Electronics and Communication Engineering by E Keeda

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INTRODUCTION

This chapter has been divided into following topics:

1) 2) 3) 4) 5) 6)

Basic concepts of Poly phase Circuits and its advantages Generation of three phase supply Star – Delta Connections (Balanced load) Relationship between phase and line currents and voltages Phasor diagrams Measurement of power by two wattmeter method

POLYPHASE SYSTEMS 1) Poly phase alternators have two or more windings symmetrically spaced

around the armature. Such alternators produce as many independent alternating voltages as the number of windings (Phase).

These voltages in the individual windings have the same magnitude and frequency but they have definite phase difference. The amount of phase difference depends upon the number of windings.

Thus, by using appropriate poly phase alternator, it is possible to generate two phase and three phase ac and from these to obtain four, six, nine, twelve phase AC depending upon the requirements. These systems are collectively known as poly phase systems.

ADVANTAGES OF 3- Φ SYSTEM OVER 1- Φ SYSTEM 1) The output of a 3- φ machine is greater than that of 1- φ machine of the

same size.

The total power output of a 3- φ machine is not fluctuating as in the case of a 1- φ machine. It has a higher efficiency.

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A 3- φ transmission needs less conducting material than a 1- φ transmission line. Hence, transmission becomes economical.

4) 5) 6)

3- φ motors are self-starting, whereas 1- φ motors are not self-starting. Power factor of a 1- φ motor is always lower than that of a 3- φ motor of the same output and speed. 1- φ supply can be obtained from 3- φ supply but 3- φ supply cannot be obtained from 1- φ supply.

GENERATION OF THREE PHASE SUPPLY

Construction

Waveforms of 3- φ supply

1) The armature of the alternator consists of three single-turn rectangular coils R1R2, Y1Y2 and B1B2 fixed to one another at angles of 120˚. The coils are mounted on a common shaft and have same physical dimensions. 2) The ends of coil are connected to a pair of slip-rings carried on the shaft. The coils are placed in the uniform magnetic field provided by the North and South poles of the magnet. 3) The carbon brushes are pressed against the slip-rings to collect the induced currents in the coils.

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Operation

1) Suppose the three coils are rotating in an anti-clockwise direction at uniform speed. Because of this each coil will have its own generated e.m.f. and current which will be alternating in nature. 2) As shown in the figure the plane of the coil R1R2 is perpendicular to the magnetic field and hence no e.m.f. is generated in the coil. After 120˚ Y1Y2 will occupy this position and after 120˚ B1B2 will occupy this position. 3) This cycle continues and maximum value attained by every coil has 120˚ phase shift w.r.t e.m.f. in other coil. 4) If the instantaneous value of the e.m.f. generated in the coil R1R2 is represented by,

then, the instantaneous values of the e.m.f.’s generated in the coil Y1Y2 and B1B2 are, 5) Thus, we got three independent alternating voltages from 3- φ alternator which have phase shift of 120˚. The phasor diagram for 3- φ system is as show:

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6) If we perform vector addition of these three voltages, it can be observed that, the sum of three voltages at any instant is zero. Mathematically,

Important Definitions related to 3-φ System

1) Symmetrical System:-

A 3-φ system in which the three voltages are of same magnitude and frequency and displaced by 120¢ª phase angle from each other is defined as ‘Symmetrical System’.

2) Phase Sequence:-

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The sequence in which the voltages in 3-φ reach their maximum positive values is called ‘Phase Sequence’.

3) Balanced System:- A 3-φ system is said to be balanced when,

a) b) c)

All phase inpedances are identical. Magnitude and phase angle of all phase impedances are identical. All phases have same power factor.

Connections in Three Phase System

In 3- φ system we can have following connections:

a) b) ➢

Star or Wie (Y) connection: Mesh or Delta (Δ) connection:

Star Connection:-

In this connection, like terminals of the coil i.e. either starting terminals R1, Y1, B1 or finishing terminals R2, Y2, B2 are connected together to form a common point ‘N’ which is known as neutral point or star point.

This kind of connection is also known as ‘Four wire three phase system’. This connection is shown in figure.

Assuming phase sequence R-Y-B all the line quantities and phase quantities of star connection are shown in figure.

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a) Line Voltage (VL) : The potential difference between any two lines gives line to line voltage called as line voltage. For above fig. Line voltages are VL = VRY = VYB = VBR

b) Phase Voltage (Vph) :

The potential difference between any line and neutral point is called as phase voltage. For above fig. Phase voltages are Vph = VRN = VYN = VBN

c) Line Current (IL):

The current flowing through each line is called as line current. For above fig. Line currents are IL = IR = IY = IB

d) Phase Current (Iph) :

The current flowing through each phase is called as phase current. For above fig. phase currents are Iph = IRN = IYN = IBN ✓

Relation Between Line Quantities and phase Quantities for Star Connected System 1) Consider a 3- φ star connected balanced system as shown in figure.

From figure, But,

and

Hence,

…... (1)

To get the relation between line voltage and the phase voltage, plot the vector diagram. Assuming phase sequence to be R-Y-B with lagging power factor.

From fig. voltage across line R and line Y is

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…... (2)

Vector Diagram for 3- φ star connected balanced system is shown in below figure.

4) In

Consider draw

From vector diagram, But

….... (3)

Substituting this in equation (3),

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Hence,

Thus, for a star connected connection we can conclude following points:

and

Line voltages are

apart.

Line voltages are

ahead of their respective phase voltages.

The angle between line currents and the corresponding line voltages is

with current lagging.

The angle between line currents and the corresponding line voltages is

✓

with current leading.

Expression for Power in 3- φ star connected system : 1) Active Power :

We know that for a 1-φ system active power is given by, ……(1) Hence for a 3- φ system, Total active power = 3 × (Power/phase)

Bus for star connected ckt.

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Where φ is the angle between phase voltage and phase current.

Reactive Power :

Total reactive power is given by,

Apparent Power :

Total apparent Power is given by,

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Delta Connection

In this connection finishing terminal of one coil is connected to starting terminal of second coil and finishing of that to starting of next and so on i.e. In Δ connection coils are connected to form a closed loop as shown in fig. (1)

This kind of connection is also known as ‘three wire three phase system’. This connection is shown in fig. (1)

Assuming phase sequence R-Y-B all the line quantities and phase quantities of delta connection are shown in fig. (1)

a) Line Voltage (VL) : The potential difference between any two lines gives line to line voltage called as line voltage. For above fig. Line voltages are VL = VRY = VYB = VBR

b) Phase Voltage (Vph) :

The potential difference between any line and neutral point is called as phase voltage. For above fig. Phase voltages are Vph = VR = VY = VB

c) Line Current (IL):

The current flowing through each line is called as line current. For above fig. Line currents are IL = IR = IY = IB

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d) Phase Current (Iph) : The current flowing through each phase is called as phase current. For above fig. phase currents are Iph = IRY = IYB = IBR

✓

Relation Between Line Quantities and phase Quantities for Delta Connected System:- 1. Consider a 3- φ delta connected balanced system as shown in figure.

From figure, But,

To get the relation between line voltage and the phase voltage, plot the vector diagram. Assuming phase sequence to be R-Y-B with lagging power factor.

From fig.

…… (2)

Vector Diagram for 3- φ delta connected balanced system is shown below figure.

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4. In

Consider

draw

From vector diagram, But

…… (3)

Substituting this in equation (3),

Hence,

Thus, for a delta connected connection we can conclude following points :

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a) b) c) d)

Line currents are 120 ˚ apart. Line currents are 30˚ ahead of their respective phase currents. The angle between line currents and the corresponding line voltages is (30+

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) with current lagging.

The angle between line currents and the corresponding line voltages is (30-φ) with current leading.

✓

Expression for Power in 3- φ delta connected system : 1) Active Power :

But for delta connected ckt.

Where φ is the angle between phase voltage and phase current.

2) Reactive Power :

Total reactive power is given by,

3) Apparent Power : Total apparent Power is given by,

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Relationship between Power drawn by Star and Delta Connected Load

Let

For star connected system,

we have,

But

Now,

…..[From (1)]

….(2)

For delta connected system,

we have,

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But

Now,

….[From (3)]

….(4)

Thus, from

. (2) and (4), we have

From this

. we can conclude that for the same load, power drawn in delta

ckt. is three times more than the power drawn in star connected ckt.

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MEASUREMENT OF POWER IN THREE PHASE SYSTEM

Wattmeter 1. It is a device which is used to measure power drawn by single phase circuit.. It consists of two coils (1) Current Coil (CC) and (2) Potential Coil (PC)

Current coil senses the current and it is always connected in series with the load. The resistance of the coil is very small and hence its cross sectional area is large and it has less number of turns.

Potential coil is also known as ‘Pressure Coil’. This senses the voltage and it is always connected across the supply terminals. The resistance of this

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coil is very high and hence its cross sectional area is small and it has more number of turns

The symbol for wattmeter is as shown in fig. (1)

Mains, C

Common, L

Line, V

Voltage

The circuit connection for measurement of power of a single phase circuit is shown in fig.(2)

Wattmeter reading is directly proportional to

a) b) c)

Current (I) through the coil. Voltage (V) across the coil. Cosine of the angle between this voltage and current.

Thus, wattmeter reading is Hence, wattmeter gives the direct reading of the power absorbed by the single phase circuit.

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It is also used for measurement of power in 3-φ system. There are three methods available for measuring power in 3-φ system. They are as follows

a) b) c)

Three wattmeter method Two wattmeter method One wattmeter method

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TWO WATTMETER METHOD

Star Connection

1. The circuit diagram of two wattmeter method for star connected 3-

system is as shown above. 2. Current coil of each wattmeter is connected in any two lines and the potential coils of both the wattmeter are connected to third line. 3. In above fig. current coils of wattmeter

are connected in line-R

and line-Y respectively and their potential coils are shorted to line B. 4. For coil is

current through current coils is

and voltage across potential

5. Similarly, for potential coil is

….(1) current through current coil is

and voltage across

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reading is,

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….(2)

7. Now consider the phasor diagram for star ckt. Assuming phase sequence R-Y-B and lagging p.f. we have,

1) From circuit diagram. and

2) From vector Diagram we have, Angle between

….(3) ….(4)

3) But for star connected balanced system,

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. (3) and (4), we have ….(5) ….(6)

4) Adding

.’s (5) and (6) we get,

….(7) 5) But for star connected system, Thus,

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i.e. the total power absorbed is equal to algebraic sum of the two wattmeter readings.

DELTA CONNECTION

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1. The circuit diagram of two wattmeter method for delta connected 3-

and

are connected in line-R

and line-Y respectively and their potential coils are shorted to line B. 4. For is

current through current coil is . Hence

5. Similarly, for potential coil is Hence

and voltage across potential coil

reading is, current through current coil is

….(1) and voltage across

reading is,

….(2)

6. Now consider the phasor diagram for delta ckt. Assuming phase sequence R-Y-B and lagging p.f. we have,

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7. From circuit diagram. and 8. From vector Diagram we have, Angle between

and

and angle between

and

is (30 + φ)

Thus eqn. (1) and (2) becomes, W1 = VRB IR cos (30 - φ) ….(3) W2 = VYB IY cos (30 + φ) ….(4) 9. But for delta connected balanced system, VL = VRB = VYB and IL = IR = IY Hence from eqn. (3) and (4), we have ….(5) ….(6) 10. Adding eqn.’s (5) and (6) we get,

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….(7) 11. But for delta connected system,

Thus,

i.e. the total power absorbed is equal to algebraic sum of the two wattmeter readings.

EXPRESSION FOR POWER FACTOR USING TWO WATTMETER METHOD 1. When two wattmeter are used for measurement of power in 3-φ system, the wattmeter readings are given by, 2. Adding (1) and (2) we get,

….(3) 3. Subtracting (2) from (1) we get,

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….(4) 4. From eqn. (3) and (4),

….(5)

5. But

….(6) 6. From the above expressions we can conclude following points 1) If 2) If

, then the readings of two wattmeter are equal. , then the readings of both the wattmeter are positive.

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3) If

, then the reading of wattmeter

is zero.

4) If

, then the reading of wattmeter

is negative.

ADVANTAGES OF TWO WATTMETER METHOD

1. Availability of neutral point in star connected system is not compulsory, for power measurement using two wattmeter method. 2. This method can be used for balanced as well as unbalanced systems. 3. It is very easy to determine

of a

system using two wattmeter

method. 4. Total volt-amperes can be obtained using two wattmeter readings for balanced load. 5. Circuit connections are very simple.

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