No. |
Part Name |
Description |
Manufacturer |
1021 |
MAX7451ESA |
Video-Signal Conditioners with AGC and Back-Porch Clamp |
MAXIM - Dallas Semiconductor |
1022 |
MAX7451ESA+ |
Video-Signal Conditioners with AGC and Back-Porch Clamp |
MAXIM - Dallas Semiconductor |
1023 |
MAX7452 |
Video-Signal Conditioners with AGC and Back-Porch Clamp |
MAXIM - Dallas Semiconductor |
1024 |
MAX7452ESA |
Video-Signal Conditioners with AGC and Back-Porch Clamp |
MAXIM - Dallas Semiconductor |
1025 |
MAX7452ESA+ |
Video-Signal Conditioners with AGC and Back-Porch Clamp |
MAXIM - Dallas Semiconductor |
1026 |
MAX7452ESA+T |
Video-Signal Conditioners with AGC and Back-Porch Clamp |
MAXIM - Dallas Semiconductor |
1027 |
MCP100 |
The MCP100 is a voltage supervisory device designed to keep a microcontroller in reset until the system voltage has reached the proper level and stabilized. It also operates as protection from brown-out conditions when the supply voltage d |
Microchip |
1028 |
MCP101 |
The MCP101 is a voltage supervisory device designed to keep a microcontroller in reset until the system voltage has reached the proper level and stabilized. It also operates as protection from brown-out conditions when the supply voltage d |
Microchip |
1029 |
MCP120 |
The MCP120 is a voltage supervisory device designed to keep a microcontroller in reset until the system voltage has reached the proper level and stabilized. It also operates as protection from brown-out conditions when the supply voltage d |
Microchip |
1030 |
MCP130 |
The MCP130 is a voltage supervisory device designed to keep a microcontroller in reset until the system voltage has reached the proper level and stabilized. It also operates as protection from brown-out conditions when the supply voltage d |
Microchip |
1031 |
MCP73841 |
The MCP73841 combines high accuracy constant-voltage (0.5% max), constant-current regulation, cell preconditioning, cell temperature monitoring, advanced safety timers, automatic charge termination, and charge status indication in a space |
Microchip |
1032 |
MCP73842 |
The MCP73842 combines high accuracy constant-voltage (0.5% max), constant-current regulation, cell preconditioning, cell temperature monitoring, advanced safety timers, automatic charge termination, and charge status indication in a space |
Microchip |
1033 |
MCP73843 |
The MCP73843 combines high accuracy constant-voltage (0.5% max), constant-current regulation, cell preconditioning, advanced safety timers, automatic charge termination, and charge status indication in a space saving MSOP-8 package. The de |
Microchip |
1034 |
MCP73844 |
The MCP73844 combines high accuracy constant-voltage (0.5% max), constant-current regulation, cell preconditioning, advanced safety timers, automatic charge termination, and charge status indication in a space saving MSOP-8 package. The de |
Microchip |
1035 |
MCP809 |
The MCP809 is a voltage supervisory device designed to keep a microcontroller in reset until the system voltage has reached the proper level and stabilized. It also operates as protection from brown-out conditions when the supply voltage d |
Microchip |
1036 |
MCP810 |
The MCP810 is a voltage supervisory device designed to keep a microcontroller in reset until the system voltage has reached the proper level and stabilized. It also operates as protection from brown-out conditions when the supply voltage d |
Microchip |
1037 |
MCP9600 |
Sensor conditioning ICs |
Microchip |
1038 |
MCP9600-E/MX |
Sensor conditioning ICs |
Microchip |
1039 |
MCP9600-I/MX |
Sensor conditioning ICs |
Microchip |
1040 |
MCP9600T-E/MX |
Sensor conditioning ICs |
Microchip |
1041 |
MCP9600T-I/MX |
Sensor conditioning ICs |
Microchip |
1042 |
MCT4R |
RELIABILITY CONDITIONED HERMETIC PHOTOTRANSISTOR OPTOCOUPLER |
Fairchild Semiconductor |
1043 |
MNDS26F32M-X-RH |
QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A |
National Semiconductor |
1044 |
MNDS26F32ME/883 |
QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A |
National Semiconductor |
1045 |
MNDS26F32MER-QML |
QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A |
National Semiconductor |
1046 |
MNDS26F32MJ-QMLV |
QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A |
National Semiconductor |
1047 |
MNDS26F32MJ/883 |
QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A |
National Semiconductor |
1048 |
MNDS26F32MJR-QML |
QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A |
National Semiconductor |
1049 |
MNDS26F32MJRQMLV |
QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A |
National Semiconductor |
1050 |
MNDS26F32MW-QMLV |
QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A |
National Semiconductor |
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