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Related Manuals for ABB CoreSense
Summary of Contents for ABB CoreSense
- Page 1 — U S E R G U I D E CoreSense™ Hydrogen and Moisture Sensor...
- Page 2 ABB shall not be liable for errors or omissions contained in its software or manuals, any interruptions...
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Page 3: Table Of Contents
Additional tools (not supplied by ABB) ..7 Taking an oil sample ..........46 Necessary protection equipment ....8 Cleaning ..............46 Unpacking ..............9 Before sending a spectrometer to ABB ..46 Handling ..............9 Siting on the transformer ........9 8 FAQ and troubleshooting Planning your cabling ...........11 A Technical specifications .... - Page 4 Modbus parameters ......... C78 D DNP3 .............D81 Default RS-485 configuration ......D81 Default TCP configuration port ..... D81 E IEC 61850 (CoreSense only) .....E83 PIXIT ................E83 PIXIT for Association Model .......E83 PIXIT for Server Model .........E84 PIXIT for Data Set Model ......E85 PIXIT for Substitution Model .....E85...
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Page 5: Safety Information
— C h a p t E R 1 Safety Information To ensure personal safety and optimal performance, make sure you thoroughly read and understand the contents of this manual before installing or using the instrument. This equipment intended for field installation by qualified service personnel according to manufacturer’s installation instructions and local/national wiring requirements. - Page 6 LASER R ADIATION Indicates the presence of a laser related hazard. It also indicates the type of laser in use, its wavelength and its safety class. SHARP EDGES Indicates the presence of sharp edges that could cause personal injury if touched. HOT SURFACES Indicates the presence of heat sufficient enough to cause burns.
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Page 7: General
Read this manual thoroughly before using this equipment. If you do not fully understand the information contained in this manual or if the equipment shows any sign of damage, please contact ABB. Refer to the back cover of this manual for contact information. -
Page 8: Handling
Operating the heater in air will result in failure of the thermal pump. Handling The CoreSense hydrogen and moisture sensor weighs approximately 8 kg. To avoid personal injuries, make sure to use proper body mechanics (bend your knees) when lifting the sensor. -
Page 9: Introducing The Coresense
The CoreSense user interface is designed as a series of simple web pages that can be accessed through most web browsers. The web interface allows viewing of the current CoreSense status and settings. - Page 10 Page intentionally left blank...
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Page 11: Preparing For Installation
This chapter provides information relevant to the steps that should be performed prior to installing the CoreSense sensor. Tools for installation Here are the various tools necessary to install the CoreSense system. Tools supplied by ABB 4 mm allen key... -
Page 12: Necessary Protection Equipment
2 in wrench or adjustable 8 mm wrench or adjustable wrench (50.8 mm) wrench (0.31 in) Roll of ptFE tape Bucket and rags Wire stripper Wire cutter Optical termination equipment if installing the Flat head screwdriver optional optical Ethernet port torque wrench transformer valve adapter (when applicable). -
Page 13: Unpacking
• DO NOT DROP the sensor. • It is not recommended to open the CoreSense if it is raining or snowing. • Always turn off power at the electrical panel before doing any installation or adjustment. - Page 14 Location Benefits Issues (D) top of radiator • Good oil flow • temperature may exceed 100 °C • access is difficult • Installation requires working at height • Connection flange rarely present • Mandatory power down of transformer during installation —...
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Page 15: Planning Your Cabling
Planning your cabling Select cabling according to your communication needs. Refer to the table below for recommended cable gauge or cable type. Always comply with national codes and electrical standards. — Table 2 Recommended cable gauge and type Cable Gauge/Type Maximum length 12 aWG 15 m (50 ft) - Page 16 IEC61850 MMS must not be used. port 102/tcp DhCp server Static Ip; DhCp server. Default Ip address range aBB remote access can be Ethernet (SERVICE) 172.16.100.x for pC enabled or disabled using the web interface. Default Ip address for CoreSense 172.16.100.1...
- Page 17 ABB Inc. and its affiliates are not liable for damages and/or losses related to such security breaches, any unauthorized access, interference, intrusion, leakage and/or theft of data or information.
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Page 18: Password Protection
NOTICE Do not connect your internal network to the SERVICE port. Password protection The sensor is secured by a password for the operator role and a password for the administrator role. For cybersecurity reasons, it is absolutely mandatory to change the default password. Not doing so could expose your entire network to cyberattacks. -
Page 19: Installing The Sensor Head
C h a p t E R 4 Installing the sensor head This chapter explains the various steps necessary to physically install the CoreSense on the transformer. NOTICE In accordance with IEC61010-1 edition 3.0, to prevent contamination of the electronics... - Page 20 2 Wrap the sensor male fitting thread with PTFE tape. 3 Install the sensor on the transformer valve. An optional adapter can be used if the valve fitting is not 1.5 in. (e.g., most North American fittings are 2 in.). WARNING During operation, the NPT port interface becomes hot.
- Page 21 Rotate the sensor as required to achieve this. NOTICE Failure to position the CoreSense horizontally, with the access panel pointing upwards, will cause the thermal pump to malfunction and may result in erroneous readings. 6 With the 5 mm Allen key, tighten the rotating flange nuts to a torque of 8.1 N-m (6.0 lb-ft) according to the following tightening pattern.
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Page 22: Bleeding The Sensor
Bleeding the sensor You must bleed the sensor to make sure that no air is present in the system: 1 With the 4 mm Allen key, remove the external sampling port cover located on top of the sensor. 2 Connect the sampling adapter to your bucket (for oil collection) with a bleeding hose (ID 1/8 in.). 3 With the 4 mm Allen key, loosen the bleed screw. - Page 23 4 Slowly open the transformer valve and wait until oil comes out of the sensor. 5 Tighten the bleed screw to a maximum torque of 2.26 N·m (20 lbf.in). NOTICE Do not exceed the recommended torque as this may permanently damage the instrument.
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Page 24: Removing The Cover
(this can be done in the web interface in Settings/administration settings). To prevent accidents, the CoreSense is delivered with the thermal pump turned off. When the installation is complete and the sensor is in contact with oil, make sure the thermal pump is enabled in the web interface. -
Page 25: Establishing The Connections
Prior to establishing connections inside the CoreSense sensor: 1 Make sure to ground the CoreSense, either by means of the three-wire cable on the internal ground wire of the power cable or with a separate cable to the external ground lug. -
Page 26: Ac Power Line Terminal Block
However, the thermal pump must be turned off (this can be done in the web interface [in Settings/administration settings]). The CoreSense is delivered with the thermal pump turned off to avoid accidents. Operating the heater in air will result in failure of the thermal pump. -
Page 27: Rs-485 To Scada
(Rx); the resistor is present on board. The transmitter (Tx) must be terminated at the other end. Other RS-485 topologies are not supported. Ethernet to SCADA ABB recommends a Cat5 Ethernet cable. Its maximum length must not exceed 100 m. Installing the sensor head... -
Page 28: Optical Ethernet To Scada (Optional)
Optical Ethernet to SCADA (optional) Use 62.5/125 μm or 50/125 μm multimode optical fibers to connect to the 100Base-FX optical Ethernet interface on the sensor. Before connecting the optical transceiver, see Appendix A of this manual for more information on the optical characteristics. Make sure optical power levels and wavelength are within the specified range. -
Page 29: Analog 4-20 Ma Outputs
Analog 4–20 mA outputs The 4–20 mA output range can be configured using the web interface. A value higher than 21 mA is used to indicate a detector error. WARNING Use only shielded cables for wiring the 4–20 mA outputs interface. —... -
Page 30: Analog 4-20 Ma Inputs
Analog 4–20 mA inputs WARNING Shielded cable must be used for connecting to the 4–20 mA outputs. — Figure 8 Wiring of self-powered analog inputs Figure 9 Wiring of two-wire, loop powered analog inputs — Figure 10 Wiring of three-wire, loop powered analog inputs Terminal (J4, 5, 6) Description Shield... -
Page 31: Reinstalling The Cover
Reinstalling the cover To reinstall the cover: 1 Install the supplied sensor cover o-ring (see “Spare Parts” on page 7). Make sure that it is well- fitted in the groove of the front cover. The sensor cover o-ring can be compressed only once. Each time the cover is removed, the o-ring must be replaced. - Page 32 Page intentionally left blank...
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Page 33: Configuring The Sensor Head
2 Connect the laptop to the service Ethernet port using a straight Ethernet cable. For the location of the Ethernet port, see Figure 3 “CoreSense port and relay connections” on page 21. The sensor service Ethernet port is configured as a DHCP server and will assign a valid IP address automatically to your laptop. - Page 34 9 Configure communication settings, i.e. RS-485 configuration, TCP configuration, 4–20 mA output configuration (see “Communication settings” on page 37). 10 Enable the thermal pump. NOTICE When enabling the thermal pump, the CoreSense must be properly connected and it must contain oil. Make sure there are no oil leaks. Installation Guide...
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Page 35: Tabs Of The Coresense Web Interface
• Dashboard: Use the dashboard to quickly assess the state of the system and the hydrogen and moisture measurements (see “CoreSense dashboard” on page 30). • Hydrogen: Use the Hydrogen tab to gain access to charts with historical data, or yo export the historical data in .csv format. - Page 36 Moisture: Use the Moisture tab to gain access to charts with historical data, or to export historical data in .csv format. To export data, select a time range and click Export. A dialog box prompts you to select a destination for the .csv file. For more detail on the Moisture tab, “Moisture.csv” on page I109. —...
- Page 37 — Figure 17 Settings tab • Help: Provides access to system information. Configuring the sensor head...
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Page 38: Hydrogen Settings
Hydrogen settings Accessing the Hydrogen settings dialog box requires the administrator password. — Figure 18 Hydrogen settings dialog box Level The sensor is delivered with preset default values for warning and alarm levels. However, it is possible to modify these default values. The default alarm and warning values are described in detail in “Configuring alarm levels”... -
Page 39: Moisture Settings
Moisture settings Accessing the Moisture settings dialog box requires the administrator password. — Figure 19 Moisture settings dialog box Level The sensor is delivered with preset default values for warning and alarm levels. However, it is possible to modify these default values. The default alarm and warning values are described in detail in “Configuring alarm levels”... -
Page 40: Administration Settings
The Network Settings section allows your to configure the SCADA and service Ethernet ports. Both ports can be DHCP enabled. See Figure 3 “CoreSense port and relay connections” on page 21 for the location of the SCADA and service Ethernet port. -
Page 41: Communication Settings
IEC 61850 Configuration Displayed when Enable strict mode is checked. Only data objects in strict compliance to IEC 61850 edition 1 are available on the CoreSense IEC 61850 MMS Server. When Enable strict mode is NOT checked, additional data objects are available. -
Page 42: Demo Mode
Demo mode Check Enable demo mode to enter a simulation mode for the CoreSense. — Figure 22 Demo mode dialog box NOTICE In demo mode, the simulator overwrites real data. Installation Guide... -
Page 43: About Dialog Box
About dialog box — Figure 23 About dialog box Configuring the sensor head... -
Page 44: Configuring Alarm Levels
Latched alarms Warnings and alarms raised by the CoreSense are “latching”, meaning that even if the level goes back under the warning or alarm threshold, the warning or alarm will stay on until it is acknowledged in the event log using the web interface. -
Page 45: Visual Indications And Alarms
BLINKING YELLOW this indicator will remain the hydrogen level OR the the moisture level OR the (WaRNING) on while the CoreSense is hydrogen 24-hour rate- moisture 24hour rate- booting up. If the sensor of-change is above the of-change is above the... -
Page 46: In Case Of Warning Or Alarm
In addition to this, for a WARNING, ABB recommends scheduling an off-line DGA to confirm the readings and obtain the levels of other dissolved gases. For an ALARM, ABB recommends performing an off-line DGA as soon as possible. Based on the result of the off-line DGA, a diagnosis and maintenance recommendation can be formulated. -
Page 47: Post-Installation Check List
□ Was PTFE applied on the 1.5 NPT fitting, as per “Installation on transformer valve” on page 15? □ Make sure that the eight bolts for the CoreSense rotating flange are secured with the proper torque, as described in “Installing the sensor head” on page 15. - Page 48 Page intentionally left blank...
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Page 49: Maintenance
— C h a p t E R 7 Maintenance The CoreSense is maintenance-free, i.e., no regular maintenance is required. The fuse may require replacement after an unusual voltage event. Replacing the fuse Use only the specified fuses: 1A/250V slow-blow (5×20 mm). -
Page 50: Taking An Oil Sample
Before sending a spectrometer to ABB, you must first: • Make sure that the CoreSense has been completely emptied. Wipe excess oil with a clean cloth. • Cover the NPT access port to prevent any contaminants from entering the sensor. -
Page 51: Faq And Troubleshooting
Q. Will the CoreSense work on the drain valve? A. Yes, the CoreSense can be installed on the drain valve thanks to its forced convection thermal pump that will create an oil flow to the sensor. It is designed to work at most locations on a transformer. - Page 52 A. Make sure that you are connected to the service port and not the SCADA port. On your laptop or PC, verify in your Ethernet settings that your IP address is set to Automatic. The CoreSense service port is configured by default as a DHCP server and it will assign an IP address in the 172.16.100.10 to 172.16.100.20 range.
- Page 53 WARNING or ALARM is reported A. The CoreSense has latching alarms, which means that once a threshold is crossed, the WARNING or ALARM needs to be acknowledged in the Event tab of the web interface. This is required even if the level falls below the user-configured threshold.
- Page 54 Q. What is the expected operating lifetime of the CoreSense? A. The CoreSense is expected to operate for up to 15 years with no maintenance. This is enabled by the solid-state design of the CoreSense with no moving parts. Also, the CoreSense does not have a gas/oil separation stage based on a membrane or headspace;...
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Page 55: A Technical Specifications
LEDs are green everything is normal. All of the readings made by the CoreSense are also available on the built-in web interface and published through analog outputs and through digital protocols such as Modbus, DNP3 and IEC61850. -
Page 56: Electrical Specifications
Electrical specifications Voltage input 100–240 V aC (50 to 60 hz) (mains supply voltage fluctuations not to exceed 10% of nominal supply voltage) power consumption 150 Va Maximum current 0.8 a Fuse type 1 × 1.0 a/250 V (5 × 20 mm), slow-blow Communication specifications Indicate system, hydrogen and moisture status Digital interfaces... -
Page 57: Default Rs-485 Configuration
9600 Data Bits Stop bits parity None Flow control None (only none is supported) Application TCP ports table Web interface 80/tcp IEC61850 MMS 102/tcp Modbus tCp 502/tcp DNp3 20000/tcp aBB diagnostic port 22/tcp DhCp 67/udp & 68/udp Technical specifications A53... - Page 58 Page intentionally left blank...
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Page 59: B Coresense Hub Option
CoreSense Hub option Overview The CoreSense Hub continuously monitors hydrogen and moisture levels in transformer oil in the same way as the standard CoreSense does. However, in addition to standard CoreSense features, the CoreSense Hub option allows monitoring of generic external sensors found on connected equipment. The CoreSense Hub manages those external sensors the same way as the hydrogen and moisture sensors. -
Page 60: Visual Indicators
Visual indicators The LED indicators on the CoreSense Hub differ from standard CoreSense indicators (see Figure 26). The CoreSense Hub combines several external sensors. Instead of one specific LED for each internal sensor (for hydrogen and moisture), the CoreSense Hub combines these two internal sensors into one LED indicator, freeing up the remaining LED indicator for the external sensors. -
Page 61: Coresense Hub Web User Interface
CoreSense Hub Web user interface The CoreSense Hub user interface has a different representation of the information than the CoreSense user interface. It is accessible through most web browsers. Dashboard tab The CoreSense Hub dashboard is visually different from the standard CoreSense dashboard (see Figure 27). -
Page 62: History Tab
Figure 29 History window Settings tab Settings–Administration settings The Administration Settings panel contains all available CoreSense Hub settings based on the same parameters as the standard CoreSense. Refer to the CoreSense administration settings on page 36. Settings–Sensors settings Sensor settings allow you to modify external sensors. You can also modify internal sensor parameters such as hydrogen and moisture, and add new sensors by clicking Add. - Page 63 This is the ID of the Modbus device. For more information on Modbus connection parameters, see “Modbus table” on page C77. Register The Modbus register representing the value to be read. For more information on Modbus connection parameters, see “Modbus table” on page C77. CoreSense Hub option B59...
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Page 64: Automatic Detection Of Modbus Sensors
Test connection to device button This button allows you to test the connection to the device to see if the sensor is working with the provided Device ID and Register. SCADA modbus start index This indicates the SCADA register block associated with the specific sensor, once the device has been created in the system. - Page 65 The value name is the name of the measurement that the sensor is providing. Units The value name is the name of the measurement that the sensor is providing. Communication settings This section contains the communication settings that were used to communicate with the detected device. CoreSense Hub option...
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Page 66: Configuring Calculated Values
• Hot-Spot Temperature HV By calculating those values, you can also enable the cooling control using relay 2 and 3 of the CoreSense. By enabling this feature, keep in mind that the original relay behavior is changed according to the new cooling control functionality. - Page 67 Figure 35 Sensor mapping parameters The cooling control section is where you set the hotspot temperature thresholds from where the cooling group 1 (Relay 2) and the cooling group 2 (Relay 3) are activated. — Figure 36 Sensor mapping parameters CoreSense Hub option B63...
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Page 68: Configuring 4-20 Ma Output Channels . B64
Configuring 4–20 mA output channels In the CoreSense Hub, 4–20 mA outputs can be defined for up to two sensors (channels 1 and 2). Both channels can be configured the same way. In the following procedure, channel 1 is used as an example. -
Page 69: Risks Of Overloading A Transformer
SCADA communication For SCADA communication, CoreSense Hub uses the Modbus TCP protocol. This is similar to the standard CoreSense but with specific register blocks for each external sensor linked to the CoreSense Hub. See “Appendix C”... - Page 70 Register Modbus Parameter Function Data type Access address 40059 Moisture (ppm) signed 16 bit binary number 40060 Moisture may need scaling signed 16 bit binary number (ppm/day) 40061 RESERVED–Moisture return 0 signed 16 bit binary number (ppm/week) 40062 RESERVED–Moisture return 0 signed 16 bit binary number (ppm/week) 40063...
- Page 71 Moisture RoC WaRNING Reserved Moisture level CRItICaL Reserved Moisture Level WaRNING Reserved hydrogen RoC CRItICaL Reserved hydrogen RoC WaRNING Reserved hydrogen level CRItICaL Reserved hydrogen level WaRNING Reserved System CRItICaL Reserved System WaRNING Level CRItICaL System ready Level WaRNING CoreSense Hub option...
- Page 72 — Table 14 DNP3 tables Binary input points list Point Name Event class Name for state Name for state Description Index Assigned (1, 2, 3 when value is 0 when value is 1 or none) Sys-Ready none System Ready Sys-Warn none System warning Sys-Crit...
- Page 73 Overload Capacity Capacity 30 minutes Overload none Overload Capacity Capacity 60 minutes Overload none Overload Capacity Capacity 120 minutes Generic Modbus Sensor 1 Sensor_value none Sensor value Sensor_RoC_ none Sensor RoC RESERVED none RESERVED RESERVED none RESERVED CoreSense Hub option B69...
- Page 74 Analog input points list Point Name Event class Multiplier Offset Units Resolution Description Index Assigned int/flt int/flt (1, 2, 3 or none) RESERVED none RESERVED RESERVED none RESERVED RESERVED none RESERVED RESERVED none RESERVED RESERVED none RESERVED RESERVED none RESERVED Generic Modbus Sensor 2 23-32 Generic Modbus Sensor 2 analog input points block...
- Page 75 RESERVED - Moisture Rate of change (monthly) alarm RESERVED - Moisture Rate of change (monthly) Warning Defined in 4-20 ma Input 1 configuration Defined in 4-20 ma Input 2 configuration Defined in 4-20 ma Input 3 configuration aging Days CoreSense Hub option...
- Page 76 Point Type Name Scale Min Scale Max Units Index (if applicable) (if applicable) hotspot Celcius Load Ratio Loss of Life Minutes Overload Capacity 5 minutes Overload Capacity 15 minutes Overload Capacity 30 minutes Overload Capacity 60 minutes Overload Capacity 120 minutes Generic Modbus Sensor 1 -100 1000...
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Page 77: Device Configuration
RESERVED - Generic Modbus Sensor Rate of change (monthly) Warning Generic Modbus Sensor x Device configuration The CoreSense Hub offers complete transformer monitoring by interfacing with the ABB family of eDevices. This includes the following eDevices: eDevices model descriptions eBR–Gas accumulation An electronic transducer and a dedicated PCB constantly monitor gas accumulation in the Buchholz relay by 4–20 mA analog output and Modbus RTU protocol. -
Page 78: Edevices Parameters
4–20 mA analog output and Modbus RTU communication protocol. eDevices parameters Table 16 provides the parameters that can be manually configured in the CoreSense Hub to set up the Modbus RTU communication between the CoreSense Hub and the various eDevices. - Page 79 – tank – Salts temp. ¹ See specific eDevice instruction sheet to change the Device ID in case more than one device of the same type is installed on the transformer. ² Suggested value. Can be modified. CoreSense Hub option...
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Page 81: C Modbus Table
— a p p E N D I x C Modbus table The RS-485 and Modbus default settings can be modified using the web interface. NOTICE For best results it is recommended to configure the Modbus master with a timeout of 10000 ms and 5 retries. -
Page 82: Modbus Parameters
Modbus parameters Register Modbus Parameter Function Data type Access address Status/Alarms Not supported 1-10 Reserved for future use Info 11-20 40011 Model number aSCII string 21-30 40021 Serial number aSCII string 31-40 40031 Software version aSCII string 41-50 40041 System ID aSCII string 40051 Manufacturing date... - Page 83 <status> Description Reserved Reserved Reserved Reserved Moisture RoC CRItICaL Moisture RoC WaRNING Moisture level CRItICaL Moisture level WaRNING hydrogen RoC CRItICaL hydrogen RoC WaRNING hydrogen level CRItICaL hydrogen level WaRNING System CRItICaL System WaRNING System ready Modbus table C79...
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Page 85: D Dnp3
E N D I x D DNP3 The CoreSense DNP3 outstation implementation is compliant to level 1 and level 2. The CoreSense DNP3 device profile can be downloaded from www.abb.com. Out of the box, you can communicate with the sensor using a default data link address = 4. - Page 86 Binary input point list Point Name Event class assigned Name for state Name for state Description Index (1, 2, 3 or none) when value is 0 when value is 1 Sys-Ready none System ready Sys-Warn none System warning Sys-Crit none System critical hyd-Lev-Warn none...
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Page 87: E Iec 61850 (Coresense Only)
E N D I x E IEC 61850 (CoreSense only) The CoreSense implements an IEC 61850 MMS server over TCP/IP Ethernet that is compliant with edition 1 of the IEC 61850 standard. The following supporting documents can be downloaded from www.abb.com. -
Page 88: Pixit For Server Model
Description Value/Clarification What is the maximum and minimum MMS pDU size Max MMS pDU size 120000 bytes Min MMS pDU size 1200 bytes What is the maximum start up time after a power supply 5 minutes interrupt Does this device function only as test equipment? (test equipment need not have a non-volatile configuration;... -
Page 89: Pixit For Data Set Model
Data set creation is not supported. by one or more clients PIXIT for Substitution Model Description Value/Clarification are substituted values stored in volatile memory Substitution is not supported. IEC 61850 (CoreSense only) E85... -
Page 90: Pixit For Setting Group Control Model
PIXIT for Setting Group Control Model Description Value/Clarification What is the number of supported setting groups for each logical device SG is not supported. What is the effect of when and how the non-volatile storage is updated SG is not supported. (compare IEC 61850-8-1 $16.2.4) Can multiple clients edit the same setting group SG is not supported. -
Page 91: Pixit For Logging Model
Can the GOOSE publish be turned on / off by using Deprecated SetGoCBValues(GoEna) What is the initial GOOSE sqNum after restart GOOSE not supported. May the GOOSE data set contain: GOOSE not supported. • structured data objects (FCD) • timestamp data attributes IEC 61850 (CoreSense only) E87... -
Page 92: Pixit For Goose Subscribe Model
PIXIT for GOOSE Subscribe Model Description Value/Clarification What elements of a subscribed GOOSE header are destination MaC address checked to decide the message is valid and the allData appID values are accepted? If yes, describe the conditions. gocbRef Notes: timeallowedtoLive •... -
Page 93: Pixit For Control Model
SelectWithValue and/or Operate request Is pulse configuration supported (compare Deprecated pulseConfig) What is the behavior of the DUt when the check Synchrocheck conditions are set Interlock-check Is this behavior fixed, configurable, online changeable Not applicable IEC 61850 (CoreSense only) E89... - Page 94 Description Value/Clarification Which additional cause diagnosis are supported Unknown Not-supported Blocked-by-switching-hierarchy Select-failed Invalid-position position-reached parameter-change-in-execution Step-limit Blocked-by-Mode Blocked-by-process Blocked-by-interlocking Blocked-by-synchrocheck Command-already-in-execution Blocked-by-health 1-of-n-control abortion-by-cancel time-limit-over abortion-by-trip Object-not-selected Edition 2 specific values: Object-already-selected No-access-authority Ended-with-overshoot abortion-due-to-deviation abortion-by-communication-loss Blocked-by-command None Inconsistent-parameters Locked-by-other-client Ct10 how to force a “test-not-ok”...
- Page 95 Breaker outside the DUt can? Ct24 When CDC=DpC is supported, is it possible to have Not applicable DpC (Controllable Double point) go to the intermediate state? (00) Ct25 Do any objects have Operate timeout > 0 DOes SBOes IEC 61850 (CoreSense only) E91...
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Page 96: Pixit For Time Synchronization Model
Description Value/Clarification Ct26 Does the IED support control objects with external DOns signals SBOns DOes SBOes Ct27 Does the IED support DpC control objects with DOns external signals SBOns DOes SBOes PIXIT for Time Synchronization Model Description Value/Clarification What time quality bits are supported (may be set by the IED) LeapSecondsKnown ClockFailure ClockNotSynchronized... -
Page 97: Pixit For File Transfer Model
File transfer not supported. Is it allowed that 2 clients get a file at the same time File transfer not supported. PIXIT for Service Tracking Model Description Value/Clarification Which aCSI services are tracked by LtRK.Gentrk Not applicable. IEC 61850 (CoreSense only) E93... -
Page 98: Mics
MICS Logical Nodes List The following table contains the list of logical nodes implemented in the device: L: System Logical Nodes LPHD (physical device information) LLN0 (logical node zero) G: Logical Nodes for Generic References GGIO (generic process I/O) S: Logical Nodes for Sensors and Monitoring SIML (insulation medium supervision [liquid]) SIML–Insulation medium supervision (liquid) The IEC 61850-7-4 ed.1 SIML node was extended with data objects defined in technical report... -
Page 99: Pics
SCSM: IEC 61850-9-2 used SCSM: other Generic Substation Event Model (GSE) publisher side Subscriber side Transmission of Sampled Value Model (SVC) publisher side Subscriber side - = not applicable Y = supported N or empty = not supported IEC 61850 (CoreSense only) E95... -
Page 100: Acsi Models Conformance Statement
ACSI Models Conformance Statement The ACSI models conformance statement is defined below. Client/ Subscriber Server/ Publisher Value/ Comments If Server side (B11) and/or Client side (B12) supported Logical device Logical node Data Data set Substitution Setting group control Reporting Buffered report control M7.1 sequence-number M7.2... -
Page 101: Acsi Service Conformance Test
Conformance Statement and in ACSI Models Conformance Statement). Services AA: TP/MC Client (C) Server (S) Comments Server GetServerDirectory (LOGICaL-DEVICE) Application Association associate abort Release Logical Device GetLogicalDeviceDirectory Logical Node GetLogicalNodeDirectory GetallDataValues Data GetDataValues SetDataValues GetDataDirectory GetDataDefinition Data Set GetDataSetValues IEC 61850 (CoreSense only) E97... - Page 102 Services AA: TP/MC Client (C) Server (S) Comments SetDataSetValues CreateDataSet DeleteDataSet GetDataSetDirectory Substitution SetDataValues Setting Group Control SelectactiveSG SelectEditSG SetSGValues ConfirmEditSGValues GetSGValues GetSGCBValues Reporting Buffered Report Control Block (BRCB) Report S24-1 data-change (dchg) S24-2 quality-change (qchg) S24-3 data-update (dupd) GetBRCBValues SetBRCBValues Unbuffered Report Control Block (URCB) Report...
- Page 103 Multicast SVC SendMSVMessage Multicast Sampled Value Control Block GetMSVCBValues SetMSVCBValues Unicast SV SendUSVMessage Unicast Sampled Value Control Block GetUSVCBValues SetUSVCBValues Control Select SelectWithValue Cancel Operate Command-termination timeactivated-Operate File Transfer GetFile SetFile DeleteFile GetFileattributeValues GetServerDirectory (FILE-SYStEM) IEC 61850 (CoreSense only) E99...
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Page 104: Tics Mandatory Intop Tissues
Services AA: TP/MC Client (C) Server (S) Comments Time time resolution seconds Nearest negative power of 2 of internal clock seconds (number 0 .. 24) time accuracy Unspecified tL (ms) (low accuracy), t3 < 7) of internal clock (only Ed2) t0 (ms) (<= 10 ms), 7 <= t3 <... - Page 105 GI is by default Syntax tExtensionattributeNameEnum is restricted SIUnit enumeration for W Base type for bitstring usage DaI/SDI elements syntax Ordering of enum differs from 7-3 attribute RptId in SCL Replace sev - Unknown by unknown IEC 61850 (CoreSense only) E101...
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Page 107: F Sensor Software Update
Follow these additional instructions to update the software: 1 Remove the sensor cover (see “Removing the cover” on page 20). 2 Insert the ABB update USB key (see Figure 3 “CoreSense port and relay connections” on page 21). 3 Press the reset button. - Page 108 Page intentionally left blank...
- Page 109 — a p p E N D I x G CoreSense default factory values The table below contains all the values as they were configured at the factory. Parameters Description Default value Details Hydrogen hydrogen.sensor-offset hydrogen sensor offset correction See “hydrogen settings”...
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- Page 111 — a p p E N D I x h System events Name Description Recommended action Date_time_chg Manual Modification of system date — and time hydrogen_Warning_Level_chg hydrogen Warning Level set point — changed hydrogen_alarm_Level_chg hydrogen alarm Level set point — changed hydrogen_Warning_Delta_chg hydrogen Warning rate of change set...
- Page 112 System_Warning SYStEM_LOW_SpaCE the system will report this WaRNING Contact aBB Service when it is running out of disk space SYStEM_CRItICaL . h2_SENSOR_FataL_ERROR the system will report this aLaRM power cycling may resolve when the hydrogen probe is in a fatal this issue.
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Page 113: I Definition Of Exported Values
— a p p E N D I x I Definition of exported values Hydrogen.csv See the table below for a description of the fields exported when using the Export button in the Hydrogen, Moisture or Event tab of the web interface. Column name Description LOCaL tIME... - Page 114 Page intentionally left blank...
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Page 115: J Third Party Legal Notices
— a p p E N D I x J Third party legal notices Oracle Binary Code License Agreement for the Java SE Platform Products and JavaFX ORACLE AMERICA, INC. License Agreement ORACLE AMERICA, INC. (“ORACLE”), FOR AND ON BEHALF OF ITSELF AND ITS SUBSIDIARIES AND AFFILIATES UNDER COMMON CONTROL, IS WILLING TO LICENSE THE SOFTWARE TO YOU ONLY UPON THE CONDITION THAT YOU ACCEPT ALL OF THE TERMS CONTAINED IN THIS BINARY CODE LICENSE AGREEMENT AND SUPPLEMENTAL LICENSE TERMS (COLLECTIVELY “AGREEMENT”). - Page 116 java/javase/documentation/index.html. “README File” means the README file for the Software accessible at http://www.oracle.com/technetwork/java/javase/documentation/index.html. 2 LICENSE TO USE. Subject to the terms and conditions of this Agreement including, but not limited to, the Java Technology Restrictions of the Supplemental License Terms, Oracle grants you a non- exclusive, non-transferable, limited license without license fees to reproduce and use internally the Software complete and unmodified for the sole purpose of running Programs.
- Page 117 Party Usage Guidelines for Oracle Trademarks currently located at http://www.oracle.com/us/legal/ third-party-trademarks/index.html. Any use you make of the Oracle Marks inures to Oracle’s benefit. 9 U.S. GOVERNMENT LICENSE RIGHTS. If Software is being acquired by or on behalf of the U.S. Government or by a U.S.
- Page 118 to a license agreement that: (a) is a complete, unmodified reproduction of this Agreement; or (b) protects Oracle’s interests consistent with the terms contained in this Agreement and that includes the notice set forth in Section H, and (vi) you agree to defend and indemnify Oracle and its licensors from and against any damages, costs, liabilities, settlement amounts and/or expenses (including attorneys’...
- Page 119 intended to be a replacement or substitute for the JDK; (viii) You agree to defend and indemnify Oracle and its licensors from and against any damages, costs, liabilities, settlement amounts and/ or expenses (including attorneys’ fees) incurred in connection with any claim, lawsuit or action by any third party that arises or results from the use or distribution of the JDK and/or the Publication;...
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- Page 122 We reserve the right to make technical changes or modify the contents of this document without prior notice. With regard to purchase orders, the agreed particulars shall prevail. ABB AG does not accept any responsibility whatsoever for potential errors or possible lack of information in this document.