of its pins to transfer heat from the chip directly to the board, eliminating the cost of a heat sink. TOPSwitch incorporates all functions necessary for a switched mode control system into a three terminal monolithic IC: power MOSFET, PWM controller, high voltage start up circuit, loop compensation and fault protection circuitry.

Variants:

TOP221-227

TOP221-227DIL08

TOP221-227DIP8

Preview PreviewPreviewPreview
TOP232Y-234Y TOPSwitch-FX uses the proven TOPSwitch topology and cost effectively integrates many new functions that reduce system cost and, at the same time, improve design flexibility, performance and energy efficiency. Like TOPSwitch, the high voltage power MOSFET, PWM control, fault protection and other control circuitry are all integrated onto a single CMOS chip, but with two added terminals. The first one is a MULTIFUNCTION (M) pin, which implements programmable line OV/UV shutdown and line feed forward/DCMAX reduction with line voltage. The same pin can be used instead to externally set an accurate current limit. In either case, this pin can also be used for remote ON/OFF or to synchronize the oscillator to an external, lower frequency signal. The second added terminal is the FREQUENCY (F) pin and is available only in the Y package. This pin provides the half frequency option when connected to CONTROL (C) instead of SOURCE (S).

Variants:

TOP232Y-234Y

Preview Preview
TOP242-250 TOPSwitch-GX uses the same proven topology as TOPSwitch, cost effectively integrating the high voltage power MOSFET, PWM control, fault protection and other control circuitry onto a single CMOS chip. Many new functions are integrated to reduce system cost and improve design flexibility, performance and energy efficiency. Depending on package type, either 1 or 3 additional pins over the TOPSwitch standard DRAIN, SOURCE and CONTROL terminals allow the following functions: line sensing (OV/UV, line feed-forward/DCMAX reduction), accurate externally set current limit, remote ON/OFF, synchronization to an external lower frequency, and frequency selection (132 kHz/66 kHz). All package types provide the following transparent features: Soft-start, 132 kHz switching frequency (automatically reduced at light load), frequency jittering for lower EMI, wider DCMAX, hysteretic thermal shutdown, and larger creepage packages. In addition, all critical parameters (i.e. current limit, frequency, PWM gain) have tighter temperature and absolute tolerances to simplify design and optimize system cost.

Variants:

TOP242-250

TOP242-250TO263-7C

TOP242-250TO220-7C

Preview PreviewPreviewPreview
TOP264-271 Like TOPSwitch-HX, TOP264-271 is an integrated switched mode power supply chip that converts a current at the control input to a duty cycle at the open drain output of a high-voltage power MOSFET.

Variants:

TOP264-271

TOP264-271DIP-E-12B

TOP264-271SOP-E-12B

Preview PreviewPreviewPreview

List of symbols

NameViewDescription
CAP0XXXX Preview
DPA422-426 Preview
LCS700-708 Preview
LNK362-364 Preview
LNK403-410/413-420 Preview
LNK454/456-458/460 Preview
LNK562-564 Preview
LNK574 Preview
LNK584-586 Preview
LNK6XX Preview
LYT4211-4217/4311-4317 Preview
PFS704-729EG Preview
PLC810PG Preview
SEN012DG Preview
SEN013DG Preview
TFS757-764HG Preview
TNY253/254/255 Preview
TNY263-268 Preview
TNY375-380 Preview
TOP221-227 Preview
TOP232Y-234Y Preview
TOP242-250 Preview
TOP264-271 Preview

List of packages

NameViewDescription
DIL08 Preview Dual In Line Package
DIP-8B Preview Dual In Line Package
DIP-E-12B(V_PACKAGE) Preview
DIP8 Preview SMD DIL08 dual in line package'
DIP8B_SMD(G_PACKAGE) Preview
DIP8C_SMD(G_PACKAGE) Preview
PDIP-24_(0,3_P_PACKAGE) Preview
PDIP-8C(P-PACKAGE) Preview Dual In Line Package
SDIP-10C(M_PACKAGE) Preview
SIP-E-16B(H_PACKAGE) Preview
SIP-E-16C(HPACKAGE) Preview
SIP-E-16K(L_PACKAGE) Preview
SIP-E-7C(E_PACKAGE) Preview
SIP-E-7F(L_PACKAGE) Preview
SO08 Preview SMALL OUTLINE INTEGRATED CIRCUIT body 3.9 mm/JEDEC MS-012AA
SO8-C(D_PACKAGE) Preview SMALL OUTLINE INTEGRATED CIRCUIT body 3.9 mm/JEDEC MS-012AA
SOP-E-12B(K_PACKAGE) Preview
TO-220-7B Preview 1. Controlling dimensions are inches. Millimeter dimensions are shown in parentheses. 2. Pin locations start with Pin 1, and continue from left to right when viewed from the front. Pins 2 and 6 are omitted. 3. Dimensions do not include mold flash or other protrusions. Mold flash or protrusions shall not exceed .006 (.15mm) on any side. 4. Minimum metal to metal spacing at the package body for omitted pin locations is .068 inch (1.73 mm). 5. Position of the formed leads to be measured at the mounting plane, .670 inch (17.02 mm) below the hole center. Y07B 6. All terminals are solder plated.
TO-220-7C(Y_PACKAGE) Preview
TO-262-7C(F_PACKAGE) Preview
TO220 Preview TO 220 horizontal
TO220AB Preview DIODE 3-lead molded horzintal
TO263-7C(R_PACKAGE) Preview Transistor Outline Package P-TO263-5-1 SIEMENS TLE4270
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