패키징 정보
패키지 | 핀 VQFNP (RMP) | 72 |
작동 온도 범위(°C) -40 to 85 |
패키지 수량 | 캐리어 1,500 | LARGE T&R |
ADS58J63의 주요 특징
- Quad Channel
- 14-Bit Resolution
- Maximum Clock Rate: 500 MSPS
- Input Bandwidth (3 dB): 900 MHz
- On-Chip Dither
- Analog Input Buffer with High-Impedance Input
- Output Options:
- Rx: Decimate-by-2 and -4 Options with Low-
Pass Filter - 200-MHz Complex Bandwidth or 100-MHz
Real Bandwidth Support - DPD FB: Burst Mode with 14-Bit Output
- Rx: Decimate-by-2 and -4 Options with Low-
- 1.9-VPP Differential Full-Scale Input
- JESD204B Interface:
- Subclass 1 Support
- 1 Lane per ADC Up to 10 Gbps
- Dedicated SYNC pin for pair of channels
- Support for Multi-Chip Synchronization
- 72-Pin VQFN Package (10 mm × 10 mm)
- Key Specifications:
- Power Dissipation: 675 mW/ch
- Spectral Performance (Un-decimated)
- fIN = 190 MHz IF at –1 dBFS:
- SNR: 70.4 dBFS
- NSD: –154.4 dBFS/Hz
- SFDR: 86 dBc (HD2, HD3),
95 dBFS (non HD2, HD3)
- fIN = 370 MHz IF at –3 dBFS:
- SNR: 68.5 dBFS
- NSD: –152.5 dBFS/Hz
- SFDR: 81 dBc (HD2, HD3),
86 dBFS (non HD2, HD3)
- fIN = 190 MHz IF at –1 dBFS:
ADS58J63에 대한 설명
The ADS58J63 is a low-power, wide-bandwidth, 14-bit, 500-MSPS, quad-channel, telecom receiver device. The ADS58J63 supports a JESD204B serial interface with data rates up to 10 Gbps with one lane per channel. The buffered analog input provides uniform input impedance across a wide frequency range and minimizes sample-and-hold glitch energy. The ADS58J63 provides excellent spurious-free dynamic range (SFDR) over a large input frequency range with very low power consumption. The digital signal processing block includes complex mixers followed by low-pass filters with decimate-by-2 and -4 options supporting up to 200-MHz receive bandwidth. The ADS58J63 also supports a 14-bit, 500-MSPS output in burst-mode making the device suitable for a DPD observation receiver.
The JESD204B interface reduces the number of interface lines, thus allowing high system integration density. An internal phase locked loop (PLL) multiplies the incoming analog-to-digital converter (ADC) sampling clock to derive the bit clock, which is used to serialize the 14-bit data from each channel.