Wireless infrastructure
Find design resources, interactive block diagrams and devices specific to wireless infrastructure applications
We take a system-level approach to wireless infrastructure applications by offering a broad portfolio of wireless transceivers integrated with data converters, analog and digital functions. We designed the portfolio to cover 3G, 4G, 5G, 6G and Open Radio Access Network (O-RAN) requirements. Wide bandwidth capabilities are enabled by radio-frequency (RF) sampling and zero-intermediate frequency architectures; flexible data rates; and increased channel count for applications such as massive multiple-input, multiple-output radios, remote radio units, small cells, repeaters, and distributed antenna systems. Our transceivers have integrated digital predistortion and crest-factor reduction technology that greatly simplify system designs, while supporting multiple bands in frequency- and time-division duplexing modes.
Why choose TI for your wireless infrastructure system?
Enhanced signal integrity
Obtain clear signals with RF sampling to seamlessly amplify and transmit signals in your system.
Improved power efficiency
Enable power efficiency with low-power-dissipating and high-performing transceivers while maintaining device reliability.
Cost-optimized, flexible designs
Reduce bill-of-materials costs with the flexibility to choose the right product for the job from our transceiver portfolio.
Enabling transceiver architectures for your design
Higher bandwidth, greater scalability and lower cost – these are the requirements of today’s wireless infrastructure systems. Our radio-frequency (RF) sampling transceivers are well equipped to handle your design challenges.
- High-speed-data converters. Our transceivers are equipped with digital-to-analog converters and analog-to-digital converters that can operate up to 12 GSPS.
- Small packages. Take advantage of our 17 mm by 17 mm flip-chip ball grid array package for space-constrained designs.
- Reliability protection. Integrating-RF overload detectors on our transceivers improves device reliability protection.
Video
Why RF sampling?
Learn more about how RF sampling works and its benefits through our video series.
Application note
System Design Considerations when Upgrading from JESD204B to JESD204C (Rev. A)
This application report focuses on JESD204 and helps you understand if it is time to upgrade your serial interface and what to consider before upgrading from JESD204B to JESD204C.
Application note
Time Division Duplexing (TDD) in AFE77xx Integrated Transceiver (Rev. A)
This application note demonstrates how to configure the AFE77xx in TDD mode, as well as how to use the AFE77xx evaluation module (EVM) and TSW14J56 EVM to make TDD measurements.
With advances in the industry, the need for systems to get smaller and more efficient continues to grow. Our zero intermediate frequency (IF) transceivers allow for dramatic improvements in system size, weight and power, without compromising performance.
- Low power dissipation. Reduce your design’s power budget with lower power dissipation from our zero IF transceivers.
- Wide bandwidth. With a large radio-frequency range, our products enable flexibility to meet your design needs.
- Small packages. Take advantage of our 17 mm by 17 mm flip-chip ball grid array package for space-constrained designs.
Video
Why use a JESD204 device?
Gain a deeper understanding of how the JESD204 operates and its relationship with high-speed data-converters.
Application note
Using AFE77xx in a Digital Pre-distortion System (Rev. B)
This application report focuses on the importance of digital pre-distortion (DPD), the benefits it provides, and how the AFE77xx product family is a good fit for systems using DPD.
Application note
Time Division Duplexing (TDD) in AFE77xx Integrated Transceiver (Rev. A)
This application note demonstrates how to configure the AFE77xx in TDD mode, as well as how to use the AFE77xx evaluation module (EVM) and TSW14J56 EVM to make TDD measurements.
Technical resources
Application brief
DPD Test Report: AFE77xxD With GTRB267008FC Power Amplifier
This test report describes how to use a transceiver to linearize a power amplifier across several use cases with digital predistortion (DPD) technology.
Application brief
The Future of Fixed Wireless Access
This application brief highlights fixed wireless access, a new technology designed to meet demand for broadband connectivity across fixed locations.
Video
Interfacing the AFE7769DEVM with the Hitek Agilex eSOM7 FPGA
Watch to learn how TI's AFE7769DEVM functions when connected to Hitek's embedded system on module 7 (eSOM7) board.
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