AN-3002 Datasheet, PDF(1/4 Page) Fairchild Semiconductor

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AN-3002 Datasheet, PDF (1/4 Pages) Fairchild Semiconductor – Low Current Input Circuit Ideas

Application Note AN-3002

Low Current Input Circuit Ideas

6N138/139 Series

www.fairchildsemi.com

Introduction

Advancements in opto-coupling and LED technology have

given us the 6N139. This unique optocoupler, having an

input LED current speciï¬cation at 500 microamperes, has

opened some interesting design doors. Besides the obvious

and much written about ability to be directly driven by

CMOS circuits, the 6N139 can be considered for signal

detection, transient detection, matrices and non-loading line

receiving. Following are but a few circuit ideas to stimulate

the designerâs interest.

Signal Detection

The detection of noise, spikes or oscillations can easily and

directly be detected by the input of the 6N139 as shown in

the circuit of Figure 1.

D.C. POWER SOURCE

6N139

LED

Figure 1. 6N139 Input Circuit For Signal Detection

For the detection of undesirable signals on a D.C. power

source use:

R = P----o---w----e---r---s---u---p---p---l-y-----v---o---l--t-a---g---e----â-----1---.-5-----v---o---l--t-s-

50 microamperes

C=To inject 500 microamperes into LED

X=Latching or non-latching output circuitry to follow

LED=Input diode of 6N139

The LED is provided with a 50 microampere forward current

to charge the LED capacity to the VF level. In this way, the

LED is not causing conduction in its output circuitry but is

prepared to conduct very quickly. Any noise or oscillation on

the âD.C. power sourceâ is coupled through âCâ which

develops a signal across the LED. Even small unwanted sig-

nals can cause a large change in the LED forward current.

Once the LEDâs forward current equals or exceeds 500

microamperes, the output circuitry will conduct indicating

the presence of the unwanted signal.

Transient Detection

The detection of the presence or absence of waveforms can

easily be detected by the circuit in Figure 2.

6N139

INPUT

LED

Figure 2. Pulse or Waveform Detection Circuit

For the detection of the presence of a desired signal, pulse or

waveform use:

CR=Silicon diode

-(--P---o---s---i-t--i--v---e----V----p---k---.---o---f----i-n---p---u---t--)----â----2---.--5-----v---o---l-t--s-

1 milliampere

Cmin

P----u---l--s--e----i--n---t-e---r--v---a---l---o---f---1---/--f

RSmax

-P---u---l--s--e----w----i--d---t--h----o---r----1---/-4----f

X=Non-Latching output circuitry to follow

LED=Input diode of 6N139

f=frequency

Examples:

A desired pulse train to be present is shown in Figure 3.

REV. 4.00 4/30/02

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