No. |
Part Name |
Description |
Manufacturer |
241 |
PC17T1 |
Photocoupler(These Photocouplers consist of a Gallium Arsenide Infrared Emitting) |
Kodenshi Corp |
242 |
PC17T1 |
Photocoupler(These Photocouplers consist of a Gallium Arsenide Infrared Emitting) |
Kondenshi Corp |
243 |
PIC18F6390 |
LCD PIC18F Microcontroller with 8K bytes of Flash and 768 bytes of RAM. These devices are easily adapted for handheld meters, thermostats, ... |
Microchip |
244 |
PIC18F8390 |
LCD PIC18F Microcontroller with 8K bytes of Flash and 768 bytes of RAM. These devices are easily adapted for handheld meters, thermostats, ... |
Microchip |
245 |
SAA5700 |
Chinese Character System Teletext CCST decoder |
Philips |
246 |
SAA5700GP |
Chinese Character System Teletext CCST decoder |
Philips |
247 |
SAA5700GP_M4B |
Chinese Character System Teletext (CCST) decoder |
Philips |
248 |
SAA5700GP_M4C |
Chinese Character System Teletext (CCST) decoder |
Philips |
249 |
SE-126 |
Sony Ericsson reports strong increase in sales and shipments for its two core business areas GSM and Japanese standards |
SONY |
250 |
SN5404W |
These devices contain six independent inverters |
Texas Instruments |
251 |
SN54LS04FK |
These devices contain six independent inverters |
Texas Instruments |
252 |
SN54LS04W |
These devices contain six independent inverters |
Texas Instruments |
253 |
SN54S04FK |
These devices contain six independent inverters |
Texas Instruments |
254 |
SN54S04W |
These devices contain six independent inverters |
Texas Instruments |
255 |
TA7411 |
High-Gain Silicon NPN Overlay Transistor, Warning - ceramic portion of these transistors contain BERYLLIUM OXIDE |
RCA Solid State |
256 |
TA7852 |
High-Gain Silicon NPN Overlay Transistor, Warning - ceramic portion of these transistors contain BERYLLIUM OXIDE |
RCA Solid State |
257 |
TC1037 |
The TC1037/1038/1039 are single, low-power comparators designed for low-power applications. These comparators are specifically designed for operation from a single supply. However, operation from dual supplies also is possible, and power s |
Microchip |
258 |
TC1037CECTTR |
The TC1037/1038/1039 are single, low-power comparators designed for low-power applications. These comparators are specifically designed ... |
Microchip |
259 |
TC1037CECTTRG |
The TC1037/1038/1039 are single, low-power comparators designed for low-power applications. These comparators are specifically designed ... |
Microchip |
260 |
TC1038 |
The TC1037/1038/1039 are single, low-power comparators designed for low-power applications. These comparators are specifically designed for operation from a single supply. However, operation from dual supplies also is possible, and power s |
Microchip |
261 |
TC1038CECHTR |
The TC1037/1038/1039 are single, low-power comparators designed for low-power applications. These comparators are specifically designed ... |
Microchip |
262 |
TC1039 |
The TC1037/1038/1039 are single, low-power comparators designed for low-power applications. These comparators are specifically designed for operation from a single supply. However, operation from dual supplies also is possible, and power s |
Microchip |
263 |
TC1039CECHTR |
The TC1037/1038/1039 are single, low-power comparators designed for low-power applications. These comparators are specifically designed ... |
Microchip |
264 |
TC1188 |
Delivering up to 120mA, the TC1188 and TC1189 are fixed output, low-dropout linear regulators that operate from a +2.5V to +6.0V input range. The 50�A supply current remains independent of load, making these devices ideal for battery-opera |
Microchip |
265 |
TC1189 |
Delivering up to 120mA, the TC1188 and TC1189 are fixed output, low-dropout linear regulators that operate from a +2.5V to +6.0V input range. The 50�A supply current remains independent of load, making these devices ideal for battery-opera |
Microchip |
266 |
TC125 |
The TC125/6 step-up (Boost) switching regulators furnish output currents to a maximum of 80 mA (VIN = 2V, VOUT = 3V) with typical efficiencies above 80%. These devices employ pulse frequency modulation (PFM) for minimum supply current at l |
Microchip |
267 |
TC126 |
The TC125/6 step-up (Boost) switching regulators furnish output currents to a maximum of 80 mA (VIN = 2V, VOUT = 3V) with typical efficiencies above 80%. These devices employ pulse frequency modulation (PFM) for minimum supply current at l |
Microchip |
268 |
TC1426 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. These devices are fabricated using an epitaxial layer to effectively short out the intrinsic parasitic |
Microchip |
269 |
TC1427 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. These devices are fabricated using an epitaxial layer to effectively short out the intrinsic parasitic |
Microchip |
270 |
TC1428 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. These devices are fabricated using an epitaxial layer to effectively short out the intrinsic parasitic |
Microchip |
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