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High-speed ADCs (≥10 MSPS)

ADC12DJ5200RF

ACTIVE

RF-sampling 12-bit ADC with dual-channel 5.2 GSPS or single-channel 10.4 GSPS

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Data sheet

ADC12DJ5200RF

ACTIVE
Data sheet Order now

Product details

Sample rate (max) (Msps) 5200, 10400 Resolution (Bits) 12 Number of input channels 1, 2 Interface type JESD204B, JESD204C Analog input BW (MHz) 7900 Features Ultra High Speed Rating Catalog Peak-to-peak input voltage range (V) 0.825 Power consumption (typ) (mW) 4000 Architecture Folding Interpolating SNR (dB) 55.6 ENOB (Bits) 8.8 SFDR (dB) 65 Operating temperature range (°C) -40 to 85 Input buffer Yes
Sample rate (max) (Msps) 5200, 10400 Resolution (Bits) 12 Number of input channels 1, 2 Interface type JESD204B, JESD204C Analog input BW (MHz) 7900 Features Ultra High Speed Rating Catalog Peak-to-peak input voltage range (V) 0.825 Power consumption (typ) (mW) 4000 Architecture Folding Interpolating SNR (dB) 55.6 ENOB (Bits) 8.8 SFDR (dB) 65 Operating temperature range (°C) -40 to 85 Input buffer Yes
FCCSP (AAV) 144 1E+2 mm² 1E+1 x 1E+1 FCCSP (ZEG) 144 1E+2 mm² 1E+1 x 1E+1
  • ADC core:
    • 12-bit resolution
    • Up to 10.4 GSPS in single-channel mode
    • Up to 5.2 GSPS in dual-channel mode
  • Performance specifications:
    • Noise floor (–20 dBFS, VFS = 1 VPP-DIFF):
      • Dual-channel mode: –151.8 dBFS/Hz
      • Single-channel mode: –154.4 dBFS/Hz
    • ENOB (dual channel, FIN = 2.4 GHz): 8.6 Bits
  • Buffered analog inputs with VCMI of 0 V:
    • Analog input bandwidth (–3 dB): 8 GHz
    • Usable input frequency range: > 10 GHz
    • Full-scale input voltage (VFS, default): 0.8 VPP
  • Noiseless aperture delay (tAD) adjustment:
    • Precise sampling control: 19-fs Step
    • Simplifies synchronization and interleaving
    • Temperature and voltage invariant delays
  • Easy-to-use synchronization features:
    • Automatic SYSREF timing calibration
    • Timestamp for sample marking
  • JESD204C serial data interface:
    • Maximum lane rate: 17.16 Gbps
    • Support for 64b/66b and 8b/10b encoding
    • 8b/10b modes are JESD204B compatible
  • Optional digital down-converters (DDC):
    • 4x, 8x, 16x and 32x complex decimation
    • Four independent 32-Bit NCOs per DDC
  • Peak RF Input Power (Diff): +26.5 dBm (+ 27.5 dBFS, 560x fullscale power)
  • Programmable FIR filter for equalization
  • Power consumption: 4 W
  • Power supplies: 1.1 V, 1.9 V
  • ADC core:
    • 12-bit resolution
    • Up to 10.4 GSPS in single-channel mode
    • Up to 5.2 GSPS in dual-channel mode
  • Performance specifications:
    • Noise floor (–20 dBFS, VFS = 1 VPP-DIFF):
      • Dual-channel mode: –151.8 dBFS/Hz
      • Single-channel mode: –154.4 dBFS/Hz
    • ENOB (dual channel, FIN = 2.4 GHz): 8.6 Bits
  • Buffered analog inputs with VCMI of 0 V:
    • Analog input bandwidth (–3 dB): 8 GHz
    • Usable input frequency range: > 10 GHz
    • Full-scale input voltage (VFS, default): 0.8 VPP
  • Noiseless aperture delay (tAD) adjustment:
    • Precise sampling control: 19-fs Step
    • Simplifies synchronization and interleaving
    • Temperature and voltage invariant delays
  • Easy-to-use synchronization features:
    • Automatic SYSREF timing calibration
    • Timestamp for sample marking
  • JESD204C serial data interface:
    • Maximum lane rate: 17.16 Gbps
    • Support for 64b/66b and 8b/10b encoding
    • 8b/10b modes are JESD204B compatible
  • Optional digital down-converters (DDC):
    • 4x, 8x, 16x and 32x complex decimation
    • Four independent 32-Bit NCOs per DDC
  • Peak RF Input Power (Diff): +26.5 dBm (+ 27.5 dBFS, 560x fullscale power)
  • Programmable FIR filter for equalization
  • Power consumption: 4 W
  • Power supplies: 1.1 V, 1.9 V

The ADC12DJ5200RF device is an RF-sampling, giga-sample, analog-to-digital converter (ADC) that can directly sample input frequencies from DC to above 10 GHz. ADC12DJ5200RF can be configured as a dual-channel, 5.2 GSPS ADC or single-channel, 10.4 GSPS ADC. Support of a useable input frequency range of up to 10 GHz enables direct RF sampling of L-band, S-band, C-band, and X-band for frequency agile systems.

The ADC12DJ5200RF uses a high-speed JESD204C output interface with up to 16 serialized lanes supporting up to 17.16 Gbps line rate. Deterministic latency and multi-device synchronization is supported through JESD204C subclass-1. The JESD204C interface can be configured to trade-off line rate and number of lanes. Both 8b/10b and 64b/66b data encoding schemes are supported. 64b/66b encoding supports forward error correction (FEC) for improved bit error rates. The interface is backwards compatible with JESD204B receivers.

Innovative synchronization features, including noiseless aperture delay adjustment and SYSREF windowing, simplify system design for multi-channel applications. Optional digital down converters (DDCs) are available to provide digital conversion to baseband and to reduce the interface rate. A programmable FIR filter allows on-chip equalization.

The ADC12DJ5200RF device is an RF-sampling, giga-sample, analog-to-digital converter (ADC) that can directly sample input frequencies from DC to above 10 GHz. ADC12DJ5200RF can be configured as a dual-channel, 5.2 GSPS ADC or single-channel, 10.4 GSPS ADC. Support of a useable input frequency range of up to 10 GHz enables direct RF sampling of L-band, S-band, C-band, and X-band for frequency agile systems.

The ADC12DJ5200RF uses a high-speed JESD204C output interface with up to 16 serialized lanes supporting up to 17.16 Gbps line rate. Deterministic latency and multi-device synchronization is supported through JESD204C subclass-1. The JESD204C interface can be configured to trade-off line rate and number of lanes. Both 8b/10b and 64b/66b data encoding schemes are supported. 64b/66b encoding supports forward error correction (FEC) for improved bit error rates. The interface is backwards compatible with JESD204B receivers.

Innovative synchronization features, including noiseless aperture delay adjustment and SYSREF windowing, simplify system design for multi-channel applications. Optional digital down converters (DDCs) are available to provide digital conversion to baseband and to reduce the interface rate. A programmable FIR filter allows on-chip equalization.
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Technical documentation

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Type Title Date
* Data sheet ADC12DJ5200RF 10.4-GSPS Single-Channel or 5.2-GSPS Dual-Channel, 12-bit, RF-Sampling Analog-to-Digital Converter (ADC) datasheet (Rev. E) PDF | HTML 08 Feb 2023
EVM User's guide ADCxxDJxx00RF-TRF1208 Evaluation Module PDF | HTML 12 Oct 2021
Third party documents JESD204C Intel® FPGA IP and TI ADC12DJ5200RF Interoperability Report for Intel® Stratix® 10 Devices 22 Jul 2021
Analog Design Journal Clutter‐free power supplies for RF converters in radar applications (Part 1)  18 Mar 2021
Certificate ADC12DJ5200RFEVM EU Declaration of Conformity (DoC) (Rev. B) 09 Mar 2021
Application note Impact of PLL Jitter to GSPS ADC's SNR and Performance Optimization 11 Nov 2020
Technical article Keys to quick success using high-speed data converters 13 Oct 2020
Application note Powering Sensitive Noise ADC Designs with the TPS62913 Low-Noise Buck Converter PDF | HTML 30 Sep 2020
Technical article Step-by-step considerations for designing wide-bandwidth multichannel systems 04 Jun 2019
Technical article So, what are S-parameters anyway? 23 May 2019

Design & development

For additional terms or required resources, click any title below to view the detail page where available.

Evaluation board

ADC12DJ5200RFEVM — ADC12DJ5200RF RF-sampling 12-bit dual 5.2-GSPS or single 10.4-GSPS ADC evaluation module

The ADC12DJ5200RF evaluation module (EVM) allows for the evaluation of device ADC12DJ5200RF. The ADC12DJ5200RF is a low-power, 12-bit, dual 5.2-GSPS/single 10.4-GSPS, RF-sampling analog-to-digital converter (ADC) with a buffered analog input, integrated digital down converter with programmable NCO (...)

User guide: PDF | HTML
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Evaluation board

ANNAP-3P-WWDM60 — Annapolis Microsystems 4-channel ADC, 2-channel DAC FPGA mezzanine card up to 10GSPS

This high performance WILD FMC+ DM60 ADC & DAC has two input bandwidth options, internal sample clock options and internal 10MHz reference clock options. The WWDM60 has a choice of speed grades that utilize the ADC12DJ2700, ADC12DJ3200 and ADC12DJ5200RF up to 10GSPS. It allows for ADC and DAC (...)
From: Annapolis Micro Systems
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Firmware

TI-JESD204-IP — JESD204 Rapid Design IP for FPGAs connected to TI high-speed data converters

The JESD204 rapid design IP has been designed to enable FPGA engineers to achieve an accelerated path to a working JESD204 system. The IP has been architected in a way that downstream digital processing and other application logic are isolated from most of the performance- and timing-critical (...)
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Support software

DATACONVERTERPRO-SW — High-speed data converter pro software

This high-speed data converter pro GUI is a PC (Windows® XP/7/10 compatible) program designed to aid in evaluation of most TI high-speed data converter and analog front-end (AFE) platforms. Designed to support the entire TSW14xxx series of data-capture and pattern-generation cards, (...)
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Simulation model

ADC12DJ5200RF IBIS and IBIS-AMI Model (Rev. A)

SLVMD65A.ZIP (49879 KB) - IBIS-AMI Model
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Simulation model

ADC12DJ5200RF S-Parameter Model

SLVMDX5.ZIP (1563 KB) - S-Parameter Model
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Calculation tool

FREQ-DDC-FILTER-CALC — RF-Sampling Frequency Planner, Analog Filter, and DDC Excel™ Calculator

This Excel calculator provides system designers a way to simplify the design and debugging of direct RF-sampling receivers. It offers three functions: frequency planning, analog filtering, and decimation filter spur location.

In the concept phase, a frequency-planning tool enables fine tuning of (...)

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Design tool

ADC12DJ5200RF-EVM Assembly Package (Rev. A)

SLVRBH0A.ZIP (41092 KB)
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Schematic

ADC12DJ5200RFEVM Design Files (Rev. B)

SLVC778B.ZIP (13823 KB)
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Simulation tool

PSPICE-FOR-TI — PSpice® for TI design and simulation tool

PSpice® for TI is a design and simulation environment that helps evaluate functionality of analog circuits. This full-featured, design and simulation suite uses an analog analysis engine from Cadence®. Available at no cost, PSpice for TI includes one of the largest model libraries in the (...)
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Reference designs

TIDA-010128 — Scalable 20.8 GSPS reference design for 12 bit digitizers

This reference design describes a 20.8 GSPS sampling system using RF sampling analog-to-digital converters (ADCs) in time interleaved configuration. Time interleaving method is a proven and traditional way of increasing sample rate, however, matching individual ADCs offset, gain and sampling time (...)
Design guide: PDF
Schematic: PDF
Reference designs

TIDA-01028 — 12.8-GSPS analog front end reference design for high-speed oscilloscope and wide-band digitizer

This reference design provides a practical example of interleaved RF-sampling analog-to-digital converters (ADCs) to achieve a 12.8-GSPS sampling rate. This is done by time interleaving two RF-sampling ADCs. Interleaving requires a phase shift between the ADCs, which this reference design achieves (...)
Design guide: PDF
Schematic: PDF
Reference designs

TIDA-01027 — Low-noise power supply reference design maximizing performance in 12.8-GSPS data acquisition systems

This reference design demonstrates an efficient, low-noise five-rail power supply design for very high-speed Data Acquisition (DAQ) systems capable of > 12.8 GSPS. The power supply DC/DC converters are frequency-synchronized and phase-shifted in order to minimize input current ripple and (...)
Design guide: PDF
Schematic: PDF
Package Pins Download
FCCSP (AAV) 144 View options
FCCSP (ZEG) 144 View options

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