Telephone call meter using calculator & COB
In this circuit, a simple calculator, in conjunction with a COB
(chip-on-board) from an analogue quartz clock, is used to make a telephone call
meter. The calculator enables conversion of STD/ISD calls to local call
equivalents and always displays current local call-meter reading.
The circuit is simple and presents an elegant look, with feather-touch operation.
It consumes very low current and is fully battery operated. The batteries used
last more than a year.
Another advantage of using this circuit is that it is compatible with any type
of pulse rate format, i.e. pulse rate in whole number, or whole number with
decimal value. Recently, the telephone department announced changes in pulse
rate format, which included pulse rate in whole number plus decimal value. In
such a case, this circuit proves very handy.
To convert STD/ISD calls to local calls, this circuit needs accurate 1Hz clock
pulses, generated by clock COB. This COB is found inside analogue quartz wall
clocks or time-piece mechanisms. It consists of IC, chip capacitors, and crystal
that one can retrieve from scrap quartz clock mechanisms. These can be purchased
from watch-repairing shops for less than Rs 20.
Normally, the COB inside clock mechanism will be in good condition. However,
before using the COB, please check its serviceability by applying 1.5V DC across
terminals C and D, as shown in the figure. Then check DC voltage across
terminals A and B; these terminals in a clock are connected to a coil. If the
COB is in good condition, the multimeter needle would deflect forward and
backward once every second. In fact, 0.5Hz clock is available at terminals A and
B, with a phase difference of 90o. The advantage of using this COB is that it
works on a 1.5V DC source.
The clock pulses available from terminal A and B are combined using a bridge,
comprising diodes D1 to D4, to obtain 1Hz clock pulses. These clock pulses are
applied to the base of transistor T1. The collector and emitter of transistor T1
are connected across calculator’s ‘=’ terminals.
The number of pulses forming an equivalent call may be determined from the
latest telephone directory. However, the pulse rate (PR) found in the directory
cannot be used directly in this circuit. For compatibility with this circuit,
the pulse rate applicable for a particular place/distance, based on time of the
day/holidays, is converted to pulse rate equivalent (PRE) using the formula PRE
= 1/PR.
You may prepare a look-up table for various pulse rates and their equivalents (see
Table). Suppose you are going to make an STD call in pulse rate 4. Note down
from the table the pulse rate equivalent for pulse rate 4, which is 0.25. Please
note that on maturity of a call in the telephone exchange, the exchange call
meter immediately advances to one call and it will be further incremented
according to pulse rate. So one call should always be included before counting
the calls.
For making call in pulse rate 4, slide switch S1 to ‘off’ (pulse set position)
and press calculator buttons in the following order: 1, ‘+’, 0.25, ‘=’. Here, 1
is initial count, and 0.25 is PRE. Now calculator displays 1.025. This call
meter is now ready to count. Now make the call, and as soon as the call matures,
immediately slide switch S1 to ‘on’ (start/standby position). The COB starts
generating clock pulses of 1 Hz. Transistor T1 conducts once every second, and
thus ‘=’ button in calculator is activated electronically once every second. The
calculator display
starts from 1.25, advancing every second as follows:
1.25, 1.5, 1.75, 2.00, 2.25, 2.50, and so on.
After finishing the call, immediately slide switch S1 to ‘off’ position (pulse
set position) and note down the local call meter reading from the calculator
display. If decimal value is more than or equal to 0.9, add another call to the
whole number value. If decimal value is less than 0.9, neglect decimal value and
note down only whole numbers.
To store this local call meter reading into calculator memory, press ‘M+’ button.
Now local call meter reading is stored in memory and is added to the previous
local call meter reading. For continuous display of current local call meter
reading, press ‘MRC’ button and slide switch S1 to ‘on’ (start/standby position).
The current local call meter reading will blink once every second.
In prototype circuit, the author used TAKSUN calculator that costs around Rs 80.
The display height was 1 cm. In this calculator, he substituted the two
button-type batteries with two externally connected 1.5V R6 type batteries to
run the calculator for more than an year.
The power ‘off’ button terminals were made dummy by affixing cellotape on
contacts to avoid erasing of memory, should someone accidentally press the power
‘off’ button. This calculator has auto ‘off’ facility. Therefore, some button
needs to be pressed frequently to keep the calculator ‘on’. So, in the idle
condition, the ‘=’ button is activated electronically once every second by
transistor T1, to keep the calculator continuously ‘on’.
Useful hints. Solder the ‘=’ button terminals by drilling small holes in its
vicinity on PCB pattern using thin copper wire and solder it neatly, such that
the ‘=’ button could get activated electronically as well as manually. Take the
copper wire through a hole to the backside of the PCB, from where it is taken
out of the calculator as terminals G and H.
At calculator’s battery terminals, solder two wires to ‘+’ and ‘–’ terminals.
These wires are also taken out from calculator as terminals E and F. Affix COB
on a general-purpose PCB and solder the remaining components neatly. For giving
the unit an elegant look, purchase a jewellery plastic box with flip-type cover
(size 15cm x 15cm). Now fix the board, calculator, and batteries, along with
holder inside the jewellery box. Then mount the box on the wall and paste the
look-up table inside the box cover in such a way that on opening the box, it is
visible on left side of the box.
Caution. The negative terminals of battery A and battery B are to be kept
isolated from each other for proper operation of this circuit.
LookUp Table | ||||||||||||
Pulse rate (PR) | 2 | 2.5 | 3 | 4 | 6 | 8 | 12 | 16 | 24 | 32 | 36 | 48 |
Pulse rate eqlt. (PRE) | 0.5000 | 0.4000 | 0.333 | 0.250 | 0.166 | 0.125 | 0.083 | 0.062 | 0.041 | 0.031 | 0.027 | 0.020 |
Note : Here PRE is shown up to three decimal places. In practice, one may use up to five or six decimal places. |
Title: Telephone call meter using calculator & COB
electronic circuit
Source: www.electronic-circuits-diagrams.com
Published on: 2005-02-09
Reads: 836
Print version:
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