Differential phase detector for precise phase alignment

2016 New Trends in Signal Processing (NTSP) Pub Date : 2016-10-01 DOI:10.1109/NTSP.2016.7747789

J. Olexa, M. Gasior, O. Ondrácek

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引用次数: 3

Abstract

This paper presents a differential phase detector circuit, whose phase-to-voltage characteristic has an extremum when its two input signals are exactly in phase. In this condition all its digital signals are of 50% duty cycle so that the circuit characteristic does not have a dead zone. This feature allows a precise indication of the zero-phase condition, which is independent of the detector power supply and the offset of its ADC readout. Such a detector is used for a phase alignment of two reference clock signals with frequency about 11 kHz in front-ends processing signals from beam position monitors of the Large Hadron Collider (LHC) at CERN. The detector output voltage is digitized with a 24-bit ADC at the rate of the reference signals. The resulting samples are processed in the front-end FPGA and transmitted to the control system using an Ethernet data stream. After a detailed description of the differential phase detector its performance is demonstrated with laboratory measurements. The results show that this simple circuit allows a phase alignment resolution of the 11.2 kHz clock signals in the order of 0.0001° with a measurement bandwidth of 1 Hz.

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差分相位检测器，用于精确相位校准

本文提出了一种差分鉴相电路，当其两个输入信号完全同相时，其相压特性出现极值。在这种情况下，它的所有数字信号都是50%占空比，因此电路特性没有死区。该特性允许零相位条件的精确指示，这是独立于检测器电源和其ADC读出的偏移量。这种探测器用于欧洲核子研究中心(CERN)大型强子对撞机(LHC)光束位置监测器的前端处理信号中频率约为11 kHz的两个参考时钟信号的相位校准。检测器输出电压以参考信号的速率用24位ADC数字化。得到的采样在前端FPGA中进行处理，并通过以太网数据流传输到控制系统。在详细描述了差分鉴相器的性能后，用实验室测量证明了它的性能。结果表明，该简单电路允许11.2 kHz时钟信号的相位对准分辨率为0.0001°，测量带宽为1hz。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 New Trends in Signal Processing (NTSP)

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