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The TS83102G0 is using an innovative architecture, including an on-chip Sample and Hold (S/H), and is fabricated with an advanced high speed bipolar SiGe heterojunction process, featuring 75GHz cutoff frequency. The 3 GHz full power input bandwidth and the band flatness performances enables the digitizing of high IF and large bandwidth signals.
- Data Conversion
- TS83102G0
- ADC 10 Bit 2 GSPS
- Broadband Data Conversion
The TS83102G0 is a monolithic 10-bit analog-to-digital converter, designed for digitizing wide bandwidth analog signals at very high sampling rates of up to 2 Gsps. The TS83102G0 is using an innovative architecture, including an on-chip Sample and Hold (S/H), and is fabricated with an advanced high speed bipolar SiGe heterojunction
Search Partnumber : Match&Start with "TS83102G0"-Total : 3 ( 1/1 Page) Manufacturer: Part No. Datasheet: Description: ATMEL Corporation: TS83102G0B 1Mb / 56P: 10-bit ...
The TS83102G0B is a monolithic 10-bit analog-to-digital converter, designed for digitizing wide bandwidth analog signals at very high sampling rates of up to 2 Gsps. It uses an innovative architecture, including an on-chip Sample and Hold (S/H). The 3.3 GHz full power input bandwidth and band flatness performances enable the digitizing of high ...
- TS83102G0B Download
- 56 Pages
- 1540.48 Kbytes
- TS83102G0B
TS83102G0: Category: Data Conversion => ADC (Analog to Digital Converters) => 10-14 bit => 10 bit: Description: Company: Atmel Grenoble Some Part number from the same ...
In the case of the TS8388B ADC, a stand-alone delay adjustment (±250 ps) is available in the DMUX (ADC Delay Adjust). When the TS83102G0 ADC is used, the internal sampling instant can be fine-tuned by the Sampling Delay adjust function of the ADC. In this case, it is not necessary to use the ADC delay adjust function in the DMUX.
Atmel TS83102G0 is a 2-Gsps 10-bit ADC with a 3-GHz input bandwidth. Because the amplitude response of the Atmel chip is flatter around the top of our desired sampling band (around 1200 MHz), it was decided to use the Atmel chip. Only the most significant 8 bits of the Atmel ADC will be used.
