Analog Devices ADMV4801 Product Info

The ADMV4801 is a silicon germanium (SiGe), 24 GHz to 29.5 GHz, mmW, 5G beamformer. This RF IC is highly integrated and contains 16 independent transmit and receive channels. In transmit mode, the RFC input signal is split using 1:16 power splitters and passes through the 16 independent transmit channels. In receive mode, input signals pass through the 16 independent channels and are combined with 16:1 combiners to the RFC pin. In transmit mode, each channel includes a vector modulator (VM) to control phase and two digital variable gain amplifiers (DVGAs) to control amplitude. In receive mode, each channel includes a VM to control phase and a DVGA to control amplitude. The VM provides a full 360° phase adjustment range in either transmit or receive mode, providing 6 bits of resolution for 5.625° phase steps. The total DVGA dynamic range adjustment range in transmit mode is 34 dB, providing 6 bits of resolution, resulting in 0.5 dB amplitude steps, and 5 bits of resolution, resulting in 1 dB amplitude steps. In receive model the total dynamic range is 17 dB providing, 6 bits of resolution, resulting in 0.5 dB amplitude steps. The DVGAs provide a flat phase response across the full gain range. The transmit channels contain individual power detectors to provide the ability to detect and calibrate each channel gain, as well as channel to channel gain mismatch. The ADMV4801 RF ports can be connected directly to a patch antenna to create a dual polarization, mmW, 5G subarray.

The programming of the ADMV4801 can be accomplished using the 3-wire or 4-wire serial port interface (SPI). An integrated, onchip low dropout regulator (LDO) generates the 1.8 V supply for the SPI circuitry to reduce the number of required supply domains. Various SPI modes are available to enable fast startup and control during normal operation. The amplitude and phase for each channel can be set individually, or multiple channels can be program