| No. |
Part Name |
Description |
Manufacturer |
| 1 |
AD7142 |
Programmable Controller for Capacitance Touch Sensors |
Analog Devices |
| 2 |
AD7143 |
Programmable Controller for Capacitance Touch Sensors |
Analog Devices |
| 3 |
AD7745 |
24-bit, 1 Channel Capacitance to Digital Converter |
Analog Devices |
| 4 |
AD7746 |
24-bit, 2 Channel Capacitance to Digital Converter |
Analog Devices |
| 5 |
ADEL2020 |
Improved Second Source to the EL2020 |
Analog Devices |
| 6 |
ADEL2020AN |
Improved Second Source to the EL2020 |
Analog Devices |
| 7 |
ADEL2020AR-20 |
Improved Second Source to the EL2020 |
Analog Devices |
| 8 |
ADEL2020AR-20-REEL |
Improved Second Source to the EL2020 |
Analog Devices |
| 9 |
AN106 |
Low-Noise JFETs--Superiror Performance to Bipolars |
Vishay |
| 10 |
AN184 |
EP72XX Interface to MultiMediaCard |
Cirrus Logic |
| 11 |
AN264 |
RESISTANCE TO SOLDERING HEAT AND THERMAL CHARACTERISTICS OF SMDS |
SGS Thomson Microelectronics |
| 12 |
AT76C711 |
The Atmel AT76C711, based on Atmel�s proprietary 8-bit AVR-enhanced RISC architecture, is a USB device designed to provide a high-speed USB interface to devices that need to communicate with a host through fast serial links like UARTs and |
Atmel |
| 13 |
DFM14 |
Military, MIL-R-83401 Qualified, Type RZ, 11, 12, 15 Schematics, Hot Solder Dip, Highly Stable, Passes MIL-STD-202 Method 210, Condition E ""Resistance to Soldering Heat"" Test |
Vishay |
| 14 |
DFP14 |
Military, Hot Solder Dip or Gold Plated Leads, Highly Stable, Passes MIL-STD-202 Method 210, Condition E ""Resistance to Soldering Heat"" Test |
Vishay |
| 15 |
DFP16 |
Military, Hot Solder Dip or Gold Plated Leads, Highly Stable, Passes MIL-STD-202 Method 210, Condition E ""Resistance to Soldering Heat"" Test |
Vishay |
| 16 |
EL2020 |
Improved Second Source to the EL2020 |
Analog Devices |
| 17 |
FDC1004 |
4 Channel Capacitance to Digital Converter for Capacitive Sensing (Cap Sensing) Solutions 10-VSSOP -40 to 125 |
Texas Instruments |
| 18 |
FDC1004DGSR |
4 Channel Capacitance to Digital Converter for Capacitive Sensing (Cap Sensing) Solutions 10-VSSOP -40 to 125 |
Texas Instruments |
| 19 |
FDC1004DGST |
4 Channel Capacitance to Digital Converter for Capacitive Sensing (Cap Sensing) Solutions 10-VSSOP -40 to 125 |
Texas Instruments |
| 20 |
FDC1004DSCJ |
4 Channel Capacitance to Digital Converter for Capacitive Sensing (Cap Sensing) Solutions 10-WSON -40 to 125 |
Texas Instruments |
| 21 |
FDC1004DSCR |
4 Channel Capacitance to Digital Converter for Capacitive Sensing (Cap Sensing) Solutions 10-WSON -40 to 125 |
Texas Instruments |
| 22 |
FDC1004DSCT |
4 Channel Capacitance to Digital Converter for Capacitive Sensing (Cap Sensing) Solutions 10-WSON -40 to 125 |
Texas Instruments |
| 23 |
HSMF-C118 |
HSMF-C118 · Tri-color Surface Top Mount chipLED |
Agilent (Hewlett-Packard) |
| 24 |
IDT77V012L155DA |
Data Path Interface to UTOPIA Level 1 Header Translation Device |
IDT |
| 25 |
IRF6636 |
Low Resistance and Low Charge Along With Ultra Low Package Inductance to Reduce |
International Rectifier |
| 26 |
ISL6590 |
PWM Controller, Digital Multiphase VRM10, VOUT = 0.8375V to 1.60V @ 120A (using 6x ISL6580), Serial Interface to ISL6580, Programmable AVP |
Intersil |
| 27 |
ISL6590 |
PWM Controller, Digital Multiphase VRM10, VOUT = 0.8375V to 1.60V @ 120A (using 6x ISL6580), Serial Interface to ISL6580, Programmable AVP |
Intersil |
| 28 |
LDC1000 |
5V, High Resolution, Inductance to Digital Converter |
Texas Instruments |
| 29 |
LDC1000-Q1 |
5V, High Resolution, AECQ100, Inductance to Digital Converter for Inductive Sensing Applications 16-TSSOP -40 to 125 |
Texas Instruments |
| 30 |
LDC1000EPWRQ1 |
5V, High Resolution, AECQ100, Inductance to Digital Converter for Inductive Sensing Applications 16-TSSOP -40 to 150 |
Texas Instruments |
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