User's Manual
Table Of Contents
- General Description
- Features
- Evaluation Kit Applications
- Revision Table
- Table of Contents
- List of Figures
- List of Tables
- Overview
- Installation and Setup
- Configuring Evaluation Kit Hardware
- Evaluation Kit Hardware Description
- PHY Evaluation Using the Wireless Developer Kit
- Summary List of Test Hardware and Software Required
- Equipment Handling
- Guidelines for Running Tests
- Transmit Spectral Mask Compliance Test
- Total Average Transmit Power Test
- Peak Envelope Power Test
- Receiver Sensitivity and Scaled Ranged Versus Throughput Tes
- Receiver Immunity Test
- Minimum Antenna Separation Test
- Penetration Test
- Video Transmission and Reception
- Operating Conditions and Characteristics
- Support
- FCC Compliance Statement
- License Agreement
- Warranty Disclaimer
- Glossary
- References
- Appendix A – Sources for Leasing of Test Equipment
Rev 1.34, June 2, 2004
Copyright © 2001-2004 Motorola, Inc. All rights reserved. Page 39 of 44
Connection Diagram
Linux PC
1394
UWB Source
Transceiver
XtremeSpectrum
UWB Antenna
Linux PC
1394
UWB
Destination
Transceiver
XtremeSpectrum
UWB Antenna
1394
Video
or VCR
1394
UWB
Destination
Transceiver
XtremeSpectrum
UWB Antenna
Television
Figure 11: Setup for Video Transmission
Test Procedure
1. Set up equipment as indicated in Figure 11. Follow the guidelines in section 5.2.1 when
making or breaking RF connections. When connecting a device that either sources or
displays MPEG-2 data via the 1394 bus (i.e. the camera icon in Figure 11), be sure to
use one of the devices listed in Table 5.
2. Verify that all transceivers are powered on.
3. Setup a piconet using the dme command described in the Motorola UWB Software
Development Kit Utilities Guide.
4. Reset all transceivers.
5. At the source transceiver run the following command in a terminal window:
./dme join 0:2:3:4:5:6:7:8 56000
Since this is the first transceiver to join the piconet it becomes PNC.
6. At one of the destination transceivers run the following command in a terminal window to
cause a transceiver to join the piconet as DEV 1:
./dme join 1:2:3:4:5:6:7:8 56000
7. At the other destination transceiver run the following command in a terminal window to
cause a transceiver to join the piconet as DEV 2:
./dme join 2:2:3:4:5:6:7:8 56000
8. At the source transceiver run the following command in a terminal window to allocate a
stream to DEV 1:
./dme allocate_stream 1:2:3:4:5:6:7:8 1 31