Facebook Official Page
Share EAGLE library
Have you created EAGLE library?
Did you find an interesting library?
Why not share with the community?
DIY Modules Eagle Library version 1.8.0 has been released.
DIY Modules Eagle Library version 1.7.0 has been released.
DIY Modules Eagle Library version 1.6.0 has been released.
Search for EAGLE Library
ESP8266 LM2596 7 SEGMENT 7805 ARDUINO POTENTIOMETER RELAY SWITCH 1N4007 LCD 433 MHZ TO252 BLUETOOTH MODULE ACS712 ATMEGA OLED ARDUINO NANO JST MOSFET MURATA 315 MHZ PCB ANTENNA POLOLU TRANSFORMER TL431 LM3886
Ohter interesting searches:
1N58 11F BATTERY RASPBERRY CONNECTOR USB 3.0 CONNECTOR USB 3.0 7410 OMRON 1N QFN LED BF INDUCTOR BOURNS RCA 40106 FUSE DISPLAY ATX CONNECTOR TERMINAL BLOCK CONNECTOR RCA STM32F4 CAPACITOR CERAMIC ALPS MCP
EAGLE Library Structure
|Uploaded by:||Clemens v. Loewenich|
|Download options:||Download original file|
( 4.3 KiB )Download file converted
to the latest EAGLE format
( 12.8 KiB )
|Name & variants||Symbol||Package|
|AD734*||10 MHz, 4-Quadrant Multiplier/Divider
0.1% Typical Error
10 MHz Full-Power Bandwidth
450 V/Âµs Slew Rate
200 ns Settling to 0.1% at Full Power
-80 dBc from Any Input
Third-Order IMD Typically -75 dBc at 10 MHz
94 dB SNR, 10 Hz to 20 kHz
70 dB SNR, 10 Hz to 10 MHz
Direct Division Mode
2 MHz BW at Gain of 100
High Performance Replacement for AD534
Multiply, Divide, Square, Square Root
Wideband Gain Control, RMS-DC Conversion
Voltage-Controlled Amplifiers, Oscillators, and Filters
Demodulator with 40 MHz Input Bandwidth
The AD734 is an accurate high speed, four-quadrant analog multiplier that is pin-compatible with the industry-standard AD534 and provides the transfer function W=XY/U. The AD734 provides a low-impedance voltage output with a fullpower (20V pk-pk) bandwidth of 10MHz. Total static error (scaling, offsets, and nonlinearities combined) is 0.1% of full scale. Distortion is typically less than -80dBc and guaranteed. The low capacitance X, Y and Z inputs are fully differential. In most applications, no external components are required to define the function.
|DIL14||Dual In Line Package|