User's Manual
Table Of Contents
- Introduction
- The Integrator’s Task
- Installing the Modem
- Mounting the Boomer II OEM Modem to Your Device
- Connecting the Data Interface Port
- Selecting & Positioning the Antenna
- Supplying Power
- Using the Modem Test Jig
- Software Development Tools
- Integration Testing
- Appendix A - NCL Interface
- Appendix B – SDK NCL-API and Port Server
- Multisession API
- Application Interface
- _
- Opening a Session
- Close Session
- Send Data to a Radio Host
- Receive Data From RPM
- Get RPM Status Information
- Set Configuration ITEMS Within the RPM
- Reset RPM
- Register Event Callback Function
- Enable / Disable Events
- Get Error Description
- Register Wakeup Application
- Deregister Wakeup Application
- Switch RPM On/Off
- Send Generic NCL Command To RPM
- Get Software Version
- _
- A
- Appendix C – SDK Sample programs
- Appendix D - Application Development
- Appendix E - Message Routing and Migration
- Appendix F – Guide to Desense
- Appendix G - Numeric Conversion Chart
- Appendix H - Specifications
- Appendix I - Glossary
Installation_________________________________________________ Boomer II User Manual & Integrator’s Guide
Copyright Wavenet Technology © November 2003 44 BM210012WT37
Supplying Power
The Boomer II OEM Modem must be provided with a clean power
source capable of delivering bursts of high current.
The modem draws its power in bursts. The power required changes
rapidly depending on whether the modem is transmitting, receiving or
on standby.
Ratings
The power supply requirements are:
Voltage: 3.8V (3.4 to 4.2V range)
Transmit Current: 1.6A maximum
(2.2A maximum if antenna mismatched)
Transmit Duration: 32ms (minimum)
7s (maximum)
Duty Cycle 30% (maximum) data dependant
Receive Current 85 mA (maximum)
Standby Current 4.6 mA (maximum)
Add ~1.2mA if LED’s enabled
Off current consumption: 100 µA (nominal)
Power Supply Ripple: < 15mV peak to peak
Design Considerations
The power supply is one of the key issues of design of wireless
terminals.
Due to the burst nature of transmit periods the power supply must be
able to deliver high current peaks for short periods of 32ms to a
maximum of 7 seconds (RD-LAP 9600 bps) or for 20 seconds (MDC
4800 bps). During this time the drop in the supply at the module itself
must not exceed 200mV (total at the module), such that at no time
module shall module supply drop below 3.4V and ripple must not
exceed 15mVp-p during transmit.
The maximum transmit current into a matched antenna is 1.6A,
however, this can increase if antenna mismatch occurs.
Wavenet recommends designing a robust power supply that can
provide adequate power under non-ideal conditions such as an
improperly matched antenna, where current can be up to 2.2A.
It is recommended that for ensuring power supply margin the following
be done:
A short FPC cable (e.g < 100mm) is used to minimise power
supply voltage drop during transmission.