Page 1 Preface Open Source Software Table of Contents Smart Communication Safety Instructions SWT 3000 Teleprotection Functional Description Installation and Commissioning P3.5.186 and higher Diagnostics and Error Handling Equipment Manual PowerSys and Auxiliary Software Tools SNMP and Remote Access Processing Unit Module...
Page 2 Disclaimer of Liability Copyright Subject to changes and errors. The information given in Copyright © Siemens 2020. All rights reserved. this document only contains general descriptions and/or The disclosure, duplication, distribution and editing of this performance features which may not always specifically...
Page 3: Preface
• Equipment Manual The Equipment Manual describes the functions and applications of SWT 3000 devices. Indication of Conformity This product complies with the directive of the Council of the European Communities on harmonization of the laws of the Member States relating to electromagnetic compatibility (EMC Directive 2014/30/EU) and concerning electric equipment for use within specified voltage limits (Low Voltage Directive 2014/35/EU).
Page 4 The products and systems listed here are manufactured and marketed using a DQS-certified quality manage- ment system in accordance with ISO 9001. Additional Support For questions about the system, contact your Siemens sales partner. Support Our Customer Support Center provides a 24-hour service.
Page 5 Earth (ground) terminal, IEC 60417, 5017 Protective conductor terminal, IEC 60417, 5019 Caution, risk of electric shock Caution, risk of danger, ISO 7000, 0434 Protective Insulation, IEC 60417, 5172, Safety Class II devices Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 6 Preface Symbol Description Guideline 2002/96/EC for electrical and electronic devices Guideline for the Eurasian Market Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 7: Open Source Software
License Conditions provide for it you can order the source code of the Open Source Software from your Siemens sales contact – against payment of the shipping and handling charges – for a period of at least 3 years after purchase of the product. We are liable for the product including the Open Source Software contained in it pursuant to the license conditions applicable to the product.
Page 8 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 9: Table Of Contents
Quick Overview of the Features................... 32 Applications for Transmission.................... 34 2.2.1 Applications for Digital Transmission................34 2.2.2 Applications for Analog and/or Digital Transmission............. 34 2.2.3 Combination of Analog and Digital Interfaces...............35 2.2.4 Transmission Paths...................... 35 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 10 2.4.1 Overview........................40 2.4.2 Broadband Version...................... 40 2.4.3 Narrow-Band Version....................41 2.4.4 Applications for Narrow-Band Devices................41 Possible Ways of Using the SWT 3000................44 2.5.1 Analog Transmission Path.................... 44 2.5.2 Digital Transmission Path..................... 45 2.5.3 Analog and Digital Transmission Path................46 2.5.4 Integrated Into the PowerLink PLC System..............47...
Page 11 Pinout of the Fiber-Optic Module................108 Jumper Settings for SWT 3000 Modules................110 3.3.1 General Information....................110 3.3.2 Jumper Settings for IFC Modules................110 3.3.2.1 Overview......................110 3.3.2.2 DIP Switches on IFC Modules................112 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 12 IP Network Configuration...................157 3.5.14 Alarm Configuration....................161 3.5.14.1 Alarm Output Allocation for ALR................161 3.5.14.2 Alarm Output Allocation for IFC................163 3.5.14.3 Alarm Output Allocation for IEC 61850 / SNMP............. 165 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 13 Table of Contents 3.5.14.4 Setting Options for SWT 3000 Alarms..............166 3.5.14.5 Unblocking Impulse Allocation for IFC..............167 3.5.15 T-Scheme Configuration.................... 167 3.5.16 Command Loop Test Configuration................170 Online Parameter Adjustment..................171 3.6.1 Overview........................171 3.6.2 Level Adjustment for Analog Interface............... 171 3.6.2.1...
Page 14 SWTStraps for Jumper Settings..................250 5.7.1 Overview........................250 5.7.2 SWTStraps Input Form....................250 5.7.3 The Straps Settings windows..................252 MergeTool for IEC 61850....................255 5.8.1 Overview........................255 5.8.2 Parameter Generator....................255 5.8.3 EN100 Settings......................262 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 15 6.2.3.3 USM User Management..................281 6.2.3.4 VACM Management..................... 283 6.2.3.5 Key Reset......................286 6.2.3.6 Notification......................286 6.2.4 SNMP Configuration in SWT 3000 Web Interface............289 6.2.4.1 Overview......................289 6.2.4.2 SNMP V2 Trap-Destination Table................290 6.2.4.3 Access Password....................291 6.2.4.4 Activation of Settings................... 292 6.2.5...
Page 16 The Transmit Section....................341 10.1.4 Alarm Displays......................342 10.1.5 S6 Control Wires......................343 10.1.6 Test Sockets......................343 10.1.7 Inhibit Line........................ 344 10.2 Connection of an External SWT 3000 to the PowerLink 50/100........345 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 17 Transmission Line - Fiber-Optic..................372 14.5 Transmission - Analog Networks..................374 14.6 Common System Data.....................376 14.7 Standards........................378 14.8 Electromagnetic Compatibility EMC................. 379 14.9 Ambient Conditions......................380 Appendix..............................381 Abbreviation List......................382 Index.................................387 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 18 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 19: Safety Instructions
Safety Instructions Scope of Delivery Transport, Package, Storage Incoming Inspection Electrical Inspection Electrostatic Sensitive Devices Installation Replacement Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 20: Scope Of Delivery
A DVD containing Software for installation and the parametrization of the device and the manuals of SWT 3000 • The Product Information with a detailed system description and all necessary instructions for installation and alarm handling For further details, refer to the attached DVD! Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 21: Transport, Package, Storage
² must be stored at a temperature between –40° C and +70° C. Siemens recommends that you observe a restricted storage temperature range of +10° C to +35° C in ² order to prevent the electrolytic capacitors used in the power supply from aging prematurely.
Page 22: Incoming Inspection
² return it to the manufacturer, stating the defect. Use the original packaging or transport packaging that meets the requirements. Siemens recommends that you check the device and the connectors which are not assembled. Double Pole/Neutral Fusing [dwfusesa-191211-01.tif, 1, en_US]...
Page 23: Electrical Inspection
Ground the device with solid low-resistance system grounding (cross-section ≥ 4.0 mm , grounding area ≥ M4). Connecting the Device 1.4.3 Connect all cables and lines. Use the connection diagrams stated in the Equipment Manual. ² Tighten the terminal screws. ² Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 24: Safety Notes
If the suspect for a defect is confirmed by Customer Support, pack the device and return it to the manufacturer, stating the defect. Use transport packaging that meets the requirements. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 25: Electrostatic Sensitive Devices
The device can be damaged if it is not operated in accordance with regulations of the operation. Provide sufficient cooling or heating (for outside operation in cold areas or during cold times). ² Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 26 The grounding wire must not be disconnected until all work has been completed if you are disassem- bling the system. If possible, do not touch the modules and wiring before the work has been completed. ² Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 27: Installation
If you do not comply with the safety notes, this will result in death, severe injury, or considerable material damage. Make sure that the power is turned OFF before installing or removing the power supply. ² Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 28: Installation Of Plug-In Module
In case you installed a new module, configure the settings of the new module in PowerSys. ² NOTE Only qualified electrical engineering personnel is authorized to reset the hardware parameters. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 29: Replacement
Carefully pull out the plug-in module. ² Configure the jumper settings prior to installation. ² Push in the new plug-in module on the inner guide as far as it is possible. ² Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 30: Completing Replacement
In case you installed a new module, configure the settings of the new module in PowerSys. ² NOTE Only qualified electrical engineering personnel is authorized to reset the hardware parameters. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 31: Functional Description
Functional Description Device Description and Features Applications for Transmission Operating Modes with PLC Equipment Equipment Versions Possible Ways of Using the SWT 3000 Monitoring Protection Modes Frequency Overview Fiber-Optic Connection 2.10 Remote Monitoring, Service Channel, and IP Network 2.11 IEC 61850 2.12...
Page 32: Device Description And Features
The SWT 3000 for teleprotection signaling in analog and digital communication networks offers the required maximum security and reliability together with the shortest command transmission time. The SWT 3000 (in release SWT 3000R3.5 or higher) replaces all earlier SWT 3000 releases.
Page 33 Digital Analog Addressing for increased security Impulse Noise Compression (INC) Configuration of SWT 3000 with a service PC (intuitive Windows-based user interface) Software-upgrade via service PC (download) Free programmable output allocation Remote access to SWT 3000 devices via TCP/IP link...
Page 34: Applications For Transmission
Modules IFC-P/D (for Binary I/O) or one EN 100 interface (for GOOSE I/O) are necessary for this application. Applications for Analog and/or Digital Transmission 2.2.2 The SWT 3000 system is used for fast and reliable transmission of several commands for protection and special switching functions in supply networks. Protection functions...
Page 35: Combination Of Analog And Digital Interfaces
Combination of Analog and Digital Interfaces 2.2.3 Multipath transmission can also be configured in the SWT 3000 system by using the Analog Line Interface (LIA) and digital line interface (LID-1). This combination (like only analog or digital transmission) is possible for stand-alone SWT 3000 units and for units integrated (iSWT) in the PowerLink PLC system.
Page 36: Modes Of Operation
F6 Modulation The principle of F6 modulation (Frequency-Shift Keying (FSK)) is applied with the SWT 3000. Therefore, only one of the possible frequencies is ever transmitted. This transmission method enables the available transmit power to be used to the full.
Page 37 Alternative paths possible by combination of analog and digital interfaces • Event memory (data retention > 20 years) • Possible remote readout of the event memory via RM or SC • Configuration of the device with PC Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 38: Operating Modes With Plc Equipment
PLC equipment. For this purpose, the devices of the SWT 3000 system are connected to special inputs and outputs of the PLC unit. If you are using a PowerLink system, the integration of SWT 3000 is only possible in a PowerLink system with CSPi.
Page 39 Functional Description 2.3 Operating Modes with PLC Equipment • SWT 3000 remote with fiber-optic connection to the PowerLink or PowerLink IP • SWT 3000 integrated in PowerLink or PowerLink IP Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 40: Equipment Versions
The following diagram shows a 4-wire connection over a VF cable. Broad- band variants VF1, VF1_M5A, VF3_M5A, VF1_CT, and VF3_CT can be used. [dwswtvfc-120911-01.tif, 1, en_US] Figure 2-1 SWT 3000 4-Wire Connection via VF Cable Frequency variants VF1, VF1_M5A, VF3_M5A, VF1_CT, and VF3_CT can be used Transmitter Receiver...
Page 41: Narrow-Band Version
4. Applications for Narrow-Band Devices 2.4.4 4-Wire connection The operation of several units in parallel at one connection is possible by using Narrow-Band (NB) devices. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 42 Example of a 2-Wire Connection with Narrow-Band Versions Narrow-Band version In this case, the receiver input of the SWT 3000 is connected parallel to the transmitter output. Since there is only one wire pair available for the transmit and receive direction, use different frequencies.
Page 43 Receive channel 3 Reverse direction Variant NB31 Transmit channel 3 Receive channel 1 Direction Variant NB23 Transmit channel 2 Receive channel 3 Reverse direction Variant NB32 Transmit channel 3 Receive channel 2 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 44: Possible Ways Of Using The Swt 3000
Example 3: Power-line carrier connections The analog interfaces (CLE) between 2 SWT 3000 devices can also be a PLC link. Depending on the device configuration, SWT 3000 can be used with PowerLink in alternate multi-purpose, simultaneous multi-purpose, or single purpose mode.
Page 45: Digital Transmission Path
Direct fiber-optic connection between 2 SWT 3000 devices The SWT 3000 protection signaling incorporates an internal fiber-optic module for long-distance transmission. The maximum distance between 2 SWT 3000 devices is < 150 km (depending on the optical attenuation). Smart Communication, SWT 3000 Teleprotection, Equipment Manual...
Page 46: Analog And Digital Transmission Path
The maximum distance between 2 SWT 3000 devices is < 150 km (depending on the optical attenuation). Fiber-optic connection between SWT 3000 and a Multiplexer A short-distance connection of up to 3 km between an SWT 3000 and a multiplexer can be realized via an inte- grated C37.94 fiber-optic module.
Page 47: Integrated Into The Powerlink Plc System
Fiber-optic connection between SWT 3000 and a Multiplexer A short-distance connection of up to 3 km between an SWT 3000 and a multiplexer can be realized via an inte- grated C37.94 fiber-optic module.
Page 48 A combination of the analog and the digital interfaces Alternative transmission routes SWT 3000 enables transmission of protection signals via 2 different routes. Both routes are constantly used. If one route fails, the second route immediately takes over without any loss of time.
Page 49: Monitoring
100 ms in steps of 1 ms. The input pulse suppression can be config- ured. • Minimum transmission duration Each command is transmitted for at least 15 ms. The minimum transmission time can be configured. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 50: Protection Modes
Protection Modes Overview 2.7.1 The SWT 3000 system has the following different protection operating modes: • Protection operating mode 1 (double system protection) for the analog and digital interface. The commands can be transmitted coded or uncoded with the application permissive or direct tripping (selectable).
Page 51: Description Of The Protection Operating Modes
If an invalid frequency or code is received or in case of guard tone alarm With AMP operation (PLC connection), signal S6 is also activated through BI4 = on and voice transmission is interrupted. Clock synchronization (USYNC) Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 52: Mode 2 (Single Phase Protection)
Logic Scheme for the Mode 3 Activated Input Transmission Transmission Command Output Command Output Uncoded Coded in the Remote in the Remote Station without Station with unblocking Unblocking > 0 unbl. All off Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 53: Mode 3A (4 Independent Commands, 4Ic)
BI1 + BI2 + BI4 CO1 + CO2 + CO4 CO1 + CO2 + CO4 BI1 + BI3 + BI4 CO1 + CO3 + CO4 CO1 + CO3 + CO4 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 54: Mode 3B (2 Plus 2)
CO1 + CO3 CO1 + CO3 BI1 + BI4 CO1 + CO4 CO1 + CO4 BI1 + BI3 + BI4 CO1 + CO3 + CO4 CO1 + CO3 + CO4 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 55 BI1 active, start transmission of command 1. BI2 active within time interval 2 ms, switch to transmit command combination of 1+2, BO1+2 active after command transmission delay. Transmission duration time-out, BO1+2 inactive after command transmission delay. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 56 BO2 active after command transmission delay. Transmission duration time-out, switch to transmit command 2, BO1 inactive after command transmission delay. BI2 inactive, switch to transmit guard command, BO2 inactive after command transmis- sion delay. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 57: Mode 4 (Only One Command Active)
At the transmit end, every possible combination of signal inputs BI1 to BI3 is permanently assigned to a protection frequency. At the receive end, every protection frequency can be assigned to one or more signal outputs (CO1 to CO4). Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 58: Mode 5D (Only For Digital Transmission Paths)
EN100 channels. The remaining input ports (depending on the number of assigned EN100 channels) are allocated to the input ports of IFC module in ascending order, IFC-1/IN1, IFC-2/IN2, etc. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 59: Frequency Overview
0.585 0.665 Frequency f is used for clock synchronization (master-slave) between 2 SWT 3000 units and is transmitted from the master to the slave unit once every 24 h at a configurable hour. Table 2-14 Coded Tripping Variants in the VF Range...
Page 60 Receive channel 2 NOTE For integrated SWT 3000 (iSWT) in PowerLink only Narrow-Band Variant NB Ch1 (NB1) is applicable with single purpose and multi-purpose operation. The use of Narrow-Band variants with PLC transmission in alternate multi-purpose operation is not possible.
Page 61: Frequency Diagram For Broadband And Narrow-Band Devices
The signal output at the receive side can optionally be interrupted at the receiver output after 500 ms. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 62: Commands With Priority Mode 3
2.8.5 The command duration for the integrated SWT 3000 is automatically adjusted to a default value of 1000 ms. Inputs can be activated for a longer time but the transmission of the signal is limited to 1000 ms. The trans- mission of the commands is switched off due to the limited command duration even though the command is active at the input of the device.
Page 63: Fiber-Optic Connection
SWT 3000 via fiber-optic cables. The programming of the SWT 3000 in this case is only possible via PowerLink and the service program PowerSys. In the PowerLink system, 2 SWT 3000 can be connected via fiber-optic cables (iSWT-1 and iSWT-2). The fiber-optic modules in Power Link are installed in the slots of the PU4.
Page 64: Connection To A Multiplexer Supporting Ieee C37.94 Protocol
2.9.3 The functionality of C37.94 for SWT 3000 supports only the standalone device. The SWT 3000 is operating via optical fiber with multiplexer or data converter that supports IEEE C37.94. For each transmission direction, a separate fiber is necessary. [dwsfpmod-300414-01.tif, 1, en_US] Figure 2-13 SWT 3000 Configuration with C37.94...
Page 65: Connection To A Multiplexer Via Fo-Box
Connection of the SWT 3000 via Fiber-Optic Cable to a FO-Box The SWT 3000 is operating via fiber-optic cable and a Fiber-Optic Box (FO-Box) for the interface conversion with a PDH- or SDH-Multiplexer. For each transmission direction, a separate fiber is necessary. The FO-Box contains the FOM with the electrical/optical conversion, the interface to the multiplexer, and a power supply.
Page 66: Direct Connection Via Fiber-Optic Cable
[dwcoswsw-290711-01.tif, 1, en_US] Figure 2-15 Connection of the SWT 3000 via fiber-optic cable to another SWT 3000 2 SWT 3000 are directly connected via fiber-optic cable. The transmission is carried out with 64 Kbps or 2 Mbps. Table 2-19 Specification of the Fiber-Optic Modules...
Page 67: Remote Monitoring, Service Channel, And Ip Network
//// 4-wire link The SWT 3000 unit in station 1 can read out the event memory of the SWT 3000 unit in station 2, if an RM is adjusted via PowerSys with a service PC. For this purpose, the units are assigned an RM address and a master-slave connection must be configured.
Page 68: Rm With Digital Interface
IP Interface to SWT 3000 2.10.4 The SWT 3000 takes advantage of the latest technology to simplify operation and improve reliability. Using standard TCP/IP network protocols, administrators can easily access each SWT 3000 device from anywhere via the intranet. The system can interface with your own network security system and firewall providing you with the exact level of security your company requires.
Page 69 Power utilities increasingly rely on the real-time, comprehensive management capabilities of their networks to ensure optimum performance and data communication. Based on the SNMP standards, Siemens teleprotec- tion devices can be smoothly integrated to replace proprietary solutions or unmanaged components.
Page 70: Iec 61850
Ethernet EN100 Module with IEC 61850 Protocol 2.11.1 The Ethernet EN100 module (EN100 module) enables the integration of SWT 3000 into 100-Mbit communi- cation networks. These networks are used by process control, automation systems, and communications systems with the protocols according to International Electrotechnical Commission (IEC) 61850 standard. This standard permits uniform communication of the devices without gateways and protocol converters.
Page 71: Iec 61850 Introduction
EN100 Module with Duplex-LC Interfaces for internal Installation The preceding modules can be used in the SWT 3000 device and are mounted on the solder side of the PU4 module via connector. These modules are connected electrically to the PU4 module via a D-sub plug connec- tion and screwed to the PU4 module and device front panel.
Page 72 Later, use the same ICD file in MergeTool to generate EN100 BIN and CFG files. SIPROTEC and DIGSI are used as examples to show how to connect to SWT 3000 via IEC 61850 . According to the IEC 61850 standard, any other protection device can also be used to connect to SWT 3000.
Page 73 ICD_IEC61850-Edition-1\*.ixd. SWT 3000 IXD files for IEC 61850 Edition 1 with number of commands 1 to 8, and 16. It extends Siemens proprietary elements based on the ICD file and is used only by MergeTool for both EN100 BIN and CFG file generations.
Page 74 The EN100 communication module supports several operating modes Line, RSTP, PRP, HSR and OSM. This allows integrating a SWT 3000 device into nearly all network structures. Redundancy is important for the relia- bility of an entire communications system. If the link of the active channel is interrupted, switchover to the other interface is automatic.
Page 75: Logical Nodes
IEC61850 model is used for the teleprotection signaling with EN100 GOOSE communication and for super- vision. Refer to the following tables for the major data objects of Logical Nodes used in SWT 3000. Smart Communication, SWT 3000 Teleprotection, Equipment Manual...
Page 76 Command input 9 SPCSO10 Command input 10 SPCSO11 Command input 11 SPCSO12 Command input 12 SPCSO13 Command input 13 SPCSO14 Command input 14 SPCSO15 Command input 15 SPCSO16 Command input 16 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 77 It reflects the alarm status of the SWT device. Possible values: 1: Ok (Green) no alarms active 2: Warning (Yellow) only none urgent alarms active 3: Alarm (Red) at least one urgent alarm is active Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 78 Functional Description 2.11 IEC 61850 ITPC class Status information AlarmGen SWT 3000 general alarm TRUE: (Alarm is active) AlarmNU SWT 3000 nun-urgent alarm TRUE: (Alarm is active) AlarmRx SWT 3000 receive alarm TRUE: (Alarm is active) LosSig Alarm situation: No signal received, indicates a channel problem of analog communication.
Page 79 CarLev Power of received signal (in dB), used in case of an analogue communication channel. SigNsRat Signal to noise ratio (in dB), used in case of analogue communi- cation channel. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 80: Tele Protection Over Packet Tpop
MPLS-TP enables a network service provider to guarantee network latency and service quality. So the protec- tion command packets are forwarded as fast as possible. An SWT 3000 device for example, can connect to MPLS-TP enabled network as shown in the following figure, and SWT 3000 can communicate only to one remote end SWT 3000 at the same time with the predefined peer IP address.
Page 81: Cyber Security
Protection device Protection device The SWT 3000 TPoP Ethernet line interface is based on Ethernet module EN100, which has 2 ports for an elec- trical or an optical 10/100-Mbits interface. For optical interface, the pluggable SFP module can be changed to electrical interface.
Page 82: Protection Command Transmission
Ethernet line transmission is supported for all protection modes of stand-alone SWT 3000 devices. Up to 16 binary command input and output from IFC interface are connected to SWT 3000. If there is no tripping command activated, the guard command packet is always transmitted with predefined interval period. If the trip command is activated, it sends out multiple trip command packets at short intervals to ensure no command lost under bad Ethernet condition with high packet loss rate.
Page 83: Rm Transmission
Interval Interval In order to improve the cyber security of SWT 3000 against the injection of spoofed command packet into Ethernet line, a message authentication mechanism (HMAC-SHA256) using secure crypto hash function is implemented. Only the messages from authenticated far end SWT 3000 are accepted.
Page 84: Line Quality Supervision
Ethernet line quality data are stored in a non-volatile RAM, it means that no data are lost even if SWT 3000 is powered off. Maximum 10,000 quality data entries can be stored. The record time interval is configurable in PowerSys.
Page 85 Packet loss rate alarm count in the time interval. Conn ala Connection loss alarm count in the time interval. Ethernet statistics data can be shown in PowerSys under SWT 3000 > Information > Ethernet Line Interface > Statistic data in the following figure. [ScStat-27032014-1, 1, --_--]...
Page 86: Qos (Quality Of Service)
2-29. The user PC is connected to the switch and the port connected to SWT 3000 is enabled with IEEE 802.1Q VLAN tag support (trunk port). So the ingress HTTP untagged frame from the switch (access port) is tagged by switching to the same VLAN ID of RM.
Page 87 2.12 Tele Protection Over Packet TPoP [1_10_VLAN, 1, --_--] Figure 2-29 Tagged HTTP Frame by Switch Network Network Switch Switch Tagged frame Tagged frame Untagged frame Untagged frame Web browser Web browser Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 88: Cyber Security
Cyber security is designed to protect SWT 3000 devices against common IT security threats and to minimize the impact of these threats on system operations. If SWT 3000 devices are under network attack, no device reset and telecommunication interruption should occur.
Page 89: Https Connection
Link and SWT 3000 after the system startup. 2.13.3 HTTPS Connection HTTPS connection is configured in PowerSys of PowerLink > Configuration > Ethernet > IP (service port) or SWT 3000 > Configuration > Net Configuration > IP Configuration. [schttpsc-080513-01.tif, 1, en_US] Figure 2-31 Parameter: HTTP Connection...
Page 90 Trusted Root Certification Authorities Store automatically. You can find the installed certificate under IE browser > Internet Options > Content > Certificates > Trusted Root Certification Authorities. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 91 Certificate Window After the certification has been successfully installed, no error message occurs again when reopening the device homepage again (see Figure 2-35). [sctrucer-080513-01.tif, 1, en_US] Figure 2-35 Trusted Certificate Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 92: Power Supply
2.14.1 1 or alternatively 2 power supplies can be used in the SWT 3000 system. They are decoupled via diodes on the backplane. In order to detect failure of a power supply unit, the PU4 module monitors the output voltages from Power Supplies PS-1 and PS-2.
Page 93: Virtual Display
2.15 Virtual Display SWT 3000 virtual display is an APP running on any Android mobile phone. You can easily read out device status, command counter, and alarm / errors from the attached SWT 3000 via USB OTG (On-The-Go) cable connection. There is no need to take a laptop for the regular maintenance check.
Page 94: T-Scheme
• Device sends command 9..16 to remote device at right direction [sc_transmit_command_to_different_directions, 1, --_--] The commands ca be transmitted to left, right or both directions. It is configured in PowerSys > SWT 3000 > Configuration > Output Allocation. Repeat command For example if T-scheme is enabled in middle device 2: •...
Page 95 The RM channel is in routing state by default in T-device, so the remote alarm (REM) of end terminal device is displayed in PowerSys. Service Channel The service channel in digital line interfaces are not supported in T-scheme configuration. For more details contact our customer support. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 96: Command Loop Test
It is triggered automatically at a configurable interval. The test result (OK/fail) is recorded in event log. Another is the single test, it is triggered manually by PowerSys test command. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 97: Installation And Commissioning
Installation and Commissioning Installation Pinouts of SWT 3000 Modules Jumper Settings for SWT 3000 Modules Start Commissioning Device Configuration Online Parameter Adjustment Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 98: Installation
Installation and Commissioning 3.1 Installation Installation Connecting Plugs 3.1.1 Table 3-1 Arrangement of the Connecting Plugs of the SWT 3000 Connecting Module Pinout Plug IFC-1 IFC-D/P Pinout of the IFC-x Module IFC-2 IFC-D/P/S Pinout of the IFC-x Module IFC-3 IFC-D/P...
Page 99: Equipment Of The Subrack
3.1.2 [scsubrac-220513-01.tif, 1, --_--] Figure 3-2 Equipment of the Subrack with an SWT 3000 System IFC-1 in slot 1 for interface module IFC-x IFC-2 in slot 2 for interface module IFC-x (optional) IFC-3 in slot 3 for interface module IFC-x (optional)
Page 100: Cable Installation
Dismantle the outer insulation of shielded cables for a window of approximately 20mm length and fix the cable clamps to connect the shield to the frame ground. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 101: Pinouts Of Swt 3000 Modules
Command outputs 1 to 4 K5-K8 Signaling of the binary inputs 1 to 4 K9-K12 Signaling of the command outputs The following figure shows the connection principle of the IFC-D/P binary inputs: Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 102: Pinout Of The Pu4 Module
N12_PS-2 (-12 V) LID_24 N12_PS-1 (-12 V) P5 (+5 V) P5 (+5 V) P12 (+12 V) N12 (-12 V) P12 (+12 V) INHIBIT INHIBIT N12 (-12 V) S6OUT_N P12 (+12 V) Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 103 Reference potential for F6 signal in VF range from the CLE module GND_ANA Output: Control signal S6 for AMP operation to the CLE or FOM transmis- sion module S6OUT_N A3, B3, C3, A20, B22, C22 Signal reference potential GND Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 104: Connection Of Digital Line Interfaces
DI11 DI11 LID_12 X21_RxD_B1 DI12 DI12 LID_13 X21_TxD_A1 DO11 DO11 LID_14 X21_TxD_B1 DO12 DO12 LID_15 X21_RxC_A1 LID_16 X21_RxC_B1 LID_17 X21_TxC_A1 LID_18 X21_TxC_B1 GNDS/Shield A31/C31 GNDS/Shield GNDS GNDS GND/Signal A3/C3 GND/Signal Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 105: Signals For The Digital Line Interface 2
Table 3-8 Signals for the X-21 Interface Signal Name Function X21_RxD_A2 Input: X.21 Receive data signal a X21_RxD_B2 Input: X.21 Receive data signal b X21_TxD_A2 Output: X.21 Transmit data signal a Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 106: Pinout Of The Sc Interface
Pinout of the Remote Monitoring Interface SSB Signal Name SSB Connector Pin Function Receive data Transmit data 3.2.8 Pinout of the CLE Module Table 3-12 Pinout of the CLE Module Shield GNDS GNDS Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 107: Pinout Of The Alr Module
Input and output signals for cable connection 3.2.9 Pinout of the ALR Module Table 3-13 Pinout of the ALR Module Signal Name Signal Name Signal Name BI1_A BI1_B BI2_A BI2_B Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 108: Pinout Of The Fiber-Optic Module
Pinout of the Fiber-Optic Module Signal Name Signal Name Signal Name GNDS RM_TXD GNDS I2C_SDA RM_RXD I2C_SCL I2C_SCL P48VISO GNDISO AREL_MAK RDP_LID TDP_LID RCP_LID AREL_BRK TCP_LID RDM_LID TDM_LID AREL_COM RCM_LID TCM_LID F6SVRALR_N PSDIN Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 109 Installation and Commissioning 3.2 Pinouts of SWT 3000 Modules Signal Name Signal Name Signal Name PLRCK PSDOUT INHIBIT PSCLK INHIBIT S6_N ILAN RESET FOMADR S6_N FOMALR_N GNDS GNDS ESB_SWT_N Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 110: Jumper Settings For Swt 3000 Modules
Installation and Commissioning 3.3 Jumper Settings for SWT 3000 Modules Jumper Settings for SWT 3000 Modules General Information 3.3.1 NOTE The program SWTStraps can be used as a graphical utility to find the correct jumper settings for the SWT 3000 modules. The program is supplied with the PowerSys DVD in folder \Utilities.
Page 111 Installation and Commissioning 3.3 Jumper Settings for SWT 3000 Modules Table 3-15 Assignment of Jumpers X43 to X58 Signal Input 250 V 110 V 48 V/60 V 24 V X55 = inserted X55 = open X55 = open X55 = open...
Page 112: Dip Switches On Ifc Modules
Make sure that the IFC module is in the right slot. ² NOTE The slots IFC-3 and IFC-4 are available only in PU4-mode of stand alone SWT 3000. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 113: Jumper Settings For The Pu4 Module
Installation and Commissioning 3.3 Jumper Settings for SWT 3000 Modules Jumper Settings for the PU4 Module 3.3.3 [scpu4jum-220513-01.tif, 1, en_US] Figure 3-8 Position of Jumpers, Input and Signaling Elements on the PU4 Module S2: Power ON/OFF LED OK/GBAL LED Status Interface LID-2...
Page 114: Jumper Settings For The Dle Module
Installation and Commissioning 3.3 Jumper Settings for SWT 3000 Modules Jumper Settings for the DLE Module 3.3.4 3.3.4.1 Overview When using digital line interfaces, links must be set on the DLE module. Module DLE is designed as a self- contained PC board that is connected electrically to the PU4 via a ribbon cable and mechanically via spacer sleeves.
Page 115: Selection Of The Input Gain For G703.6 Interfaces
Installation and Commissioning 3.3 Jumper Settings for SWT 3000 Modules Interface G703.6 symmetric 23-24 23-24 33-34 33-34 G703.6 asymmetric 25-26 23-24 33-34 33-34 3.3.4.4 Selection of the Input Gain for G703.6 Interfaces This setting controls the sensitivity of the receive equalizer.
Page 116: Jumper Settings Of The Fo-Box
Installation and Commissioning 3.3 Jumper Settings for SWT 3000 Modules Table 3-24 Jumper Setting for the Receive Signal Gain Receive Signal Gain [dB] Jumper X2 in Position 3.3.6 Jumper Settings of the FO-Box Table 3-25 Selection of the Digital Interface...
Page 117: Power Supply Jumper Settings
Installation and Commissioning 3.3 Jumper Settings for SWT 3000 Modules Jumpers 110 V X2 – 1-2 Open X14-X15 48 V/60 V X2 – 3-4 Open X14-X15 24 V X2 – 5-6 Open X14-X15 Debounce time ≈ 0,6 ms X18 – 3-4 ≈...
Page 118 Installation and Commissioning 3.3 Jumper Settings for SWT 3000 Modules [dwinhloo-190115-01, 1, en_US] Figure 3-11 Inhibit Loop for the Power Supplies NOTE An On/Off switch (PS) on the PU4 (not accessible from outside) also interrupts this monitoring loop. If the CLE or FOM-1 is not used, insert the jumper X41 in position 1-2.
Page 119: Start Commissioning
3.4 Start Commissioning Start Commissioning Before Starting the Commissioning 3.4.1 The SWT 3000 device is designed to be inserted in a subrack and needs an additional mechanical and electrical enclosure. NOTE Make sure that a overvoltage category II environment is available.
Page 120 NOTE If an EN100 module is equipped and no physical Ethernet connection to the IEC61850 port is established, the SWT 3000 device start-up may be delayed by up to 60 seconds. DANGER Even if the switch of the PU4 module is in the OFF position and the device is still connected to a voltage supply source, the power supply is still energized.
Page 121: Connecting The Service Pc
A service PC and the service program PowerSys are needed for startup, maintenance, and diagnostic purposes of the PowerLink or SWT 3000 units. The service PC is connected to the USB socket on the front panel of the PU4 module with a USB A/B plug cable.
Page 122: Device Configuration
3.5 Device Configuration Device Configuration New Configuration 3.5.1 Start the new configuration selecting New > SWT 3000 in the Data Source menu. [scnewcon-111011-01.tif, 1, en_US] Figure 3-14 New Configuration of the SWT 3000 The program asks you to select the software package. The program under release selection automatically proposes the latest version.
Page 123 Installation and Commissioning 3.5 Device Configuration [scdataba-111011-01.tif, 1, en_US] Figure 3-16 Defining a New Database Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 124: Programming The Device
After all settings have been completed, save all the changes in the device by clicking the button. The PU4 module is reset and the device is ready for operation again afterwards. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 125: System Configuration
Select integrated in PowerLink for a device integrated in PowerLink. If the SWT 3000 device is not integrated in PowerLink, it is possible to configure the device as stand-alone. On the other hand, if the device is inserted in PowerLink (iSWT), the system mode must be fixed as integrated in PowerLink and allows no change.
Page 126: Line Interface
If integrated in the PowerLink system FOM-1 analog Stand-alone device with FOM connection to a PowerLink system Table 3-32 Setting Options for Ethernet Connection of SWT 3000 devices Connection Ethernet Comment No Ethernet connection EN100-TPoP Ethernet line interface via EN100-TPoP...
Page 127: Transmitter And Receiver Address For Digital Interfaces
Transmitter and Receiver Address for digital interfaces When several SWT 3000 links are connected in the same digital network via multiplexers a unique addressing of transmitting and receiving device avoids unwanted operation of SWT 3000 devices due to incorrect routing, switching or cabling in the digital network.
Page 128: Continuous Signaling (Analog Transmission Path)
OK, the settings are accepted and the input tab is closed. NOTE If reflection of received commands shall be used, the PowerSys checkbox Reflection must be activated only in one SWT 3000 device of a connection. 3.5.3.5 Continuous Signaling (Analog Transmission Path) If persistent commands must be transmitted with the device in case of analog command transmission, activate also the option continuous signaling.
Page 129: Command Interface
Installation and Commissioning 3.5 Device Configuration [dwsys2fo-300414-01.tif, 1, en_US] Figure 3-20 Dialog for the SWT 3000 System-2 Configuration 3.5.4.2 Command Interface Binary Command Interface Slots IFC-1 and IFC-3 must be equipped with an interface module IFC-D (high IFC-1 and IFC-3 contact load) or IFC-P (normal contact load).
Page 130 Selection of the CFG File Select the proper CFG File from the database. Click Open. Click the EN100 Parameter File button to upload the BIN file. The following dialog appears: Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 131: Special Allocation
With saving the configuration file (ddb-file), the BIN file is merged into the ddb-file automatically. If you want to configure another SWT 3000 device with the same configuration data, load the saved ddb-file in PowerSys. You can download the BIN file now into the device in order to configure the EN100 module.
Page 132 With the function Two Commands with Acknowledge (2CMD+ACK) the first input on each Interface module IFC-D/P is fixed allocated to a signaling output in the local SWT 3000 device. Additionally the first command output relay of each Interface module IFC-D/P is fixed allocated to another signaling output at local side.
Page 133: Power Supply
IFC-4 / OUT8 : Signaling of IFC-3 command output 4 3.5.4.4 Power Supply If the SWT 3000 is operated with 2 power supplies, monitoring of the second power supply must be activated under System-2 Configuration by selecting Power Supply redundant. Smart Communication, SWT 3000 Teleprotection, Equipment Manual...
Page 134: Application
Configuration Menu Output Allocation, e.g. for Operating Mode 5A In the SWT 3000 system, every possible combination of binary inputs is permanently assigned to a protection frequency depending on the operating mode (Mode 1 to Mode 5A) and the function unblocking On or Off.
Page 135: Free Allocation
4 IFC modules (e.g. command 1 = IFC-1/Port-1, command 2 = IFC-2/Port-1). If an external SWT 3000 is connected to PowerLink via FOM, the maximum 4 commands can be allocated to 4 IFC modules (one command for one IFC).
Page 136: Signaling Allocation
IFC-S signaling In the following example, you can see an example of the operating Mode 5D with IFC-1 and IFC-3 equipped as IFC-D/P boards while IFC-2 and IFC-4 are IFC-S boards. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 137: Rm Configuration
RM Configuration 3.5.8 Device data can be transmitted between the terminal devices of one or more SWT 3000 routes using RM. This transmission makes it possible to import the parameter settings, the measuring points, and the event list of the station from an SWT 3000 with the service PC.
Page 138 Configuration of the remote device via RM channel disabled NOTE If Continuous signaling is configured (refer to Chapter 3.5.3.5 Continuous Signaling (Analog Transmission Path), Remote Maintenance cannot be activated. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 139: Timer Configuration
3.5.9.1 Configuration of the System Timers [sctimcon-121011-01.tif, 1, en_US] Figure 3-29 SWT 3000 Timer Tab Table 3-37 Setting Options of the SWT 3000 Timer Configuration Selection Setting Options Comment Duration of 0 ms to 300 ms 0 = no unblocking impulse.
Page 140: Configuration Of The Command Input
Setting Options for Input Limitation Selection Setting Options Comment Limitation of input commands 0 ms to 2000 ms Longer pulses result in non-urgent alarm the command transmission is In steps of 1 ms interrupted. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 141 15 ms. The next command (blue) has a length of 30 ms. This command is not extended. [dwinpext-130911-01.tif, 1, en_US] Figure 3-32 Example for an Input Command Extension to Minimum 15 ms Input Extension to minimum 15 ms Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 142 Example for a Pulse Suppression of 5 ms Pulse suppression 5 ms NOTE The SWT 3000 does not transmit the commands, which are shorter than the adjusted pulse suppression time. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 143: Timer Settings For The Command Output
500 ms. [dwoutlim-150711-01.tif, 1, en_US] Figure 3-36 Example of an Activated Output Command Limitation Output limitation 500 ms NOTE Due to the limitation of 500 ms, an additional Rx-alarm occurs. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 144 The command in the following example is transmitted for 50 ms (Tx output). With the output command extension on the Rx output, the command is extended for 200 ms. [dwoutext-150711-01.tif, 1, en_US] Figure 3-38 Example for an Output Extension of 200 ms Output extension 200 ms Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 145: Timer Setting Options For Mode 3B
BI1 or BI2 without delay unchecked) Checked: Permissive command 1 or 2 transmission can switch to input combination 1+2 without waiting for minimal transmission duration time-out. Unchecked: Function not enabled. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 146: Broadband Versions
Switching 2000 none functions If continuous signaling is activated, the increase in the output time must be set to min. 180 ms Switching functions: Transmit Duration 20 ms Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 147 Switching 2000 none functions If continuous signaling is activated, the increase in the output time must be set to min. 180 ms. Switching functions: Transmit Duration 20 ms Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 148: Narrow-Band Versions
Switching 2000 none functions If continuous signaling is activated, the increase in the output time must be set to min. 180 ms. Switching functions: Transmit Duration 25 ms Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 149: Fiber-Optic Configuration
3.5.10 Fiber-Optic Configuration 3.5.10.1 Overview The following figure shows the connection of 2 SWT 3000 systems via the fiber-optic modules. In this case, the digital interface LID-1 or LID-2 of the SWT 3000 is used. [dwcoswsw-071111-01.tif, 1, en_US] Figure 3-41 Connection of 2 SWT 3000 via FOM 3.5.10.2...
Page 150: Tpop Configuration
Settings for the Selection of Digital Line Interfaces LID-2). TPoP Configuration 3.5.11 Ethernet line interface is enabled in PowerSys of SWT 3000 > Configuration > System in Figure 3-43. It supports 1+1 path protection with other analog or digital transmission path. The LED for unused LID-1 or...
Page 151 Analog + Digital 1 or 2 Digital 1 + Digital 2 Analog + Ethernet Ethernet + Digital 1 or 2 Ethernet (EN100-TPoP) can be configured as primary or secondary connection. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 152 The EN100-IEC 61850 feature is disabled if EN100-TPoP is configured. Only binary command input and output can connect to SWT 3000. Ethernet line interface parameters are configured in PowerSys under SWT 3000 > Configuration > Ethernet line interface > Configuration (see next figure).
Page 153 Default value is disabled. Checked: HTTP is enabled Unchecked: HTTP is disabled QoS can be set individually for command and RM. It is configured in PowerSys of SWT 3000 > Configuration > Ethernet line interface > QoS (see next figure). [ScEthQos-27032014-01, 1, --_--]...
Page 154: Clock Synchronization
(jumpering X14-X15) or the input is alternatively configurable as an input for entering IRIG-B signals (jumpering X16-X17). For further information, refer to 3.3.7 Jumper Settings of the ALR Module and to Alarm Module 12.1 Overview) of this Equipment Manual. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 155 Installation and Commissioning 3.5 Device Configuration [scclocsy-111011-01.tif, 1, en_US] Figure 3-47 Options for the SWT 3000 Clock Synchronization Table 3-52 Setting Options for the Local Clock Synchronization of the iSWT Adjustment Local sync. Comment No local clock synchronization USYNC signal (minute or hour) An external impulse is received via the USYNC input every minute or hour.
Page 156 If both devices are provided with external synchronizing pulses, select off in the Line sync. mode list box for both devices. In this case, the synchronization between the devices is not activated. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 157: Ip Network Configuration
IP Network Configuration 3.5.13 The Ethernet interface of the SWT 3000 and its setting options are configured by the SWT 3000 Web interface. There are only a few Ethernet parameters configured in the PowerSys service program. The following tables and figures describe the tabs of the PowerSys menu SWT 3000 > Configuration > Net Configuration and those Ethernet parameters, which are directly configured in PowerSys.
Page 158 The tab <IP Configuration>contains the read-only information for the basic IP- configuration of the device as configured by the web interface. The following parameters are directly configured in PowerSys. Table 3-53 Menu <SWT 3000 - Configuration - Net Configuration>, Tab <IP configuration> Selection Setting Option...
Page 159 The SNMP settings are configured via the Web interface. The device access via SNMP v1/2 resp. SNMP v3 has to be enabled in PowerSys via the Net configuration menu in tab <SNMP Agent>. Table 3-54 Menu <SWT 3000 – Configuration – Net Configuration>, Tab <SNMP agent> Selection Setting Option...
Page 160 Installation and Commissioning 3.5 Device Configuration [scsnmpco-300414-01, 1, en_US] Figure 3-51 Net Configuration > SNMP Agent The NTP parameters configured via the Web interface are displayed in the read-only tab <NTP Configuration>. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 161: Alarm Configuration
Default Setting The allocation of the system alarms to the relays of the ALR module is configurable. The default settings for the alarm output allocation are shown in Figure 3-53. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 162 LID-1 ALR Digital line interface 1 alarm LID-2 ALR Digital line interface 2 alarm EN100-TPoP ALR EN100 module with teleprotection Over Packet protocol alarm Power Failure ALR Power failure alarm Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 163: Alarm Output Allocation For Ifc
If a hardware alarm occurs, the SWT 3000 device resets automatically and tries to recover the system back to the normal operation. In this case, it is not possible to indicate which alarms are output to the ALR relay output.
Page 164 IFC-2 relay output 4 : alarm signaling of IFC-2 alarm + General alarm (GEN) + Rx alarm • Relay close indicates no alarm occurred. • Relay open indicates alarm is occurred. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 165: Alarm Output Allocation For Iec 61850 / Snmp
[sc_signaling_allocation, 1, --_--] Figure 3-55 SWT 3000 > Configuration > Signaling Allocation Alarm Output Allocation for IEC 61850 / SNMP 3.5.14.3 For pure Ethernet based IEC 61850 network, there is no hard-wired cable connected ALR relay output port. It is possible to check the status information in ITPC logic nodes of IEC 61850.
Page 166: Setting Options For Swt 3000 Alarms
Setting Options for SWT 3000 Alarms [scalrcot-080911-01.tif, 1, en_US] Figure 3-56 SWT 3000 Alarms Control Dialog Table 3-56 Setting Options for SWT 3000 Alarms Control Selection Setting Options Comment Threshold for -30 dB to -10 dB in steps of 5 dB...
Page 167: Unblocking Impulse Allocation For Ifc
If there is an unblocking signaling via RXALR and ALR card, the active position of the relay must be considered (an alarm is active when the relay is de-energized). T-Scheme Configuration 3.5.15 Basic system configuration of T-scheme in SWT 3000: Operation Mode Mode5D Connection digital 1 X.21 or G.703 or FO...
Page 168 Command 13..16: Device 1<>3 [sc_command_input_output_allocation, 2, --_--] The forwarded command (T cmd) and line selections are configured in the form of PowerSys > SWT 3000 > Configuration > Output Allocation. In this example, four different groups of commands are configured.
Page 169 If it is set to master, the remote end connection has to be set to slave, and the local LID-1 interface set to slave All other RM settings stay the same as with non-T-scheme devices. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 170: Command Loop Test Configuration
One side is master, the other side is slave Command periodic delay test interval Not OFF at the master side (If interval is off, no auto- matically loop test is triggered ) Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 171: Online Parameter Adjustment
Overview 3.6.1 The settings described in the following are based on the assumption that the device is already configured. A complete new configuration is described in more detail in the section SWT 3000 New Configuration 3.5.1 New Configuration. Level Adjustment for Analog Interface 3.6.2...
Page 172 -42 dB / -37 dB / -32 dB / -27 dB / -22 dB Force receiver alarm on S/N Relay receiver alarm is also activated in and/or BE alarm case of S/N or BE alarm Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 173: Level Adjustment For Connection Via Vfx Module
PowerLink. Level Adjustment for Connection via VFx Module 3.6.3 3.6.3.1 Overview When using the SWT 3000 with the PowerLink PLC system, the following settings must be made depending on the configuration: 3.6.3.2 Connection via a VFx Module [dwconvfx-111111-01.tif, 1, en_US]...
Page 174: Setting Parameters Of Measuring Points
Entering 0 in the min. field deactivates monitoring. Siemens recommends that if the system is working prop- erly, the current level values must be accepted with Read and the alarm thresholds defined with -6dB of current value.
Page 175 [scdattim-041111-01.tif, 1, en_US] Figure 3-61 Setting of Date and Time of an SWT 3000 For the time adjustment, use the option use PC system time or a manual adjusted new date or new time. The internal clock is adjusted by clicking on Apply or OK.
Page 176 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 177: Diagnostics And Error Handling
PU4 Test Command Possible Reasons for the Alarms Display of the Entries in the Event Recorder Alarm Messages in the Service Program PowerSys Diagnosis of Ethernet EN100 Module FOM SFP Alarm Supervision Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 178: Control And Signaling Elements
[scpu4dis-160911-01.tif, 1, --_--] Figure 4-1 Front Panel of a Unit with Analog Line Interface, CLE, and FOM Module The PU4 controller and hence the entire SWT 3000 unit is reset with the reset button. [scpu4jum-220513-01.tif, 1, en_US] Figure 4-2 Position of Jumpers, Input and Signaling Elements on the PU4 Module...
Page 179: Significance Of Leds On The Pu4 Module
The 2-color OK/BGAL LED is needed for displaying the PU4 module status. The following states can be displayed: Table 4-4 Significance of the OK/BGAL LED Displays State Significance Power supply is disconnected or faulty Red static Module is not ready for operation Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 180: Ip (Ethernet) And Local (Service) Interface
A USB local (service) interface in form of a standard USB B plug is fitted at the PU4 for the communication between the service PC and SWT 3000. The service PC is connected to the USB socket on the front panel of the PU4 module with a USB A/B plug cable.
Page 181: Test Sockets
Signification of the Alarm LED on the FOM [scfomled-220513-01.tif, 1, en_US] Figure 4-5 Position of the LED on the FOM LED H4 to H9: Diagnosis LED H3 Rx-Alarm LED H2 Tx-Alarm Programming Interface LED H1: FPGA Readiness Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 182 Communication alarm at the electrical interface yellow SFP_LOS Debug information (for test purpose) The received optical power is below the receiver sensitivity Loss of signal yellow S6 asserted Debug information (for test purpose) Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 183: Ifc Control And Signaling
S2: IFC Slot Address Selection (S2.1, S2.2) and PU3 / PU4 switch: S2.3: closed/down - PU3 S2.3: open/up - PU4 Jumpers X43 to X58 Operating LED (H9) DIL-Switches Switches S1.1 to S1.4: Activate command input 1...4 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 184: Control And Signaling For Alr Module
For test purposes, the ALR module provides a switch for each of the binary input circuits and for the IRIG-B circuit. Closing a switch sets the output of the assigned circuit to the active state. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 185: Control And Signaling For Power Supply
≤ 0.8 V Disable ≤ U ≤ U > 0.8 V i min i max ≤ I Unit switched off or PU4 or CLE not inserted o nom ≤ T cmax Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 186 ≤ I o nom ≤ 0.8 V Disable ≤ I Undervoltage or overvoltage monitoring has o nom operated ≤ T cmax ≤ 0.8 V = Input voltage Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 187: Ifc Test Mode
Also a General Alarm is given as long as the test mode is active. Furthermore the OK-LED is slowly blinking during active test mode. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 188: Pu4 Test Command
NOTE The SWT 3000 > Commands dialog is only online available (when connected to SWT 3000). In the PowerSys dialog SWT 3000 > Commands, it is possible to select lines, enable LID/FOM Loops, or to enable the AMP measuring. [sc_swt3000_commands, 1, --_--] Figure 4-10 PowerSys Dialog SWT 3000 >...
Page 189 PU4 module. After the command is executed, you may receive hardware and/or configuration fault alarm. If there is a new configuration from an existing SWT 3000 or after a firmware update, execute the function to clear all former settings.
Page 190: Possible Reasons For The Alarms
The command transmission is interrupted. The alarm is deacti- vated when the command input is canceled. IP alarm IP alarm is activated if errors occur in SNMP, NTP, WebServer, and DHCP Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 191: Display Of The Entries In The Event Recorder
4.5 Display of the Entries in the Event Recorder Display of the Entries in the Event Recorder General Information Protection commands and alarms of SWT 3000 are provided with time, date, and a registration number before they are entered in the event memory. The following events are entered: •...
Page 192 The following figure shows the contents of an event recorder: [scevente-091111-01.tif, 1, en_US] Figure 4-12 Entries in the SWT 3000 Event Recorder In the first 4 lines, the fixed records are displayed without event number. Table 4-10 Fixed entries in the event recorder...
Page 193 The displayed comments show the same signification as the combination of group and event identifier ([Grp] and [Evt]). If there is a comment with the message Internal system message, contact the Siemens Customer Support. Smart Communication, SWT 3000 Teleprotection, Equipment Manual...
Page 194: Alarm Messages In The Service Program Powersys
If there is a fault, which makes it impossible to run the normal operation the system produces fault indica- tions. These indications are displayed in the SWT 3000 > Information > Alarms / Errors submenu. The display is refreshed with the Read button.
Page 195: Diagnosis Of Ethernet En100 Module
Diagnosis of Ethernet EN100 Module EN100 Information in PowerSys If an Ethernet module EN100 for IEC61850 is configured with the SWT 3000, the PowerSys menu SWT 3000 > Information > EN100 Info displays the most important information about addresses and connection status of the module.
Page 196 The status information is updated by pressing the Read button. EN100 Firmware Version Information You can check the firmware version of the Ethernet module EN100 in the PowerSys menus SWT 3000 > Infor- mation > General and SWT 3000 > Firmware-overview.
Page 197 With a factory pre-configuration of EN100 in SWT 3000 devices the following generic IP addresses are programmed to the module: 192.168.100.11 and 192.168.100.12. You can check the actual IP address of the EN100 module in PowerSys menu SWT 3000 > Information > EN100 Info (refer to EN100 Information in PowerSys).
Page 198: Fom Sfp Alarm Supervision
SFP alarm status is monitored periodically. If alarm flag is set, general alarm is triggered. If warning flag is set, non-urgent alarm is triggered. The active alarm / warning is displayed in PowerSys: SWT 3000 > Information > Alarms / Errors.
Page 199 Threshold Threshold Threshold Threshold Tempera- 35.0 -46.0 -41.0 95.0 100.0 ture(C) Voltage(V) Tx Bias(mA) 10.4 39.8 44.8 -11.0 -15.5 -15.1 -8.0 -7.5 Power(dBm) -29.2 -31.5 -30.9 Power(dBm) Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 200 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 201: Powersys And Auxiliary Software Tools
PowerSys Installation PowerSys Startup PowerSys Online Connection MemTool Installation PU4 Firmware Upgrade with Mem Tool EN100 Firmware Upgrade SWTStraps for Jumper Settings MergeTool for IEC 61850 SWT vDisp for Virtual Display Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 202: Powersys Installation
The Service program PowerSys is required for commissioning, maintenance, and diagnosis of the PowerLink or SWT 3000 units. The following description applies to the program versions P3.5.x and higher. The term SWT 3000 is employed for stand-alone protection signaling units and iSWT for devices integrated in PowerLink.
Page 203 With the installation setup of the PowerSys software a hardware driver for the SWT 3000 PU4 CP2102 USB to UART Bridge Controller is pre-installed in a second step. The driver is required for the connection of the service PC to the USB interface of the SWT 3000 on PU4 module.
Page 204 The power supply of the SWT 3000 can be switched ON or OFF. With the PowerSys software, the SWTStraps program is also delivered. The program is useful to carry out the jumper settings for the SWT 3000 as well as iSWT modules. You can find the SWTStraps program on the PowerSys DVD.
Page 205: Powersys Startup
FSK: iFWT alarm (available only in PowerLink if iFWT is used) REM: Fault in the remote station NU: Non urgent alarm S/N: Signal to noise alarm RX: Receiver alarm TX: Transmitter alarm G: General alarm (10) CFG: Configuration fault Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 206 Connect to Remote device Disconnect device Program device Send configuration file to device Data source is a file (*.ddb) Data source is New (device) Save output Print output (10) Measuring tool (11) MergeTool Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 207: The Options Menu
5.2 PowerSys Startup The Options Menu 5.2.2 5.2.2.1 Create System Log With an online PowerLink or SWT 3000 session, the Create system log function is activated in the Options menu. [scsyslog-201113-01.tif, 1, en_US] Figure 5-5 The Create System Log Function If there are problems occurring in a PowerLink or SWT 3000 connection, this function can be used.
Page 208: Upload En100 Parameter
Downloading the BIN file into the SWT 3000 device You can upload the BIN file into the PowerSys ddb file, and then download it to another SWT 3000 device. Compared with uploading the existing SWT 3000 configuration, it takes more time to upload the SWT 3000 configuration together with BIN file.
Page 209 In the Options > Connection dialog, the list box Timeout (PowerSys) for the LAN interface of the service PC is adjustable from 4 s to 60 s. With the Device address, the connection of PowerLink or SWT 3000 via TCP/IP is established. Smart Communication, SWT 3000 Teleprotection, Equipment Manual...
Page 210: User Level And Setting Passwords
Web browser settings. Refer to PowerLink Web Interface > Ipcon Settings in the PowerLink Equipment Manual. In order to connect SWT 3000 via TCP/IP, Configuration Port has to be in accordance with the Web server settings. Refer to Web Login6.4.2 Ethernet Interface Settings...
Page 211 PowerLink or SWT 3000 connection. The option Password change appears when the PowerLink or SWT 3000 device is connected. For assigning of an initial password for the first time, leave the field Current Password blank and select one of the 3 different user levels. Each user level can be assigned with an individual password.
Page 212: Language Options
NOTE The password is requested from the device before the connection between the service PC and the device is established. Without entering the correct password, a connection to the PowerLink or SWT 3000 device is not possible. If the password is lost, send the CSPi or the PU4 module to the factory for resetting to the standard values.
Page 213: Print Preview
Dialog of the Print Preview Afterwards, start the printout by clicking the Print button. If you click the File button, the print preview is saved in a file using the pdf or rtf format. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 214: Firmware-Release Export
In the service program PowerSys, the equipment software is stored in firmware packages and does not use single files. With the FW-Release > Export function, single firmware files can be extracted from the firmware package. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 215 Selecting a File for the Export from the Firmware Selection of the firmware packages Selection of the file With the Ok button, the FW export is carried out and the file stored in the subdirectory Firmware. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 216: Firmware-Release Import
Ok button the package is imported to the PowerSys program. If you open of a new device configuration via Data Source > New > SWT 3000 the release selection dialog appears. You can select the release version of the original firmware package or the release of the imported package for the new device configuration.
Page 217: The Data Source Menu
If you select Data Source > Device, the data are read in from the connected terminal. The program attempts to establish a connection to the unit (PowerLink or SWT 3000) and then loads the data of the unit into the system memory of the service PC.
Page 218: Data Source > File
With selecting Data Source > File, the following dialog opens for selecting the file that must be loaded. [scloddat-201113-01.tif, 1, en_US] Figure 5-21 Loading the Data from an Existing File After the file has been loaded, the data can be modified or programmed in the device. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 219: Data Source > New
5.2.4.1 Overview for the selection of the device type. If SWT 3000 is used as a stand-alone unit, select the element SWT 3000. If SWT 3000 is integrated in PowerLink (iSWT), select the element Power- Link. Select then the software release.
Page 220: Powersys Offline Tree Window
The former PowerSys <P3.5.110 does not display the non-accessible menus in the navigation tree view on the left-hand side if it is not connected to the PowerLink or SWT 3000 target (offline mode). With the PowerSys ≥P3.5.110, this information is always displayed in the same tree view on both online and offline modes.
Page 221: Powersys Startup Parameter
5.2.4.7 PowerSys Startup Parameter For an easier and dedicated access to a PowerLink or SWT 3000 device with remote connection, it should be possible to start up PowerSys with predefined connection parameters (e.g. target IP address). Thus, PowerSys can be used in Network Management System (NMS) for direct individual device connection by double-clicking a PowerLink or SWT 3000 device icon.
Page 222 Example 5: Open PowerSys and connect with IP address “192.168.20.200” and user level “Admin”. C:\Program Files\PowerSys\P3.5.110\PowerSys_35110.exe /F 192.168.20.200 Example 6: Open PowerSys and connect with IP address “192.168.20.201”, user level “Expert” and password “1234” C:\Program Files\PowerSys\P3.5.110\PowerSys_35110.exe /F 192.168.20.201 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 223 What is the status level of the user? [scpowers-300414-01.tif, 1, en_US] Figure 5-26 PowerSys Status Bar NOTE For SWT 3000, the device name in position (2) can be set in the <Device Identity> field according to the following steps: <SWT 3000 --->Information--->Update Information> (see Figure 5-24). NOTE For PowerLink, the device name in position (2) can be set in the <Device>...
Page 224: Powersys Online Connection
An example after the data are on a new configured SWT 3000 unit If an SWT 3000 unit processes the data, a similar dialog is displayed with the designation SWT 3000. The subordinated submenus (levels) are displayed when selecting +.
Page 225: Firmware-Overview Menu
5.5.6 PowerSys Release Upgrade Check. If the PowerSys version is incompatible with the version stored in the SWT 3000 the PowerSys connection is not established. Check the version information of PowerSys and device as displayed in the error screen and connect with a compatible PowerSys program version.
Page 226 - Connect with an older program version of PowerSys, if the displayed Target version is higher than the Actual firmware of the device or upgrade the device firmware to the matching version of the PowerSys. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 227: Memtool Installation
5.4.1.1 Overview This description is the upgrade instruction for the controller card of SWT 3000. For firmware download of SWT 3000, a dedicated FLASH-PROM programming tool can be used. The MemTool flash programming soft- ware is provided with the PowerSys DVD and ensures easy and quick product upgrade if required.
Page 228 • Click Next. • Select the program folder and click Next to continue. • Click Install to begin the installation. • Click Finish to continue and end the installation process. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 229: Basic Settings
In order to launch MemTool as a stand-alone tool, execute Memtool.exe via the Windows main menu Start > Programs > UDE MemTool. [scstrmem-020413-01.tif, 1, en_US] Figure 5-31 Starting the MemTool Program Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 230: Memtool Settings
Target > Change. [sctarget-020413-01.tif, 1, en_US] Figure 5-32 Target Selection The installation of MemTool provides target files for the selection of Siemens CSP, CSPi, vMUX (PowerLink), PU3, and PU4 (SWT 3000) systems. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 231 Edit Target Configuration Dialog Verify if the default CPU type XE167F-96F in the Type check box is set and click OK. Select Siemens SWT 3000 - PU4 (v1.1 - serial, 115200 baud) and click OK. Smart Communication, SWT 3000 Teleprotection, Equipment Manual...
Page 232 5.4 MemTool Installation Select File > Setup in the menu bar and enable the Create Verify Protocol File check box. Afterwards, click [scgenset-200711-01.tif, 1, en_US] Figure 5-34 MemTool General Settings Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 233 5.4 MemTool Installation Select Target > Setup in the menu bar and select the COM-Port of the Access Device "SWT 3000 PU4 CP2102 USB to UART Bridge Controller in the list box (for example COM6) in the General tab as follows: [sctasege-020413-01.tif, 1, en_US]...
Page 234 Select Device > Setup > Mapping in the menu bar and enable the Also Remap Read Accesses and Allow overwriting of buffered Data check boxes as follows: [scdesema-260313-01.tif, 1, en_US] Figure 5-36 Device > Setup > Mapping Settings for the Driver tab are default and remain unchanged. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 235 Select the Program tab and enable the Automatic Sector Erase before Program and Automatic Verify after Program check boxes as follows: [scdesepr-200711-01.tif, 1, en_US] Figure 5-37 Device > Setup > Program Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 236 Exit the menu Device > Setup. Change the MemTool FLash/OTP - Memory Device to 764 KByte on-chip Program FLASH as follows: [scfldemt-260313-01.tif, 1, en_US] Figure 5-39 Select Flash/OTP - Memory Device 764 KByte on-chip Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 237: Getting Started
FLASH memory sectors of the PU4, which store device specific data (e.g. MAC address). NOTE With MemTool target file version Siemens SWT 3000 - PU4, v1.1 the option is deactivated by default. Getting Started 5.4.4 To perform the upgrade, verify if the required firmware type and version for the upgrade are available.
Page 238 On the service PC with the upgraded new version of PowerSys (default destination folder C:\Program Files \PowerSys\Px.y.z\Firmware). • On a folder of own choice while receiving the upgrade version by email or download. NOTE The term Px.y.z is the PowerSys release version. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 239: Pu4 Firmware Upgrade With Mem Tool
5.5.1 In order to program the PU4 module of SWT 3000, use the USB connector of the PU4 module. The connec- tion to the service PC is established with with the USB connecting cable supplied with the device. The SWT...
Page 240 [sctarget-020413-01.tif, 1, en_US] Figure 5-42 Selecting the Siemens SWT 3000 - PU4 (v0.1 - serial, 115200 baud) Select Siemens SWT 3000 - PU4 (v1.1 - serial, 115200 baud) and click OK. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 241: Connection To The Swt 3000 Target
Select 764 KByte on-chip Program FLASH (not ready) in the Flash/OTP - Memory Device list box. Click Connect to establish a connection to the target SWT 3000 system. The sector list box contains now the sector table of the selected FLASH module. The Connect button changes to Disconnect.
Page 242 After loading this file in the left part of the MemTool main dialog, the file name and a list of sectors of the application are displayed. [scfilena-171011-01.tif, 1, en_US] Figure 5-45 After Selection of the AllInOne_PU4_Px.y.z.jnk File Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 243 Click Program to start the programming cycle. The Execute MemTool Command dialog appears and shows the programming progress. The upgrade starts with programming and verification. [scstprog-250711-01.tif, 1, en_US] Figure 5-47 Starting of the Programming Process Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 244 [scdicose-150911-01.tif, 1, en_US] Figure 5-49 Dialog of the Connection to SWT 3000 for External FLASH Click Program to start the programming cycle. The Execute MemTool Command dialog appears and shows the programming progress. The upgrade starts with programming and verification.
Page 245: Trouble Shooting
Turn on the device with the S2 switch on the PU4 module (PU4-Reset). NOTE If SWT 3000 is integrated into PowerLink (as iSWT), perform the following instructions: • Turn off the device with the S1 switch on the CSPi module.
Page 246: Powersys Release Upgrade Check
After downloading the firmware to SWT 3000 with MemTool, connect the service PC as follows: • For SWT 3000 stand-alone, connect the service PC to the front USB connector of the PU4 module. • For iSWT, connect the service PC to to the PowerLink RM-1 interface.
Page 247 5.5 PU4 Firmware Upgrade with Mem Tool Continue with commissioning and configuration using PowerSys on the: • SWT 3000 stand-alone as described in detail in Chapter Installation and Commissioning. • Integrated SWT in PowerLink as described in detail in the PowerLink Equipment Manual.
Page 248: En100 Firmware Upgrade
Click the refresh upload statistics link to check whether the upload is finished. If the page shows the ² result as result: Update finished and progress: 100 percent, then the upload progress is done. [ScFWStatus-28032014-1, 1, --_--] Figure 5-53 EN100 Module Firmware Upload Status Page Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 249 During the upload processing, do not close the upload web page; do not switch off the power of the device or disconnect the network cable. Otherwise, the firmware upload will fail and EN100 cannot boot up anymore. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 250: Swtstraps For Jumper Settings
Overview 5.7.1 The program SWTStraps can be used as a graphical utility to find the correct jumper settings for the SWT 3000 modules. The program is supplied with the PowerSys DVD in folder \Utilities. Unlike former program versions the recent versions of the SWTStraps utility (e.g. v00.70.00 and higher) cannot run directly from DVD anymore.
Page 251 Figure 5-55 SWTStraps Input Form When selecting the checkboxes of the optional SWT 3000 modules CLE and FOM the corresponding input forms become visible. Optionally then the parameters for CLE or FOM-1 can be entered. The inputs for an (optional) second FOM module can be made separately.
Page 252: The Straps Settings Windows
The Straps Settings windows 5.7.3 The straps setting windows for the configured (i)SWT 3000 modules can be selected via the main menu >Straps Settings. From here you can open the displays with the required straps settings for the modules IFC(- P/D/S), PU4/DLE, ALR and (if configured) CLE, FOBox-1 or -2.
Page 253 PowerSys and Auxiliary Software Tools 5.7 SWTStraps for Jumper Settings [scstrifc-010813-01.tif, 1, en_US] Figure 5-58 Straps Settings for a IFC module (example) [scstrdle-010813-01.tif, 1, en_US] Figure 5-59 Straps Settings for the DLE (example) Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 254 [scstrfob-010813-01.tif, 1, en_US] Figure 5-60 Straps Settings for a FO-Box (example) You can print the straps settings of the configured (i)SWT 3000 modules to paper-print via menu >Print or the printer icon. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 255: Mergetool For Iec 61850
Overview 5.8.1 The IEC 61850 Intelligent Electronic Device (IED) configuration philosophy of SWT 3000 is to have a separate static IED Capability Description (ICD) file for each possible SWT 3000 I/O configuration. These ICD files are imported in the IEC 61850 system configurator (DIGSI®) for substation configuration.
Page 256 The present SWT 3000 devices appear in this window. For One of the SWT 3000 devices Device the generation of output files, select one of the SWT 3000 devices. After selecting the desired SWT 3000 device, the source device, source parameter, destination device, and destination parameter are listed in the option table.
Page 257 [scselicd-080911-01.tif, 1, en_US] Figure 5-62 ICD File Selection of SWT 3000 Select the proper SWT ICD File, which was used in station configuration. After selection of the SWT ICD File, click Open. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 258 The following dialog appears: [scselscd-080911-01.tif, 1, en_US] Figure 5-63 SCD File Selection of the Station Select the proper SCD File of the station. After selection of the SCD File, click Open. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 259 A default IFD file for the selection of input file is presented to the MergeTool user in the PowerSys installa- tion folder \Px.y.zzz\Util\MergeTool. After selecting the Input files, click the Load button. If multiple matching SWT 3000 devices are found in the local station, they are listed in the Choose SWT Device area.
Page 260 With clicking the desired device, the Source Device, Source Parameter, Destination Device, and Destination Parameter are listed in the option table. [scmtopta-141011-01.tif, 1, en_US] Figure 5-66 [Parameter Generator] Dialog with Option Table area Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 261 (CFG file) and save them in a proper folder. The mentioned files can be uploaded to PowerSys in the SWT 3000 > Configuration > System-2 submenu. Store the content of the BIN file then in PU4 Flash. With each startup of SWT 3000, the BIN file is transferred to volatile memory of the EN100 module.
Page 262: En100 Settings
In order to generate the EN100 parameter file (BIN file) and PowerSys preconfiguration file (CFG file), click the Generate button. NOTE If SWT 3000 is equipped with an EN100 module, the BIN file and CFG file are configured in PowerSys > SWT 3000 > Configuration > System-2 > EN100 area. EN100 Settings 5.8.3...
Page 263 In order to select the new created IFD file, click the button in the EN100 Settings File area. Select the newly created IFD file from the folder in database. You can edit now the IFD file settings. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 264 Description Setting Range or Selection Operating mode The operating mode for SWT 3000 is fixed to Line by default and Line cannot be modified. The Line mode is equivalent to the functions of the EN100 module with electrical interface. Redundancy type...
Page 265 Spanning Tree Protocol (STP) switches are used. The value -1 is the identifier for the automatic mode. RSTP and OSM are disabled in EN100 Edit the Time zone and summer time as follows: Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 266 You can use this setting to activate or deactivate the SNMP protocol. ON or OFF Module homepage You can use this setting to activate or deactivate the module homepage. ON or OFF Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 267: Swt Vdisp For Virtual Display
After connecting USB OTG cable to the device, SWT vDisp is running automatically. The alarm status bar at the top displays the active alarm (red color for active alarm) Module alarm Configuration fault General alarm Transmitter alarm Receiver alarm Non urgent alarm Fault in the remote station Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 268: Display Command Counter
The command counter page displays the total trip counter for up to 16 command input / output. These coun- ters can be reset to zero when you press the “Reset” button. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 269 The device information page displays the device information and component version. The device information includes device name, IP address, date/time of last reset, date/time of last parameter change, and so on. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 270: Display Event Log / Alarm
The event log page displays the important events during running (for example commands on/off). The first event is fixed log which is always located top of the page. More events are reloaded, when you scroll down near the end of the page. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 271 PowerSys and Auxiliary Software Tools 5.9 SWT vDisp for Virtual Display [sc_virtual_display_eventrecorder, 1, --_--] The alarm page displays the active alarms. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 272 PowerSys and Auxiliary Software Tools 5.9 SWT vDisp for Virtual Display [sc_virtual_display_alarm, 1, --_--] Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 273: Snmp And Remote Access
SNMP and Remote Access Remote Access and Remote Monitoring SNMP Remote Access Web Interface Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 274: Remote Access And Remote Monitoring
SNMP and Remote Access 6.1 Remote Access and Remote Monitoring Remote Access and Remote Monitoring Overview 6.1.1 The following examples show the possibilities for remote access or remote monitoring of the SWT 3000 system. Remote Access via Intranet (TCP/IP) 6.1.2 [dwremint-080611-01.tif, 1, en_US]...
Page 275: Remote Monitoring/Maintenance Via Inband Rm-Channel
Remote monitoring via inband RM-Channel and service program PowerSys Remote monitoring via inband RM-Channel and service program PowerSys with Intranet (LAN) remote access Remote monitoring/mainte- Remote monitoring/maintenance nance Remote access Remote access Inband RM-Channel Inband RM-Channel Address Address Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 276: 6.2 Snmp
The SNMP agent allows the request of system parameters and a limited control (commands) of the SWT 3000 from a central NMS via TCP/IP. The SNMP agent provides an image of the SWT 3000 status. Spontaneous alarm indications (traps) are transmitted to the NMS.
Page 277 • SNMP Handling of the SNMP command (get/set) and spontaneous indication (traps) • The Management Information Base (MIB) contains the status information of the SWT 3000 system. • Inter-Process Communication (IPC) for communication and synchronization of the processes • Config.
Page 278: Spontaneous Indication Snmp Traps
6.2.2 Spontaneous indications from the SWT 3000 device are transmitted from the SNMP agent to the configured NMS. You can configure up to 6 NMS for receiving these traps. Each trap is sent with a severity (from 1 to 5)
Page 279: Simple Network Management Protocol Version 3 (Snmpv3)
SIEMENS-SWT3000R35-MIB This MIB module provides mechanisms to access standalone SWT 3000 settings. It is possible to configure PowerLink and SWT 3000 via PowerSys application whether with SNMPv2 or SNMPv3 (for more details, see chapter 6.2.3.2 SNMPv3 Configuration). If SNMPv3 is configured, the USM users, VACM, Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 280: Snmpv3 Configuration
SNMP GET/SET command instead of PowerSys or Web server. 6.2.3.2 SNMPv3 Configuration The SNMP version is configured in the form of PowerSys > SWT 3000 > Configuration - Net Configuration. [scsnmpvc-190413-01.tif, 1, en_US] Figure 6-5 SNMP Version Configuration...
Page 281: Usm User Management
USM needs to be configured in a SNMPv3 NMS client and configuration is sent and stored in the SNMPv3 agent (PowerLink or SWT 3000) afterwords. All these operations are accomplished through SNMP by setting SNMP-USER-BASED-SMMIB::usmUserTable MIB object. 3 initial users are provided in SWT 3000 devices for connection to SNMPv3 agent. User Name Auth Protocol Auth Password...
Page 282 MD5 authentication protocol and DES privacy protocol templateSHA: user template with SHA authentication protocol and DES privacy protocol. • 4 - Click on clone user operation and enter a new user name in the text box. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 283: Vacm Management
7 - Assign access right for the new cloned user (see Example: Assign Access Right) NOTE This step is not needed for the SWT 3000 standalone device. The new cloned user has full access right to complete MIB modules and it cannot be changed by the user via VACM.
Page 284 The initial user has the full access right to complete MIB modules by default. NOTE VACM is not supported in the SWT 3000 device. All SNMPv3 users in SWT 3000 have the full access right to complete MIB modules by default.
Page 285 "testuser” is added into table vacmSecurityToGroupTable. [scvacmse-140912-01.tif, 1, en_US] Figure 6-12 vacmSecurityToGroupTable List • 5 - Store all the configurations to flash and restart system through SNMP by setting following MIB object: SIEMENS-POWERLINK-CSPI-IPCON-MIB::ipSettingsActivationReq.0 = storeToFlashAndRestart(1) Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 286: Key Reset
• SNMPv1/2 Only SNMP Trap is supported, the function is the same as the former released version. Trap destination is configured through web pages or SNMP by setting private MIB object SIEMENS- SWT3000R35-MIB::swtIpSnmpTrapDestTable for SWT 3000. • SNMPv3 Both SNMP Trap and Inform are supported.
Page 287 Field Value snmpNotifyName group1 snmpNotifyTag group1 snmpNotifyType trap(1) snmpNotifyRowStatus active(1) • 2 - Create a new row in table SNMP-TARGET-MIB::snmpTargetParamsTable [scparame-140912-01.tif, 1, en_US] Figure 6-15 Create New Row in snmpTargetParamsTable Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 288 Figure 6-17 Create New Row in snmpTargetAddrTable [scsnmpad-140912-01.tif, 1, en_US] Figure 6-18 snmpTargetAddrTable List Table 6-9 snmpTargetAddrTable Settings Field Value Target Address 1 snmpTargetAddrName addr1 snmpTargetAddrTDomain snmpUDPDomain(.1.3.6.1.6.1.1) snmpTargetAddrTAddress 192.168.20.10:162 (192.168.20.10:162) Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 289: Snmp Configuration In Swt 3000 Web Interface
User Name Auth Protocol Auth Password Priv Protocol Priv Password testuser testuser_auth testuser_priv SNMP Configuration in SWT 3000 Web Interface 6.2.4 6.2.4.1 Overview [scsnmset-300414-01, 1, en_US] Figure 6-19 SNMP Settings Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 290: Snmp V2 Trap-Destination Table
6.2.4.2 SNMP V2 Trap-Destination Table You can set up to 6 destinations. The SNMP traps are sent automatically to these addresses. [scsnmtrp-300414-01, 1, en_US] Figure 6-20 SNMP V2 Trap-Destination Table Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 291: Access Password
Range for UDP Port: 0 to 65 535, but well known ports up to 1023 must not be used. Exception for SNMP: Port 161: get and set, Port 162: traps Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 292: Activation Of Settings
Reset Reject the changes. 6.2.4.4 Activation of Settings Within this menu, you can program all the settings to the flash of SWT 3000. Programming the device causes a reset of SWT 3000. [scactset-300414-01, 1, en_US] Figure 6-22 Activation of Settings Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 293: Nms Commissioning
SWT 3000 Set IP Configuration, Page 278). If SWT 3000 as well as PowerLink devices are managed by the NMS, it is proposed to import the provided MIB files to the MIB compiler of your NMS in the following sequence: •...
Page 294: Remote Access
The remote access to the SWT 3000 is possible with the service program PowerSys. With the PowerSys menu Options > Connection, the connection to the device via TCP/IP must be configured.
Page 295: Remote Access Example
Remote Access Example The following figure shows a TCP/IP connection to the SWT 3000 device in station A and B. If the RM function is activated, information from the SWT 3000 device in station C can be read via inband RM-Channel.
Page 296: Route Coupling Via Ssb
Temporary adjustments (for example, test loops) • Producing a reset Changing of the configuration and parameter (except date or time of the SWT 3000 device) in the remote device is possible if the configuration via inband RM-Channel is activated: [scrmconf-121011-01.tif, 1, en_US]...
Page 297 (SSB) has read and write access (if configured). The SSB interface of the SWT 3000 system has the same characteristics as the RM-2 interface of the PowerLink systems. The following figure shows the remote connection to the SWT 3000 in station A via TCP/IP connection. The access to the SWT 3000 devices in station B and C is possible when the inband RM-Channel is activated.
Page 298 SNMP and Remote Access 6.3 Remote Access [scconnrm-080611-01.tif, 1, en_US] Figure 6-29 Connection of the Service PC via RM Channel Data Source Remote Device button Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 299: Web Interface
Start the Web browser (for example Internet Explorer) and enter http://192.168.20.200. You can also change the default IP address 192.168.20.200. Log on with the password swtwrite (you can change the default password) and click Send in the SWT 3000 Web interface dialog.
Page 300: Ethernet Interface Settings
The values given in the fields Predefined are written to the PU4 module after clicking the SEND button in the Activation of Settings page. After restart of SWT 3000, this user given values are valid as actual IP address and subnet mask.
Page 301: Ntp Settings
NTP Settings 6.4.3 Network Time Protocol (NTP) is a networking protocol to synchronize the clock between an NTP server and a SWT 3000 device. [scntpset-300414-01, 1, en_US] Figure 6-32 NTP Settings Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 302: Ntp Daylight Saving Time
Network Time Protocol (NTP) is a networking protocol to synchronize the clock between an NTP server and a SWT 3000 device. No information of time zone or daylight saving time (summer time) is provided by NTP, which has to be configured manually using the Web server or SNMP SET command.
Page 303: Snmp Settings
Within this menu, you can set the SNMP read-only and read-write community string. The read-write community string can also be used as the password for web login. [scaccpas-300414-01, 1, en_US] Figure 6-34 Access Password Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 304: Activation Of Settings
Reject the changes. Activation of Settings 6.4.7 Within this menu, you can program all the settings to the flash of SWT 3000. Programming the device causes a reset of SWT 3000. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 305 Store settings to flash and restart Save all actual settings in the PU4 module and restart the PU4 module. Send Send the values to the PU4 module. Reset Reject the changes. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 306 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 307: Processing Unit Module
Processing Unit Module Functions of the PU4 module Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 308: Functions Of The Pu4 Module
Tones of a defined frequency • A digital code in case of digital transmission If the PU4 is housed in a stand-alone SWT 3000 unit, the commands are transmitted to the remote station by: • analog transmission via CLE and/or •...
Page 309 Processing Unit Module 7.1 Functions of the PU4 module [dwblkswt-051011-01.tif, 2, en_US] Figure 7-1 Block Diagram of the SWT 3000 Unit Interface command module Power supply Processing unit module Analog line interface Digital line equipment Digital line interface EN100 Ethernet EN100 module for IEC 61850...
Page 310 Processing Unit Module 7.1 Functions of the PU4 module [dwbliswt-051011-01.tif, 2, en_US] Figure 7-2 Block Diagram of the SWT 3000 Unit Integrated in the PowerLink Interface command module Processing unit module Analog line interface Digital line equipment Digital line interface...
Page 311 Digital line equipment Digital line interface EN100 Ethernet EN100 module for IEC 61850 Fiber-optic module Copper line equipment Alarm module CSPi Central signal processing unit Serial synchronous interface Voice frequency Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 312: Functional Units
The data reaches the IFC module via an output buffer. If an error is detected in the SWT 3000 unit, a message to this effect is output via an interface to the alarm module ALR. If the PU4 is used in PowerLink, the alarms are forwarded to the CSPi and the alarm is output on the ALR module of PowerLink.
Page 313: Self-Test
If there is an overflow, the oldest entry in the event memory is overwritten. For more information about the event memory, refer to chapter Service Program PowerSys and MemTool Flash Programming 5.1.1 About the Service Program PowerSys of this Equipment Manual. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 314: Clock Synchronization
Figure 7-4 Front Panel of a Unit with Analog Line Interface, CLE, and FOM Module The PU4 controller and hence the entire SWT 3000 unit is reset with the reset button. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 315: Ip (Ethernet) And Local (Service) Interface
If a PC is connected to the local interface, a busy detection circuit automatically switches over to this interface. 7.1.11.2 Access to the Integrated SWT 3000 (iSWT) In this operating mode, the local (service) interface is connected to the controller of the CSPi module of the PowerLink unit via iLAN.
Page 316 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 317: Interface Command Module
Interface Command Module General Information Block Diagrams of IFC Modules Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 318: General Information
Interface Command Module 8.1 General Information General Information Overview 8.1.1 The interface module IFC is used for communication between protection equipment and SWT 3000. The following versions are available: • Interface Command Direct tripping (IFC-D) module (heavy-duty version) • Interface Command Permissive tripping (IFC-P) module (normal version) •...
Page 319: Connection Principle
Figure 8-2 Signaling elements and DIL-switches of the IFC module, e.g. IFC-D LED H1 to H4 (red): activated outputs LED H5 to H8 (green): activated inputs Test Operation Display (H10) Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 320 Jumpers X43 to X58 Operating LED (H9) [scifcpju-300112-01.tif, 1, en_US] Figure 8-3 IFC-P Module [dwifcblc-051011-01.tif, 1, en_US] Figure 8-4 Block Diagram of IFC Modules TPi-Bus Internal bus Multiplexer ISV_IFC Internal power supply IFC Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 321: Controller
In order to switch over from normal to test mode with the service program PowerSys, select the IFC-Test in the Testmode list box under SWT 3000 > System-2 configuration. In this mode, you can enter commands on the IFC module for each input with the Dual Inline Package (DIP) switches S1.1 to S1.4.
Page 322: Displays
Slot and Module Identifier 8.1.7 In the SWT 3000 system with PU4, the number of IFC modules is increased to 4. The new IFC modules can also communicate with the old TPi-Bus (PU3). For this purpose, no additional signal from PU4CON (PU4 controller) can be used for IFC addressing.
Page 323 Close = down position = ON IFC-4 Close = down position = ON Close = down position = ON IFC modules can be used as spare in actual SWT 3000 with the PU3 module. Table 8-3 PU3 or PU4 Selection Selection S2.3 Position...
Page 324: Signal Acquisition Via Binary Inputs
TPi-Bus to the PU4 module. NOTE If the new IFC board is used as spare part in SWT 3000 with the PU3 module, use a suitably configured ribbon cable for the slot identification function. For the selection of PU3 on the IFC module.
Page 325: Signal Output From The Ifc-D/P Module
Block Diagram of the Output Circuit of IFC-D/P K1 - K4 Output Relays of Module IFC-D K13 - K16 Output Relays of Module IFC-P D0 - D7 Operation of the IFCx Controller Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 326: Signal Output From Ifc-S Module
The interface modules must be connected from the protective relay to the connector X1 (modular terminal block). The cable cross section must be up to 1.5 mm . At least 2 cables must be tied immediately at the terminals. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 327 Binary inputs 1 to 4 CO1 to CO4 Command outputs 1 to 4 K5 to K8 Signaling of the binary inputs 1 to 4 K9 to K12 Signaling of the command outputs Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 328: Block Diagrams Of
Interface Command Module 8.2 Block Diagrams of IFC Modules Block Diagrams of IFC Modules IFC-D Module 8.2.1 [rgcsem01-190413-01.tif, 1, en_US] Figure 8-12 Block Diagram of the IFC-D Module Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 329: Ifc-P Module
Interface Command Module 8.2 Block Diagrams of IFC Modules IFC-P Module 8.2.2 [rgcsem02-270510-01.tif, 1, en_US] Figure 8-13 Block Diagram of the IFC-P Module Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 330: Ifc-S Module
Interface Command Module 8.2 Block Diagrams of IFC Modules IFC-S Module 8.2.3 [rgcsem03-270510-01.tif, 1, en_US] Figure 8-14 Block Diagram of the IFC-S Module Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 331: Digital Line Equipment
Digital Line Equipment Overview Transmission Concept Interface X.21 Interface G703.1 (64 Kbps) Interface G703.6 (2 Mbps HDB3) Jumper Settings Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 332: Overview
9.1 Overview Overview The digital line interfaces LID-1 and LID-2 of the SWT 3000 system are implemented on the DLE module. These interfaces enable the transmission of the protection commands via a digital network (SDH/PDH). The data for the remote maintenance and the service channel interfaces and the system-internal control information are transmitted additionally.
Page 333: Transmission Concept
RM data RM data RM data Frame alignment signal Type code 2 SC data SC data SC data Frame alignment signal Type code 3 Device address Command informa- Checksum tion Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 334: Interface X.21
Maximum voltage of each line to GND (absolute) > 2 V Differential voltage between the lines Line run: Twisted in pairs and shielded, joint shield for all 4 line pairs Bit rate: 64 Kbps Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 335: Interface G703.1 (64 Kbps)
Space 0 V ± 0.1 V, Mark 1 V Level, receiver side: 0 dB to 3 dB Impedance: 120 Ω Bit rate: 64 Kbps (gross bit rate = 4 x 64 Kbps = 256 Kbps) Coding: Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 336: Interface G703.6 (2 Mbps Hdb3)
Level, receiver side: Loss at 1024 kHz 0 dB to 6 dB Impedance: 75 Ω Line lengths: short = indoor, long = outdoor Bit rate: 2 Mbps Coding: HDB3 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 337: Jumper Settings
Equipment Manual. They are also available in the SWTStraps program, which is manually installed with the service program PowerSys and useful to find the jumper settings for the SWT 3000 or iSWT modules. For a description of SWTStraps program see chapter 5.7 SWTStraps for Jumper Settings...
Page 338 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 339: Copper Line Equipment Module
Copper Line Equipment Module 10.1 Function Description 10.2 Connection of an External SWT 3000 to the PowerLink 50/100 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 340: Function Description
A receive filter The CLE is connected to the PU4 module in the SWT 3000 unit. The PU4 generates the VF signal which must be transmitted. The VF signal is fed onto the transmission line by the transmit amplifier of the CLE. In the opposite direction, the VF signal is forwarded from the transmission route to the PU4 via the receive filter.
Page 341: The Receive Section
10.1.2 The incoming VF signal from the copper line or from a Siemens PLC equipment is fed in at the receive section. The input is protected against overvoltages up to 2 kV that can be transferred to the transmission route by coupling.
Page 342: Alarm Displays
(PON_PU signal) drives this relay, which is only enabled if the unit is operating properly. 10.1.4 Alarm Displays The alarm signals generated by the PU4 module are displayed via red LED on the front panel of the SWT 3000. LED are provided for the following alarms: Smart Communication, SWT 3000 Teleprotection, Equipment Manual...
Page 343: S6 Control Wires
S6 Control Wires 10.1.5 The CLE module contains an optocoupler for the S6 control wire. The S6 control wire is used for disconnecting voice and data signals in a Siemens PLC equipment in alternate multi-purpose mode. [dwcontro-051011-01.tif, 1, en_US] Figure 10-5 Block Diagram of the S6 Control The circuit is driven on a low-active basis.
Page 344: Inhibit Line
An inhibit line is routed via the CLE module, which acts on the inhibit input of the power supply. If there is no CLE module (if only a device with digital interfaces exists), insert the jumper X41 in position 1-2 in the subrack. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 345: Connection Of An External Swt 3000 To The Powerlink 50/100
Connection of an External SWT 3000 to the PowerLink 50/100 The connection of an external SWT 3000 to the VF- interface of a PowerLink device is carried out via the back- plane connector of the CLE and the D-Sub sockets (VFx) on the connector panel of the PowerLink. The prin- ciple is shown in the following figures.
Page 346 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 347: Fiber Optic Module
Fiber Optic Module 11.1 Fiber-Optic Module 11.2 Fiber-Optic Box Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 348: Fiber-Optic Module
11.1 Fiber-Optic Module With the FOM, it is possible to connect up to 2 external SWT 3000 via fiber-optic cable to the PowerLink PLC system (for each transmission direction one fiber). In the PowerLink 100 system, 2 SWT 3000 can be connected via fiber-optic cables (iSWT-1 and iSWT-2).
Page 349 Debug information (for test purpose) NOTE If there is a FOM connection, the configuration of the external SWT 3000 is executed via the PowerLink with the service program PowerSys. The service interface of the PU4 in the external SWT 3000 cannot be used.
Page 350: Fiber-Optic Box
Overview 11.2.1 The fiber-optic box (FOBox) is used for connecting the SWT 3000 via fiber-optic cable with a PDH-Multiplexer or SDH-Multiplexer. For each transmission direction, a separate fiber is necessary. The FOBox contains the FOM with the electrical/optical conversion, the interface to the multiplexer, and a power supply.
Page 351 Name G.703.1 Name G703.6 Signal Direction Signal timing (a) RxC_A Not connected Signal Ground Transmit (b) TxD_B Control (b) C (b) Receive (b) RxD_B Not connected Signal timing (b) RxC_B Not connected Not connected Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 352 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 353: Alarm Module
Alarm Module 12.1 Overview 12.2 Inputs and Outputs Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 354: Overview
IRIG-B signals (jumpering X16-X17). Additionally the ALR module provides an LED for visual indication of the state for each binary input and for each alarm output. The LEDs are visible after removal of the front panel. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 355: Inputs And Outputs
The output signals of the circuits have TTL level. Binary input BI1 is alternatively configurable as an input for entering IRIG-B signals. NOTE Binary input BI2 is for future use. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 356: Relay Outputs
For test purposes, the ALR module provides a switch for each of the binary input circuits and for the IRIG-B circuit. Closing a switch sets the output of the assigned circuit to the active state. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 357 12.2 Inputs and Outputs Table 12-2 Functions of the ALR Test Switch Switch Function S1.1 Binary input 2 test S1.2 Binary input 1 test S1.3 Not used S1.4 IRIG-B test Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 358 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 359: Power Supply
Power Supply 13.1 Functional Description 13.2 Connection of the Power Supply Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 360: Functional Description
Use only fuses with suitable ratings (see chapter Technical Data). ² NOTE Always use following fuse: 6.3 AT DC 400 V/AC 500 V rated. Siemens recommends the fuse 047706.3MXP from the company Littlefuse to be inserted the original power supply. Disconnection An internal inhibit signal disconnects the outputs as follows: •...
Page 361: General Description
2 require additional insulating access protection around the housing of the power supply. NOTE If the SWT 3000 is used in the PowerLink system (as iSWT) it is supplied via the central power supply of the PowerLink. It is neither required nor it is possible to use a separate power supply for the integrated unit.
Page 362: Displays
≤ I o nom ≤ 0.8 V Disable ≤ I Undervoltage or overvoltage monitoring has o nom operated ≤ T cmax ≤ 0.8 V = Input voltage Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 363: Connection Of The Power Supply
OUT1+ OUT1- Reference potential for V OUT1- OUT1+ GND, GNDS Protection Earth + N/+ Positive input voltage with respect to V - L/- Negative input voltage with respect to V Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 364: Redundant Power Supply
13.2.2 One or 2 power supplies can be used in the SWT 3000 system. They are decoupled via diodes on the back- plane. In order to detect failure of a power supply unit, the PU4 module monitors the output voltages from power supplies PS-1 and PS-2.
Page 365: Inhibit Loop
If you do not comply with the safety notes, this will result in death, severe injury, or considerable material damage. Make sure that the power is turned OFF by switching the external voltage separator in the cabinet or ² rack to OFF position. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 366 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 367: Technical Data
Command Input/Output 14.3 Transmission Line - Digital Networks 14.4 Transmission Line - Fiber-Optic 14.5 Transmission - Analog Networks 14.6 Common System Data 14.7 Standards 14.8 Electromagnetic Compatibility EMC 14.9 Ambient Conditions Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 368: Operating Temperature And Bus Interface
Technical Data 14.1 Operating Temperature and Bus Interface 14.1 Operating Temperature and Bus Interface Operating Temperature Range Operating temperature range: -5 °C to +50 Internal Bus Interface of IFC Signal level: Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 369: Command Input/Output
≤ 2.5 mm (modular terminal block) Electric strength of contacts/coil AC 3000 V Regardless of the configured nominal input voltage, the maximum voltage of DC 287.5 V can be connected. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 370 IEC 61850 Command Input/Output EN100 Electrical interface RJ45, 100BaseT, max. range 20 m Optical interface 1300 nm, LC connector, max. range 1.5 km, Multimode Transmission rate 100 Mbps (Fast Ethernet) Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 371: Transmission Line - Digital Networks
If the EN100 module is used as GOOSE interface, the transmission times are prolonged by about ≤ 1 ms. Security and Dependability Security < 10 Dependability < 10 at BER of 10 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 372: Transmission Line - Fiber-Optic
-8 dBm, min -48 dBm At 2 Mbps max -8 dBm, min -32 dBm To PowerLink max -8 dBm, min -28 dBm Release ≥3.5 Assumed fiber attenuation 0.28 db/km Assumed fiber attenuation 0.38 dB/km Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 373 AC 500 V Fiber-optic modules (SFP transceiver) Optic budget and range are identical to FOL1, FOS1, FOS2 as specified for FOM Assumed fiber attenuation 3.5 dB/km Assumed fiber attenuation 3.5 dB/km Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 374: Transmission - Analog Networks
* Values are given for the IFC-P module. If the IFC-D module is used all specified signal transmission times are prolonged by about ≤ 4 ms. With fiber-optic connection between SWT 3000 and PowerLink the transmission times are prolonged by about ≤ 1 ms.
Page 375 Technical Data 14.5 Transmission - Analog Networks Security - Blocking/permissive tripping < 10 Dependability - Blocking/permissive tripping < 10 at SNR of 6 dB Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 376: Common System Data
Events 8192 Non volatile 1 ms time resolution Trip counter Individual counter for each received and transmitted command Size 128 The fuse must have a safety certification for DC voltages. Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 377 Ethernet, local, RJ45, 100BaseT local/remote, front NMS integration SNMPv2/3 Mechanical Design [dwmechdi-051011-01.tif, 2, en_US] Dimensions Height: 132 mm/3U Width: 482.6 mm/19 inch Depth: 240 mm Weight Approx. 5 kg Colour White aluminium, RAL 9006 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 378: Standards
Performance/EMC/Environmental/Safety Performance and testing of teleprotection equipment IEC 60834-1 Electromagnetic compatibility (EMC) directive IEC61000-6-2 IEC 61000-6-4 2004/108/EC (EMC directive) Environmental conditions IEC 60721-3 Product safety EN 60950-1 NMS integration SNMPv2/3 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 379: Electromagnetic Compatibility Emc
G703.6 sym. AC 500 V Impulse Withstand Level 1,2/50µs IEC 60950-1 VF input/output 1 kV Digital input/output 1 kV Power supply 5 kV Command input/output 5 kV Alarm outputs 5 kV Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 380: Ambient Conditions
Class 3M1 Pulse duration: 22 ms Acceleration: 4 g Shock - resistance Pulse duration: 11 ms Acceleration: 10 g Except for the cable entry on the rear and bottom side Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 381: A Appendix
Appendix Abbreviation List Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 382: Abbreviation List
E1 120 Ω Y cable from two M2ME to SDF (Krone type) EALR Receiver Alarm Ethernet interface (TCP/IP) Fiber-optic connection Fiber-Optic Box Fiber-Optic Module G703.1 Digital interface (bitrate: 64 Kbps) ) G703.6 Digital interface (bitrate: 2 Mbps) General alarm Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 383 4x X.21 Module Narrow Band Break Contact Network Management System NDALR Non-urgent alarm Make Contact Network Time Protocol ¡V an IP protocol for distributing time and date informa- tion NU-Alarm Non-urgent alarm Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 384 Transmitter Alarm User Interface Universal Substation Node USYNC Clock Synchronization Voice frequency VLAN Virtual Local Area Network vMUX Versatile Multiplexer VOIP Voice over Internet Protocol X.21 Digital interface (bitrate: 64 Kbps) Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 385 Cable from T2M to SDF (Krone type) for 21 E1, 75 Ω 21E1-75 Cable from T2M to connector panel for 21 E1, 75 Ω, BNC connector, incl. baluns for impedance adaptation Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 386 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 387: Index
Cyber Security 88 PU4 113 Digital Line Equipment (DLE) 332 Master 83 Interface G703.1 335 MemTool 227 Interface G703.6 336 MergeTool 255 Interface X.21 334 Module Transmission Concept 333 CLE 115 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...
Page 388 Digital Interface 68 SSB 106 SWT 3000 137 Service Channel 68 Slave 83 Slot 63 SNMP 276 Alarm 278 Password 291, 303 Settings 289 SNMP Traps 278 Subrack 99 SWTStraps 250 Smart Communication, SWT 3000 Teleprotection, Equipment Manual C53000-G6040-C605-1, Edition 03.2020...

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