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 20 of 44
Test Procedure:
1. Set up equipment as indicated in Figure 5. Follow the guidelines in section 5.2.1 when
making or breaking RF connections.
2. Turn on all test equipment and allow it to warm up for the length of time specified by the
manufacturer.
3. Verify that the UWB transceiver is powered on.
4. Open a command window on the Linux PC.
5. Use the cd command as necessary on the Linux PC to move to the directory containing
the mode application supplied with the Motorola SDK.
6. Run the following command in the Linux PC command window opened as explained
above:
./mode BT
See the Motorola UWB Software Development Kit Utilities Guide for definitions of the
parameters used with the mode command.
7. While determining transceiver RF power output levels in steps 9 through 17 below, note
the frequency of the highest RF output power. This frequency is called f
c
and will be
used later in this procedure.
8. Set the spectrum analyzer as follows:
a. Measurement type: RF Power in dBm
b. Sweep range: 900 MHz to 1700 MHz
c. Sweep points: 10001
d. Resolution bandwidth: 1 MHz
e. Video bandwidth: Auto
f. Detector selection: RMS
g. Input attenuation: 0
h. Markers: 960 MHz and 1610 MHz
i. Input coupling: AC
j. Trigger source: internal, free running
9. Note the RF power output of the transceiver between the two marked frequencies (960
MHz and 1610 MHz) and verify that it is below the –75.3 dBm ceiling specified in
paragraph (c) of section 15.517 of the CFR 47, Part 15.
10. Change the spectrum analyzer settings as follows:
a. Sweep range: 1500 MHz to 2100 MHz
b. Markers: 1610 MHz and 1990 MHz
11. Note the RF power output of the transceiver between the two marked frequencies (1610
MHz and 1990 MHz) and verify that it is below the –53.3 dBm ceiling specified in
paragraph (c) of section 15.517 of the CFR 47, Part 15.
12. Change the spectrum analyzer settings as follows:
a. Sweep range: 1800 MHz to 3200 MHz
b. Markers: 1990 MHz and 3100 MHz
13. Note the RF power output of the transceiver between the two marked frequencies (1990
MHz and 3100 MHz) and verify that it is below the –51.3 dBm ceiling specified in
paragraph (c) of section 15.517 of the FCC CFR 47, Part 15.