Alternate RF testing is a very promising candidate for replacing the costly standard specification-based approach. The defect filter in the alternate test flow is a crucial preparatory step for the overall success of alternate test. In this paper, we present a novel nonlinear defect filter based on an estimate of the joint probability density function of the alternate measurements. The construction of the filter does not require a defect dictionary and can accommodate any underlying density without needing any prior knowledge regarding its parametric form.
As wireless LAN devices become more prevalent in the consumer electronics market, there is an ever increasing pressure to reduce their overall cost. The test cost of such devices is an appreciable percentage of the overall cost, which typically results from the high number of specifications, the high number of distinct test set-ups and equipment pieces that need to be used, and the high cost of each test set-up. In this paper, we investigate the versatility of EVM measurements to test the variable-envelope WLAN (Wireless Local Area Networks) receiver and transmitter characteristics. The goal is to optimize EVM test parameters (input data and test limits) and to reduce the number of specification measurements that require high test times and/or expensive test equipment. Our analysis shows that enhanced EVM measurements(optimized data sequence and limits, use of RMS, scale, and phase error vector values) in conjunction with a set of simple path measurements (input-output impedances) can provide the desired fault coverage while eliminating lengthy spectrum mask and noise figure tests
Characterization of RF ICs based on their error vector magnitude (EVM) is gaining a lot of attention in the industry. In order to deliver this specification at a reasonable cost, the input test signal and the analysis techniques have to be optimized such that EVM testing can provide a robust pass/fail decision while utilizing a reasonable amount of tester resources. In this paper, we propose techniques to optimize EVM testing, both from input signal generation and from output analysis perspectives. Our goal is to achieve both efficient and reliable test approaches for WLAN (Wireless Local Area Networks) circuits.
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