1MAC050144-MB 2004/108/EC 2006/95/EC PCM600 51P/50P 67/51P 67/50P 51N/50N - Datasheet Archive

 

615 series ANSI Technical Manual Document ID: 1MAC050144-MB Issued: 01/20/2010 Revision: A Product version: 2.0 © Copyright

 

Relion® Protection and Control 615 series ANSI Technical Manual Document ID: 1MAC050144-MB 1MAC050144-MB Issued: 01/20/2010 Revision: A Product version: 2.0 © Copyright 2010 ABB. All rights reserved Copyright This document and parts thereof must not be reproduced or copied without written permission from ABB, and the contents thereof must not be imparted to a third party, nor used for any unauthorized purpose. The software or hardware described in this document is furnished under a license and may be used, copied, or disclosed only in accordance with the terms of such license. Trademarks ABB and Relion are registered trademarks of ABB Group. All other brand or product names mentioned in this document may be trademarks or registered trademarks of their respective holders. Warranty Please inquire about the terms of warranty from your nearest ABB representative. ABB Inc. Distribution Automation 4300 Coral Ridge Drive Coral Springs, FL 33065, USA Toll-free: 1 (800) 523-2620 Phone: +1 954-752-6700 Fax: +1 954 345-5329 http://www.abb.com/substationautomation Disclaimer The data, examples and diagrams in this manual are included solely for the concept or product description and are not to be deemed as a statement of guaranteed properties. All persons responsible for applying the equipment addressed in this manual must satisfy themselves that each intended application is suitable and acceptable, including that any applicable safety or other operational requirements are complied with. In particular, any risks in applications where a system failure and/or product failure would create a risk for harm to property or persons (including but not limited to personal injuries or death) shall be the sole responsibility of the person or entity applying the equipment, and those so responsible are hereby requested to ensure that all measures are taken to exclude or mitigate such risks. This document has been carefully checked by ABB but deviations cannot be completely ruled out. In case any errors are detected, the reader is kindly requested to notify the manufacturer. Other than under explicit contractual commitments, in no event shall ABB be responsible or liable for any loss or damage resulting from the use of this manual or the application of the equipment. Conformity This product complies with the directive of the Council of the European Communities on the approximation of the laws of the Member States relating to electromagnetic compatibility (EMC Directive 2004/108/EC 2004/108/EC) and concerning electrical equipment for use within specified voltage limits (Low-voltage directive 2006/95/EC 2006/95/EC). This conformity is the result of tests conducted by ABB in accordance with the product standards EN 50263 and EN 60255-26 for the EMC directive, and with the product standards EN 60255-6 and EN 60255-27 for the low voltage directive. The IED is designed in accordance with the international standards of the IEC 60255 series and ANSI C37.90. Table of contents Table of contents Section 1 Introduction.17 This manual.17 Intended audience.17 Product documentation.18 Product documentation set.18 Document revision history.19 Related documentation.20 Symbols and conventions.20 Safety indication symbols.20 Manual conventions.20 Functions, codes and symbols.21 Section 2 615 series overview.25 Overview.25 Product series version history.25 PCM600 PCM600 and IED connectivity package version.26 Local HMI.26 LCD.27 LEDs.28 Keypad.28 Web HMI.28 Authorization.30 Communication.30 Section 3 Basic functions.33 General parameters.33 Self-supervision.45 Internal faults.45 Warnings.47 LED indication control.49 Time synchronization.49 Parameter setting groups.50 Recorded data.51 Non-volatile memory.54 Binary input.54 Binary input filter time.54 615 series ANSI Technical Manual 1 Table of contents Binary input inversion.55 Oscillation suppression.56 Factory settings restoration.56 Section 4 Protection functions.57 Three-phase current protection.57 Three-phase non-directional overcurrent protection 51P/50P 51P/50P.57 Identification.57 Function block.57 Functionality.57 Operation principle.58 Measurement modes.61 Timer characteristics.61 Application.63 Signals.68 Settings.69 Monitored data.72 Technical data.73 Technical revision history.74 Three-phase non-directional long-time overcurrent protection 51LT.74 Identification.74 Function block.74 Functionality.75 Principle of operation.75 Timer characteristics .77 Application.78 Signals.78 Settings.78 Monitored data.80 Three-phase directional overcurrent protection 67/51P 67/51P and 67/50P 67/50P.80 Identification.80 Function block.80 Functionality.80 Operation principle .81 Measuring modes.87 Directional overcurrent characteristics .87 Application.95 Signals.98 2 615 series ANSI Technical Manual Table of contents Settings.99 Monitored data.103 Technical data.104 Three-phase thermal overload protection for overhead lines and cables 49F.105 Identification.105 Function block.105 Functionality.105 Operation principle.106 Application.109 Signals.109 Settings.110 Monitored data.111 Technical data.111 Three-phase thermal overload protection, two time constants 49T.111 Identification.111 Function block.112 Functionality.112 Operation principle.112 Application.116 Signals.118 Settings.119 Monitored data.119 Technical data.120 Motor stall protection 51LR.120 Identification.120 Function block.120 Functionality.121 Operation principle.121 Application.122 Signals.122 Settings.123 Monitored data.123 Technical data.123 Loss of load protection 37.124 Identification.124 Function block.124 Functionality.124 Operation principle.124 615 series ANSI Technical Manual 3 Table of contents Application.126 Signals.126 Settings.127 Monitored data.127 Technical data.127 Three-phase thermal overload protection for motors 49M.128 Identification.128 Function block.128 Functionality.128 Operation principle.128 Application.137 Signals.141 Settings.142 Monitored data.143 Technical data.143 Ground-fault protection.144 Non-directional neutral overcurrent protection 51N/50N 51N/50N and Non-directional ground fault protection 51G/50G 51G/50G.144 Identification.144 Function block.144 Functionality.144 Operation principle.145 Measurement modes.147 Timer characteristics.147 Application.149 Signals.149 Settings.150 Monitored data.152 Technical data.153 Technical revision history.154 Directional earth-fault protection 67/51N 67/51N and 67/50N 67/50N.154 Identification.154 Function block.155 Functionality.155 Operation principle.155 Directional ground-fault principles.159 Measurement modes.165 Timer characteristics.165 Directional ground-fault characteristics.167 Application.178 4 615 series ANSI Technical Manual Table of contents Signals.180 Settings.181 Monitored data.185 Technical data.186 Technical revision history.186 Sensitive earth-fault protection 50SEF 50SEF.187 Identification.187 Function block.187 Functionality.187 Principle of operation.187 Measurement modes.188 Timer characteristics.188 Application.188 Signals.188 Settings.188 Monitored data.188 Technical data.188 Differential protection.189 Transformer differential protection for two winding transformers 87T.189 Identification.189 Function block.189 Functionality.189 Operation principle.190 Application.204 CT connections and transformation ratio correction.219 Signals.221 Settings.222 Monitored data.224 Technical data.227 Low impedance restricted earth-fault protection 87L0ZREF 87L0ZREF.227 Identification.227 Function block.227 Functionality.227 Operation principle.228 Application.232 Signals.235 Settings.236 Monitored data.236 Technical data.237 615 series ANSI Technical Manual 5 Table of contents Unbalance protection.237 Negative phase-sequence current protection 46.237 Identification.237 Function block.237 Functionality.238 Operation principle.238 Application.240 Signals.240 Settings.241 Monitored data.242 Technical data.242 Technical revision history.243 Phase discontinuity protection 46PD.243 Identification.243 Function block.243 Functionality.243 Operation principle.243 Application.245 Signals.247 Settings.248 Monitored data.248 Technical data.248 Phase reversal protection 46R.249 Identification.249 Function block.249 Functionality.249 Operation principle.249 Application.250 Signals.251 Settings.251 Monitored data.251 Technical data.252 Negative phase-sequence time overcurrent protection 46M.252 Identification.252 Function block.252 Functionality.253 Operation principle.253 Timer characteristics.254 Application.256 Signals.257 6 615 series ANSI Technical Manual Table of contents Settings.257 Monitored data.258 Technical data.258 Voltage protection.259 Three-phase overvoltage protection 59.259 Identification.259 Function block.259 Functionality.259 Operation principle.260 Timer characteristics.263 Application.264 Signals.264 Settings.265 Monitored data.266 Technical data.266 Three-phase undervoltage protection 27.266 Identification.266 Function block.267 Functionality.267 Operation principle.267 Timer characteristics.271 Application.271 Signals.272 Settings.273 Monitored data.274 Technical data.274 Ground overvoltage protection 59G.274 Identification.274 Function block.275 Functionality.275 Operation principle.275 Application.276 Signals.277 Settings.277 Monitored data.277 Negative sequence overvoltage protection 47.278 Identification.278 Function block.278 Functionality.278 Operation principle.279 615 series ANSI Technical Manual 7 Table of contents Application.280 Signals.281 Settings.281 Monitored data.281 Technical data.282 Positive sequence undervoltage protection 27PS.282 Identification.282 Function block.282 Functionality.283 Operation principle.283 Application.284 Signals.285 Settings.286 Monitored data.286 Technical data.286 Arc flash detector AFD.287 Identification.287 Function block.287 Functionality.287 Operation principle.288 Application.289 Signals.294 Settings.294 Monitored data.295 Technical data.295 Motor startup supervision 66/51LRS 66/51LRS.295 Identification.295 Function block.296 Functionality.296 Operation principle.297 Application.304 Signals.308 Settings.308 Monitored data.309 Technical data.310 Section 5 Protection related functions.311 Three-phase transformer inrush detector INR.311 Identification.311 Function block.311 8 615 series ANSI Technical Manual Table of contents Functionality.311 Operation principle.312 Application.313 Signals.315 Settings.315 Monitored data.315 Technical data.316 Circuit breaker failure protection 50BF.316 Identification.316 Function block.316 Functionality.316 Operation principle .317 Application.321 Signals.323 Settings.323 Monitored data.324 Technical data.324 Protection trip conditioning 86/94.324 Identification.324 Function block.325 Functionality.325 Principle of operation.325 Application.326 Signals.327 Settings.328 Monitored data.328 High impedance fault detector HIZ.328 Identification.328 Function block symbol.329 Functionality.329 Principle of operation.329 Application.331 Signals.332 Settings.332 Monitored data.333 Emergency start function 62EST 62EST.333 Identification.333 Function block.333 Functionality.333 Operation principle.334 615 series ANSI Technical Manual 9 Table of contents Application.334 Signals.335 Settings.335 Monitored data.336 Section 6 Supervision functions.337 Trip circuit monitoring TCM.337 Identification.337 Function block.337 Functionality.337 Operation principle.337 Application.338 Signals.346 Settings.347 Monitored data.347 Current circuit supervision CCM.347 Identification.347 Function block.347 Functionality.348 Operation principle.348 Application.350 Signals.354 Settings.355 Monitored data.355 Technical data.355 Fuse failure supervision 60.355 Identification.355 Function block.356 Functionality.356 Operation principle.356 Application.360 Signals.361 Settings.361 Monitored data.362 Technical data.362 Operation time counter OPTM.362 Identification.362 Function block.363 Functionality.363 Operation principle.363 10 615 series ANSI Technical Manual Table of contents Application.364 Signals.365 Settings.365 Monitored data.366 Technical data.366 Section 7 Condition monitoring functions.367 Circuit breaker condition monitoring 52CM.367 Identification.367 Function block.367 Functionality.367 Operation principle.368 Circuit breaker status.369 Circuit breaker operation monitoring.370 Breaker contact travel time.371 Operation counter.372 Accumulation of Iyt.373 Remaining life of the circuit breaker.375 Circuit breaker spring charged indication.376 Gas pressure supervision.377 Application.378 Signals.380 Settings.382 Monitored data.383 Technical data.383 Section 8 Measurement functions.385 Basic measurements.385 Functions.385 Measurement functionality.385 Measurement function applications.393 Three-phase current IA, IB, IC.394 Identification.394 Function block.394 Signals.394 Settings.395 Monitored data.395 Technical data.396 Three-phase voltage VA, VB, VC.397 Identification.397 615 series ANSI Technical Manual 11 Table of contents Function block.397 Signals.397 Settings.398 Monitored data.398 Technical data.399 Ground current IG.399 Identification.399 Function block.400 Signals.400 Settings.400 Monitored data.401 Technical data.401 Ground voltage VG.401 Identification.401 Function block.401 Signals.402 Settings.402 Monitored data.402 Technical data.403 Sequence current I1, I2, I0.403 Identification.403 Function block.403 Signals.403 Settings.404 Monitored data.405 Technical data.406 Phase sequence voltage V1, V2, V0.406 Identification.406 Function block.406 Signals.406 Settings.407 Monitored data.408 Technical data.409 Three-phase power and energy measurement P, E.409 Identification.409 Function block.409 Signals.409 Settings.410 Monitored data.410 Technical data.411 12 615 series ANSI Technical Manual Table of contents Digital fault recorder DFR.411 Functionality.411 Recorded analog inputs.412 Triggering alternatives.412 Length of recordings.413 Sampling frequencies.414 Uploading of recordings.414 Deletion of recordings.415 Storage mode.416 Pre-trigger and post-trigger data.416 Operation modes.416 Exclusion mode.417 Configuration.417 Application.418 Settings.419 Monitored data.421 Technical revision history.421 Tap position 84T.422 Identification.422 Function block.422 Functionality.422 Operation principle.422 Application.425 Signals.425 Settings.426 Monitored data.426 Technical data.426 Section 9 Control functions.427 Circuit breaker control 52.427 Identification.427 Function block.427 Functionality.427 Operation principle.428 Application.430 Signals.431 Settings.432 Monitored data.433 Technical revision history.433 Autoreclosing 79.433 615 series ANSI Technical Manual 13 Table of contents Identification.433 Function block.434 Functionality.434 Protection signal definition.434 Zone coordination.435 Master and slave scheme.435 Thermal overload blocking.436 Operation principle.437 Signal collection and delay logic.437 Shot initiation.441 Shot pointer controller.445 Reclose controller.446 Sequence controller.448 Protection coordination controller.449 Circuit breaker controller.450 Counters.452 Application.452 Shot initiation.453 Sequence.455 Configuration examples.456 Delayed initiation lines.460 Shot initiation from protection pickup signal.461 Fast trip in Switch on to fault.462 Signals.463 Settings.464 Monitored data.467 Technical data.468 Section 10 General function block features.469 Definite time characteristics.469 Definite time operation.469 Current based inverse definite minimum time characteristics.472 IDMT curves for overcurrent protection.472 Standard inverse-time characteristics.475 User-programmable inverse-time characteristics.491 RI and RD-type inverse-time characteristics.491 Reset in inverse-time modes.495 Inverse-timer freezing.504 Voltage based inverse definite minimum time characteristics.505 IDMT curves for overvoltage protection.505 14 615 series ANSI Technical Manual Table of contents Standard inverse-time characteristics for overvoltage protection.508 User programmable inverse-time characteristics for overvoltage protection.512 IDMT curve saturation of overvoltage protection.512 IDMT curves for undervoltage protection.513 Standard inverse-time characteristics for undervoltage protection.513 User-programmable inverse-time characteristics for undervoltage protection.516 IDMT curve saturation of undervoltage protection.516 Measurement modes.517 Section 11 Requirements for measurement transformers.519 Current transformers.519 Current transformer requirements for non-directional overcurrent protection.519 Current transformer accuracy class and accuracy limit factor.519 Non-directional overcurrent protection.520 Example for non-directional overcurrent protection.522 Section 12 IED physical connections.523 Protective ground connections.523 Communication connections.524 Ethernet RJ-45 RJ-45 front connection.524 Ethernet rear connections.525 EIA-232 EIA-232 serial rear connection.525 EIA-485 EIA-485 serial rear connection.525 Optical ST serial rear connection.525 Communication interfaces and protocols.525 Rear communication modules.526 COMB01A-COMB014A COMB01A-COMB014A jumper locations and connections.528 COMB023A COMB023A jumper locations and connections.530 Recommended industrial Ethernet switches.535 Section 13 Technical data.537 Section 14 IED and functionality tests.543 Section 15 Applicable standards and regulations.547 Section 16 Glossary.549 615 series ANSI Technical Manual 15 16 Section 1 Introduction 1MAC050144-MB 1MAC050144-MB A Section 1 Introduction 1.1 This manual The technical manual contains application and functionality descriptions and lists function blocks, logic diagrams, input and output signals, setting parameters and technical data sorted per function. The manual can be used as a technical reference during the engineering phase, installation and commissioning phase, and during normal service. 1.2 Intended audience This manual addresses system engineers and installation and commissioning personnel, who use technical data during engineering, installation and commissioning, and in normal service. The system engineer must have a thorough knowledge of protection systems, protection equipment, protection functions and the configured functional logic in the IEDs. The installation and commissioning personnel must have a basic knowledge in handling electronic equipment. 615 series ANSI Technical Manual 17 Section 1 Introduction 1MAC050144-MB 1MAC050144-MB A Decommissioning deinstalling & disposal Maintenance Operation Commissioning Product documentation set Installing 1.3.1 Engineering Product documentation Planning & purchase 1.3 Engineering manual Installation manual Commissioning manual Operation manual Service manual Application manual Technical manual Communication protocol manual en07000220.vsd IEC07000220 IEC07000220 V1 EN Figure 1: The intended use of manuals in different lifecycles The engineering manual contains instructions on how to engineer the IEDs using the different tools in PCM600 PCM600. The manual provides instructions on how to set up a PCM600 PCM600 project and insert IEDs to the project structure. The manual also recommends a sequence for engineering of protection and control functions, LHMI functions as well as communication engineering for IEC 61850 and DNP3. The installation manual contains instructions on how to install the IED. The manual provides procedures for mechanical and electrical installation. The chapters are organized in chronological order in which the IED should be installed. The commissioning manual contains instructions on how to commission the IED. The manual can also be used by system engineers and maintenance personnel for assistance 18 615 series ANSI Technical Manual Section 1 Introduction 1MAC050144-MB 1MAC050144-MB A during the testing phase. The manual provides procedures for checking of external circuitry and energizing the IED, parameter setting and configuration as well as verifying settings by secondary injection. The manual describes the process of testing an IED in a substation which is not in service. The chapters are organized in chronological order in which the IED should be commissioned. The operation manual contains instructions on how to operate the IED once it has been commissioned. The manual provides instructions for monitoring, controlling and setting the IED. The manual also describes how to identify disturbances and how to view calculated and measured power grid data to determine the cause of a fault. The service manual contains instructions on how to service and maintain the IED. The manual also provides procedures for de-energizing, de-commissioning and disposal of the IED. The application manual contains application descriptions and setting guidelines sorted per function. The manual can be used to find out when and for what purpose a typical protection function can be used. The manual can also be used when calculating settings. The technical manual contains application and functionality descriptions and lists function blocks, logic diagrams, input and output signals, setting parameters and technical data sorted per function. The manual can be used as a technical reference during the engineering phase, installation and commissioning phase, and during normal service. The communication protocol manual describes a communication protocol supported by the IED. The manual concentrates on vendor-specific implementations. The point list manual describes the outlook and properties of the data points specific to the IED. The manual should be used in conjunction with the corresponding communication protocol manual. Some of the manuals are not available yet. 1.3.2 Document revision history Document revision/date A/01/20/2010 Product series version 2.0 History First release Download the latest documents from the ABB web site http:// www.abb.com/substationautomation. 615 series ANSI Technical Manual 19 Section 1 Introduction 1.3.3 1MAC050144-MB 1MAC050144-MB A Related documentation Product series- and product-specific manuals can be downloaded from the ABB web site http://www.abb.com/substationautomation. 1.4 Symbols and conventions 1.4.1 Safety indication symbols The electrical warning icon indicates the presence of a hazard which could result in electrical shock. The warning icon indicates the presence of a hazard which could result in personal injury. The caution icon indicates important information or warning related to the concept discussed in the text. It might indicate the presence of a hazard which could result in corruption of software or damage to equipment or property. The information icon alerts the reader to important facts and conditions. The tip icon indicates advice on, for example, how to design your project or how to use a certain function. Although warning hazards are related to personal injury, it should be understood that operation of damaged equipment could, under certain operational conditions, result in degraded process performance leading to personal injury or death. Therefore, comply fully with all warning and caution notices. 1.4.2 Manual conventions Conventions used in IED manuals. A particular convention may not be used in this manual. 20 615 series ANSI Technical Manual Section 1 Introduction 1MAC050144-MB 1MAC050144-MB A · · · · · · · · 1.4.3 Abbreviations and acronyms in this manual are spelled out in the glossary. The glossary also contains definitions of important terms. Push button navigation in the LHMI menu structure is presented by using the push button icons, for example: To navigate between the options, use and . HMI menu paths are presented in bold, for example: Select Main menu/Settings. LHMI messages are shown in Courier font, for example: To save the changes in non-volatile memory, select Yes and press . Parameter names are shown in italics, for example: The function can be enabled and disabled with the Operation setting. Parameter values are indicated with quotation marks, for example: The corresponding parameter values are "Enabled" and "Disabled". IED input/output messages and monitored data names are shown in Courier font, for example: When the function picks up, the PICKUP output is set to TRUE. Dimensions are provided both in inches and mm. If it is not specifically mentioned then the dimension is in mm. Functions, codes and symbols All available functions are listed in the table. All of them may not be applicable to all products. Table 1: Functions included in standard configurations Standard configuration functionality IEC 61850 IEC 60617 ANSI Protection Three-phase transformer inrush detector INRPHAR1 3I2f> INR Three-phase non-directional time overcurrent protection, low stage PHLPTOC1 3I>(1) 51P Three-phase non-directional time overcurrent protection, high stage 1 PHHPTOC1 3I>>(1) 50P-1 50P-1 Three-phase non-directional time overcurrent protection, high stage 2 PHHPTOC2 3I>>(2) 50P-2 50P-2 Three-phase non-directional instantaneous overcurrent protection PHIPTOC1 3I>>>(1) 50P-3 50P-3 Three-phase non-directional time overcurrent protection, low stage PHLPTOC2 3I>(2) 51P Three-phase non-directional time overcurrent protection, high stage 1 PHHPTOC3 3I>>(3) 50P Three-phase non-directional long time overcurrent protection PHLTPTOC1 3I>(3) 51LT Table continues on next page 615 series ANSI Technical Manual 21 Section 1 Introduction 1MAC050144-MB 1MAC050144-MB A Standard configuration functionality IEC 61850 IEC 60617 ANSI Ground non-directional time overcurrent protection, low stage (Measured) EFLPTOC1 I0>(1) 51G Non-directional sensitive earth-fault protection EFLPTOC3 I0>(3) 50SEF 50SEF Ground non-directional time overcurrent protection, high stage 1 (Measured) EFHPTOC1 I0>> (1) 50G-1 50G-1 Ground non-directional time overcurrent protection, high stage 2 (Measured) EFHPTOC2 I0>> (2) 50G-2 50G-2 Ground non-directional instantaneous overcurrent protection, (Measured) EFIPTOC1 I0>>> (1) 50G-3 50G-3 Ground non-directional time overcurrent protection, low stage (Calculated) EFLPTOC2 I0>(2) 51N Ground non-directional time overcurrent protection, high stage 1 (Calculated) EFHPTOC3 I0>> (3) 50N-1 50N-1 Ground non-directional time overcurrent protection, high stage 2 (Calculated) EFHPTOC4 I0>> (4) 50N-2 50N-2 Ground non-directional instantaneous overcurrent protection, (Calculated) EFIPTOC2 I0>>> (2) 50N-3 50N-3 Ground non-directional time overcurrent protection, high stage 1 (Calculated) EFHPTOC5 I0>> (5) 50N Three phase overvoltage protection, stage 1 PHPTOV1 3U>(1) 59-1 Three phase overvoltage protection, stage 2 PHPTOV2 3U>(2) 59-2 Three-phase undervoltage protection, stage 1 PHPTUV1 3U 47 Directional ground-fault protection, low stage DEFLPDEF1 I0>->(1) 67/51N 67/51N Directional ground-fault protection, high stage 1 DEFLPDEF2 I0>->(2) 67/50N-1 67/50N-1 Directional ground-fault protection, high stage 2 DEFHPDEF1 I0>>->(1) 67/50N-2 67/50N-2 Three-phase directional overcurrent protection, low stage DPHLPDOC1 3I>->(1) 67/51P 67/51P Three-phase directional overcurrent protection, high stage 1 DPHLPDOC2 3I>->(2) 67/50P-1 67/50P-1 Three-phase directional overcurrent protection, high stage 2 DPHHPDOC1 3I>>->(1) 67/50P-2 67/50P-2 Negative sequence non-directional time overcurrent protection 1 NSPTOC1 I2>(1) 46-1 Negative sequence non-directional time overcurrent protection 2 NSPTOC2 I2>(2) 46-2 Phase discontinuity protection PDNSPTOC1 I2/I1> 46PD Table continues on next page 22 615 series ANSI Technical Manual Section 1 Introduction 1MAC050144-MB 1MAC050144-MB A Standard configuration functionality IEC 61850 IEC 60617 ANSI Three-phase thermal protection for feeders, cables and distribution transformers T1PTTR1 3Ith>F 49F Three-phase thermal overload protection, two time constants, high voltage side T2PTTR1 3Ith>T 49T (1) Loss of load protection LOFLPTUC1 3I< 37 Phase reversal protection PREVPTOC1 I2>> 46R Motor stall protection JAMPTOC1 Ist> 51LR Motor startup supervision STTPMSU1 Is2t n< 66/51LRS 66/51LRS Three-phase thermal overload protection for motors MPTTR1 3Ith>M 49M Negative phase-sequence time overcurrent protection, stage 1 MNSPTOC1 I2>M(1) 46M-1 46M-1 Negative phase-sequence time overcurrent protection, stage 2 MNSPTOC2 I2>M(2) 46M-2 46M-2 Low impedance restricted ground fault protection LREFPNDF1 dI0Lo> 87LOZREF 87LOZREF Transformer differential protection for two winding transformers TR2PTDF1 3dI>T 87T Cold load timer 1 (Seconds) TPSGAPC1 TPS(1) 62CLD-1 62CLD-1 Cold load timer 2 (Minutes) TPMGAPC1 TPM(1) 62CLD-2 62CLD-2 Arc flash detector 1 ARCPSARC1 ARC(1) AFD-1 Arc flash detector 2 ARCPSARC2 ARC(2) AFD-2 Arc flash detector 3 ARCPSARC3 ARC(3) AFD-3 High impedance fault detector PHIZ1 PHIZ1 HIZ Circuit breaker failure protection CCBRBRF1 3I>/IoBF(1) 50BF Autoreclosing DARREC1 O->I 79 Circuit Breaker Control CBXCBR1 IO CB 52-1 Emergency start function ESMGAPC1 ESTART 62EST 62EST Circuit breaker condition monitoring SSCBR1 CBCM 52CM Trip circuit monitoring 1 TCSSCBR1 TCS(1) TCM-1 Trip circuit monitoring 2 TCSSCBR2 TCS(2) TCM-2 Current circuit supervision CCRDIF1 MCS 3I CCM Fuse failure supervision SEQRFUF1 FUSEF 60 Operation time counter, stage 1 MDSOPT1 OPTS(1) OPTM-1 Operation time counter, stage 2 MDSOPT2 OPTS(2) OPTM-2 CMMXU1 3I IA, IB, IC Control Supervision and monitoring Measurement Three-phase current measurement Table continues on next page 615 series ANSI Technical Manual 23 Section 1 Introduction 1MAC050144-MB 1MAC050144-MB A Standard configuration functionality VMMXU1 3U VA, VB, VC Sequence current measurement CSMSQI1 I1,I2,I0 I1, I2, I0 Sequence voltage measurement VSMSQI1 U1,U2,U0 V1, V2, V0 Ground current measurement RESCMMXU1 I0 IG Ground voltage measurement RESVMMXU1 U0 VG Three-phase power and energy measurement PEMMXU1 P,E P, E Tap position TPOSSLTC1 TPOSM 84T Digital fault recorder RDRE1 DR DFR Sequence of events recorder SER SER SER Fault recorder FLTMSTA FR FLR Electrically latched/self resetting trip output 1 TRPPTRC1 Trip(1) 86/94-1 Electrically latched/self resetting trip output 2 24 IEC 61850 Three-phase voltage measurement IEC 60617 ANSI TRPPTRC2 Trip(2) 86/94-2 615 series ANSI Technical Manual Section 2 615 series overview 1MAC050144-MB 1MAC050144-MB A Section 2 615 series overview 2.1 Overview 615 series is a product family of IEDs designed for protection, control, measurement and supervision of utility substations and industrial switchgear and equipment. The design of the IEDs has been guided by the IEC 61850 standard for communication and interoperability of substation automation devices. The IEDs feature draw-out-type design with a variety of mounting methods, compact size and ease of use. Depending on the product, optional functionality is available at the time of order for both software and hardware, for example, autoreclosure and additional I/Os. The 615 series IEDs support a range of communication protocols including IEC 61850 with GOOSE messaging, Modbus® and DNP3. 2.1.1 Product series version history Product series version Product series history 1.0.1 First product from 615 series REF615 REF615 released 1.1 · · · · · · · · 2.0 Circuit breaker condition monitoring Replaced EFIPTOC3 with EFLPTOC3 New communication modules COMB11A COMB11A, COMB12A COMB12A, COMB13A COMB13A and COMB14A COMB14A IRIG-B CB interlocking functionality enhanced TCS functionality in HW enhanced Non-volatile memory added Serial communications New products: · · REM615 REM615 RET615 RET615 Platform enhancements · · · · · 615 series ANSI Technical Manual Support for DNP3 serial or TCP/IP Voltage measurement and protection Power and energy measurement Disturbance recorder upload via WHMI Fuse failure supervision 25 Section 2 615 series overview 2.1.2 1MAC050144-MB 1MAC050144-MB A PCM600 PCM600 and IED connectivity package version · · · · Protection and Control IED Manager PCM600 PCM600 Ver. 2.0 SP2 or later IED Connectivity Package REF615 REF615 ANSI Ver. 1.2 or later IED Connectivity Package REM615 REM615 ANSI Ver. 1.0 or later IED Connectivity Package RET615 RET615 ANSI Ver. 1.0 or later Download connectivity packages from the ABB web site http:// www.abb.com/substationautomation 2.2 Local HMI A070704-ANSI A070704-ANSI V1 EN Figure 2: 26 LHMI 615 series ANSI Technical Manual Section 2 615 series overview 1MAC050144-MB 1MAC050144-MB A The LHMI of the IED contains the following elements: · · · · Display Buttons LED indicators Communication port The LHMI is used for setting, monitoring and controlling. 2.2.1 LCD The LHMI includes a graphical LCD that supports two character sizes. The character size depends on the selected language. Table 2: Characters and rows on the view Character size Rows in view Large, variable width (13x14 pixels) 4 rows 8 rows with large screen Characters on row min 8 The display view is divided into four basic areas. 1 2 3 4 A070705-ANSI A070705-ANSI V2 EN Figure 3: Display layout 1 Header 2 Icon 3 Content 4 Scroll bar (displayed when needed) 615 series ANSI Technical Manual 27 Section 2 615 series overview 2.2.2 1MAC050144-MB 1MAC050144-MB A LEDs The LHMI includes three protection indicators above the display: Normal, Pickup and Trip. There are also 11 matrix programmable alarm LEDs on front of the LHMI. The LEDs can be configured with PCM600 PCM600 and the operation mode can be selected with the LHMI, WHMI or PCM600 PCM600. There are two additional LEDs which are embedded into the control buttons . They represent the status of the circuit breaker. 2.2.3 and Keypad The LHMI keypad contains push-buttons which are used to navigate in different views or menus. With the push-buttons you can give open or close commands to one primary object, for example, a circuit breaker, disconnector or switch. The push-buttons are also used to acknowledge alarms, reset indications, provide help and switch between local and remote control mode. A071176-ANSI A071176-ANSI V1 EN Figure 4: 2.3 LHMI keypad with object control, navigation and command pushbuttons and RJ-45 RJ-45 communication port Web HMI The WHMI enables the user to access the IED via a web browser. The supported web browser version is Internet Explorer 7.0 or later. 28 615 series ANSI Technical Manual Section 2 615 series overview 1MAC050144-MB 1MAC050144-MB A WHMI is enabled by default. WHMI offers several functions. · · · · · · Alarm indications and event lists System supervision Parameter settings Measurement display Oscillographic records Phasor diagram The menu tree structure on the WHMI is almost identical to the one on the LHMI. A070754-ANSI A070754-ANSI V1 EN Figure 5: Example view of the WHMI The WHMI can be accessed locally and remotely. · · 615 series ANSI Technical Manual Locally by connecting your laptop to the IED via the front communication port. Remotely over LAN/WAN. 29 Section 2 615 series overview 2.4 1MAC050144-MB 1MAC050144-MB A Authorization The user categories have been predefined for the LHMI and the WHMI, each with different rights and default passwords. The default passwords can be changed with Administrator user rights. User authorization is disabled by default but WHMI always uses authorization. Table 3: Predefined user categories Username User rights VIEWER Read only access OPERATOR · · · · ENGINEER · · · · Selecting remote or local state with (only locally) Changing setting groups Controlling Clearing alarm and indication LEDs and textual indications · · ADMINISTRATOR Changing settings Clearing event list Clearing DFRs Changing system settings such as IP address, serial baud rate or DFR settings Setting the IED to test mode Selecting language · · · All listed above Changing password Factory default activation For user authorization for PCM600 PCM600, see PCM600 PCM600 documentation. 2.5 Communication The IED supports different communication protocols: IEC 61850, Modbus® and DNP 3.0 Level 2 - all using TCP/IP. DNP3 and Modbus also support serial communication. Operational information and controls are available through these protocols. 30 615 series ANSI Technical Manual 1MAC050144-MB 1MAC050144-MB A Section 2 615 series overview The IEC 61850 communication implementation supports all monitoring and control functions. Additionally, parameter setting and DFR records can be accessed using the IEC 61850 protocol. Oscillographic files are available to any Ethernet-based application in the standard COMTRADE format. Further, the IED can send and receive binary signals from other IEDs (so called horizontal communication) using the IEC61850-8-1 IEC61850-8-1 GOOSE profile, where the highest performance class with a total transmission time of 3 ms is supported. The IED meets the GOOSE performance requirements for tripping applications in distribution substations, as defined by the IEC 61850 standard. The IED can simultaneously report events to five different clients on the station bus. All communication connectors, except for the front port connector, are placed on integrated optional communication modules. The IED can be connected to Ethernetbased communication systems via the RJ-45 RJ-45 connector (100BASE-TX 100BASE-TX) or the fiberoptic LC connector (100BASE-FX 100BASE-FX). 615 series ANSI Technical Manual 31 32 Section 3 Basic functions 1MAC050144-MB 1MAC050144-MB A Section 3 Basic functions 3.1 General parameters Table 4: Analog input settings, phase currents: Non group settings Parameter Values (Range) Secondary current Primary current 1.0.6000.0 Unit Step 2=1A 3=5A Default Description 3=5A A Rated secondary current 0.1 600.0 Rated primary current Amplitude corr. A 0.900.1.100 0.001 1.000 Phase A amplitude correction factor Amplitude corr. B 0.900.1.100 0.001 1.000 Phase B amplitude correction factor Amplitude corr. C 0.900.1.100 0.001 1.000 Phase C amplitude correction factor Table 5: Analog input settings, ground current: Non group settings Parameter Values (Range) Secondary current Primary current 1.0.6000.0 Amplitude corr. Unit 0.900.1.100 Step 1=0.2A 2=1A 3=5A Table 6: Default Description 2=1A 0.1 100.0 desc 0.001 A desc 1.000 Amplitude correction Analog input settings, phase voltages: Non group settings Parameter Values (Range) Primary voltage 0.001.440.000 Secondary voltage Unit Step 0.001 Default Description 13.800 Primary rated voltage 1=100V 2=110V 3=115V 4=120V 4=120V Secondary rated voltage VT connection 1=Wye 2=Delta 1=Wye Wye or delta VT connection Amplitude corr. A 0.900.1.100 0.001 1.000 Phase A Voltage phasor magnitude correction of an external voltage transformer Amplitude corr. B 0.900.1.100 0.001 1.000 Phase B Voltage phasor magnitude correction of an external voltage transformer Amplitude corr. C 0.900.1.100 0.001 1.000 Phase C Voltage phasor magnitude correction of an external voltage transformer 615 series ANSI Technical Manual kV 33 Section 3 Basic functions Table 7: 1MAC050144-MB 1MAC050144-MB A Analog input settings, ground voltage: Non group settings Parameter Values (Range) Secondary voltage 0.001.440.000 Amplitude corr. 0.900.1.100 Step 1=100V 2=110V 3=115V 4=120V Primary voltage Unit Default Description 1=100V Table 8: 0.001 11.547 Primary voltage 0.001 kV Secondary voltage 1.000 Amplitude correction Alarm LED: Input signals Name Type Default Description Alarm LED 1 BOOLEAN 0=False Status of Alarm LED 2 BOOLEAN 0=False Status of Alarm LED 3 Alarm LED 4 BOOLEAN 0=False Status of Alarm LED 4 Alarm LED 5 BOOLEAN 0=False Status of Alarm LED 5 Alarm LED 6 BOOLEAN 0=False Status of Alarm LED 6 Alarm LED 7 BOOLEAN 0=False Status of Alarm LED 7 Alarm LED 8 BOOLEAN 0=False Status of Alarm LED 8 Alarm LED 9 BOOLEAN 0=False Status of Alarm LED 9 Alarm LED 10 BOOLEAN 0=False Status of Alarm LED 10 Alarm LED 11 Alarm LED mode Status of Alarm LED 1 Alarm LED 3 Parameter 0=False Alarm LED 2 Table 9: BOOLEAN BOOLEAN 0=False Status of Alarm LED 11 Alarm LED: Non group settings Values (Range) 0=Follow-S 1=Follow-F 2=Latched-S 3=LatchedAck-F-S Default Description 0=Follow-S 1=Follow-F 2=Latched-S 3=LatchedAck-F-S Description 0=Follow-S Alarm mode for LED 1 Description of alarm 0=Follow-S Alarm mode for LED 2 Alarm LEDs LED 2 0=Follow-S 1=Follow-F 2=Latched-S 3=LatchedAck-F-S Description Alarm LED mode Step Alarm LEDs LED 1 Description Alarm LED mode Unit Description of alarm 0=Follow-S Alarm mode for LED 3 Alarm LEDs LED 3 Description of alarm Table continues on next page 34 615 series ANSI Technical Manual Section 3 Basic functions 1MAC050144-MB 1MAC050144-MB A Parameter Alarm LED mode Values (Range) 0=Follow-S 1=Follow-F 2=Latched-S 3=LatchedAck-F-S Alarm LED mode Description Alarm LED mode 0=Follow-S 1=Follow-F 2=Latched-S 3=LatchedAck-F-S Description Alarm LED mode Description 615 series ANSI Technical Manual 0=Follow-S 1=Follow-F 2=Latched-S 3=LatchedAck-F-S Alarm mode for LED 5 Description of alarm 0=Follow-S Alarm mode for LED 6 Description of alarm 0=Follow-S Alarm mode for LED 7 Description of alarm 0=Follow-S Alarm mode for LED 8 Description of alarm 0=Follow-S Alarm mode for LED 9 Description of alarm 0=Follow-S Alarm mode for LED 10 Alarm LEDs LED 10 0=Follow-S 1=Follow-F 2=Latched-S 3=LatchedAck-F-S 0=Follow-S Alarm LEDs LED 9 Description Description of alarm Alarm LEDs LED 8 0=Follow-S 1=Follow-F 2=Latched-S 3=LatchedAck-F-S Alarm mode for LED 4 Alarm LEDs LED 7 0=Follow-S 1=Follow-F 2=Latched-S 3=LatchedAck-F-S Description Alarm LED mode Description 0=Follow-S Alarm LEDs LED 6 0=Follow-S 1=Follow-F 2=Latched-S 3=LatchedAck-F-S Description Alarm LED mode Default Alarm LEDs LED 5 0=Follow-S 1=Follow-F 2=Latched-S 3=LatchedAck-F-S Description Alarm LED mode Step Alarm LEDs LED 4 Description Alarm LED mode Unit Description of alarm 0=Follow-S Alarm mode for LED 11 Alarm LEDs LED 11 Description of alarm 35 Section 3 Basic functions Table 10: Parameter 1MAC050144-MB 1MAC050144-MB A Authorization: Non group settings Values (Range) Unit Step Default Description Local override 0=False 1=True 1=True Disable authority Remote override 0=False 1=True 1=True Disable authority Local viewer 0 Set password Local operator 0 Set password Local engineer 0 Set password Local admin 0 Set password Remote viewer 0 Set password Remote operator 0 Set password Remote engineer 0 Set password Remote admin 0 Set password Table 11: Parameter Binary input: Non group settings Values (Range) Unit Step Default Description Threshold voltage 18.176 Vdc 2 48 Digital input threshold voltage Input osc. level 2.50 events/s 1 30 Digital input oscillation suppression threshold Input osc. hyst 2.50 events/s 1 10 Digital input oscillation suppression hysteresis Table 12: Parameter Ethernet front port: Non group settings Values (Range) Unit Step Default Description IP address 192.168.0.254 IP address for front port (fixed) Mac address XX-XX-XX-XXXX-XX Mac address for front port Table 13: Parameter Ethernet rear port: Non group settings Values (Range) Unit Step Default Description IP address 192.168.2.10 IP address for rear port(s) Subnet mask 255.255.255.0 Subnet mask for rear port(s) Default gateway 192.168.2.1 Default gateway for rear port(s) Mac address XX-XX-XX-XXXX-XX Mac address for rear port(s) 36 615 series ANSI Technical Manual Section 3 Basic functions 1MAC050144-MB 1MAC050144-MB A Table 14: General system: Non group settings Parameter Values (Range) Unit Step Default Description Rated frequency 1=50Hz 2=60Hz 2=60Hz Rated frequency of the network Phase rotation 1=ABC 2=ACB 1=ABC Phase rotation order Blocking mode 1=Freeze timer 2=Block all 3=Block trip 1=Freeze timer Behaviour for function BLOCK inputs REF615 REF615 Bay name in system 0=False Enable setting group change to follow the input state Bay name SG follow input Table 15: 0=False 1=True HMI: Non group settings Parameter Values (Range) Unit Step Default Description FB naming convention 1=IEC61850 IEC61850 2=IEC60617 IEC60617 4=ANSI 4=ANSI FB naming convention used in IED Default view 1=Measurements 2=Main menu 1=Measurements LHMI default view Backlight timeout 1.60 60 LHMI backlight timeout Web HMI mode 1=Active read only 2=Active 3=Disabled 2=Active Web HMI functionality Web HMI timeout 1.60 10 Web HMI login timeout SLD symbol format 1=IEC 2=ANSI 2=ANSI Single Line Diagram symbol format Table 16: min 1 1 IEC 61850-8-1 MMS: Non group settings Parameter Values (Range) Unit mode Table 17: min Unit Step 1=Primary 0=Nominal 2=Primary-Nominal Default 0=Nominal Description IEC 61850-8-1 unit mode DNP3: Non group settings Parameter Values (Range) DNP physical layer Unit address 1.65519 Master address 1.65519 Unit Step 1=Serial 2=TCP/IP Default Description 2=TCP/IP DNP physical layer 1 1 DNP unit address 1 3 DNP master and UR address Table continues on next page 615 series ANSI Technical Manual 37 Section 3 Basic functions 1MAC050144-MB 1MAC050144-MB A Parameter Values (Range) Serial port 0=Not in use 1=COM 1 2=COM 2 Unit Need time interval 0.65535 Time format 0=UTC 1=Local CROB select timeout 1.65535 Data link confirm 0=Never 1=Only Multiframe 2=Always Data link confirm TO 100.65535 Data link retries 0.65535 Data link Rx to Tx delay 0.255 Data link inter char delay 0.20 App layer confirm 1=Disable 2=Enable App confirm TO 100.65535 ms App layer fragment 256.2048 bytes UR mode 1=Disable 2=Enable UR retries 0.65535 UR TO 0.65535 UR offline interval 0.65535 UR Class 1 Min events 0.999 UR Class 1 TO 0.65535 UR Class 2 Min events 0.999 UR Class 2 TO 0.65535 UR Class 3 Min events 0.999 UR Class 3 TO 0.65535 Legacy master UR Step Default Description 0=Not in use COM port for serial interface, when physical layer is serial. 30 Period to set IIN need time bit 1=Local UTC or local. Coordinate with master. 10 Control Relay Output Block select timeout 0=Never Data link confirm mode 1 3000 Data link confirm timeout 1 3 Data link retries count ms 1 0 Turnaround transmission delay char 1 4 Inter character delay for incoming messages 1=Disable Application layer confirm mode 1 5000 Application layer confirm and UR timeout 1 2048 Application layer fragment size 1=Disable Unsolicited responses mode 1 3 Unsolicited retries before switching to UR offline mode ms 1 5000 Unsolicited response timeout min 1 15 Unsolicited offline interval 1 2 Min number of class 1 events to generate UR 1 50 Max holding time for class 1 events to generate UR 1 2 Min number of class 2 events to generate UR 1 50 Max holding time for class 2 events to generate UR 1 2 Min number of class 3 events to generate UR 1 50 Max holding time for class 3 events to generate UR 1=Disable 2=Enable 1=Disable Legacy DNP master unsolicited mode support. When enabled relay does not send initial unsolicited message. Legacy master SBO 1=Disable 2=Enable 1=Disable Legacy DNP Master SBO sequence number relax enable Default Var Obj 01 1.2 1 1=BI; 2=BI with status. min sec ms ms ms ms 1 1 1 Table continues on next page 38 615 series ANSI Technical Manual Section 3 Basic functions 1MAC050144-MB 1MAC050144-MB A Parameter Values (Range) Unit Step Default Description Default Var Obj 02 1.2 1 2 1=BI event; 2=BI event with time. Default Var Obj 30 1.4 1 2 1=32 bit AI; 2=16 bit AI; 3=32 bit AI without flag; 4=16 bit AI without flag. Default Var Obj 32 1.4 1 4 1=32 bit AI event; 2=16 bit AI event; 3=32 bit AI event with time; 4=16 bit AI event with time. Table 18: Parameter COM1/COM2 serial communication: Non group settings Values (Range) Unit Step Default Description Fiber mode 0=No fiber 1=Fiber light ON loop 2=Fiber light OFF loop 3=Fiber light ON star 4=Fiber light OFF star 0=No fiber Fiber mode for COM1 Serial mode 1=RS485 RS485 2Wire 2=RS485 RS485 4Wire 3=RS232 RS232 no handshake 4=RS232 RS232 with handshake 1=RS485 RS485 2Wire Serial mode for COM1 CTS delay 0.60000 0 CTS delay for COM1 RTS delay 0.60000 0 RTS delay for COM1 Baudrate 1=300 2=600 3=1200 4=2400 5=4800 6=9600 7=19200 8=38400 9=57600 10=115200 6=9600 Baudrate for COM1 615 series ANSI Technical Manual 39 Section 3 Basic functions Table 19: Parameter 1MAC050144-MB 1MAC050144-MB A Serial communication: Non group settings Values (Range) Unit Step Default Description Fiber mode 0=No fiber 1=Fiber light ON loop 2=Fiber light OFF loop 3=Fiber light ON star 4=Fiber light OFF star 0=No fiber Fiber mode for COM2 Serial mode 1=RS485 RS485 2Wire 2=RS485 RS485 4Wire 3=RS232 RS232 no handshake 4=RS232 RS232 with handshake 1=RS485 RS485 2Wire Serial mode for COM2 CTS delay 0.60000 0 CTS delay for COM2 RTS delay 0.60000 0 RTS delay for COM2 Baudrate 1=300 2=600 3=1200 4=2400 5=4800 6=9600 7=19200 8=38400 9=57600 10=115200 6=9600 Baudrate for COM2 Table 20: Parameter Time: Non group settings Values (Range) Unit Step Default Description Date 0 Date Time 0 Time Time format 1=HH:MM:SS:MSA M 2=HH:MM:SS:MSP M 1=HH:MM:SS:MS AM Time format Date format 1=DD.MM.YYYY 2=DD/MM/YYYY 3=YYYY-MM-DD 4=MM.DD.YYYY 5=MM/DD/YYYY 6=YYYY-MM-DD 7=YYYY-DD-MM 8=YYYY/DD/MM 5=MM/DD/YYYY Date format Local time offset -720.720 -300 Local time offset in minutes min Table continues on next page 40 615 series ANSI Technical Manual Section 3 Basic functions 1MAC050144-MB 1MAC050144-MB A Parameter Synch source Values (Range) Unit Step 0=None 1=SNTP 2=Modbus 5=IRIG-B 9=DNP Default Description 1=SNTP Time synchronization source IP SNTP primary 10.58.125.165 IP address for SNTP primary server IP SNTP secondary 192.168.2.165 IP address for SNTP secondary server DST on time 02:00 Daylight savings time on, time (hh:mm) 01.05. Daylight savings time on, date (dd:mm) 7=Sun Daylight savings time on, day of week 60 Daylight savings time offset, in minutes DST off time 02:00 Daylight savings time off, time (hh:mm) DST off date 25.09. Daylight savings time off, date (dd:mm) 7=Sun Daylight savings time off, day of week DST on date DST on day 0=No in use 1=Mon 2=Tue 3=Wed 4=Thu 5=Fri 6=Sat 7=Sun DST offset -720.720 DST off day min 0=No in use 1=Mon 2=Tue 3=Wed 4=Thu 5=Fri 6=Sat 7=Sun Table 21: Parameter Pulse time Table 22: Name Generic timers, TPGAPC1.4 Values (Range) 0.60000 Unit ms Step 1 Default Description 150 Minimum pulse time X100 PSM: Output signals Type Default Description X100-PO1 X100-PO1 0=False Connectors 6-7 X100-PO2 X100-PO2 BOOLEAN 0=False Connectors 8-9 X100-SO1 X100-SO1 BOOLEAN 0=False Connectors 10c-11nc-12no X100-SO2 X100-SO2 BOOLEAN 0=False Connectors 13c-14no X100-PO3 X100-PO3 BOOLEAN 0=False Connectors 15-17/18-19 X100-PO4 X100-PO4 615 series ANSI Technical Manual BOOLEAN BOOLEAN 0=False Connectors 20-22/23-24 41 Section 3 Basic functions 1MAC050144-MB 1MAC050144-MB A Table 23: X110 BIO: Output signals Name Type Default Description X110-SO1 X110-SO1 BOOLEAN 0=False Connectors 14c-15no-16nc X110-SO2 X110-SO2 BOOLEAN 0=False Connectors 17c-18no-19nc X110-SO3 X110-SO3 BOOLEAN 0=False Connectors 20c-21no-22nc X110-SO4 X110-SO4 BOOLEAN 0=False Connectors 23-24 Table 24: X110 BIO: Input signals Name Type Description X110-Input 1 Connectors 3-4 BOOLEAN Connectors 5-6c X110-Input 4 BOOLEAN Connectors 7-6c X110-Input 5 BOOLEAN Connectors 8-9c X110-Input 6 BOOLEAN Connectors 10-9c X110-Input 7 BOOLEAN Connectors 11-12c X110-Input 8 Parameter Connectors 1-2 BOOLEAN X110-Input 3 Table 25: BOOLEAN X110-Input 2 BOOLEAN Connectors 13-12c X110 BIO: Non group settings Values (Range) Unit Step Default Description Input 1 filter time 5.1000 ms 5 Connectors 1-2 Input 2 filter time 5.1000 ms 5 Connectors 3-4 Input 3 filter time 5.1000 ms 5 Connectors 5-6c Input 4 filter time 5.1000 ms 5 Connectors 7-6c Input 5 filter time 5.1000 ms 5 Connectors 8-9c Input 6 filter time 5.1000 ms 5 Connectors 10-9c Input 7 filter time 5.1000 ms 5 Connectors 11-12c Input 8 filter time 5.1000 ms 5 Connectors 13-12c Input 1 inversion 0=False 1=True 0=False Connectors 1-2 Input 2 inversion 0=False 1=True 0=False Connectors 3-4 Input 3 inversion 0=False 1=True 0=False Connectors 5-6c Input 4 inversion 0=False 1=True 0=False Connectors 7-6c Table continues on next page 42 615 series ANSI Technical Manual Section 3 Basic functions 1MAC050144-MB 1MAC050144-MB A Parameter Values (Range) Unit Step Default Description Input 5 inversion 0=False 1=True 0=False Connectors 8-9c Input 6 inversion 0=False 1=True 0=False Connectors 10-9c Input 7 inversion 0=False 1=True 0=False Connectors 11-12c Input 8 inversion 0=False 1=True 0=False Connectors 13-12c Table 26: X120 AIM: Input signals Name Type Description X120-Input 1 BOOLEAN Connectors 3-2c X120-Input 3 BOOLEAN Connectors 4-2c X120-Input 4 Parameter Connectors 1-2c X120-Input 2 Table 27: BOOLEAN BOOLEAN Connectors 5-6 X120 AIM: Non group settings Values (Range) Unit Step Default Description Input 1 filter time 5.1000 ms 5 Connectors 1-2c Input 2 filter time 5.1000 ms 5 Connectors 3-2c Input 3 filter time 5.1000 ms 5 Connectors 4-2c Input 4 filter time 5.1000 ms 5 Connectors 5-6 Input 1 inversion 0=False 1=True 0=False Connectors 1-2c Input 2 inversion 0=False 1=True 0=False Connectors 3-2c Input 3 inversion 0=False 1=True 0=False Connectors 4-2c Input 4 inversion 0=False 1=True 0=False Connectors 5-6 Table 28: Name X130 BIO: Output signals Type Default Description X130-SO1 X130-SO1 0=False Connectors 10c-11no-12nc X130-SO2 X130-SO2 BOOLEAN 0=False Connectors 13c-14no-15nc X130-SO3 X130-SO3 615 series ANSI Tech