MR MSENSE BM Operating Instructions Manual

Monitoring system

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Monitoring system

MSENSE

Operating Instructions

5089542/06 EN

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Page 1 Monitoring system ® MSENSE Operating Instructions 5089542/06 EN...
Page 2 © All rights reserved by Maschinenfabrik Reinhausen Dissemination and reproduction of this document and use and disclosure of its content are strictly prohibited unless expressly permitted. Infringements will result in liability for compensation. All rights reserved in the event of the granting of patents, utility models or designs.
Page 3: Table Of Contents
Table of contents Table of contents Introduction......................... 8 Manufacturer............................ 8 Completeness............................. 8 Safekeeping............................ 8 Notation conventions .......................... 8 1.4.1 Hazard communication system .......................... 8 1.4.2 Information system.............................. 10 1.4.3 Instruction system ............................... 10 1.4.4 Typographic conventions ............................ 11 Security .......................... 12 Appropriate use .......................... 12 Inappropriate use..........................
Page 4 Table of contents Mounting ........................... 36 Preparation ............................ 36 Installing the bushing adapter...................... 36 Installing the bushing coupling unit.................... 38 Fitting the control cabinet to the transformer .................. 41 Connecting the device ........................ 43 6.5.1 Cable recommendation ............................ 43 6.5.2 Information about connecting serial interfaces RS232 and RS485.............. 44 6.5.3 Information about laying fiber-optic cable ...................... 47 6.5.4...
Page 5 Table of contents 8.3.3 Activating/deactivating service user access...................... 69 Configuring the network........................ 69 Setting the device time ........................ 72 Configuring syslog .......................... 74 SCADA ............................. 75 8.7.1 Configuring IEC 61850 (optional)........................ 76 8.7.2 Configuring IEC 60870-5-101 (optional) ...................... 78 8.7.3 Configuring IEC 60870-5-103 (optional) ...................... 81 8.7.4 Configuring IEC 60870-5-104 (optional) ...................... 84 8.7.5...
Page 6 Table of contents 8.19 Information about device ........................ 125 8.19.1 Hardware................................ 125 8.19.2 Software ................................ 126 8.20 Import/export manager ........................ 126 8.20.1 Exporting data .............................. 126 8.20.2 Importing data (software version 3.44 and later).................... 128 8.21 Configuring media converter with managed switch ................ 129 8.21.1 Commissioning.............................. 129 8.21.2...
Page 7 Table of contents 14.3.3 DIO 28-15 digital inputs and outputs......................... 176 14.3.4 CPU (central processing unit) I ......................... 178 14.3.5 System networking............................ 180 14.3.6 Bus extension module............................ 181 14.4 Connection cable .......................... 182 Appendix ......................... 183 15.1 Measured value log ........................ 183 Glossary .......................... 185 List of key words ......................
Page 8: Introduction
1 Introduction 1 Introduction This technical file contains detailed descriptions on the safe and proper in- stallation, connection, commissioning and monitoring of the product. It also includes safety instructions and general information about the prod- uct. This technical file is intended solely for specially trained and authorized per- sonnel.
Page 9 1 Introduction Type of danger! WARNING Source of the danger and outcome. ► Action ► Action 1.4.1.2 Embedded warning information Embedded warnings refer to a particular part within a section. These warn- ings apply to smaller units of information than the warnings relating to sec- tions.
Page 10: Information System
1 Introduction Pictogram Definition Warning of danger of tipping Warning of danger of crushing Table 2: Pictograms used in warning notices 1.4.2 Information system Information is designed to simplify and improve understanding of particular procedures. In this technical file it is laid out as follows: Important information.
Page 11: Typographic Conventions
1 Introduction 2. Step 2. ð Result of step (optional). ð Result of action (optional). 1.4.4 Typographic conventions The following typographic conventions are used in this technical file: Typographic convention Purpose Example UPPERCASE Operating controls, switches ON/OFF [Brackets] PC keyboard [Ctrl] + [Alt] Bold Software operating controls...
Page 12: Security
2 Security 2 Security ▪ Read this technical file through to familiarize yourself with the product. ▪ This technical file is a part of the product. ▪ Read and observe the safety instructions provided in this chapter. ▪ Read and observe the warnings in this technical file in order to avoid func- tion-related dangers.
Page 13: Inappropriate Use
2 Security 2.2 Inappropriate use Use is considered to be inappropriate if the product is used other than as de- scribed in the Appropriate use section. In addition, observe the following: ▪ The product is not suited for extending the permitted service life of the bushing specified by the bushing manufacturer.
Page 14 2 Security Working during operation The product may only be operated in a sound, operational condition. Other- wise it poses a danger to life and limb. ▪ Regularly check the operational reliability of safety equipment. ▪ Comply with the inspection work, maintenance work and maintenance in- tervals described in this technical file.
Page 15: Personnel Qualification
2 Security Safety markings Warning signs and safety information plates are safety markings on the product. They are an important aspect of the safety concept. ▪ Observe all safety markings on the product. ▪ Make sure all safety markings on the product remain intact and legible. ▪...
Page 16: Personal Protective Equipment
2 Security Electrically trained persons An electrically trained person receives instruction and guidance from an electrically skilled person in relation to the tasks undertaken and the poten- tial dangers in the event of inappropriate handling as well as the protective devices and safety measures.
Page 17 2 Security Hearing protection To protect against hearing damage. Protective gloves To protect against mechanical, thermal, and electrical hazards. Table 4: Personal protective equipment ® Maschinenfabrik Reinhausen GmbH 2019 5089542/06 EN MSENSE...
Page 18: Security
3 IT security 3 IT security Observe the following recommendations for secure operation of the product. General ▪ Ensure that only authorized personnel have access to the device. ▪ Only use the device within an ESP (electronic security perimeter). Do not connect the device to the Internet in an unprotected state.
Page 19 ETH 2.x (only for MR service) ETH 2.x HTTP for web-based visualization ETH 2.x HTTPS for web-based visualization ETH 2.x FTPS (only for MR service) ETH 2.x 8080 HTTP for web-based visualization ETH 2.x 8081 HTTPS for web-based visualization Table 5: Interfaces and open ports of the CPU assembly Port is closed if you activate the device's SSL encryption.
Page 20 3 IT security Depending on the setting of the parameter Visualization release [►Page 71]. Default setting; if you have modified the port for the control system proto- col, only the set port is opened. Encryption standards The device supports the following TLS versions: ▪...
Page 21: Product Description
4 Product description 4 Product description 4.1 Scope of delivery The following items are included in the delivery: ▪ Control cabinet with MSENSE® BM bushing monitoring ▪ For each bushing to be monitored (3 or 6): – Bushing adapter – Connection cable for the bushing adapter and bushing coupling unit –...
Page 22: Performance Features
4 Product description The monitoring system takes advantage of the implemented algorithms to largely compensate for voltage fluctuations and temperature fluctuations in the 3-phase system, thereby ensuring reliable monitoring for the bushings. Figure 2: Operating principle 4.3 Performance features The MSENSE® BM monitoring system monitors the bushings of a power transformer and has the following features: ▪...
Page 23: Operating Modes
4 Product description – IEC 61850 (edition 1 and edition 2) – Modbus (RTU, TCP, ASCII) – DNP3 4.4 Operating modes Local mode (LOCAL) In the Local operating mode, you can make entries and input commands us- ing the device's operating controls. You cannot use inputs or the control sys- tem to make entries or enter commands.
Page 24: Design
4 Product description 4.5 Design The complete system consists of the following subassemblies: Figure 3: Design 1 Bushing adapter 2 Connection cable for the bushing adapter and bushing coupling unit 3 Bushing coupling unit 4 Connection cable for the bushing coupling unit and control cabinet 5 Control cabinet with monitoring system ®...
Page 25: Bushing Adapter And Bushing Coupling Unit
4 Product description 4.5.1 Bushing adapter and bushing coupling unit The bushing adapter is used to pick up the measured voltage at the bushing test tap. The downstream bushing coupling unit is used to adjust the mea- sured voltage. Both components are tuned to the bushings to be monitored in accordance with your order.
Page 26 4 Product description 4.5.2.1 Display elements and operating controls The control cabinet contains the following components: Figure 4: Control cabinet display elements and operating controls 1 Local/Remote switch 2 Signal light (yellow, red) 3 Ethernet interface ETH1.1 (RJ45) 4 Plug socket X19, max. 10 A 5 Fuses F14 and F25 4.5.2.2 Assemblies Depending on configuration, the device may have various assemblies which...
Page 27 4 Product description 4.5.2.2.2 CPU (central processing unit) I The CPU I assembly is the central processing unit for the device. It contains the following interfaces: ▪ Internal system interface RS232 (COM1) ▪ Serial interface RS232/485 (COM2) ▪ 3x Ethernet (ETH1, ETH 2.1, ETH 2.2) ▪...
Page 28: Dio 28-15 Digital Inputs And Outputs
4 Product description 4.5.2.2.4 DIO 28-15 digital inputs and outputs The DIO 28-15 assembly makes 28 inputs and 15 outputs (6 N/O contacts, 9 change-over contacts) available. Figure 8: DIO 28-15 assembly Warning of a danger point. Read the information given in the product oper- ating instructions.
Page 29 4 Product description Figure 9: MC 2-2 assembly 4.5.2.2.6 Media converter with managed switch The assembly SW 3-3 is a media converter with managed switch. It com- bines two independent functions and provides you with the following inter- faces: ▪ A media converter converts an electric connection (RJ45) into a fiber-optic cable connection –...
Page 30 4 Product description Figure 10: SW 3-3 assembly 4.5.2.2.7 Bus extension module The assemblies BEM 1 (master) and BES 1 (slave) are bus extension mod- ules which are used to extend the system by one additional busbar with ad- ditional assemblies. Data is transmitted via fiber-optic cable. The assembly BES 1 has a connection for supplying voltage to the additional busbar.
Page 31: Packaging, Transport And Storage
5 Packaging, transport and storage 5 Packaging, transport and storage 5.1 Packaging The products are sometimes supplied with sealed packaging and sometimes in a dry state, depending on requirements. Sealed packaging surrounds the packaged goods with plastic foil on all sides.
Page 32: Markings
5 Packaging, transport and storage 5.1.2 Markings The packaging bears a signature with instructions for safe transport and cor- rect storage. The following symbols apply to the shipment of non-hazardous goods. Adherence to these symbols is mandatory. Protect against Fragile Attach lifting Center of mass moisture...
Page 33: Storage Of Shipments
5 Packaging, transport and storage Visible damage If external transport damage is found upon receipt of the shipment, proceed as follows: ▪ Immediately record the identified transport damage in the shipping docu- ments and have this countersigned by the carrier. ▪...
Page 34: Unpacking Shipments And Checking For Transportation Damages
5 Packaging, transport and storage When selecting and setting up the storage location, ensure the following: ▪ Protect stored goods against moisture (flooding, water from melting snow and ice), dirt, pests such as rats, mice, termites and so on, and against unauthorized access.
Page 35 5 Packaging, transport and storage Figure 12: Lifting-gear limit stop of the control cabinet – WARNING! The cable angle of the lifting gear must always be less than 45° in relation to the vertical. Otherwise, the control cabinet may be damaged and serious injuries may result. Figure 13: Maximum permissible cable angle for the lifting-gear limit stop of the control cabinet Also refer to 2 Technical data [► 169]...
Page 36: Mounting
6 Mounting 6 Mounting This chapter describes how to correctly install and connect the device. Note the connection diagrams provided. Electric shock! DANGER Risk of fatal injury due to electrical voltage. Always observe the following safety regulations when working in or on electrical equipment. ►...
Page 37 6 Mounting 2. Ensure that the test tap and the bushing adapter are dry and free of dirt. If this is not the case, clean and dry them with a cloth. 3. Ensure that the sealing ring of the bushing adapter is present and posi- tioned correctly.
Page 38: Installing The Bushing Coupling Unit
6 Mounting 6.3 Installing the bushing coupling unit You can also use your own supporting plate instead of the provided sup- porting plate. In this case, you must ensure that the bushing coupling unit is continuously connected to the transformer tank by a low-resistance connec- tion (e.g.
Page 39 6 Mounting 2. Insert Allen screws with lock washers into the intended holes and fasten the supporting plate on the other side with lock washers and nuts. Figure 17: Fastening the bushing coupling unit to the supporting plate 3. Check whether the jumper is inserted. If not, insert the jumper. Figure 18: Checking the jumper ®...
Page 40 6 Mounting 4. Place the cover on the bushing coupling unit and screw it in place. Figure 19: Fastening the cover 5. Unscrew the fixing screw for the bushing flange. 6. Install the supporting plate on the bushing flange. Figure 20: Installing the supporting plate on the bushing flange ®...
Page 41: Fitting The Control Cabinet To The Transformer
The control cabinet has 4 fixing attachments on the rear for securing it. To mount the control cabinet on the transformer, proceed as follows: 1. Attach 4 stud bolts (not supplied by MR) to the transformer tank. Figure 22: Fastening the stud bolts ®...
Page 42 6 Mounting 2. Use the fixing attachments to attach the control cabinet to the stud bolts and align it vertically on the transformer tank. Figure 23: Attaching the control cabinet NOTICE! Secure the control cabinet without subjecting it to mechanical tension. Otherwise, the control cabinet may be damaged. Figure 24: Fastening the control cabinet ®...
Page 43: Connecting The Device
6 Mounting 4. Connect the grounding cable to the control cabinet and transformer tank, holding it against the control cabinet using a size 36 wrench. Figure 25: Connecting the grounding cable to the control cabinet 6.5 Connecting the device 6.5.1 Cable recommendation Please note the following Maschinenfabrik Reinhausen recommendation when wiring the device.
Page 44: Information About Connecting Serial Interfaces Rs232 And Rs485
6 Mounting Cable Assembly, Cable type Conductor cross-sec- Max. length terminal tion Digital signal inputs DIO 28-15, Shielded 1.5 mm 400 m (<25 Ω/km) DIO 42-20 Digital signal outputs* DIO 28-15, Shielded 1.5 mm DIO 42-20 RS232, SUB-D CPU I Shielded 0.25 mm 25 m...
Page 45 6 Mounting RS232 (D-SUB 9-pole) To connect the device via the RS232 interface (COM2), use a data cable with the following structure: Figure 26: RS232 data cable (9-pole) ® Maschinenfabrik Reinhausen GmbH 2019 5089542/06 EN MSENSE...
Page 46 6 Mounting RS485 (D-SUB 9-pole) To connect the device via the RS485 interface (COM2), use a data cable with the following structure: Figure 27: RS485 data cable D-SUB 9-pole plug connection Only use 9-pole D-SUB plugs with the following characteristics: ▪ Plug housing is metallic or metal-plated ▪...
Page 47: Information About Laying Fiber-Optic Cable
6 Mounting Figure 28: Example of a soldered shielding on a plug housing 6.5.3 Information about laying fiber-optic cable To ensure the smooth transfer of data via the fiber-optic cable, you must en- sure that mechanical loads are avoided when laying the fiber-optic cable and later on during operation.
Page 48: Connecting The Bushing Coupling Unit To The Control Cabinet
6 Mounting 2. Attach the connection cable plug to the bushing adapter and screw it in place. Figure 29: Connecting the connection cable to the bushing adapter 3. Attach the connection cable plug to the bushing coupling unit and screw it in place.
Page 49 6 Mounting 2. Ensure that the plug of the connection cable and the U connection of the bushing coupling unit are dry and free of dirt. If this is not the case, clean and dry them with a cloth. 3. Attach the connection cable plug to the U connection of the bushing cou- pling unit and screw it in place.
Page 50 6 Mounting NOTICE! Laying the connection cable on the transformer to the control cabinet. When laying the cable, observe the minimum permitted bending radius of 50 mm and take precautions to protect the cable from mechani- cal damage (e.g. protective tubes). Otherwise the connection cable may become damaged.
Page 51 6 Mounting Connecting the connection cable in the control cabinet The connection cable must be connected to the terminal in the control cabi- net in accordance with the connection diagram. The cable shielding must be attached to the grounding bar using a shielding terminal. Figure 33: Connection of the connection cable in the control cabinet 1 Connection terminal 2 Shielding terminal...
Page 52 6 Mounting 2. Shorten the shielding to a length of 30 mm. Figure 35: Shortening the shielding 3. Remove 13 mm of inner insulation. Figure 36: Removing the inner insulation 4. Connect the connection cable to the terminal in the control cabinet in ac- cordance with the connection diagram.
Page 53: Connecting The Voltage Transformers For The Reference System
6 Mounting 5. Fit the cable shielding to the grounding bar using a shielding terminal and tighten the shielding terminal with a tightening torque of 3 Nm. Figure 37: Attaching the shielding terminal 6.5.6 Connecting the voltage transformers for the reference system NOTICE Damage to the device! If the voltage transformer and device have different potentials, current may...
Page 54: Connecting Additional Leads (Optional)
6 Mounting 2. Connect the voltage transformers to terminal X10 in accordance with the connection diagram. Figure 39: Connecting the voltage transformers for the reference system 3. Fit the shielding for the cables to the control cabinet grounding bar and tighten the shielding terminal with a tightening torque of 3 Nm. Figure 40: Attaching the shielding terminal 6.5.7 Connecting additional leads (optional) Connect additional leads as necessary in accordance with the connection di-...
Page 55: Connecting The Power Supply
6 Mounting Routing information for connecting the control system or visualization When connecting the device to a control system or to your network for ac- cessing the visualization, observe the following recommendation on the ca- ble routing in the control cabinet: Figure 41: Recommendation on the cable routing in the control cabinet for the connection of the control system or visualization 6.5.8 Connecting the power supply...
Page 56: Checking Functional Reliability
6 Mounting To connect the voltage supply, proceed as follows: ► Connect the power supply of the control cabinet to terminal X1 in accor- dance with the connection diagram provided. 6.6 Checking functional reliability To ensure that the device is wired correctly, check its functionality. NOTICE Damage to device and system periphery! An incorrectly connected device can lead to damage to the device and sys-...
Page 57: Commissioning
7 Commissioning 7 Commissioning 7.1 Determining the capacitance and dissipation factor of the bushings To ensure that the bushings are in the proper condition, Maschinenfabrik Reinhausen GmbH recommends taking an initial measurement on new bushings when commissioning the bushing monitoring. If you are retrofitting the bushing monitoring on bushings already in operation, an initial measure- ment is absolutely essential.
Page 58 7 Commissioning Establishing a connection via the ETH1.1 interface To establish a connection via the ETH1.1 interface, proceed as follows: 1. Connect the PC and device using an Ethernet cable (RJ45 plug) via the ETH1.1 interface. Figure 42: Establishing a connection via the front interface 2.
Page 59: Setting The Language
7 Commissioning To connect via the ETH2.2 interface, proceed as follows: 1. Connect the PC and device using an Ethernet cable (RJ45 plug) via the ETH2.2 interface. Figure 43: Establishing a connection via the ETH2.2 interface on the back 2. Assign a unique IP address to the PC in the same subnet as the device (e.g.
Page 60: Setting Date And Time
7 Commissioning *) Language is available as an option 1. Select the Language button in the status bar, or as an alternative, go to Settings> System > General > Language. Figure 44: Setting the language 2. Select the desired language from the list box. 3.
Page 61: Setting The Parameters Manually
7 Commissioning To set the parameters with the help of the commissioning wizard, proceed as follows: 1. Log in as a user with the necessary access rights. 2. Go to Settings > Commissioning wizard. Figure 45: Calling up the commissioning wizard 3.
Page 62: Performing Standardization
▪ Configuring capacitance monitoring [►Section 8.11.2, Page 103] ▪ Configuring dissipation factor monitoring [►Section 8.11.3, Page 107] 7.7 Performing tests Please contact Maschinenfabrik Reinhausen GmbH (MR) if any aspect of the tests is not clear. 7.7.1 Performing function tests To check that the monitoring system is functioning correctly, proceed as fol- lows: 1.
Page 63: Electrical High-Voltage Tests On The Transformer
7 Commissioning 7.7.2 Electrical high-voltage tests on the transformer It is essential that you ensure only trained, instructed expert personnel who are familiar with and comply with the pertinent safety and technical regula- tions, who are aware of the potential risks, and who consistently use the oc- cupational safety equipment provided to prevent injury and property damage are assigned to perform such a transformer test.
Page 64: Operation
8 Operation 8 Operation This chapter describes all the functions and setting options for the device. 8.1 Establishing connection to visualization You can use the ETH2.1 interface or the optional ETH2.2 interface of the CPU assembly to establish the connection to the visualization. The inter- faces do not use a DHCP server.
Page 65: Operating Concept
8 Operation 2. Assign a unique IP address to the PC. This IP address must be in the same subnet as the device (e.g. ETH2.1: 192.168.165.100). 3. Enter the IP address of the visualization (e.g. ETH2.1: http://192.168.165.1; if SSL encryption is active, enter https://192.168.165.1) in the browser on the PC.
Page 66 8 Operation 4. Select Time. In these operating instructions, the path for navigating to a parameter is al- ways shown in an abridged form: Go to Settings > Parameters > Time syn- chronization. Parameter search You can use the quick search function in the parameter menu to search for a parameter.
Page 67: General
8 Operation To activate the expert mode, proceed as follows: 1. Go to Settings > Parameters. 2. Select the Expert mode checkbox. ð Expert mode is active. Hiding/showing parameters Depending on how you set the parameters, the device will hide or show ad- ditional parameters related to this function.
Page 68: Set Up Automatic Logout
8 Operation Remote behavior You can use this parameter to select the behavior of the device in remote operating mode. You can select the following options: Option Description Hardware only The device accepts commands via digital inputs. SCADA only The device accepts commands via SCADA. Hardware and SCADA The device accepts commands via digital inputs and SCADA.
Page 69: Activating/Deactivating Service User Access
8 Operation 8.3.3 Activating/deactivating service user access The device is equipped with user access for the Maschinenfabrik Rein- hausen GmbH Technical Service department. This access is for error diag- nostics and troubleshooting in the event of device faults. Only activate ser- vice user access for a limited time period for remedying faults in order to safeguard IT security.
Page 70 8 Operation You can only set the parameters for ETH 2.2 if the device is equipped with the optional interface for visualization. Figure 49: Network settings 1. Go to Settings > Parameters > System > Network settings. 2. Select the desired parameter. 3.
Page 71 8 Operation Visualization release You can use this parameter to set the interfaces via which you can access the visualization: ▪ Only ETH 2.x ▪ ETH 1 and ETH 2.x You can only set this parameter if the device is equipped with the optional control system connection via Ethernet (TCP/IP) and the optional interface for visualization.
Page 72: Setting The Device Time
8 Operation 8.5 Setting the device time You can set the the device time manually or automatically via an SNTP time server. The device must be connected to an SNTP time server via Ethernet for this purpose. Figure 50: Time synchronization 1.
Page 73 8 Operation Automatic daylight saving / standard time You can use this parameter to activate the automatic switchover between daylight saving time and standard time. Depending on the time zone (region) set, the device switches automatically between daylight saving time and standard time on the specified days.
Page 74: Configuring Syslog
8 Operation 8.6 Configuring syslog The device supports the transmission of log messages via the syslog proto- col in accordance with the standards RFC 5424 and RFC 3164. Figure 51: Syslog 1. Go to Settings > Parameters > System > Syslog. 2. Select the desired parameter. 3.
Page 75: Scada
8 Operation Syslog server You can use this parameter to set the IP address of the syslog server. Syslog server port You can use this parameter to set the port of the syslog server. Reconnect delay time You can use this parameter to determine how long the device will wait be- fore it attempts to reconnect after the connection has been interrupted earlier or a syslog message could not be transmitted (only for TCP or TLS).
Page 76: Configuring Iec 61850 (Optional)
8 Operation 8.7.1 Configuring IEC 61850 (optional) If you want to use the IEC 61850 control system protocol, you must set the following parameters. Also refer to the section Configuring the network [►Section 8.4, Page 69]. Figure 52: IEC 61850 1. Go to Settings > Parameters > System > IEC 61850. 2.
Page 77 8 Operation 8.7.1.1 Downloading an ICD file You can download the ICD file from the device via the Import/Export Man- ager [►Section 8.20, Page 126]. To do this, you have to establish an Ether- net connection between the device and your PC. For a smooth download with Windows Vista/7/8 operating systems, use Windows Explorer.
Page 78: Configuring Iec 60870-5-101 (Optional)
8 Operation 8.7.2 Configuring IEC 60870-5-101 (optional) If you want to use the IEC 60870-5-101 control system protocol, you must set the following parameters. Figure 53: IEC 60870-5-101 1. Go to Settings > Parameters > System > IEC 60870-5-101. 2. Select the desired parameter. 3.
Page 79 8 Operation Transmission procedure You can use this parameter to set the transmission procedure. You can se- lect the following options: ▪ Unbalanced transmission ▪ Balanced transmission Number of link address octets You can use this parameter to set how many octets are provided for the link address.
Page 80 8 Operation ASDU single character confirmation You can use this parameter to set whether a confirmation is to be sent as single characters instead of as a complete message. Single character confir- mation is only possible for requesting data of class 2 (Class 2 Request). RES bit test You can use this parameter to set whether the device is to check the RES bit (Reserved Bit) in the control field.
Page 81: Configuring Iec 60870-5-103 (Optional)
8 Operation Reference time You can use this parameter to set which time is to be transmitted by the con- trol system. The device uses this information for time synchronization [►Section 8.5, Page 72]. You can select the following options: Option Description Local...
Page 82 8 Operation Serial interface You can use this parameter to select the serial interface for data transmis- sion. You can select the following options: ▪ RS232 ▪ RS485 Baud rate You can use this parameter to set the serial interface's baud rate. You can select the following options: ▪...
Page 83 8 Operation DFC compatibility You can use this parameter to set how the device is to use the DFC bit (Data Flow Control) in the control field. You can select the following options: Option Description Standard The device sets the DFC bit in each response to a com- mand.
Page 84: Configuring Iec 60870-5-104 (Optional)
8 Operation 8.7.4 Configuring IEC 60870-5-104 (optional) If you want to use the IEC 60870-5-104 control system protocol, you must set the following parameters. Also refer to the section Configuring the net- work [►Section 8.4, Page 69]. Figure 55: IEC 60870-5-104 1.
Page 85: Configuring Modbus (Optional)
8 Operation Option Description Ed. 1 Amendment2 Optimization in accordance with IEC 60870 Edition 1, Amendment 2 (Type 1, 3, 9, 11, 13, 15 21, 126). Ed. 2 Optimization in accordance with IEC 60870 Edition 2 (Type 1, 3, 5, 7, 9, 11, 13, 15, 20, 21, 126). Table 24: ASDU sequence optimization Reference time You can use this parameter to set which time is to be transmitted by the con-...
Page 86 8 Operation 3. Set the parameter. 4. Press the Accept button to save the modified parameter. Modbus type You can use this parameter to set the Modbus type. You can select the fol- lowing options: ▪ RTU ▪ TCP ▪ ASCII Modbus address You can use this parameter to set the Modbus address.
Page 87: Configuring Dnp3 (Optional)
8 Operation Parity You can use this parameter to set the parity. You can select the following options: ▪ None ▪ Even ▪ Odd Number of stop bits You can use this parameter to set the number of stop bits. 8.7.6 Configuring DNP3 (optional) If you would like to use the DNP3 control system protocol, you must set the parameters listed below.
Page 88 8 Operation TCP port You can use this parameter to set the TCP port. Serial interface You can use this parameter to select the serial interface for data transmis- sion. You can select the following options: ▪ RS232 ▪ RS485 Baud rate You can use this parameter to set the serial interface's baud rate.
Page 89: Configure Data Points (Optional)
8 Operation 8.7.6.8 Timeout for response confirmation You can use this parameter to set the timeout for response confirmation for unsolicited messages. 8.7.6.9 User ID code You can use this parameter to set the user ID code. Reference time You can use this parameter to set which time is to be transmitted by the con- trol system.
Page 90 8 Operation Column Description Modifiable Setting range Group Data point group or groups. You must enter the group 00000...11111 membership as a binary code (5 bits). A maximum of 5 groups is possible. Example: ▪ 00000: belongs to no groups ▪...
Page 91 8 Operation 4. Restart the device to activate the modified list of data points. 8.7.7.2 Configuring IEC 60870-5-103 data points You can adjust the following data point properties for the IEC 60870-5-103 control system protocol: Column Description Modifiable Setting range Active You can use the checkbox to set whether the data point is Active/inactive...
Page 92 8 Operation Figure 59: Configuring IEC 60870-5-103 data points Proceed as follows to configure the data points: 1. Go to Settings > Data point configuration. 2. Adjust the data points as required. 3. Press the Accept button to adopt the modified list of data points. 4.
Page 93 8 Operation Column Description Modifiable Setting range Threshold value for measured values. The data point is 0...32,768 only transferred again if the change of value is greater than the threshold value. ▪ If you enter the value 0, no threshold value is active. ▪...
Page 94 8 Operation 8.7.7.4 Configuring Modbus data points You can adjust the following data point properties for the Modbus control system protocol: Column Description Modifiable Setting range Active You can use the checkbox to set whether the data point is Active/inactive to be transferred via the control system protocol or not.
Page 95 8 Operation 8.7.7.5 Configuring DNP3 data points You can adjust the following data point properties for the DNP3 control sys- tem protocol: Column Description Modifiable Setting range Active You can use the checkbox to set whether the data point is Active/inactive to be transferred via the control system protocol or not.
Page 96 8 Operation Column Description Modifiable Setting range INDEXADDR Data point address. 0...4,294,967,296 CLASS Data point class. 0...3 ▪ 0: Static ▪ 1...3: Event Notice: You can only set the data point class for data points of object groups AI, BI, and CT. PREFSTATICVAR For a data point of class 0 (Static), you can define the fol- 0...6...
Page 97: Linking Signals And Events
8 Operation Figure 62: Configuring DNP3 data points Proceed as follows to configure the data points: 1. Go to Settings > Data point configuration. 2. Adjust the data points as required. 3. Press the Accept button to adopt the modified list of data points. 4.
Page 98: Linking Digital Outputs
8 Operation The digital inputs available are each permanently linked to a Generic digital input event message and the control system commands available are each permanently linked to aGeneric SCADA command event message for this purpose. Input/command Event message Digital input 1 Generic digital input 1 Digital input 2 Generic digital input 2...
Page 99: Linking Control System Messages
8 Operation Figure 63: Linking digital outputs ü The desired event number is known [►Section 8.17, Page 114]. 1. Go to Settings > Parameters > System > Link outputs. 2. Select the desired parameter. 3. Enter the desired event number. 4. Press the Accept button to save the modified parameter. Generic digital output X You can use this parameter to link the digital output with an event message.
Page 100: Setting The Transformer Data For The Reference System (Optional)
8 Operation Figure 64: Linking SCADA messages ü The desired event number is known. 1. Go to Settings > Parameters > System > Link messages. 2. Select the desired parameter. 3. Enter the desired event number. 4. Press the Accept button to save the modified parameter. Generic SCADA message X You can use this parameter to link the SCADA message with an event mes- sage.
Page 101: Circuit Breaker Monitoring
8 Operation Figure 65: Transformer data for the reference system 1. Go to Settings > Parameters > Grid > Transformer data. 2. Select the desired parameter. 3. Set the desired parameter. 4. Press the Accept button to save the modified parameter. F1/F2: Reference system primary transformer voltage You can use this parameter to set the primary voltage of the reference sys- tem voltage transformer for field 1 or field 2.
Page 102: Configuring Bushing Monitoring
8 Operation If bushing monitoring with the option "Monitoring of 6 bushings" is used, you can configure up to 4 inputs for field 1 (F1) and for field 2 (F2) respectively. If bushing monitoring with the option "Monitoring of 3 bushings" is used, only the inputs for field 1 are displayed.
Page 103: Configuring Capacitance Monitoring
8 Operation 8.11.2 Configuring capacitance monitoring The device monitors the change in difference of capacitance C1 between the phases. If the capacitance C1 of all three bushings changes in the same way (e.g. due to a temperature change), the difference in capacitances ΔC1 re- mains constant.
Page 104 1,5 Pt, rgb(0,147,214) Min. 8 Operation Min. Max. Analogsignal 0,7 Pt, Pfeil (Voll, 4, 30) ΔC1 ΔC1>> 10 % ΔC1> Figure 67: Capacitance monitoring 1 Status of the bushing C1 Capacitance C1 (gray: ok, yellow/red: limit value exceeded) ΔC1 Capacitance difference ΔC1>...
Page 105 8 Operation Settings Parameters Bushing ...d 1 Name Value Home F1-C: Activate cap. monitoring F1-C: C1 phase L1 0.6 nF F1-C: C1 phase L2 0.6 nF Events F1-C: C1 phase L3 0.6 nF F1-C: ΔC1 > 5.0 % F1-C: ΔC1 >> 10.0 ...
Page 106 8 Operation F1/F2-C: C1 phase L2 You can use this parameter to set the reference capacitance C1 for the bushings of the L2 phases in field 1 or field 2. The reference value is the value you have measured with an external measuring device for commis- sioning [►Section 7.1, Page 57].
Page 107: Configuring Dissipation Factor Monitoring
8 Operation 0,3 Pt, gestrichelt (5, 25) Sollwert Max. Arial 9 Pt 8.11.3 Configuring dissipation factor monitoring 1,5 Pt, rgb(0,147,214) The device monitors the change in the difference of the dissipation factor tanδ between the phases. If the tanδ of all 3 phases changes in the same way (e.g.
Page 108: Displaying The State Of The Bushings
8 Operation If bushing monitoring with the option "Monitoring of 6 bushings" is used, the parameters for both field 1 (F1) and field 2 (F2) must be set. Field 1 and field 2 each describe a set consisting of 3 bushings respectively. If bushing monitoring with the option "Monitoring of 3 bushings"...
Page 109: Displaying The Capacitance Progression
8 Operation ▪ ∆C1: Percentage deviation of the capacitance difference ΔC1 from the ref- erence capacitance C1 ▪ tanδ: Calculated (compensated) dissipation factor of the bushing ▪ Δtanδ: Dissipation factor difference Δtanδ ▪ U ref: Currently measured reference system voltage If bushing monitoring with the option "Monitoring of 6 bushings"...
Page 110: Displaying The Dissipation Factor Progression
8 Operation Figure 72: Capacitance progression 8.14 Displaying the dissipation factor progression You can display the temporal progression of the dissipation factor tanδ and the dissipation factor difference Δtanδ over the last 28 days. To do so, pro- ceed as follows: ►...
Page 111 8 Operation To display the measured value recorder, proceed as follows: 1. Go to Recorder. Figure 74: Recorder 2. Select the signals to be displayed in the list. 3. If necessary, set the desired axis for each signal. 4. Enter the start time and end time for the measured value display. 5.
Page 112: Configuring Digital Inputs And Outputs
8 Operation Trend curves If you call up the measured value recorder using a PC, you can display a trend curve instead of the measured values. The trend curve can, for exam- ple, be a moving average over a configurable time period. Figure 76: Creating trend curves To create the trend curves, proceed as follows: 1.
Page 113 8 Operation Property Options Function Function of the digital input (I: ...) or the digital output (O: ...). You can adjust the designation. Signal type Select signal type: Digital input Configuration DI: High active or low active DO: N/O contact (NO), N/C contact (NC); Note: If the device is dis- connected or in the event of an error, the digital outputs are always open (no bi-stable relay).
Page 114: Event Management
8 Operation 2. Where necessary, select the buttons ▲ or ▼ to sort the properties in a column alphabetically. 3. Configure the properties as desired. 4. Press the Accept button. 5. Confirm the security prompt with Yes to save the changes. 8.17 Event management The device is equipped with event management, which allows you to detect various device operating statuses and to adapt the behavior of the device.
Page 115: Configuring Events
8 Operation 8.17.2 Configuring events The events have the following properties: Property Description Event status Active: Event active. Inactive: Event not active. High active High active: The device issues a signal if the event is ac- tive. (not configurable) Low active: The device issues a signal for as long as the event is not active.
Page 116: Displaying Event Memory
8 Operation Figure 79: Configuring events To configure an event, proceed as follows: 1. Go to Settings > Events. 2. Select the event to be changed in the list. 3. Select the options you want. 4. Press the Accept button to save the change. 8.17.3 Displaying event memory Past events are stored in the event memory.
Page 117: User Administration
8 Operation 2. Press the Log button. Figure 80: Event memory Filtering events To adjust the display, you can define a filter. To do so, proceed as follows: 1. Press the Filter button. 2. Enter the desired time period. 3. Select the checkbox and enter the desired event number. ð...
Page 118: User Roles
8 Operation 8.18.1 User roles The access rights to device functions and settings are controlled using a hi- erarchical system of roles. The system has 5 different roles with different ac- cess rights. Some of these access rights are fixed, but you can configure the access rights to particular parameters and events.
Page 119: Changing The Password
Calling up the maintenance wizard Changing tap position table Enabling ECOTAP Modbus Adding sensors to the MR sensor bus Table 37: Access rights permanently linked to the roles 8.18.2 Changing the password All users can change their passwords provided that the user account is not set up as a group account.
Page 120: Creating, Editing And Deleting Users
8 Operation To change the password, proceed as follows: 1. Select the user name in the status line. Figure 81: Changing the password 2. Enter the new password twice. 3. Press the Accept button to save the changed password. 8.18.3 Creating, editing and deleting users You can set the following options for all users: ▪...
Page 121 8 Operation Figure 82: Overview of users created You can only create, edit, and delete users if you are assigned an adminis- trator role. When in delivery status, you can log in as the administrator as follows: ▪ User name: admin ▪...
Page 122: Setting Access Rights To Parameters And Events
8 Operation Deleting user To delete an existing user, proceed as follows: 1. Go to Settings > Administration > User. 2. Select the desired user in the list. 3. Press the Delete user button. 4. Press the Accept button to delete the user. 8.18.4 Setting access rights to parameters and events You can configure access rights to parameters and events for the available roles.
Page 123: User Authentication Via Radius (Optional)
VENDOR MR 34559 BEGIN-VENDOR MR # Attributes ATTRIBUTE MR-ISM-User-Group 1 integer # Predefined values for attribute 'MR-ISM-User-Group' VALUE MR-ISM-User-Group Administrator 1 VALUE MR-ISM-User-Group Parameter-configurator 2 VALUE MR-ISM-User-Group Operator 3 VALUE MR-ISM-User-Group Diagnostics 4 VALUE MR-ISM-User-Group Data-display 5...
Page 124 8 Operation 8.18.5.2 Configuring RADIUS To establish a connection to the RADIUS server, you must set the following parameters. Figure 84: Configuring RADIUS You can only configure RADIUS if you are assigned an administrator role. When in delivery status, you can log in as the administrator as follows: ▪...
Page 125: Information About Device
8 Operation Authentication protocol You can use this parameter to set the authentication protocol through which the server and client communicate. You can select the following options: ▪ PAP (password authentication protocol) ▪ CHAP (challenge handshake protocol) Key (shared secret) You can use this parameter to set the key (shared secret).
Page 126: Software
8 Operation 8.19.2 Software Under Software, you can display the version status of the device's software components. Figure 86: Information on the device's software To retrieve information on the device's software, proceed as follows: ► Go to Information > Software. 8.20 Import/export manager The device is equipped with an import/export manager, which can be used to export and import various data.
Page 127 Configuration of parameters and events. Data point con- Data point configuration of the control system. figuration Sensor bus de- Sensor description of the sensors for MR sensor bus that have vice descrip- been created with the sensor editor. tion Service data...
Page 128: Importing Data (Software Version 3.44 And Later)
8 Operation 8.20.2 Importing data (software version 3.44 and later) You can import the following data: Option Description System image Complete image of the system (software and configura- tion), with or without history. Settings All device settings: ▪ Parameter settings ▪...
Page 129: Configuring Media Converter With Managed Switch
8 Operation 3. Select the file to be imported. ð The file is checked. 4. Press the Import button. ð The data is imported, then the device is restarted. 8.21 Configuring media converter with managed switch Note the following information about configuring the media converter with managed switch SW 3-3.
Page 130 8 Operation 4. Login with the user information (login = admin; password = private). Switch the language if necessary (German/English). Figure 87: Login using a web interface 5. In the Basic settings > Network > Global menu, adjust the network set- tings and click on the Write button.
Page 131: Configuration
1. Go to Basic settings > Load/Save and click on the Reset to factory de- faults… button. 2. Reestablish the connection to the IP address of 192.168.1.1 if necessary. 3. Set the MR factory settings in accordance with the following table. Menu Parameter...
Page 132: Tapcon® Personal Logic Editor (Tple)
8 Operation 8.22 TAPCON® Personal Logic Editor (TPLE) You can use the TAPCON® Personal Logic Editor (TPLE) function to pro- gram simple logical links via the web-based visualization. You can also link the inputs and outputs available on the device using function modules. Note that the device does not meet the requirements of a protective device.
Page 133 8 Operation 8.22.1.3.1 AND Description AND, logical AND link Inputs Input 1…4 (BOOL) Outputs Output (BOOL) Parameter None Function If all configured inputs are TRUE, the output is TRUE, otherwise it is FALSE. Initial state All inputs and outputs are FALSE. Non-configured inputs are assumed to be TRUE.
Page 134 8 Operation 8.22.1.3.4 NOR Description NOR, logical NOT-OR link Inputs Input 1…4 (BOOL) Outputs Output (BOOL) Parameter None Function If all configured inputs are FALSE, the output is TRUE, otherwise it is FALSE. Initial state All inputs and outputs are FALSE. Non-configured inputs are assumed to be FALSE so that they have no impact on the output.
Page 135 8 Operation 8.22.1.3.7 Current impulse relay Description RS, current impulse relay Inputs Trigger (BOOL) Set (BOOL) Reset (BOOL) Outputs Output (BOOL) Parameter None Function If the Reset input is TRUE, Output forcibly becomes FALSE. If the Reset input is FALSE and the Set input is TRUE, Output forcibly becomes TRUE.
Page 136 8 Operation Function If Input has a rising edge, the internal timer is set to zero and starts to run. When the internal timer has reached or exceeded the parameter value, Output becomes TRUE and the counter stops running. If Input becomes FALSE, Output also instantly be- comes FALSE.
Page 137 8 Operation Function If there is a rising edge at the Trigger input at any time, the internal timer is set to zero and starts to run, the output becomes TRUE. If the Trigger input becomes FALSE again during the pulse time, this has no impact on the expiration of the pulse time.
Page 138 8 Operation Function If there is a rising edge at Reset, the output value is set to the value of the Reset value parameter. A rising edge at Reset takes priority over all other inputs. For as long as Lock is TRUE, the pulse signal is not evaluated and the counter reading is retained.
Page 139 8 Operation Function On Limit ≥ Off Limit setting: ▪ If the value of Input is greater than On Limit, Output becomes TRUE. ▪ If the value of Input is less than or equal to Off Limit, Output becomes FALSE. On Limit <...
Page 140 8 Operation 8.22.1.3.14 Analog multiplication Description MUL, analog multiplication Inputs Value (REAL32) Multiplier (REAL32) Outputs Result (REAL32) Overflow (BOOL) Parameter Constant multiplier (REAL32), -1,000,000...+1,000,000; default = 1 Function Result = Value * Multiplier * Constant multiplier If the REAL32 range of numbers is exceeded, the Overflow output becomes TRUE.
Page 141 8 Operation Function Result = Input 1 + Input 2 + Offset If the REAL32 range of numbers is exceeded, the Overflow output becomes TRUE. Initial state All inputs and outputs are zero or FALSE. Table 57: Analog addition function module 8.22.1.3.17 Analog subtraction Description SUB, analog subtraction...
Page 142 8 Operation 8.22.1.3.20 Average value Description AVRG, average value Inputs Input (REAL32) Enable (BOOL) Reset (BOOL) Autorepeat (BOOL) Outputs Average (REAL32) Done (BOOL) Started (BOOL) SampleCount (UINT32) Parameter Time ms (UINT32): 1...2,000,000,000, default = 10,000 Sample time ms (UINT32): 1...10,000,000, default = 1,000 Function Averaging starts with a rising edge of Enable.
Page 143 8 Operation Figure 93: AVRG 1 Input 2 Enable 3 Reset 4 AutoRepeat 5 Average 6 Done 7 Started 8 SampleCount 8.22.1.3.21 Scaling Description SCAL, scaling Inputs Input (REAL32) Outputs Output (REAL32) Error (BOOL) Parameter Min In (REAL32): -10,000,000...+10,000,000, default = -10,000,000 Max In (REAL32): -10,000,000...+10,000,000, default = +10,000,000...
Page 144 8 Operation Function Output is calculated using the following formula: Output = Min Out + (Max Out - Min Out) x (Input – Min In) / (Max In – Min In) Output is set to 0 and Error = TRUE when: ▪...
Page 145: Configuring Tple
8 Operation Parameter Function The value of UINT32 is output converted to Output U, the value of SINT32 is output converted to Output S. Initial state All inputs and outputs are zero. Table 65: NAND function module 8.22.2 Configuring TPLE You can configure TPLE on a PC using the web-based visualization. Only a live view is available on the device's display.
Page 146 8 Operation Figure 94: Editing variable To edit the variable, proceed as follows: 1. Go to Settings > TPLE > Variables. 2. Select the variable you want. 3. Enter the name and description. 4. Press the Accept button to save the modified variable. 8.22.2.2 Creating functions Within one function group, you can create up to 12 function modules to de- pict one function.
Page 147 8 Operation Creating function modules To create a function module, proceed as follows: ► Press the + button to create a new function module. Deleting function modules To delete a function module, proceed as follows: ► Drag the desired function module to the trash can using drag & drop. Sorting function modules To sort a function module, proceed as follows: ►...
Page 148 8 Operation 3. Select the text field with the name of the function group and enter the name you want. Figure 97: Renaming function group 4. Press [Enter] to accept the change. 8.22.2.4 Activating/deactivating function group You can fully activate or deactivate a function group. When you deactivate a function group, none of the function group's function modules are processed.
Page 149: Inspection And Maintenance
9 Inspection and maintenance 9 Inspection and maintenance This chapter contains information about inspecting and maintaining the prod- uct. 9.1 Care You can clean the bushing adapter, the bushing coupling unit and the hous- ing of the control cabinet with a moist cloth. You can clean the inside of the control cabinet with a dry cloth.
Page 150: Fault Elimination
10 Fault elimination 10 Fault elimination This chapter describes how to rectify simple operating faults. 10.1 General faults Characteristics/details Cause Remedy No function No power supply Check power supply. ▪ Indicator lamp does not light Breaker tripped Switch on the breaker. ▪...
Page 151: Human-Machine Interface
10 Fault elimination Characteristics/details Cause Remedy Signal at output Limit value 2 Measured capacitance difference Check the curve for the change in capacitance is greater than the limit value ∆C1 in the visualization. ▪ Event message Limit value >> ∆C1 >> exceeded If ∆C1 is greater than 10% (factory setting of limit value ∆C1 >>): ▪...
Page 152 10 Fault elimination Please provide answers to the following questions: ▪ Has the software been updated? ▪ Has there previously been a problem with this device? ▪ Have you previously contacted Maschinenfabrik Reinhausen about this is- sue? If yes, then who was the contact? ®...
Page 153: Messages
11 Messages 11 Messages 11.1 Event messages Name Description Remedy Generic event 1 Generic event 1 Generic event 1 Generic event 2 Generic event 2 Generic event 2 Generic event 3 Generic event 3 Generic event 3 Generic event 4 Generic event 4 Generic event 4 Generic event 5...
Page 154 11 Messages Name Description Remedy Generic event 34 Generic event 34 Generic event 34 Generic event 35 Generic event 35 Generic event 35 Generic event 36 Generic event 36 Generic event 36 Generic event 37 Generic event 37 Generic event 37 Generic event 38 Generic event 38 Generic event 38...
Page 155 11 Messages Name Description Remedy Generic event 70 Generic event 70 Generic event 70 Generic event 71 Generic event 71 Generic event 71 Generic event 72 Generic event 72 Generic event 72 Generic event 73 Generic event 73 Generic event 73 Generic event 74 Generic event 74 Generic event 74...
Page 156 11 Messages Name Description Remedy Generic SCADA command 4 The generic SCADA command 4 has been received. Generic SCADA command 5 The generic SCADA command 5 has been received. Generic SCADA command 6 The generic SCADA command 6 has been received. Generic SCADA command 7 The generic SCADA command 7 has been received.
Page 157 11 Messages Name Description Remedy Generic digital input 16 There is a signal at the generic digital input 16. Generic digital input 17 There is a signal at the generic digital input 17. Generic digital input 18 There is a signal at the generic digital input 18.
Page 158 11 Messages Name Description Remedy 1191 F1-C: Limit value ΔC1 >> The second limit value for the de- Check capacitance changes in phase L1 viation in capacitance has been field 1. If ∆C1 is greater than exceeded for the bushing of 10%, there is a risk of explosion.
Page 159 11 Messages Name Description Remedy 1209 F1-C: Standardization mea- Standardization of field 1 not per- Check the bushing coupling units, sured voltage too low formed due to the voltage on the the wiring, the bushings and the bushing coupling units being too transformer operating conditions low.
Page 160 11 Messages Name Description Remedy 1224 F1-tanδ: Phase angle devia- Dissipation factor monitoring not Check the reference system and tion too high performed in field 1 due to the the wiring in field 1. phase angle deviation of the 3 phases of the reference system being too high.
Page 161 11 Messages Name Description Remedy 1290 F2-C: Voltage deviation too Capacitance monitoring not per- Check the reference system and high formed in field 2 due to the volt- the wiring in field 2. age deviation in the 3 phases of the reference system being too high.
Page 162 11 Messages Name Description Remedy 1298 F2-C: Limit value ΔC1 >> The second limit value for the de- Check capacitance changes in phase L3 viation in capacitance has been field 2. If ∆C1 is greater than exceeded for the bushing of 10%, there is a risk of explosion.
Page 163 11 Messages Name Description Remedy 1309 F2-C: Standardization mea- Standardization of field 2 not per- Check the reference system, the surement system unstable formed due to an unstable mea- bushing coupling units, the wiring, surement system. and the transformer operating conditions in field 2.
Page 164: Uninstallation
12 Uninstallation 12 Uninstallation The following describes the safe removal of the device. DANGER Electric shock! Risk of fatal injury due to electrical voltage. Always observe the following safety regulations when working in or on electrical equipment. ► Disconnect the equipment. ►...
Page 165 12 Uninstallation 4. Attach lifting gear to the extendable control cabinet brackets. Figure 98: Control cabinet lifting-gear limit stop 5. Remove the nuts for fastening the control cabinet. Figure 99: Removing the control cabinet mounting ® Maschinenfabrik Reinhausen GmbH 2019 5089542/06 EN MSENSE...
Page 166: Removing The Bushing Adapter And Bushing Coupling Unit
12 Uninstallation WARNING! Remove and lower the control cabinet using the lifting gear. While doing so, ensure that the lifting gear cable angle does not fall below 45° relative to the horizontal. Otherwise, the control cabinet may become damaged and serious injuries may result. Figure 100: Maximum permissible cable angle for the lifting-gear limit stop of the control cabinet ð...
Page 167 12 Uninstallation 6. Install the fixing screw on the bushing flange in accordance with the oper- ating instructions from the bushing manufacturer. 7. Remove the bushing adapter. CAUTION! Install the cap onto the bushing test tap. While doing so, follow the notes in the operating instructions from the bushing manufac- turer.
Page 168: Disposal
13 Disposal 13 Disposal Observe the national requirements applicable in the country of use. ® MSENSE 5089542/06 EN Maschinenfabrik Reinhausen GmbH 2019...
Page 169: Technical Data
14 Technical data 14 Technical data 14.1 Bushing adapter Bushing adapter A001 Bushing type Micafil RTKF, RTKG Dimensions Ø 50 x 64 mm Input Test tap Ø 4 mm (female) Thread Inner, G¾" Gasket O-ring, 40 x 2 NBR 70 Output N female connector Permitted ambient temperature during opera- -40 °C...+90 °C tion...
Page 170 14 Technical data Bushing adapter A003 Input Test tap Ø 4 mm (female) Thread Outer, M30 x 2 Gasket O-ring, 32 x 2 NBR 70 Output N female connector Permitted ambient temperature during opera- -40 °C...+90 °C tion Degree of protection (IEC 60529) IP 66 Weight approx.
Page 171 14 Technical data Bushing adapter A005 Degree of protection (IEC 60529) IP 66 Weight approx. 100 g Table 74: Technical data for the bushing adapter A005 Bushing adapter A006 Bushing type PCORE CSA standard POC series II GOE, GSB (245...550 kV) Dimensions Ø 80 x 104 mm Input Test tap Ø 8 mm (female)
Page 172: Bushing Coupling Unit
14 Technical data Bushing adapter A008 Input Test tap Ø 8 mm (female) Thread Outer, 1⅛" – 12 UNF Gasket O-ring, 25 x 2.5 NBR 70 Output N female connector Permitted ambient temperature during opera- -40 °C...+90 °C tion Degree of protection (IEC 60529) IP 66 Weight approx.
Page 173: Control Cabinet
14 Technical data 85 ± 0,5 Ø 4,8 Figure 101: Dimensional drawing for holes in the bushing coupling unit's retaining plate (dimen- sions in mm) 14.3 Control cabinet Control cabinet MSENSE® BM Dimensions (width x height x depth) 616 x 848 x 420 mm Power consumption max.
Page 174: Connection Terminals
14 Technical data Figure 102: Dimensions of the control cabinet (MSENSE® BM) 14.3.1 Connection terminals Terminal block Maximum permitted operating voltage Max. 250 VAC Max. 150 VAC Table 80: Maximum permitted operating voltage of the connection terminals for external circuits ® MSENSE 5089542/06 EN Maschinenfabrik Reinhausen GmbH 2019...
Page 175 14 Technical data 14.3.2 Voltage measurement UI 5-3 UI 5-3 Measurement 3-phase Voltage measurement (RMS): 100 VAC Measuring range (RMS): 19.6...150 V AC Measuring accuracy (at U , -25...+70 °C): < ±0.3% Intrinsic consumption: < 1 VA Measurement category III in accordance with IEC 61010-2-30 Table 81: Technical data of the UI 5-3 assemblies Interfaces Interface Description...
Page 176 14 Technical data Interface Description 1A, 1B, No function 1C, 2A, 2B, 2C Table 84: Relay 14.3.3 DIO 28-15 digital inputs and outputs DIO 28-15 Inputs (plug- Quantity based electrical Logical 0 0...10 V AC (RMS) isolation) 0 to 10 V DC Logical 1 18...260 V AC (RMS) 18...260 V DC (RMS) Input current min.
Page 177 14 Technical data Figure 103: Contact rating DIO Electric shock! CAUTION The inputs of the DIO assembly have plug-based electrical isolation. A mix- ture of voltage ranges (e.g. extra low voltage and low voltage) or various phases within a plug can lower the protection against electric shock. ►...
Page 178: Cpu (Central Processing Unit) I
14 Technical data Interface Description 11 A Break contact Source contact Make contact 12 A Break contact Source contact Make contact 13 A Break contact Source contact Make contact Source contact Make contact Source contact Make contact Table 87: Digital outputs 14.3.4 CPU (central processing unit) I CPU I Processor...
Page 179 14 Technical data Interfaces Interface Description RXD (RS232) TXD (RS232) GND (RS232, RS485) RXD+/TXD+ (RS485) RXD-/TXD- (RS485) Table 89: COM2 (RS232, RS485) Interface Description Table 90: USB 2.0 Interface Description TxD+ TxD- RxD+ RxD- Table 91: ETH1, ETH 2.1, ETH 2.2 (RJ45) Interface Description CAN-L CAN-GND...
Page 180: System Networking
14 Technical data Optional accessories CAN bus Terminating resistor ▪ D-SUB plug connector (9-pole) ▪ R = 120 Ω Connector with terminal strip for directly connecting CAN lines Media converter for Adapter from D-SUB (9-pole) to fiber-optic cable: COM2 interface (only ▪...
Page 181: Bus Extension Module
14 Technical data SW 3-3 Redundancy protocols , RSTP Time synchronization PTPv2 (IEEE 1588-2008) RJ45 Max. 100 m (per section) 10/100 Mbps Cable impedance 100 Ω Fiber-optic cable Max. 2,000 m 100 Mbps Light-emitting diode: class 1 Wavelength: 1,310 nm Max. optical output power: <1 mW (in accordance with IEC 60825-1:2014) Table 95: Technical data for the SW 3-3 assembly Factory setting...
Page 182: Connection Cable
14 Technical data BEM 1 BES 1 Fiber-optic cable Max. length: 40 m (Polymeric optical fiber) Min. bending radius: 30 mm Integrated power supply Permissible voltage range 18...34 V DC : 24 VDC Power consumption 14 W Table 98: Technical data for the BEM 1 and BES 1 assemblies 14.4 Connection cable Connection cable Bushing adapter -...
Page 183: Appendix
15 Appendix 15 Appendix 15.1 Measured value log Phase Manufacturer Type Serial number Manu. year Table 100: Data for bushings Date Phase Temperature Capacitance Dissipation fac- Air t Oil t tanδ Commissioning ® Maschinenfabrik Reinhausen GmbH 2019 5089542/06 EN MSENSE...
Page 184 15 Appendix Date Phase Temperature Capacitance Dissipation fac- Air t Oil t tanδ Table 101: Measured value log ® MSENSE 5089542/06 EN Maschinenfabrik Reinhausen GmbH 2019...
Page 185: Glossary
Glossary Glossary RADIUS General Purpose Input Protocol for authentication of users in computer networks in accordance with RFC 2865 (Remote Authentication Dial-In User Service). General Purpose Output RSTP Redundancy protocol in accordance with IEEE 802.1D-2004 (Rapid Spanning Tree Protocol) IED Capability Description SCADA IEEE Technical processes are monitored and con-...
Page 186: List Of Key Words
List of key words List of key words A00x 25 C002 25 Edition 76 Access point 76 Electrical high voltage test 63 Access rights 122 Temporal progression 109 Event list 163 Activate RADIUS client 124 Cable recommendation 43 Event memory 116 Activate syslog 74...
Page 187 List of key words ICD file 77 Navigation 65 RADIUS 123 IEC 60870-5-101 78 Network settings 69 RADIUS server 124 IEC 60870-5-103 81 No. of information object address RADIUS server port 124 IEC 60870-5-104 84 octets 79 Reconnect delay time 75 IEC 61850 76...
Page 188 List of key words Timeout 88 Timeout for response confirmation tanδ UI 5-3 27 89 Temporal progression 110 Unpacking 34 TLS version 71 TCP connections 86 Unsolicited messages 88 Total system 24 TCP Keepalive 86 USB interface TPLE 132 TCP port 84, 86, 88 Activating/Deactivating 68...
Page 190 Maschinenfabrik Reinhausen GmbH Falkensteinstrasse 8 93059 Regensburg +49 (0)941 4090-0 sales@reinhausen.com www.reinhausen.com ® 5089542/06 EN - MSENSE BM - - 01/20 - Maschinenfabrik Reinhausen GmbH 2019 THE POWER BEHIND POWER.

MR MSENSE BM Operating Instructions Manual

1 Introduction

2 Security

3 Security

4 Product Description

5 Packaging, Transport and Storage

6 Mounting

7 Commissioning

8 Operation

9 Inspection and Maintenance

10 Fault Elimination

11 Messages

12 Uninstallation

13 Disposal

14 Technical Data

15 Appendix

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