INSTRUCTIONS GEI-44070A PHASE-COMPARISON CARRIER-PILOT RELAYS TYPES EDDI2D AND EDDI2E A LOW VOLTAGE SWITCHGEAR DEPARTMENT GENERAL ELECTRIC PHILADELPHIA, PA. CONTENTS PAGE INTRODUCTION (SECTION A) 7 Al APPLICATION 7 A2 RATINGS 7 A3 Relay 7 A4 Target-Seal-In Unit 7 As Contacts 8 A6 A-C Test Source 8 A7 BURDENS 8 Ag Loads Imposed By Re ay 8 A 9 Relay Tripping Ranges and Settings 8 RECEIVING, HANDLING AND STORAGE (SECTION B) 9 DESCRIPTION (SECTION C) 9 C 1 RELAY TYPES 12 C2 CASE 12 C3 SEAL-IN UNIT 12 INSTALLATION (SECTION D) 12 DI LOCATION 12 D2 MOUNTING 12 03 CONNECTIONS 12 INSTALLATION TEST AND ADJUSTMENTS (SECTION E) 13 El D-C Polarity (Check) 13 £2 Target Tap (Set) 13 E3 Trip Circuit (Cheek) 13 E4 Alarm Circuit (Check) 13 E s Test Source Current e 13 E6 Type EDD12D Relay Panel Mounted 13 E7 Type EDD12E Relay Sub-panel Mounted) 16 Eg Phase-Fault Detector (Set FD-1 to FD-3) 16 Eg CT Connections (Check) 16 £10 Heater Adjustments, Network Unit (Set) 17 E 1 1 Heater Adjustments, Tripping Unit (Set) 17 £12 Power Amplifier Plate Current (Check) 17 EIS Signal Alarm and Comparer Plate Current (Se ) 17 £14 Signal Alarm Current (Check) 17 E ls Reserve Signal (Set). 17 E16 Phasing of Test Sources (Check) 20 El7 Phase Shifter (Set) 20 E18 Comparer Plate Current (Check) 20 Elg CT Phase and Polarity (Check) 20 E20 Phase-to-Phase Blocking Point (Set) (FD-L) 23 E21 Phase-to-Phase Trip Point (Set) (FD-H) 23 £22 Ground Current Pickup (Set) 23 E23 Output Voltage and Signal Strength (Record) 24 E24 Transient Blocking RB (Check) 24 E25 Ground-Current Pickup (Check) 25 £26 Network Balance (Check) 25 E27 Three-Phase Trip Point (Check) 25 E28 Three-Phase Load (Check) 29 OPERATING CONDITIONS (SECTION F) 29 Fl POWER SUPPLY 29 F2 TEMPERATURE 29 CONTENTS (Cont'd.) PAGE PRINCIPLES OF OPERATION (SECTION G) 29 29 G1 OPERATING PRINCIPLE 30 GG23 NETWNeOgRatKiv Ue-NPIhTa s e-Sequence Network 30 Positive-Phase-Sequence-Output for Three-Phase Faults 30 G4 30 G5 Output Filter 30 G6 Voltage Amplifier G7 Fault Detector - Low (FD-L) 30 G8 Fault Detector - High (FD-H) 31 31 G9 TRIPPING UNIT 31 G10 Power Amplifier 31 Gll CPhoamsep aSrheirf taenrd Tripping Re ay Element 31 G12 31 G13 External Fault 31 G14 Internal Fault Signal Alarm and Signal Alarm-Relay Element, SA 31 G15 Transient Blocking-Relay Element, RB 34 G16 34 G17 Seal-In Unit, SI 34 G18 D-C TEST EQUIPMENT 34 G19 A-C TEST EQUIPMENT 35 RELAY SETTING (SECTION H) 35 HI LIMITING CONDITIONS H2 Tapped Lines. . . . , . . . 35 35 H3 METHOD OF CALCULATION H4 Ground Current Tap Setting 3356 115 EXAMPLE OF CALCULATION 36 HH76 EExxpalmanpatlieosn. . , , . . , . , . . . 36 H8 TABULAR METHOD OF CALCULATION 41 FACTORY TEST AND ADJUSTMENTS (SECTION J) 43 43 II. NETWORK UNIT 43 72 Balancing the Network 43 13 Fault Detector - Low (FD-L) 14 NFaeutwlt oDrke tBecatloanr c-e H Cighehc (kF (D0- tHo )p Pickup) 4433 1156 Phase-Fault Detector Pickup (F01-3) 43 17 Fault Detector (FD-H) Three-Phase Pickup 44 44 18 Tube Replacement 44 19 Voltage Amplifier nIlOl TRIPSPigInNaGl A UlaNrmIT - . R. e. l.a y Elem.e n.t, S.A . . . ................... 4444 44 /12 FD-L and FD-II 44 T11143 TTrriapn-sRieenlat yB Elolecmkienngt ,R TeRlay Element, RB 44 44 115 PPorowceerd Aurme pfloifri eTre lephone Relay Adjustment 45 116 45 MAINTENANCE (SECTION K) 45 K1 PERIODIC TESTS 45 K2 Procedure for Test 45 K3 Check of Tripping 45 K4 Check of Blocking K5 Tubes. , . . . . , . 46 K6 CONTACT CLEANING . ......... . 45 RENEWAL PARTS (SECTION L) . . • ................ . . . 46 47 LI ELECTRICAL SPARE PARTS LIST 48 L2 REFERENCE COMPONENT VALUES 4 Mee Comparison Carrier Pilot Relay Type EDD DEI-44070 11111,WMANMIAIIIMIWIa - RESISTORS L R R-205, R-206, R-227 T-202 CRADLr 3 TAP BLOCK T-202 TEST JACK J-201 R-20I •49 7a 1 FD-H ADJ R-221 at SELECTOR SWITCH S.201 = C-204, C-203, C-202 FO-L AD') R-209, R-210 RESISTOR STRIP = C-201 M201 T-8 _ RS-201 R-222 R-223 ••••• R-208 R-207 R-202 R-224 L-203 • R-203 R-212 R 230 R-2I8 R 228 R-217 R-211 F0-I E=W F D-2 PJC F0-3 ARMATURE 1AI T- 201 INNER BLOCK liesr LATCH Fig, I network Unit Withdrawn From Case 5 GEI-44070 Phase Comparison Carrier Pilot Relay Type MD INNER BLOCK CRADLE SEAL-34 UNIT T- 203 TEST SWITCH j-202 SELECTOR PHASE r3TO r 0-206 CC- 221112 SH if TER C-207 C CONTROL C-2I0 R-253 V 205 204 v-204 v- 203 RESISTOR STRIP L-R R-244 R-233, R-234 R-256,RG-204 R-246 R-235 R-251, R- 252 R-232 R-239 MALE PLUG SA IRLUG-IN TELEPHONE pc__ UNIT1 RELAY UNITS R-236 LATCH Fig. 2 Tripping Unit Withdrawn From Case PHASE COMPARISON CARRIER PILOT RELAY TYPE EDD12D AND TYPE EDD12E INTRODUCTION (SECTION A, For three terminal lines, the addition of ground The Type EDD relay is a phase comparison re- excitation requires special consideration. lay designed primarily to provide instantaneous di ferential protection for transmission lines. COMBINED DIRECTIONAL AND PHASE COMPAR- The carrier current relaying system using this ISON RELAYING relay, is a differential system comparing the phase Provisions are incorporated in the phase-com- angles of the currents entering and leaving the pro- parison relay for its use with directional-comparison tected transmission line section. Comparison is relays. This application is for medium and Longer made by means of a carrier current channel. length lines, where distance-type relays may be used to advantage for phase relaying; while, because of APPLICATION A1 mutual induction with parallel lines, the phase-com- parison relay will be selected for ground faults. These relays ar e protective devices used t o close trip circuits whenever a predetermined value TELEMETERING-SUPERV1SORY CONTROL of internal fault current is reached on transmission As an auxiliary service the phase-comparison lines with up to35 decibels attenuation tothe carrier relay may be used for telemetering or supervisory current. control. Simultaneous tripping at all line terminals is Telemetering requires an instantaneous signal obtained when the values of the CT secondary cur- alarm (SA) unit as described in Section GIs. rents exceed those listed in Table IV. Refer to Sec- tion 03 to determine if tripping requirements are RATINGS A2 fulfilled. When back-up protection is required, supple- A3 Relay mentary distance an d directional ground relaying The ratings of the phase-comparison relay are must be added. given in Table I. TWO TERMINAL LINES A4 TARGET-SEAL-IN UNIT Protection is provided for, two-ended transmis- sion lines, with or without tapped loads, providing The 2-ampere tap has a d-c resistance of 0.13 the conditions described in Section Hi and H2 are ohms and a 60 cycle impedance of 0.53 ohms, while met. the 0.2 ampere tap has an 8.5 ohm d-c resistance and a 52 ohm 60 cycle impedance. The tap setting THREE TERMINAL LINES used on the seal-in element is determined by the current drawn by the trip coil. In some cases this relay may beused for three- ended lines. The Type EDD relay has two fault de- tectors to compensate for the possible two-to-one TABLE I ratio of fault current magnitude between the ends of a three-ended line. The necessity of setting the phase-overcurrent units abov e full-load current, PHASE COMPARISON RELAY RATINGS plus the two-to-one r at i o mentioned previously, raises the minimum tripping level. P ase current circuits, continuously 5A, 60 cycles GROUND CURRENT EXCITATION Phase current circuits, 1 sec 200A, 60 cycles Applications requiring ground current excita- Phase current circuits, max. ions f or ground faults on three-ended lines need RMS phase-to-phase 500A, 60 cycles special consideration. Ground current circuit, 1 sec 200A, 60 cycles The addition of ground current excitations for Ground current circuit, two terminal lines is required where the minimum max. R MS SOOX tap setting negative-phase-sequence current for internal ground D-c control circuit, continuously 129 (or 258) V. faults is less than 86 percent of the relay phaselo- D-c control circuit, max. phase trip setting. The method of calculating ground See Section F 140 or 280 current tap setting is described in Section 03. These instructions do not purport to cover all details or variations in equipment nor to provide for every possible contingency to be met in connection with installation, operation or maintenance. Should further information be desired sufficiently for the purchaser's purposes, the matter should or should particular problems arise which are not covered be referred to the General Electric Company. 7 GEI-44070 Phase Comparison Carrier Pilot Relay Type EDD As LOADS IMPCEED BY RELA Y The 0.2 ampere tap is for use with trip coils that operate on currents ranging from 0,2 to 2,0 am- The continuous load imposed by the re peres at the minimum control voltage. If this tap is the source (129 or 259 roils) is 0.9 amperes, used with trip coils requiring more than 2 amperes, there is a possibility that the 8,5 ohm resistance will NOTE: This 0.9 ampere does not include the reduce the current to so low a value that the breaker current drawn by the associated carrier'current will not be tripped. equipment. During tests and adjustments. the load imposed The 2 ampere tap should be used with trip coils on the a-c test source can vary f to 6,6 amps that take 2 amperes or more at minimum control at 115 volts, 60 cycles. The actual test value de- voltage, provided the tripping current does not ex- pends on the phase to phase trip setting. ceed 30 amperes total (two trip circuits) at the max- mal setting the test load would be 3,5 amps Par imum control voltage. If the tripping current ex- ended lines and 6.5 amps for three-ended lines, ceeds 30 amperes, an auxiliary relay should be used. The connections should be such that th e tripping Ag RELAY TRIPPENG RANGES AND SETTLNGS current does not pass through the contacts or coil Thetrippingsettings, except for phase-Da-ground of the target-seal-in element, tripping with ground-current excitation, are contin- uously adjust ab le within the limits specified in TABLE Table W. The relay is norrnallyset for values listed SEAL-IN ELEMENT RATING in the "FACTORY" column. AMPERES, AC OR DC TABLE IV FUNCTION 2-Amp Tap 0,2 Amp Tap 0 Ohm) (8.5 Ohm) Type Fault Current Transformer Seconda4 Amperes For Tripping' Crairprpyi nCgo Dntuitnyu ously 304 0.45 2 Terminal 3 To OperationObei a f (Factory Max. Mm.i A5 CONTACTS The current-closing rating of the contacts is 15 3 p trip amperes for each trip circuit or 30 amperes total, p FD, 4,0 for voltages not exceeding 250 volts. After tripping 0-0 Trip 2,0 occurs, the tripping circuit must be opened by an 0- 6 Trip I 4,0 auxiliary switch on the circuit breaker or by other 0.33- . automatic means as the relay contacts are sealed 0-6 Trip wi th 1,33 i closed when tripping current is flowing. Ground Excita- ion" A6 A-C TEST SOURCE Load "CT secondary amperes, with ingle-en The 15 second rating of the a-c test source is no grounding transformer on gar e side of relay as 6.5 amperes. the fault. BURDENS If settings beyond tho nnver in Table IV are The relay burdens are given in Table III. required, refer to the Gener nc Compimy, TABLE rn Phase-to-Phase Faults FAULT CT BURDEN-OHMS The trip settings are obtained by adju, rheostats FD-L (R209-R210 ganged)valid FD-H (R22 t Phase Fault Z R + j X as outlined in Sections E20 and En. FD-R is nor- Any CT 0.15 42 j 0.1 mally set 50 percent higher than FILL to provide a safety margin between blocking arid tripping. Ta p Z R + j X (Mult. by) GROUND FAULTS 2,0 0.23 /18, 0.22 + j 0.07 Three Phase Faults (Burden 0,67 0,33 /36 0.26 + j 0,20 The trip settings are obtained hpihgahofse es)t 11; 0.47 40 /44 0.29 + j 0,28 trhees ipshtoars eR f2a0u2l ta dndet FecFt-oHr sr hEeDos-tIa tt Ro 2F2L1 , correct operation, the r at i o between M- 0.33 0,52 /50 0,33 + j 0.40 END to FD-3 and ED-H must be kept 2 terminal lines and 3 to 8 for 3 terminal 0.23 0,74 /58 three phase trip setting will normally be abgrox mately 2,7 Oates the average phase-to-blase trip 0,17 1,18 /66 0.47 + 3 1.0 setting. Adjustments are described in Section „Ty, 8 Phase Comparison Carrier Pilot Relay Type EDD GEI-44070 Phase-to-Ground Faults setting. When gr ound excitation is required the • magnitude of K can vary from 0.17 to 0.67 (refer to Tripping settings are adjusted by the selection Section 115 - Par. 17). of taps on the ground current winding of transactor T202. The tap setting selected depends on the mag- Phase Shifter Range nitude of the negative sequence current available during internal ground faults as described in Section The phase-shifter settings are adjustable from H4. When ground-current excitation is not needed, 0 to 24 degrees. The extreme counterclockwise po- K = 2 (refer to Section H6 - Par. 11). The product of sition of the rheostat E3 is the zero degree set- K times 0-to-O trip setting equals the 1210-G trip ting. The switch clicks off in this position. RECEIVING, HANDLING AND STORAGE (SECTION B) These relays, when not included as a part of a packing the relay in order that none of the parts are control panel will be shipped in cartons designed to injured or the adjustments disturbed. protect them against damage. Immediately upon re- ceipt of a relay, examine it for any damage sustained If the relays are not to be installedimmediately, in transit. If injury or damage resulting from rough they should be stored in their original cartons in a handling is evident, file a damage claim at once with place that is free from moisture, dust and metallic the transportation company and promptly notify the chips. Foreign matter collected on the outside of nearest General Electric Apparatus Sales Office. the case may find its way inside when the cover is removed and cause trouble in the operation of the Reasonable care should be exercised in un- relay. CARRIER S A-C TEST SWITCHES TEST RESISTORS TEST TAP SWITCH INDICATING TEST --= A -C D-C 0-C TEST TELEPHONE TEST CORD LAMPS RHEOSTAT VOLTMETER MILLIAMMETER JACK JACK Fig. 3 EDD Equipment For Panel Mounting DESCRIPTION (SECTION C) The relay consists of a network unit, tripping elements identified as FD-L, FD-H, T, RB and SA. unit, two test s w it c hes (RTS and Ctrs), d-c test The d-c test equipment, Fig. 3 i s composed of a equipment, and a-c test equipment. The network d-c milliammeter and a telephone jack mounted with unit, Fig. 1, contains, in an L2 case, a negative- associated parts. The a-c test equipment, Fig. 3, phase-sequence network, three phase-overcurrent consists of two tapped resistors, a tap switch, rheo- relays, a v o It ag e amplifier, and fault detectors, stat, relay test switch, voltmeter, and an amber low (L) and high (H). A heater resistor (11231) is indicating lamp. Also included are a carrier test mounted externally. The tripping unit, Fig. 2, con- switch and a white indicating lamp. External resistor tains, in a special 14 case of 23 studs, a power am- 11231 is not shown in Fig. 3. plifier, RC phase shifter, and five telephone-relay 9 GEI-44070 Phase Comparison Carrier Pilot Relay Type EDD 11 12 ¶ 4 16 T- 203 R- 237 R- 247 R.2 R.2331 P. A C. 210 PHASE R- 251 C.213 C- 2Ic_ 21 L S-202 SiLINT RES I STOR SW; • FOR Itfl P24,4ETER IC C1RWITS Fig. 4 Internal Connections For Type Elk Relay (Tripping Unit) 10 Phase Comparison Carrier Pilot Relay Type EDD GEI-44070 11 13 15 17 19 Fig. 5 Internal Connections For Type EDD Rel ay (Network Unit) 11
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