| No. |
Part Name |
Description |
Manufacturer |
| 1 |
AAT3123AITP-20-T1 |
High Efficiency 1X/1.5X Fractional Charge Pump for White LED Applications 4-Channel Output with Increased Start-Up Current |
Skyworks Solutions |
| 2 |
AB-001 |
INCREASING INA117 DIFFERENTIAL INPUT RANGE |
Burr Brown |
| 3 |
AB-013 |
INCREASING ADC603 INPUT RANGE |
Burr Brown |
| 4 |
AB-110 |
VOLTAGE REFERENCE SCALING TECHNIQUES Increase the Accuracy of the Converter as well as Resolution |
Burr Brown |
| 5 |
AND8067 |
NL27WZ04 Dual Gate Inverter Oscillator Increases the Brightness of LEDs While Reducing Power Consumption |
ON Semiconductor |
| 6 |
AWT6134 |
The AWT6134 meets the increasing demands for higher efficiency and linearity in CDMA 1XRTT handsets. |
Anadigics Inc |
| 7 |
AWT6135 |
The AWT6135 meets the increasing demands for higher efficiency and linearity in CDMA 1XRTT handsets. |
Anadigics Inc |
| 8 |
AWT6251 |
The AWT6251 meets the increasing demands for higher output power in 3GPP Wireless handsets. |
Anadigics Inc |
| 9 |
AWT6251 |
The AWT6251 meets the increasing demands for higher output power in 3GPP Wireless handsets. |
Anadigics Inc |
| 10 |
AWT6252 |
The AWT6252 meets the increasing demands for higher output power in 3GPP 1XRTT handsets. |
Anadigics Inc |
| 11 |
AWT6301 |
The AWT6301 meets the increasing demands for higher efficiency and linearity in AMPS/CDMA 1X handsets, while reducing pcb area by ... |
Anadigics Inc |
| 12 |
AWT6302 |
The AWT6302 meets the increasing demands for higher efficiency and linearity in AMPS/CDMA 1X handsets, while reducing pcb area by ... |
Anadigics Inc |
| 13 |
C505C |
8-Bit Microcontrollers - General Description: The C505C enhances the C500 family of 8-bit Microcontrollers by a new member which provides full CAN version 2.0 B integrated on-chip. The C505C meets the current requirements for increasingly |
Infineon |
| 14 |
CMX589A, MX909A, MX919B, MX929B |
Increasing Data Throughput in Radio Telemetry Systems |
CONSUMER MICROCIRCUITS LIMITED |
| 15 |
E102C/J |
Increases Ohmic Value (S102C & S102J) |
Vishay |
| 16 |
ECO |
Precision Rotative Transducers, Conductive Plastic, Economic Series, Size 05-09-13, Reasonable Cost, Long Life, Bush or Servo Mounting, Rear Mounted Terminals |
Vishay |
| 17 |
HV23 |
PN Junction Type Varistor, Decrease Voltage Compensation, Temperature Compensation |
Hitachi Semiconductor |
| 18 |
HV26 |
PN Junction Type Varistor, Decrease Voltage Compensation, Temperature Compensation |
Hitachi Semiconductor |
| 19 |
IDT77901C |
NICStAR Evaluation Board for IDT77201 PCI Segmentation and Reassembly Controller |
IDT |
| 20 |
IDT77901D |
NICStAR Evaluation Board for IDT77201 PCI Segmentation and Reassembly Controller |
IDT |
| 21 |
IDT77911 |
NICStAR Evaluation Board for IDT77211 PCI Segmentation and Reassembly Controller |
IDT |
| 22 |
INCREASING DATA THROUGHPUT IN RADIO TELE |
Increasing Data Throughput in Radio Telemetry Systems |
CONSUMER MICROCIRCUITS LIMITED |
| 23 |
INCREASING DATA THROUGHPUT IN RADIO TELE |
Increasing Data Throughput in Radio Telemetry Systems |
CONSUMER MICROCIRCUITS LIMITED |
| 24 |
MC68HC705B16CFN |
8-bit single chip microcomputer, 16K bytes EPROM, increased RAM, self-check replaced by bootstrap firmware, modified power-on reset routine |
Motorola |
| 25 |
MC68HC705B16CFU |
8-bit single chip microcomputer, 16K bytes EPROM, increased RAM, self-check replaced by bootstrap firmware, modified power-on reset routine |
Motorola |
| 26 |
MC68HC705B16FN |
8-bit single chip microcomputer, 16K bytes EPROM, increased RAM, self-check replaced by bootstrap firmware, modified power-on reset routine |
Motorola |
| 27 |
MC68HC705B16FU |
8-bit single chip microcomputer, 16K bytes EPROM, increased RAM, self-check replaced by bootstrap firmware, modified power-on reset routine |
Motorola |
| 28 |
MC68HC705B16VFN |
8-bit single chip microcomputer, 16K bytes EPROM, increased RAM, self-check replaced by bootstrap firmware, modified power-on reset routine |
Motorola |
| 29 |
MC68HC705B16VFU |
8-bit single chip microcomputer, 16K bytes EPROM, increased RAM, self-check replaced by bootstrap firmware, modified power-on reset routine |
Motorola |
| 30 |
MC68HC705B32B |
8-bit single chip microcomputer, 32K bytes EPROM, no page zero ROM, increased RAM, self-check mode replaced by bootstrap firmware |
Motorola |
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