Zigbee Transceiver PHY

Overview

The modulation and spreading functions for the O-QPSK PHYs are processed through 3 steps. First, each 4 bits are gathered to represent 1 symbol which has a value from 0 to 15. Second, each symbol is used to select among 16 PN sequences called chip. Finally, each chip is modulated using O-QPSK with half-sine pulse shaping.

The Receiver scans the incoming data from the digital mixer for a preamble. Once a preamble is detected, the Start of Frame Delimiter (SFD), frame length, and other receiver status information is sent to the upper layer. Additionally, the payload data is written to the received data buffer to create the PSDU packet, which is transferred to the MAC layer when requested. The PHY notifies the MAC layer for arrival of MAC Protocol Data Unit (MPDU) along with the LQI information via an interrupt. If a valid preamble is not detected, it gives feedback to the packet time error detection block to restart the energy detection process. The design includes ED and LQI circuits to support CCA modes by MAC defined in IEEE 802.15.4.

The design includes a standard 32-bit AHB-lite, slave interface version 3.0, with registers as defined in the Register Description section of the Datasheet.

Key Features

  • Low power transceiver PHY IP for ZigBee applications, compliant with IEEE 802.15.4 standard.
  • Efficient demodulator with frame synchronization and frequency offset compensation
  • Supports 2 MHz IF input (reconfigurable on request)
  • Offset-QPSK (OQPSK)
  • Chip rate: 2000 kchips/sec
  • Bit rate: 250 kbits/sec
  • Symbol rate: 62.5 ksymbols/sec
  • Spreading sequence: 16-ary orthogonal
  • Tx chip oversampling rate: 6
  • Supports carrier frequency offset (CFO) up to 250 KHz
  • 8 MHz Sampling frequency for 1-bit ADC (8-bit ADC version available on request)
  • AHB-Lite bus interface (other interfaces available on request)

Benefits

  • All-digital phase and carrier frequency offset estimation and compensation

Block Diagram

Zigbee Transceiver PHY Block Diagram

Applications

  • Metering
  • Home Automation
  • Automotive Sensors

Deliverables

  • Synthesizable System Verilog
  • System Model (Matlab) and documentation
  • (System)Verilog Test Benches
  • Documentation

Technical Specifications

Maturity
Customizable on request
Availability
Now
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Semiconductor IP