Schweitzer Engineering Laboratories SEL-421-7 Manual
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Schweitzer Engineering Laboratories SEL-421-7 Manual

Schweitzer Engineering Laboratories SEL-421-7 Manual

Protection, automation, and control system
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SEL-421-7 Protection,
Automation, and Control System
Protection, Automation, and Control
System With Sampled Values
Key Features and Benefits
The SEL-421-7 Protection, Automation, and Control System With Sampled Values or TiDL Technology combines high-
speed distance and directional protection with complete control for a two-breaker bay.
Complete Distance Protection. You can apply as many as five zones of phase and ground distance and directional
overcurrent elements. Select mho or quadrilateral characteristics for any phase or ground distance element. Use the
optional high-speed distance elements and series-compensation logic to optimize protection for critical lines or
series-compensated lines. Patented coupling capacitor voltage transformer (CCVT) transient overreach logic
enhances the security of Zone 1 distance elements. Best Choice Ground Directional Element
directional element performance and eliminates the need for many directional settings. Apply the distance and
directional elements in communications-based protection schemes such as POTT, DCB, and DCUB, or for
instantaneous or time-step backup protection.
Power Swing Blocking and Out-of-Step Tripping. You can select power swing blocking of distance elements for
stable power swings or out-of-step tripping for unstable power swings. Zero-setting, out-of-step detection logic is
available, eliminating the need for settings and power system studies.
Switch-Onto-Fault. Disconnect status inputs and voltage elements can enable high-speed protection.
Synchronism Check. Synchronism check can prevent circuit breakers from closing if the corresponding phases
across the open circuit breaker are excessively out of phase, magnitude, or frequency. The synchronism-check
function has a user-selectable synchronizing voltage source and incorporates slip frequency, two levels of maximum
angle difference, and breaker close time into the closing decision.
Reclosing Control. You can incorporate programmable single-pole or three-pole trip and reclose of one or two
breakers into an integrated substation control system. Synchronism and voltage checks from multiple sources
provide complete bay control.
Fault Locator. Utilities can efficiently dispatch line crews to quickly isolate line problems and restore service faster.
Schweitzer Engineering Laboratories, Inc.
or TiDL Technology
®
logic optimizes
SEL-421-7 Data Sheet

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Summary of Contents for Schweitzer Engineering Laboratories SEL-421-7

  • Page 1 System With Sampled Values or TiDL Technology Key Features and Benefits The SEL-421-7 Protection, Automation, and Control System With Sampled Values or TiDL Technology combines high- speed distance and directional protection with complete control for a two-breaker bay. ➤ Complete Distance Protection. You can apply as many as five zones of phase and ground distance and directional overcurrent elements.
  • Page 2 TiDL Relay. The TiDL relay can receive current and voltage information from as many as eight SEL-TMUs (TiDL Merging Units) over direct point-to-point fiber-optic connections. The TiDL relay automatically synchronizes data collection, alleviating the need or impact of an external clock on protection. SEL-421-7 Data Sheet Schweitzer Engineering Laboratories, Inc.
  • Page 3 Rules-Based Settings Editor. You can communicate with and set the relay by using an ASCII terminal or use Grid Configurator to configure the relay and analyze fault records with relay element response. Use as many as 200 aliases to rename any digital or analog quantity in the relay. Schweitzer Engineering Laboratories, Inc. SEL-421-7 Data Sheet...

  • Page 4: Functional Overview

    Station Battery Monitor Sequential Events Recorder Software-Invertible Polarities Four-port Ethernet card ordering option depicted. * Optional Feature Note: Both copper and fiber-optic Ethernet ports are available. Figure 1 SEL-421-7 SV Subscriber or TiDL Functional Overview SEL-421-7 Data Sheet Schweitzer Engineering Laboratories, Inc.
  • Page 5 SEL-401 can provide basic phase overcurrent and breaker failure protection in the absence of communica- tion. Using the process bus, the SEL-421-7 SV Publisher or SEL-401 can provide voltage and current information to multiple relays that subscribe to SV streams (see T-Protocol Figure 1 and Figure 2).

  • Page 6: Protection Features

    Zone 1 distance element, resulting from the series capacitor transient response. The SEL-421-7 simultaneously measures as many as five zones of phase and ground mho distance protection plus Each of the distance elements has a specific reach setting.
  • Page 7 Figure 8 Quadrilateral Phase-to-Phase Faults Mho Distance Elements Quadrilateral Distance Elements The SEL-421-7 uses mho characteristics for phase and The SEL-421-7 provides five zones of quadrilateral ground distance protection. Two zones are fixed in the phase and ground distance characteristics for improved...

  • Page 8: Directional Elements

    TRCOMM to program OGIC specific elements, combinations of elements, inputs, etc., to perform communications scheme tripping and other The SEL-421-7 includes a number of directional scheme functions. The logic readily accommodates the elements for supervision of overcurrent elements and following conditions: distance elements.

  • Page 9: Additional Features

    GROUP 1 00:00:05.387 Quickly view events, alarm points, display points, or the SER. EVENT: BCG T LOCATION: 48.47 FREQ: 60.00 SHOT: 1P=0 3P=1 OPEN BK2 CLOSED Figure 13 Factory-Default Front-Panel Display and Pushbuttons Schweitzer Engineering Laboratories, Inc. SEL-421-7 Data Sheet...

  • Page 10: Bay Control

    NAVIG Figure 16 Double Bus/Double Breaker Figure 14–Figure 17 are examples of some of the select- able one-line diagrams in the SEL-421-7. Select the one- line diagram from the Bay settings. Additional settings BAYNAME for defining labels and analog quantities are also found in...

  • Page 11: Rack-Type Breakers Mosaics

    Figure 18 Screens for Circuit Breaker Selection Rack-Type Breakers Mosaics and operator control pushbuttons and LEDs. The blank slide-in label set is included with the SEL-421-7. You can use templates supplied with the relay or hand label The SEL-421-7 supports the display of rack-type (also supplied blank labels and print label sets from a printer.

  • Page 12: Communications Features

    ➤ Synchrophasor data at 60 message-per-second data SFP transceivers are not included with the card and must be ordered separately. See selinc.com/products/sfp for a list of compatible SFP format. transceivers. SEL-421-7 Data Sheet Schweitzer Engineering Laboratories, Inc.
  • Page 13 Four-port Ethernet card ordering option only. Gigabit speeds are only available on PORT 5A and PORT 5B of the five- trol information from the intelligent devices directly to port Ethernet card ordering option. remote SCADA client devices. Schweitzer Engineering Laboratories, Inc. SEL-421-7 Data Sheet...
  • Page 14 Test, Blocked, On, and Off. The relay also can use this M protocol to transfer infor- IRRORED supports Simulation mode for added flexibility. mation between stations to enhance coordination and achieve faster tripping. SEL-421-7 Data Sheet Schweitzer Engineering Laboratories, Inc.

  • Page 15: Open Communications Protocols

    SNTP Ethernet-based SNTP for time synchronization among relays. FTP and Telnet Use Telnet to establish a terminal-to-relay connection over Ethernet. Use FTP to move files in and out of the relay over Ethernet. Schweitzer Engineering Laboratories, Inc. SEL-421-7 Data Sheet...

  • Page 16: Flexible Control Logic And Integration Features

    The following is an example of possible applications of (assign the alias “TAN” to math variable PMV02) control equations that use aliases. OGIC =>>SET L <Enter> 1: # CALCULATE THE TANGENT OF THETA 2: TAN:=SIN(THETA)/COS(THETA) (use the aliases in an equation) SEL-421-7 Data Sheet Schweitzer Engineering Laboratories, Inc.
  • Page 17 Primary phase quantities (A) for each of the six voltage sources available. (W), I A, B, C A, B, C Frequency FREQ Frequency (Hz) as measured by frequency source potential inputs. dF/dT Rate-of-change in frequency (Hz/s). Schweitzer Engineering Laboratories, Inc. SEL-421-7 Data Sheet...

  • Page 18: Oscillography And Event Reporting

    Terminals tripped for this fault station battery voltage drops during trip, close, and other control operations. ➤ Recloser shot count at time of trigger (if applicable) ➤ Fault location (if applicable) ➤ Breaker status (open/close) SEL-421-7 Data Sheet Schweitzer Engineering Laboratories, Inc.

  • Page 19: Diagrams And Dimensions

    BKR CLOSE ZONE 4 BKR FAIL MANUAL BREAKER CLOSE CLOSED PHASE A ENABLED PHASE B PHASE C PMCU OK RECLOSE BREAKER ENABLED OPEN GROUND IRIG LOCK i7285a Figure 25 4U Front Panel, Panel-Mount Option Schweitzer Engineering Laboratories, Inc. SEL-421-7 Data Sheet...
  • Page 20 Vdc 2 – – – 196-1921.A i7285a Five-port Ethernet card ordering option depicted. Figure 26 SEL-421-7 SV Subscriber 4U Rear Panel, High-Speed INTC (200 Slot) Interface Board EIA-232 PORT 5A PORT 5B PORT 5C PORT 5D PORT 5E PORT 3...

  • Page 21: Models And Options

    Figure 29 SEL-421-7 Dimensions for Rack- and Panel-Mount Models Models and Options ➤ Consider the following options when ordering and con- Chassis size figuring the SEL-421-7. ➢ (U is one rack unit—1.75 in or 44.45 mm) ➤ DSS connector type ➣...
  • Page 22 DNP3, and Synchrophasors (SEL Fast Message ➤ Power supply and IEEE C37.118 format) ➢ 24–48 Vdc NOTE: The SEL-421-7 can be ordered with either SV publication or SV ➢ 48–125 Vdc or 110–120 Vac subscription. ➢ ➢ 125–250 Vdc or 110–240 Vac Above protocols plus IEC 61850 Edition 2 ➤...

  • Page 23: Specifications

    Specifications Ten-Second Thermal Rating: 600 Vac Note: If your SEL-421-7 TiDL uses DSS, relay operating times are delayed. For SV applications, operating times are delayed by the configured channel  0.1 VA @ 125 V Burden: delay, CH_DLY. See SV Network Delays on page 17.25 in the SEL-400 Frequency and Rotation Series Relays Instruction Manual for more details.
  • Page 24 2 kHz Short-Time Thermal Communications Ports Withstand: 50 Adc for 1 s EIA-232: 1 front and 3 rear Continuous Contact 6 Adc at 70°C Serial Data Speed: 300–57600 bps Current: 4 Adc at 85°C SEL-421-7 Data Sheet Schweitzer Engineering Laboratories, Inc.
  • Page 25 Temperature Accuracy: ±3.0°C Transmitter Average Optical Power Accuracy: ±3.0 dB Transmitter Average Optical Power Accuracy: ±3.0 dB Received Average Optical Input Power Accuracy: ±3.0 dB Received Average Optical Input Power Accuracy: ±3.0 dB Schweitzer Engineering Laboratories, Inc. SEL-421-7 Data Sheet...
  • Page 26 Wire sizes for grounding (earthing), current, voltage, and contact Contact: connections are dictated by the terminal blocks andYou can use the ±8 kV following table as a guide in selecting wire sizes: expected load currents. Air Discharge: ±15 kV SEL-421-7 Data Sheet Schweitzer Engineering Laboratories, Inc.
  • Page 27 Dry Heat, Operational: IEC 60068-2-2:2007 5 A Model: Test Bd: 16 hours at +85°C OFF, 0.25 to 320 secondary, 1 A Model: 0.01 steps Dry Heat, Storage: IEC 60068-2-2:2007 Test Bd: 16 hours at +85°C Schweitzer Engineering Laboratories, Inc. SEL-421-7 Data Sheet...
  • Page 28 (Operate time is relay processing time only and does not include SV delay, 1.5 ms Pickup Range minimal.) 5 A Model: 0.25–16.00 A secondary, 0.01 A steps 1 A Model: 0.05–3.20 A secondary, 0.01 A steps SEL-421-7 Data Sheet Schweitzer Engineering Laboratories, Inc.
  • Page 29 ±5% of setting plus ± 0.05 A for SIR < 30 ±10% of setting plus ± 0.05 A for 30  SIR    60 Transient Overreach: <5% of setting plus steady-state accuracy Schweitzer Engineering Laboratories, Inc. SEL-421-7 Data Sheet...
  • Page 30 IEEE C37.232-2011 File Naming otherwise noted. Convention Currents Phase Current Magnitude 5 A Model: ± 0.2% plus ± 4 mA (2.5–15 A sec) 1 A Model: ± 0.2% plus ± 0.8 mA (0.5–3 A sec) SEL-421-7 Data Sheet Schweitzer Engineering Laboratories, Inc.

  • Page 31: Technical Support

    Technical Support We appreciate your interest in SEL products and services. If you have questions or comments, please contact us at: Schweitzer Engineering Laboratories, Inc. 2350 NE Hopkins Court Pullman, WA 99163-5603 U.S.A. Tel: +1.509.338.3838 Fax: +1.509.332.7990 Internet: selinc.com/support Email: info@selinc.com Schweitzer Engineering Laboratories, Inc.
  • Page 32 SEL products appearing in this document may be covered by U.S. and Foreign selinc.com • info@selinc.com patents. Schweitzer Engineering Laboratories, Inc. reserves all rights and benefits afforded under federal and international copyright and patent laws in its products, including without lim- itation software, firmware, and documentation.

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