Small cell base station

Products and reference designs

Small cell base station

Block diagram

Overview

Our integrated circuits and reference designs help you create small cell base stations that enable multiband operation, higher bandwidth and better system reliability. Our analog front-end devices use a new RF sampling architecture, while our companion power and clocking technologies allow you to complete your 5G design with confidence.

Design requirements

Small cell base stations require:

  • Highly integrated analog front-end devices with wide bandwidth and multiband operation.
  • Network synchronization over packet-based fronthaul interface.
  • High-density power management operating at high ambient temperature.

Explore applications similar in function and design
Download View video with transcript Video

Block diagram

Find products and reference designs for your system.

Technical documentation

View all 28
No results found. Please clear your search and try again.
Type Title Date
Application note Modular Communications Transceiver for 4G/5G Distributed Antenna 29 Aug 2018
Application note Dither Improves ACPR in RF Sampling DAC 24 Oct 2018
White paper 準備好迎接 5G 世界: 使用技術與硬體需求概論 22 Feb 2019
White paper Ready to make the jump to JESD204B? White Paper (Rev. B) 21 Apr 2015
Application note Glitch free power sequencing with AXC level translators (Rev. A) 20 Sep 2018
Application note Beyond BT High-Power PoE Solution using the TPS23880 and TPS2372-4 18 Sep 2018
White paper Preparing for a 5G world: An overview of the enabling technologies and hardware 17 Dec 2018
Application note AFE768x Power Dissipation Comparison across Modes 17 Aug 2018
Application note Optimizing Layout of the TPS54824 HotRod™ Package for Thermal Performance 16 Nov 2018
Application note JESD204B Multi-Device Synchronization Using LMK0461x 16 Aug 2017
Application note Small Cell and Repeater System Using Integrated RF Sampling Device 12 Nov 2018
White paper Analog advancements make waves in 5G communications 12 Aug 2016
Application note TI Network Synchronizer Clock Value Adds in Communications and Industrial Applic 12 Apr 2018
Application note Supported synchronization modes for TI network synchronizers (Rev. A) 11 May 2022
White paper TI BAW technology enables ultra-low jitter clocks for high-speed networks 11 May 2022
Application note Low Voltage Translation for SPI, UART, RGMII, JTAG Interfaces (Rev. B) PDF | HTML 11 May 2022
Application note Powering the AFE7920 with the TPS62913 Low-Ripple and Low-Noise Buck Converter (Rev. A) PDF | HTML 11 May 2022
Application note MIMO Transceiver with AFE76xx for LTE and 5G Wireless Radio (Rev. A) 10 May 2022
Application note Clocking Optimization for RF Sampling Analog-to-Digital Converters (Rev. A) PDF | HTML 10 May 2022
Application note An Efficient LDO-less Power Supply Solution for AFE76xx 10 Aug 2018
Application note ITU-T G.8262 Compliance Test Results for the LMK05028 Digital PLL Network 10 Apr 2018
Application note RF Sampling ADC with 800MHz of IBW LTE 08 Sep 2016
White paper Measuring various types of low-frequency noise in DC/DC switching converters 08 Feb 2018
Application note Clocking High Speed Serial Links with LMK033X8 (Rev. A) 07 Jan 2016
White paper Internally compensated advanced current mode (ACM) (Rev. A) 07 Dec 2018
White paper Direct RF conversion: From vision to reality 05 May 2015
Application note AFE76xx as a Single-Chip Wideband Repeater Using Loopback Mode 01 Nov 2018
White paper Small Cells, Big Impact: Designing Power Soutions for 5G Applications 01 Aug 2019

Support & training

TI E2E™ forums with technical support from TI engineers

Content is provided "as is" by TI and community contributors and does not constitute TI specifications. See terms of use.

If you have questions about quality, packaging or ordering TI products, see TI support.

Videos