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I.L. 

41-911 

INSTALLATION 

• 

OPERATION 

• 

MAINTENANCE 

INSTRUCTIONS 

K-DAR  DIRECTIONAL  COMPARISON 

BLOCKING  SYSTEMS 

I NT RODUCT ION 

This  leaflet  describes  the  overall  functioning 

of  K-Dar  relays  when  used  in  conjunction  with  a 
blocking  channel  (power  line  carrier,  microwave  or 
pilot  wire). 

Detailed  description  of  operation, 

as  well  as  setting  and  maintenance  recommendations 
for  individual  relays  of  the  K-Dar  directional  com­

parison blockiug system are covered in  the individual 
relay  instruction  leaflets;  the  des.eription  here  is 
intemted  to  supplement  these  relay  instructions. 

A PPLIC AT ION 

Dir.ectional  comparison  blocking  is  employed  to 

eliminate  delayed  clearing  of  end-zone  line  faults; 
thus,  high  speed,  simultaneous  clearing  of  all  line 
faults  is  accomplished.  Protective  relays  energized 
with  current  and  potential  from  the  protected  line 
are  unable  to  trip  both  selectively  and  at high  speed 
for line faults near the  remote station.  By transmitting 

a  signal  from  the  remote  station  when  the  fault  is 

external  to  the  protected  line,  the  local  relays  are 

blocked  from  tripping. 

Without  this  additional 

means  of  intelligence,  local  relay  tripping  must  be 

delayed  for  internal  faults  near  the  remote  station, 

to  insure  against  undesired  tripping  when  the  fault 
is on an adjacent circuit near the remote station. 

This  system  can  be  utilized  with  minor  differ­

ences  with  either  on-off  or  frequency  shift  type  of 
operation  over  pilot  wire  tones,  microwave  or  power 
line  carrier  channels. 

Blocking  of  tripping  is  ef­

fected  by  either  keying  on  or  shifting  the  transmitter 
frequency. 

EQUIPMENT  COMPLEMENT 

K-Dar  is  the  designation  for  a  group  of  relays, 

which are  itemized below: 

Directional  Fault  Detecting  Relays 

1  -Type  KD  Directional  phase  tripping  unit, 

NEW  INFORMATION 

consisting  of: 

1  -Phase-to-phase  unit  (ZP-cfxh  which 

operates  for  all  three  combinations  of 

phase-to-phase  faults  anywhere  on  the 

protected  line. 

1  -Three-phase unit (ZP-3 ¢).which operates 

for  3  phase  faults  anywhere  on  the  pro­
tected  line. 

1  -Indicating  contactor  switch  (ICS). 

1  -Type  KD-1  Directional  Phase 

unit,  con­

sisting  of: 

1  - Phase-to-phase  unit  (Z&#).  set  to 

reach  in  the  reversed  direction  to  that 
of  ZP-¢4. 

1  - Three  phase  unit (Zs-3 ¢),  set  to  reach 

in  the reversed  direction  to  that of ZP-3 ¢. 

1  -Indicating  contactor  switch  (ICS). 

1  -Type  KRD  (or  KRC,  or  KRP,  or  KRQ)  Di­

rectional  ground 

unit,  consisting  of: 

1  -Directional  unit,  current  polarized  (D0c) 

1  -Directional  unit,  voltage  polarized  (D

0p) 

1  -Instantaneous  overcurrent  unit (10) 

1 -Indicating  contactor  switch  (ICS) 

Auxiliary  Relay 

Accessories 

1  -Type  KA  Carrier 

relay,  consisting 

of: 

1  -Receiver  relay unit  (RR).  with  a  holding 

coil,  RRH,  a  tripping  coil,  RRT.  and  two 
contacts,  RRG 

RRP 

1  -Phase  auxiliary  unit (CSP) 

1  - Ground auxiliary unit (CSG) 

EF FECT IVE  OCTOBER 

1959 

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Summary of Contents for KD

Page 1: ...his system can be utilized with minor differ ences with either on off or frequency shift type of operation over pilot wire tones microwave or power line carrier channels Blocking of tripping is ef fected by either keying on or shifting the transmitter frequency EQUIPMENT COMPLEMENT K Dar is the designation for a group of relays which are itemized below Directional Fault Detecting Relays 1 Type KD ...

Page 2: ... UNIT OF KA RELAY CURRENT POLARIZEO OIRECTIOMAL UNIT OF XRO RELAY VOLTAGE POLARIZEO OIRECTIONAL UNIT OF XRO RELAY INOICATING CONTACTOR SWITCH OF XO XRO RELAYS GROUNO OVERCURRENT TRIP UNIT OF XRO RELAY GROUMO START OVERCURRENT UNIT OF KA RELAY MILLIAMMETER OPERATION INOICATOR OF KA RELAY AUXILIARY UNIT OF XS RELAY REC 1VER RELAY UNIT CONTACTS OF XA RELAY HOLDING COIL OF RECEIVER RELAY UNIT OF KA RE...

Page 3: ...ws an optional time delay backup path through T3 contact which bypasses the RRP contact circuit T3 contact TX Z3 coil are from the TD 2 timing relay which is associ ated with an independent 2 zone distance backup circuit not shown Operation of ZP energizes TX Z3 coil which starts the timer If the fault either internai or external is not cleared by other means the breaker will be tripped after time...

Page 4: ...duces a receiver output at A which energizes the RRH coil to prevent RRP and RRG contacts from closing thus tripping is pre vented Conversely for an ihternal fault tripping units operate at both stations to energize CSP or CSG contacts to prevent transmission of a blocking signal another set of CSP CSG contacts energize t he RRT coil Since neither station receives a blocking signal both RRH coils ...

Page 5: ...OPEN OPEN GROUND Do CSG CSG ENERGIZES CLOSES CLOSES CSG Do CSG CSG ENERG I ZES CLOSES CLOSES CSG RRH COIL C3 R M RCVR FAUI T RRH ENERGIZED RRH DE ENERGIZED NOTE I FAULT RRH DE ENERGIZED RRH DE ENERGIZED FAULT RRH ENERGIZED RRH DENER GIZED FAULT RRH DE ENERGIZED RRH DE ENERGIZED TRIP CIRCUIT zp tOo I Iro R 2a c RRP RRG HELD OPEN BY RRH CURRENT RRP RRG HELD OPEN BY MAGNETIC BIAS NOHI TRIP THROUGH ZP...

Page 6: ...swing describes an arc which intersects the Z circle at point Q and ZP 3 circle at point OS P During an out of step condition the Z0s contact in figure 2 opens before ZP 3 contact closes OS 6 unit is energized and after 4 cycles an OS con tact opens the ZP 3 trip circuit All this occurs before the swing reaches point P in Fig 3 During a fault the ZP 3 contact closes almost at the same instant that...

Page 7: ...w w w E l e c t r i c a l P a r t M a n u a l s c o m ...

Page 8: ...WESTINGHOUSE ELECTRIC CORPORATION RELAY DEPARTMENT NEWARK N J Printed in U S A w w w E l e c t r i c a l P a r t M a n u a l s c o m ...

Page 9: ...line carrier channels Blocking of tripping is ef fected by either keying on or shifting the transmitter frequency These instructions contemplate the use of separate primary and back up relays in line with local back up philosophies Fig 4 shows the details of this arrangement This contrasts to the previous 3 zone system where the zone 2 phase distance units provided carrier tripping as well as back...

Page 10: ...ECTIONAL UNIT OF KRD RELAY ItS IRDICATIRG CONTACTOR SWITCH OF KO KRD RELAYS Io GROUND OVERCURREMT TRIP UIU T OF KRD RELAY los GROUND START OVERCURRENT UNIT OF KA RELAY MA M I LLIA14HETER 01 OPERATION INDICATOR OF KA RELAY OS AUXILIARY UNIT OF KS RELAY RRG RRP RECEIVER RELAY UNIT CONTACTS OF KA RELAY RRH HOLDING COIL OF RECEIVER RELAY URIT OF KA RELAY RRT TRIPPING COIL OF RECEIVER RELAY URIT OF KA ...

Page 11: ...A fig 1 also operate for faults on the adja cent system therefore the ZP contacts must be supervised by a contact which does not close during external faults This supervising contact is RRP in fig 2 For internal faults the RRP contact closes to permit one of the ZP contacts to energize the breaker trip coil 52 TC The trip path is from positive through ICS coil ZP or ZP 3 OS contacts 85 CO contact ...

Page 12: ...oil current holds the RRP and RRG contacts open RRT coil current closes the RRP and RRG contacts in the absence of RRH coil current Tliis is the key point which produces the comparison function the force pro duced by RRH current is stronger than the opposing force produced by RRT current so that the RRP and RRG contacts will be closed by RRT current only when no blocking signal is received In Fig ...

Page 13: ...OSES NOTE 2 CSG los Do CSG CSG BKQ B OPENS ENERGIZES CLOSES CLOSES NOTE 2 CSG RRH COIL J R M RCVR FAULT RRH ENERGIZED RRH DE ENERGIZED HlOTE I FAULT RRH DE ENERGIZED RRH DE ENERGIZED FAULT RRH ENERGIZED RRH DENER Gl ZED FAULT RRH DE ENERGIZED RRH DE ENERGIZED TRIP CIRCUIT zp Do I Ira c 2a c RRP RRG HELD OPEN BY RRH CURRENT RRP RRG HELD OPEN BY MAGNETIC BIAS NOTEI TRIP THROUGH ZP RRP TRIP THROUGH Z...

Page 14: ...00 2000 CCnHACT _3_ _4 S 6 7 8 hf c t r o X DENOTES CONTACT CI O EO I I I I I CJc I I SAME AS ZONE 1 ZONE 2 INTERNAL 5CHE IVIA TICS DEVICE NO DEVICE DWG t JO 43 RECL ON O F iOGoGLE SW DS41 f 9 85 CO C l R ON OFF S oo ITCH 85 P8 DEVICE No C A R TE T P SH BUTTON CAR D C SUPPL Y ON OFF TOUGLE SWITCH KR SLHT DEl UNIT 250VO TRESI TOR UNIT RELAY DS 41 GOO F 14 r C z c 1 C z oc Nc E t c i KD ZONE 2 KD PI...

Page 15: ...15 1 0 t 1 85Z co TIME DISTANCE PLOT 21 Z 21 J rz o j 21 S o r _ _ _ _ _ _ 1 _ _ _ _ _ _ _ I P CARRIER POS DJ t c J L C L II BA CK UPRELAYING 7NT iO i01 Th 1M n 10 2 RT 1X L l l 1 1 2 Th TM lCS _ q 3 ill w II RECLOSINC CIRCUIT Pos t 1 0 IOI SC sl co 79 16 79X T 19 f bb 0 TO CLOSING CKT 7 OR 60LN 52X NEG r 19M l 79Z 791 T 14 s o 791 ill 5 15 Fig 4 Detailed schematic of the K Dar 4 zone directional ...

Page 16: ...ult value ZLoad to the fault value represented by the line 0 F in Fig 3 When a swing or out of step condition occurs the imped ance seen by Z0s ZP changes gradually as the voltage decreases and the current increases In Fig 3 the swing describes an arc which intersects the Z0s circle at point Q and ZP 3 circle at point P During an out of step condition the Z0s contact in figure 2 opens before ZP 3 ...

Page 17: ...power line carrier channels Blocking of tripping is ef fected by either keying on or shifting the transmitter frequency These instructions contemplate the use of separate primary and back up relays in line witli local back up philosophies Fig 4 shows the details of this arrangement This contrasts to the previous 3 zone system where the zone 2 phase distance units provided carrier tripping as well ...

Page 18: ...C 85CO 290Bl54 ALARM UNIT OF KA 4 RELAY GROUND AUXILIARY UNIT OF U 4 RELA Y ASE AUXI LIARY UNIT OF KA 4 RELAY CURRENT POLARIZED 0IRECTI OMAL UN IT OF KRD 4 RELAY VOLTAGE POLARIZED DIRECTIONAL UNIT OF KR0 4 RELAY INDICATING CONTACTOR SWITCH Of KD4 KR0 4 RELAYS GROUND OVERCURREMT TRIP UNIT OF U0 4 RELAY GROUND START OVERCURRENT UNIT OF KA 4 RELAY Ml LLIANMETER OPERATION INDICATOR OF ICA 4RELAY AUXIL...

Page 19: ... 1 also operate for faults on the adja cent system therefore the ZP contacts must be supervised by a contact which does not close during external faults This supervising contact is RRP in fig 2 For internal faults the RRP contact closes to permit one of the ZP contacts to energize the breaker trip coil 5 2 TC The trip path is from positive through ICS coil ZP or ZP 3 OS contacts 85 CO contact 1 2 ...

Page 20: ...ontacts open RRT coil current closes the RRP and RRG contacts in the absence of RRH coil current Tliis is the key point which produces the comparison function the force pro duced by RRH current is stronger than the opposing force produced by RRT current so that the RRP and RRG contacts will be closed by RRT current only when no blocking signal is received In Fig 1 ZP or D0 I0 contacts close at bre...

Page 21: ...TE 2 CSG Do los CSG CSG BKA B OPENS ENERG I ZES CLOSES CLOSES NOTE 21 CSG R R H C O I L c r R M RC I R FAULT RRH ENERGI ZED RRH DE ENERGIZED NOTE I FAULT RRH DE ENERG IZED RRH DE ENERGIZED FAULT RRH ENERGIZED RRH DENER Gl ZED FAULT RRH DE ENERGIZED RRH DE ENERGIZED T R IP C I RCUIT zp I Do I Iro R c 2o c RRP RRG HELD OPEN BY RRH CURRENT RRP RRG HELD OPEN BY MAGNETIC BIAS NOTEI TRIP THROUGH ZP RRP ...

Page 22: ...DEVICE NO 21 1 2 s 6 T 67N 67NT t 67N1 61tH J L 7 84LH sox 5AME A S Z O N E I ZONE Z INTfRNAL I I S C EMATICS OEVte E C i QW OFF 10 5tr S CA ON OF SWITCH CAR TEST 1 If SI IET OFT UN r 250 v J 7 liE SISTO IJlQCIUNG DIODE ON I KO ii ON E 2 Kl PIL O T T R I P 0 4 N MG Ei B R FAIL IWX BKR FAIL AU KRD 4 K R P I R P SGR 12 A M T OX K0 3 CUR T DETE TOR DW5 NO S OifASJS t A s 1 8 4 A I s 62 A S I 1 29 A 7...

Page 23: ...ONN CTION TO lli OCK ONE 2 TRIPPING O U R N G OUT OF ST P CONDITION IF i ONE 2 I S BLOCKED uSE t L7EitNATF CONNFC110N 6 M P gto ZPI VG TMROU5H T 3 CHJ IN5 1Tt t CL0S N6 CIRCUIT POS _ r 0 1101 SC t Z O V 60 C P S sl as 6 co iO IJ 52 6 1 T J l 8 0 CCO S N J C J4 T 7 J 71M Nf6 __ _ __ _ __ _ _ t t7 9 X 3 546701 5 Fig 4 Detailed schematic of the K Dar 4 zone direc tional c omparison blocking system 7 ...

Page 24: ... sud denly from the prefault value Z Load to the fault value represented by the line 0 F in Fig 3 When a swing or out of step condition occurs the imped ance seen by Z 0s ZP changes gradually as the voltage decreases and the current increases In Fig 3 the swing describes an arc which intersects the Z 0s circle at point Q and ZP 3 circle at point P During an out of step condition the Z 0s contact i...

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