60 GHz RF Transceiver A2 family

Quantity $ per Unit Savings
1 - 500$4.920%
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Parameter NameParameter Value
ECCN US5A991.b.6.b
Packing TypeTray
RoHs compliantEcopack2
Package NameVFBGA25

The ST60A2G0 is an RF millimeter-wave transceiver product operating in the 60 GHz V-Band. It provides a very power efficient and high data-rate wireless link enabling freedom from physical cables and connectors for short-range (a few cm) point-to-point communications, using a variety of external antennas (such as patch antennas designed on PCB or highly directive SMT horn antennas allowing both end-fire and broadside radiation patterns).

The ST60A2G0 offers best-in-class wireless performance with transfer speeds up to 6.25 Gbit/s, along with very low power consumption. Its unmatched efficiency, very small form factor, and innovative architecture designed for optimized system bill-of-materials, make it ideally suited for a wide range of applications including personal electronics, industrial, computer and peripherals.

Key features
  • 60 GHz V-Band transceiver for short range contactless connectivity
  • Up to 6.25 Gbit/s data rate
  • Compact solution integrating full RF transceiver operating in half-duplex mode
  • Low-power ASK modulation scheme supported
  • Differential SLVS input-output port (NRZ) or single-ended CMOS 1.8 V bidirectional data for low data rate (9.6 Kbit/s to 100 Mbit/s with 15 pF PCB load)
  • 24 dB typical total link budget
  • 7 ns typical latency
  • Supply voltage: power-optimized dual 1.8 V and 1.45 V supply or single-supply 1.8 V
  • Low power consumption (typical values at 5 Gbit/s)
    • 44 mW in TX mode
    • 27 mW in RX mode
    • 3.5 μW in OFF mode
  • 7 pJ/bit for TX and 5.4 pJ/bit for RX at maximum data rate
  • 50 Ω single-ended nominal RF input/output impedance with recommended PCB transition
  • Operating temperatures:
    • consumer range: -20 to 85°C
    • industrial range: -40 to 105°C
  • Package: VFBGA 2.2 mm x 2.2 mm x 0.8 mm, 25 balls, F5x5, 0.4 mm pitch
  • Optimized BOM without external matching network and clock references