DDT
•
liED Measurements I Type DDT The type DDT relay is a medium or high bias-slope differential unit designed for protection of two winding power transformers over about 10 MVA rating against internal phase and earth faults. Basically the relay is an induction disc unit with a pair of bias or restraint coils (in addition to an operating coil) to prevent operation by external faults. Types ODT12 and DDT32 are single and triple pole versions respectively.
OPERATION The relay is connected in a Merz-Price con figuration to corresponding matched current transformers On either side of the protected trans former. The C.T. secondaries provide a through current in the relay restraint coils which produce a continuous torque on the disc in the contact opening direction. The differential of the C.T. secondary currents flows in the relay operating coil.
Under normal load conditions the C.T. secondary currents are equal and no current flows in the operating coil. If these currents become un equal due to a fault in the transformers. the resulting differential current energises the opera ting coil which produces a torque on the disc in the contact closing direction. The contacts close when the ratio of the differential current to the through current exceeds the slope of the relay operating characteristic determined by the turns ratio of the operating and restraint coils. The bias slope is chosen so that the relay is insensitive to unbalanced external lead burdens which normally give a lower ratio of differential current to through current than an internal fault. In addition a fairly high bias slope is required to prevent maloperation by C.T. differential currents arising from:
Type DDT12 relay
tolerable level (determined by the percentage bias). The mmimum operating current of the relay is determined by the tension of the disc control spring and can be adjusted by rotating a knurled moulded disc against a graduated scale.
CURRENT SETTING 40-100% (adjustable) of 0'5. 1·0 or 5·0 amps (C.T. secondary) 50 or 60 cis
(a) tap changing on transformers giving mis match of the CT:s.
PERCENTAGE BIAS
(b) different C.T. ratios and hence saturation levels giving differential currents under through fault conditions.
20%,30% or 40% (selected by taps) The percentaged bias is defined at the minimum . spill current current settmg (40"";) as ............................_ - X 100
through current
(c) magnetising inrush giving secondary currents in one set of C,T:s only. To prevent maloperation by magnetising inrush the relay function is delayed by a selected time until the initial current peaks have decayed to a
OPERATING TIME 0·10 second to 0·25 second (adjustable) at 5 times current setting (see characteristic)
,
BURDENS
1--,
Bias coil
I 20%
30%
-I
Opettlting cGi1
BUIden (C T ) 011 rated current
Burden (C.T,) at
current setting Current
I 02 VA I 0·3 VA -I 0 35 VA'
setting
50 c!s
60 c!s
40%
0·6 VA
0·7 VA
100%
37 VA
4,5 VA
;
04 VAl
,
"~i(;4"~,(}5VA~i
Operating Coil Impedance At the rated current, the operating coil impedance does not exceed 0'182 ohms and is 0·08 ohms at satu ration.
Current Transformer Knee-point Voltage The knee point is defined as the point on the magnetisation curve at which a 10% increase in excitation voltage produces a 50% increase in excitation current. The minimum knee- point voltage is calculated as follows: V,= 21, (R,+ R, or V, ~ (21
y3)
will make and carry 7500 VA for 3s with maxima af 30 A and 660 V a.C. or d.c.
CASES The relays afe supplied in drawout cases available for either flush or projecting mounting and finished in phenolic black. Standard relays are finished to BS.2011 :20/40/4 and are suitable for normal tropical use; relays for use in exceptionally severe environments can be finished to BS.2011 :20/50/56 at extra cost. The drawout case offers many advantages including ease of maintenance and testing, and is fitted with contacts which short circuit the associated current transformers on withdrawal of the unit. A filter is filled to equalise the pressu re inside and outside the case without admitting dust. MQ1(:ml.l11 Ovorall Dimonslons Relay
+
+
HOlght in'>
DDT12 (Singlo Pole,
R,) (star connected CT.'s)
I, [R, 3(H, R,)l (delta connected C.T:s) where [t = Maximum fault current (CT. secondary amps) H, = C.T. secondary resistance (ohms) R, Lead resistance between C,T.'s and relay (ohms) H, = Impedance of one half of relay bias winding (ohms) bias winding burden (VA) A (rated currentj'-"
Case
32
I
-!
W;dth
I mrr I ins
1D
9';' : 233 , 6ft I ,
3D (VerL)
201
524
i 6't
91
235
i
i
Dopth *
: mm
rum
i
i ins 170 I 71
'.7
I 170! 71
197
?cle)
3D (Horil,)
171 ' 454
I
11
0,1 and 0-3
0,2 and 2,0
06 am: 2·4
Col:
Il~SiSlilnCQ
in ohrrs
18 !l:"!d
9,2 and 2·1
22 fL,d
6·0 and 0"125 0·29 and C 031
22 92 92 and 188
Other coil ratings can be supplied for both types of auxiliary unit.
Contacts Two pairs of electrically separate normally open self or hand reset contacts are fitted and
i
Dimensioned drawings of case outlines, panel cut-outs and mounting details are available on requesl.
Standard Coil Ratings Voltage operated (shunt) auxiliary units are available with nominal ratings of 30, 110,125 or 220 volts d.c. Current operated (series) auxiliary units: )
197
"Add 3 ins (76 mM) for maximUM length of 2 SA termin
AUXILIARY UNITS AND OPERATION INDICATORS An auxiliary attracted armature unit with a hand reset operation indicator for either shunt ( seal in) or series seal in is fitted as standard.
r/I nLTlum oporatmg , 0'5 seco:,d c.1front currem I" amps latmg to amps (two l8Ps)
1
Operating characteristics (20% bias tap)
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4
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500
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40
12
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200
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4
2
THROUGH CURRENT (TIMES FUll LOAD)
, I
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6
8
10
.....
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12
j4
is
16
THROUGH CURRENT (lIMES fULL LOAD)
Operating characteristics (40% bias tap)
Ope/aling characteristics (30% bias tap)
'00 38 0
"
0
34 0
fS
8 ~
~
320 300
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OPERATING
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2
10
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Differential circuit impedance characteristic
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260
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:
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280
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CURRENT
TTT .-... ,
b H=
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,
FAULT
-f-
,
rl
til
I
1
to
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I 12
FAULT CURRENT (TIMES FULL LOAD)
••
f6
18
Time current characteristics at 30% bias, time multip!;er setting 1'0
INFORMATION REQUIRED WITH ORDER Relay type Current transformer secondary rating Frequency Trip circuit (series seal in or shunt reinforcing)
Trip circuit current (series seal in) Trip circuit voltage (shunt reinforcing) Operation indicator inscription if required Auxiliary contacts (hand or self reset) Case finish and mode of mounting
55
"
•
TRANSFORMER
CONFIGURATION
Dy 11
A
L
.........
B
.J
C
Jll
!
---- ......., !
L
( T1 T ~
r-fTTT'
(TITL,
i..{iTTi
ALARM
A
~
~
B
I
1.1
"'"' ..........
C
:....I"
-=..?
...
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..
TRIP
t 1~ , tJ
r ~i-: !J = tB ~7 ~ TO ~
~
5
-r
r r
rrlTL. ...frIT'
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6
~
II
~
r--
r--'>
~ ~ ~ ~ ~~ ~~ 11
13
14
IS
16
OP
OP
;q,
~ ~ 17
Q,
CT SHORTING CONT ACTS
~a ~9 I! ~O
liS
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r" 1
BIAS
Egc>
~
BIAS COilS
'--<
AUX
alAS
BIAS
BIAS
i
F
)-
\
~ '1
I
v
\.
...
v a PHASE
A PHASE
OPERATING COIL NOTE ALL THREE ELEMENTS ARE
THE SAME AND ONL Y ONE
IS SHOWN. ALARM AND TRIP CIRCUITS ARE PARALLELED"
UNIT
'------+--' , , '......J DISC UNIT
TYPJCJI appiicalion and internal circuit diagram of type DDT32 relay wilh series seal in
EARTHING ARRANGEMENTS Although not included in the diagram, it is assumed
that secondary C.T. andior V.T. circuits will be
earthed as necessary in compliance with standard
safety requirements and determined by the switch
gear contractor or user. If in doubt, please consult
GEC Measurementsfor advice.
Our policY is ono 0: continuous product development and the r:ght is reserved to SUGply equipmof't which rT'<')Y Vary slightly frwn that dcsuibed. -"'-~-"'-~-.--~
...
---.--~.,
GEe Measurements
..
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--
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--
The General Electric Company, p.l.c.. of England SI. Leonards Works Stafford ST17 4LX England Telephone: 07853251 Telex: 36240 Cables: Measurements Stafford Telex
Publication R·5116D ...
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...
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- 038320GSP Printed in England
