Inexpensive Peak Detector Feat
电源设计应用
439人已加入
描述
Abstract: This circuit, which uses a digital potentiometer (pot) and a comparator, features droopless operation that is not normally associated with peak detectors that have traditionally used rectifiers and sample-and-holds (S/H).
Most peak detectors employ a rectifier and a sample-and-hold circuit, which is prone to output droop. In an alternative approach, shown in the figure below, a 5-bit digital potentiometer with a servo loop is used to create an inexpensive peak detector with a logic-level reset input and no output droop.
Comparator control of IC1's chip-select input ensures that the digital potentiometer becomes active only when VIN exceeds the VOUT level currently latched, and R1 ensures that the potentiometer increments upward (rather than downward) as a result. When VI rises above VOUT, the comparator output (IC2) swings low and selects IC1, allowing the wiper position to increment upwards with each high-to-low transition of the clock (INC*). When VOUT reaches VIN, the comparator output goes high and latches VOUT at that level.
VOUT ranges between the voltage levels connected to the upper and lower extremes of the digital pot (5V and 0V in this case) in 32 equally spaced increments. By reducing this VOUT range, the size of an LSB can be decreased, thereby increasing the output resolution.
Most peak detectors employ a capacitor for holding the output voltage, and the droop (slow change) in VOUT caused by the capacitor's leakage current is particularly noticeable with low frequency or low duty cycle signals. The primary advantage of this circuit is the complete absence of such output droop. It holds the output level indefinitely, making it useful as a long-term memory.
Unlike peak detectors that use a capacitor to hold the output voltage, this design includes a digital potentiometer (IC1) that holds the output level indefinitely, without droop.
*This indicates the inverse of the signal.
A similar version of this article appeared in the May 15, 2000 issue of Electronic Design.
打开APP阅读更多精彩内容
Most peak detectors employ a rectifier and a sample-and-hold circuit, which is prone to output droop. In an alternative approach, shown in the figure below, a 5-bit digital potentiometer with a servo loop is used to create an inexpensive peak detector with a logic-level reset input and no output droop.
Comparator control of IC1's chip-select input ensures that the digital potentiometer becomes active only when VIN exceeds the VOUT level currently latched, and R1 ensures that the potentiometer increments upward (rather than downward) as a result. When VI rises above VOUT, the comparator output (IC2) swings low and selects IC1, allowing the wiper position to increment upwards with each high-to-low transition of the clock (INC*). When VOUT reaches VIN, the comparator output goes high and latches VOUT at that level.
VOUT ranges between the voltage levels connected to the upper and lower extremes of the digital pot (5V and 0V in this case) in 32 equally spaced increments. By reducing this VOUT range, the size of an LSB can be decreased, thereby increasing the output resolution.
Most peak detectors employ a capacitor for holding the output voltage, and the droop (slow change) in VOUT caused by the capacitor's leakage current is particularly noticeable with low frequency or low duty cycle signals. The primary advantage of this circuit is the complete absence of such output droop. It holds the output level indefinitely, making it useful as a long-term memory.
Unlike peak detectors that use a capacitor to hold the output voltage, this design includes a digital potentiometer (IC1) that holds the output level indefinitely, without droop.
*This indicates the inverse of the signal.
A similar version of this article appeared in the May 15, 2000 issue of Electronic Design.
声明:本文内容及配图由入驻作者撰写或者入驻合作网站授权转载。文章观点仅代表作者本人,不代表电子发烧友网立场。文章及其配图仅供工程师学习之用,如有内容侵权或者其他违规问题,请联系本站处理。
举报投诉
- 相关推荐
- Peak
-
请问Peak MMACS是什么意思?2018-10-29 0
-
为什么peak2peak值如此之高?2020-08-05 0
-
请问在ST BLE App中获取Acc X Peak/Acc Y Peak/Acc Z Peak的流程图是怎样的?2022-12-28 0
-
Proximity Detector Features Ul2008-11-24 485
-
Inexpensive Peak Detector Feat2009-04-28 1135
-
Inexpensive (Almost Free) Prob2009-09-27 2100
-
峰值检知器威廉希尔官方网站 (Peak detector)2009-10-22 2047
-
正峰值检知器威廉希尔官方网站 (Positive-peak detect2009-10-22 1398
-
负峰值检知器威廉希尔官方网站 (Negative-peak detect2009-10-22 1831
-
Peak_Detector威廉希尔官方网站 设计2016-01-11 420
-
PCB绘图案例【Circuit Simulation】Peak_Detector2016-02-16 493
-
Peak_Detector2016-02-18 560
-
Single-Photon Detector2017-11-23 806
-
LTC6244 Demo Circuit - 60kHz, Positive and Negative Peak Detector2021-03-11 502
全部0条评论
快来发表一下你的评论吧 !
