Telephone Line Vigilant
Here is a telephone line vigilant circuit to guard against mis- use of your
telephone lines. It monitors telephone lines round the clock and provides visual
as well as an audio warning (when someone is using your telephone lines) which
can be heard anywhere in the house. Another advantage of using this circuit is
that one comes to know of the misuse and snapping of the lines (due to any
reason) instantaneously on its occurance. This enables the subscriber to take
necessary remedial measures in proper time. Various telephone line conditions
and audio-visual indications available are summarised in Table I.
Even when the subscriber himself is using his telephone (handset off-cradle)
while the vigilant circuit is on, the buzzer beeps once every 5 seconds since
the vigilant circuit cannot distinguish between self-use of the subscriber lines
or by any unauthorised person. Thus to avoid unnecessary disturbance, it is
advisable to install the vigilant unit away from the phone. However, if one
wishes to fit the unit near the telephone then switch S1 may be flipped to ‘off’
position to switch off the buzzer. But remember to flip the switch to ‘on’
position while replacing the handset on cradle.
Irrespective of telephone line polarity at the input to the circuit, proper DC
polarity is maintained across C1 due to bridge rectifier comprising diodes D1 to
D4. The DC voltage developed across capacitor C1 is used to check telephone line
condition as per Table I. This circuit draws negligible current from telephone
line; thus when it is connected to the telephone line, the normal telephone
operation is not affected. The circuit may be divided into two parts. The first
part comprises zener D9, transistors T1 to T4 and diode D5. It is used to verify
whether telephone line loop is intact or discontinuous. The second part
comprising zener D10 and transistors T5 to T10 is used to check whether
telephone line is in use (or misuse) or not. The zener diode D9 (3.3V) conducts
when phone line loop is intact and not broken. Zener D9 sets control voltage for
transistors T1, T2 and T3 to conduct and for T4 to cut off. As a result, green
LED lights but no sound is heard from the buzzer.
When phone line loop is discontinuous, no voltage is available across capacitor
C1. Thus zener D9 and transistors T1, T2 and T3 do not conduct while T4 conducts.
Now green LED extinguishes and a continuous sound is heard from the buzzer. When
telephone line is alright but is not in use, zener D10 conducts as voltage
across capacitor C1 is quite high. This results in conduction of transistors T5
and T6 and cutting off of transistor T7 (as collector of transistor T6 is near
ground potential). Thus positive 9V rail is not extended to the following
multivibrator circuit built around transistors T8 and T9. Consequently, the red
LED is not lit and buzzer does not sound. When phone line is in use, zener D10
does not conduct. As a result, transistors T5 and T6 also do not conduct, while
transistor T7 conducts. Now +9V is extended to multivibrator circuit. This
multivibrator is designed such that collector of transistor T9 goes high once
every 5 seconds to forward bias transistor T10 and it conducts. Thus at every
5-second interval a beep sound is heard from buzzer. The beep sound interval can
be increased or decreased by changing the value of capacitor C3 while the volume
can be adjusted with the help of preset VR3
Title: Telephone Line Vigilant
electronic circuit
Source: www.electronic-circuits-diagrams.com
Published on: 2005-02-09
Reads: 715
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