Published:2009/7/5 22:41:00 Author:May | From:SeekIC
For maximum range, the receiver must be designed in the same manner as a radio receiver front end, since the received signals will be similar in both frequency component and in amplitude of the photodiode current. The major constraint on the receiver performance is signal to noise ratio, followed by e.m. shielding, stability, bias points, parts layout, etc. These become significant details in the final design. This receiver circuit consists of a L14G2 detector, two stages of gain, and a FM demodulator which is the tachometer circuit, modified to operate up to 100 kHz. Better sensitivity can be obtained using more stages of stabilized gain with AGC, lower cost and sensitiity may be obtained by using an H23A1 emitter-detector pair and/or by eliminating amplifter stages.
For some applications, additional filtering of the output voltage may be desired.
Reprinted Url Of This Article:
http://www.seekic.com/circuit_diagram/Communication_Circuit/RECEIVER_FOR_50_kHz_FM_OPTICAL_TRANSMITTER.html
Print this Page | Comments | Reading(3)
Code: