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ERL TESLA 4000 User Manual

ERL TESLA 4000 User Manual

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TESLA 4000

Power System Recorder

User Manual

Version 2.6 Rev 0

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Page 1 TESLA 4000 Power System Recorder User Manual Version 2.6 Rev 0...
Page 3: Preface
Microsoft Corporation. ® HyperTerminal is a registered trademark of Hilgraeve. ® Modbus is a registered trademark of Modicon. ® Contact Information ERLPhase Power Technologies Ltd Website: www.erlphase.com Email: info@erlphase.com Technical Support Email: support@erlphase.com Tel: 1-204-477-0591 D02771R02.60 TESLA 4000 User Manual...
Page 5: Using This Guide
Click the right mouse button. Recordings Menu items and tabs are shown in italics. service User input or keystrokes are shown in bold. Text boxes similar to this one Relate important notes and information. Indicates more screens. D02771R02.60 TESLA 4000 User Manual...
Page 7: Table Of Contents
Version Compatibility ............... ix PC System Requirements and Software Installation ....xi 1 Overview ..............1-1 TESLA System Description..........1-1 TESLA 4000 Features ............. 1-2 Front Panel ..............1-6 Rear Connections ............1-6 2 Installation and Safety Instructions ..... 2-1 Introduction ..............
Page 8: Table Of Contents
Logic Functions.............. 8-41 Fault Locator Functions ..........8-43 Power Factor Functions ..........8-45 Meter Groups ..............8-48 Trend Logging..............8-49 Printing................8-51 9 Record and Log Management....... 9-1 Records................9-1 Trend Log................. 9-4 Event Log................. 9-6 TESLA 4000 User Manual D02771R02.60...
Page 9 Required Cooperative Mode Settings ......13-13 14 Maintenance Menu and Error Handling ... 14-1 Maintenance Menu ............14-1 Error Handling..............14-5 15 PMU Functionality..........15-1 Overview ................ 15-1 TESLA 4000 PMU Features .......... 15-2 Communication with the PMU........15-7 D02771R02.60 TESLA 4000 User Manual...
Page 10 Split Core CT ..............F-14 DC Input Module ............F-15 Appendix G Recommended Spare Parts List ....G-1 Appendix H TESLA Handling and Disposition ..... H-1 Appendix I TESLA 4000 Drawings....... I-1 Appendix J IEC 61850 Implementation......J-1 Protocol Implementation Conformance Statement (PICS) ................J-1 Model Implementation Conformance Statement (MICS)................J-8...
Page 11: Version Compatibility
Version Compatibility TESLA 4000 Version Compatibility TESLA 4000 Setting ERL 61850 IED TESLA Control Panel ICD File Version Firmware Version Configurator v1.8 v2.6 and greater v3.0 Rev 01 v2.0 v1.7 v2.5 and greater v3.0 Rev 01 v2.0 v1.6 v2.4 and greater v2.0...
Page 13: Pc System Requirements And Software Installation
To install the software on your computer, click the desired item on the screen. The installation program launches automatically. Installation may take a few minutes to start. To view the TESLA User Manual the user must have Adobe Acrobat on their computer. D02771R02.60 TESLA 4000 User Manual...
Page 14 “TESLA Control Panel Installation” on page 3-1. Once these steps are complete, go to the First Time Start-Up section for details on launching TESLA Control Panel (see “First Time Start-Up” on page 3-6). TESLA 4000 User Manual D02771R02.60...
Page 15: Overview
RecordBase is available to automati- cally collect and store records from multiple recorders. RecordBase provides fast network-based access to collected records through distributed RecordBase View desktop clients. 1.For details see “Model Options” on page 1-5. D02771R02.60 TESLA 4000 User Manual...
Page 16: Tesla 4000 Features
View Software Software Software Figure 1.1: TESLA System Overview 1.2 TESLA 4000 Features Installation • 19" rack-mount format • Small 3U footprint • Analog input isolation modules for ac and dc input signals are DIN-rail mounted to minimize rack usage and can be located up to 1220 meters from the main unit for flexible installation •...
Page 17 • Record display shows record summaries with trigger event lists so that a pre- liminary evaluation can be made before the record is transferred • Real-time metering display shows all input and calculated quantities in user- customizable layouts D02771R02.60 TESLA 4000 User Manual...
Page 18 • Self-monitoring supervisory software with hardware self-checking circuit and failure contact ensures reliable operation • Flash memory for record storage with separate Flash memory for program storage • Compliance with IEC standards for temperature range, transient withstand and RF immunity TESLA 4000 User Manual D02771R02.60...
Page 19 This is available with integrated advanced Phasor Measurement Unit (PMU) and Continuous Disturbance Recording (CDR) capabilities as standard fea- tures. The TESLA 4000 model has provisions for two or four active rear Ether- net ports (configuration dependant) with two independent Mac addresses and support for IEC 61850 station bus protocol.
Page 20: Front Panel
10.Ports 164 – 171 and 264 – 271 (8): Output Contacts 11.Port 406 – 407: Power Supply (40-300 Vdc). Handles 48,125 or 250 Vdc or 120 Vac nominal 12.Port 408: Chassis Ground Figure 1.3: Rear LAN Port Configuration: Options 0, 1, 2 & 3 TESLA 4000 User Manual D02771R02.60...
Page 21 10.Ports 164 – 171 and 264 – 271 (8): Output Contacts 11.Port 406 – 407: Power Supply (40-300 Vdc). Handles 48,125 or 250 Vdc or 120 Vac nominal 12.Port 408: Chassis Ground Figure 1.4: Rear LAN Port Configuration: Option 4 Advanced D02771R02.60 TESLA 4000 User Manual...
Page 23: Installation And Safety Instructions
If this is not the case then any safety protection pro- vided by the equipment may be impaired. D02771R02.60 TESLA 4000 User Manual...
Page 24: Physical Mounting
It is 3 rack units (5.25 inches) high and 12.725 inches deep. An additional 3 inches of depth is required for rear connections and cables. A complete me- chanical drawing is shown in “TESLA 4000 Drawings” on page Appendix I-1. To install the relay the following is needed: •...
Page 25: Case Grounding
3.3 mm² unless otherwise required by local or country wiring reg- ulations. Copper wire is recommended and must be must be low-inductance and as short as possible. #10 Split Washer Washer #10 Hex Nut Ground Stud #10 Terminal Ground Wire Figure 2.5: Protective Earth Connection D02771R02.60 TESLA 4000 User Manual...
Page 26: Power Supply
One surge protector can be used to protect multiple units as long as the current limit of the surge protection device is not exceeded. Note that this is a consumable item and not covered by ERLPhase warranty. TESLA 4000 User Manual D02771R02.60...
Page 27: Signal Connections
TESLA is located. Belden 9388, or its equivalent, is an example of an accept- able cable that can be used. D02771R02.60 TESLA 4000 User Manual...
Page 28 All input modules must be grounded via the ground stud on the mod- ule. Re-calibration is required whenever an input module is replaced or moved to a different channel (see “Analog Input Calibration” on page 7-12) TESLA 4000 User Manual D02771R02.60...
Page 29 48 - 250 Vdc station battery. Maximum voltage is limited to 150 Vdc when CE compliance is required. The external inputs are isolated and protected against transient surges. They activate at approximately 32 Vdc. D02771R02.60 TESLA 4000 User Manual...
Page 30 The IRIG-B input provisions on the rear of the unit accepts either modulated Signal or unmodulated IRIG-B time signals, with or without the 1344 extensions. Communication See “Communicating with the Recorder” on page 4-1. Ports TESLA 4000 User Manual D02771R02.60...
Page 31 Alarm Normally inactive red LED that indicates a failure has been detected by the software. The presence of the Alarm LED means much of the system is functioning and can be accessed for diagnosis D02771R02.60 TESLA 4000 User Manual...
Page 33: Tesla Control Panel Installation
Installation of TESLA Control Panel software may require changes to your Windows system configuration for proper operation. Please re- view the instructions in this chapter to ensure proper setup. The TESLA 4000 CD-ROM contains the following: • TESLA Control Panel: interface software • Firmware update with installation instructions •...
Page 34: Installation On Windows Xp And Windows 7
5. When the installation is complete, a TESLA Control Panel icon is placed on your desktop. Use the icon to launch Control Panel. If you prefer, you can start Control Panel through Windows Start menu (Start>Programs>ERLPhase>TESLA Control Panel). TESLA 4000 User Manual D02771R02.60...
Page 35 Program Files. Select OK. This is the default location for TESLA Control Panel. If you selected a different location to install TESLA Control Panel, you will find the Null Modem driver (Null_mdm.Inf) in that directory. D02771R02.60 TESLA 4000 User Manual...
Page 36 7. Select the serial port you wish to use. You are setting up a serial port to be used for a direct cable connection to a TESLA. Typically COM1 or COM2 are available on a PC for this purpose. Select Next. TESLA 4000 User Manual D02771R02.60...
Page 37 In Windows XP, you may get a message stating that the Null Modem “has not passed Windows Logo testing” and asking “Do you want to continue the installation?” Select Continue Anyway to continue. 8. Select Finish and close the Phone and Modem Options and Control Panel dialog boxes. D02771R02.60 TESLA 4000 User Manual...
Page 38: First Time Start-Up
Administrative user accounts from storing data under C:\Program Files (Program Files(x86) for Windows 7 64-bit operating systems); it may be necessary to change the default record and config storage locations for the IEDs. Figure 3.4: Data Location TESLA 4000 User Manual D02771R02.60...
Page 39: Communicating With The Recorder
4 Communicating with the Recorder This chapter describes the communication options to communicate with TESLA 4000 Model 4000. Port 402 is not available in Model 4003 and hence all communications through port 402 will not be applicable to Model 4003.
Page 40 Spare Parts List” on page Appendix G-1 for optional devices avail- able). When configured with optical network ports, this is a class I laser product and is considered safe however viewing fiber-optic output ports directly is not recommended. TESLA 4000 User Manual D02771R02.60...
Page 41: Irig-B Time Input
401) available for unit communications. The recorder rear panel provides ad- ditional Ethernet connections ports (Ports 401/402/410/411) and DB-9 serial ports that provide direct access to the unit’s interface and SCADA services. Port availability will vary based on selected model configuration parameters. D02771R02.60 TESLA 4000 User Manual...
Page 42: Ethernet Lan Link
The default setting is 255.255.255.0 • To modify the Default Gateway or Network Mask use the maintenance Menu command 1- 3 IP address • If unsure of these setting contact your network administrator TESLA 4000 User Manual D02771R02.60...
Page 43 IED definition. Use the Edit button to view or change this informa- tion. Ensure the Network Link option is selected and the recorder’s IP address is entered. • For details on IED definitions see “Working with TESLA Control Pan- el” on page 5-1. D02771R02.60 TESLA 4000 User Manual...
Page 44 • A dialog box will appear to show connection progress. • The connection state and the current IED you are connected to is shown on the Windows status bar Figure 4.3: Connect Button Dialog Box TESLA 4000 User Manual D02771R02.60...
Page 45: Usb Link
To create an USB link between the recorder and the computer, first the USB driver for the ERLPhase 4000 Series Device needs to be installed, as follows: Unzip the file (can be obtained from ERL web site): ERLPhase_USB_driver.zip In this case we assume you unzipped to the Desktop.
Page 46 “The wizard has finished installing the software for” “ERLPhase 4000 Series Device” Hit Finish To verify the installation was successful, and to which comm port is the ERL- Phase 4000 Series Device configured, do the following: In Windows XP go to Start>Control Panel>Performance and Maintenance>Sys-...
Page 47 Figure 4.5: Status Bar If the connection fails, check the following: • The communication parameters are the same on both ends (see Step 1 above). • The correct serial port has been selected on your computer. D02771R02.60 TESLA 4000 User Manual...
Page 48: Direct Serial Link
• For details on IED definitions see “Working with TESLA Control Pan- el” on page 5-1. 3. Initiate the connection by selecting the Connect button. • A dialog box will appear to show connection progress. 4-10 TESLA 4000 User Manual D02771R02.60...
Page 49 TESLA recorder. The Edgeport USB Serial Adapter, model # Edgeport/1, from B&B Electronics (www.bbelec.com) is an example of such a device. D02771R02.60 TESLA 4000 User Manual 4-11...
Page 50: Modem Link
Port 401 or 450 on the recorder, run TESLA Control Panel soft- ware and initiate a connection to the unit. b. When connected, select Utilities in the Main Menu list, and go to the Communication tab to access the Port 405’s settings. 4-12 TESLA 4000 User Manual D02771R02.60...
Page 51 The factory default for this field is “M1” for external modems. These default values are all that are re- quired for most modems. f. Save your changes, close the Utilities tab and disconnect. D02771R02.60 TESLA 4000 User Manual 4-13...
Page 52 Modem initialization string is M1 for internal modem. If an internal modem was installed at the factory, it will already be appropri- ately configured. An internal modem option is not available when the ad- vanced communications option is selected. 4-14 TESLA 4000 User Manual D02771R02.60...
Page 53: Modem Lan Gateway
The master acts as a gateway to the LAN, providing a route for IP communication between Control Panel or RecordBase and other TESLA 4000 recorders to the network. Although commonly used as a part of a cooperative group configuration, a gateway modem can also be used simply as a means to communicate with networked recorders.
Page 54: Accessing Scada Services
Configuration of the SCADA protocol and communication parameters is done through the SCADA Configuration section of the recorder setting file. Setting Settings descriptions follow. From Config Edit select SCADA Communications. Figure 4.11: SCADA Protocol Settings 4-16 TESLA 4000 User Manual D02771R02.60...
Page 55 Menu. Make sure the Master IP Addresses are different from the TESLA IP Address. Port DNP (TCP or UDP) Defines the TCP or UDP port on which the DNP service may be accessed. Usually set to 20000. D02771R02.60 TESLA 4000 User Manual 4-17...
Page 56 Complete details regarding the Modbus protocol emu- lation and data point lists can be found in “Modbus Functions” on page Appendix D-1. Figure 4.12: Communications Setup In Control Panel for Modbus 4-18 TESLA 4000 User Manual D02771R02.60...
Page 57 Class Data configuration. Complete details regard- ing the DNP3 protocol emulation and data point lists can be found in DNP3 Device Profile on “DNP3 Device Profile” on page Appendix E-1. Figure 4.13a: DNP_point_map D02771R02.60 TESLA 4000 User Manual 4-19...
Page 58 Protocol monitor utilities are available to assist in resolving SCADA commu- nication difficulties such as incompatible baud rate or addressing. The utilities can be accessed through the Maintenance user interface, “Maintenance Menu and Error Handling” on page 14-1. Figure 4.14: HyperTerminal 4-20 TESLA 4000 User Manual D02771R02.60...
Page 59: Communication Port Details
Port 2000 operation will be altered during the TESLA 4000 firmware update process to use Port 7631. To support legacy installa- tions, Port 2000 operation may be enabled through the TESLA 4000 Mainte- nance Menu (see “14 Maintenance Menu and Error Handling” on page 14-1).
Page 60 Pin # on the Modem Adapter     Common    No connection Notes: IED (with modem adapter) is DTE, modem is DCE. Pins 1 and 6 are tied together internal to the IED. 4-22 TESLA 4000 User Manual D02771R02.60...
Page 61 Telnet 4712/TCP or UDP Default PMU port can be modified by the user (TESLA 3000 and TESLA 4000). 20000/TCP or UDP Default DNP3 can be modified by the user (TESLA 2000, 3000 and 4000). D02771R02.60 TESLA 4000 User Manual 4-23...
Page 62: Iec 61850 Communication
The problems associated with this incompatibility are quite serious, and result in increased costs for protocol integration and system maintenance. Implementation The TESLA 4000 Model 4000 conforms to IEC 61850-8-1, commonly re- Details ferred to as Station Bus Protocol. Implementation includes the following doc- uments: •...
Page 63 Figure 4.16: Unit’s IP Address Note that unit’s IP address can be used on the IEC61850 client side for unique unit identification instead of a physical device “PD Name”. The publisher con- D02771R02.60 TESLA 4000 User Manual 4-25...
Page 64 4 Communicating with the Recorder figuration is fixed and defined in the ICD file and available for reading to any IEC61850 client. Subscriber functionality is also fixed and supported for the Virtual Inputs only. 4-26 TESLA 4000 User Manual D02771R02.60...
Page 65: Working With Tesla Control Panel
When first installed, TESLA Control Panel includes a workspace for a recorder called TESLA 4000 Demo Unit. It contains sample records and configuration files and is configured for network connection with an evaluation unit.
Page 66 Current IED. Forcing a connection with a different re- corder (i.e. moving the serial cable without telling Control Panel to discon- nect), can cause the records and configuration files of that recorder to be mixed with those of the Current IED. TESLA 4000 User Manual D02771R02.60...
Page 67: Adding/Editing A Recorder Workspace Definition
Unit Name given to the recorder (“Unit Identification” on page 7- Comments User-defined, for your reference only. Location User-defined, for your reference only. IED Serial Number Enter the IED Serial Number to match the serial number of the actual recorder. D02771R02.60 TESLA 4000 User Manual...
Page 68 The directory where the IED’s retrieved records are stored. Configs Folder The directory where the IED’s configuration files are saved. You can share configuration files and records with other TESLA Con- trol Panel users by using common folders TESLA 4000 User Manual D02771R02.60...
Page 69: Online And Offline Operation
• Setup utilities and record configuration screens • Record graphics display • Trend logs Connection The Status Bar at the bottom right side of the TESLA Control Panel window Status shows if you are presently online or offline. D02771R02.60 TESLA 4000 User Manual...
Page 70: Navigating In Tesla Control Panel
Each time you start a function, a corresponding tab is created. Select the control tabs to navigate from one screen to another or the Main Menu item. Use the Close button to close the screen. TESLA 4000 User Manual D02771R02.60...
Page 71 5 Working with TESLA Control Panel Status Bar The Status Bar at the bottom of the TESLA Control Panel displays the name of the selected recorder workspace and the status of the connections. D02771R02.60 TESLA 4000 User Manual...
Page 73: Metering Display
Angle information displayed on the metering screen may be referenced to any Reference angle reference setting in the configuration file. This feature modifies the dis- play of information on the metering screen and has no impact on recording or communications. D02771R02.60 TESLA 4000 User Manual...
Page 74 The metering display can be exported to another program using Win- dows built-in Alt PrintScreen key and standard paste functions. Phase angle readings displayed in meter groups are based on the configured Phase Angle Reference Channel (see “Phase Angle Ref- erence Channel” on page 8-12). TESLA 4000 User Manual D02771R02.60...
Page 75: Recorder Setup Utilities
LA Control Panel. You must be communicating with the IED for the Utilities tab to be available. For details on connecting to the recorder using TESLA Control Panel software see “Communicating with the Recorder” on page 4-1. D02771R02.60 TESLA 4000 User Manual...
Page 76: Unit Identification
TESLA unit. System Frequency Read-only field that displays the assumed power system frequency of the recorder. This is a factory setting. Station Station Name User-defined, for your reference only. TESLA 4000 User Manual D02771R02.60...
Page 77: Communication Port Settings
User-defined, for your reference only. 7.2 Communication Port Settings The Communication settings control the modes and baud rates of the record- er’s communication ports and defines the SCADA communication mode. Figure 7.3: Recorder Setup Utilities - Communication Ports D02771R02.60 TESLA 4000 User Manual...
Page 78 The Direct/Modem Port refers to either the recorder’s rear panel Port 405 or its (optional) Internal Modem port, depending on the Port Select setting. Direct/Modem Port functionality is not available on all TESLA 4000 IED configurations. Port Select Direct Serial: Port 405 is enabled for a direct serial connection with TESLA Control Panel or a terminal program (to access the Maintenance Menu).
Page 79: Recording Control Settings
Edge Recording mode tends to create smaller records that contain useful fault data around the start of the trigger, but may not capture data for the entire du- ration of the trigger. D02771R02.60 TESLA 4000 User Manual...
Page 80 Speed and Low Speed data can only be combined during the High Speed data capture portion of the record. Duration Recording mode captures all the data during the fault trigger, but tends to create larger records that may contain unimportant data. TESLA 4000 User Manual D02771R02.60...
Page 81 8-49). Continuous Disturbance Recording (CDR) Sample Rate Read-only display of the recording rate in rms samples/second/chan- nel. The rate is configured in the recorders setting file, for details see “Continuous Disturbance Recording” on page 10-1 D02771R02.60 TESLA 4000 User Manual...
Page 82 It’s set as part of the recorder’s configuration (see “TESLA Alarms” on page 8-7). CDR Accumulation This is a read-only indicator set to Recycle when Continuous Distu- bance Recording is enabled. TESLA 4000 User Manual D02771R02.60...
Page 83: Time Display And Settings
Figure 7.6: Recorder Setup Utilities - Time Control Time Sources The TESLA 4000 Power Systems Recorder uses time as the basis of data re- cording and requires the presence of a source time signal on the IED. The re- corder supports the use of modulated or unmodulated IRIG-B time signals...
Page 84 Sunday in April until 2 AM on the last Sunday in October. Present Time When connected to a recorder, the recorder’s present Display time is shown and continually updated. The specified time settings (e.g. Local Time) are applied to the dis- played time. 7-10 TESLA 4000 User Manual D02771R02.60...
Page 85 (primary and secondary) for IED synchronization in the absence of an IRIG-B time source. Default configuration for the TESLA 4000 product is for SNTP capabilities to be disa- bled upon start-up. SNTP Poll Interval User configurable parameter for defining SNTP server synchronization time cycle (primary and secondary).
Page 86: Analog Input Calibration
If the type of isolation module is changed, for example from a voltage to a cur- rent the readings will be significantly wrong until calibration has been per- formed. Only the channels associated with the altered module need be re-calibrated. 7-12 TESLA 4000 User Manual D02771R02.60...
Page 87 Applied Signal field by more than 10%. This helps to prevent erroneous calibration. If you change the type of isolation module associated with a channel, you must specify the new module type in the input channel's config- uration before calibrating. D02771R02.60 TESLA 4000 User Manual 7-13...
Page 88: Notify
A notification call to RecordBase to trigger swing recordings on other record- Notification ers can be initiated by any of the recorder’s triggers. Cross-trigger notification is selected as part of each channel’s configuration. Determine Recording Priority Figure 7.8: Notify Communication Strategy 7-14 TESLA 4000 User Manual D02771R02.60...
Page 89 The setting can range from 0 (all records) to 3 (highest priority only). Selecting Do Not Notify disables automatic record transfers completely. Record priority is determined by the highest priority trigger included in the record. Trigger priority is set as part of each channel’s configuration. D02771R02.60 TESLA 4000 User Manual 7-15...
Page 90: Password Protection
The Password tab can only be accessed when connected via direct serial link through the recorder’s service port (Port 450). This pro- vides protection from unauthorized remote access while ensuring that onsite staff can freely use the recorder. 7-16 TESLA 4000 User Manual D02771R02.60...
Page 91 Set Time & Settings CHANGE Display Calibration VIEW Save Calibration Changes SERVICE Display Configurations (Online) VIEW Configuration Display Configurations (Offline) None Load Configuration to IED CHANGE Save Local Configuration None Delete Local Configuration None D02771R02.60 TESLA 4000 User Manual 7-17...
Page 93: Configuring The Recorder
If a communication link to the Current IED is available, you can work directly with the recorder’s configuration by either double-click on the Present Settings item in the list or by selecting Present Settings and using the Edit button. This D02771R02.60 TESLA 4000 User Manual...
Page 94 Figure 8.3: Saved Configurations Saved configuration files are shown under the Saved Settings heading in the list. Control Panel can store many saved configuration files, limited only by hard disk and Windows operating system constraints. TESLA 4000 User Manual D02771R02.60...
Page 95 The configu- Recorder’s ration can be chosen from a list of the saved settings of the other IEDs defined Configuration in Control Panel. as a Starting Point D02771R02.60 TESLA 4000 User Manual...
Page 96: Scada And Dnp Configuration
To start the editor from the Configuration Manager screen, either double-click on a configuration file or select it and click on the Edit button. The sample screens shown are from the TESLA 4000 Demo configuration. Figure 8.4: TESLA Configuration Editor Navigation Tree The left-side pane of the Configuration Editor window provides a navigation tree to access the various sections of the configuration.
Page 97: Identification
Manual and are identified in each version’s Release Notes. TESLA 2000 re- corders use Setting Versions 1 through 7. TESLA 3000 Setting Versions start at 201. TESLA 4000 Setting Versions start at 401 to distinguish them from those used by TESLA 3000.
Page 98 Control Panel can always be safely installed. Sample Rate The Sample Rate setting controls the rate at which the TESLA 4000 reads its analog and digital input channels. The setting determines the number of sam- ples per second stored in high speed fault records and used to display calculat- ed high speed channels.
Page 99 (recycle of stop-when-full) and the level at which to alarm are set in the Recording tab of the Utilities screen (“Recording Control Settings” on page 7-5. These alarm condition can also be accessed via the SCADA protocols. D02771R02.60 TESLA 4000 User Manual...
Page 100: Channels And Triggers
This is the name that will appear beside a channel when it is displayed in a graph or a log. For example the recorder’s Event Log might contain this entry for a change in state of a external input: 2005 Jan 12 20:44:33.672 Line #1.EI.BRKK1_a open. TESLA 4000 User Manual D02771R02.60...
Page 101 (12 chars) Type is sufficient to fully identify a channel (e.g. Line #1:Va). In other cases, the Description is required to clarify the channel name. (e.g. You might name an external input channel as “Line #1:EI:BRKR1_a). D02771R02.60 TESLA 4000 User Manual...
Page 102 In the following figure, Element “Line #1” has been expanded to show some of the channels associated with it, such as Va. Present viewing mode - Element Tree. Switch between Channel Tree and Element Tree. Figure 8.5: Element Tree View 8-10 TESLA 4000 User Manual D02771R02.60...
Page 103 Element View is recommended for most operations as it provides an automatic way of grouping related channels. Present viewing mode - Channel Tree. Switch between Channel Tree and Element Tree. Figure 8.6: Channel Tree View D02771R02.60 TESLA 4000 User Manual 8-11...
Page 104 All channels use the same reference to provide relative angle calculations. Typically, a phase A voltage channel is used as the ref- erence. 8-12 TESLA 4000 User Manual D02771R02.60...
Page 105 Channel settings can be edited in the Channel Overview display, pro- viding an alternate way to enter channel settings that helps maintain consistency between channels. The column width can be adjusted on the overview tables to optimize the lay- out for the particular configuration. D02771R02.60 TESLA 4000 User Manual 8-13...
Page 106 Add Element creates the new element at the end of the present Ele- ment list. Insert Element creates the new element above your current selec- tion. 2. Type the element name and Enter. The typed text replaces the New Element text. 8-14 TESLA 4000 User Manual D02771R02.60...
Page 107 3. Select the channel number and an input screen appears on the right side. 4. Type in the information required to configure the channel. 5. When you close the screen, you are asked to save the configuration to the recorder. Select Save to Recorder. D02771R02.60 TESLA 4000 User Manual 8-15...
Page 108 Figure 8.11: Adding Analog Input Channels from the Element Tree Deleting a To remove an channel from the tree, select it and press the <Del> key or right- Channel click and select the appropriate Delete entry from the shortcut menu. 8-16 TESLA 4000 User Manual D02771R02.60...
Page 109: Analog Input Channels
SCADA and the long term trending function. TESLA 4000 Power System Recorder input modules are optional and a variety of input modules for voltage and current inputs are available, therefore, you must calibrate the input modules. Refer to “TESLA 4000 PMU Features” on page 15-2 for details on how to calibrate the modules.
Page 110 The list is limited to those modules appropriate for the selected channel type. The module defines input scaling information to the system. View/Set Scale Sets the primary to secondary scale factor. See details below. 8-18 TESLA 4000 User Manual D02771R02.60...
Page 111 Priority Specifies the priority to be assigned to records created by this trigger. The priority is used to determine Central Station notification. 1 - 3 (3 is the highest priority). (“Notify” on page 7-14). D02771R02.60 TESLA 4000 User Manual 8-19...
Page 112 The terms Primary and Secondary are used in the case where a measurement transducer is applied and the output of the transducer is routed to the input of 8-20 TESLA 4000 User Manual D02771R02.60...
Page 113 The duration of a Sag or Swell is fixed at any value between 0.5 cycle and 1 minute. The duration of a Sag or Swell is fixed at any value between 0.5 cycle and 1 minute. D02771R02.60 TESLA 4000 User Manual 8-21...
Page 114: External Input Channels
Number of Up to 64 External Input Channels can be defined, one for each physical input. Channels Types Settings Figure 8.15: External Input Channel Configuration Screen 1.For details see “Model Options” on page 1-5. 8-22 TESLA 4000 User Manual D02771R02.60...
Page 115 36 channel model. Contacts 1 and 4 are reserved for Recorder Functional and Cross-Trigger respectively. Contacts assigned for stor- age alarms or Time sync loss alarm or IEC 61850 communication alarm (“TESLA Alarms” on page 8-7) will not be available for use here. D02771R02.60 TESLA 4000 User Manual 8-23...
Page 116: Goose Virtual Input Channels
Records the state of all virtual input channels using the origin time stamp in- formation included within the GOOSE message provided by the publishing IED. Number of Up to 256 GOOSE Virtual Input Channels can be defined. Channels Types Settings 8-24 TESLA 4000 User Manual D02771R02.60...
Page 117 Functional and Cross-Trigger respectively. Contacts assigned for stor- age alarms or Time sync loss alarm or IEC 61850 communication fail- ure alarm (“TESLA Alarms” on page 8-7) will not be available for use here. D02771R02.60 TESLA 4000 User Manual 8-25...
Page 118: Summation Channel
Low Speed: generates a channel that is phasor sum of the input channels at a rate of one phasor per cycle. Number of 30 Summation Channels are available. Channels Types Specific: Va, Vb, Vc, Ia, Ib, Ic, In (use where appropriate) Generic: Vac, Iac 8-26 TESLA 4000 User Manual D02771R02.60...
Page 119 Identifies the channels to be used in the summation. The available list Input 3 includes all previously defined analog channels and any summation channel with a lower summation index number. The list grows auto- matically as you define new channels. D02771R02.60 TESLA 4000 User Manual 8-27...
Page 120 Functional and Cross-Trigger respectively. Contacts assigned for stor- age alarms or Time Sync loss alarm or IEC 61850 communication fail- ure alarm (“TESLA Alarms” on page 8-7) will not be available for use here. 8-28 TESLA 4000 User Manual D02771R02.60...
Page 121: Sequence Component Channels
12 Sequence Component Channels are available. Channels Types Vseq, Iseq Notes The primary to secondary scale factor used by the Sequence Component Chan- nel is the same as that of the selected Phase A channel. D02771R02.60 TESLA 4000 User Manual 8-29...
Page 122 The list grows automatically as you define new chan- nels. Trigger Settings Rate of Change Specifies the period of time over which both positive and negative rate Interval of change is measured. 0.5 to 8.0 cycles. 8-30 TESLA 4000 User Manual D02771R02.60...
Page 123 Functional and Cross-Trigger respectively. Contacts assigned for stor- age alarms or Time Sync loss alarm or IEC 61850 communication fail- ure alarm (“TESLA Alarms” on page 8-7) will not be available for use here. D02771R02.60 TESLA 4000 User Manual 8-31...
Page 124: Impedance Channels
Low Speed: Impedance magnitude at a rate of one value per cycle. Number of 18 Impedance Channels are available. Channels Types Z1 (impedance) Notes The impedance magnitude and angle readings are also available to the meter- ing display, SCADA and the long term trending function. 8-32 TESLA 4000 User Manual D02771R02.60...
Page 125 Specifies the period of time over which both positive and negative rate Interval of change is measured. 0.5 to 8.0 cycles. Circle Radius Specifies the radius of the impedance circle in secondary ohms. Minimum Change Specifies the minimum impedance change to be detected. D02771R02.60 TESLA 4000 User Manual 8-33...
Page 126 Functional and Cross-Trigger respectively. Contacts assigned for stor- age alarms or Time Sync loss alarm or IEC 61850 communication fail- ure alarm (“TESLA Alarms” on page 8-7) will not be available for use here. 8-34 TESLA 4000 User Manual D02771R02.60...
Page 127: Watts And Vars Channels
The primary to secondary scale factor used by the Watts/Vars Channel is based on those of its voltage and current input channels. Watts, Vars, and Volt-Amp magnitudes are also available to the metering dis- play, SCADA and the long term trending function. D02771R02.60 TESLA 4000 User Manual 8-35...
Page 128 Specifies the trigger levels for the magnitude triggers and the magni- tude portion of the rate for the rate of change triggers. The period por- tion of the rate is specified by the Rate of Change Interval. 8-36 TESLA 4000 User Manual D02771R02.60...
Page 129 Functional and Cross-Trigger respectively. Contacts assigned for stor- age alarms or Time Sync loss alarm or IEC 61850 communication fail- ure alarm (“TESLA Alarms” on page 8-7) will not be available for use here. D02771R02.60 TESLA 4000 User Manual 8-37...
Page 130: Frequency Channels
Low Speed: Frequency measurements at a rate of one value per cycle. Number of 2 Frequency Channels are available. Channels Types Freq Notes Frequency channels are not associated with particular Elements. Their names are fixed as Frequency 1 and Frequency 2. 8-38 TESLA 4000 User Manual D02771R02.60...
Page 131 Initiates a swing (low speed) recording when triggered. If both Fault and Swing are enabled, the recorder will attempt to cre- ate a combined record. Logs a message in the Event Log when triggered. D02771R02.60 TESLA 4000 User Manual 8-39...
Page 132 36 channel model. Contacts 1 and 4 are reserved for Recorder Functional and Cross-Trigger respectively. Contacts assigned for stor- age alarms or Time Sync loss alarm or IEC 61850 communication failure alarm (“TESLA Alarms” on page 8-7) will not be available for use here. 8-40 TESLA 4000 User Manual D02771R02.60...
Page 133: Logic Functions
30 Logic Functions are available. Channels Types Logic Notes The output of the Logic functions is available to the metering display, SCADA and the long term trending function. Settings Figure 8.22: Logic Function Configuration D02771R02.60 TESLA 4000 User Manual 8-41...
Page 134 36 channel model. Contacts 1 and 4 are reserved for Recorder Functional and Cross-Trigger respectively. Contacts assigned for stor- age alarms or Time Sync loss alarm or IEC 61850 communication failure alarm (“TESLA Alarms” on page 8-7) will not be available for use here. 8-42 TESLA 4000 User Manual D02771R02.60...
Page 135: Fault Locator Functions
Log identifying the time, the Element, the faulted type (e.g. A-B, B-G...) and the distance to fault. The output of the Fault Locator Function is available through SCADA. It can- not be metered or trended. D02771R02.60 TESLA 4000 User Manual 8-43...
Page 136 Any External Input Channel, GOOSE Virtual Input Channel or trigger detector from any other channel or function. Note that the initiating Event typically requires a 1.5 cycle delay to obtain accurate fault loca- tion information. 8-44 TESLA 4000 User Manual D02771R02.60...
Page 137: Power Factor Functions
Recording Power Factor Functions are not recorded. Number of 18 Power Factor Functions are available. Channels Types Notes Power factor readings are available to the metering display, SCADA and the long term trending function. D02771R02.60 TESLA 4000 User Manual 8-45...
Page 138 Settable from 1 to 10,000 seconds in 1 second increments. Trigger Action Enable Enables or disables the associated trigger. A trigger can be disabled without altering the rest of its settings. Fault Initiates a fault (high speed) recording when triggered. 8-46 TESLA 4000 User Manual D02771R02.60...
Page 139 Functional and Cross-Trigger respectively. Contacts assigned for stor- age alarms or Time Sync loss alarm or IEC 61850 communication fail- ure alarm (“TESLA Alarms” on page 8-7) will not be available for use here. D02771R02.60 TESLA 4000 User Manual 8-47...
Page 140: Meter Groups
Phase angle readings displayed in meter groups are based on the configured Phase Angle Reference Channel “Phase Angle Refer- ence Channel” on page 8-12. 8-48 TESLA 4000 User Manual D02771R02.60...
Page 141: Trend Logging
Use the tree’s expansion buttons to locate the desired channel, then drag and drop your selection on the grid. D02771R02.60 TESLA 4000 User Manual 8-49...
Page 142 If you wish to have the long-term event log without trending any data, define a trend without any channels in it. A daily limit of 1000 events can be stored in the trend log. 8-50 TESLA 4000 User Manual D02771R02.60...
Page 143: Printing
(see “DNP3 Device Profile” in Appendix E) Selecting the Print DNP settings item from the File menu generates a listing that is configurable - listing the full function names in Element-Function-Description format along with the equiv- alent DNP points. D02771R02.60 TESLA 4000 User Manual 8-51...
Page 144 8 Configuring the Recorder You can preview the printed output by selecting Print DNP Preview from the File menu. Print DNP function is also available under the Config menu. 8-52 TESLA 4000 User Manual D02771R02.60...
Page 145: Record And Log Management
Record Filter. Note that if additional recordings are created through the Trigger Fault, Trig- ger Swing or Trigger Both buttons, these new records do not displace the ear- liest fetch/displayed file records in the tree. D02771R02.60 TESLA 4000 User Manual...
Page 146 IED. Get from IED The Get From IED and Delete button erases the records on the recorder after and Delete they have been transferred to Control Panel and verified. TESLA 4000 User Manual D02771R02.60...
Page 147 Recordings directory. You may then perform whatever command is appropriate for the selection set, such as a Get from IED or a Get and Delete from IED Command. D02771R02.60 TESLA 4000 User Manual...
Page 148: Trend Log
Events The Events section of the display shows all the events recorded during the pe- riod of interest set with the range of dates TESLA 4000 User Manual D02771R02.60...
Page 149 Print Events The list of events in the Events portion of your screen is printed. D02771R02.60 TESLA 4000 User Manual...
Page 150: Event Log
Line# Date/Time ElementDescription where: • Description is user-assigned text available to further identify the detector Example of event messages: 11 2012Jun18 11:55:04.000 Connected to RecordBase on attempt 1 12 2012Jun18 17:32:15:113 Line#1:FLoc:Floc5 AG -6.0 km TESLA 4000 User Manual D02771R02.60...
Page 151 Updates Event List by getting a new list from remote IED and updates the Event List screen. Erase Removes all events from remote IED. Print (bottom button only) Prints all the events (up to 500 events) to a local printer. D02771R02.60 TESLA 4000 User Manual...
Page 153: Continuous Disturbance Recording
Data Reporting 2. Standard PRC-002-1 – Define Regional Disturbance Monitoring and Re- porting Requirements The CDR feature incorporated in the TESLA 4000 Recording System meets and exceeds the requirements of NERC Standards as represented in the follow- ing table. Table 10.1: NERC Standards...
Page 154 - a maximum of 36 channels can be se- lected. 1.For details see “Model Options” on page 1-5. 10-2 TESLA 4000 User Manual D02771R02.60...
Page 155 Period der, expanding the TESLA 4000 unit system memory for increased file/record storage capacity (not available in Model 4003). If TESLA 4000 firmware with continuous disturbance recording support is installed on a unit without the des- ignated continuous disturbance recording partition, continuous disturbance re- cording will be disabled.
Page 156 Length for the requested record. These fields are pre-filled with a time Request that is computed from the To time minus the initial Length value. Graph Launch RecordGraph with the selected record or records. 10-4 TESLA 4000 User Manual D02771R02.60...
Page 157 The command Safe Shutdown Mode is available only at the service access lev- el for TESLA Control Panel or via Port 450 login for maintenance utilities. When the command Safe Shutdown Mode is used, all TESLA 4000 application tasks are stopped ensuring all accumulated data are written out to the flash drive, all open files are closed and the file system status is updated.
Page 158 10 Continuous Disturbance Recording In TESLA 4000 Firmware v1.0 the Test Mode and Alarm LEDs will not blink. It is however safe to close Control Panel and turn off the unit 15 seconds after safe shutdown command. Handling All accumulated continuous disturbance recording data is discarded every time...
Page 159: Graphing Records
RecordGraph. Figure 11.1: Launching RecordGraph from TESLA Control Panel When the Graph button is clicked from the TESLA Control Panel, Record- Graph is launched with the selected record. D02771R02.60 TESLA 4000 User Manual 11-1...
Page 160 2. Select the record from the list. To select multiple records, press Ctrl key and click on the desired records. 3. Select the Graph button at bottom of screen. Figure 11.2: Display Trend Records 11-2 TESLA 4000 User Manual D02771R02.60...
Page 161 Select a record (should have valid extensions: *.lpr, *.lpl, *.tpr, *.tpt, *.tlr, *.bpr,*.fpr, *.mbr, *.mbe). Right-clicking on the record brings up the context menu with the RecordBase View item. Figure 11.3: Launching RecordGraph from Windows Explorer D02771R02.60 TESLA 4000 User Manual 11-3...
Page 162 • A right-click context menu on both the LHS and RHS panes. • RecordGraph version is displayed in the Help>About RecordGraph. Main Menu Template List Tool Bar RHS Pane shows graphic display LHS pane (Tree View) lists records Figure 11.4: Components of RecordGraph Window 11-4 TESLA 4000 User Manual D02771R02.60...
Page 163 Show Grid Zoom Y Axis - Show X Axis Ticks Undo Zoom Show Legends Reset Zoom Show Trigger Markers Change Scale (Y-Axis) Lock Markers Extend Print Range Set Phase Colors... Set Precision Figure 11.5: Menus D02771R02.60 TESLA 4000 User Manual 11-5...
Page 164: Recordgraph Menu Items
Save As Template dialog box is displayed. Otherwise, the current layout information is saved in a file as shown in the template list box. File>Save Template As… Figure 11.7: Save Template As 11-6 TESLA 4000 User Manual D02771R02.60...
Page 165 File>Template Manager Figure 11.8: Template Manager Rename, duplicate, save as, import or delete template files. A dialog box is dis- played to manage the template files (see “Templates” on page 11-57). File>Print Figure 11.9: Print D02771R02.60 TESLA 4000 User Manual 11-7...
Page 166 File>Print All Multiple Views Figure 11.11: Print All Send all the pages of all the views to the default printer. Select this option to print multiple views (visible and invisible) to the default printer. 11-8 TESLA 4000 User Manual D02771R02.60...
Page 167 Export the selected record to a user-defined format, for details see 12 Record Export Utility on page 1. File>Delete Delete the currently selected record from the tree view. This option does not clear the view associated with the record. D02771R02.60 TESLA 4000 User Manual 11-9...
Page 168 Figure 11.15: Import Choose this option to import a COMTRADE file and display a standard open file dialog box to select *.cfg COMTRADE files. Alternately, *.cfg and ERL- Phase records may be displayed through a drag-and-drop operation into the Re- cordGraph application.4...
Page 169 View>Rename Tab Renames this tab Figure 11.17: Rename Tab Replaces the name on the active view tab with one of your choices. A dialog box appears to enter the name. D02771R02.60 TESLA 4000 User Manual 11-11...
Page 170 Copy an active view to the clipboard for import to another program such as MS Word or Excel, “Record Export Utility” on page 12-1. View>Save As Metafile Save an active view page as a Windows metafile, “Record Export Utility” on page 12-1. 11-12 TESLA 4000 User Manual D02771R02.60...
Page 171 CrossHair measurement for quick readouts. When you choose this option free form zooming is disabled. Clear the line to enable free form zooming. View > Tool Bar Show or hide tool bar from the main window. D02771R02.60 TESLA 4000 User Manual 11-13...
Page 172 36 graphs. Use Add Analog Graph or the Insert key to add one graph at a time. Graph>Add Analog Graph Figure 11.22: Add Analog Graph Add an analog graph to the existing view or use the Insert key. 11-14 TESLA 4000 User Manual D02771R02.60...
Page 173 You can plot up to 32 trac- es in a single graph. Graph>Delete Graph Figure 11.24: Delete Graph Delete an active graph (click any graph to make it active) from the existing view or use the Delete key. D02771R02.60 TESLA 4000 User Manual 11-15...
Page 174 Figure 11.26: Copy Trace Copy an active trace from the selected graph. Use this option in conjunction with the paste trace option. You need at least one channel on a graph to use the copy operation. 11-16 TESLA 4000 User Manual D02771R02.60...
Page 175 In the case of Overlay View a graph can have multiple traces. You can select a trace by clicking on the channel name and use delete trace op- tion to delete the selected trace. D02771R02.60 TESLA 4000 User Manual 11-17...
Page 176 Graph>Change Trace Color Color of this trace is changed Figure 11.30: Change Trace Color Change the trace color of the selected trace. In the Overlay View this option only changes the color of the active trace. 11-18 TESLA 4000 User Manual D02771R02.60...
Page 177 When markers are placed, depending on the type of measurements option, readouts appear on the right hand side as shown corresponding to the positions of X and O markers. In case of multiple traces, the readout refers to the current- ly active (selected) trace. D02771R02.60 TESLA 4000 User Manual 11-19...
Page 178 Set scale to primary values (depending on the scale factors CT/PT ratios) on all the graphs in the currently active view. The current choice (primary or second- ary) is displayed on the status bar. 11-20 TESLA 4000 User Manual D02771R02.60...
Page 179 (the highest order harmonic included in THD depends on the sample rate). See tables 7.1 and 7.2 on page 7-6) for the active trace of the graph (see “Readouts and Measurements” on page 11-65). D02771R02.60 TESLA 4000 User Manual 11-21...
Page 180 Select this option to decrease the x axis range by 25% of the current zoom range. Scale>Zoom X Axis - Figure 11.37: Zoom X Axis - Select this option to decrease the x axis range by 25% of the current zoom range. 11-22 TESLA 4000 User Manual D02771R02.60...
Page 181 Select this option to decrease the y axis range by 25% of the current zoom range. Scale>Zoom Y Axis - Figure 11.39: Zoom Y Axis - Select this option to increase the y axis range by 25% of the current zoom range. D02771R02.60 TESLA 4000 User Manual 11-23...
Page 182 11 Graphing Records Scale>Undo Zoom Figure 11.40: Undo Zoom Display the previous zoom level. Scale>Reset Zoom Reset zoom levels Figure 11.41: Reset Zoom Reset the graphs to the initial zoom level. 11-24 TESLA 4000 User Manual D02771R02.60...
Page 183 You can set the desired scaling, save the options in the template and recall the template for other recordings (see “Templates” on page 11-57). D02771R02.60 TESLA 4000 User Manual 11-25...
Page 184 (see “Calculated Channels” on page 11-72). Options>Show Grid Figure 11.43: Show Grid Turn grid on or off on all graphs. Options>Show X Axis Ticks Figure 11.44: Show X Axis Ticks Show X axis ticks on all graphs. 11-26 TESLA 4000 User Manual D02771R02.60...
Page 185 Options>Show Legends Figure 11.45: Show Legends Show or hide legends on all the graphs. Options>Show Trigger Marker Figure 11.46: Show Trigger Marker Show or hide trigger marker on the active graph and active curve. D02771R02.60 TESLA 4000 User Manual 11-27...
Page 186 Entire data is printed in multiple pages at the current zoom level Figure 11.48: Extend Print Range Print all the channels of the view for the entire data range in the current zoom level. 11-28 TESLA 4000 User Manual D02771R02.60...
Page 187 4 decimal places Figure 11.50: Set Precision Set the precision (number of decimal places) for the readouts. In Symmetrical Component and Harmonic Views, the phase angle readout precision is always zero (no decimal places are used). D02771R02.60 TESLA 4000 User Manual 11-29...
Page 188 (if configured). A right-click menu is available to manip- ulate the tree items. Most of the tool bar buttons work in a similar way to that of the menu items explained in the previous sections. 11-30 TESLA 4000 User Manual D02771R02.60...
Page 189 Trace Information Displays/hides channel information: Date, Station Name, RecordName, Channel Name. Show/Hide Tree View Expands and minimizes RHS of the screen. Channel List Decrease Left Margin Decreases left margin. Decrease Right Margin Decreases right margin. D02771R02.60 TESLA 4000 User Manual 11-31...
Page 190: Views
Delete a View Clears active view from layout. 1. Select the View>Delete from top menu bar. A shortcut menu asks you to con- firm the deletion. 2. Click OK to confirm. Click Cancel to stop deletion. 11-32 TESLA 4000 User Manual D02771R02.60...
Page 191 Displays or hides the channel list on the left-hand side of the screen to allow more space for the graphs. List Toolbar Displays or hides the toolbar on the left-hand side of the screen to allow more space for the graphs. D02771R02.60 TESLA 4000 User Manual 11-33...
Page 192: Graphs
• Min – channel minimum value along with the unit • X – Offset-whether the x-axis has offset (time alignment) • Samples – number of samples • Sample rate –samples /second • Time Sync – time source type and synchronization status 11-34 TESLA 4000 User Manual D02771R02.60...
Page 193 2. When you release the mouse, the trace assumes new zoom position deter- mined by the area of the zoom coordinates. Drag a box around the graph area to be zoomed. Figure 11.55: Select a Section of the Graph to Zoom D02771R02.60 TESLA 4000 User Manual 11-35...
Page 194 2. Select the UndoZoom option. 3. Graphs are redrawn to the previous zoom level. 4. Select Reset Zoom option to reset the graphs to the initial zoom level. This can be chosen at any stage. 11-36 TESLA 4000 User Manual D02771R02.60...
Page 195 The keyboard is also available for zooming, setting markers and positioning Functions graphs. To display the keyboard hot key menu right-click on the graph and bring up the context menu, select Show Hotkeys option. Figure 11.58: Hot Keys D02771R02.60 TESLA 4000 User Manual 11-37...
Page 196 11 Graphing Records Right-click Context Menu Figure 11.59: Right-Click Context Menu 11-38 TESLA 4000 User Manual D02771R02.60...
Page 197 • Time line view displays read-out (if markers are on) on the RHS and chan- nel information on its LHS. • Read-out corresponds to the currently selected channel type and the scale (primary/secondary) which is displayed on the status bar. D02771R02.60 TESLA 4000 User Manual 11-39...
Page 198 (if markers are on) on the RHS and channel in- formation on its LHS. • Read-out corresponds to the currently selected channel type and the scale (primary/secondary) which is displayed on the status bar. 11-40 TESLA 4000 User Manual D02771R02.60...
Page 199 • Channel instantaneous values are displayed on the RHS of the analog graph. • Markers are permanently set on the graph one-cycle apart. • Grab the marker and move (on the time line axis) to display new set of com- ponents and phasor values. D02771R02.60 TESLA 4000 User Manual 11-41...
Page 200 • Grab the marker and move (on the time line axis) to display a new set of harmonics. All harmonic phase angles are referenced with respect to A-phase voltage in a configured channel in TESLA recorder. For COMTRADE records the first A-phase voltage is considered as the reference phase. 11-42 TESLA 4000 User Manual D02771R02.60...
Page 201 Current Low Speed (LS) Impedance (Phase and L-PRO, TESLA Sequence) To add an Impedance view select View>Add. or the Add a View tool bar but- ton. From the dialog box select Impedance View. D02771R02.60 TESLA 4000 User Manual 11-43...
Page 202 (1) View Title (3) Graph Zoom control (x-y axis zooming) (5) Time Window width and position control (4) Time Window (6) X and O markers Figure 11.65: Opening Impedance Screen 11-44 TESLA 4000 User Manual D02771R02.60...
Page 203 Zca phase-phase are calculated internally and displayed. Actual channel names (as selected from the Phases of the basic tree view) voltage and currents Graph Zoom Resolved impedance name Time Window Figure 11.66: Create Impedance View with a TESLA Record D02771R02.60 TESLA 4000 User Manual 11-45...
Page 204 Now you can resize the thumb track to a desired level of data range. In the example, the data starts at position -0.200 and ends at (-0.200 + 1.383), where 1.383 is the width (total data range). Therefore, only small portion of the data can be viewed. 11-46 TESLA 4000 User Manual D02771R02.60...
Page 205 If you move the thumb track (not resize) to the extreme end, then the traces are rendered in the new data range. Time Window control is moved to include different range of the data Time Window enlarged Figure 11.69: Time Window Control Moved to New Location D02771R02.60 TESLA 4000 User Manual 11-47...
Page 206 5%. Example to Superimpose the L-PRO Relay Characteristics Click this button to apply L-PRO relay characteristics through the impedance options dialog box Figure 11.71: Superimpose the L-PRO Relay Characteristics 11-48 TESLA 4000 User Manual D02771R02.60...
Page 207 Close Closes the dialog box. In the Relay data and impedance options dialog box check the Zone 1 to Zone 4 boxes and select the Apply button. All the four zone characteristics are super- D02771R02.60 TESLA 4000 User Manual 11-49...
Page 208 Line Impedance Blinder Impedance Figure 11.73: Example Showing the Line and Blinder Impedances Check the Z-Line and Blinder boxes; then select the Apply button to superim- pose the line and blinder impedances. 11-50 TESLA 4000 User Manual D02771R02.60...
Page 209 Figure 11.75: Example of the Line Feature Set a reference line to measure the data using the Line feature. This line is a reference line and not associated with the data values. D02771R02.60 TESLA 4000 User Manual 11-51...
Page 210 You can move the legend box and resize to the desired level. You can hide the legend box by re-selecting the legend option again. Resized legend box showing all the relay characteristics impedance names Figure 11.77: Legends Features Moved and Enlarged 11-52 TESLA 4000 User Manual D02771R02.60...
Page 211 Figure 11.79: Example of TESLA Swing Record Choosing Positive Sequence Voltage and Current Select a TESLA swing record and expand the channels. Click the positive se- quence voltage and current; RecordGraph automatically calculates and dis- plays the positive sequence impedance. D02771R02.60 TESLA 4000 User Manual 11-53...
Page 212 To select new set of voltage and current channels use the Delete trace(s) option from the right-click context menu and select new channels. If desired, you can modify or re-apply the im- pedance options. 11-54 TESLA 4000 User Manual D02771R02.60...
Page 213 RecordGraph application. • It uses both rotational and time domain-graphs to demonstrate signal and phasor data. • A maximum of 12 channels can be added to the phasor view. D02771R02.60 TESLA 4000 User Manual 11-55...
Page 214 (For example: years/months or months/days or days/ hours or hours/minutes or minutes/seconds). • Each analog graph in a trend view can display one trace. • A maximum of 32 graphs can be added per view. 11-56 TESLA 4000 User Manual D02771R02.60...
Page 215: Templates
These flexible and user-defined templates can be shared among different users. Normally (under default installation options), templates are stored on the local D02771R02.60 TESLA 4000 User Manual 11-57...
Page 216 The user-defined default template path is stored in the registry key based on the product and the type of recording (applicable for all products). For example: • TESLA/HS - high speed • TESLA/LS - low speed • TESLA/Trend - slow recordings 11-58 TESLA 4000 User Manual D02771R02.60...
Page 217 The name of the recorder IED in the template file are displayed in the tool-tip list box window when the mouse cursor is moved over it. The tool-tip also displays the product name and the user-defined default template file name, if one exists. D02771R02.60 TESLA 4000 User Manual 11-59...
Page 218 Renames the currently selected template. Duplicate Copies the contents of the selected template into another file. Delete Deletes currently selected template. Save As… Saves the selected template file from the template files list to the desired loca- tion. 11-60 TESLA 4000 User Manual D02771R02.60...
Page 219 1. Open a record from the desired IED (B-PRO, F-PRO, L-PRO, T-PRO or Single IED TESLA). 2. Create or modify the existing layout information. 3. Use Save Template as... option to save the new layout information with a de- sired template name. D02771R02.60 TESLA 4000 User Manual 11-61...
Page 220 When all IED records are pre-loaded into the RecordGraph, multiple IED templates are saved/matched based on serial number. If the record is loaded one at a time, then double-clicking on each record reapplys the template filling the respective channels. 11-62 TESLA 4000 User Manual D02771R02.60...
Page 221: View And Graph Titles
Views. The option choices are: • Record Name • Station Name • Location • Trigger Time • UnitID of Recorder • Product Type • Serial Number • Trigger Event • System Frequency • Priority D02771R02.60 TESLA 4000 User Manual 11-63...
Page 222 This option is not available for the Overlay View. The option choices are: • Channel name • Trigger time • Station name • Record name • Location • UnitID or recorder • Sample rate • Equipment ID Figure 11.90: Graph Title Options 11-64 TESLA 4000 User Manual D02771R02.60...
Page 223: Readouts And Measurements
Marker positions are saved into the template. Readout corresponding to the option chosen is displayed on the right side of the graph. Selecting trigger marker, T, displays the trigger time of the record. D02771R02.60 TESLA 4000 User Manual 11-65...
Page 224 Spin control to quickly vary the offset value Time alignment toolbar button Edit box to change the offset value. Note: Double-click here to change the offset value and the offset scale (increment) Figure 11.92: Time Alignment 11-66 TESLA 4000 User Manual D02771R02.60...
Page 225 • Year, Month, Day of the recording (yyyy/mm/dd) • Absolute Time corresponding to marker X • Absolute Time corresponding to marker O • Difference in the Absolute Time between marker X and marker O Absolute Time Figure 11.93: Absolute Time D02771R02.60 TESLA 4000 User Manual 11-67...
Page 226 4. Readout corresponding to the markers is displayed on the right-hand side of the graph including: • RMS (fundamental frequency) Title • Minimum rms • Maximum rms • Average rms Fundamental RMS Figure 11.94: Fundamental RMS 11-68 TESLA 4000 User Manual D02771R02.60...
Page 227 Readout corresponding to the markers is displayed on the right-hand side of the graph including: • True RMS Title • Minimum True RMS • Maximum True RMS • Average True RMS True RMS Figure 11.95: True RMS D02771R02.60 TESLA 4000 User Manual 11-69...
Page 228 • THD% of fundamental (the number of harmonics included in THD) depends on the sample rate. See “Sample Rates (60 Hz System Fre- quency)” on page 8-6 and “Sample Rates (50 Hz System Frequency)” on page 8-7. Harmonics Figure 11.96: Harmonics 11-70 TESLA 4000 User Manual D02771R02.60...
Page 229 4. Readout corresponding to the markers is displayed on the right-hand side of the graph including: • SymCom Title • Positive sequence component magnitude • Negative sequence magnitude • Zero sequence magnitude Symmetrical Components Figure 11.97: Symmetrical Components D02771R02.60 TESLA 4000 User Manual 11-71...
Page 230: Calculated Channels
Type and number of channels available for the view depends on the configura- tion information. Choose Options>Calculate Derived Channels Now to add the calculated chan- nels. If this option is disabled, then the calculated channels are already avail- able. 11-72 TESLA 4000 User Manual D02771R02.60...
Page 231: Exporting Views
Export active visible views to windows standard clipboard or to an enhanced metafile. Following options are available: • Copy To ClipBoard • Save As MetaFile Copy to Clipboard Save to Metafile Figure 11.99: Export Views D02771R02.60 TESLA 4000 User Manual 11-73...
Page 232: Exporting Channel Data
This option copies the trace data to the clipboard and using Edit>Paste to paste into other applications like Microsoft Word or Excel. Copy Trace Data to Clipboard Figure 11.101: Copy Trace to Clipboard 11-74 TESLA 4000 User Manual D02771R02.60...
Page 233 Pasting exported data using Microsoft Excel 1. Open Microsoft Excel. 2. Choose Edit>Paste Special. Figure 11.102: Paste Special Using Excel Pasting exported data using MicroSoft Excel Choose CSV (comma separated variable) format and click OK. Figure 11.103: Choose CSV D02771R02.60 TESLA 4000 User Manual 11-75...
Page 234: Record Summary
Domain: normally time data, it can be date YYYY/mm/dd in case of trend data. Figure 11.104: Paste to Excel 11.11 Record Summary 1. Click the record name to enable this feature. 2. Choose File>Show Record Summary… to display the record summary. Figure 11.105: Show Record Summary 11-76 TESLA 4000 User Manual D02771R02.60...
Page 235: Digital Channel Status Indicator
Active Trace Information. Additional information related to the time source (IRIG-B, SNTP, etc.) will also be available as a portion of the Time Sync status. IRIG-B status indicator Figure 11.107: Time Sync Input Status Indicator D02771R02.60 TESLA 4000 User Manual 11-77...
Page 236: Derived External And Virtual Input Channels For Tesla Swing Recordings
2. Choose File>Import. 3. Browse to select desired file. 4. Double-click on the COMTRADE record to apply <Default> template or se- lect it from the templates list box. Import file Figure 11.108: Import COMTRADE File 11-78 TESLA 4000 User Manual D02771R02.60...
Page 237 11 Graphing Records Choose COMTRADE File Figure 11.109: Select COMTRADE File Figure 11.110: Apply <Default> Template D02771R02.60 TESLA 4000 User Manual 11-79...
Page 238: Print Options
• Print... – pops-up a print option dialog box to select paper size, orientation and other options. • PrintDirect – sends active view directly to the default printer. • PrintAll – sends all the views directly to the default printer. • Print Preview…– displays standard preview window. 11-80 TESLA 4000 User Manual D02771R02.60...
Page 239: Record Export Utility
PTI version 1 or version 2 formats. Excel (CSV) TESLA records can be exported in basic comma separated values (also known as comma-delimited) ASCII format suitable for importing into standard tools such as Microsoft Excel. D02771R02.60 TESLA 4000 User Manual 12-1...
Page 240 Export button to Step 4: Choose export Step 2: Select a record launch export window. type and OK. from the list. Step 1: Double-click Records from the Main Menu Figure 12.1: Select Export File Type 12-2 TESLA 4000 User Manual D02771R02.60...
Page 241: Comtrade Format
The Header Text field contains the text written into the COMTRADE header (.hdr) file. By default, the field contains the Location, Name, Number and the Unit ID of the unit that produced the record. This text can be modified, deleted or extended as desired. D02771R02.60 TESLA 4000 User Manual 12-3...
Page 242 Delete a channel from the Exported Channel list box. << Delete all channels from the Exported Channel list box. Offset negative start When checked, this option shifts the negative time to start from times to begin at zero zero. 12-4 TESLA 4000 User Manual D02771R02.60...
Page 243: Pti Format
The Version field lets you select between PTI version 1 and version 2. Please refer to PTI documentation for details on the differences of these versions. Format Only ASCII format output files are available. Format ASCII is the only format option for PTI. D02771R02.60 TESLA 4000 User Manual 12-5...
Page 244 Delete a channel from the Exported Channel list box. << Delete all channels from the Exported Channel list box. Offset negative start times When checked, this option shifts the negative time to start from to begin at zero zero. 12-6 TESLA 4000 User Manual D02771R02.60...
Page 245: Excel (Csv) Format
There is no header text written to the Excel CSV format output file. Version There are no version options for the Excel CSV output. Format ASCII is the only format options for the Excel CSV output. D02771R02.60 TESLA 4000 User Manual 12-7...
Page 246 Delete a channel from the Exported Channel list box. << Delete all channels from the Exported Channel list box. Offset negative start times When checked, this option shifts the negative time to start from to begin at zero zero. 12-8 TESLA 4000 User Manual D02771R02.60...
Page 247: Ieee C37.232 Tsd File Naming
Figure 12.5: Time Sequence Data (TSD) Record Settings Feature activation allows local TSD Record names to be toggled between ERLPhase proprietary and C37.232 file naming structures. This does not affect records currently stored on the IED. D02771R02.60 TESLA 4000 User Manual 12-9...
Page 248 12 Record Export Utility Figure 12.6: IEEE C37.232 Filename Conversion Feature 12-10 TESLA 4000 User Manual D02771R02.60...
Page 249: Cooperative Recorder Group
13.1 How A Cooperative Recorder Group Works Local Network A cooperative recorder group is comprised of two to four TESLA 4000 record- ers, typically located in a substation control house. The recorders communicate with each other through an Ethernet LAN which allows cross-triggering be- tween recorders along with the normal record transfer, user interface and SCA- DA functions.
Page 250 Record Records are retrieved from cooperative group members and combined into a single group record by TESLA 4000 Control Panel. When you initiate a record Collection and transfer from the group's Master recorder, Control Panel automatically trans-...
Page 251 For further details on cooperative group records, see “Working With Records From a Cooperative Recording Group” on page 13-12. RecordBase RecordBase Central Station v2.0 and above can work with a TESLA 4000 co- operative recording group. RecordBase can: Central Station •...
Page 252: Setting Up A Cooperative Recording Group
Rec 2 Remote Access Rec 3 See Figure 3.6 Cooperative Mode Setup Screen Rec 4 See Figure 3.7 Records Display Direct Serial Link On-Site Access Figure 13.7: Cooperative Recording Group with Remote Access via Modem 13-4 TESLA 4000 User Manual D02771R02.60...
Page 253 IP address as shown in the follow- ing table. Table 13.1: IP address range IP addresses on the same local (first term) network 1-126 ---.xxx.xxx.xxx 128-191 ---.---.xxx.xxx 192-223 ---.---.---.xxx D02771R02.60 TESLA 4000 User Manual 13-5...
Page 254 255.255.255.0. These settings can be changed through the re- corder's Maintenance Menu. A note on PPP addresses: TESLA 4000 uses 3 pairs of IP addresses for its PPP (point to point protocol) communication; one for the front USB port, one for the rear serial / modem port, and one for communication with Re- cordBase Central Station.
Page 255 Select TESLA 3000/4000 18 Channels or select TESLA 3000/4000 36 Channels or select TESLA 3000 Cooperative Mode or select TESLA 4000 Cooperative Mode as appropriate to the hardware model. IP Address Must be the same IP address configured in the recorder in Step...
Page 256 See “Required Cooperative Mode Set- tings” on page 13-13 for the list. Step 3: 1. Create a Cooperative Group IED Definition in TESLA 4000 Control Panel. Configure the Within Control Panel, a special Cooperative Group IED is created to work Cooperative with the cooperative recording group.
Page 257 Location Should be the name and/or location of the Substation. IED Serial Number blank Model Must be TESLA 4000 – Cooperative. IP Address Blank Communication Must be Connect Through IED with the Master Recorder specified. 2. Select the cooperative recording group members.
Page 258 3. Enable cooperative recording group operation a. Click Save. TESLA 4000 Control Panel will connect to each mem- ber recorder to provide member IP addresses and enable cross-trig- gering.
Page 259 Ethernet switch. Alternatively, a di- rect serial connection with each recorder can be used. (You may need to alter the Communication mode settings in a recorder's IED Definition). D02771R02.60 TESLA 4000 User Manual 13-11...
Page 260: Working With Records From A Cooperative Recording Group
13 Cooperative Recorder Group 13.3 Working With Records From a Cooperative Recording Group Records from a cooperative recording group are managed in TESLA 4000 Control Panel in the same manner as records from individual recorders (see Chapter 9: Record and Log Management).
Page 261: Required Cooperative Mode Settings
Length > Normal Record Length) triggers is recommended to avoid multiple overlapping records in the case of near-coincident triggers. TESLA Device Configuration (Identification screen in the Configuration editor) Effect on Cooperative Operation Guideline Setting D02771R02.60 TESLA 4000 User Manual 13-13...
Page 262 Sample Rate Records with a sample rate differ- Setting must be the same on all ent from that of the Master group members Recorder’s record will be left out of the combined record group 13-14 TESLA 4000 User Manual D02771R02.60...
Page 263: Maintenance Menu And Error Handling
Usually, the fastest possible baud rate is chosen to maximize your modem's compression ca- pabilities. • For a network link, only the Emulation and Font settings from the table are relevant. D02771R02.60 TESLA 4000 User Manual 14-1...
Page 264 5. At the login prompt, log in as “maintenance” • Lower case • No password is required. If you are asked for one, there is a mistake in the login name. Press Enter to get another Login prompt and try again. 14-2 TESLA 4000 User Manual D02771R02.60...
Page 265 Saves any accumulated Trend Data that hasn’t yet been saved to disk. This should be executed prior to [7] Force Hardware Reset if trend logging is enabled. 11 Storage memory utilities Enter storage memory utilities sub-menu. D02771R02.60 TESLA 4000 User Manual 14-3...
Page 266 Enable or disable TCP packets forwarding. forwarding Enable or disable Port 2000 Toggle Port 2000/Port 7631 configuration. Network redundancy Configure network redundancy options. configuration Exit network utilities Exit network utilities menu and return to maintenance menu commands. 14-4 TESLA 4000 User Manual D02771R02.60...
Page 267: Error Handling
A hardware reset takes approximately a minute and half to com- plete. If the problem is not cleared after four consecutive reset attempts, the unit enters the Persistent Error state. In this state, the recorder activates its fail- D02771R02.60 TESLA 4000 User Manual 14-5...
Page 268 Alarm LED ON Failure Contact CLOSED Diagnostic The recorder has an internal log file to aid in problem diagnosis. The log can Tools be viewed from the Maintenance Menu (see below). As well, a full diagnostic 14-6 TESLA 4000 User Manual D02771R02.60...
Page 269 PC, where it can be e-mailed to ERLPhase customer support for analysis. The Maintenance menu also has tools to help diagnose SCADA problems and network communication problems. D02771R02.60 TESLA 4000 User Manual 14-7...
Page 271: Pmu Functionality
Description To transmit the PMU data reliably, you must connect to the IRIG-B signal from a Global Positioning System (GPS) clock or receiver to the TESLA 4000. The GPS signal must comply with the specification as mentioned in the IEEE C37.118 standard.
Page 272: Tesla 4000 Pmu Features
15 PMU Functionality 15.2 TESLA 4000 PMU Features Phasor Assuming IRIG-B signal from a reliable GPS receiver as per C37.118 standard Estimation Annex E section E1, the PMU functional module estimates the phasor using the DFT algorithm. The phasor magnitude and phase angle, once estimated, is compensated for the frequency variation over a wide range (+ / -60% of the nominal system frequency).
Page 273 Table 15.1: Unit Codes for Analog Data Code Unit kvar Mvar ohms degrees Digital Status There are up to 32/64 digital (contact) channels per TESLA 4000 recorder that Data can be streamed to a remote PDC (PMU Data Concentrator). D02771R02.60 TESLA 4000 User Manual 15-3...
Page 274 As per IEEE C37.118 standard - Level 1, “PMU Standard - Level 1” on Frequency page 15-5. Variation Signal As per IEEE C37.118 standard - Level 1, “PMU Standard - Level 1” on Magnitude page 15-5. 15-4 TESLA 4000 User Manual D02771R02.60...
Page 275 This is available on the CD titled TESLA 4000. Calibration TESLA 4000 Power System Recorder voltage and/or current input modules are optional and a variety of input modules for voltage and current inputs are available, therefore, you must calibrate the input modules. The PMU calibra- tion requires both the magnitude and phase angle calibration at nominal signal level.
Page 276 TVE < 1% as per C37.118 standard. Phase angle calibration is required for all analog channels used in the PMU phasor configuration. Phase angle cali- bration is required when ever the input module and / or the TESLA recorder sample rate are changed. 15-6 TESLA 4000 User Manual D02771R02.60...
Page 277: Communication With The Pmu
Either modem is usable for either role. Connect to a TESLA unit and click on the Communication tab. Usually PMU data is transmitted through the Ethernet (copper or fiber). Figure 15.3: PMU communication setup screen D02771R02.60 TESLA 4000 User Manual 15-7...
Page 278 57600 bit/s, 20 f/s is the maximum setting without failing. 2. For the maximum stream rate = 60 frames/second: at baud rate = 57600 bit/ s, the maximum number of phasors can be supported without failing is 18. 15-8 TESLA 4000 User Manual D02771R02.60...
Page 279 • Number of PDC Clients: This option allows user to set the number of DC clients that can connect to the recorder simultaneously. This option is con- figurable only if the Mode is Network (TCP). TESLA 4000 recorder sup- ports up to two dc clients.
Page 280: Pmu Configuration
After you check the PMU Module, select OK to accept the changes, then select the Configuration option to open the configuration view. Select an existing configuration file by double-clicking on the file and the following screen ap- pears. 15-10 TESLA 4000 User Manual D02771R02.60...
Page 281 Right-click on the Channel Group1 to display the choice to add a PMU as shown below. Figure 15.6: Invoking PMU configuration through right-click menu and select Angle Reference to PMU(GPS,1PPS) Select the PMU choice and the following screen appears allowing you to select the Phasors. D02771R02.60 TESLA 4000 User Manual 15-11...
Page 282 PDC. Analog, PMU and Frequency data formats may be user configured to provide information in Integer or Floating Point form. 1.For details see “Model Options” on page 1-5. 15-12 TESLA 4000 User Manual D02771R02.60...
Page 283 You must select at least one phasor channel in order for the PMU to report the phasor information in real time. 1.For details see “Model Options” on page 1-5. D02771R02.60 TESLA 4000 User Manual 15-13...
Page 284 Data Concentrator. Note that the saved PMU configuration is automatically used in the PMU me- tering display, when this file is loaded on the TESLA 4000 DFR. Use Save/Close option to save the PMU information in the setting file for later retrieval and/or loading into TESLA 4000 DFR.
Page 285 After you check the PMU Module, select Save IED definition to accept the changes, then select the Configuration option to open the configuration view. Select an existing configuration file by double-clicking on the file and the fol- lowing screen appears. D02771R02.60 TESLA 4000 User Manual 15-15...
Page 286 Right-click on the Channel Group1 to display the choice to add a PMU as shown below. Figure 15.10: : Invoking PMU configuration through right-click menu and select Angle Reference to PMU(GPS,1PPS) Select the PMU choice and the following screen appears allowing you to select the Phasors. 15-16 TESLA 4000 User Manual D02771R02.60...
Page 287 • Header Frame Text - you can enter comments up to 80 characters using this option. The default value is blank. • The tree view displays the phasor channels available for the PMU reporting under each channel group. D02771R02.60 TESLA 4000 User Manual 15-17...
Page 288 • Use Save/Close option to save the PMU information in the setting file for later retrieval and/or loading into TESLA 4000 DFR. Note that the saved PMU configuration is automatically used in the PMU me- tering display, when this file is loaded on the TESLA 4000 DFR that supports the PMU feature. 15-18 TESLA 4000 User Manual D02771R02.60...
Page 289: Pmu Metering
10th user-defined metering group. This means, if the setting file already has 10 user-defined Metering groups, the PMU metering replaces the last (10th) me- tering group. Hence the total number of user-defined Metering groups avail- able will be 9 instead of 10. D02771R02.60 TESLA 4000 User Manual 15-19...
Page 290: Maintenance And Error Handling
• No password is required. If you are asked for one, there is a mistake in the login name. Select Enter to get another login prompt and try again. When you get the display of maintenance menu choice, choose 15 for PMU di- agnostics as shown below. 15-20 TESLA 4000 User Manual D02771R02.60...
Page 291 Figure 15.13: Terminal User Interface depicting options under Maintenance When you select enter, data frame stream is displayed as shown below in hexa- decimal format. Figure 15.14: Display of PMU Data Stream in hexadecimal format D02771R02.60 TESLA 4000 User Manual 15-21...
Page 292 Figure 15.16: Diagnostic response to Configuration frame request from the PDC The IEEE C37.118 standard protocol itself has number of diagnostics and/or health check messages, which can be read and analyzed. The description of these diagnostic fields is found in IEEE C37.118 standard 15-22 TESLA 4000 User Manual D02771R02.60...
Page 293: Appendix A Specifications
Pollution Degree 2 Ingress Protection IP30 standard Insulation Class Class I Weight TESLA 4000 18 channel: 16.7 lbs (7.6 kg) TESLA 4000 36 channel: 17.8 lbs (8.1 kg) Dimensions 3U high (5.25"), 19" wide, 12.725" deep Rack mount Nominal Frequency...
Page 294 Appendix A Specifications TESLA 4000 Power System Recorder Record Storage Standard Capacity with 4GB flash up to 1000 2-sec- ond fault records with all 36 channels sampled at 96 samples/cycle channels or a combination of fault and swing records. Extended Capacity flash up to 1000 5-second fault...
Page 295 Appendix A Specifications TESLA 4000 Power System Recorder Continuous Disturbance Recording (CDR) Continuous Disturbance 6 to 60 RMS records/second for up to 36 channels Can store from 10 to 140 days of continu- Recording (CDR) ous records. Standard Capacity min. 10 days data retention below 30 RMS records/second on all 36 channels.
Page 296 Appendix A Specifications TESLA 4000 Power System Recorder Inputs and Outputs Remote Analog Input 4 input current module, 3 or 4 input voltage module Modules mount up to 1200 meters (4000 Modules or 4 input dc isolation module and split-core CTs.
Page 297 Appendix A Specifications TESLA 4000 Power System Recorder Conducted RF Immunity IEC 61000-4-6 Level 3, IEC 60255-22-6 Level 3 Radiated RF Susceptibility IEC 61000-4-6 Level 3, IEC 60255-22-3 Level 3 Electrical Fast Transient/ IEC 61000-4-4 Level 4 (4 kV), IEC 60255-22-4 Class...
Page 298 Appendix A Specifications TESLA 4000 Power System Recorder Detailed Environmental Tests Description Test Test Level Type Test Test Points IEC/EN 60068-2-1 Cold Temperature -40C for 16 hours IEC/EN 60068-2-2 Hot Temperature -85C for 16 hours IEC/EN 60068-2-30 Humidity Cycle 55C/93% RH and 25C/95%...
Page 299 Appendix A Specifications TESLA 4000 Power System Recorder Detailed Environmental Tests IEC/EN 61000-4-11 Voltage Dips & Interrupts Power Port – AC applied 40% for 10/12 cycles, 70% for IEC/EN 61000-4-29 10/12 cycles, 100% for 250/ 300 cycles IEC 60255-11 Voltage Dips & Interrupts Power Port –...
Page 301: Appendix B Tesla Hardware Description
Flash. Extended capacity options are available and may vary according to specifications. Front Panel The Front Panel Board provides visual indication of the status of the TESLA Board recorder and USB and network ports. 1.For details see “Model Options” on page 1-5. D02771R02.60 TESLA 4000 User Manual Appendix B-1...
Page 303: Appendix C Glossary
Cooperative Recording A set of TESLA 4000 recorders that work together to form a larger virtual recorder. Group DC Input Module An external input module that can be scaled to accept a wide range of voltage or current signals.
Page 304 A situation that can initiate a recording. Universally Coordinated Time. Approximately equivalent to Greenwich Mean Time (GMT). A universal time maintained by time standards bodies worldwide. All local times are expressed as an offset from UTC. Appendix C-2 TESLA 4000 User Manual D02771R02.60...
Page 305: Appendix D Modbus Functions
1: On (active) Logic Detector 17 00785 0: Off (inactive) 1: On (active) Logic Detector 18 00786 0: Off (inactive) 1: On (active) Logic Detector 19 00787 0: Off (inactive) 1: On (active) D02771R02.60 TESLA 4000 User Manual Appendix D-1...
Page 306 1: On (active) External I/P 17 10017 0: Off (inactive) 1: On (active) External I/P 18 10018 0: Off (inactive) 1: On (active) External I/P 19 10019 0: Off (inactive) 1: On (active) Appendix D-2 TESLA 4000 User Manual D02771R02.60...
Page 307 1: On (active) External I/P 57 10057 0: Off (inactive) 1: On (active) External I/P 58 10058 0: Off (inactive) 1: On (active) External I/P 59 10059 0: Off (inactive) 1: On (active) D02771R02.60 TESLA 4000 User Manual Appendix D-3...
Page 308 0: Off (no change) 1: On (change) External I/P 34 Change latch 10290 0: Off (no change) 1: On (change) External I/P 35 Change latch 10291 0: Off (no change) 1: On (change) Appendix D-4 TESLA 4000 User Manual D02771R02.60...
Page 309 Tesla Clock Time (UTC). Read all in same query to ensure consistent time reading data Milliseconds Now 40001 * Millisecond information not supported. Seconds Now 40002 0-59 Minutes Now 40003 0-59 Hours Now 40004 0-23 D02771R02.60 TESLA 4000 User Manual Appendix D-5...
Page 310 0 to 3276.7 units AI9 Angle 40274 -180° to 180° AI10 Magnitude 40275 0 to 3276.7 units AI10 Angle 40276 -180° to 180° AI11 Magnitude 40277 0 to 3276.7 units AI11 Angle 40278 -180° to 180° Appendix D-6 TESLA 4000 User Manual D02771R02.60...
Page 311 0 to 3276.7 units AI29 Angle 40314 -180° to 180° AI30 Magnitude 40315 0 to 3276.7 units AI30 Angle 40316 -180° to 180° AI31 Magnitude 40317 0 to 3276.7 units AI31 Angle 40318 -180° to 180° D02771R02.60 TESLA 4000 User Manual Appendix D-7...
Page 312 0 to 327.67% AI8 DC* 40536 -3276.8 to 3276.7 units AI9 THD 40537 0 to 327.67% AI9 SHL 40538 0 to 327.67% AI9 DC* 40539 -3276.8 to 3276.7 units AI10 THD 40540 0 to 327.67% Appendix D-8 TESLA 4000 User Manual D02771R02.60...
Page 313 -3276.8 to 3276.7 units AI22 THD 40576 0 to 327.67% AI22 SHL 40577 0 to 327.67% AI22 DC* 40578 -3276.8 to 3276.7 units AI23 THD 40579 0 to 327.67% AI23 SHL 40580 0 to 327.67% D02771R02.60 TESLA 4000 User Manual Appendix D-9...
Page 314 0 to 327.67% AI35 SHL 40616 0 to 327.67% AI35 DC* 40617 -3276.8 to 3276.7 units AI36 THD 40618 0 to 327.67% AI36 SHL 40619 0 to 327.67% AI36 DC* 40620 -3276.8 to 3276.7 units Appendix D-10 TESLA 4000 User Manual D02771R02.60...
Page 315 SUM18 Magnitude 40803 0 to 3276.7 units SUM18 Angle 40804 -180° to 180° SUM19 Magnitude 40805 0 to 3276.7 units SUM19 Angle 40806 -180° to 180° SUM20 Magnitude 40807 0 to 3276.7 units D02771R02.60 TESLA 4000 User Manual Appendix D-11...
Page 316 41038 0 to 3276.7 units SEQ5 Zero 41039 0 to 3276.7 units SEQ6 Positive 41040 0 to 3276.7 units SEQ6 Negative 41041 0 to 3276.7 units SEQ6 Zero 41042 0 to 3276.7 units Appendix D-12 TESLA 4000 User Manual D02771R02.60...
Page 317 41297 -3276.8 to 3276.7 Var WV6 S 41298 0 to 3276.7 VA WV7 P 41299 -3276.8 to 3276.7 W WV7 Q 41300 -3276.8 to 3276.7 Var WV7 S 41301 0 to 3276.7 VA D02771R02.60 TESLA 4000 User Manual Appendix D-13...
Page 318 5/6 f_nominal to 7/6 nominal fre- quency Channel Group 2 Frequency 41538 5/6 f_nominal to 7/6 nominal fre- quency Impedance Metering Channels Impedance 1Magnitude 41793 0 to 3276.7 ohm Impedance 1 Angle 41794 -180° to 180° Appendix D-14 TESLA 4000 User Manual D02771R02.60...
Page 319 Event Information (See Accessing 42052 – 42144 TESLA Event Information below) Length (in 16 bit registers) of the cur- 42052 rent event message Event Identification 42053 Event Message 42054–42137 Fault Locator ID 42138 D02771R02.60 TESLA 4000 User Manual Appendix D-15...
Page 320 When inactive, coil, input and holding register values will read their most recently avail- able state. Channel Type Address Value Hold Readings Read/Write 0000: Readings update normally (inactive) FF00: Hold readings (active) Appendix D-16 TESLA 4000 User Manual D02771R02.60...
Page 321 Get Next Event (Function Code 6, address 42051): Places the next event in the read registers without acknowledging the current event. The current event will reappear in the list when Refresh Event List is used. D02771R02.60 TESLA 4000 User Manual Appendix D-17...
Page 322 ‘p’, ‘2’ 42058 0x31 0x20 ‘1’, ‘ ’ 42059 0x32 0x30 ‘2’, ‘0’ 42060 0x3A 0x31 ‘:’, ‘1’ 42061 0x36 0x3A ‘6’, ‘:’ 42062 0x31 0x36 ‘1’, ‘6’ 42063 0x2E 0x39 ‘.’, ‘9’ Appendix D-18 TESLA 4000 User Manual D02771R02.60...
Page 323 ‘B’, ‘G’ 42074 0x20 0x33 ‘ ’, ‘3’ 42075 0x39 0x2E ‘9’, ‘.’ 42076 0x37 0x20 ‘7’, ‘ ‘ 42077 0x6D 0x69 ‘m’, ‘i’ 42078 0x6C 0x65 ‘l’, ‘e’ 42079 0x73 0x00 ‘s’ D02771R02.60 TESLA 4000 User Manual Appendix D-19...
Page 325: Appendix E Dnp3 Device Profile
Supported Function Self-Address Reservation  Blocks:  Object 0 - attribute objects  Data Sets  File Transfer Virtual Terminal   Mapping to IEC 61850 Object Models defined in a DNP3 XML file D02771R02.60 TESLA 4000 User Manual Appendix E-1...
Page 326 *The Device Profile Config. Values contains only the Current Value column. 1.1.13 Connections  Serial (complete section 1.2) Supported: IP Networking (complete section 1.3)   Other, explain ______________________ Appendix E-2 TESLA 4000 User Manual D02771R02.60...
Page 327 Not Supported Status:  Fixed at_________ seconds  Configurable, range _____ to ______ seconds  Configurable, selectable from __,__,__ seconds  Configurable, other, describe______________ 1.2.6 Supports DNP3  Collision Avoidance:  Yes, explain ______________________ D02771R02.60 TESLA 4000 User Manual Appendix E-3...
Page 328 Configurable, Selectable from ___, ___, ___ ms  Configurable, other, describe______________  Variable, explain ____ 1.2.8 Inter-character gaps in  None (always transmits with no inter-character transmission: gap)  Maximum _____ bit times  Maximum _____ ms Appendix E-4 TESLA 4000 User Manual D02771R02.60...
Page 329 1.3.13 Destination UDP port  None for initial unsolicited null  Fixed at 20,000 responses (UDP only  Configurable, range _______ to _______ Outstations):  Configurable, selectable from ____,____,____  Configurable, other, describe______________ D02771R02.60 TESLA 4000 User Manual Appendix E-5...
Page 330 Method 3 (browsing for static data) - optional 1.3.16 Time synchronization  DNP3 LAN procedure (function code 24) support:  DNP3 Write Time (not recommended over LAN)  Other, explain _________________________  Not Supported Appendix E-6 TESLA 4000 User Manual D02771R02.60...
Page 331 1.4.9 Maximum number of  Fixed at 292 octets that can be  Configurable, range ________ to _______ Received in a Data Link Configurable, selectable from ____,____,____  Frame:  Configurable, other, describe______________ D02771R02.60 TESLA 4000 User Manual Appendix E-7...
Page 332  Variable, explain _______________________ 1.5.8 Supports mixing object  Not applicable - controls are not supported Analog Outputs groups (AOBs, CROBs  not supported and Data Sets) in the  same control request: Appendix E-8 TESLA 4000 User Manual D02771R02.60...
Page 333 • Separate buffer for the Fault Locator events, size 100. 1.6.7 Sends Multi-Fragment  Responses:  1.6.8 DNP Command  Assign Class Not supported Settings preserved  Analog Deadbands through a device reset:  Data Set Prototypes  Data Set Descriptors D02771R02.60 TESLA 4000 User Manual Appendix E-9...
Page 334 Appendix E DNP3 Device Profile 1.7 Outstation Unsolicited If configurable, Capabilities Current Value Response Support list methods 1.7.1 Supports Unsolicited  Not Supported Reporting:  Configurable, selectable from On and Off Appendix E-10 TESLA 4000 User Manual D02771R02.60...
Page 335 1.8.8 Maximum Event Time- • 0.1736 ms for tag error for local I/O 60Hz sys- other than Binary and tems Double-bit data types • 0.2083 ms for (ms): 50 Hz sys- tems D02771R02.60 TESLA 4000 User Manual Appendix E-11...
Page 336 Description Index (1, 2, 3 or none) value is 0 value is 1 External Input 1 Inactive Active External Input 2 Inactive Active External Input 3 Inactive Active External Input 4 Inactive Active Appendix E-12 TESLA 4000 User Manual D02771R02.60...
Page 337 External Input 31 Inactive Active External Input 32 Inactive Active External Input 32 Inactive Active External Input 34 Inactive Active External Input 35 Inactive Active External Input 36 Inactive Active External Input 37 Inactive Active D02771R02.60 TESLA 4000 User Manual Appendix E-13...
Page 338 Inactive Active for Fault Locator 1 Fault Information Available Inactive Active for Fault Locator 2 Fault Information Available Inactive Active for Fault Locator 3 Fault Information Available Inactive Active for Fault Locator 4 Appendix E-14 TESLA 4000 User Manual D02771R02.60...
Page 339 Active Logic 17 Inactive Active Logic 18 Inactive Active Logic 19 Inactive Active Logic 20 Inactive Active Logic 21 Inactive Active Logic 22 Inactive Active Logic 23 Inactive Active Logic 24 Inactive Active D02771R02.60 TESLA 4000 User Manual Appendix E-15...
Page 340 Output Contact 3 Inactive Active 110* Output Contact 4 Inactive Active 111* Output Contact 5 Inactive Active 112* Output Contact 6 Inactive Active 113* Output Contact 7 Inactive Active 114* Output Contact 8 Inactive Active Appendix E-16 TESLA 4000 User Manual D02771R02.60...
Page 341 Complete list is TESLA Control Output Status/Control  Configurable shown in the Panel relay output block  Other, explain_____________________ table below; (CROB) Point List: points excluded from the default configuration are marked with '*' D02771R02.60 TESLA 4000 User Manual Appendix E-17...
Page 342 Inactive Active None None Pulse duration fixed Information Event at 1 for Fault Locator 5 Retrieve Next Fault Inactive Active None None Pulse duration fixed Information Event at 1 for Fault Locator 6 Appendix E-18 TESLA 4000 User Manual D02771R02.60...
Page 343 Inactive Active None None Pulse duration fixed Information Event at 1 for Fault Locator 9 Retrieve Next Fault Inactive Active None None Pulse duration fixed Information Event at 1 for Fault Locator 10 D02771R02.60 TESLA 4000 User Manual Appendix E-19...
Page 344 2.3.7 Definition of Analog  Fixed, list shown in table below Default list is TESLA Control Input Point List:  Configurable shown in table Panel  Other, explain_____________________ below Appendix E-20 TESLA 4000 User Manual D02771R02.60...
Page 345 Analog Input 1 Configurable 0.01 / (0.01- 1.0) 0.01/0.01 Analog Input 1 SHL 2 Configurable 0.01 / (0.01- 1.0) 0.01/0.01 Analog Input 1 DC Configurable 0.1 / (0.00001- 1.0) Configurable 0.1 / 0.00001 D02771R02.60 TESLA 4000 User Manual Appendix E-21...
Page 346 Analog Input 8 SHL 2 Configurable 0.01 / (0.01- 1.0) 0.01/0.01 Analog Input 8 DC Configurable 0.1 / (0.00001- 1.0) Configurable 0.1 / 0.00001 Analog Input 9 Configurable 0.1 / (0.00001- 1.0) Configurable 0.1 / 0.00001 Magnitude Appendix E-22 TESLA 4000 User Manual D02771R02.60...
Page 347 0.1 / (0.00001- 1.0) Configurable 0.1 / 0.00001 Magnitude Analog Input 15 -18,000 18,000 0.1 / (0.01 - 1.0) degrees 0.1 / 0.01 Angle Analog Input 15 Configurable 0.01 / (0.01- 1.0) 0.01/0.01 D02771R02.60 TESLA 4000 User Manual Appendix E-23...
Page 348 Transmitted Value Scaling Default Class Resolution Assigned to Multiplier (default/ Name Minimum Offset Units Description Maximum Events (default/ (range)) maximal) (1, 2, 3 or none) Analog Input 15 Configurable 0.01 / (0.01- 1.0) 0.01/0.01 Analog Input 15 Configurable 0.1 / (0.00001- 1.0) Configurable 0.1 / 0.00001 Analog Input 16...
Page 349 0.1 / 0.01 Angle Analog Input 27 Configurable 0.01 / (0.01- 1.0) 0.01/0.01 Analog Input 27 Configurable 0.01 / (0.01- 1.0) 0.01/0.01 Analog Input 27 Configurable 0.1 / (0.00001- 1.0) Configurable 0.1 / 0.00001 D02771R02.60 TESLA 4000 User Manual Appendix E-25...
Page 350 Analog Input 33 Configurable 0.01 / (0.01- 1.0) 0.01/0.01 Analog Input 33 Configurable 0.1 / (0.00001- 1.0) Configurable 0.1 / 0.00001 Analog Input 34 Configurable 0.1 / (0.00001- 1.0) Configurable 0.1 / 0.00001 Magnitude Appendix E-26 TESLA 4000 User Manual D02771R02.60...
Page 351 0.1 / (0.00001- 1.0) Configurable 0.1 / 0.00001 Magnitude Summation 8 -18,000 18,000 0.1 / (0.01 - 1.0) degrees 0.1 / 0.01 Angle Summation 9 Configurable 0.1 / (0.00001- 1.0) Configurable 0.1 / 0.00001 Magnitude D02771R02.60 TESLA 4000 User Manual Appendix E-27...
Page 352 0.1 / (0.01 - 1.0) degrees 0.1 / 0.01 Angle Summation 24 Configurable 0.1 / (0.00001- 1.0) Configurable 0.1 / 0.00001 Magnitude Summation 24 -18,000 18,000 0.1 / (0.01 - 1.0) degrees 0.1 / 0.01 Angle Appendix E-28 TESLA 4000 User Manual D02771R02.60...
Page 353 0.1 / (0.00001- 1.0) Configurable 0.1 / 0.00001 6 Negative Sequence Function Configurable 0.1 / (0.00001- 1.0) Configurable 0.1 / 0.00001 6 Zero Sequence Function Configurable 0.1 / (0.00001- 1.0) Configurable 0.1 / 0.00001 7 Positive D02771R02.60 TESLA 4000 User Manual Appendix E-29...
Page 354 0.1 / 0.00001 tion 4 S Watts/Vars Func- Configurable 0.1 / (0.00001- 1.0) 0.1 / 0.00001 tion 5 P Watts/Vars Func- Configurable 0.1 / (0.00001- 1.0) MVAR 0.1 / 0.00001 tion 5 Q Appendix E-30 TESLA 4000 User Manual D02771R02.60...
Page 355 0.1 / 0.00001 tion 15 P Watts/Vars Func- Configurable 0.1 / (0.00001- 1.0) MVAR 0.1 / 0.00001 tion 15 Q Watts/Vars Func- Configurable 0.1 / (0.00001- 1.0) 0.1 / 0.00001 tion 15 S D02771R02.60 TESLA 4000 User Manual Appendix E-31...
Page 356 0.1 / 0.01 tion 9 Angle Impedance Func- Configurable 0.1 / (0.00001- 1.0) 0.1 / 0.00001 tion 10 Mag Impedance Func- -18,000 18,000 0.1 / (0.01 - 1.0) degrees 0.1 / 0.01 tion 10 Angle Appendix E-32 TESLA 4000 User Manual D02771R02.60...
Page 357 Function 11 Level Power Factor none 0.01 0.01 Function 12 Level Power Factor none 0.01 0.01 Function 13 Level Power Factor none 0.01 0.01 Function 14 Level Power Factor none 0.01 0.01 Function 15 Level D02771R02.60 TESLA 4000 User Manual Appendix E-33...
Page 358 DNP Time - High how to access Fault Infor- 16 bits mation Fault Information - none 65,535 DNP Time - Middle 16 bits Fault Information - none 65,535 DNP Time - Low 16 bits Appendix E-34 TESLA 4000 User Manual D02771R02.60...
Page 359 Configurable Configurable Distance Fault Information - none Type Fault Locator 9 Fault Information - none 65,535 See note #4 above on DNP Time - High how to access Fault Infor- 16 bits mation D02771R02.60 TESLA 4000 User Manual Appendix E-35...
Page 360 Maximal values are calculated as (2 * Configured Nominal / Multiplier) for voltage channels and as (20 * Configured Nominal / Multiplier) for current channels (see Note 2 above for the nominal definitions). Appendix E-36 TESLA 4000 User Manual D02771R02.60...
Page 361 0x2E 0x39 0x36 0x36 0x20 0x3A 0x20 0x4C 0x69 0x6E 0x65 0x20 0x31 0x36 0x3A 0x46 0x4C 0x6F 0x63 0x20 0x42 0x47 0x20 0x33 0x39 0x2E 0x37 0x20 0x6D 0x69 0x6C 0x65 0x73 D02771R02.60 TESLA 4000 User Manual Appendix E-37...
Page 362 Echo of request output block (CROB) (operate) (direct op) (dir. op, no ack) Counter - Any Variation (read) 06 (no range, or all) (response) (freeze) ( freeze noack) (freeze clear) (frz. cl. noack) Appendix E-38 TESLA 4000 User Manual D02771R02.60...
Page 363 (response) 17, 28 (index) 07, 08 (limited qty) Analog Output Status - Any Varia- (read) 06 (no range, or all) (response) tion Analog Output Status - 16-bit with (response) 00, 01 (start-stop) flag D02771R02.60 TESLA 4000 User Manual Appendix E-39...
Page 364 (read) 06 (no range, or all) (response) (limited qty) No Object (function code only) (cold restart) (response) No Object (function code only) (warm restart) (response) No Object (function code only) (delay meas.) (response) Appendix E-40 TESLA 4000 User Manual D02771R02.60...
Page 365: Appendix F Input Modules
401006 69Vac Isolated Neutral Plastic Figure F.1: 114154 401026 69Vac Isolated Neutral Metal Figure F.2: 114258 401026 69Vac Isolated Neutral Rack Metal Figure F.3: 114259 401026 69Vac Isolated Neutral Surface Metal Figure F.4: D02771R02.60 TESLA 4000 User Manual Appendix F-1...
Page 366 Installing Modules into Rack Mount Plate on page Appendix F-7 shows how to install the modules into the plate. Use 4 #10 or M6 screws to mount the rack mount plate into the 19 inch rack. Appendix F-2 TESLA 4000 User Manual D02771R02.60...
Page 367 AC 3 Channel Isolated Voltage Input Module Nominal: 69 Vrms Ratio (1K load): 138 Vrms : 1.675 Vrms 138 Vrms continuous Max: 207 Vrms for 10 seconds Figure F.1: Part No 101756 3 Channel AC Voltage Input Module D02771R02.60 TESLA 4000 User Manual Appendix F-3...
Page 368 Appendix F Input Modules 5.400 3.180 1.352 .794 1.906 6.007 .095 5.230 2.180 Figure F.2: Part No 114154 4 Channel AC Voltage Input Module – DIN Mount Appendix F-4 TESLA 4000 User Manual D02771R02.60...
Page 369 Appendix F Input Modules 2x ¯ .156 2x ¯ .330 5.400 5.889 5.230 2.180 Figure F.3: Part No 114258 4 Channel AC Voltage Input Module – Rack Mount D02771R02.60 TESLA 4000 User Manual Appendix F-5...
Page 370 Appendix F Input Modules 5.400 3.000 1.200 .260 .400 3.180 2.660 4x ¯ .400 4x ¯ .188 5.889 5.230 2.180 Figure F.4: Part No 114259 4 Channel AC Voltage Input Module – Surface Mount Appendix F-6 TESLA 4000 User Manual D02771R02.60...
Page 371 Figure F.5: Part No 114248 2U Module Rack Mount Plate TOP LEFT REAR VIEW VIEW Note screw/hole alignment STEP 1 Note screw/hole alignment STEP 2 Note screw/hole alignment STEP 3 Figure F.6: Installing Modules into Rack Mount Plate D02771R02.60 TESLA 4000 User Manual Appendix F-7...
Page 372: Ac Current Input Module
The shield of the cable should be connected to ground where the cable enters the panel in which the TESLA is located. Refer to “AC Voltage Input Module” on page Appendix F-1 for rack mount in- stallation instructions. Appendix F-8 TESLA 4000 User Manual D02771R02.60...
Page 373 1 second Table F.5: Full Scale Rating Adjustment Full Scale Shunt Resistor (Rsh) 10x In Rsh = 0 ohms (short) 20x In Rsh = 1500 ohms (default) 40x In Rsh = open (empty) D02771R02.60 TESLA 4000 User Manual Appendix F-9...
Page 374 Nominal: 5 Arms Ratio (1K load): 100 Arms : 1.580 Vrms 15 Arms continuous Max: 200 Arms for 1 second Figure F.7: Part No 101754, 101955 and 110739 - AC Current Input Module Appendix F-10 TESLA 4000 User Manual D02771R02.60...
Page 375 Appendix F Input Modules 5.400 3.180 1.352 .794 1.906 6.007 .095 5.230 2.180 Figure F.8: Part No 114153 AC Current Input Module - DIN Mount D02771R02.60 TESLA 4000 User Manual Appendix F-11...
Page 376 Appendix F Input Modules 2x ¯ .156 2x ¯ .330 5.400 5.889 5.230 2.180 Figure F.9: Part No 114260 AC Current Input Module - Rack Mount Appendix F-12 TESLA 4000 User Manual D02771R02.60...
Page 377 Appendix F Input Modules 5.400 3.000 1.200 .260 .400 3.180 2.660 4x ¯ .400 4x ¯ .188 5.889 5.230 2.180 Figure F.10: Part No 114261 AC Current Input Module - Surface Mount D02771R02.60 TESLA 4000 User Manual Appendix F-13...
Page 378: Split Core Ct
F.3 Split Core CT The Split Core CT is designed to clamp around the secondary circuit wires from the primary current transformers. It is intended for situations where an outage is not possible to connect an in-line CT. The Split Core CT has the same characteristics as the standard AC Current In- put Module.
Page 379: Dc Input Module
2 Watts dissipation and up to 350 Volt drop. Values of 4.99  to 1 M are available in this series - for higher values, use two resistors of appropriate value in series. D02771R02.60 TESLA 4000 User Manual Appendix F-15...
Page 380 200 V to 600 Vrms full scale 106243 Model 401016 Direct input from transducers: 1 to 500 mA dc Current Mode full scale ac or dc from high current shunts (mV)0.1 to 1000 mV (ac ordc) across the shunt Appendix F-16 TESLA 4000 User Manual D02771R02.60...
Page 381 Appendix F Input Modules Model: 401016 S/N: TESLA Input Module DC 4 Channel Isolated Input Module Low Range: 350Vdc / 250Vac continuous Max: High Range: 1000Vdc / 700Vac continuous Figure F.13: DC Input Module D02771R02.60 TESLA 4000 User Manual Appendix F-17...
Page 382 0  ± 350 10.0 k 1.5 M High Range 350 V to 880 V dc FS 0  ± 500 3.48 k 1.5 M 0  ± 880 1 MW 2 M Input Appendix F-18 TESLA 4000 User Manual D02771R02.60...
Page 383 200 V to 600 V rms FS 0  1.5 M  9.53 k (for 120 V) 0  1.6 M  121 k (for 240 V) 0  1.9 M  750 k 1 W Input D02771R02.60 TESLA 4000 User Manual Appendix F-19...
Page 384 0  1.00 M 10 k 0.1 V to 1 V rms FS 0  237 k 10 k 0  64.9 k 10 k 0  23.7 k 10 k External Shunt Current Appendix F-20 TESLA 4000 User Manual D02771R02.60...
Page 385 The values are not linear, but are instead approximately equal percentages apart from each other. Each value is related to the next by a ratio of approxi- mately the Nth root of 10, where “N” is the series number (3 to 192). D02771R02.60 TESLA 4000 User Manual Appendix F-21...
Page 387: Appendix G Recommended Spare Parts List
List Table G.1: TESLA 4000 Recommended Spare Parts List Part Number Part Description Quantity 109312/113931 TESLA 4000/4003 System Unit - 18 Analog Channels, 32 Digital 113207/113937 Channels TESLA 4000/4003 System Unit - 36 Analog Channels, 64 Digital Channels 110739 CT Isolation Module, four (4) current inputs rated 5 Amp each 101756 PT Isolation Modules, three (3) voltage inputs rated 69 Volts rms (1203)
Page 389: Appendix H Tesla Handling And Disposition
The TESLA system unit contains a battery that should be disposed of separately and may contain other electronic components that are potentially subject to specific disposal instructions. Use a local electronics re- cycler who is familiar with local regulations. D02771R02.60 TESLA 4000 User Manual Appendix H-1...
Page 391: Appendix I Tesla 4000 Drawings
TESLA 4000 Split Core Connection Electronic versions of the drawings in both PDF and DWG formats are avail- able on the TESLA 4000 CD in the Manuals directory. The PDF documents are scaled for 11" x 17" printing for improved readability.
Page 392 Appendix I TESLA 4000 Drawings Figure I.1: Mechanical Drawings Appendix I-2 TESLA 4000 User Manual D02771R02.60...
Page 393 Appendix I TESLA 4000 Drawings Figure I.2: Back View D02771R02.60 TESLA 4000 User Manual Appendix I-3...
Page 394 Appendix I TESLA 4000 Drawings 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 Figure I.3: TESLA 4000 AC Input Module Connection Diagram Appendix I-4 TESLA 4000 User Manual D02771R02.60...
Page 395 Appendix I TESLA 4000 Drawings Figure I.4: TESLA 4000 DC Input Module Connection Diagram D02771R02.60 TESLA 4000 User Manual Appendix I-5...
Page 396 Appendix I TESLA 4000 Drawings Figure I.5: TESLA 4000 Split Core Connection Appendix I-6 TESLA 4000 User Manual D02771R02.60...
Page 397: Appendix J Iec 61850 Implementation
Publisher side Subscriber Side Transmission of Sampled value model (SVC) Publisher side Subscriber side c1 - Shall be ‘M’ if support for LOGICAL-DEVICE model has been declared O - Optional M - Mandatory D02771R02.60 TESLA 4000 User Manual Appendix J-1...
Page 398 Data-set-name M7-5 Data-reference M7-6 Buffer-overflow M7-7 Entry id M7-8 Buf Tm M7-9 IntgPd M7-10 Unbuffered report control M8-1 Sequence – number M8-2 Report-time-stamp M8-3 Reason-for-inclusion M8-4 Data-set-name M8-5 Data-reference M8-6 IntgPd M8-7 Logging Appendix J-2 TESLA 4000 User Manual D02771R02.60...
Page 399 – shall be ‘M’ if support DATA-SET, Substitution, Report, Log Control, or Time model has been declared c5 – shall be ‘M’ if support for Report , GSE, or SV model has been declared M - Mandatory D02771R02.60 TESLA 4000 User Manual Appendix J-3...
Page 400 Logical Node (Clause 9) LogicalNodeDirectory GetAllDataValues Data (Clause 10) GetDataValues SetDataValues GetDataDirectory GetDataDefinition Data Set(Clause 11) GetDataSetValues SetDataSetValues CreateDataSet DeleteDataSet GetDataSetDirectory Substitution (Clause 12) SetDataValues Setting group control (Clause 13) SelectActive SG SelectEdit SG SetSGvalues Appendix J-4 TESLA 4000 User Manual D02771R02.60...
Page 401 GetLCBValues SetLCBValues QueryLogByTime QueryLogAfter GetLogStatusValues c7- shall declare support for at least one(query log by time or Query LogAfter ) Generic Substation event model(GSE) (14.3.5.3.4) GOOSE – CONTROL - BLOCK SendGOOSEMessage GetGOReference GetGOOSEElementNumber D02771R02.60 TESLA 4000 User Manual Appendix J-5...
Page 402 C10- shall declare support for at least one(Send MSV Message or Send USV Message ) control ( 17.5.1) Select Select with value Cancel Operate Command-Termination Time Activated-Operate File Transfer (Clause 20) GetFile SetFile DeleteFile GetFileAttributeValues Time(5.5) Appendix J-6 TESLA 4000 User Manual D02771R02.60...
Page 403 2 in sec- onds TimeAccuracy of Internal clock 10 (1 msec) Supported Time Stamp resolu- 10 ( 1 Nearest tion msec) value of 2**-n in seconds according to 5.5.3.7.3.3 D02771R02.60 TESLA 4000 User Manual Appendix J-7...
Page 404: Model Implementation Conformance Statement (Mics
Table J.4: Logical Device Comment / Usage Triggers FaultLocators Measurements Measurements Domain Records Records Domain System System Domain VirtualInputs Appendix J-8 TESLA 4000 User Manual D02771R02.60...
Page 405 RADR_1 RADR10 RADR_1 RADR11 RADR_1 RADR12 RADR_1 RADR13 RADR_1 RADR14 RADR_1 RADR15 RADR_1 RADR16 RADR_1 RADR17 RADR_1 RADR18 RADR_1 RADR19 RADR_1 RADR20 RADR_1 RADR21 RADR_1 RADR22 RADR_1 RADR23 RADR_1 RADR24 RADR_1 RADR25 RADR_1 D02771R02.60 TESLA 4000 User Manual Appendix J-9...
Page 406 RADR_1 RADR44 RADR_1 RADR45 RADR_1 RADR46 RADR_1 RADR47 RADR_1 RADR48 RADR_1 RADR49 RADR_1 RADR50 RADR_1 RADR51 RADR_1 RADR52 RADR_1 RADR53 RADR_1 RADR54 RADR_1 RADR55 RADR_1 RADR56 RADR_1 RADR57 RADR_1 RADR58 RADR_1 RADR59 RADR_1 Appendix J-10 TESLA 4000 User Manual D02771R02.60...
Page 407 RADR_1 RADR78 RADR_1 RADR79 RADR_1 RADR80 RADR_1 RADR81 RADR_1 RADR82 RADR_1 RADR83 RADR_1 RADR84 RADR_1 RADR85 RADR_1 RADR86 RADR_1 RADR87 RADR_1 RADR88 RADR_1 RADR89 RADR_1 RADR90 RADR_1 RADR91 RADR_1 RADR92 RADR_1 RADR93 RADR_1 D02771R02.60 TESLA 4000 User Manual Appendix J-11...
Page 408 RADR_1 RADR112 RADR_1 RADR113 RADR_1 RADR114 RADR_1 RADR115 RADR_1 RADR116 RADR_1 RADR117 RADR_1 RADR118 RADR_1 RADR119 RADR_1 RADR120 RADR_1 RADR121 RADR_1 RADR122 RADR_1 RADR123 RADR_1 RADR124 RADR_1 RADR125 RADR_1 RADR126 RADR_1 RADR127 RADR_1 Appendix J-12 TESLA 4000 User Manual D02771R02.60...
Page 409 RBDR_1 RBDR12 RBDR_1 RBDR13 RBDR_1 RBDR14 RBDR_1 RBDR15 RBDR_1 RBDR16 RBDR_1 RBDR17 RBDR_1 RBDR18 RBDR_1 RBDR19 RBDR_1 RBDR20 RBDR_1 RBDR21 RBDR_1 RBDR22 RBDR_1 RBDR23 RBDR_1 RBDR24 RBDR_1 RBDR25 RBDR_1 RBDR26 RBDR_1 RBDR27 RBDR_1 D02771R02.60 TESLA 4000 User Manual Appendix J-13...
Page 410 RBDR_1 RBDR46 RBDR_1 RBDR47 RBDR_1 RBDR48 RBDR_1 RBDR49 RBDR_1 RBDR50 RBDR_1 RBDR51 RBDR_1 RBDR52 RBDR_1 RBDR53 RBDR_1 RBDR54 RBDR_1 RBDR55 RBDR_1 RBDR56 RBDR_1 RBDR57 RBDR_1 RBDR58 RBDR_1 RBDR59 RBDR_1 RBDR60 RBDR_1 RBDR61 RBDR_1 Appendix J-14 TESLA 4000 User Manual D02771R02.60...
Page 411 RBDR_1 RBDR79 RBDR_1 RBDR80 RBDR_1 RBDR81 RBDR_1 RBDR82 RBDR_1 RBDR83 RBDR_1 RBDR84 RBDR_1 RBDR85 RBDR_1 RBDR86 RBDR_1 RBDR87 RBDR_1 RBDR88 RBDR_1 RBDR89 RBDR_1 RBDR90 RBDR_1 RBDR91 RBDR_1 RBDR92 RBDR_1 RBDR93 RBDR_1 RBDR94 RBDR_1 D02771R02.60 TESLA 4000 User Manual Appendix J-15...
Page 412 LPHD1 LPHD1 Physical device information MMXN1 MMXN_4 Non phase related Measurement MMXN2 MMXN_4 MMXN3 MMXN_4 MMXN4 MMXN_4 MMXN5 MMXN_4 MMXN6 MMXN_4 MMXN7 MMXN_4 MMXN8 MMXN_4 MMXN9 MMXN_4 MMXN10 MMXN_4 MMXN11 MMXN_4 MMXN12 MMXN_4 Appendix J-16 TESLA 4000 User Manual D02771R02.60...
Page 413 MMXN_4 MMXN31 MMXN_4 MMXN32 MMXN_4 MMXN33 MMXN_4 MMXN34 MMXN_4 MMXN35 MMXN_4 MMXN36 MMXN_4 GGIO1 GGIO_1 GGIO2 GGIO_1 GGIO3 GGIO_1 GGIO4 GGIO_1 GGIO5 GGIO_1 GGIO6 GGIO_1 GGIO7 GGIO_1 GGIO8 GGIO_1 GGIO9 GGIO_1 GGIO10 GGIO_1 D02771R02.60 TESLA 4000 User Manual Appendix J-17...
Page 414 GGIO_1 GGIO31 GGIO_1 GGIO32 GGIO_1 GGIO33 GGIO_1 GGIO34 GGIO_1 GGIO35 GGIO_1 GGIO36 GGIO_1 MMXN37 MMXN_4 Non phase related Measurement MMXN38 MMXN_4 MMXN39 MMXN_4 MMXN40 MMXN_4 MMXN41 MMXN_4 MMXN42 MMXN_4 MMXN43 MMXN_4 MMXN44 MMXN_4 Appendix J-18 TESLA 4000 User Manual D02771R02.60...
Page 415 MMXN64 MMXN_4 MMXN65 MMXN_4 MMXN66 MMXN_4 GGIO36 GGIO_1 Generic process I/O GGIO37 GGIO_1 GGIO38 GGIO_1 GGIO39 GGIO_1 GGIO40 GGIO_1 GGIO41 GGIO_1 GGIO42 GGIO_1 GGIO43 GGIO_1 GGIO44 GGIO_1 GGIO45 GGIO_1 GGIO46 GGIO_1 GGIO47 GGIO_1 D02771R02.60 TESLA 4000 User Manual Appendix J-19...
Page 416 Sequence and imbalance MSQI2 MSQI_1 MSQI3 MSQI_1 MSQI4 MSQI_1 MSQI5 MSQI_1 MSQI6 MSQI_1 MSQI7 MSQI_1 MSQI8 MSQI_1 MSQI9 MSQI_1 MSQI10 MSQI_1 MSQI11 MSQI_1 MSQI12 MSQI_1 MMXN67 MMXN_1 Non phase related Measurement MMXN68 MMXN_1 MMXN69 MMXN_1 Appendix J-20 TESLA 4000 User Manual D02771R02.60...
Page 417 MMXN_5 MMXN90 MMXN_5 MMXN91 MMXN_5 MMXN92 MMXN_5 MMXN93 MMXN_5 MMXN94 MMXN_5 MMXN95 MMXN_5 MMXN96 MMXN_5 MMXN97 MMXN_5 MMXN98 MMXN_5 MMXN99 MMXN_5 MMXN100 MMXN_5 MMXN101 MMXN_5 MMXN102 MMXN_5 MMXN103 MMXN_2 Non phase related Measurement D02771R02.60 TESLA 4000 User Manual Appendix J-21...
Page 418 Description LLN0 LLN0 Logical node zero LPHD1 LPHD1 Physical device information RDRE1 RDRE1 Disturbance recorder function Table J.9: Logical Device: System SI No LN Instance LN Type Description LLN0 LLN0 Logical node zero Appendix J-22 TESLA 4000 User Manual D02771R02.60...
Page 419 Generic process I/O GGIO2 GGIO_32 Generic process I/O GGIO3 GGIO_32 Generic process I/O GGIO4 GGIO_32 Generic process I/O GGIO6 GGIO_32 Generic process I/O GGIO7 GGIO_32 Generic process I/O GGIO8 GGIO_32 Generic process I/O D02771R02.60 TESLA 4000 User Manual Appendix J-23...
Page 420 Logical Node Type: LPHD1 Description: Physical Device Information LN Class: LPHD Attribute Attr. Type Explanation PhyNam DPL_1_PhyNam Device Physical Name Plate PhyHealth INS_1_Beh Physical Device Health Proxy SPS_1_Proxy Indicates if this device is proxy Appendix J-24 TESLA 4000 User Manual D02771R02.60...
Page 421 INS_1_Beh Health NamPlt LPL_1_NamPlt Name Plate ChTrg SPS_1_Chtrg1 RBDR_1 Logical Node Type: Description: LN Class: RBDR Attribute Attr. Type Explanation INC_1_Mod Mode INS_1_Beh Behaviour Health INS_1_Beh Health NamPlt LPL_1_NamPlt Name Plate ChTrg SPS_1_Chtrg1 D02771R02.60 TESLA 4000 User Manual Appendix J-25...
Page 422 Attr. Type Explanation INC_1_Mod Mode INS_1_Beh Behaviour Health INS_1_Beh Health NamPlt LPL_1_NamPlt Name Plate AnIn1 MV_1_FltDiskm Logical Node Type:GGIO_8 Description: LN Class: GGIO Attribute Attr. Type Explanation INC_1_Mod Mode INS_1_Beh Behaviour Health INS_1_Beh Health Appendix J-26 TESLA 4000 User Manual D02771R02.60...
Page 423 SPS_1_Ind1 Ind4 SPS_1_Ind1 Ind5 SPS_1_Ind1 Ind6 SPS_1_Ind1 Ind7 SPS_1_Ind1 Ind8 SPS_1_Ind1 Logical Node type: GGIO_32 Description: LN Class: GGIO Attribute Attr. Type Explanation INC_1_Mod Mode INS_1_Beh Behaviour Health INS_1_Beh Health Ind1- Ind32 SPS_1_Ind1 D02771R02.60 TESLA 4000 User Manual Appendix J-27...
Page 424 INS_1_Beh Health NamPlt LPL_1_NamPlt Name Plate SeqA SEQ_1_SeqA SeqV SEQ_1_SeqA Logical Node Type: MMXN_1 Description: LN Class: MMXN Attribute Attr. Type Explanation INC_1_Mod Mode INS_1_Beh Behaviour Health INS_1_Beh Health NamPlt LPL_1_NamPlt Name Plate Appendix J-28 TESLA 4000 User Manual D02771R02.60...
Page 425 Health INS_1_Beh Health NamPlt LPL_1_NamPlt Name Plate MV_1_Watt Logical Node Type: MMXN_3 Description: LN Class: MMXN Attribute Attr. Type Explanation INC_1_Mod Mode INS_1_Beh Behaviour Health INS_1_PhyHealth Health NamPlt LPL_1_NamPlt Name Plate PwrFact MV_1_Watt D02771R02.60 TESLA 4000 User Manual Appendix J-29...
Page 426 Attr. Type Explanation INC_1_Mod Mode INS_1_Beh Behaviour Health INS_1_PhyHealth Health NamPlt LPL_1_NamPlt Name Plate CMV_1_FltZ Logical Node Type: RDRE1 Description: LN Class: RDRE Attribute Attr. Type Explanation INC_1_Mod Mode INS_1_Beh Behaviour Health INS_1_PhyHealth Health Appendix J-30 TESLA 4000 User Manual D02771R02.60...
Page 427 IEC 61850 – 7 - 2 Substitution Values IEC 61850 – 7 - 2 Unicast Sampled Value Control IEC 61850 – 7 - 2 Data Attribute Service Parameters IEC 61850 – 7 - 2 D02771R02.60 TESLA 4000 User Manual Appendix J-31...
Page 428 Common Data Class: INC_1_Mod Description: CDC Class: INC Attribute Type Enumeration Comment stVal Enum Quality Timestamp ctlModel Enum ctlModel Common Data Class: SPS_1_Proxy Description: CDC Class: SPS Attribute Type Enumeration Comment stVal BOOLEAN Quality Timestamp Appendix J-32 TESLA 4000 User Manual D02771R02.60...
Page 429 Common Data Class: LPL_1_NamPlt Description: CDC Class: LPL Attribute Type Enumeration Comment Vendor VisString255 swRev VisString255 VisString255 configRev VisString255 ldNs VisString255 Common Data Class: MV_1_watt Description: CDC Class: MV Attribute Type Enumeration Comment AnalogueValue_1 Quality Timestamp D02771R02.60 TESLA 4000 User Manual Appendix J-33...
Page 430 Common Data Class: SPS_1_Ind1 Description: CDC Class: SPS Attribute Type Enumeration Comment stVal BOOLEAN Quality Timestamp Common Data Class: SPS_1_Chtrg1 Description: CDC Class: SPS Attribute Type Enumeration Comment stVal BOOLEAN Quality Timestamp Appendix J-34 TESLA 4000 User Manual D02771R02.60...
Page 431 Quality Timestamp Common Data Class: MV_1_FltDiskm Description: CDC Class: MV Attribute Type Enumeration Comment AnalogueValue_1 Quality Timestamp Common Data Class: INS_1_IntIn Description: CDC Class: INS Attribute Type Enumeration Comment stVal BOOLEAN Quality Timestamp D02771R02.60 TESLA 4000 User Manual Appendix J-35...
Page 432 Comment: Complex Vector (w.r.t. Floating Point Magnitude and Angle val- ues) Parent Type: Vector Attribute Type Enumeration Comment AnalogueValue_1 The magnitude of the complex value AnalogueValue_1 The angle of the complex value (the unit is degrees) Appendix J-36 TESLA 4000 User Manual D02771R02.60...
Page 433 Common Data Class attributes. The definition of the enumerations is ac- cording to IEC 61850-7-3 and IEC 61850-7-4 unless otherwise stated. Enumerated type: Beh Description: Behaviour Ordinal Semantic blocked test test/blocked Enumerated type: Mod Description: Mode Ordinal Semantic blocked test test/blocked D02771R02.60 TESLA 4000 User Manual Appendix J-37...
Page 434 Appendix J IEC 61850 Implementation Enumerated type: seqT Description: Ordinal Semantic pos-neg-zero dir-quad-zero Appendix J-38 TESLA 4000 User Manual D02771R02.60...
Page 435: Data Mapping Specifications
• FaultLocators • VirtualInputs TESLA 4000 Logical Nodes The following table, Table J.12: TESLA 4000 Logical Nodes, defines the list of logical nodes (LN) of the TESLA 4000 logical devices. Notes: Logical node names are shown without preceding logical device name for bet- ter readability Table J.12: TESLA 4000 Logical Nodes...
Page 436 Appendix J IEC 61850 Implementation Table J.12: TESLA 4000 Logical Nodes Triggers WVARRADR79 Disturbance Recorder Channel Trigger Status of Watt/Var Channels · Analog 1 to 18 · · WVARRADR96 Triggers IMPRADR97 Disturbance Recorder Channel Trigger Status of Impedance Chan- ·...
Page 437 Appendix J IEC 61850 Implementation Table J.12: TESLA 4000 Logical Nodes Measurements ANLANGGGIO1 Generic process I/O Angle of Analog Channels 1 to 18/ · · · ANLANGGGIO36 Measurements SUMANGGGIO37 Generic process I/O Angle of Summation Channels 1 to · ·...
Page 438 Appendix J IEC 61850 Implementation Logical Node The following sections provide detailed spec information on the TESLA 4000 Specifications logical device and logical nodes as defined in the Table 1.1. Note: Common Logical Node information is not shown in the following Logical Node descriptions.
Page 439 Appendix J IEC 61850 Implementation SUMRADR37 … SUMRADR66 This section defines logical node data for the logical nodes SUMRADR37 to SUMRADR66 of the TESLA 4000 logical device Triggers. Logical Node Description Data Attribute Comments SUMRADR37 Trigger status of summation channel 1...
Page 440 · · IMPRADR114 Trigger status of impedance channel 18 FREQRADR115, FREQRADR116 This section defines logical node data for the logical nodes FREQRADR115 and FREQRADR116 of the TESLA 4000 logical device Triggers. Logical Node Description Data Attribute Comments FREQRADR115 Trigger status of frequency channel 1...
Page 441 ANLMAGMMXN1 … ANLMAGMMXN36 Measurements This section defines logical node data for the logical nodes ANLMAGMMXN1 to ANLMAGMMXN36 of the TESLA 4000 logical de- vice Measurements. Note: in this case the same logical node can have one of the two data attribute types.
Page 442 · · · IMPMMXN102 Impedance channel 18 FREQMMXN103, FREQMMXN104 This section defines logical node data for the logical nodes FREQMMXN103 and FREQMMXN104 of the TESLA 4000 logical device Measurements. Logical Node Description Data Attribute Comments FREQMMXN103 Frequency channel 1 MX$Hz$mag In Hz ·...
Page 443 Appendix J IEC 61850 Implementation ANLANGGGIO1 … ANLANGGGIO36 This section defines logical node data for the logical nodes ANLANGGGIO1 to ANLANGGGIO36 of the TESLA 4000 logical device Measurements. Logical Node Description Data Attribute Comments ANLANGGGIO1 Angle of analog channel 1...
Page 444 Output contact 7 ST$Ind8$stVal Output contact 8 Logical Device: RFLO1 … RFLO10 FaultLocators This section defines logical node data for the logical nodes RFLO1 to RFLO10of the TESLA 4000 logical device FaultLocators. Data Name Description Data Attribute Comments RFLO1 Fault locator 1...
Page 445: Index
11-73 recorders 13-6 fundamental RMS 11-68 records 13-12 graph title 11-64 settings 13-13 harmonic view 11-42 setup 13-4 harmonics 11-70 cross-trigger notification 7-14 impedance view 11-43 11-44 11-46 keyboard functions 11-37 11-38 data acquisition D02771R02.60 TESLA 4000 User Manual...
Page 446 8-48 print 11-7 11-8 11-9 metering tool bar 11-30 MODBUS 8-51 view add 11-32 modem view delete 11-32 external 4-12 view rename 11-33 internal 4-14 views 11-32 LAN gateway 4-15 RecordGraph, modem link 4-12 TESLA 4000 User Manual D02771R02.60...
Page 447 11-7 time coordination trend log trend logging 8-49 8-50 trigger fault trigger swing triggers true RMS 11-21 user interface view channel list 11-13 watts and VARS channels 8-35 8-36 workspace add/edit 5-3 settings 5-3 D02771R02.60 TESLA 4000 User Manual...

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