12-bit, dual 3.2-GSPS or single 6.4-GSPS, RF-sampling analog-to-digital converter (ADC)
Product details
Parameters
Package | Pins | Size
Features
- ADC core:
- 12-bit resolution
- Up to 6.4 GSPS in single-channel mode
- Up to 3.2 GSPS in dual-channel mode
- Performance specifications:
- Noise floor (no signal, VFS = 1.0 VPP-DIFF):
- Dual-channel mode: –151.8 dBFS/Hz
- Single-channel mode: –154.6 dBFS/Hz
- HD2, HD3: –65 dBc up to 3 GHz
- Noise floor (no signal, VFS = 1.0 VPP-DIFF):
- Buffered analog inputs with VCMI of 0 V:
- Analog input bandwidth (–3 dB): 8.0 GHz
- Usable input frequency range: >10 GHz
- Full-scale input voltage (VFS, default): 0.8 VPP
- Analog input common-mode (VICM): 0 V
- 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
- JESD204B serial data interface:
- Supports subclass 0 and 1
- Maximum lane rate: 12.8 Gbps
- Up to 16 lanes allows reduced lane rate
- Digital down-converters in dual-channel mode:
- Real output: DDC bypass or 2x decimation
- Complex output: 4x, 8x, or 16x decimation
- Four independent 32-Bit NCOs per DDC
- Power consumption: 3 W
- Power supplies: 1.1 V, 1.9 V
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Description
The ADC12DJ3200 device is an RF-sampling, giga-sample, analog-to-digital converter (ADC) that can directly sample input frequencies from DC to above 10 GHz. In dual-channel mode, the ADC12DJ3200 can sample up to 3200 MSPS and up to 6400 MSPS in single-channel mode. Programmable tradeoffs in channel count (dual-channel mode) and Nyquist bandwidth (single-channel mode) allow development of flexible hardware that meets the needs of both high channel count or wide instantaneous signal bandwidth applications. Full-power input bandwidth (–3 dB) of 8.0 GHz, with usable frequencies exceeding the –3-dB point in both dual- and single-channel modes, allows direct RF sampling of L-band, S-band, C-band, and X-band for frequency agile systems.
The ADC12DJ3200 uses a high-speed JESD204B output interface with up to 16 serialized lanes and subclass-1 compliance for deterministic latency and multi-device synchronization. The serial output lanes support up to 12.8 Gbps and can be configured to trade-off bit rate and number of lanes. Innovative synchronization features, including noiseless aperture delay (TAD) adjustment and SYSREF windowing, simplify system design for phased array radar and MIMO communications. Optional digital down converters (DDCs) in dual-channel mode allow for reduction in interface rate (real and complex decimation modes) and digital mixing of the signal (complex decimation modes only).
Technical documentation
= Top documentation for this product selected by TI
| Type | Title | Date | |
|---|---|---|---|
| * | Datasheet | ADC12DJ3200 6.4-GSPS Single-Channel or 3.2-GSPS Dual-Channel, 12-bit, RF-Sampling Analog-to-Digital Converter (ADC) datasheet (Rev. A) | Feb. 21, 2019 |
| Technical articles | Keys to quick success using high-speed data converters | Oct. 13, 2020 | |
| User guide | ADC12DJ3200EVMCVAL with Alpha Data Xilinx® Kintex Ultrascale Space Dev. Kit (Rev. A) | Aug. 27, 2020 | |
| Technical articles | So, what's a VNA anyway? | Aug. 23, 2019 | |
| Technical articles | So, what's the deal with frequency response? | Aug. 23, 2019 | |
| Technical articles | Step-by-step considerations for designing wide-bandwidth multichannel systems | Jun. 04, 2019 | |
| Application notes | Intel Stratix 10 GX 16-Lane RX JESD204B-ADC12DJ3200 Interoperability Reference Design | May 30, 2018 | |
| User guide | ADCxxDJxx00 Evaluation Module User's Guide (Rev. A) | Jan. 09, 2018 | |
| Application note | Designing a modern power supply for RF sampling converters | Apr. 26, 2017 |
Design & development
For additional terms or required resources, click any title below to view the detail page where available.Hardware development
ADC12DJ3200EVM
Description
The ADC12DJ3200 evaluation module (EVM) allows for the evaluation of device ADC12DJ3200. The ADC12DJ3200 is a low-power, 12-bit, dual 3.2-GSPS/single 6.4-GSPS, RF-sampling analog-to-digital converter (ADC) with a buffered analog input, integrated digital down converter with programmable NCO and (...)
Features
- Flexible transformer-coupled analog input to allow for a variety of sources and frequencies
- Easy-to-use software GUI to configure ADC12DJ3200, LMX2582, and LMK04828 devices for a variety of configurations through a USB interface
- Quickly evaluate ADC performance through High-Speed Data Converter Pro (...)
Provided by Abaco Systems
Description
The Abaco FMC134 provides four 12-bit 3.2-GSPS or two 12-bit 6.4-GSPS analog-to-digital converters (ADCs). The module highlights the Texas Instruments ADC12DJ3200 two-channel, 12-bit, 3.2-GSPS ADC (two) in a daughtercard with an FPGA mezzanine card (FMC) connector using the JEDEC JESD204B (...)
Provided by Annapolis Micro Systems
Description
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 (...)
Software development
TI-JESD204-IP — 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 (...)
Features
- Compatible with JEDEC JESD204a/b/c protocols
- Supports subclass 1 deterministic latency and multidevice synchronization
- Supported lane rates
- Up to 16.375 Gbps in 8b/10b mode
- Up to 20 Gbps in 64b/66b mode
- Supports all protocol related error detection and reporting features
- Integrated transport layer (...)
SLAC748.ZIP (9527 KB)
SLVC698.ZIP (67948 KB)
SLAC745A.ZIP (177821 KB)
Design tools & simulation
SLVMC42.ZIP (36 KB) - IBIS Model
SLVMC55.ZIP (5569 KB) - IBIS-AMI Model
SLVMD69.ZIP (10 KB) - S-Parameter Model
PSPICE-FOR-TI — 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 (...)
Features
- Leverages Cadence PSpice Technology
- Preinstalled library with a suite of digital models to enable worst-case timing analysis
- Dynamic updates ensure you have access to most current device models
- Optimized for simulation speed without loss of accuracy
- Supports simultaneous analysis of multiple products
- (...)
FREQ-DDC-FILTER-CALC — 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 both (...)
Features
- Frequency planning
- Analog filtering
- Decimation filter spur location
Reference designs
TIDA-010122 — This reference design provides the solution for synchronization design challenges associated with emerging 5G adapted applications like massive multiple input multiple output (mMIMO), phase array RADAR and communication payload. The typical RF front end contains antenna, low noise amplifier (LNA (...)
Design files
-
download TIDA-010122 BOM.pdf (240KB) -
download TIDA-010122 Assembly Drawing.pdf (2983KB) -
download TIDA-010122 PCB.pdf (28658KB) -
download TIDA-010122 CAD Files.zip (74323KB) -
download TIDA-010122 Gerber.zip (13521KB)
TIDA-01028 — 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 achieved by time-terleaving two RF-sampling ADCs. Interleaving requires a phase shift between the ADCs, which this reference design achieves (...)
Design files
-
download TIDA-01028 Assembly Drawing.pdf (2940KB) -
download TIDA-01028 PCB.pdf (28699KB) -
download TIDA-01028 CAD Files.zip (41928KB) -
download TIDA-01028 Gerber.zip (13521KB) -
download TIDA-01028 & TIDA-010128 BOM (Rev. A).pdf (240KB)
TIDA-01442 — The TIDA-01442 reference design utilizes the ADC12DJ3200 evaluation module (EVM) to demonstrate a direct RF-sampling receiver for a radar operating in HF, VHF, UHF, L-, S-, C-, and part of X-band. The wide analog input bandwidth and high sampling rate (6.4 GSPS) of the analog-to-digital (...)
Design files
-
download TIDA-01442 BOM.pdf (209KB) -
download TIDA-01442 Assembly Drawing.pdf (104KB) -
download TIDA-01442 PCB.pdf (1511KB) -
download TIDA-01442 CAD Files.zip (1999KB) -
download TIDA-01442 Gerber.zip (392KB)
TIDA-01027 — This reference design demonstrates an efficient, low noise 5-rail power-supply design for very high-speed 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 control frequency content (...)
Design files
-
download TIDA-01027 BOM.pdf (209KB) -
download TIDA-01027 Assembly Drawing.pdf (878KB) -
download TIDA-01027 PCB.pdf (2971KB) -
download TIDA-01027 CAD Files.zip (2870KB) -
download TIDA-01027 Gerber.zip (765KB)
TIDA-01023 — High-speed multi-channel applications require low noise and scalable clocking solutions capable of precise channel-to-channel skew adjustment to achieve optimal system SNR, SFDR, and ENOB. This reference design supports high channel count JESD204B synchronized clocks using one master and multiple (...)
Design files
-
download TIDA-01023 BOM (Clocking Board).pdf (193KB) -
download TIDA-01023 BOM (FMC+ TO FMC Adapter Card).pdf (94KB) -
download TIDA-01023 Assembly Drawing (Clocking Board).pdf (1082KB) -
download TIDA-01023 Assembly Drawing (FMC+ TO FMC Adapter Card).pdf (644KB) -
download TIDA-01023 PCB (Clocking Board).pdf (7468KB) -
download TIDA-01023 PCB (FMC+ TO FMC Adapter Card).pdf (4389KB) -
download TIDA-01023 CAD Files (Clocking Board).zip (17783KB) -
download TIDA-01023 CAD Files (FMC+ TO FMC Adapter Card).zip (7976KB) -
download TIDA-01023 Gerber (Clocking Board).zip (6569KB) -
download TIDA-01023 Gerber (FMC+ TO FMC Adapter Card).zip (2080KB)
TIDA-01021 — High speed multi-channel applications require precise clocking solutions capable of managing channel-to-channel skew in order to achieve optimal system SNR, SFDR, and ENOB. This reference design is capable of supporting two high speed channels on separate boards by utilizing TI’s LMX2594 (...)
Design files
-
download TIDA-01021 Assembly Drawing (FMC+ to FMC Adapter Card) (Rev. A).pdf (644KB) -
download TIDA-01021 BOM (FMC+ to FMC Adapter Card) (Rev. A).pdf (44KB) -
download TIDA-01021 CAD Files (FMC+ to FMC Adapter Card) (Rev. A).zip (7976KB) -
download TIDA-01021 Gerber (FMC+ to FMC Adapter Card) (Rev. A).zip (2080KB) -
download TIDA-01021 PCB (FMC+ to FMC Adapter Card) (Rev. A).pdf (4389KB) -
download TIDA-01021 Assembly Drawing (Rev. A).pdf (1084KB) -
download TIDA-01021 BOM (Rev. A).pdf (193KB) -
download TIDA-01021 CAD Files (Rev. A).zip (8944KB) -
download TIDA-01021 Gerber (Rev. A).zip (6571KB) -
download TIDA-01021 PCB (Rev. A).pdf (7470KB)
TIDA-01024 — High-speed multi-channel applications require low noise and scalable clocking solutions capable of precise channel-to-channel skew adjustment to achieve optimal system SNR, SFDR, and ENOB. This reference design supports scaling up JESD204B synchronized clocks in daisy chain configuration. This (...)
Design files
-
download TIDA-01024 BOM (Clocking Board).pdf (193KB) -
download TIDA-01024 BOM (FMC+ TO FMC Adapter Card).pdf (94KB) -
download TIDA-01024 Assembly Drawing (Clocking Board).pdf (1082KB) -
download TIDA-01024 Assembly Drawing (FMC+ TO FMC Adapter Card).pdf (644KB) -
download TIDA-01024 PCB (Clocking Board).pdf (7468KB) -
download TIDA-01024 PCB (FMC+ TO FMC Adapter Card).pdf (4389KB) -
download TIDA-01024 CAD Files (Clocking Board).zip (16987KB) -
download TIDA-01024 CAD Files (FMC+ TO FMC Adapter Card).zip (7976KB) -
download TIDA-01024 Gerber (Clocking Board).zip (6569KB) -
download TIDA-01024 Gerber (FMC+ TO FMC Adapter Card).zip (2080KB)
TIDA-01022 — This high speed multi-channel data capture reference design enables optimum system performance. System designers needs to consider critical design parameters like clock jitter and skew for high speed multi-channel clock generation, which affects overall system SNR, SFDR, channel to channel skew and (...)
Design files
-
download TIDA-01022 BOM.pdf (132KB) -
download TIDA-01022 Assembly Drawing.pdf (3076KB) -
download TIDA-01022 Layer Plots.zip (14285KB) -
download TIDA-01022 CAD Files.zip (69995KB) -
download TIDA-01022 Gerber.zip (7572KB)
CAD/CAE symbols
| Package | Pins | Download |
|---|---|---|
| (ZEG) | 144 | View options |
| FCBGA (AAV) | 144 | View options |
Ordering & quality
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- Lead finish/Ball material
- MSL rating/Peak reflow
- MTBF/FIT estimates
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