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I

THE—5‘5

A TEST AND ANALYSIS
OF THE
SYNCHRONOUS MOTOR GENERATOR SET No. M 4
IN THE
ALTERNATING CURRENT LABORATORY
OF THE
MICHIGAN STATE COLLEGE

A THESIS
SUBMITTED TO THE FACULTY
OF THE!

MICHIGAN STATE COLLEGE

' BY

. a

..
~‘—‘ '
'1

* I

w. D." HOWEIL H3 ‘ 'c ROBERTS
m :1”

CANDIDATES FOR DEGREE OF

BACHELOR OF SCIENCE

JUNE, 1926

THPS‘S‘

 

 

 

 

 

TABLE OF' CONTENTS

 

 

 

 

 

 

 

 

 

 

 

 

Page
List of symbols v
Preface' ————— I _ _ 1
Introduction 2
CHAPTER I
Theory of the Synchronous Motor
Principle ‘ — — 5
Synchronous Impedance — 9
Vector Diagrams — 10
Current Loci “ 13
Circular Current Load Loci --—— 16
Determination of “adius ‘ — — ' 17
The V” and 0 curves 19
Analytical Determination of Phase Characteris—
tics 21
Maximum Operating uonditions 22

Maximum and Minimum motor Excitations For
Fixed Motor Power and Impressed Voltage - 24
Maximum Motor Power With Fixed Excitation,

Impressed teltage, Equivalent Resistance,

 

and Synchronous Impedance 26
Maximum Possible Motor Excitation With.Fixed

.Impressed Voltage and Fixed Resistance

 

and Reactance 27

10.1735}

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Maximum Motor.Activity With.Fixed Imp— Page

ressed Voltage and Fixed REactance

and Resistance — 28
Operating Conditions of a Synchronous Motor -- 29
Hunting — 30
Damping — — 32
Stability* — 35

CHAPTER II
Method of Proceedure

Name Plate Data 37
Connection. Diagram 38a
General 39
Static Test — 59
Resistance Measurements — 40
Determination of Losses —— 4O
Saturation Curves —— 41
Test For Shaft Current 42
Synchronous Impedance — 42
Phase Characteristics 43
Load - Voltage Curves of Generators 45
Static Torque 45
Running Torque * 44
Pull - Out Torque — — 44
Starting Tests — 45

ii

 

 

.— ‘
W
R
._ _.-.m A._A. 7 h , .—r. ._, , , , . .._._--. fi
-_.. , H._ . _- . - A - . ‘
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"-_-‘_. 7 , r , .1 -7. A ..._+ 1- , . __———.—
u
. ._.- ._ .-...._. . __ - _ -. .-

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Page
Wave term —— _ 45
Hunting and Damping _ —- 45
CHAPTER III
Data and Results

Static Test 46
Resistance Measurements 47
Retardation Curves —* 50
Saturation Curves 1 62
Test for Shaft Current — 63
Synchronous Impedance 63
Phase Characteristics 4— 64
Efficiency of Synchronous Motor 73
Load - Voltage Curves of Generators 73
Static Torque 74

Circle Diagram of Synchronous Motor Operat—
ing as an Induction motor — 74
Running forque — — 75
Pull- Out. Torque — 76
Starting Tests — — 76

CHAPTER IV
Graphs

Retardation Curves of Synchronous motor ----- 78

Retardation Curves of Generator No. 4507242 -

81

 

__.

 

 

 

 

 

 

 

 

Retardation Curves of Generator Ho. 4507246-—-Pa§§
Saturation and Synchronous Impedance Curves

of Synchronous Motor 89
Saturation Curves of Generator no. 4507242 —- 9O
Saturation Uurve of Generator no. 4507246 —-- 91
Phase Characteristics of Synchronous motor -- 92
Efficiency Curve of Synchronous Motor ---—---— 93
Load - Voltage Curves of Gennrators 94
Circle Diagram of Dynchronous motor Operating

as an Induction motor — 95
Oscillograms of Synchronous “otor 95a
Bibliography 96

iv

.._—

 

 

 

a!
6.

e"

H

LIST OF SYMBOLS

Impressed voltage.

Counter-voltage generated by motor.

Resultant voltage.

Power component cf the impressed voltage.

Wattless component of the impressed voltage.

Power component of the counter-voltage..

Wattless component of the counter—voltage.

Armature current.

Power component of the armature current.

wattless component of the armature current.

Mechanical power output of motor.

Effective resistance of armature.

Synchronous reactance of motor.

Synchronous impedance of the motor.

Angle between armature current and impressed
voltage.

Angle between armature current and resultant
voltage.

Angle between impressed voltage and counter-

voltage (reversed).

 

PREFACE

There has been a desire to have a separate
source of Direct Current Power Supply in the Electrical
Laboratories at Michigan State College which would be
independent of the College Power Plant D.C. Supply.
This was accomplished recently by the installation of
the‘westinghouse Synchronous Motorheenerator Set.

This test was the first to be made on the H96
Set after installation in the Alternating Current Lab-
oratory) and was performed with the vies of obtaining
its operating characteristics. The test as performed
included not only the operating characteristics of the
set, but also data to determine theoretical characterh
istics of the Synchronous Motor.

Throughout this test we have received excellent
co—operation from the members of the Electrical ‘Enginr
eering Faculty and from;Mr. F. Mitche11.and Hr. Thomp-
son of the Michigan State College Power'Plant; for
this we wish to express our sincere thanks.

INTRODUCTION

The purpose of this test has been to obtain
data for both practical and theoretical performance, and
to supply experimental material which would be valuable
to the department and to classes in Electrical Engineer-
ing. ,

Through out this experiment, care has been
exercised to obtain accurate results as faraas practicable.
The measurements, in all cases, were taken by the use of
suitable meters and transformers. The meters were calibr—
ated after each test. Transformers were introduced in
the high tension line in order to measure the power input
by the instruments available and also to offer greater
protection to those working around the instruments and
machines. In this test thn transformers were not cali-
brated because the calibration curves of these transfor-
mers showed but a slight variation in phase angle - less
than five seconds.

lll.instrument transformer cases and secondar-
ies, motor frames, control switches, and water barrel
rheostats were grounded. This was done to give protect-
ion to those reading instruments or working with the
apparatus. The water-barrel rheostats used were made of
metal and after experiencing several I'pokes" it was

decided to ground the barrels to the water main.

 

When the meters were installed on the panels I
the field discharge resistance was lacking. An impro-
~vised resistance, consisting of a 220 volt 60 watt bulb,
was used but which exploded when the motor was started
and an arc-over occurred in the compensator. After this
experience it was decided to insert a resistance box
with a rating of 1000 watts at 220 volts. This was found
to work satisfactorily.

The power factor meter furnished would not Oper—
ate to measure the power factor in the three phase system
because it was a single phase meter and thus it does not
measure the phase current and voltage. It was necessary to
reverse the leads on the ammeters of the direct current'
generators, because, although the voltmeters would read
in the same direction, the ammeters would read correctly
when power was supplied to the machines but read back-
wards when power was supplied by the machines. It was
also necessary to take apart and readjust the circuit
breaker on the 125 volt machine before it would function
properly.

The synchronous motor bearing on the end to—
ward the 250 volt generator was found to run hot throughs
out the test without apparent cause. The synchronous
motor was started by means of a compensator. This was
used inr all cases when starting the motor instead of

trying to synchronize the machine with the supply line.

When starting, the motor drew a very heavy current in
comparison with its name plate rating which amounted
to about five and one-half times rated current at full
load.

When running some of the tests certain pec-
uliar phenomena occurred. This was expecially notice-
able during the retardation runs and at certain times
in the night which occurred generally in the form of

static discharges or apparent grounds.

 

WEE I

THEORY OF THE SYNCHRONOUS MOTOR

CHAPTER 1.

THEORY OF THE SYNCHRONOUS MOTOR

PRINCIPLE

The term *synchronous' means in unison, that
is, in step. A synchronous motor then,may be defined
as one which rotates in unison or in step with the
phase of the alternating current which Operates it.

A coil of wire if carrying current and placed
in a magnetic field will tend to turn about an axis per-
pendicular to the field. This principle may be applied
in the form of a motor to produce useful work. If such

a coil is placed in a magnetic field as shown in Fig. 1

 

Diagram of an elementary motor.

and current allowed to flow through it, it can be seen
by the left hand motor rule that the coil tends to turn
in a clockwise direction. ‘When the coil has reached

the position as shown in Fig. 2, the coil would tend to

turn counter—clockwise by use of the same motor rule.

If the current in the coil was reversed just

 

Diagram of an elementary motor

as the coil passes through its vertical or neutral
position, the turning moment of the coil would al-
ways be in the same direction and thus the coil would
continue to rotate.

This may be done by supplying the coil with
alternating current and if the rotation of the coil
keeps in synchronism with the current, the motor thus
constructed will be a synchronous motor. Since action
and reaction are always equal and apposite, it makes
no difference whether the field or the armature
revolves. On large machines it is generally found that
the alternating current circuit is the stator and the
field the rotor of the motr. Direct current is used
for the field excitation.

A synchronous motor is in principle simply
a reversed alternator. Instead of receiving mechanical
energy and changing it to electrical energy, it receives
electrical energy at synchronous speed and delivers
mechanical energy. Synchronous motors are constructed

as single and polyphase machines. This discussion will

treat only the poly-phase motor.

The condition necessary for synchronous motor
Operation is that the motor be Speeded up until it
rotates in synchronism, that is, in step with the alter-
nator that supplies the power to run the motor. This
means that the motor must run at the same frequency as
the alternator but not necessary at the same speed.
The speed of the motor is governed by the number of
poles of the motor and the frequency of the power supply.

'The principles upon which such motors Operate
may be eXplained by considering the action of an alterb
nator and a synchronous motor connected in a circuit.
Suppose that the motor is at rest when it is connected
to the circuit with the alternator. The alternating
current will flow through the armature of the motor and
produce a reaction upon the field which.would tend to
rotate the rotor firSt in one direction then in the
other. Because of the rapid reversal in direction Of
the torque thus set up, the time is not sufficient to
allow the torque produced to overcome the inertia of
the rotor, before a torque is produced in the Opposite
direction due to the reversal of the current. Hence
the rotor remains stationary or, strictly speaking,
vibrates. Thus, if the motor is first brought up to
synchronism with the supply power and then connected
in the circuit, the motor will continue to Operate

because the field flux and the armature flux are '

always in the same relative position which produces a
torque pulling the rotor around in the same direction.
The motor under test was started as an ind-
uction motor by means of an auxiliary squirrel cage
winding on the rotor. Reduced voltage was applied
to the stator through a compensator and when the mach-
ine had reached approximately synchronous Speed, the
field switch was closed on the direct current circuit
which broughtthe machine into synchronism after which
full voltage was applied to the stator. When the
field switch is closed, the magnetic flux already set
up in the fields by the armature reaction may be in
the wrong direction in which case the rotor must fall-
back the distance of the polar pitch before the regular
field flux can produce forward Operating torque.
Synchronous machines as compared to asynchronous mas
chines run at a constant Speed regardless Of the load
until such a load has been reached that the over-load
capacity of the machine has been exceeded at which
time the motor falls Out of step and stOps.

A synchronous motor has the important ad-
vantage that its power factor is adjustable and it
can be made to take a leading or lagging current by
varying the field excitation; its leading current
can be used to offset the lagging current taken by

induction motors thus improving the power factor .

 

 

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Synchronous motors are sometimes installed solely for

this purpose.

SYNCHBONOUS IMPEDANCE”

Synchronous impedance may be defined as the
ratio of the voltage that would be develOped at a.
certain excitation, if the machine were run as a gen—
erator at synchronous speed without current in the
armature, to the current that would flow through the
armature at the same excitation when it is short-cir-
cuited. The synchronous impedance of thetarmature is
composed of two components, i.e. effective resistance
and synchronous reactance. Synchronous reactance ine
cludes reactance dun tO induction and the effect of
armature reaction in strengthening or weakening the
field. These two effects are so similar that they
are generally considered as one.

In The vector diagrams that are to follow the
motor generated.voltages are those that would be gen-
erated if the armature reactions were absent. To
compensate for this assumption the synchronous imp—
edance of the armature, which includes the effect of
reactions, has been used instead of the ordinary imp-
edance which consists only of true Ohmic resistance
and inductive reactance. The synchronous impedance
has been considered constant with the variation of

excitation, but in reality the field reactions and

lO. .

the true reactance of the armature vary with the space
position Of the armature coils in reference to the
field magnets and time phase of the current as well as
upon the reluctance of the leakage magnetic circuit,

so there is some error in assuming the synchronous imp-
edance to be constant. Thus it is evident that the
synchronous impedance is less for very high values of
excitation thanffor’low values, since the magnetic cir—
cuits are more highly saturated and a given armature
magneto-motive force has less effect upon the field

flux than for low values of excitation.

VECTOR. DIAGRAMS

I The complete action of a synchronous motor
can be explained analytically by means of vector dia-
grams. Let E represent the impressed voltage, E'
the counter voltage generated by the motor, and E'
the resultant voltage that causes current to flow
through the machine. Then E? equals E 1+ E' and
the armature current I- E'lz , where z is the
synchronous impedance. The current I lags behind
E' by an angle e whose tangent is x/r where x
is the synchronous reactance and r is the effective
resistance of the armature circuit.

In Fig. 3(a), suppose the motor is thrown

on the line at a time when E' and E are exactly

Opposite in phase. E' is then a minimum since,

 

\/

11.

then it is the arithmetical difference between E

and E'; the current I that flows is zero or so

 

(a) underbexcited (b) under-excited (c) over-excited
Fig. 3 Electromotive force diagram for a synchronous

motor; three typical cases.

small.and generally will not produce enough power to
maintain rotation of the motor. The rotor tends to slow
down, but as the rotor drOps back in its running position
3' draps back in phase, thus increasing E', I, and
the power. A balance is reached at some point as d ,

when the power developed is just sufficient to meet the

demand. The diagrams in Fig. 3 show three typical

12.

cases where I lags behind, falls between, and pre—
ceeds E and E' prolonged.

The value of E' depends upon the excitat-
ion of the motor. If the excitation of the motor is
changed the resultant voltage and the synchronous
current ,I, change in phase position and in magnit-

udes, but the motor still runs in synchronism.

 

Fig. 4. The locus of the counter—voltage of a
Synchronous motor.

The above Fig. 4 shows the locus of the

15.

counter-voltage in the synchronous motor when the
current and the impressed voltage and current re-
main constant. The current vector is made the ref—
erence vectors For changes in load the impressed
voltage and counter-voltage vary in phase position
and for any given excitation of the motor, the locus
of the counter-voltage is a circle as shown above,
with its center at R. The current I, is constant
and also the resultant voltage E“, is constant if
the synchronous impedance is assumed constant. The
latter assumption is not exact because of the effect
of saturation in the magnetic circuit with differllt
excitations, as well as the effect of changes of
power factor of the motor, but the assumption is suff;
iciently accurate for this explanation and test.

In order to have the resultant voltage E'
constant, the locus of the counter-voltage E' is a
circle and must have its center at R. and radius
equal to E. This can be seen readily from the geo-

metrical construction.

GDRBENT LOCI
Since the loci of the counter-voltage E' is

a circle, the resultant voltage E”, is also a circle
because it is the vectorial sum of a circle and a con-
stant; likewise the loci of the current will be a cir-

cle since it is equal to the resultant voltage ,E',

14.

(whose locus is a circle) divided by the synchronous

impedance. The center C is on.the line 00 making

 

Fig. 5 Synchronous motor diagram; the solid part of'
each circle is the operating range.
an angle e with E (cosine e = r/z); the length oc
is equal to 1V2, the radius GB; is Efi/z . For
different excitations the current loci consist; of con-
centric circles with different radii determined by thei
relation CH 3 DC B-E' 1 E - The current locus passes
through 0 when E' = E . When the motor is underfi
excited the radius is less than 00 and when over-

excited the radius is greater than 06.

15.'

Fig. 6 is an eXpansion of Fig. 5 showdng

the current loci for a number of different excitations.

H (3
C: O
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7 at 2500 Volts

I‘-"
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5:
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a)

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a

Power Common
C)

Power input in R

;_LJ.L_Ll_LJ_l_LJ_i
— —4® -30 -20 --10 O 10 BL go do 50 do 70 80 9O
Wattless Component of Current

Fig. 6

 

Fig. 6 Current loci for various motor excitations.

OI is the input current to the motor; OP is the
power component of the current; OP/OI is the power
factor = cosine ¢ . OP x 03 = I cos fl E equals
input watts; IiE cos ¢ —»Losses := Output watts.
Efficiency =— Output watts / Input watts . 06
is the shcrt-circuit current at full speed without

excitation; CHI OC = motor E.m.F./ supply E.M.F. =

percent of excitation; OH is the minimum possible

armature current .

CIRCULAR CURRENT LOAD LOCI

To determine the current that is required
at a given power factor to supply a certain load, P,
a.locus of current for constant power may be deter-

mined from the above current loci.

 

Fig. 7 Diagram showing current loci in a synchronous
motor fcr constant power output when the im-
pressed voltage is constant.

17.

Thus in Fig. 7 let OE be the direction

of the impressed voltage (which is made the reference
vectnrl. Assume that the rotor is delivering a cart-
ain output P including core and friction losses,
then the input is

(I) EIcos¢= P+ I2r
where E is the impressed voltage, I the current flow-
ing, and ¢ the angle of lag between the current and
impreSsed voltage. From this

(2) 12 .. E Ircosg = .. 13/;-
then completing the square
(3)12-Ecos¢I/r +{ E2 cgszfl 3% 32 cossfi_£

 

 

r. , - r2 1‘
therefore .
2 2 1
a. E cos i: l E cos .. L a
(4) I §.—7F___Qc ( a -—-;zr-*1! I? )

DETERMINATION OF THE RADIUS

From the above equation it is seen that there
are two values of armature current for each value of
cos fl except one, and also that the currents are num-
erically equal but Opposite in algebraic signs for
equal positive and negative values of cos ¢ .

From the equation for I it can be seen that
the current 1' is equal to E/r when P and {6 are
zero. The current is then in.phase with the voltage,

thus following Ohm's La w, ‘making the loss entirely Izr.

flu-

 

. -
I l
,
p
\
. .
-

 

18

This could only occur when the core losses and frict-
ion losses are supplied from external sources, and the
rotor has taken such a position that the resultant volt—
age produces a current in phase with the inpressed volt-
age. This occurrs when the counter-voltage is at right-
angles to the current. ¥his current, E/r, is laid off
as 0A in Pig. 7 . .
Take any value of current I for a given

power P‘ and for any angle O and assume I lags E
by an angle ¢ as drawn. Then draw the perpendicular-
DKi from a point ,D midway between 0 and A and
connect. the point D and I. The length on = tit/r
equals } 0A and by construction

(.5)'0K == it (II/r) cos 91

(5), DR: % (E/r) sin 25 s§%.( 1 -. case 50)
also (7) K1; = OI - OK = I -. a ( E/r) cos ¢

i

by construction
2 2 2
(8) (HI) = (DK) + (KI)
Substituting the values DK and KI and using the value

fer current from equation (4) , then

(9) (DI)2 - kit-E. m )2 + :l (n cos ¢)/r
2 l
i(iE2——:%3-—2 -P/r)‘a -%( E cos$?1)/r]2
which reduces to

(10) (me = t Ez/r-z — P/r

or
(11) DI: ED: '1'- ( i E2/r2 ---P/r)‘k

Hence so long as the power P is constant, the locus
of the current I will be a circle whose radius is
equal to DI with its center D at a distance equal
to % E/r from the origin 0. For different tallies of
power- P the loci of the current are concentric cir-

cles.with D as a center.

THE V“ AND O CURVES

The power factor of a synchronous moter is
unity when the armature current is a minimum for a
constant mechanical output. By varying the field axe
citation of the moter the power factor may be varied
with corresponding change in the armature clrrent.

The V‘ curves show the relation between fieki excit—
ation and the armature current at a constant load and
are usually plotted with field current as abscissa and
armature current as ordinates, or sometimes plotted
with excitation in counter-volts as abscissa instead cf
field amperes. This constitutes the experimental meth—
od of determining the phase characteristics.

The V’ curves can be determined graphically
as shown in Fig. 8. Find the intersections of the
current locus, for a definite load, with the different
field excitation loci. Plot on the graph the distances
from the origin O to the intersections as ordinates
against the corresponding field excitations as abscissa

thus obtaining the ‘V curves shown which are known as

the complete ‘V curves er 0 curves. The heavy
part of the curve is called the V’ curve and may

be determined eXperimnntally.

 

Heavy circles are current 'A ‘iY
A

i

9%.
J
4

3
loci for constant load. E

v
, 't‘: ‘
Jetted circles are current loci b

C.)

\
for given excitation. 23‘
. U
M

'1', r3 '0
fl 0 C) ’-

Q.

r 0 KW

30?

Fig. 8 Circular current loci; V curves and 0 curves.

 

21.

ANALYTICAL DETERMINATION OF’THE PHASE CHARACTERISTICS

 

Fig. 8a Vector Diagram of voltages and current

Let E = impressed voltage on the motor.

E' = the voltage consumed by the counter-volt-
age of the motor.

Iz = drop or net loop voltage.

line current .

P4
M

(12) z r + J x = the complete impedance of a

phase loop.

(13) I = i + 30

(14) E= e -j e'

(15) E' = e“ — j e'H

ThenwE =E' +Iz = e"+ir-.1(e'n - ix)
Therefore (17) e = e' + ir and e' = e'” - ix

"he motor power is P = e'i or e" = P/i

22.

(13) E: (62 + 6'2 )% and E' = ( 6'2 + 6"2)%
Eliminating e, e', e', e", and solving for

i in the power equation

(19) E=, (e2 + e'g)1hr at [(P/i)2 + (e‘H + ix) 2].}

"9999-

 

i E2}: -12r +E2-2Pr +21}: {fig—apr-ier-‘(P/ifij

After squaring twice and transposing and collecting

terms

(20) 14.. NEW (xz-rzficr 2+x2) (sag-49:3]
(x72 + r )K

+ [3'2 + 2Pr -E2)2 + 4 P222] = 0

Which reduces to
(21) i4 ~312+c=o
Hence by solving the quadratic equation of the second
de res:
g A t

1 =+ 31:4?-
——_2‘

 

 

MAXIMUM OPERATING CONDITION

It cgn easily be seen from Fig. 9 that as
the mechanical output increases the circle of the curr-
ent locus decreases in size. Hence for maximum power

output the circle of the current locus has contracted

.—
._ I
v
, _
. n
. 4
v‘
'.
a

.._..k

———.—.

a.

q..-

-

 

h-

23.

to a point D. The maximum current then. is repres—
ented by CD. Under this condition one—half of the
power input is used up on Izr loss, and the other
half in producing mechanical power, since P/r = {Eg/rz
and hence I ==i~ E/r. The efficiency is thus fifty
percent or less. If an arc is constructed with its
origin at O and radius equal to OD, the intersect-
ion of this arc with the loci at various constant mech-
anical leamgives the maximum at which the motor will

Operate.

3-4
0
+3
9
O
E4
+3
:3
C4
2
H

Power Output

Power

Leading Lagging
Quadrature Component of Current

Condensive ‘Inductive
Reactive Power of Motor

Fig._9’

 

Fig. 9 Current for various mechanical power outputs.

 

MAXIMUM AND MINIMUM MOTOR MITATION FOR FIXED MOTOR
POWER AND FIXED mPRESSED VOLTAGE

 

Fig. 10 Vector diagram.

(22) E a e + 30

(25) E' = e' + ,j e'

(24) I = i + 31'

(25) E' = E'-E=e'-;]e'-e

(26) I ‘= E'/'z = (e'- je' - e)/(r + 3x)

_. (re' -re ;xe*)+ ige -xe' -re")

142+}:—2

(27) = 1 + 31'

The powerin any circuit is equal to the sum of the
products of the real and imaginary parts. of the volt-
age and current in respect to their order.
(28) P =e' i + e'i'
after clearing fractions:
(29) P= rE'z - e (r e' +xec)#
r2 + x2
The numerator of the expression for motor

power of equation (29) for the condition of a fixed

 

25.

motor power, must be constant. From construction

 

 

(50) e' = (3'2 --e'2 )%

Substituting in equation (29)

(31) P = I'E'2 *(ra' +X-V E'? _ 6'? )
r2‘+ x2

The differential of P with reSpect to 6'

will be zero since the motor power is constant.

 

 

 

 

 

Differentiating:
E! .1]; _. e!
(32) d? = 2rEidE' — er -ex de‘ 1: 0
de' de' . 1(Er3 ‘_ efi?
Clearing fractions and solving for dE’
de'
- xe'
(53) dE' := a r " ( Etz _.eiz)% _ O
33' ex E'
2rE' -
( E.2 - 6'2 )‘k

l
(34) Hence 6 [r - xt¢/( E'2 — 8'2 )2] = O

Transposing and squaring:

(35) r2 E'2 - r2 6'2 = x? e'2

Solving for e'

(:55) e' = (r E') / ( r2 + x2) ..... rE' / 22

Substituting the value of e' and a? in equation (31)

“(37)' P22‘= rE'z “erzE'/Z - ex(E'2 -r2E'2/z2 )%
=5 I‘E'2 .. ezEt
From which

(3e)Ev.=g_(eiv4Pr+ as)
2r

 

26.

But since E

e + 30
(59)E'= 3-?(Et-J4Pr+l?)

 

CO

The maximum possible motor excitation comes
when the meter power P' equals zero, then the max~
imum excitation
(40) E' = Ez/r

The minimum excitation is zero.

MAXIMUM MOTOR POWER WITH FIXED EXCITATION, IMPRESSED
VOLTAGE,EQUIVALENT~RESISTANCE,AND SYNCHRONOUS IMPED-
ANCE

The motor power must be negative and there—
fore, since the first term of equation (29) is.con-
stant, the second must be negative in order to have
maximum motor power. (re' + xe') must be a maximum

to have maximum motor power.

Then:
(41) __..(d re' + xe') = r + 1: de" = 0
d3. d3!
(42) E'2 =: e'2 ‘+ e’2 = a constant.
(43) dE' = 2e' + 2 e' de' = 0
de' de'

Combining equations (41) and (42) and (45)

(44) d (re'+xe') ar-xe' = 0
de’ gar

(45) Therefore r/x a e'/e"

27.

That is, the maximum power(motor) will occur when E'
lags behind E by an angle equal to tan-l’x/r .

Substituting the value of e' from equation (45):

(46) Maximum P = £332 " “it”; rev/r1
Z

= rE'3/z2 -ee'/r
But E = 9+ 30, therefore '

(47) Maximum P = rye/22. - E e'/r

And E'2 = e'2 +e"2

And from equation (45) e‘ a e? x/r

2 2 2

(48) Therefcrre at - e'2 x [r2

at E!
Or: 3' :- E' r/z
Substituting this value of‘ e' in equation (47)
(49) Maximum power = 302 r/zz .. mgr/z

From equation (49) it follows that a syn-
chronous meter with the excitation voltage greater
than the impressed voltage cannot Operate unless it
has reactance. If the reactance is zero equation (49)

becomes

(50) Maximum P = E'Z/r - EE'/r
For any value of E' greater than E, P will be

positive and will represent generator action.

IAXINUM POSSIBLE MOTOR EXCITATION WITH.FIXED IMPRESSED
VOLTAGE AND FIXED RESISTANCE AND REICTAIGE

P must be negative in order to have the

28..

machine run as a.motor. The limiting value of E'

will be that value which makes P zero.

(51) Maximum P = mgr/22 -EE'/z = 0

Therefore

(52) E'2 r = E E' or E' = E z/r
Z2 3

This equation shows that the maximum possible motor
voltage is equal to the impressed voltage multiplied
by the ratio of the synchronous impedance to the

equivalent resistance.

MAXIMUM MOTOR ACTIVITY WITH FIXED IMPRESSED VOLTAGE
AND FIXED REACTANCE AND RESISTANCE

Substituting E== e +>jO in equation (51)
and differentiating with respect to E' :

(53) % = ‘g'fifi E’zr/ZZ-E'B/Z) = 0
Therefore
(54) 23' r/22 = e/z or

(55) n' - ez/2r = Ez/2r

The maximum motor power, therefore, occurrs
when the motor voltage is one-half of its maximum
possible value. Substituting the value of E' from
equation (55) in equation (51) , the maximum motor
power then becomes :
(56) Maximum P - -E2 /4r

Equation (56) gives the maximum motor power possible.

n
, a
‘ -
' . t ' . f
. . ‘ . \ v
.
\ ( A q
.
m
b ‘ F. . . '
_1 d .
1 .
C ~ ‘
e ’ u r
e / ‘ I
I ' V
— a.
«P. . - >
‘ .
. w

29.

OPERATING CONDITIONS OF A SYNCHROHOUS MOTOR

For the following discussion refer to Fig.5.
If H remains constant and E' is increased by in-
creasing the field, the current I will move up to a
leading position. If the excitation of the motor (E')
is held constant but let B increase by putting a
load on the motcr, then as B increases, E" will
also increase and follow a circle as a locus. The
current I will also increase and depend upon B
and shift to more lagging behind E . For a general
case let E and E' be unequal; taking E as the
reference vector let:
(57) E" = E + E'

=E -E'( cosB —,j sinB)

=E—E'cosB + ,j E' sinB

= e + j e'

Let the impedance of the 100p circuit be

2 = r + jx which includes the resistance and reactan—
ce. of the line and the machines.
(58) I =- E'lz = (u -E'cos a +3 E'sin B)/(r + jx)

a l [Er -E'r cos B +E'sin B +

I? .j(-E + E'x cos B + E'r sin 3)]

a i + ,j i?
Let P 8 motor power, than
(59) P = (E' sin B)i - (E'cos B) i'
From equation (57)

eaE rE'cosB and e'=E'sinB

Then
(60) P = liié-(e'r sinB -exsin B -er cos B -e'x cos B)
2

Substituting the values for r = 2: cos 9 and
x= 2: sin 0 :

(61) P=.§_'.(E‘cos_0 -E' cos(9—B))

By differentiating P with respect to B,
the maximum power is found for P when E = 9.
Substituting B = e in the equation (61)
(52) P.=_E_'.(E'cose —E)

HUNTING

Synchronous motors are subject to vibratory
irregularities called hunting which are due to the fact
that they depend upon a synchronizing current to hold
them in step. The explanation of hunting can best be

shown from a vector diagram as in Fig. 11 .

 

Fig. 11 Vector diagram showing the effects of hunting.

E is the impressed voltage and is considered

31.

constant both in magnitude and phase position; E' is
the counter-voltage and is constant in magnitude but
not in phase position; E‘ is the resultant voltage
causing the current I in the armature and varies
both in magnitude and phase position. I also varies
in magnitude and phase position.

Now let the load on the motor be reduced to
a lower vaiue where the normal conditions would be
represented by the voltage parallelogram EOE'E"
and the current vector OI. However, these condit—
ions would not be satisfiedet-Ildiately because the
speed of the rota: must increase slightly in order
to.reach this new position. Then, due to the inertia
of the rotor, it would be carried on past the correct
Operating position so that the counter- voltage would
' take the position as shown by the vector OE'l .
This,of course, will change the resultant voltage to
GEfi which has moved forward in phase position. The
voltage E‘1 will cause the current to take the new
position as shown at (DI'. Since the current has
become less, the component of the current opposed to
the counter—voltage is smaller and the resisting
moment ofthe'load~ being greater than the magnetic
torque between the rotcr and stator, the extra mo-

mentum is absorbed in the mechanical load and the

VII

 

.
a
,
v
4
.
. . a
. ..‘ *
. .
V
a -
.v
_ . . a
‘
, I —
. . . *
I a e. u \. O
.
'
4 . .
.
, ft
' .
. a
O\ . , .
A g
a . A
..
.. .
a
, .
- i a
. 4
I .

32.

speed is reduced to normal again. But the resisting
moment of the load is still too great and the rotor
must fall back in phase position. “To accomplish this
it must momentarily slow down in speed below synchron~
one. When the normal space-phase position has been
reached the speed of the rotor is below normal and it
drOps back still farther,for instance,to the position
CE’Z. The current also increases to 01' as the

rotor falls back and the magnetic torque is greater
than the resisting moment of the load. The rotor again
tends to speed up above synchronous speed. The vibra—
tions described above may last for several cycles but
finally die out due to the frictional, magnetic, and
electrical losses whichuabsorb some of the excess energy

of the pendulum action of the rotor.

DAMPING

Hunting may be prevented to a certain extent
by damping or by increasing the mass of the rotor with
a fly-wheel. Damping may be accomplished by using a
shortcircuited, low resistance winding on the field '
structure. These are sometimes called Amortisseur
windings or dampers andare placed in the pole faces of
the rotor. When hunting occurs, currents are induced
in the.Amortisseur winding which according to Lenz's
Law oppose the flux producing them. Eddy currents and

33.

hysteresis losses are also produced in the pole faces
which help slightly in the damping action. The induc—
ed currents in the damper oppose any change in the ang—
ular velocity of the rotor. For the most effective
damping, the dampers should have as low resistance as
possible but if this winding is to be used for start—
ing the motor the resistance which gives the best damp-

ing may be too low to give the best starting torque.

STABILITY
Refering to equation (49) the

(65) Maximum P = (rE'2)/(r2+x2-) - EE‘lCrZ. + :2);
If we assume r, E, E' fixed; then to obtain the
value of x. that will give the maximum power differ—
entiate equation (65) with respect to x and equate
the derivative to zero.
(64) dp = ~2XI‘E'2 ii + fi(r2+ x2 j} 2 x M! =0

3; (r2+x2)2 (r§+x2 )2
Then
(55) - 2 er'2 + (r2 + x2 )ir xEE' = 0

Solving for x2

(66) x2 = r2 4 13""a - E2
E2

If E and E' are equal, then to give the
maximum motor power

(67) x = r (5)% or x/r = (5)13E

Then from equation (67) the tan B = x/r = (5)T15 and
therefore this corresponds to a differencl in phase
between the impressed and excitation voltages of 60°.
Breakdown will occur at this value of phase displaceen
ment. The counter-voltage will generally be equal to
or greater than the impressed voltage as synchronous
motors are used at unity or leading power factor.
Therefore the ratio x/r should be equal to or great-
er than l.752 to obtain maximum motor power. For max-
imum stability, the change in power developed should be
a maximum for a given change in phase. In other words

'gg; should be a maximum . Referring to equation (29)
dB

(68) P:= rE'z — e(gre' + x5”)

 

 

r2 '+ x2
rE'z —»EE‘( r 903 B + x sin B)
r2 + 1:2

Then differentiating, this expression becomes
(69) g; = EE' (rsinB -xcosB)
dB

r2 + x2
I%%_ is sometimes called the stability factor.
It can be seen from equation (69) that the stability
factor is directly proportional to E', the excitation
voltage. A synchronous mota: when over-excited is,
therefore, more stable than one when Operating under—
excited. When tan B = x/r the motor developes max-

imum power. Then substituting the correSponding values

54.

55.

fer sin B and cos B in equation (69) , dP becomes
zero as it should. When tan B is greateraghan x/r ,
d? is positive , and according to our notation (since
motor power is negative) it represents a decrease in
motor power. Therefore when tan B exceeds x/r the
motor will fall out of step.

To =make the stability factor a maximum, the

relative magnitude of x and r can be found by equatd

 

ing the derivative; of dP with respect to . x to
zero.
(70) %( ad“? = EB. 2x2cos s -_(r2+x2)cos B ~2xr sin a
x ( r2 ‘+ x2 )2
= O

¥hen simplifying
(71) :2 cos B -’r2 cos B — 2xr sin B = 0

Hence

+ iv

(72) x/r := tan B —» ( l‘+ tang B)
Since x can never be negative, the minus
sign before the radical ( l-+tan2 B)% has no mean-
ing. If the value of tan B in equation (72) is
greater than or equal to x/r the condition of
Operation is unstable. For maximum stability the ratio
of x/r is unity when 8:: O , but this condition can
never be obtained because at no load E' must fall
back enough to compensate for the losses in the motor.
As B increases, the ratio x/r. also increases for

the condition of maximum stability.'

Hun—H. .-

\‘
u-k—o
\.

 

 

The damper windings will affect these cond-
itions slightly making the ratio x/r greater than

that derived above.

56.

CHAPTER II

METHOD OF PROCEEDURE

37

CHAPTER II
NAME PLATE DATA

5-5. *9? PM .
. f; t I}, My} L
3" “11“:-

i : I of. ‘ -\ , ' \" .
‘t , O I ' 7-
. ( , \ g
,\ a I “' Q "’,- ' ._\' (It: ' ‘ I ‘ _

 
    

 

 

Synchronous Motor-Generator Set I — 4

Westinghouse Synchronous Motor
No. 4507244

50 Horse Power 1200 R.P.M.

2200 Volts Excivting Amperes = 17
I4 Amperes hciting Volts = 125
80 $ Power Factor 100 9% Load

:5" Phase 24 Hours Continuous

60 Cycle 40° c. Temperature “ise.

Westinghouse

Compound Wound
lb Kilowatts
125 Volts

120 Amperes

Westinghouse

Compound Wound
20 Kilowatts
250 VOlts

50 Amperes

37a

Direct Current Generator

No. 4507242

1200 RoPoiflo
100 % Load
24 Hours Continuous

40° 0. Temperature Rise

Direct Current Generator

No. 4507246

1200 R.P.m.
100 % Loan
24 Hours Continuous

40° C. Temperature Rise.

 

 

 

 

 

 

—..—

 

 

Panels of Motor-Generator Set 11-4 Meter Connections

 

Swain 53358 .3 .3.—

 

 

 

 

-
e
on)

 

 

_ _4 _f ___l__..

aw mm

 

(Si
u
nddns

 

 

 

 

 

 

 

 

 

59.

METHOD OF PROCEEDURE

GENERAL

Before proceeding with any tests that requir-
ed the Operation Of the machines, particular care was
taken to see that the bearings were properly oiled and
that the oil rings were functioning; also all meters
were set at the zero reading and after the test was
completed the meters were calibrated. A multiplier
was used in conjunction with the potentiometer for cel-
ibrating the voltmeters and a standard shunt in conjunct—
ion with the potentiometer for calibrating the ammetors.
All.measurements of power were taken by means of the
twoawattmeter method.

A speed counter was made from a small Direct
Current fan motor driven as a generator with separate
excitation. It was driven from the coupling on the
shaft of the M—G set by a small.belt. A voltmeter was
connected across the armature terminals and calibrated

by a precision tachometer to read in R.P.H.

STATIC TEST

The insulation of the three machines I83
first tested by means of a megger. The test consist—
ed of measuring the approximate resistance betweena
separate parts of the machine and between different

parts of the machine and ground. Measurements were

 

/“\

made from ground or slip rings, one end of field, one
end of stator, other machines, conduit, one end of in—
terpole winding, one end of shunt field winding, one

end of series field winding, all segments on armature,

and between commutator segments.

RESISTANCE MEASUREMENTS

The resistances of the different field wind—
ings and armature were found for the generators. Like-
wise measurements were made for the terminal resistance
of the stator windings and field winding of the synchron—
ous metoraf These measurements were determined by the
voltmeter-ammeter method in all cases, the voltmeter
measured the drOp over the resistance only. The res-
istance of the voltmeter used was determined by the use
of the‘Wheatstone Bridge and standard resistances.
When the resistance measurements were made on the wind—
ings that had considerable inductance, the voltmeter
leads were disconnected before the current was inter—

rupted.

DETERMINATION OF LOSSES

Losses were determined by the retardation
method. The machine under test was run until the bear—
ings were warmed sufficiently to make frictional losses
constant. The generators were mechanically disconnect~

ed from the motor. Each generator was tested under the

41.

following conditions, i.e. the machine was brought up
to rated speed as a motor and the power input recorded.
Then it was speeded up above rating about one hundred
R.P.w. at which time the power was shut off, the brush?
es raised immediately, and the armature allowed to come
to rest. During this coasting period the instantaneous
R.P.M. was recorded at equal short intervals of time.
.The above was repeated with brushes down and no field
current; also with brushes down and with different
values of field current.

To find the corresponding losses in the syn~
chronous motor, it was driven by one of the generators
Operating as a motor. Tests were run on the synchron-
ous motor for the same conditions as those used for the
generators. The input to the driving motor at the rat—
ed R.P.M. was recorded in all cases, a constant value
of field current was used on the driving motor. By
knowing the losses and input of the driving motor, the
losses in the synchronous motor could be determined.

For determining the efficiency of each mach~
ine the equation ( Input — Losses) / (Input) was used.
The losses.were those determined as abOve in addition

to the Izr losses of the machines.

SATURATION CURVES
The other generator was connected to the syn-
chronous motor mechanically. The saturation curve of

the synchronous motor was determined by driving it as

an alternator at the rated speed, by reading terminal
volts at different values of field current and record—
ing both. The field was demagnetized before running
this test. Saturation curves were determined for the

generators in a like manner.

TEST FOR SHAFT CURRENT

A high reading ammeter was connected with
one end grounded to the frame and the other end hear-
ing on the shaft through low resistance leads. If

no current was noticed a smaller ammeter was used.

SYTICI—IRONOUS IMPEDAi-JC E

The armature was shorted through suitable
ammeters, first including the current transformers
and second with the transformers cut out. The mach—
ine was driven at normal speed and sufficient fiehi
current applied to produce a good reading on the am-
‘ meters. Several readings were taken; for values.of
armature current from taro to 150 % of rating.
Atténtion was given to balancing of the phases at.
the same time. The synchronous impedance curve was
plotted with field current as abscissa and armature

current as ordinates.

42.

43.:

PHASE CHARACTERISTICS

Different mechanical loads were applied
to the motor by loading the generators. V‘ curves
were taken for several different loads on the motor.
The excitation.was varied, for a definite load, from
a very low value to approximately 160 % rated value.
The armature current and field current were recorded
for each variation. The wattmeter and voltage read—
ings were also recorded. To determine the power
factor, the ratio of the wattmeter readings was taken.
V" curves were plotted with field current as abscissa

and armature current as ordinates.

LOAD VOLTAGE CURVES OF GENERATORS

Water barrel rheostats were used to load the
generators. The generators were loaded by increments
and readings of voltage and current taken at each incre-
ment. This was done at the same time that the V curves
were obtained. Plotting load currentzit abscissa and
terminal voltage as ordinates, the load voltage curves

were determined.

STATIC TORQUE

in iron bar was fastened rigidly to the coup—
ling on the shaft between the machines. This was used
as a lever arm and a set of scales used to determine

the pOunds pressure exerted by the lever arm. The tare

.
i i
. .
,.
a I ‘
. .
o
O . -
e
. o
n t \-

x . ‘ . _

44.

was set permantly on the scales. For the various
reduced voltages applied, readings of volts, line
amperes, watts, and scale pounds were taken. By
plotting the data obtained on logarithmic paper
and the curve extrapolated for the starting volt—
age, the starting torque may be determined provided
the function is a straight line. Another method is
to construct the circle diagram correSponding to an
induction motor from which approximate results may

be obtained.

RUNNING TORQUE
The running torque was determined for the
various loads by using equation.

(73) T':= 2;04 'Watts in: pound-feet.
. ROPOM.

Output watts are used in the above equation.

PULL - OUT TORQUE

The pull out torque was determined by load—
ing the generators to approximately three times
rated full load. At the instant of pull—out, readings
of watts, voltages, line amperes, and field amperes of
the motor were taken. The pull-out torque may be

determined from equation (73).

45.

STARTING TESTS

The center of one pole on the roto r was
aligned with the center of the frame. Then, two-
thirds of the distance between pole centers was div;
ided into five equal parts., On each one of these
divisions the center—line of the marked pole was
placed and the motor started under reduced voltage
in each of the five positions. Readings were taken
of volts, line amperes, and watts on the. A40. side.
The power was shut off as soon as the machine started.

CAUTION: Enough time was allowed between

 

readings so as not to over-heat the madhine and the

current left on only long enough to obtain a reading.

WAVE FORM
The wave form of the voltage and current
of the motor for all conditions from starting to run—

ning inclusive, were taken by means of the oscillograph.

HUNTING AND DAMPING

For sudden changes of laid within the rating
of the motor no effects of hunting were noticed. It
might be concluded from this that the damping was very

effBCtiVee

CHAPTER III

DATA AND RESULTS

 

46.

CHAPTER III

DATA AND RESULTS
Static Test

Evershed.Megger Test Set No. 120661
500 volts, 1000 Negohms.

Synchronous Motor No. 4507244

From A To Megohms
Ground on frame Slip rings 1000 +

' - One end of field Infinity —

' One end of stator 1000

' Other generators 0

' Conduit 0

D.C. Generator No. 4507242

From To Megohms
Ground on frame One end of Interpole
field winding 1000
w One end of shunt
field winding Infinity—
. One end of seried
. field winding Infinity-
. Armature 900

e Commutator segments 900

47.

D.C. Generator No. 4507246

From To Megohms
Ground on frame One end of Inter—
pole field 900
' One end of shunt
field Infinity-
' One end of series
field Infinity-
' Armature 900
’ Commutator segments 900

RESISTANCE MEASUREMENTS

Synchronous Motor No. 4507244

Phase E I R. Average R
17.5 4.59 5.82
I. 50.8 8.05 5.74 5.79
45.6 11.41 V5.81
17.15 4.59 5.74
2. 51.75 8.05 5.95 5.85
45.6 11.41 5.81
17.6 4.59 5.82
5. 50.7 8.05 5.74 5.81
44.2 11.5 5.88
Average R of the three phases = 5.81 ohms

48.

D.C. Generator No. 4507242

Part E I R Av. Ii
152.9 2.84 45.5
65.2 1.40 45.7
Shunt
75.6 1.60 47.1 45 ohms
field
64.2 1.40 45.5
45.5 .96 45.4
( E in 46.5 8.65 .00524
millivolts)
‘40. 7.58 .00528
Series
field in- 55.9 6.56 .00555 .00526 ohms
eluding
shunt, 25.9 5.07 .00530
19.1 5.70 .00515
.054 5.71 .00916
.046 5.07 .00910
Interpole .00908 ohms
field. .057 6.59 .00898
.068 7.59 .00909
1.50 2.66 .496
Armature
+ BrUSheso 1.64 4004 0‘11 e415 Ohms
1.80 5.54 .559
.294 5.45 .0541
.417* 7.75 .0540
Armature. .220 4.04 .0545 .0541 ohms
.154 2.66 .0579
.550 6.59 .0502

49

D.C. Generator No. 4507246

Part E I R Av. ii
114.2 .81 141.

Shunt

field. 116.8 .84 159.5 158.9 ohms
150.1 .96 156.2
.055 5.64 . .00967
Series .048 5.04 .00958

field -+ .00956 ohms

Shunt. .060 6.35 000952
.071 7.50 .00948
.022 1.57 .0157

Interpole .042 2.66 .0158 .0155 ohms

field.

.056 5.60 .0154
1.80 5.58 .5055

Armature

+ Brushes 1.40 2.60 .5500 .5670 ohms
0.80 1.56 .5960
.080 1.55 .0601

Armature 18 ' 2 60 0694 0648 hm

only 0 O o e e 0 3

.250 5.55 .0648

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RETARDATION CURVES

Synchronous Rotor No. 4507244
The following data contains the windage, bearing
friction, brush friction, and eddy current losses of
D.C. Generator No. 4507242 in addition to the head-

ing losdes of the test.

Windage of Syn. motor Windage-+ Brush Friction
Time in Him. R.P.N.. Time inMim. R.P.M.
0.0 1564 0.0 1545

.05 1281
.05 1281
.10 1218
.1 1255
.15 1155
.15 1158
.20 1090
.2 1090
.25 1047
.25 1051
.50 990
.5 985
.55 951
.55 927
.40 897
.4 855
.45 849
.45 820
.50 805
.5 770
.55 764
.55 727
.60 719
.6 685
.65 685
.65 642
' .70 650
.7 I10
.75 620
.75 578
.80 578

.8 555

The following data consists d the afore-
mentioned losses of the D.C. Generator No. 4507242
and the windage, and brush friction of the synchron-
ous motor, and the eddy current losses due to the

current rating flowing in the field winding as des—

ignated.
Time in, Minutes

Field Current = .5 amp. Field Current== 1 amp
Time R.P.M. Time R.P.M.
0.0 1555 0.0 1545

.05 1281 .05 1290

.10 1250 .10 1240

.15 1175 .15 1175

.20 1111 .20 1111

.25 1062 .25 1058

.50 1005 .50 1005

.55 962 .55 962

.40 919 .40 915

.45 862 .45 855

.50 825 .50 815

.55 787 ' .55 770

.60 749 .60 758

.65 706‘ .65 706

.70 .665 .70 666
Input at 1200 R.P.N. Input at 1200 R.P.N.

= 2115 Watts = 2270 Watts

Field ”urrent = 5 amps Field Current -.= 5 amps

A

Time R.P.M. Time R.P.M.
0.0 1520 0.0 1526

.05 1260 .05 1260
.15 1185 I .1 1175
.20 1111 .15 1090
.25 1047‘ . .20 1025
.50 985 - .25 961
.55 940 .50 898
.40 876 .55 854
.45 815 .40 770
.50 770 .45 706
.55 717 .50 665
.60 674 .55 620
.65 641 .60 577
.70 588 .65 555
.75 556 .70 . 481

Input at 1200 R.P.N Input at 1200 R.P.M.

= 2510 Watts = 2756 Watts

55.

Field Current = 8 amps Field Gurrent == 10 amps
Time R.P.M. Time R.P.M.
0.0 1570 0.0 1568
.05 1281 .05 1281
.1 1174 .10 1165
.15 1068 .15 _ 1048
.20 990 .20 958
.25 908 .25 845
.50 854 . .50 749
.55 748 .55 665
.40 685 .40 598
.45 620 .45 515
.50 547 .50 449
.55 ‘ 492 .55 585
.60 428 .60 521
.65 574 .65 257
.70 552 .70 214
Input at 1200 R.P.M. Input at 1200 R.P.M.
= 5580 Watts = 5810 Watts
Field Current as 12 amps Eield Current = 14 amps
Time R.P.M. ~ Time R.P.M.
0.0 1547 0.0 1541
.05 1240 .05 1240
.10 1132 .10 1152

.15 1025 .15 1025

Field

Time
.20
.25

8

()1
()1

.40
.45
.50
.55
.60
.65
.70

Current = 12 amps
R.P.M.
919
815
727
657
545
492
406
542
278
214
171

Input at 1200 R.P.M.

= 4020 Watts.

Field Current = 16 amps

Time

0.0

.05
.10
.15
.20
.25
.50
.55
.40
.45

R.P.M.
1551
1220
1111
1005
897
802
717
620
559
471

Field Current = 14 amps

Time
.20
.25
.50
.55
.40
,45
.50
.55
.60
.65
.70

ROPOM.
919

812
727
642
577
492
428
364
299
246
192

Input at 1200 R.P.M.
= 4000 Watts

Field Current = 17 amps
Time

0

.0

.05
.10
.15
.20
.25
.50
.55
.40
.45

R.P.M.
1355

1219
1090
984
877
701
706
620
555
449

54.

 

Field Curremt== 16 amps.

Time
0.50
.55
.60
.65
Input at 1200 R
= 4110 Watts

Field Current = 18 amps

Time

0.0
.05
.10
.15
.20
.25
.50
.55
.40
.45
.50
.55
.60
.65

Input at 1200 R.P.M.

R.P.M.
406
342
278
214

OPOM.

R.P.M.
1550
1240
1150
1005
897
802
717
527
545
470
406
542
267
214

= 4175 Watts e

Field Current== 17 amps.

Time
.50
.55
.60
.65

Input

Time
0.0

.05
.10
.15
.20
.25
.30
.55
.40
.45
.50
.55
.60
.65

Input at 1200 R.P.M.

R.P.N.
585
521
257
192
at 1200 R.P.m.
4115'Watts

Field Current== 20 amps.

R.P.M.
1325

1196
1069
965
855
749
652
566
492
406
342
267
203
150

4420'Watt8

554

|
1

Direct Current Generator No. 4507242
In each test the time interval is in minutes.

Windage + Bearing Friction Windage + Bear. Fn5+ Brush

- Friction.

Time R.P.M. Time R.P.M.

0.0 1380 0.0 1355
.05 1317 .05 1189
.10 1250 .10 1061
.15 1168 .15 955
.20 1104 .20 ' 867
.25 1047 .25 764
.30 976 .30 680
.55 941 .5 595
.40 866 .40 516
.45 824 .45 465
.50 764. .50 382
.55 722 .55 310
.60 ‘680 .60 234
.65 638 .65 197
.70 603 .70 106
Field Current = 0 amps Field Current = 0 amps.

The following data includes the lossew
of Windage, Bearing friction, and Brush friction, in
addition to the loss incurred due to the field current

flowing and thus causing an? eddy current loss.

Field Current== 1.11 amps

Time

0.0
.05
110
.15
.20
.25
.50
.55
.40
.45
.50
.55

.60

R.P.M.
1380
1253
1103
986
850
740
616
499
403
255
191
85

0

Input at 1200 R.P.M.

421 Watts

Field Current =- 1.42 amps.

Time

0.0
.05
.10
.15
.20
.25

R.P.M.
1294
1146
998
828
701
569

Field Current = 1,22 amps.

Time

0.0
.05

.10
.15
.20
.25
.50
.55
.40
.45
.50
.55
.60

R.P.M.
1355

1189
1061
935
807
680
573
468
356
248
166
64
0

Input at 1200 R.P.M.

a 443 Watts.

Field Current = 1.65 amps.

Time

0.0
.05
.10
.15
.20
.25

R.P.M.
1294
1125
934
754
595
467

567

a .

56Hb-

Field Current = 1.42 amps- Field Current = 1.65 amps

Time R.P.n. Time R.P.E.
‘ .50 446 .50 546
.55 519 ' .55 217
.40 212 .40 85
.45 106 .45 0
Input at 1200 R.P.M. Input at 1200 R.P.M.
=- 495 Watts a 564 Watts

Field current = 1.75 amps. Field. gut-rent a 1.84amps.

Time . R.P.M. Time R.P.M.

0.0 1500 0.0 1580
.05 1150 .05 1168
.10 95s .10 977
.15 769 .15 786
.20 p 619 .20 648
.25 ' 458 .25 488
.50 557 .50 561
.55 192 .55 212
.40 77 ; .40 85
Input at 1200 R.P.M. ’ Input at 1200 R.P.m.

= 620 watts =- 650 Watts

57.

Field current - 1.94 amps Field Current = 2.05 amps

Time R.P.M. Time R.P.M.

0.0 1295 0.0 1559
.05 1082 .05 1147
.10 871 .10 956.
.15 702 .15 744
.20 552 ,20 574
.25 585 .25 404
.30 255 .30 255
.55 106 .5 128
Input at 1200 R.P.M. Input at 1200 R.P.M.

- 640 Watts - 690 Watts

Field “jurrent =- 2/161 amps

Time

~0.0
.05
.10
.15
.20
.25
.30
.35

R.P.M.
1520
1170
956
744
555
585
255
106

Input at 1200 R.P.M.

II 700 Watts

58.

DirectICurrent Generator No. 4507246

Time interval in minutes.

'Windage & Bearing Friction. Windage, Bear. friction
and Brush friction

Time R.P.m. Time R.P.N.
O .0 1342 0 .0 1300
.05 1283 .05 1163
.10 1225 .10 1000
.15 1162 .15 885

.20 1098 .20 776

.25 1028 .25 694

.30 959 .30 623

.35 928 .35 552

.40 865 ,40 474

.45 816 .45 408

.50 776 .59 347
Field.§urrent:= 0 amps. Field Current== 0 amps.

The following data will include the Windage,
Bearing and Brush friction losses as well as that loss

caused by eddy currents due to the field current as

stated.

FieldIVurrent== .48 amps Field gurrent:= .61 amps.
fine R.P.M. Time R.P.M.
0.0 1315 0.0 1305

.05 1205 .05 1204

Field 9nrrent== .48 amps Field Current== .61 amps
(s

Time
.10
.15
.20
.25
.30
.35
.40
.45
.50

Input at 1200 R.

= 592 Watts

Field Current = .7 amPs'.

Time

0.0
.05
.10
.15
.20
.25
~50
.35
.40
.45

.50

R.P.ll.

1110
959
867
775
675
583
490
408
343
P.M.

R.P.M.
1325
1192
1058

915

796
673
572
469
368
286
204

Time

.10
.15
.20
.25

.30'

.35
.40
.45
.50

R.P.M.
1120
960
853
735
633
551
449
368
298

Input at 1200 R.P.M.

=3 65397 Watts

Time
0.0

.05
.10
.15
.20
.25
.30
.35
.40
.45
.50

Field Current == .86 amps

R.P.M.
1300
1160
1020
878
756
634

531
429

337
225
153

59.

= 714e4 Watts

Field“ Gui-rent = .92 amps

~ Time

0.0
.05
.10
.15
.20
.25
.30
.35
.40
.45

2.9.11.
1550
1182
1020
877
755
615
490
588
286
200

Input at 1200 R.P:M.

= 900 Watts

Field Current== 1.29 amps

Time

0.0
.05
.10
.15
.20
.25

.50‘

R.P.M.
1308
1122
943
776
633
470
348

Input at 1200 R.P.M.

60.

= 800 Watts

Field Current== 1.05 amps

Time

0.0
.05
.10
.15
.20
.25
.30
.55
.50
.45

R.P.M.
1310

1162
1000
837
694
562
437
323
214
122

Input at 1200 R.P.M.

=:948'Watts

Field Current =_- 1.54 amps

Time

0.0
.05
.10
.15
.20
.25
.30

R.P.M.
1330
1122
925
735
572
429
286

field Current 2: 1.29 amps

Time R.P.M.
.55 245
.40 155

Input at 1200 RoPeMe
-- 1024 Watts

Field Current = 1.81 amIJs

Time R.P.M.

0.0 1550
.05 897
.10 694
.15 511
.20 547
125 225
.30 97
.35 0

Input at 1200 R.P.M.
it 1270 Watts

61.

F'ield Current = 1.54 amps

Time R.P.M.
_ .35 163
.40 61.3

Input at 1200 R.P.M.
=- 1180 Watts

Field Current = 2.06 amps

Time R.P.M.
o .o 1502
.05 1080
.10 857
.15 615
.20 428 _
.25 296
.50 145
.35 20 .4

Input at 1200 R.P.M.
a 1560 Watts

SATURATION CURVES"

Synchronous Motor No. 4507244

Field. Terminal Field Terminal
guarent Vglts Current Volts
2.8 824.4 14.0 2456
4.2 1176 16.05 2486
5.05 1402 16 .05 2492
6.25 1592 17 2588
7.0 1740 18.08 2626
8 .0 1910 19 .1 2672
9.0 2042 20.1 2720
10.1 2154 21.1 2750
11.0 2210 22 2566
12.0 . 2514 25 2786
13.0 2572 24 2794
Direct Current Generator No. 4507242

Field Terminal FieLd Terminal
Current Volts Current Volts

00 00.0 1.10 88

.226 18.5 1.25 97

.460 38 1.47 111

.552 46 1.595 120

.727 60 1.775 129

.829 67.5 2.00 139

.945 77 2 .24 149

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Direct Current Generator NO.

lield Terminal
Current Volts
0.00 000.0
.45 9 120
.529 155
.562 142
.617 152
.871 166

.75 182
.825 192

TEST FOR SHAFT CURRENT

I := 0

63

 

4507246
Field Terminal
Current Vblts

.87 202
.93 215
.98 224
'1.04 235
1.18 247.5
1.313 265
1.38 270
1.53 280
1.63 288

For this test no current was

found to flow between the shaft and the ground on

the frame of the motor.

SYN CHRON GUS IMPEDANCE

Synchronous Motor No. 4507244

Field Phase 1

Current Current
9.48 21
8.00 17.9
7.1 15.85

Phase 2

Current
21.8
18.8
16.6

Phase 5
Current

21.2
18.
16.

64.

 

Field Phase #1 Phase #2 Phase #5

Current Current Current Current

6 .2 15.9 14. 55 14
5.45 ~12.2 13.05 12.3

4.45 9.9.5 ‘ 11.15 10.1

3.5 8500 9.00 8.05

2.75 6.35 7.25 6.3

2.0 5.00 5.83 4.95

PHASE CHARACTERISTICS OF SYNCHRONOUS MOTOR
Synchronous Rotor No. 4507244
The following data has been obtained by

eXperinent, using the generators for a means of

obtaining a steady load.

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BFIICIENGY'OF SYNCHRONOUS MOTOR
Synchronous Motor No. 4507244

Input Input -»Losses' Efficiency
in.KW} in KW in Percent
5.8 2 34.5

15 11.5 75.5
21.8 18.3. 84

29.9 27;I 90.5
55.8 29.8 87.6
38.2 54.2 89.5
48.5 '44.3 91.8

Efficiency = $113111? - Losses
Input

 

Values above taken for unity power factor.

LOAD—VOLTAGE CURVES OF GENERATORS
Direct Current Generator No. 4507242
Field Current== 1.45 amps

E I latte E 1 Watts
119 o o 125 75 9500

125.5 16 2010 125 86 10740
124 29 5600 125 99 12570
125 46 5660 124 11g 15800
124 65.5 8125 120 124 14900

121! 158 16580

74

Direct Current Generator No. 4507246
Field Current 2 1.2i

x I Watts E I Watts
258 o 0 255 62 15800
256 17.5 4480 252 72 18120
258 29 .5 7620 251 84 21050
257 59 10020 248 98 24520
255 50 12750

STATIC TORQUE
Torque on Synchronous Motor No. 4507244

31 52 11 12 1:5 51 52 TorquI
(“10“) 1b c-ft 0

492.6 492.6 21.5 22 23.3 21.2 1. 22.5

554 554 25.6 24.7 26.2 24.6 1.6 55
605.4 605.4 25.8 27.1 29.5 50.4 5 51

Static torque taken with blocked rotor and
reduced voltage. Tare on scales== 45.5 lbs. Torque
measured with synchronous motor Operating as an induct-

ion motor with rotor blockeg.

CIRCLE DIAGRAM OE SYNCH‘RONOUS MMOR OPERATING AS AN
INDUCTION MOTOR
Motor running idle on starting position of

compensator.

75

E1 32 I1 I2 Is Win”) W2

1820 1800 15.5 15.5 15.4 18 —'1

By “ing the data from the Static Test
in conjunction with this given above,the circle—

diagram may be consturcted.

E = 1780 volts per phase

IO '3 15.5 amps

e = 65° 16' or 2.5-. - .45

Ibr = 78 amps ( Blocked Rotor current)

0 =55° 57'

Primary capper 1083 = (78)2 x 2.191 = 15,550 watts

Exciting Iatts at no load := 8000
Tetal loss at blocked rotor == 84,000 watts
Secondary copper loss = 62,650 '

Thus the starting torque =3 7.04 x 62g650
1200

368 1b. ft.

RUNNING TORQUE
Synchronous Motor No. 4507244
Torque derived fnnm the equation

T = 7004 X (watts)
Sync ROPQMO

l -1

76

Load in Watts Torque in lb.—ft.
2000 11.7
11,500 66.4
18,500 107.2
27,100 159
29,600 175.5
54,200 200
44,500 260

PULLFOUT TORQUE
Synchronhus Motor No. 4507244

field §urrent== 14.5 amps

‘ s

2000 2000 64 66 6o 98 57
2000 2000 64 56 50 98 57
Unity Power {actor

Pull-out torque == 908 1bs.-ft. (maximum

possible withoug consideration of losses).

SEARIING TESTS‘ ON' SYNCHRONOUS MOTOR

Conditions at starting compensator

Position E 90ndition
0 2540 Open lune voltage.
l.st 2250 Starter on starting position.
2 nd. 2540 Field put on (14.5 amps) with

auto on starting position.

77

Position E Condition

5 rd. 2560 Auto starter in running position,
no load on motor.

4 th. 2050 Supply line voltage when motor
pulled out of step due to loading.
Conditions at motor witn.Anto on starting

position ; (motor running as an induction motor)

E1 52 . 11 12 13 51 (Kw) 52
1780 1780 71 75 76 94 9.4

Starting tests with reduced voltage for the
different positions of the field poles.

Field
E1 E2 I1 12 13 'W1 (Kw) ‘52 ergent
500 550 24 25.5 21.5 10 l 5.4
500 520 23.4 24 21.5 10 2 3.4
450 550 20.4 21.2 20 7.4 1.6 3.06
480 440 20.1 21.6 20.5 8 1.2 3.1
500 440 20.5 21 22 8.1 1.2 3.12
520 460 21.5 20.5 22.5 9.8 1.4 5.22
. 440 480 21.5 20 19.5 9 1.8 5.05

Field shorted through 48.4 ohms resistance.

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BIBLIOGRAPHY

 

Alternating Currents -— .

Principles of Alternating Current Machines ~-
R. R. La‘l‘dTenCe

Alternating Currents and Alternating Current

 

Machinery —-——- D. U. & J.P. Jackson
Direct and Alternating Current Manual -
F. Bedell
Hawkins Electrical Guides No. 6 ————————— -—
Hawkins

 

Alternating Current Motors .
A. 30 ”2111111515631.

 

Synchronous motors and Converters —
A. E. Blondel

 

Electrical Engineering .
C. P. Steinmetz

 

Alternating Current Phenomena
C. P. Steinmetz

EXperimental Electrical Engineering Vol. I --
V} Karapetoff

ExPerimental Electrical Engineering V01. II -
V. Karapetoff

 

 

Principles of Electrical Engineering
Timbie & Bush

 

General Electric Test Book
General Electric Co.

‘! Illll’.

"fir“! um; Om v
RAJU.’€1 .‘n. 498.!

 

 

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