Iridium 9602N

Next Generation Short Burst Data Module

View the Datasheet PDF


Next generation SBD Transceiver from Iridium

Designed for integration into complete wireless solutions, it provides the critical global data communications necessary for today’s global solutions. The small size, low-cost and ease of integration make the Iridium 9602N ideal for Machine-to- Machine (M2M) solutions such as automatic vehicle location, asset monitoring, marine and personal tracking applications. 9602N leverages Iridium SBD Service.

The Iridium 9602N is designed to exclusively support Iridium’s Short Burst Data Service. Authorized Iridium partners can create high value vertical market solutions using the combination of the Iridium 9602N and SBD Service’s that include: low latency service, small transceiver, small antenna, and global coverage.

Iridium SBD Service provides:

  • Mobile Originated messages: up to 340 bytes
  • Mobile Terminated messages: up to 270 bytes
  • Low, uniform global latency: less than 1 minute

Mechanical Dimensions

  • Length 41.0 mm
  • Width 45.0 mm
  • Depth 13.0 mm
  • Weight 30 g

Environmental Specifications

  • Operating Temperature Range -40ºC to + 85ºC
  • Operating Humidity Range 75% RH
  • Storage Temperature Range -40ºC to + 85ºC
  • Storage Humidity Range 93% RH

RF Parameters

  • Frequency Range 1616 MHz to 1626.5 MHz
  • Duplexing Method TDD (Time Domain Duplex)
  • Input/Output Impedance 50
  • Multiplexing Method TDMA/FDMA

DC Power Input

  • Idle Current (average) 45mA
  • Idle current (peak) 195mA
  • Transmit Current (peak) 1.5A
  • Transmit Current (average) 190mA
  • Receive Current (peak) 195mA
  • Receive Current (average) 45mA
  • SBD message transfer – average current 190mA
  • SBD message transfer – average power 1.0W

You may also like…

By continuing to use the site, you agree to the use of cookies. more information

The cookie settings on this website are set to "allow cookies" to give you the best browsing experience possible. If you continue to use this website without changing your cookie settings or you click "Accept" below then you are consenting to this.