Menu
Your Cart

SIM7000G NB-IoT / Cat-M / EDGE / GPRS HAT for Raspberry Pi, GNSS, Global Band Support

SIM7000G NB-IoT / Cat-M / EDGE / GPRS HAT for Raspberry Pi, GNSS, Global Band Support
SIM7000G NB-IoT / Cat-M / EDGE / GPRS HAT for Raspberry Pi, GNSS, Global Band Support
SIM7000G NB-IoT / Cat-M / EDGE / GPRS HAT for Raspberry Pi, GNSS, Global Band Support
SIM7000G NB-IoT / Cat-M / EDGE / GPRS HAT for Raspberry Pi, GNSS, Global Band Support
SIM7000G NB-IoT / Cat-M / EDGE / GPRS HAT for Raspberry Pi, GNSS, Global Band Support
SIM7000G NB-IoT / Cat-M / EDGE / GPRS HAT for Raspberry Pi, GNSS, Global Band Support
SIM7000G NB-IoT / Cat-M / EDGE / GPRS HAT for Raspberry Pi, GNSS, Global Band Support
SIM7000G NB-IoT / Cat-M / EDGE / GPRS HAT for Raspberry Pi, GNSS, Global Band Support
SIM7000G NB-IoT / Cat-M / EDGE / GPRS HAT for Raspberry Pi, GNSS, Global Band Support
SIM7000G NB-IoT / Cat-M / EDGE / GPRS HAT for Raspberry Pi, GNSS, Global Band Support
WaveShare Electronics
SIM7000G NB-IoT / Cat-M / EDGE / GPRS HAT for Raspberry Pi, GNSS, Global Band Support
₹​2,636.12
₹​2,234.00 + 18% GST
All Inclusive, Shipping Calculated at Checkout
Assured Cashback of ₹ 22
B2B GST Credit Available

This is a telecommunication HAT for Raspberry Pi which supports global bands of NB-IoT, Cat-M, and GPRS, as well as GNSS positioning function. Due to its advantages like small size, low delay, and wide coverage, it is the ideal choice for IoT applications such as intelligent instruments, asset tracking, remote monitoring, e-health, and so on.


Features

  • Standard Raspberry Pi 40PIN GPIO extension header, supports Raspberry Pi series boards
  • Supports TCP, UDP, PPP, HTTP, FTP, MQTT, SMS, Mail, etc.
  • Supports GNSS positioning (GPS, BeiDou, GLONASS)
  • Onboard USB interface, to test AT Commands, get GPS positioning data, and so on
  • Breakout UART control pins, to connect with host boards like Arduino/STM32
  • Onboard voltage translator, 3.3V by default, allows to be switched to 5V via 0Ω resistor
  • SIM card slot, compatible with both normal SIM card and NB-IoT specific card
  • 2x LED indicators, easy to monitor the working status
  • Baudrate: 300bps~3686400bps (115200bps by default)
  • Control via AT commands (3GPP TS 27.007, 27.005, and SIMCOM enhanced AT Commands)
  • Supports SIM application toolkit: SAT Class 3, GSM 11.14 Release 98, USAT
  • Comes with development resources and manual (examples for Raspberry Pi/Arduino/STM32)


Resources

User Manual

Specifications

NB-IOT / CAT-M / 2G
Frequency bandsNB-IoT: B1, B2, B3, B4, B5, B8, B12, B13, B17, B18, B19, B20, B25, B26, B28
Cat-M: B1, B2, B3, B4, B5, B8, B12, B13, B17, B18, B19, B20, B25, B26, B28, B39
GPRS/EDGE: 850, 900, 1800, 1900MHz
Data rateNB-IoT: 34(DL)/66(UL)
Cat-M: 300(DL)/375(UL)
EDGE: 236.8(DL)/236.8(UL)
GPRS: 85.6(DL)/85.6(UL)
SIM card supportNB-IoT: NB Specific (Not Included)
Cat-M/GPRS/EDGE: Normal SIM (Not Included)
Applicable regionGlobal
GNSS
Satellite systemsGPS, BeiDou, GLONASS
Receiver type16-channel
C/A Code
SensitivityTracking: -162 dBm (GPS) / -157 dBm (GLONASS) / TBD (BD)
Cold starts: -148 dBm
Time-To-First-FixCold starts: <35s
Hot starts: <1s
AccuracyPosition: <2.5m CEP
OTHER
Power supply5V
Operating voltage5V / 3.3V (3.3V by default)
Sleep Mode current1.2mA (@DRX=2.56s)
Power Save Mode current9uA
Operating temperature-40°C ~ 85°C
Storage temperature-45°C ~ 90°C
Dimensions30.2mm x 65mm


Onboard Peripherals


  1. SPX29302 power chip
  2. RT9193-33 power chip
  3. Raspberry Pi GPIO header
    for connecting with Raspberry Pi
  4. USB interface
    for testing AT Commands, getting GPS positioning data, etc.
  5. SIM7000G control interface
    for connecting with host boards like Arduino/STM32
  6. SIM card slot
    supports 1.8V/3V SIM card
  7. GNSS antenna connector
  8. LTE antenna connector
  9. Network status indicator
  10. Power indicator
  11. Operating voltage selection jumper
    configured via 0Ω resistor jumper
    A: set operating voltage as 5V
    B: set operating voltage as 3.3V (default)
  12. DTR configuration jumper
    configured via 0Ω resistor jumper
    A: DTR is controlled by the Raspberry Pi P26 pin
    B: NC (default)
  13. PWR configuration jumper
    configured via 0Ω resistor jumper
    A: startup/shutdown by the Raspberry Pi P4 pin
    B: auto startup on power-up (default)

Write a review

Note: HTML is not translated!
Bad Good
Captcha