No. |
Part Name |
Description |
Manufacturer |
661 |
MC68SEC000 |
Communications and Advanced Consumer Technologies Group |
Motorola |
662 |
MCP3001 |
The MCP3001 10-bit Analog-to-Digital Converter (ADC) combines high performance and low power consumption in a small package, making it ideal for embedded control applications. The MCP3001 features a successive approximation register (SAR) |
Microchip |
663 |
MCP3002 |
The MCP3002 10-bit Analog-to-Digital Converter (ADC) combines high performance and low power consumption in a small package, making it ideal for embedded control applications. The MCP3002 features a successive approximation register (SAR) |
Microchip |
664 |
MCP3004 |
The MCP3004 10-bit Analog-to-Digital Converter (ADC) combines high performance and low power consumption in a small package, making it ideal for embedded control applications. The MCP3004 features a successive approximation register (SAR) |
Microchip |
665 |
MCP3008 |
The MCP3008 10-bit Analog-to-Digital Converter (ADC) combines high performance and low power consumption in a small package, making it ideal for embedded control applications. The MCP3008 features a successive approximation register (SAR) |
Microchip |
666 |
MCP3201 |
The MCP3201 12-bit Analog-to-Digital Converter (ADC) combines high performance and low power consumption in a small package, making it ideal for embedded control applications. The MCP3201 features a successive approximation register (SAR) |
Microchip |
667 |
MCP3202 |
The MCP3202 12-bit Analog-to-Digital Converter (ADC) combines high performance and low power consumption in a small package, making it ideal for embedded control applications. The MCP3202 features a successive approximation register (SAR) |
Microchip |
668 |
MCP3204 |
The MCP3204 12-bit Analog-to-Digital Converter (ADC) combines high performance and low power consumption in a small package, making it ideal for embedded control applications. The MCP3204 features a successive approximation register (SAR) |
Microchip |
669 |
MCP3208 |
The MCP3208 12-bit Analog-to-Digital Converter (ADC) combines high performance and low power consumption in a small package, making it ideal for embedded control applications. The MCP3208 features a successive approximation register (SAR) |
Microchip |
670 |
MEC1308 |
Computing Embedded Controllers |
Microchip |
671 |
MEC1308-NU |
Computing Embedded Controllers |
Microchip |
672 |
MEC1308-NU-TR |
Computing Embedded Controllers |
Microchip |
673 |
MEC1310 |
Computing Embedded Controllers |
Microchip |
674 |
MEC1310-NU |
Computing Embedded Controllers |
Microchip |
675 |
MEC1310-NU-TR |
Computing Embedded Controllers |
Microchip |
676 |
MEC1310-PZV |
Computing Embedded Controllers |
Microchip |
677 |
MEC1322 |
Computing Embedded Controllers |
Microchip |
678 |
MEC1322-LZY |
Computing Embedded Controllers |
Microchip |
679 |
MEC1322-LZY-C0 |
Computing Embedded Controllers |
Microchip |
680 |
MEC1322-LZY-C0-TR |
Computing Embedded Controllers |
Microchip |
681 |
MEC1322-NU |
Computing Embedded Controllers |
Microchip |
682 |
MEC1322-NU-C0 |
Computing Embedded Controllers |
Microchip |
683 |
MEC1322-SZ-C0 |
Computing Embedded Controllers |
Microchip |
684 |
MEC1322-SZ-C0-TR |
Computing Embedded Controllers |
Microchip |
685 |
MEC1322I-NU-C0 |
Computing Embedded Controllers |
Microchip |
686 |
MEC1404 |
Computing Embedded Controllers |
Microchip |
687 |
MEC1404-NU |
Computing Embedded Controllers |
Microchip |
688 |
MEC1404-NU-D0 |
Computing Embedded Controllers |
Microchip |
689 |
MEC1404-SZ |
Computing Embedded Controllers |
Microchip |
690 |
MEC1406 |
Computing Embedded Controllers |
Microchip |
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