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Alternate-Phase Return-to-Zero (APRZ) is an optical signal format. In APRZ the field intensity drops to zero between consecutive bits (RZ), and the field phase alternates between neighbouring bits (AP), so that if the phase of the signal is, for example, 0 in even bits (bit number 2''n''), the phase in odd bit slots (bit number 2''n''+1) will be ''ΔΦ'', the phase alternation amplitude. Return-to-zero (RZ) can be seen as a special case of APRZ in which ''ΔΦ''=0, while Carrier-Suppressed Return-to-Zero (CSRZ) can be viewed as a special case of APRZ in which ''ΔΦ''=π (and the duty cycle is 67%, at least in the standard form of CSRZ). APRZ can be used to generate specific optical modulation formats, for example, APRZ-OOK, in which data is coded on the intensity of the signal using a binary scheme (light on=1, light off=0). APRZ is often used to designate APRZ-OOK. The characteristic properties of an APRZ signal are those to have a spectrum similar to that of an RZ signal, except that frequency peaks at a spacing of ''BR''/2 as opposed to ''BR'' are observed (where ''BR'' is the bit rate). APRZ-OOK is considered to be more tolerant to pulse-to-pulse (intra-channel) non-linear impairments, with respect to other OOK modulation formats. 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「Alternate-Phase Return-to-Zero」の詳細全文を読む スポンサード リンク
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