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Wireless MIMO AFE IP

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Search (8)
Compare 8 IP from 6 vendors (1 - 8)
  • mmWave 8x8 MIMO RF Front End V2
    • Advanced mmWave 8x8 MIMO RF front-end silicon optimized for sophisticated wireless communication and beamforming.
    Block Diagram -- mmWave 8x8 MIMO RF Front End V2
  • mmWave 8x8 MIMO RF Front End V1
    • Advanced mmWave 8x8 MIMO RF front-end silicon optimized for sophisticated wireless communication and beamforming.
    Block Diagram -- mmWave 8x8 MIMO RF Front End V1
  • Wideband 2×2 MIMO transceiver, 400 MHz – 3.6 GHz, suitable for SDR-style eNodeB designs.
    • The SDR transceiver IP provides wideband, programmable RF front-ends for multi-standard wireless platforms
    • These architectures support NB-IoT, Cat-M, custom modem protocols, and future-proof waveform development
    • Features include dynamic bandwidth scaling, reconfigurable synthesizers, and digitally assisted calibration for robust performance across process, voltage, temperature, and environmental variations.
  • High bit rate Turbo Decoder core for 3GPP LTE/ LTE A
    • 3GPP LTE/ LTE A compliant
    • Implements decoder for requirements as defined in Section 5.1.3.2 of the specification
    Block Diagram -- High bit rate Turbo Decoder core for 3GPP LTE/ LTE A
  • Wi-Fi 7(be) RF Transceiver IP in TSMC 22nm
    • The Wi-Fi 7 (802.11be) RF transceiver IP, operating in 2.4GHz / 5GHz / 6GHz bands, is tailored for next-generation high-performance applications.
    • This tri-band system delivers exceptional wireless communication capabilities with support for Wi-Fi 6/6E/n/g/b/a, enabling seamless connectivity across a wide frequency spectrum (5.925–7.125 GHz).
    • With support for advanced 4096-QAM modulation, the IP is capable of ultra-high data throughput, making it an ideal solution for bandwidth-intensive applications requiring low latency, fast data rates, and robust connectivity.
  • Wi-Fi 6 (ax)+BLEv5.4+15.4 Dual Band RF IP for High-End Applications.
    • Dual-band transceiver IP supporting IEEE802.11a/b/g/n/ac/ax.
    • Full concurrent dual band operation.
    • Supply current (high band or low band, 1x1 mode, typical)
    • Bandwidth Support: 20/40/80 (high band) MHz channel
  • IEEE 802.11ax MAC/PHY for STA
    • Wireless standard 20MHz IEEE 802.11 ax STA
  • Wi-Fi Connectivity Platform
    • The Ceva-Waves Wi-Fi platforms portfolio provide a comprehensive selection of hardware IP and CPU-agnostic host software for energy-efficient SoC implementation of any of a wide range of Wi-Fi subsystems, from Wi-Fi 4 to Wi-Fi 7, for both client devices and access points.
    • The portfolio includes a suite of pre-optimized solutions for various generations and configurations for specific Wi-Fi uses, power consumption levels, and price points, ranging from low-bandwidth IoT connectivity to high-bandwidth hubs.
    Block Diagram -- Wi-Fi Connectivity Platform
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