Method and apparatus for self-testing of test equipment
First Claim
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1. A method of self-testing a tester, which includes a controller, a transmitter and a receiver, the method comprising:
- a) conducting baseline tests of the tester including;
transmitting a plurality of test signals from the transmitter to at least one device under test, each test signal at a different power level;
receiving the test signals from the device under test at the recevier;
determining the power level of each test signal;
determining a BER for each test signal;
determining a baseline sensitivity of the receiver, defined by a minimum power level of test signal that the receiver requires to achieve a minimum BER limit;
b) storing the baseline sensitivity in a database accessible by the controller;
c) conducting self tests of the tester at periodic intervals including;
connecting the transmitter to the receiver via a loop-back connection;
transmitting a plurality of self-test signals from the transmitter, each self-test signal at a different power level;
receiving the plurality of self-test signals at the receiver via the loop back connection;
determining the power level of each self-test signal;
determining a BER for each self-test signal;
determining the sensitivity of the receiver at the periodic intervals by determining a minimum power level of test signal that the receiver requires to achieve a desired BER;
comparing the sensitivity at the periodic intervals with the baseline sensitivity previously stored in the database; and
d) determining when recalibration of the tester is required based on the difference in sensitivity at each time interval and the baseline sensitivity.
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Abstract
A method of self-testing includes transmitting a plurality of self-test signals and receiving the plurality of self-test signals. In addition, the method includes storing the received self-test signal in a first database; and comparing the received self-test signal with data from a second database. An self-testing apparatus and a method of for assuring substantially continued calibrated function of a testing device.
39 Citations
11 Claims
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1. A method of self-testing a tester, which includes a controller, a transmitter and a receiver, the method comprising:
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a) conducting baseline tests of the tester including; transmitting a plurality of test signals from the transmitter to at least one device under test, each test signal at a different power level; receiving the test signals from the device under test at the recevier; determining the power level of each test signal; determining a BER for each test signal; determining a baseline sensitivity of the receiver, defined by a minimum power level of test signal that the receiver requires to achieve a minimum BER limit; b) storing the baseline sensitivity in a database accessible by the controller; c) conducting self tests of the tester at periodic intervals including; connecting the transmitter to the receiver via a loop-back connection; transmitting a plurality of self-test signals from the transmitter, each self-test signal at a different power level; receiving the plurality of self-test signals at the receiver via the loop back connection; determining the power level of each self-test signal; determining a BER for each self-test signal; determining the sensitivity of the receiver at the periodic intervals by determining a minimum power level of test signal that the receiver requires to achieve a desired BER; comparing the sensitivity at the periodic intervals with the baseline sensitivity previously stored in the database; and d) determining when recalibration of the tester is required based on the difference in sensitivity at each time interval and the baseline sensitivity. - View Dependent Claims (2, 3)
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4. A testing apparatus adapted for self-testing, the testing apparatus comprising:
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a transmitter that provides a plurality of self-test signals; a receiver that receives the plurality of self-test signals; a jumper connection for connecting the transmitter to the receiver; a first monitor for measuring total average power of the self-test signals from the transmitter; a second monitor for measuring total average power of the self-test signals entering the receiver after the jumper; and a controller that determines parametric results based on at least one of a setting of the testing apparatus, a parameter of the transmitted self-test signals and a parameter of the received self-test signals, that compensates the parametric results based on the comparison of the measurements from the first and second monitors, and that compares the parametric results to previously stored parametric data from a database to analyze calibration of the testing apparatus. - View Dependent Claims (5, 6, 7, 8, 9)
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10. A method for enabling substantially continued calibrated function of a testing device including a transmitter and a receiver, the method comprising:
self-testing the testing device at periodic intervals, wherein the self-testing comprises; coupling the transmitter directly to the receiver via a jumper; transmitting a plurality of self-test signals from the transmitter; stressing the self-test signals with at least one of attenuation, dispersion, and interference; receiving the plurality of self-test signals at the receiver; storing the received self-test signals; determining a power level and a BER for self-test signal, and the minimum power level required by the receiver to achieve a desired BER; and comparing the minimum power level with previously stored parametric data from a database to test calibration of a function of the testing device to determine when the testing device requires recalibration. - View Dependent Claims (11)
Specification