No. |
Part Name |
Description |
Manufacturer |
121 |
AD7015 |
GSM Baseband Processing Chipset |
Analog Devices |
122 |
AD7660 |
16-Bit 100 kSPS CMOS Successive Approximation PulSAR ADC with No Missing Codes |
Analog Devices |
123 |
AD7660ACP |
16-Bit 100 kSPS CMOS Successive Approximation PulSAR® ADC with No Missing Codes |
Analog Devices |
124 |
AD7664 |
16-Bit 570 kSPS CMOS Successive Approximation PulSAR ADC with No Missing Codes |
Analog Devices |
125 |
AD7664ACP |
16-Bit 570 kSPS CMOS Successive Approximation PulSAR® ADC with No Missing Codes |
Analog Devices |
126 |
AD8295 |
Precision Instrumentation Amplifier with Signal Processing Amplifiers |
Analog Devices |
127 |
AD890JP |
V(cc): +-7.5V; precision, wideband channel processing element. For high performance disk subsystem use |
Analog Devices |
128 |
AD890JQ |
V(cc): +-7.5V; precision, wideband channel processing element. For high performance disk subsystem use |
Analog Devices |
129 |
ADE7761 |
Single Phase Energy Metering IC with On-Chip Fault Detection and Missing Neutral Detection |
Analog Devices |
130 |
ADE7761ARS |
Single Phase Energy Metering IC with On-Chip Fault Detection and Missing Neutral Detection |
Analog Devices |
131 |
ADE7761ARS-REF |
Single Phase Energy Metering IC with On-Chip Fault Detection and Missing Neutral Detection |
Analog Devices |
132 |
ADE7761ARSRL |
Single Phase Energy Metering IC with On-Chip Fault Detection and Missing Neutral Detection |
Analog Devices |
133 |
ADE7761B |
Energy Metering IC with On-Chip Fault and Missing Neutral Detection |
Analog Devices |
134 |
ADF4251 |
Lowest Phase Noise PLL Synthesizer using Fractional-N Technology |
Analog Devices |
135 |
ADF4251BCP |
Lowest Phase Noise PLL Synthesizer using Fractional-N Technology |
Analog Devices |
136 |
ADF4251BCP-REEL |
Lowest Phase Noise PLL Synthesizer using Fractional-N Technology |
Analog Devices |
137 |
ADF4251BCP-REEL7 |
Lowest Phase Noise PLL Synthesizer using Fractional-N Technology |
Analog Devices |
138 |
ADF4252 |
Lowest Phase Noise PLL Synthesizer using Fractional-N Technology |
Analog Devices |
139 |
ADF4252BCP |
Lowest Phase Noise PLL Synthesizer using Fractional-N Technology |
Analog Devices |
140 |
ADPLP01 |
GSM Baseband Processing Chipset |
Analog Devices |
141 |
ADS58C20 |
Dual Channel IF BTS Receiver with Signal Processing for multi-mode 3G+LTE+GSM 80-HTQFP -40 to 85 |
Texas Instruments |
142 |
ADS58C20IPFP |
Dual Channel IF BTS Receiver with Signal Processing for multi-mode 3G+LTE+GSM 80-HTQFP -40 to 85 |
Texas Instruments |
143 |
ADS58C20IPFPR |
Dual Channel IF BTS Receiver with Signal Processing for multi-mode 3G+LTE+GSM 80-HTQFP -40 to 85 |
Texas Instruments |
144 |
ADS58C23 |
Dual Channel IF BTS Receiver with Signal Processing for multi-mode 3G+LTE |
Texas Instruments |
145 |
ADS58C23IPFP |
Dual Channel IF BTS Receiver with Signal Processing for multi-mode 3G+LTE 80-HTQFP -40 to 85 |
Texas Instruments |
146 |
ADS58C23IPFPR |
Dual Channel IF BTS Receiver with Signal Processing for multi-mode 3G+LTE 80-HTQFP -40 to 85 |
Texas Instruments |
147 |
ADSP-2100ASG_883G |
0.3-7V; speed: 8.192MHz; 12.5 MIPS microprocessor. For optimized for DSP algorithms including, digital filtering, fast fourier transforms,image processing, radar, sonar speech processing and telecommunications |
Analog Devices |
148 |
ADSP-2100ATG_883G |
0.3-7V; speed: 10.24MHz; 12.5 MIPS microprocessor. For optimized for DSP algorithms including, digital filtering, fast fourier transforms,image processing, radar, sonar speech processing and telecommunications |
Analog Devices |
149 |
ADSP-2100AUG_883G |
0.3-7V; speed: 12.50MHz; 12.5 MIPS microprocessor. For optimized for DSP algorithms including, digital filtering, fast fourier transforms,image processing, radar, sonar speech processing and telecommunications |
Analog Devices |
150 |
ADSP-2100SG_883G |
0.3-7V; speed: 6.144MHz; 12.5 MIPS microprocessor. For optimized for DSP algorithms including, digital filtering, fast fourier transforms,image processing, radar, sonar speech processing and telecommunications |
Analog Devices |
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