| No. |
Part Name |
Description |
Manufacturer |
| 31 |
DS1775R6-U |
Digital Thermometer and Thermostat in SOT23 |
MAXIM - Dallas Semiconductor |
| 32 |
DS1775R7+T&R |
Digital Thermometer and Thermostat in SOT23 |
MAXIM - Dallas Semiconductor |
| 33 |
DS1775R7+U |
Digital Thermometer and Thermostat in SOT23 |
MAXIM - Dallas Semiconductor |
| 34 |
EB19 |
Application Note - Controlled - Q RF technology - what it means, how its done |
Motorola |
| 35 |
GP801DCM18 |
Hi-Reliability Chopper Switch Low VCESAT IGBT Module |
Dynex Semiconductor |
| 36 |
GP801DCS18 |
Chopper Switch Low VCESAT IGBT Module |
Dynex Semiconductor |
| 37 |
GP801DDM18 |
Hi-Reliability Dual Switch Low VCESAT IGBT Module |
Dynex Semiconductor |
| 38 |
IM13400 |
Cyntec IPM is integrated drive, protection and system control functions that is designed for high performance 3-phase motor driver |
etc |
| 39 |
INDEX61075MHZ |
PENTIUM PROCESSOR at iCOMP INDEX 61075 MHz |
Intel |
| 40 |
KS7332 |
KS7332 is a digital image signal handling IC aimed at improving image contrast and counter light correction, applicable to CCD-using video camera syst |
Samsung Electronic |
| 41 |
LC89902V |
CMOS Driver for VGA-Format Image Sensors |
SANYO |
| 42 |
MCP3301 |
The MCP3301 13-bit Analog to Digital Converter (ADC) features a full differential input and low power consumption in a small package that is ideal for battery powered systems and remote data acquisition applications. The industry-standard |
Microchip |
| 43 |
MCP3302 |
The MCP3302 13-bit Analog to Digital Converter (ADC) features full differential inputs and low power consumption in a small package that is ideal for battery powered systems and remote data acquisition applications. The industry-standard S |
Microchip |
| 44 |
MCP3304 |
The MCP3304 13-bit Analog to Digital Converter (ADC) features full differential inputs and low power consumption in a small package that is ideal for battery powered systems and remote data acquisition applications. The industry-standard S |
Microchip |
| 45 |
MCP601 |
The MCP601 operational amplifier (op amp) has a gain bandwidth product of 2.8 MHz with low typical operating current of 230 �A and an offset voltage that is less than 2 mV. The MCP601 uses Microchip's advanced CMOS technology, which provid |
Microchip |
| 46 |
MCP602 |
The MCP602 dual operational amplifier (op amp) has a gain bandwidth product of 2.8 MHz with low typical operating current of 230 �A and an offset voltage that is less than 2 mV. The MCP602 uses Microchip's advanced CMOS technology, which p |
Microchip |
| 47 |
MCP6021 |
The MCP6021 operational amplifier (op amp) has a gain bandwidth product of 10 MHz with a low typical operating current of 1.0 mA and an offset voltage that is less than 0.5 mV. The MCP6021 uses Microchip's advanced CMOS technology, which p |
Microchip |
| 48 |
MCP6022 |
The MCP6022 dual operational amplifier (op amp) has a gain bandwidth product of 10 MHz with a low typical operating current of 1.0 mA and an offset voltage that is less than 0.5 mV. The MCP6022 uses Microchip's advanced CMOS technology, wh |
Microchip |
| 49 |
MCP6023 |
The MCP6023 operational amplifier (op amp) has a gain bandwidth product of 10 MHz with a low typical operating current of 1.0 mA and an offset voltage that is less than 0.5 mV. The MCP6023 uses Microchip's advanced CMOS technology, which p |
Microchip |
| 50 |
MCP6024 |
The MCP6024 quad operational amplifier (op amp) has a gain bandwidth product of 10 MHz with a low typical operating current of 1.0 mA and an offset voltage that is less than 0.5 mV. The MCP6024 uses Microchip's advanced CMOS technology, wh |
Microchip |
| 51 |
MCP603 |
The MCP603 operational amplifier (op amp) has a gain bandwidth product of 2.8 MHz with low typical operating current of 230 �A and an offset voltage that is less than 2 mV. The MCP603 uses Microchip's advanced CMOS technology, which provid |
Microchip |
| 52 |
MCP6041 |
The MCP6041 operational amplifier (op amp) has a gain bandwidth product of 14 kHz with a low typical operating current of 600 nA and an offset voltage that is less than 3 mV. The MCP6041 uses Microchip's advanced CMOS technology, which pro |
Microchip |
| 53 |
MCP6042 |
The MCP6042 dual operational amplifier (op amp) has a gain bandwidth product of 14 kHz with a low typical operating current of 600 nA and an offset voltage that is less than 3 mV. The MCP6042 uses Microchip's advanced CMOS technology, whic |
Microchip |
| 54 |
MCP6043 |
The MCP6043 operational amplifier (op amp) has a gain bandwidth product of 14 kHz with a low typical operating current of 600 nA and an offset voltage that is less than 3 mV. The MCP6043 uses Microchip's advanced CMOS technology, which pro |
Microchip |
| 55 |
MCP6044 |
The MCP6044 quad operational amplifier (op amp) has a gain bandwidth product of 14 kHz with a low typical operating current of 600 nA and an offset voltage that is less than 3 mV. The MCP6044 uses Microchip's advanced CMOS technology, whic |
Microchip |
| 56 |
MCP606 |
The MCP606 operational amplifier (op amp) has a gain bandwidth product of 155 kHz with a low typical operating current of 18.7 µA and an offset voltage that is less than 250 µV. The MCP606 uses Microchip's advanced CMOS technolog |
Microchip |
| 57 |
MCP607 |
The MCP607 dual operational amplifier (op amp) has a gain bandwidth product of 155 kHz with a low typical operating current of 18.7 �A and an offset voltage that is less than 250 �V. The MCP607 uses Microchip's advanced CMOS technology, wh |
Microchip |
| 58 |
MCP608 |
The MCP608 operational amplifier (op amp) has a gain bandwidth product of 155 kHz with a low typical operating current of 18.7 �A and an offset voltage that is less than 250 �V. The MCP608uses Microchip's advanced CMOS technology, which pr |
Microchip |
| 59 |
MCP609 |
The MCP609 quad operational amplifier (op amp) has a gain bandwidth product of 155 kHz with a low typical operating current of 18.7 �A and an offset voltage that is less than 250 �V. The MCP609 uses Microchip's advanced CMOS technology, wh |
Microchip |
| 60 |
MCP616 |
The MCP616 operational amplifier (op amp) has a gain bandwidth product of 190 kHz with a low typical operating current of 19 �A and an offset voltage that is less than 150 �V. The MCP616 uses Microchip's advanced CMOS technology, which pro |
Microchip |
| | | |
