Z-Wave 800 Modem SoC (EFR32ZG23)

Z-Wave 800 Modem SoCs are designed to meet the demands of the future smart home, hospitality, and MDU IoT products, where range, performance, and device security are key. While the EFR32ZG23 devices are the ideal solution for Z-Wave, they can also support other protocols including Wi-SUN, Amazon Sidewalk, and Wireless M-BUS IoT applications. The single die, multi-core solution, provides industry leading security, low power consumption with fast wakeup times, and an integrated power amplifier to enable the next generation of secure connectivity for IoT devices.

Ideal for
Smart home, hospitality, MDU & smart cities
Highest level of IoT security
Secure Vault™

EFR32ZG23 Common Specs

Low Power Wireless System-on-Chip

  • High-Performance 32-bit 78 MHz ARM Cortex®-M33 with DSP instruction and floating-point unit for efficient signal processing
  • Up to 512 kB flash program memory
  • Up to 64 kB RAM data memory
  • Sub-GHz radio operation
  • TX power up to +20 dBm
  • ITU G.9959 compliant

Wide Selection of MCU Peripherals

  • Analog and Digital Converter (ADC)
  • 12-bit @ 1 Msps
  • 16-bit @ 76.9 ksps
  • 2 x Analog Comparator (ACMP)
  • 2-channel Digital to Analog Converter (VDAC)
  • Low-Energy Sensor Interface (LESENSE)
  • Up to 31 General Purpose I/O pins with output state retention and asynchronous interrupts
  • 8 Channel DMA Controller
  • 12 Channel Peripheral Reflex System (PRS)
  • 4 x 16-bit Timer/Counter with 3 Compare/Capture/PWM channels
  • 1 x 32-bit Timer/Counter with 3 Compare/Capture/PWM channels
  • 32-bit Real Time Counter
  • 24-bit Low Energy Timer for waveform generation
  • 16-bit Pulse Counter with asynchronous operation (PCNT)
  • 2 x Watchdog Timer
  • 3 x Enhanced Universal Synchronous/Asynchronous Receiver/Transmitter (EUSART)
  • 1 x Universal Synchronous/Asynchronous Receiver/Transmitter (UART/SPI/SmartCard (ISO 7816)/IrDA/I2S)
  • 2 x I2C interface with SMBus support
  • Integrated Low-Energy LCD Controller supporting up to 80 segments
  • Keypad scanner supporting up to 6x8 matrix (KEYSCAN)
  • Die temperature sensor

Low System Energy Consumption

  • 4.4 mA RX current at 868 MHz (9.6 kbps FSK)
  • 4.4 mA RX current at 868 MHz (100 kbps GFSK)
  • 4.4 mA RX current at 915 MHz (9.6 kbps FSK)
  • 4.4 mA RX current at 915 MHz (100 kbps GFSK)
  • 25.4 mA TX current @ 14 dBm output power at 915 MHz
  • 9.9 mA TX current @ 0 dBm output power at 915 MHz
  • 26 μA/MHz in Active Mode (EM0) at 39.0 MHz
  • 1.5 μA EM2 DeepSleep current (64 kB RAM retention and RTC running from LFXO)
  • 1.2 μA EM2 DeepSleep current (16 kB RAM retention and RTC running from LFRCO)

Wide Operation Range

  • 1.71 V to 3.8 V single power supply
  • -40 °C to +125 °C

Packages

  • QFN40 5 mm × 5 mm × 0.85 mm
  • QFN32 6 mm × 6 mm × 0.85 mm

High Receiver Performance

  • -109.9 dBm sensitivity @ 9.6 kbps 868 MHz FSK
  • -110.0 dBm sensitivity @ 40 kbps 868 MHz FSK
  • -108.6 dBm sensitivity @ 100 Mbps 868 MHz GFSK
  • -109.3 dBm sensitivity @ 9.6 kbps 915 MHz FSK
  • -109.7 dBm sensitivity @ 40 kbps 915 MHz FSK
  • -108.1 dBm sensitivity @ 100 kbps 915 MHz GFSK
  • -109.8 dBm sensitivity @ 100 kbps 915 MHz O-QPSK

Supported Modulation Format

  • 2 (G)FSK with fully configurable shaping
  • OQPSK DSSS

Protocol Support

  • Z-Wave
  • Z-Wave Long Range
  • CONNECT
  • Sidewalk
  • mioty
  • Proprietary

Secure Vault

Status

Find the Right EFR32ZG23 Device Select Columns
Select Columns
Part Number Pricing Z-Wave Long Range Secure Vault™ Flash RAM Sensitivity (dBm) Package Type
1K @ US$4.37 High 512 64 -108.1 QFN40
1K @ US$4.2 High 512 64 -108.1 QFN40
1K @ US$3.64 Mid 512 64 -108.1 QFN40
1K @ US$4.41 High 512 64 -108.1 QFN48
1K @ US$3.65 Mid 512 64 -108.1 QFN48
1K @ US$3.91 Mid 512 64 -108.1 QFN40
1K @ US$3.93 Mid 512 64 -108.1 QFN48
1K @ US$4.2 High 512 64 -108.1 QFN40
1K @ US$4.11 High 512 64 -108.1 QFN40
1K @ US$4.12 High 512 64 -108.1 QFN48

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Introduction to Z-Wave 800 Series

The Z-Wave 800 series is the latest edition of the world's most popular IoT wireless protocol for smart home applications. Download this article to learn more about its key features and benefits.

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