In this article we will knwo that how potentiometer works ,we will also knwo about the types of ptentiometer.
How Potentiometer Works
Potentiometer is an instrument for measurement of unknown electromotive
force (elf’s) or potential difference (pd) or voltage produced by flow of known
current in a network of circuit s of known characteristic. Hence, we can say it
is an instrument by which a unknown voltage is measured by comparing it with a
known voltage.
Advantages of potentiometer
For better know about how potentiometer works we need to know
also about the what is basic advantage of potentiometer.
1. High accuracy
2. No power consumption from the circuit.
3. Determination of voltage is quite independent of the
source resistance.
Principle of how potentiometer works
For knowing how potentiometer works we need to must know of
principle of potentiometer.
It works on the principle of opposing the unknown EMF by
known emf with the negative terminals of the two emfs connected together and
also positive terminals connected together through a galvanometer.
Types of potentiometers
These are also main point of how potentiometer works because
we need to must know about which type potentiometer we are using in that time. Basically
potentiometer classified in two types.
1. DC potentiometer
2. AC potentiometer
1. DC potentiometer
These are also many types
a. slide wire potentiometers
b. Laboratory type potentiometer
c. Multi-Range DC potentiometer
d. Verier potentiometer
e. Brooks deflection potentiometer
f. self-balancing potentiometer
B. Laboratory type potentiometer
It is a dc potentiometer in which high precision could be
obtained without the use of long slide wire by adding is extensions coils, each
equal in residence to the whole of slide wire. These are also main types of
potentomer which must need to know for understand how potentiometer works.
3. Multi-range DC potentiometers
The potentiometer circuit is so designed that in whatever
range if operate, current drawn from the battery remains the same and
therefore, there is no need of readjustment.
There are two main advantages of having low ranges for
measurement of small voltages.
a. the precision of reading is increased by one decimal
place.
b. A greater part of the reading is made on the dial
resistors which have inherently greater accuracy than slide wire.
d. Verier potentiometer
The advantages of Crompton potentiometer are overcome in varies
potentiometer. The remain potentiometer use there measuring dials to include
second measuring range of lower value and therefore is also known as; duo range
potentiometer.
It makes use of kelvin in valley slide principle between the
course and intermediate dials. This extends the reading accuracy by further
decimal place.
E. Brooks Deflection potentiometer
Where circuit condition are so unsteady that the voltage
under measurement varies, than it becomes very difficult or even impossible to
obtain a balance. At the same time, for the measurement of moderate precision,
exact balancing is time consuming and tedious. Brooks’s deflection
potentiometer was developed to take care of this limitation. It is used for
application where the voltage to be measured is continuously changing.
In brooks deflection potentiometer, an approximated balance
is obtained and greater portion of voltage is reading from the setting of slide
contacts. The remaining varying portion is measured from the deflection of
galvanometer.
F. Self-balancing potentiometer
A self-balancing potentiometer helps in continuous measurement
in non-electrical quantity and hence eliminates the constant attention
operator. It is used in industry. In addition to its balancing feature it dras
a curve of the quantity bogging measured with the help of recording mechanism.
In a self-balancing potentiometer, the unbalance emf is
applied to AC anokufuer via converter. Winding of an AC servomotor. This drives
the motor to more the potentiometer slider to balance.
2. AC potentiometer
AC potentiometer works
on the same principle as DC potentiometer except that in |AC
potentiometer both magnitude and phase of the unknown emf must be same to obtain
balance .
These are classified into two types
1. Polar type potentiometer
2. Co-ordinate type AC potentiometer
1. Polar type potentiometers
Also known as “dry sale polar potentiometer “, it measures
the unknown emf in polar from. In terms
of its magnitude and relative phase. In this potentiometer, unknown emf is
balanced by means of a single voltage which is continuously variable in both
magnitude and phase.
2. Reactangular co-ordinate type potentiometer
Also known as “ gall tinsley potentiometer”. It measures
unkown emf in terms of its rectangular coordinates. In this potentiometer,
balance is obtained in terms of two voltages which are in quadrature each of
these voltages is varied in magnitude and means is usually provided to adjust
or check the quadrature phase relation.. hence these are also main type potentiometer which need study for knowing how potentiometer works.
Standarization of potentiometer
The standardization is done with the help of DC source that is standard cell or a zener source and a
transfer instrument ( usually a electrodynamometer type mili ammeter), it is so
constructed that its response to alternating current is the same as its DC response.
Application of DC Potentiometer
1. Measurement of small EMF
2, calibration of voltammeter
3. Calibration of ammeter
4. Measurement of resistance
5. Measurement of power
6. Calibration of wattmeter
Application of AC potentiometer
1. Measurement of self-inductance
2. Ammeter calibration
3. Voltmeter calibration
4. Calibration of watt meter
Hence from these we can understand that how potentiometer works.
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For knowing more about how potentiometer works you must watch this video.