Siemens 7SA511 manual

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199

Ir a la página of

Buen manual de instrucciones

Las leyes obligan al vendedor a entregarle al comprador, junto con el producto, el manual de instrucciones Siemens 7SA511. La falta del manual o facilitar información incorrecta al consumidor constituyen una base de reclamación por no estar de acuerdo el producto con el contrato. Según la ley, está permitido adjuntar un manual de otra forma que no sea en papel, lo cual últimamente es bastante común y los fabricantes nos facilitan un manual gráfico, su versión electrónica Siemens 7SA511 o vídeos de instrucciones para usuarios. La condición es que tenga una forma legible y entendible.

¿Qué es un manual de instrucciones?

El nombre proviene de la palabra latina “instructio”, es decir, ordenar. Por lo tanto, en un manual Siemens 7SA511 se puede encontrar la descripción de las etapas de actuación. El propósito de un manual es enseñar, facilitar el encendido o el uso de un dispositivo o la realización de acciones concretas. Un manual de instrucciones también es una fuente de información acerca de un objeto o un servicio, es una pista.

Desafortunadamente pocos usuarios destinan su tiempo a leer manuales Siemens 7SA511, sin embargo, un buen manual nos permite, no solo conocer una cantidad de funcionalidades adicionales del dispositivo comprado, sino también evitar la mayoría de fallos.

Entonces, ¿qué debe contener el manual de instrucciones perfecto?

Sobre todo, un manual de instrucciones Siemens 7SA511 debe contener:
- información acerca de las especificaciones técnicas del dispositivo Siemens 7SA511
- nombre de fabricante y año de fabricación del dispositivo Siemens 7SA511
- condiciones de uso, configuración y mantenimiento del dispositivo Siemens 7SA511
- marcas de seguridad y certificados que confirmen su concordancia con determinadas normativas

¿Por qué no leemos los manuales de instrucciones?

Normalmente es por la falta de tiempo y seguridad acerca de las funcionalidades determinadas de los dispositivos comprados. Desafortunadamente la conexión y el encendido de Siemens 7SA511 no es suficiente. El manual de instrucciones siempre contiene una serie de indicaciones acerca de determinadas funcionalidades, normas de seguridad, consejos de mantenimiento (incluso qué productos usar), fallos eventuales de Siemens 7SA511 y maneras de solucionar los problemas que puedan ocurrir durante su uso. Al final, en un manual se pueden encontrar los detalles de servicio técnico Siemens en caso de que las soluciones propuestas no hayan funcionado. Actualmente gozan de éxito manuales de instrucciones en forma de animaciones interesantes o vídeo manuales que llegan al usuario mucho mejor que en forma de un folleto. Este tipo de manual ayuda a que el usuario vea el vídeo entero sin saltarse las especificaciones y las descripciones técnicas complicadas de Siemens 7SA511, como se suele hacer teniendo una versión en papel.

¿Por qué vale la pena leer los manuales de instrucciones?

Sobre todo es en ellos donde encontraremos las respuestas acerca de la construcción, las posibilidades del dispositivo Siemens 7SA511, el uso de determinados accesorios y una serie de informaciones que permiten aprovechar completamente sus funciones y comodidades.

Tras una compra exitosa de un equipo o un dispositivo, vale la pena dedicar un momento para familiarizarse con cada parte del manual Siemens 7SA511. Actualmente se preparan y traducen con dedicación, para que no solo sean comprensibles para los usuarios, sino que también cumplan su función básica de información y ayuda.

Índice de manuales de instrucciones

  • Página 1

    7SA511 V2.2 Numerical Line Protection Relay Operator Manual Pow e r Blocked 1 2 3 4 5 6 7 8 9 0 1 2 3 4 1 1 1 1 1 Manual No. SG-8108-01[...]

  • Página 2

    [...]

  • Página 3

    7SA511 Line Protection Relay Table of Contents July 27, 1995 i Table of Contents User Guide Chapter 1 Introduction .......................................................................................... 1-1 Chapter 2 Product Description ................................................................ .............. 2- 1 Chapter 3 Acceptance Test[...]

  • Página 4

    7SA511 Line Protection Relay Table of Contents ii July 27, 1995 The information contained herein is general in nature and not intended for specific application purposes. It does not relieve the user of responsibility to use sound practices in application, installation, operation, and maintenance of the equipment purchased. Siemens reserves the righ[...]

  • Página 5

    7SA511 Line Protection Relay Chapter 1 July 27, 1995 1-1 Introduction Table of Contents 1. Introduction ................................................................................................ ........................ 1-3 1.1 Using This Manual ................................................................................................ .[...]

  • Página 6

    7SA511 Line Protection Relay Introduction July 27, 1995 1-2 This page intentionally blank[...]

  • Página 7

    7SA511 Line Protection Relay Chapter 1 July 27, 1995 1-3 1. Introduction 1.1 Using This Manual This operator’s manual is intended to provide you with all the information you need to install and operate the Siemens 7SA511 Numerical Line Protection Relay. In addition to describing the various tasks of operation, the manual offers general informatio[...]

  • Página 8

    7SA511 Line Protection Relay Introduction July 27, 1995 1-4 This manual assumes you are using the relay’s operator panel to program, maintain, and operate the relay. If you are using DIGSI ® software or some other application to control the relay, refer to the appropriate user guide when instructions in this manual are insufficient. 1.2 Glossary[...]

  • Página 9

    7SA511 Line Protection Relay Chapter 1 July 27, 1995 1-5 Terms annunciation 1. Activating the various relay outputs (LCD, LEDs, output relays) when events occurs. 2. Messages that appear on the operator panel LCD in the event log or target logs are also called annunciations . binary input A relay input terminal that responds to the presence or abse[...]

  • Página 10

    7SA511 Line Protection Relay Introduction July 27, 1995 1-6 Terms pickup Activation of a protection function either through detection of a fault or as a result of a binary input. The current and voltage levels or ratios that cause a protection element to pick up are called pickup values. reclaim time The no-fault time period following automatic rec[...]

  • Página 11

    7SA511 Line Protection Relay Chapter 1 July 27, 1995 1-7 Mou nting co nstr uction Fault detect ion option s Gr oun d faul t detec tion in put For ground ed systems, groun d current input for protected line only For ungr ou nded sy stems, wit hout paralle l line co mpensa tion For grounde d syste ms, gr ound cu rrent input f or parallel line co mpen[...]

  • Página 12

    7SA511 Line Protection Relay Introduction July 27, 1995 1-8 This page intentionally blank[...]

  • Página 13

    7SA511 Line Protection Relay Chapter 2 July 27, 1995 2-1 Product Description Table of Contents 2. Product Description ................................................................................................ ............ 2-3 2.1 About the Relay ................................................................................................ .[...]

  • Página 14

    7SA511 Line Protection Relay Product Description July 27, 1995 2-2 This page intentionally blank[...]

  • Página 15

    7SA511 Line Protection Relay Chapter 2 July 27, 1995 2-3 2. Product Description 2.1 About the Relay The 7SA511 line protection relay is a microprocessor-based relay designed to provide fast, reliable, and selective clearance of all kinds of ground and phase faults on overhead lines and cables being fed from one point or multiple points. The system [...]

  • Página 16

    7SA511 Line Protection Relay Product Description July 27, 1995 2-4 2.2 Relay Features Microprocessor-Based Technology Fully Numerical Design Five Distance Zones, Phase and Ground Polygonal Impedance Characteristic Selectable Forward, Reverse or Nondirectional Separate R-Setting for Phase and Ground Seven Independent Time Delays Fault Detector Optio[...]

  • Página 17

    7SA511 Line Protection Relay Chapter 2 July 27, 1995 2-5 choice of the data transmission rate for the front port. The operating settings also identify what information is to be displayed in each of the two lines of the LCD for operational messages and for fault messages. The relay’s “Scope of Functions” settings are also considered part of th[...]

  • Página 18

    7SA511 Line Protection Relay Product Description July 27, 1995 2-6 Address LCD Text Description 1400 DIST. PROT. CONTROLLED ZONES Set the parameters for controlled (overreach) zones. Zone Z1B delay T1B Zone Z1L delay T1L 1500 DIST. PROT. FAULT DETECTION Select the measurement control parameters for voltage-controlled overcurrent fault detection or [...]

  • Página 19

    7SA511 Line Protection Relay Chapter 2 July 27, 1995 2-7 Address LCD Text Description 5000 ANNUNCIATIONS 5100 OPERATIONAL ANNUNCIATIONS Display operational and status events in chronological order beginning with the latest event. Operational messages include pickup and drop-out of enabled protections and alarms, pickup and drop-out of binary inputs[...]

  • Página 20

    7SA511 Line Protection Relay Product Description July 27, 1995 2-8 Address LCD Text Description 8200 RESET Reset stored data including the LEDs, event log, and target log data. 8500 PARAMETER CHANGE-OVER Select which parameter set is to be active, and copy parameter sets. 2.4 Overview of Protection Functions This section gives an overview of each o[...]

  • Página 21

    7SA511 Line Protection Relay Chapter 2 July 27, 1995 2-9 Feature Description Ground fault detection Ground faults are detected by ground current ( I E )or displacement voltage ( V E ). Either the impedance of the three phase-to-phase loops or three phase-to-ground loops are calculated depending on the ground fault detection. The effect of apparent [...]

  • Página 22

    7SA511 Line Protection Relay Product Description July 27, 1995 2-10 2.4. 2 Emergency Overcurrent Protection During periods when the line secondary voltage signal is not available, the relay can be used as a two-stage, definite-time, overcurrent protection device. You can also program the relay to automatically change over to the overcurrent mode fo[...]

  • Página 23

    7SA511 Line Protection Relay Chapter 2 July 27, 1995 2-11 2.4.6 High-Resistance Ground Fault Protection (optional) High-resistance ground fault protection is another optional feature of the relay (models 7SA511*- **A5*- 0/2 ** 2/3 ) that is used for detection of ground faults in grounded systems where the fault path resistance can be extremely high[...]

  • Página 24

    7SA511 Line Protection Relay Product Description July 27, 1995 2-12 2.4.7 Automatic Reclose (optional) Automatic reclose (AR) is an optional relay function (relay models 7SA511*-**A5*- ** B/C/F/G *). The automatic reclose function can minimize the system down time caused by temporary faults. The range of functions for automatic reclose include: Thr[...]

  • Página 25

    7SA511 Line Protection Relay Chapter 2 July 27, 1995 2-13 2.5 Additional Functions and Features of the Relay The rest of this chapter gives a general description about the remaining functions and features of the 7SA511 relay, as listed below: Secured data storage Serial data ports Multiple parameter sets (optional) 2.5.1 Secured Data Storage The 7S[...]

  • Página 26

    7SA511 Line Protection Relay Product Description July 27, 1995 2-14 2.5.3 Multiple Parameter Sets (optional) Another optional feature of the 7SA511 relay is the ability to program multiple parameter sets (relay models 7SA511*-**A5*-** E/F/G *). This feature, called parameter changeover (PCO), provides four parameter sets—identified as A, B, C, an[...]

  • Página 27

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-1 Acceptance Tests Table of Contents 3. Acceptance Tests ................................................................................................ ................ 3-3 3.1 Test Equipment ..............................................................................................[...]

  • Página 28

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-2 This page intentionally blank[...]

  • Página 29

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-3 3. Acceptance Tests This section provides acceptance test procedures. Follow these procedures carefully to avoid possible injury and equipment damage. When testing the 7SA511 relay, you should be familiar with all applicable safety regulations from ANSI, IEC, NEC, and other pertinent s[...]

  • Página 30

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-4 The acceptance tests described in the rest of this chapter verify the following are working: Power supply Metering capabilities Fault detection systems Overcurrent Voltage-controlled overcurrent (7SA511*-*CA5 2/3 -****) Polygonal impedance (7SA511*-*CA5 2 -****) Distance zone schemes P[...]

  • Página 31

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-5 3.2 Energizing the Relay DANGER Haz ar do us volta ge s in th e equ ip men t. This can cau se sev ere personal i njury and equipm ent damage. T e stin g should be performed only by qualif ied person nel. F oll ow all s afety inst ruct ions co ntained herein. Do not insert or wit hdraw [...]

  • Página 32

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-6 3.2.2 Verifying the Language Setting The language setting cannot be determined from the initial display. To verify the language setting is English, follow this procedure: 1. Press the key. The display will appear as or (English) (German)[...]

  • Página 33

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-7 If the display shows . . . Then . . . DIRECT ADDRESS the language setting is correct. You can continue to operate the relay and enter an address number, or type in 0000 and press to return to the initial display. DIREKTE ADRESSE follow these steps to change the language parameter. a. T[...]

  • Página 34

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-8 Note: Inaccurate test results may indicate that the relay settings being used are incorrect. Always verify the relay settings for each test before beginning the test. If you repeatedly receive inaccurate test results and the relay settings are correct for the test, immediately contact [...]

  • Página 35

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-9 Test Procedure 1. Measure the input current while varying the input voltage between the limits indicated in the table below. The values should be within the “Measured Current” range for the corresponding entry in Table 3-3. Table 3-3. Power Consumption Test Test Voltage (V) Measure[...]

  • Página 36

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-10 3.5 Metering Tests These procedures check the analog channels to the relay’s microprocessor. Known values of current and voltage are connected to the current and voltage inputs, and the accuracy of the relay measurement is checked. Current and Frequency Metering Test This test uses [...]

  • Página 37

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-11 Voltage Metering Test This test uses a single-phase input and tests each voltage input separately. Test Procedure 1. Connect test equipment to the relay as indicated in Table 3-7. Table 3-7. Voltage Metering Test Connections Relay Terminal Connections Test Equipment - Relay + (where a[...]

  • Página 38

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-12 3.6 Binary Input Test This test checks operation of the binary inputs. A voltage below the minimum value required for an active level (approx. 11 volts, provided that the threshold has not been increased as described in the “Installation” chapter.) is applied to the binary inputs.[...]

  • Página 39

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-13 9. Move the voltage source to the next pair of terminals indicated in Table 3-11. Repeat steps 5 through 8 then exit the test procedure. Table 3-11. Binary Input Test Binary Input Connections Binary Input No. Plus (+) Minus (-) LCD Text (2nd line) 1 8A2 8A1 LED reset C 2 8A4 8A3 >V[...]

  • Página 40

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-14 Table 3-13. LED Test Settings Addr. LCD Text 2601 EMERG.O/C ON 2605 I>> phases 2.00 I/In 2606 T-I>> phases 0.30 s 5. Increase the input current until it reaches 2.5I N . Wait at least 1 second after completing input adjustments to ensure that all time delays have expired b[...]

  • Página 41

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-15 3.8 Signal and Trip Relay Test This test checks the operation of a subset of the signal and trip relays. Factory presets are used for this test. A three-phase current large enough to cause the emergency overcurrent protection to pick up is applied to the three phase current inputs. Th[...]

  • Página 42

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-16 Table 3-16. Signal and Trip Relay Test Settings Addr. LCD Text 2601 EMERG.O/C ON 2602 I>> phases 2.00 I/In 2603 T-I>> phases 0.30 s 5. Increase the input current (equally for all three phases) until it reaches 2.5I N . Wait at least 1 second after completing input adjustme[...]

  • Página 43

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-17 Test Procedure The test current is increased gradually in any phase until the element picks up. The pickup current value is then verified against the programmed settings. Ensure that the relay picks up at 1.1 times the setting value and does not pick up at 0.9 times the setting value.[...]

  • Página 44

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-18 2 3 1 0 0 10 20 30 40 50 60 70 Iph> > Iph> V(Iph >) V(Iph >>) I/I N V Picku p Figure 3-1 . Voltage-Controlled Overcurrent Fault Detector Characteristic. Prerequisite Setting Addr. LCD Text Description Setting 7802 DIST.F.DET Select the type of fault detection system [...]

  • Página 45

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-19 6. Using a phase-to-phase input voltage, set the test voltage of the tested loop to approximately the rated voltage (V N SECOND at address 1104; factory preset is 100 V). Set the test current of both the phases to twice the setting value I PH > at address 1611 (factory preset is 0.[...]

  • Página 46

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-20 I p ø p V P RA RAE R X+A X X-A Va l i d i t y range K R Va l i d i t y ra nge K R V alidity range K X V alidity r ange K X Figure 3-2. Polygonal Impedance Fault Detection Characteristic. Determine the threshold point by slowly reducing the voltage. Check indicators and outputs. Since[...]

  • Página 47

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-21 where I P - test current I N - rated relay current V P - test voltage at threshold X ±A - setting value X+A for positive X-axis, or setting value X-A for negative X-axis R A - setting value RA or RAE, for the R-axis K X - factor for X intersection according to Table 3-18 K R - factor[...]

  • Página 48

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-22 Feed a test current I P = 2I N into the loop under test. If the test voltage will exceed the rated voltage when the threshold is reached, reduce the test current (the minimum current I ph > at address 1621 or 1621 and overcurrent Iph>> at address 1601 must still be exceeded).[...]

  • Página 49

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-23 3.10.1 Independent Zones Z1, Z2, and Z3 For phase-to-ground testing, the test current is applied to one phase and to the ground current path. For testing phase-to-phase, the test current must flow through the tested phases in opposite directions. To avoid errors, ensure that the two p[...]

  • Página 50

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-24 3.10.3 Coordination Times For each time element at least one additional dynamic test should be made to check the correct signaling. In this case, a short circuit approximately in the middle of the two time zones would be simulated. When measuring the response times, remember that the [...]

  • Página 51

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-25 the voltage and current should be approximately 0 . Wait at least 1 second after completing input adjustments to ensure that all time delays have expired. Press the key. 6. Decrease the input voltage (equally for all three phases) to zero. Wait at least 1 second after completing input[...]

  • Página 52

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-26 Table 3-24 . Testing Permissive Underreach Transfer Trip (PUTT). Setting at Address 2102 PUTT Mode Action (Zone) Expected Result Z1B ACCELERATION Permissive Under- reach Transfer Trip in Zone Z1B Simulate a short circuit in zone Z1B, but beyond zone Z1. Trips after T1B delay when the [...]

  • Página 53

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-27 Table 3-26. Testing the POTT Receive Signal. Setting at Address 2202 POTT Mode Action Expected Result Z1B RELEASE or Z1B UNBLOCK Release modes in zone Z1B. Simulate a short circuit in zone Z1B but beyond zone Z1. Trips after T1B delay. FD DIREC RELEASE or FD UNBLOCK Directional compar[...]

  • Página 54

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-28 3.13.1 Initial Setup 1. Connect test equipment to the relay as indicated in Table 3-27. Table 3-27. Emergency Overcurrent Test Connections Relay Terminal Connections Test Equipment - Relay + (where applicable) - (where applicable) DC Power supply - Power input 4B1 4B2 1-phase current [...]

  • Página 55

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-29 Table 3-29. High-Set Overcurrent Test Settings Addr. LCD Text 2603 I> phases 4.00 I/I N 2608 IE> 4.00 I/I N 4. Execute the common test procedure in section 3.13.4. 3.13. 3 Definite Time Overcurrent Protection This test checks the operation of the definite time overcurrent protec[...]

  • Página 56

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-30 Table 3-31. Overcurrent Test Current Input Connections Pickup Current Trip Delay LED High-Set 3A1 - 3A2 2.00I N 5% 0.30 s 10 ms 2 2A1 - 2A2 2.00I N 5% 0.30 s 10 ms 3 1A1 - 1A2 2.00I N 5% 0.30 s 10 ms 4 Definite Time 3A1 - 3A2 1.00I N 5% 1.50 s 15 ms 2 2A1 - 2A2 1.00I N 5% 1.50 s 15 ms[...]

  • Página 57

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-31 Table 3-32 . Prerequisite Settings for the Directional Definite Time Test. Without Directional Comparison Addr. LCD Text (1st line) Description Setting 7808 EARTH FAULT Type of high-resistance ground fault protection DIRECTIONAL D.T. 3101 E/F D.T. Turn the directional, definite time g[...]

  • Página 58

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-32 Note : The current and voltage applied in the same phase must be in phase opposition so that the relay trips in the “forwards” direction (function E/F T-> expir , FNo 772). 6. If directional comparison is turned on, the transmission circuit can be checked. Verify that the funct[...]

  • Página 59

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-33 Prerequisite Settings: Addr. LCD Text Description Setting 7810 AUTO RECL. Indicate whether or not the automatic reclose function exists EXIST 3401 AR FUNCT Turn the auto-reclose function on or off ON The settings listed below are required to properly check control of the overreach zon[...]

  • Página 60

    7SA511 Line Protection Relay Acceptance Tests July 27, 1995 3-34 This page intenionally blank[...]

  • Página 61

    7SA511 Line Protection Relay Chapter 4 July 27, 1995 4-1 Installation Table of Contents 4. Installation ................................................................................................ .......................... 4-3 4.1 Receiving and Handling the Relay ................................................................ .......... 4-3 4[...]

  • Página 62

    7SA511 Line Protection Relay Installation July 27, 1995 4-2 This page intentionally blank[...]

  • Página 63

    7SA511 Line Protection Relay Chapter 4 July 27, 1995 4-3 4. Installation To install the 7SA511 relay, you must be familiar with all applicable safety regulations from ANSI, IEC, NEC, and other pertinent standards. You should also have the following illustrations: Mounting diagram from section 4.7 Relay connection diagrams from section 4.8.1 CT and [...]

  • Página 64

    7SA511 Line Protection Relay Installation July 27, 1995 4-4 4.2 Storing the Relay Store the relay in a dry, clean room. The temperature range for storage is -13°F to +131°F (-25°C to +55°C). Refer to the technical specifications in Reference D of this manual for additional storage information. If the relay is de-energized and stored for an exte[...]

  • Página 65

    7SA511 Line Protection Relay Chapter 4 July 27, 1995 4-5 4.3.1 Removing the Relay’s Front Cover Figure 4-2 illustrates how to remove the relay’s front cover. Once the cover is removed, continue with section 4.3.2, “ Removing/Installing Relay Module .” Front Cover Step1. Flip down door Step 2. Loosen screws Step 3. Remove cover Figure 4-2. R[...]

  • Página 66

    7SA511 Line Protection Relay Installation July 27, 1995 4-6 Rele asin g Lever V iew From T op CPU Board Pow er Supply (SV) Board GEA B oard ZEA Board AB C D Basic module Additional I /O Module Figure 4-3 . Removing the Relay Modules From the Housing. Removing the basic module: Loosen the module by pulling the top and bottom releasing levers to the [...]

  • Página 67

    7SA511 Line Protection Relay Chapter 4 July 27, 1995 4-7 Inserting the basic module: Position the top and bottom releasing levers fully to the left. Ensure that the printed circuit board edges are properly positioned to enter the guide slots. Push the module into the housing as far as it will go. Push the top and bottom releasing levers fully to th[...]

  • Página 68

    7SA511 Line Protection Relay Installation July 27, 1995 4-8 Printed Cir cuit Boar d GEA Printed Circuit Board ZEA Binary Input Binary Input Sol der Bridg e Sol der Bridg e 1 2 3 4 5 6 7 8 9 10 X21 X22 X23 X24 X7 X8 X9 X10 X1 1 X12 X21 X2 2 X2 3 X24 Solder Brid ge Sold er B ridg e X7 X8 X9 X1 0 X1 1 X12 Figure 4-4 . Changing the Binary Input Thresho[...]

  • Página 69

    7SA511 Line Protection Relay Chapter 4 July 27, 1995 4-9 Battery Installation Procedure When preparing the battery for installation, guard against t short-circuiting the battery leads. Referring to Figure 4-5, prepare the battery as follows: Cut both battery leads to a length of 0.6 inches (15 millimeters). Bead both leads at a right angle to the b[...]

  • Página 70

    7SA511 Line Protection Relay Installation July 27, 1995 4-10 Minifuse for the power supp ly Jumper X50 Jump er X 51 Vi e w A Vi e w A Batt ery loca tion when installed - see V iew A Figure 4-6. Backup Battery Installation[...]

  • Página 71

    7SA511 Line Protection Relay Chapter 4 July 27, 1995 4-11 4.7 Mounting the Relay Figure 4-7 shows the mounting dimensions for the 7SA511 relay, in the flush mount configuration. Mounti ng plate Reset an d paging button s Side View 1.16 6.77 9.61 10.47 0.06 0.2 Diame ter 0.25 Di ame ter Switchboard cutout Fr on t Vi e w 9.65 ± 0.04 0.52 0.29 7.09 ?[...]

  • Página 72

    7SA511 Line Protection Relay Installation July 27, 1995 4-12 4.8 Connecting the Relay to Your System You must reference several diagrams in this section to completely and accurately wire your relay. The connection diagrams are divided into three sections: 4.8.1, “General Connection Drawings” 4.8.2, “Current Transformer (CT) and Voltage Transf[...]

  • Página 73

    7SA511 Line Protection Relay Chapter 4 July 27, 1995 4-13 V L1 V L1 V L2 V L2 V L3 V L3 V E V N Line- Neutral V ol tage Inp uts Line-Line V ol tage Inp uts Neutr al V o ltage I nput s Fac t ory Pr e se ts : 1 - >Reset LED 2-> V Tm c bT r i p 3 - >CB Aux.cont 4 - >Manual Close 5 - >Dist. Recept 6 - >Dist.RecFail 7 - >CB ready 8-[...]

  • Página 74

    7SA511 Line Protection Relay Installation July 27, 1995 4-14 7SA51 1*-*CA5 *-*B** 7SA51 1*-*CA5 *-*C** Co mm uni cati on Board SV RX GND 4A1 4A1 4A 4A2 4A2 4A3 4A3 4A4 4A4 TX GND Wire Port (3-wire, reduced RS-232-C Subset) Com mu ni cat ion Bo ar d SV F- SMA RX Fiber Optic Port F- SMA TX Figure 4-9 . Rear Serial Interface Connections (Flush Mount C[...]

  • Página 75

    7SA511 Line Protection Relay Chapter 4 July 27, 1995 4-15 1 2 3 4 5 6 7 8 BA DC V olt a ge , Sig na l & Trip T ermi na l B loc ks 1 1 2 2 3 3 44 4C1 Horizontal row V ertical c olumn T erminal in th e block T erminal num ber example: Curre nt T e rmina l Bl ock #8 Ring lugs #10 Ring lugs Figure 4-10. Terminal Block Detail on Rear Panel - Ring Lu[...]

  • Página 76

    7SA511 Line Protection Relay Installation July 27, 1995 4-16 1 2 3 4 5 6 7 8 BA DC 1) Wi re comp res sion termination (0.1" Ø max) 2) Snap-in te rminal 1 24 3 1 R-2351 2 V ol t ag e , Si gn al & Tripp i ng T erminal Block 1) Wire c ompres sion termination (0.16 " Ø max) 2) Snap-in terminal 1 2 Sc rew f or wi re comp ressio n termina[...]

  • Página 77

    7SA511 Line Protection Relay Chapter 4 July 27, 1995 4-17 DC B A 8 7 6 5 4 3 2 1 T rip Relay 1 T rip Relay 2 T rip Relay 3 Signal Relay 6 T rip Relay 5 T rip Relay 4 Signal Relay 5 Signal Relay 1 Signal Relay 2 Signal Relay 3 Signal Relay 4 Signal Relay 7 Signal Relay 1 1 Signal Relay 8 Signal Relay 9 Signal Relay 10 Binary Input 1 Binary Input 2 B[...]

  • Página 78

    7SA511 Line Protection Relay Installation July 27, 1995 4-18 4.8. 2 Current Transformer (CT) and Voltage Transformer (VT) Connection Diagrams The CT and VT connection diagrams included in this section are listed below. Figure 4-13 . CT Circuits Figure 4-14. VT Circuits[...]

  • Página 79

    7SA511 Line Protection Relay Chapter 4 July 27, 1995 4-19 L1 L1 L1 L1 L2 L2 L2 L2 L3 L3 L3 L3 3 phase CT s with resid ual connection for ground faults 3 phase CT s with parallel line ground c urrent 3 phase CT s with summation transformer for ground fau lts 2 phase CT s with summation transformer for ground faul ts in unground ed systems I L1 I L1 [...]

  • Página 80

    7SA511 Line Protection Relay Installation July 27, 1995 4-20 3 V . T . con nect ion with br ok en-de lta for op timu m dire ction al d et erm inati on 2V . T .c o n n e c t i o nw i t hb r o k e n - d e l t a vol t ag e from b us e n V L1 V L1 V L2 V L2 V L3 V L3 V E V E L1 L1 L1 L2 L2 L2 L3 L3 L3 N Bu s Bus Lin e Line Po wer Flo w Powe r Flow Forw[...]

  • Página 81

    7SA511 Line Protection Relay Chapter 4 July 27, 1995 4-21 4.8.3 Pilot Wire Connection Diagrams The pilot wire connection diagrams included in this section are listed below. Figure 4-15 . Pilot Wire Connections for Overreaching Zone Comparison with 7PA5210. Figure 4-16 . Pilot Wire Connections for Overreaching Zone Comparison with 7SW90.[...]

  • Página 82

    7SA511 Line Protection Relay Installation July 27, 1995 4-22 13 13 3 3 16 16 6 6 11 11 1 1 14 14 4 4 R2 R2 R5 R5 R1 R4 R4 R1 K2 K2 K1 K1 16 16 12 12 17 17 19 19 18 18 8 8 5 5 2 2 7 7 a a b b d d c c Receive Receive T rip T rip T ransmit T ransmit +V 2 +V 2 +V 1 +V 1 -V 1 -V 1 -V 1 -V 1 Station A Station B 7SA51 7SA51 7P A5210-XX 7P A5210-XX Power L[...]

  • Página 83

    7SA511 Line Protection Relay Chapter 4 July 27, 1995 4-23 13 3 16 6 11 1 14 4 R2 R4 R5 R1 K2 K1 16 12 17 19 18 8 5 2 7 a b d c Receive T rip T ransmit +V 2 +V 1 -V 1 +V 1 +V 2 -V 1 -V 1 -V 1 Station A 7SA51 7P A5210-XX B A 8 9 2 T rip t2 Pickup 7 3 4 11 5 6 12 10 1 C Station B Line Protection 7SW90 10s Reception Annunciation Pilot Wire Failure Annu[...]

  • Página 84

    7SA511 Line Protection Relay Installation July 27, 1995 4-24 This page intentionally blank[...]

  • Página 85

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-1 Programming the Relay Table of Contents 5. Programming the Relay ................................................................................................ ........ 5-3 5.1 Introduction .....................................................................................................[...]

  • Página 86

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-2 5.16 Automatic Reclose (Optional) .................................................................................... 5-42 5.16.1 Device Configuration for Automatic Reclose (7900) ............................................ 5-42 5.16.2 Automatic Reclose Function Settings (3400) [...]

  • Página 87

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-3 5. Programming the Relay 5.1 Introduction Before operating the 7SA511 relay, you must program it specifically for your system. This chapter tells you how to: Use the operator panel Place the relay in programming mode Program the relay Save new settings This chapter also identifies the factory[...]

  • Página 88

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-4 19 7 21 0 8 31 1 41 2 51 3 61 4 7 89 4 5 6 0 1 23 F No Ye s Ent er Bac k Space ∞ Pas s word Direct Addr T arget Reset Ta rg e t Res et On Off 7S A 5 1 1 Nu meri cal Lin e Dis tan ce Prot ect ion Event Pow er Blocked On/Off swit ch Indicates r elay pr otection is blocked (red) In[...]

  • Página 89

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-5 Display Panel This 32-character liquid crystal display (LCD) is made up of two lines of text, 16 characters each. There are two modes of operation for the LCD. The display mode is the normal operating mode. You can read information, but you cannot change it. The information that is displayed [...]

  • Página 90

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-6 - Lights up RED to indicate that the relay has detected an internal problem and has blocked itself from operation. This LED also will light briefly during initial power-up and after the input/output function assignments under address 6000 or the scope of function parameters under [...]

  • Página 91

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-7 The functions of the keys on the operator panel are described below: Key Function Pr es s t hi s key to ... En te r the re la y pa sswor d. Dir ect ly a ccess an a d dres s. Di rec tly acc es s addr es s 5 000 (Ann unc iati ons) . T e s ta n dr e s e tt h es t o r e dL E D s . Scroll th rou g[...]

  • Página 92

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-8 The procedures and tables given throughout this chapter identify the settings that require a numeric value within a specified range, and the text-based settings that are chosen from a predefined list of options. If a protective cover is on the relay, remove the cover to access the[...]

  • Página 93

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-9 While the relay is in programming mode, the solid bar following the address number in the LCD will flash on and off. The relay remains in programming mode until you save the settings as discussed in section 5.3.4. To place the relay in programming mode, follow this procedure: 1. Press the key[...]

  • Página 94

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-10 5.3.4 Saving New Settings Before new settings are saved, all configuration and programming changes are stored in the volatile working memory (RAM). To save new relay settings and store them in nonvolatile EEPROM memory, you must press the key in response to the “SAVE NEW SETTIN[...]

  • Página 95

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-11 Table 5-1 lists the relay presettings, the optional settings and the setting ranges available for the rear port. Compare these presettings to the information on the completed worksheets and determine which settings you need to change to match your operating environment. After all settings ha[...]

  • Página 96

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-12 The following procedure enables the waveform capture function via the front serial port for the 7SA511 relay. It is a good example of how to use the operator panel to change settings, verify predefined settings, enter new data, and save the new settings. 1. To verify the presetti[...]

  • Página 97

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-13 6. The factory presetting “2803 FAULT REC. : TO PC/PD” appears on the display. Since this example procedure is to set the waveform capture function for the front port, the presetting is the correct setting. Press the key. 7. If address 2802 setting is . . . Then . . . BY FAULT DETEC. Add[...]

  • Página 98

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-14 10. To save the settings, press function key then press . Press the key in response to the “SAVE NEW SETTINGS?” message. The “NEW SETTINGS SAVED” confirmation message will appear on the display. See section 5.3.4 for more detailed instructions on saving relay settings. 5.[...]

  • Página 99

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-15 Table 5-3. Relay 7SA511 Scope of Functions, Address Block 7800. Addr. LCD Text Description Preset Options Section 7801 DIST. PROT. Distance protection EXIST NON-EXIST 5.10 7802 DIST. F. DET. Type of fault detection OVERCURRENT U/I IMPEDANCE ZONE 0 7803 EMERG. O/C Emergency over- current prot[...]

  • Página 100

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-16 Note: Addresses 7009 and 7010 are required to enable the relay for substation control and are therefore discussed in section 5.4. Table 5-4. Operating Parameters, Address 7000. Addr. LCD Text Description Preset Options/Range 7001 LANGUAGE Display language ENGLISH DEUTSCH (German)[...]

  • Página 101

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-17 5.7.2 Real-Time Clock (8100) The parameters in address block 8100 control the relay’s internal real-time clock and allow you to change the date and time. Also, you can optionally enter a difference time that is used to adjust the clock forward or backward or to synchronize the clock with a[...]

  • Página 102

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-18 difference time, press the key, then press the key. The format for entering the difference time is the same as for a new time as described above. Synchronizing the Clock There are two ways to precisely synchronize the relay clock with another reference: 1. via the operator panel [...]

  • Página 103

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-19 Only one parameter set is active at a time. You can change the active parameter set during relay operation (provided no protection functions are picked up) using the operator panel or through the binary inputs. If the relay is connected to a PC via the front port, you can use DIGSI ® softwa[...]

  • Página 104

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-20 The relay always operates with the active set of parameters (see section 5.8.2) regardless of which set is being displayed or configured. Copying Parameter Sets Prior to activating the parameter changeover feature, the parameter values are display without a parameter set ID prefi[...]

  • Página 105

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-21 Table 5-5. Parameter Set Copy Options. Address Copy Action 8510 Copy ORIG.SET to Set A 8511 Copy ORIG.SET to Set B 8512 Copy ORIG.SET to Set C 8513 Copy ORIG.SET to Set D 8514 Copy Set A to Set B 8515 Copy Set A to Set C 8516 Copy Set A to Set D 8517 Copy Set B to Set A 8518 Copy Set B to Se[...]

  • Página 106

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-22 3. Press the key until the setting you want is displayed, then press to select the active parameter set. Table 5-6 identifies the parameter set presetting and options. Table 5-6. Parameter Changeover Options. Addr. LCD Text Description Preset Options 8503 ACTIVATION Select the ac[...]

  • Página 107

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-23 Compare these presettings to the information on the completed worksheets and determine which settings you need to change to match your operating environment. When you have changed all of the necessary settings, follow the procedure described in section 5.3.4 to save the new settings. Table 5[...]

  • Página 108

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-24 sufficient. Compare these presettings to the information on the completed worksheets and determine which settings you need to change to match your operating environment. When you have changed all of the necessary settings, follow the procedure described in section 5.3.4 to save t[...]

  • Página 109

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-25 Table 5-9. Distance Protection Settings By Address Block. Addr. Block LCD Text Description 1200 DIST. PROT. GENERAL SETTINGS Indicate whether distance protection is On or Off, program the direction of the distance protection directional zone, and set the tirp delays T4 and T5. 1300 DIST. PRO[...]

  • Página 110

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-26 5.10.1 General Settings (1200) The 7SA511 relay consists of five distance zones and seven time delays: Independent distance zones: Z1 Delay T1 Z2 Delay T2 Z3 Delay T3 Controlled (overreaching) zones: Z1B Delay T1B Z1L Delay T1L Final elements: Fault detection, directional Delay T[...]

  • Página 111

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-27 5.10.2 Independent Zones Z1, Z2, Z3 (1300) Address block 1300 consists of the settings required for zones Z1, Z2, and Z3, which operate independently from one another and independently of the overreach zones Z1B and Z1L. The settings include the reactance value, X , or reach, for each zone; [...]

  • Página 112

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-28 Table 5-11. Distance Protection Settings for Independent Zones Z1, Z2, and Z3 Addr. LCD Text Zone & Description Preset Options/Range 1301 R1 Z1. Resistance for phase-to-phase faults 1.25 0.05 - 65.00 1302 X1 Z1. Reactance value (reach) 2.50 0.05 - 130.00 1303 R1E Z1. Resistan[...]

  • Página 113

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-29 Table 5-12 lists the protection presettings and setting options for overreach zones Z1B and Z1L. Compare these presettings to the information on the completed worksheets and determine which settings you need to change to match your operating environment. When you have changed all of the nece[...]

  • Página 114

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-30 Table 5-13. Overcurrent Fault Detection Settings. Addr. LCD Text Description Preset Options/Range 1601 Iph>> Overcurrent detection threshold value for phase currents 1.80 I/In 0.25 - 4.00 I/In 1602 Ie> Overcurrent detection threshold value for ground currents 0.50 I/In 0[...]

  • Página 115

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-31 5.10.6 Polygonal Impedance Fault Detection This section applies only for relays programmed for polygonal impedance fault detection at address 7802 (see section 5.6). Skip this section if overcurrent fault detection or voltage controlled fault detection is being used. Table 5-15 lists the pre[...]

  • Página 116

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-32 5.10.7 Determination of the Fault Loop for Grounded Systems (1700) In phase-selective fault detection systems, the currents and voltages of the fault loop are decisive when calculating the distance to fault. The settings under address block 1700 are applicable for systems with a [...]

  • Página 117

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-33 Table 5-17. Settings for Determination of the Fault Loop for Ungrounded Systems Addr. LCD Text Description Preset Options/Range 1801 TIe 1PHASE Pickup delay for ground current detection with single phase pickup 0.04 s 0.04 - 0.50 s 1802 U e> Displacement voltage for ground fault detection[...]

  • Página 118

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-34 Table 5-18. Power Swing Protection Settings Addr. LCD Text Description Preset Options/Range 2002 P/S PROGR. Power swing protection program BLOCK ALL BLOCK Z1 ONLY BLOCK ALL BUT Z1 OUT OF STEP TRIP 2003 Delta R Distance R between power swing polygon and fault detection polygon 5.0[...]

  • Página 119

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-35 Table 5-19. Pilot Protection Permissive Underreach Transfer Settings Addr. LCD Text Description Preset Options/Range 2101 PUTT MODE Turn permissive underreach transfer trip on or off ON OFF 2102 PUTT MODE Transfer trip mode, either in zone Z1B with time delay T1B, or instantaneous trip with [...]

  • Página 120

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-36 Table 5-20. Pilot Protection Permissive Overreach Transfer Settings, Address Block 2200. Addr. LCD Text Description Preset Options/Range 2201 POTT MODE Turn permissive overreach transfer trip on or off ON OFF 2202 POTT MODE Transfer trip mode Z1B RELEASE FD DIREC RELEASE Z1B UNBL[...]

  • Página 121

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-37 have changed all of the necessary settings, follow the procedure described in section 5.3.4 to save the new settings. Prerequisite Setting: Addr. LCD Text Description Setting 7803 EMERG. O/C Emergency overcurrent protection function EXIST Table 5-21. Emergency Overcurrent Protection Settings[...]

  • Página 122

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-38 Prerequisite Settings: Addr. LCD Text Description Preset 7807 ISOL. E/F Ground fault detection for ungrounded systems EXIST 1102 SYSTEMSTAR System neutral condition COMPENSATED ISOLATED Table 5-22. Settings for Ground Fault Protection for Ungrounded Systems Addr. LCD Text Descrip[...]

  • Página 123

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-39 Each type of high-resistance ground fault protection, listed below, is discussed separately in this section. Directional, definite time overcurrent protection with nondirectional backup element. The settings for this type of protection are in address block 3100. Directional, definite time ov[...]

  • Página 124

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-40 Table 5-23. Settings for Directional, Definite Time Overcurrent Protection With Nondirectional Backup Element Addr. LCD Text Description Preset Options/Range 3101 E/F D.T. Turn the ground fault definite time protection on or off ON OFF 3103 Ie> Pickup value for ground current [...]

  • Página 125

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-41 Table 5-24. Settings for Directional, Definite Time Overcurrent Protection with Directional Comparison and Nondirectional Backup Element Addr. LCD Text Description Preset Options/Range 3105 T-DELAY Delay time for transmission and trip 0.00 s 0.00 - 32.00 s 3201 E/F COMPAR Turn the ground fau[...]

  • Página 126

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-42 5.16 Automatic Reclose (Optional) This section applies only to relays equipped with the optional automatic reclose (AR) function, model numbers 7SA511*-**A5*-** B/C/F/G *. Skip this section if your relay does not have this function. Automatic reclose is effective only if configur[...]

  • Página 127

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-43 Note: Address number 7910 indicates how the circuit breaker test via binary input is carried out and is discussed, therefore, in Chapter 7 “Commissioning the Relay.” 5.16.2 Automatic Reclose Function Settings (3400) Table 5-27 lists the relay presettings and the setting options available[...]

  • Página 128

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-44 Addr. LCD Text Description Preset Options/Range 3432 DAR PROG. Select DAR program - only after an unsuccessful RAR cycle; without prior RAR; no DAR DAR AFTER RAR DAR WITHOUT RAR WITHOUT DAR 3433 DAR SHOTS Number of permissible DAR cycles (does not include the RAR) 0 0 - 9 3434 DA[...]

  • Página 129

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-45 5.18 Turning the Relay Functions On and Off As discussed in section 5.6, “Relay Scope of Functions (7800),” you must program the relay to recognize the various operating and protection functions as existing or non-existing. In addition to those settings, the 7SA511 relay allows certain f[...]

  • Página 130

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-46 5.19 Configuration Settings (6000) The configuration settings tell the relay what action to take and how. Configuration is the process of assigning one or more logical functions to each of the physical input/output (I/O) units. The relay has a large number of predefined logical f[...]

  • Página 131

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-47 4. There are two ways to assign a function to an I/O unit. (1) Entering the function number. a. Enter the function number (FNo) using the numeric keys. The function number being entered displays in line 2 as shown in the example below. b. Press . The description of the function displays in l[...]

  • Página 132

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-48 5.19. 2 Presettings Table 5-30 below identifies the configuration presettings for each of the I/O units. Compare these settings to the data on the completed worksheets to see which settings you need to change. Table 5-30. Configuration Presettings. Addr. I/O Unit Index No. LCD Te[...]

  • Página 133

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-49 Addr. I/O Unit Index No. LCD Text (2nd line) FNo 6301 LED 1 001 >VT mcb Trip nm 014 002 Failure I nm 151 003 Failure Up-e nm 152 004 Failure Up-p nm 153 005 Failure Isymm nm 154 006 Failure Usymm nm 155 007 Failure Umeas nm 156 008 Fuse-Failure nm 157 009 Fail.PhaseSeq nm 159 6302 LED 2 0[...]

  • Página 134

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-50 Addr. I/O Unit Index No. LCD Text (2nd line) FNo 6404 Trip Relay 4 001 O/S Trip 531 002 Dis.Trip L2 483 003 Dis.Trip L123 493 004 O/C Trip L2 653 005 O/C Trip L123 655 006 E/F Trip -> 781 007 E/F Trip <-> 782 008 CB Test L2 882 009 CB Test L123 884 6405 Trip Relay 5 001 [...]

  • Página 135

    7SA511 Line Protection Relay Chapter 5 July 27, 1995 5-51 5.19.4 Signal Relays (6200) The signal relays are configured in address block 6200. The 7SA511 relay has 11 programmable signal relays. Up to 20 logical functions can be assigned to each signal relay. Refer to the completed worksheets to see if you need to change a signal relay function. 5.1[...]

  • Página 136

    7SA511 Line Protection Relay Programming the Relay July 27, 1995 5-52 This page intentionally blank[...]

  • Página 137

    7SA511 Line Protection Relay Chapter 6 July 27, 1995 6-1 Displaying System and Relay Information Table of Contents 6. Displaying System and Relay Information ............................................................................. 6-3 6.1 Using the Operator Panel to Display Information ..........................................................[...]

  • Página 138

    7SA511 Line Protection Relay Displaying System and Relay Information July 27, 1995 6-2 This page intentionally blank[...]

  • Página 139

    7SA511 Line Protection Relay Chapter 6 July 27, 1995 6-3 6. Displaying System and Relay Information This chapter describes the system and relay information available and tells you how to use the relay’s operator panel to display the information. When prompted, the operator panel LCD can display the following information: Event log for the relay d[...]

  • Página 140

    7SA511 Line Protection Relay Displaying System and Relay Information July 27, 1995 6-4 go to address blocks 5100, 5200, etc. You may also use the key to view any log address. Annunciation refers to the process of activating the various relay outputs when an event occurs. Messages that appear on the operator panel LCD are also called annunciations i[...]

  • Página 141

    7SA511 Line Protection Relay Chapter 6 July 27, 1995 6-5 6.2.1 Storage and Display Description Up to 50 messages can be stored in the event log. After all 50 memory locations are filled, additional messages replace the oldest messages in sequence. When paging through the stored messages, if more than 50 messages have been stored, “Table overflow?[...]

  • Página 142

    7SA511 Line Protection Relay Displaying System and Relay Information July 27, 1995 6-6 LCD Text (2nd line) Description Possible Tag >1pole Trip External automatic reclose device is ready for single-pole trip C >1pole only External automatic reclose device is ready for single-pole reclose only C/G >I>> block High-set (I>>) eleme[...]

  • Página 143

    7SA511 Line Protection Relay Chapter 6 July 27, 1995 6-7 LCD Text (2nd line) Description Possible Tag Failure I Failure detected by measured current sum monitor C/G Failure Up-e Failure detected by measured voltage sum monitor, phase- ground voltage C/G Failure Up-p Failure detected by measured voltage sum monitor, phase-phase voltage C/G Failure I[...]

  • Página 144

    7SA511 Line Protection Relay Displaying System and Relay Information July 27, 1995 6-8 LCD Text (2nd line) Description Possible Tag Table Status End of table Follows last stored message if the table is not full Table overflow Last valid message if more than 50 messages are stored Table empty No event recorded (displayed in all unused addresses) 6.3[...]

  • Página 145

    7SA511 Line Protection Relay Chapter 6 July 27, 1995 6-9 The second message, 002, displays the time the fault event began including milliseconds. The second line contains the message “Fault.” Subsequent display messages will indicate all relay events that occur after initial detection of the fault until drop-out. Each message includes the elaps[...]

  • Página 146

    7SA511 Line Protection Relay Displaying System and Relay Information July 27, 1995 6-10 Distance protection fault detection in phase 1 and neutral: At 6 milliseconds after the fault was detected, distance protection issues a three-pole trip command. At 115 milliseconds after the fault was detected, the breaker opened and successfully cleared the fa[...]

  • Página 147

    7SA511 Line Protection Relay Chapter 6 July 27, 1995 6-11 6.3.3 Target Log Messages Table 6-3 lists all of the available fault messages. These messages fall into the following categories: General faults Distance protection faults Emergency overcurrent protection faults Fault location messages High-resistance ground fault protection faults Internal [...]

  • Página 148

    7SA511 Line Protection Relay Displaying System and Relay Information July 27, 1995 6-12 LCD Text (2nd line) Description Dist.TransBlo Transient blocking function of distance protection has operated Emergency Overcurrent Protection O/C Fault E Ground fault detection Flt. O/C L1 Emergency overcurrent fault detection in phase 1 Flt. O/C L1E Emergency [...]

  • Página 149

    7SA511 Line Protection Relay Chapter 6 July 27, 1995 6-13 6.4 Data Log for Ground Faults in Ungrounded Systems (5500) (Optional) Address block 5500, shown below, is used to store the data log for the last three ground faults in ungrounded systems (model number 7SA511*-**A5-*- 1 ***). Skip this section if your relay has a different model number. Fau[...]

  • Página 150

    7SA511 Line Protection Relay Displaying System and Relay Information July 27, 1995 6-14 6.4.2 Isolated Ground Fault Data Log Messages Table 6-4 lists all of the available messages for ground fault detection in ungrounded systems. Only messages consistent with your relay configuration and options will appear in the display. See Chapter 8, “Mainten[...]

  • Página 151

    7SA511 Line Protection Relay Chapter 6 July 27, 1995 6-15 Table 6-5. Circuit Breaker Operation Statistics Addr. LCD Text Description 5601 RAR 1pole = Number of RAR attempts after single-pole trip (max. 9 digit value) 5602 RAR 3pole = Number of RAR attempts after three-pole trip (max. 9 digit value) 5603 DAR 3pole = Number of DAR attempts after thre[...]

  • Página 152

    7SA511 Line Protection Relay Displaying System and Relay Information July 27, 1995 6-16 Table 6-6. Operational Measured Values Addr. LCD Text Description 5701 IL1 = A Primary current in phase 1 5702 IL2 = A Primary current in phase 2 5703 IL3 = A Primary current in phase 3 5704 UL12 = kV Primary phase 1 - phase 2 voltage (V L1-L2 ) 5705 UL23 = kV P[...]

  • Página 153

    7SA511 Line Protection Relay Chapter 6 July 27, 1995 6-17 Table 6-7. Ground Fault Measured Values Ungrounded Systems Addr. LCD Text Description 5801 Iea = A Primary active component of the ground current based on the primary rated values specified at addresses 1105 and 1112 5802 Ier = A Primary reactive component of the ground current based on the [...]

  • Página 154

    7SA511 Line Protection Relay Displaying System and Relay Information July 27, 1995 6-18 Figure 6-1. Waveform Capture Display Example[...]

  • Página 155

    7SA511 Line Protection Relay Chapter 7 July 27, 1995 7-1 Commissioning the Relay Table of Contents 7. Commissioning the Relay ..................................................................................................... 7-3 7.1 Verifying the Installation and Relay Configuration .......................................................... 7-3 [...]

  • Página 156

    7SA511 Line Protection Relay Commissioning the Relay July 27, 1995 7-2 This page intentionally blank[...]

  • Página 157

    7SA511 Line Protection Relay Chapter 7 July 27, 1995 7-3 7. Commissioning the Relay This chapter describes the commissioning procedures you may perform after the relay is installed, is programmed for your system, and is operating in its intended environment. 7.1 Verifying the Installation and Relay Configuration The relay’s event log and target l[...]

  • Página 158

    7SA511 Line Protection Relay Commissioning the Relay July 27, 1995 7-4 7.3 Guidelines for Commissioning the Relay Test accuracy is dependent directly on the test environment and the equipment used. Some cautions and recommended procedures associated with commissioning tests are listed below. Do not exceed the limit values given in the specification[...]

  • Página 159

    7SA511 Line Protection Relay Chapter 7 July 27, 1995 7-5 how to correctly set these parameters. The residual current must be fed to the ground current input of the relay for the current summation check to function properly. If the CT ratio matching factors and the ground current connections are correct, it may be necessary to adjust the current sum[...]

  • Página 160

    7SA511 Line Protection Relay Commissioning the Relay July 27, 1995 7-6 Table 7-1 identifies the addresses used to run this test. Table 7-1. Address Block 4200 Test Options. Addr. Measurement Loop Test 4201 L1-E Directional Test 4202 L1-E Load Impedance Test 4203 L2-E Directional Test 4204 L2-E Load Impedance Test 4205 L3-E Directional Test 4206 L3-[...]

  • Página 161

    7SA511 Line Protection Relay Chapter 7 July 27, 1995 7-7 4. Press the key to continue to the next address, 4202 in the example shown below. 5. Press the key to confirm checking the active and reactive component of the load impedance for the indicated loop. The message “IN PROGRESS” will appear in the second line of the display until the test is[...]

  • Página 162

    7SA511 Line Protection Relay Commissioning the Relay July 27, 1995 7-8 Direction charact eristi c Z Load Forwards Reverse + Z Load = X R ~45° Activ e pow er Negativ e reactiv e pow er Positi ve reactiv e power P ac tive I 2 P reactive I 2 Figure 7-1. Load Impedance Vector. 7.3. 3 Checking the Carrier Transmission System The following functions are[...]

  • Página 163

    7SA511 Line Protection Relay Chapter 7 July 27, 1995 7-9 Prerequisite Settings: Addr. LCD Text Description Setting 7804 TELEPROTEC. Type of pilot protection scheme OVERREACH 2201 POTT MODE Turn the POTT protection scheme on and off ON 2202 POTT MODE Mode of operation for permis- sive overreach transfer scheme PILOT WIRE COMP. Test Procedure 1. Simu[...]

  • Página 164

    7SA511 Line Protection Relay Commissioning the Relay July 27, 1995 7-10 2. Turn on the DC voltage for the reverse interlocking. The test as described above is repeated, with the same result. 3. Simulate a trip on each protective device on all outgoing feeders. Simultaneously, a short circuit is simulated on the incoming feeder (as described before)[...]

  • Página 165

    7SA511 Line Protection Relay Chapter 7 July 27, 1995 7-11 the opposite line end per the relay programming instructions given in Chapter 5, “Programming the Relay.” When delivered from the factory, the input for the circuit breaker auxiliary contact is INPUT 3, assigned to the function CB Aux Cont NO . Change the function mode from NO to NC if n[...]

  • Página 166

    7SA511 Line Protection Relay Commissioning the Relay July 27, 1995 7-12 2. If address 2102 setting is . . . Then . . . Result Z1B ACCELERATION At the receiving end, simulate a fault within zone Z1B but beyond Z1. The protection trips at once (or T1B), without reception a delayed time element can only be effective. FD ACCELERATION At the receiving e[...]

  • Página 167

    7SA511 Line Protection Relay Chapter 7 July 27, 1995 7-13 the echo delay time of the relay at the opposite line end (0.2 seconds as delivered, see address 3211). c) Open the circuit breaker. Repeat these tests for the other line end. 3. Turn the distance protection function on at address 1201 (DIST.PROT. ON). 7.3.4 Circuit Breaker Trip Test (4400) [...]

  • Página 168

    7SA511 Line Protection Relay Commissioning the Relay July 27, 1995 7-14 2. Press the key to go to the next address as shown in the example display below. 3. Press the key to confirm starting the test. The message “CB CLOSED?” appears in the second line of the display as shown below. DANGER A successfu lly started test c y cle will caus e the ci[...]

  • Página 169

    7SA511 Line Protection Relay Chapter 7 July 27, 1995 7-15 Note: As a safety precaution, delete the assignment of FNo 880 to the output relay controlling the circuit breaker before returning the relay to service. 7.3.5 Automatic Reclose Test (4300) (Optional) This test procedure utilizes the optional internal automatic reclose function. The relay ca[...]

  • Página 170

    7SA511 Line Protection Relay Commissioning the Relay July 27, 1995 7-16 TestProcedure Note: Press the key at any time to abort a test procedure. 1. Select address block 4300. 2. Press the key to go to the next address as shown in the example display below. 3. Press the key to confirm starting the test. The message “CB CLOSED?” appears in the se[...]

  • Página 171

    7SA511 Line Protection Relay Chapter 7 July 27, 1995 7-17 4300 block. Only those tests options applicable to your relay will appear in its display. Each test option is followed by the “CB CLOSED?” message as explained in step 3 above. Table 7-3. Circuit Breaker Trip-Close Test Options, Address Block 4300. Addr. LCD Text Description 4301 CB TEST[...]

  • Página 172

    7SA511 Line Protection Relay Commissioning the Relay July 27, 1995 7-18 This page intentionally blank[...]

  • Página 173

    7SA511 Line Protection Relay Chapter 8 July 27, 1995 8-1 Maintenance Table of Contents 8. Maintenance ................................................................................................ ......................... 8-3 8.1 Tracing Hardware and Software Faults ................................................................ ........... 8-4[...]

  • Página 174

    7SA511 Line Protection Relay Maintenance July 27, 1995 8-2 This page intentionally blank[...]

  • Página 175

    7SA511 Line Protection Relay Chapter 8 July 27, 1995 8-3 8. Maintenance The 7SA511 relay is designed so that no special testing, calibration, or maintenance is required. All measurement and signal processing circuits are fully solid state and, with the exception of the internal backup battery, require no periodic maintenance. The following basic ma[...]

  • Página 176

    7SA511 Line Protection Relay Maintenance July 27, 1995 8-4 8.1 Tracing Hardware and Software Faults As the relay’s protection is almost entirely self-monitored, hardware and software faults are automatically announced. With detected hardware faults, the relay blocks itself. Recognized soft- ware faults cause the processor to reset and restart. If[...]

  • Página 177

    7SA511 Line Protection Relay Chapter 8 July 27, 1995 8-5 Minifuse for the power supp ly Jumper X50 Jump er X 51 Vi e w A Vi e w A Batt ery loca tion when installed - see V iew A Figure 8-1. Power Supply Minifuse and Backup Battery on the Basic GEA module. 8.4 Replacing the Backup Battery The backup battery is required for the relay’s internal clo[...]

  • Página 178

    7SA511 Line Protection Relay Maintenance July 27, 1995 8-6 occurs. This battery should be replaced at least every five years to avoid unexpected loss of fault data. A lithium battery 3 V/I Ah, type CR 1/2 AA, is the recommended type of replacement battery. The battery is located at the rear edge of the processor board of the basic module as shown i[...]

  • Página 179

    7SA511 Line Protection Relay Chapter 8 July 27, 1995 8-7 Table 8-1. Reset Data Options Addr. LCD Text Description Preset Options 8201 RESET LED ? Reset the LED memory? No Yes 8202 RESET COUNTERS ? Reset the CB operation counters? N o Yes 8203 RESET TOTAL Isc ? Reset interrupted current statistics? N o Ye s 8204 RESET OPERAT. ANNUNC. ? Reset the eve[...]

  • Página 180

    7SA511 Line Protection Relay Maintenance July 27, 1995 8-8 This page intentionally blank[...]

  • Página 181

    7SA511 Line Protection Relay Reference A July 27, 1995 A-1 Method of Operation Table of Contents A. Method of Operation ................................................................................................ .......... A- 5 A.1 Overview of Hardware and Protection Functions .......................................................... A- 5 A.2[...]

  • Página 182

    7SA511 Line Protection Relay Method of Operation A-2 July 27, 1995 A.11.2 Determination of the Faulted Phase .................................................................... A-61 A.11.3 Directional Determination .................................................................................. A-61 A.11.4 Ground Fault Location .................[...]

  • Página 183

    7SA511 Line Protection Relay Reference A July 27, 1995 A-3 Figure A-18 . Power Swing ................................................................................................... A-38 Figure A-19. Pickup Characteristic for the Detection of Power Swings ................................. A-39 Figure A-20 . Permissive Underreach Transfer Trip Wi[...]

  • Página 184

    7SA511 Line Protection Relay Method of Operation A-4 July 27, 1995 This page intentionally blank[...]

  • Página 185

    7SA511 Line Protection Relay Reference A July 27, 1995 A-5 A. Method of Operation A.1 Overview of Hardware and Protection Functions The 7SA511 relay is a microprocessor-based, high speed, numerical distance relay designed to provide fast, reliable, and selective clearance of all kinds of ground and phase faults on overhead lines and cables being fe[...]

  • Página 186

    7SA511 Line Protection Relay Method of Operation A-6 July 27, 1995 The relay also has 10 optically isolated binary inputs, 16 LEDs, 5 trip relays, and 11 signal relays. Microprocessor Blocked Read y 1 1 Signal Rel a ys (p r ogr am ma bl e) A/D C onv ert e r MUX MUX I sol atin g Tran sf or mer s Power System Bu s Line L1 L2 L3 LCD Rear Po rt Seri al[...]

  • Página 187

    7SA511 Line Protection Relay Reference A July 27, 1995 A-7 The microprocessor performs all impedance and overcurrent calculations and makes all protection logic decisions. The microprocessor also provides the following functions: Filtering and formation of the measured quantities Continuous calculation of the values required for fault detection Det[...]

  • Página 188

    7SA511 Line Protection Relay Method of Operation A-8 July 27, 1995 When a fault is detected the following procedures are initiated: Trip delays Determination of the faulted line loop(s) Release of trip commands Auxiliary functions Identification of the faulty phase(s) The overcurrent fault detection unit is used for high fault current detection. If[...]

  • Página 189

    7SA511 Line Protection Relay Reference A July 27, 1995 A-9 0 0 0.2 0.4 0.6 0.8 1.0 1 2 3 4 I Ep i c k - u p I E reset 5 67 I ph max I N I E > I N Pickup 10% Figure A-2 . Ground Current Detector Characteristic The displacement voltage detector monitors the fundamental wave of the displacement voltage ( V E = 3 V 0 ) in comparison with the set thr[...]

  • Página 190

    7SA511 Line Protection Relay Method of Operation A-10 July 27, 1995 phase pickup without ground fault detection. In ungrounded system, the multi-phase loop is always selected in the case of a single-phase pickup without ground fault detection. The faulty phases are indicated (see Table A-1). The overcurrent fault detector is reset when the pickup v[...]

  • Página 191

    7SA511 Line Protection Relay Reference A July 27, 1995 A-11 phase angle with the R A 2 intersection applicable for phase angles above 45 , and the R A 1 intersection applicable for phase angles below 45 . For w ard direction Reverse direction X X +A X -A R A1 R A2 R AE R 45° Figure A-3. Impedance Fault Detection Characteristic[...]

  • Página 192

    7SA511 Line Protection Relay Method of Operation A-12 July 27, 1995 To avoid intermittent pickup signals near the perimeter of the characteristic, a hysteresis of 6% is provided. Pickup results for the measurement loop in which the impedance vector lies within the fault detection polygon (shaded area in Figure A-3). If detection occurs in more than[...]

  • Página 193

    7SA511 Line Protection Relay Reference A July 27, 1995 A-13 2 3 1 0 0 10 20 30 40 50 60 70 Iph> > Iph> V(Iph >) V(Iph >>) I/I N V Picku p Figure A-4 . Voltage Controlled Overcurrent Fault Detection Characteristic Each of the three fault detection modules is controlled by the phase-to-ground voltages (V Ph-E ) or the phase-to-phase[...]

  • Página 194

    7SA511 Line Protection Relay Method of Operation A-14 July 27, 1995 In grounded systems, the measured line loop depends on the ground fault detection function (section A.2.1) and the parameter, 1PH FAULTS (address 1705), selected according to Table A- 2. In ungrounded system, the phase-to-phase loop is always selected in the case of a single-phase [...]

  • Página 195

    7SA511 Line Protection Relay Reference A July 27, 1995 A-15 the assignment of the phase currents, loop voltages and output results for single-phase pickup with ground fault detection only. Table A-5 . Single-Phase, Voltage Controlled Overcurrent Fault Detection - Phase-to-Ground Voltage With Ground Fault Detection Only Fault Detection Module Measur[...]

  • Página 196

    7SA511 Line Protection Relay Method of Operation A-16 July 27, 1995 L1 L2 L3 E Z L Z L V L1 V L2 I L1 I L2 Figure A-5 . Phase-to-Phase Short Circuit Loop For calculation of a phase-to-ground loop for a short circuit in L3-E (Figure A-6), observe that the impedance of the ground return path is not normally equal to the impedance of the phase. In the[...]

  • Página 197

    7SA511 Line Protection Relay Reference A July 27, 1995 A-17 L1 L2 L3 E Z L Z E V L3 -E I L3 I E Figure A-6 . Phase-to-Ground Short Circuit Loop A.3.2 Fault Loop Determination in Grounded Systems In power systems with grounded neutrals, each contact of a phase with ground is a short circuit that must be interrupted immediately by the nearest protect[...]

  • Página 198

    7SA511 Line Protection Relay Method of Operation A-18 July 27, 1995 Table A-6 . Selected Measurement Quantities in Grounded Systems, with Overcurrent Fault Detection (With or Without Voltage Control) Fault Detection Phases Selected Loop Selected Setting Parameter L1, E L2, E L3, E L1-E L2-E L3-E irrelevant L1, L2 L2, L3 L1, L3 L1-L2 L2-L3 L3-L1 irr[...]

  • Página 199

    7SA511 Line Protection Relay Reference A July 27, 1995 A-19 Table A-7. Selected Measurement Quantities in Grounded Systems, with Impedance Fault Detection Fault Detection Phase Loops Selected Loop Selected Setting Parameter L1-E L2-E L3-E L1-E L2-E L3-E irrelevant L1-L2 L2-L3 L3-L1 L1-L2 L2-L3 L3-L1 irrelevant L1-E, L2-E L2-E, L3-E L1-E, L3-E L1-L2[...]