8-Channel mmWave Beamformer (24-31GHz)

Overview

NEXUS28Z is a CMOS integrated circuit, implementing highly integrated, mmWave, agile beamforming offering high performance and configurability for target applications. NEXUS28Z delivers a versatile combination of high performance and low power consumption, operating in the frequency range of 24-31GHz. It consists of 8 TX/RX front-ends, which can be split in 2 orthogonal polarizations (4 horizontal and 4 vertical).

The receiver (RX) front-end provides low noise figure, 19dB gain after combining and 50dB gain control in steps of 0.5dB, 20dB of which are used for beam tapering and are almost phase invariant. After calibration, the phase rotation covers 360deg with a 5.6deg step and minimum gain variation (<0.7dB). An integrated power detector monitors the RX output level.

The transmitter (TX) FE delivers high 1dB compression, with a gain of 24dB including input split, and 60dB GC in steps of 0.5dB, 18dB of which are used for beam tapering and are almost phase invariant. After calibration, the phase rotation covers 360deg with 5.6deg step and minimum gain variation (<1.4dB). Its output power can be sensed by an integrated power detector.

The chip is packaged in a CSP.

Key Features

  • 8-channel (4 V-pol + 4 H-pol) analog beamformer
  • Frequency range: 24-31GHz
  • TX gain: 24dB with 60dB GC
  • RX gain: 19dB with 50dB GC
  • Supply voltage: 1.8V
  • 50 Ω single-ended I/O impedance
  • 4-wire serial peripheral interface (SPI) Control
  • 32Kb SRAM
  • Internal PA power detectors, temperature sensors and ADC
  • CSP package
  • 4-bit chip address

Block Diagram

8-Channel mmWave Beamformer (24-31GHz) Block Diagram

Applications

  • Fixed Wireless Access Systems
  • CPE
  • 5G/6G Communication Systems
  • PtMP
  • SATCOM
  • RADAR

Deliverables

  • Evaluation board
  • Netlist
  • Documentation
  • GDSII LEF, .lib files
  • Footprint (LEF)
  • Testbench
  • Behavioral model (verilog/verilogA)

Technical Specifications

Maturity
Silicon proven
Availability
Available
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Semiconductor IP