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DC VOLTMETER Done By: Ala’ Al-Hiary Nidal Al-Hamad.

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Presentation on theme: "DC VOLTMETER Done By: Ala’ Al-Hiary Nidal Al-Hamad."— Presentation transcript:

1 DC VOLTMETER Done By: Ala’ Al-Hiary Nidal Al-Hamad

2 The Volt Volt: is the SI derived unit for electric potential electric potential difference electromotive force.

3 History of the Volt The volt is named in honor of the Italian physicist Alessandro Volta (1745–1827), who invented the voltaic pile, possibly the first chemical battery

4 voltaic pile is a set of individual Galvanic cells placed in series. the first electric battery invent ed by Alessandro Volta in 1800

5 What is voltage??? Volta characterized the emf of a pair of metals in terms of the difference in their voltages, which he could measure

6 VOLTMETER A voltmeter is an instrument used for measuring electrical potential difference (voltage) between two points in an electric circuit.

7 How does is work??? When an electric current is applied, the galvanometer's indicator rotates and compresses a small spring. The angular rotation is proportional to the current through the coil.

8 The connection The voltmeter must be connected in parallel with the element we want to measure the voltage across.

9 Types of Voltmeters: Analog Voltmeter Digital Voltmeter

10 Analog Voltmeters Analog voltmeters move a pointer across a scale in proportion to the voltage of the circuit.

11 Analog Voltmeters

12

13 Digital Voltmeters Digital voltmeters give a numerical display of voltage by use of an analog to digital converter. ADC

14 Digital Voltmeters

15

16 DC Voltmeter Equivalent Circuit RsRs RmRm ImIm V + -

17 RsRs RmRm ImIm V + - >> A moving coil galvanometer can be used as a voltmeter by inserting a resistor in series with it. >> R s limits the current through the coil not to exceed the full scale deflection current.

18 DC Voltmeter Equivalent Circuit RsRs RmRm ImIm V + - >> R s is relatively large so that the voltmeter does not affect the current to be measured.

19 DC Voltmeter Equivalent Circuit RsRs RmRm ImIm V + - Im : deflection current of the movement. Rm : internal resistance of the movement. V : the full range voltage of the voltmeter.

20 DC Voltmeter Equivalent Circuit RsRs RmRm ImIm V + - V = RI V = (Rs + Rm)Im Rs = (V – ImRm)/Im Rs = V/Im – Rm

21 Multi-Range Voltmeter >> Here, we use a number of resistors in order to control the voltage range. RmRm ImIm

22 Multi-Range Voltmeter

23

24

25 R1R1 RmRm ImIm V1V1 + - V2V2 V3V3 V4V4 R2R2 R3R3 R4R4

26 0 to V1 Range R1 RmRm ImIm + - R2 R3 R4 R1 Rm Im + -

27 0 to V2 Range RmRm ImIm + - R2R2 R1R1 R3R3 R4R4

28 R2R2 RmRm ImIm + -

29 0 to V3 Range RmRm ImIm + - R3R3 R1R1 R2R2 R4R4

30 R3R3 RmRm ImIm + -

31 Multi-Range Voltmeter R1R1 RmRm + - R2R2 R3R3 R4R4 V1V1 V2V2 V3V3 V4V4

32 0 to V4 Range RmRm + - R4R4 R2R2 R3R3 R1R1 V1V1 V2V2 V3V3 V4V4

33 0 to V3 Range RmRm + - R3R3 R4R4 V3V3 R1R1 R2R2 V1V1 V2V2 V4V4

34 0 to V2 Range RmRm + - R2R2 R3R3 R4R4 V2V2 V3V3 R1R1 V1V1 V4V4

35 0 to V1 Range R1R1 RmRm + - R2R2 R3R3 R4R4 V1V1 V2V2 V3V3 V4V4

36 Sensitivity of Voltmeters >> The sensitivity of a voltmeter is defined as the inverse of the full scale deflection of the element. S = 1 / (I full scale)

37 Sensitivity of Voltmeters RsRs RmRm ImIm + - >> Using “S” we can determine the value of Rs, as follows : R total = S*V R total = Rs + Rm Rs = S*V - Rm

38 Example A galvanometer with internal resistance of (200 ohm) and maximum current (500 uA) to be converted to a multi-range voltmeter with the following voltage ranges : 1)0 to 100 mV 2)0 to 1 V 3)0 to 10 V 4)0 to 100 V

39 Solution R1R1 RmRm + - R2R2 R3R3 R4R4 S = 1/(I full scale) = 1/500 uA = 2000 ohm/V >>Range (0 to 100 mV) : R4 = Rs = S*V – Rm = 2000*0.1 – 200 = 0 R4 is S.C.

40 Solution R1R1 RmRm + - R2R2 R3R3 R4R4 >> Range (0 to 1 V) : Rs = R3 + R4 R3 + R4 = S*V – Rm = 2000*1 – 200 = 1800 ohm R4 = 0, so : R3 = 1800 ohm = 1.8k

41 Solution R1R1 RmRm + - R2R2 R3R3 R4R4 >> Range (0 to 10 V) : Rs = R2 + R3 + R4 So: R2 + R3 + R4 = S*V – Rm = 2000 * 10 – 200 = 19800 ohm R2 = 19800 – 1800 R2 = 18000 ohm = 18k

42 Solution R1R1 RmRm + - R2R2 R3R3 R4R4 >> Range (0 to 100 V) : Rs = R1 + R2 + R3 + R4 So: R1+ R2 + R3 + R4 = S*V – Rm = 2000 * 100 – 200 = 199800 ohm R1 = 199800 – 18000 - 1800 R1 = 180000 ohm = 180k

43 Solution 1.8 k RmRm + - 18 k 180 k R1 = 180 k R2 = 18 k R3 = 1.8 k R4 = 0 (i.e. S.C.)

44 THANK YOU

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