The AN/FPS-85 (a computer-controlled, phased-array radar) searches, detects, identifies, and tracks satellites and other space objects. Built in the 1960s, this unique high-power radar is at Eglin Air Force Base in Florida.

The AN/FPS-85 radar incorporates separate transmitter and receiver arrays operating at 442 MHz. The Transmitter Array System is composed of 5,184 radar transmitter units arranged in a 72-square matrix. Each radar transmitter unit delivers nearly 10 kilowatts of peak power into a dipole antenna yielding a collective beam peak power of more than 30 Megawatts.

During this program, Southwest Research Institute (SwRI) designed and developed the maintenance test station (MTS) used to test the recently SwRI-designed transmitter units. SwRI selected a modern suite of automated test equipment (ATE) and developed custom software using the Labview^® development platform. The MTS was designed to fulfill not only the long-term transmitter maintenance requirements of the site, but also to serve as the production test station (PTS) for acceptance testing of each upgraded transmitter unit.

Transmitter Calibrator Monitor Unit

Maintenance Test Station/Production Test Station

The Maintenance Test Station/Production Test Station included a(n):

Radio frequency power meter (with pulse and CW sensors)
Spectrum analyzer
Oscilloscope
Vector voltmeter
Multimeter
Arbitrary waveform generator
Custom RF signal sources (14.7 MHz, 85.3 MHz, 537–547 MHz, 437–447 MHz)
Synthesized AC power supply (117 VAC 60 Hz)
High-voltage power supply (5.5 kVDC)
High-voltage pulsed supply (1 kV, 5–255 ms, 1% duty)
Switch matrix (48x4), a touch-screen color monitor
Computer (with GPIB and Digital I/O boards)
Printer
Transmitter test fixture
RF coaxial switches
RF envelope detector
RF distribution tree (signal splitter)

The software included:

Automated transmitter tests
Automated test station self-tests
Manual operating mode

A detailed report and historical record is produced for each transmitter tested. The self-test includes calibration of the test setup for losses and signal levels. A full calibration and self-test includes 289 individual tests and takes about 50 minutes to run. An abbreviated calibration limited to the essential parameters is available and can be run in about 15 minutes.

The transmitter test sequence includes 137 individual tests and takes about 30 minutes for a production acceptance test. A test configuration utility allows test groups to disable during maintenance to reduce test time. The most basic operational transmitter test sequence can be run in a few minutes.

For more information about our maintenance test station (MTS) capabilities, or how you can contract with SwRI, please contact Tom Untermeyer at tuntermeyer@swri.org or (210) 522-5040. We can offer you the best approach for solving your specialized communications and embedded systems problem.

communications.swri.org

Contact Information

Tom Untermeyer

Communications and Embedded Systems

(210) 522-5040

tuntermeyer@swri.org

communications.swri.org

Related Terminology

communication networks

maintenance test station

AN/FPS-85

transmitter array system

radar systems

communication systems

automated test station self-tests

custom software development

communications engineering

| Communications and Embedded Systems Department | Automation and Data Systems Division | SwRI Home |

Southwest Research Institute^®(SwRI^®), headquartered in San Antonio, Texas, is a multidisciplinary, independent, nonprofit, applied engineering and physical sciences research and development organization with 11 technical divisions.

January 16, 2012