RF-sampling transceivers

Meet your performance, bandwidth and power requirements with high integration RF transceivers

parametric-filterView all products
Our high channel density, wide signal bandwidth and high resolution integrated data converters enable you to develop faster, delivers better dynamic range and lowers bill of materials in the most demanding wireless, defense and test transceiver applications.

Browse by category

Select by application

Wireless infrastructure

These AFEs are characterized, documented and supported specifically for large commercial wireless basestation and backhaul applications.

General purpose

These AFEs are characterized, documented and supported  for many applications including aerospace, defense communications, RADAR and test equipment.

Related categories
All high-speed ADCs >10 MSPS

Didn't find the wideband transceiver you needed?  Consider browsing all high-speed ADCs >10 MSPS.

All high-speed DACs >10 MSPS

Didn't find the wideband transceiver you needed?  Consider browsing all high-speed DACs >10 MSPS.

Featured RF-sampling transceivers

Design & development resources

Firmware
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 (...)

Evaluation board
AFE7920 evaluation module for four-transmit four-receive two-feedback-path RF-sampling transceiver

The AFE7920 evaluation module (EVM) is an RF-sampling transceiver platform that can be configured to support up to four-transmit four-receive plus two-feedback (4T4R + 2FB) channels simultaneously.

The board evaluates the AFE7920 device, which is a quad-channel RF-sampling analog front end (AFE) (...)

Evaluation board
AFE7444 quad-channel RF-sampling AFE with 14-bit 9-GSPS DAC and 3-GSPS ADC evaluation module

The AFE7444 evaluation module (EVM) is an RF-sampling transceiver platform that can be configured to support up to four-transmit and four-receive (4T4R) channels simultaneously. The module evaluates the AFE7444 device, which is a quad-channel RF-sampling analog front end (...)

Evaluation board
HITEK Agilex eSOM7 with FMC+ connector to RF transceiver EVMs

The Hitek Systems eSOM7 interfaces with the AFE8092, AFE8030, AFE7952, and AFE7920 through an FPGA mezzanine card (FMC) connector. It provides a quick evaluation and prototyping platform for 5G wireless solutions based on Intel’s latest high-performance 10-nm Agilex F-Series FPGA.

AFE7769D
RF-sampling transceivers

Quad-channel RF transceiver with dual feedback paths and integrated CFR/DPD

Approx. price (USD) 1ku | 1437

AFE7728D
RF-sampling transceivers

Dual-channel RF transceiver with dual feedback paths and integrated CFR/DPD - 200MHz

Approx. price (USD) 1ku | 1200

AFE7768D
RF-sampling transceivers

Four-channel RF transceiver with dual feedback paths and integrated CFR/DPD - 200MHz

Approx. price (USD) 1ku | 1400

AFE7955
RF-sampling transceivers

2T3R, 600-MHz to 12-GHz, RF-sampling AFE, 12-GSPS DACs, 3-GSPS ADCs, 1.2-GHz max IBW

Approx. price (USD) 1ku | 1128

AFE7953
RF-sampling transceivers

Two-transmit, two-receive, 600-MHz to 12-GHz, RF-sampling AFE with 12-GSPS DACs and 3-GSPS ADCs

Approx. price (USD) 1ku | 464

AFE7954
RF-sampling transceivers

four-channel, 600-MHz to 12-GHz, RF-sampling AFE, 12-GSPS DACs, 2.4-GHz max IBW

Approx. price (USD) 1ku | 658

Technical resources

Technical article
Technical article
Read the keys to quick success using high-speed data converters
Learn how TI makes it easy to evaluate high speed data converters and AFEs 
Video series
Video series
High-speed signal chain training series
Online training series covering topics such as RF-sampling, JESD204B and more. 
Video series
Video series
High-speed analog-to-digital converter (ADC) fundamentals
These videos cover the fundamentals of high-speed data converters, including an overview of the architectures of both ADCs and DACs.