No. |
Part Name |
Description |
Manufacturer |
211 |
LM2672M-ADJ |
SIMPLE SWITCHER Power Converter High Efficiency 1A Step-Down Voltage Regulator with Features |
National Semiconductor |
212 |
LM2672MX-12 |
SIMPLE SWITCHER Power Converter High Efficiency 1A Step-Down Voltage Regulator with Features |
National Semiconductor |
213 |
LM2672MX-3.3 |
SIMPLE SWITCHER Power Converter High Efficiency 1A Step-Down Voltage Regulator with Features |
National Semiconductor |
214 |
LM2672MX-5.0 |
SIMPLE SWITCHER Power Converter High Efficiency 1A Step-Down Voltage Regulator with Features |
National Semiconductor |
215 |
LM2672MX-ADJ |
SIMPLE SWITCHER Power Converter High Efficiency 1A Step-Down Voltage Regulator with Features |
National Semiconductor |
216 |
LM2672N-12 |
SIMPLE SWITCHER Power Converter High Efficiency 1A Step-Down Voltage Regulator with Features |
National Semiconductor |
217 |
LM2672N-3.3 |
SIMPLE SWITCHER Power Converter High Efficiency 1A Step-Down Voltage Regulator with Features |
National Semiconductor |
218 |
LM2672N-5.0 |
SIMPLE SWITCHER Power Converter High Efficiency 1A Step-Down Voltage Regulator with Features |
National Semiconductor |
219 |
LM2672N-ADJ |
SIMPLE SWITCHER Power Converter High Efficiency 1A Step-Down Voltage Regulator with Features |
National Semiconductor |
220 |
PIC16C432 |
This powerful (200 nanosecond instruction execution) yet easy-to-program (only 35 single word instructions) CMOS OTP-based 8-bit microcontroller packs Microchip's powerful PIC architecture into an 20-pin package which features 2 Comparator |
Microchip |
221 |
PIC16C433 |
This powerful (400 nanosecond instruction execution) yet easy-to-program (only 35 single word instructions) CMOS OTP-based 8-bit microcontroller packs Microchip's powerful PIC architecture into an 20-pin package which features 4 channels o |
Microchip |
222 |
PIC18F1220 |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption as low as 0.1 microamps in standby mode and a wide operating voltage range from 2- to 5.5-volts which ma |
Microchip |
223 |
PIC18F1220-E/ML |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
224 |
PIC18F1220-E/P |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
225 |
PIC18F1220-E/SO |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
226 |
PIC18F1220-E/SS |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
227 |
PIC18F1220-I/ML |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
228 |
PIC18F1220-I/P |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
229 |
PIC18F1220-I/SO |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
230 |
PIC18F1220-I/SS |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
231 |
PIC18F1220T-I/ML |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
232 |
PIC18F1220T-I/SO |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
233 |
PIC18F1220T-I/SS |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
234 |
PIC18F1320 |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption as low as 0.1 microamps in standby mode and a wide operating voltage range from 2- to 5.5-volts which ma |
Microchip |
235 |
PIC18F1320-E/ML |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
236 |
PIC18F1320-E/P |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
237 |
PIC18F1320-E/SO |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
238 |
PIC18F1320-E/SS |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
239 |
PIC18F1320-I/ML |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
240 |
PIC18F1320-I/P |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
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