| No. |
Part Name |
Description |
Manufacturer |
| 61 |
IE-789862-NS-EM1 |
UPD789862 subseries in-circuit emulator emulation board |
NEC |
| 62 |
IE-789871-NS-EM1 |
78K/0S series in-circuit emulator emulation board |
NEC |
| 63 |
IE-789882-NS-EM1 |
78K/0S series in-circuit emulator emulation board |
NEC |
| 64 |
ISP1760 |
Hi-Speed Universal Serial Bus host controller for embedded applications |
Philips |
| 65 |
ISP1760BE |
ISP1760; Hi-Speed Universal Serial Bus host controller for embedded applications |
Philips |
| 66 |
ISP1760BE |
Hi-Speed Universal Serial Bus host controller for embedded applications |
Philips |
| 67 |
ISP1760ET |
Hi-Speed Universal Serial Bus host controller for embedded applications |
Philips |
| 68 |
LM3655 |
Charge Control and Protection IC for embedded single cell Li-Ion/Polymer batteries |
National Semiconductor |
| 69 |
LM3655TL |
Charge Control and Protection IC for embedded single cell Li-Ion/Polymer batteries |
National Semiconductor |
| 70 |
LM3655TLX |
Charge Control and Protection IC for embedded single cell Li-Ion/Polymer batteries |
National Semiconductor |
| 71 |
MAX16945 |
30mA Inverting Charge Pump in SOT23 for EMI-Sensitive Automotive Applications |
MAXIM - Dallas Semiconductor |
| 72 |
MAX16945TGUT#G16 |
30mA Inverting Charge Pump in SOT23 for EMI-Sensitive Automotive Applications |
MAXIM - Dallas Semiconductor |
| 73 |
MAX16945TGUT#TG16 |
30mA Inverting Charge Pump in SOT23 for EMI-Sensitive Automotive Applications |
MAXIM - Dallas Semiconductor |
| 74 |
MAX16945TGUT+ |
30mA Inverting Charge Pump in SOT23 for EMI-Sensitive Automotive Applications |
MAXIM - Dallas Semiconductor |
| 75 |
MAX16945TGUT+T |
30mA Inverting Charge Pump in SOT23 for EMI-Sensitive Automotive Applications |
MAXIM - Dallas Semiconductor |
| 76 |
MAX16945TGUT/V+ |
30mA Inverting Charge Pump in SOT23 for EMI-Sensitive Automotive Applications |
MAXIM - Dallas Semiconductor |
| 77 |
MAX16945TGUT/V+T |
30mA Inverting Charge Pump in SOT23 for EMI-Sensitive Automotive Applications |
MAXIM - Dallas Semiconductor |
| 78 |
MAX5975A |
Current-Mode PWM Controllers with Frequency Dithering for EMI-Sensitive Power Supplies |
MAXIM - Dallas Semiconductor |
| 79 |
MAX5975AETE+ |
Current-Mode PWM Controllers with Frequency Dithering for EMI-Sensitive Power Supplies |
MAXIM - Dallas Semiconductor |
| 80 |
MAX5975AETE+T |
Current-Mode PWM Controllers with Frequency Dithering for EMI-Sensitive Power Supplies |
MAXIM - Dallas Semiconductor |
| 81 |
MAX5975B |
Current-Mode PWM Controllers with Frequency Dithering for EMI-Sensitive Power Supplies |
MAXIM - Dallas Semiconductor |
| 82 |
MAX5975BETE+ |
Current-Mode PWM Controllers with Frequency Dithering for EMI-Sensitive Power Supplies |
MAXIM - Dallas Semiconductor |
| 83 |
MAX5975BETE+T |
Current-Mode PWM Controllers with Frequency Dithering for EMI-Sensitive Power Supplies |
MAXIM - Dallas Semiconductor |
| 84 |
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 |
| 85 |
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 |
| 86 |
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 |
| 87 |
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 |
| 88 |
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 |
| 89 |
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 |
| 90 |
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 |
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