Rockwell Automation 825-P Modular Protection System for Motors User Manual User Manual
Modular protection system for motors
Table of contents
Document Outline
- Modular Protection System for Motors User Manual
- Table of Contents
- Preface
- 1- Introduction
- 2- Installation
- Relay Placement
- Rear-Panel Connections
- AC/Control Connection Diagrams
- Field Serviceability
- Fuse Replacement
- 1. De-energize the relay.
- 2. Remove the eight rear-panel screws, the ground screw, and the relay rear- panel.
- 3. Remove the Slot A printed circuit board.
- 4. Locate the fuse on the board.
- 5. Remove the fuse from the fuse holder.
- 6. Replace the fuse with a BUSS 2A/250V ABC (ceramic) or equivalent.
- 7. Insert the printed circuit board into Slot A.
- 8. Reinstall the relay rear-panel and ground screw, and then energize the relay.
- Real-Time Clock Battery Replacement
- 1. De-energize the relay.
- 2. Remove the eight rear-panel screws, the ground screw, and the relay rear-panel.
- 3. Remove the Slot B printed circuit board.
- 4. Locate the battery clip (holder) on the board.
- 5. Remove the battery from beneath the clip.
- 6. Properly dispose of the old battery.
- 7. Install the new battery with the positive (+) side facing up.
- 8. Insert the printed circuit board into Slot B.
- 9. Reinstall the relay rear-panel and ground screw, and then energize the relay.
- 10. Set the relay date and time.
- Fuse Replacement
- 3- Front Panel Operation
- Front Panel Layout
- Normal Front Panel Display
- Front Panel Automatic Messages
- Front Panel Menus and Operations
- Table 4 - Front Panel Push Button Functions
- Front Panel Security
- Front Panel Access Levels
- Access Level 2 Password Entry
- To Enter Password
- 1. Press the DownArrow push button twice. A blinking cursor appears in the first character position of the password and an underline appears beneath the character (letter) A in the lower line of the display.
- 2. Underline the first character of the password by moving through the characters shown in Figure 26. Use the LeftArrow and RightArrow push buttons to move the underline to the left and right and the UpArrow and DownArrow push buttons to move to othe...
- 3. With the correct first character underlined, press the Enter push button. The first character appears in the upper line of the display and the blinking cursor moves one character to the right.
- 4. Using the arrow push buttons, continue to move within the character table and select each of the characters to build the Access Level 2 password.
- 5. With the correct Access Level 2 password visible in the upper line of the display, use the up and right arrow to select Accept.
- 6. Press the Enter push button to accept the password shown in the upper line of the display.
- 7. If the password is correct, the relay displays the requested setting.
- 8. Press the Enter push button to continue your task.
- 9. If the password is incorrect, the relay displays the message Invalid Password.
- 10. Press the Enter push button to return to your previous task.
- To Correct Entry Errors
- 1. If the cursor in the upper line of the display is blinking, press the Esc push button once.
- 2. Use the arrow push buttons to move the underline cursor to the position of the incorrect letter.
- 3. With the incorrect letter underlined, press the DownArrow push button. The blinking cursor reappears in the upper line of the display and the underline cursor appears in the lower line.
- 4. Continue making corrections until the password appears in the upper line of the display.
- 5. With the correct Access Level 2 password visible in the upper line of the display, use the arrows to move the underline cursor to ACCEPT.
- 6. Press the Enter push button to accept the password shown in the upper line of the display.
- 7. If the password is correct, the relay continues the task.
- 8. Press enter to continue your task. If the password was incorrect, the relay displays the message Invalid Password.
- 9. Press the Enter push button to return to your password entry.
- 10. Repeat Steps 1…9 until you enter the correct password.
- 11. When you have completed changing settings, use the Main Menu command Reset Access Lvl (described in the next section) to reset the Access Level to Level 1 so that unauthorized access is prevented. (The access level will remain at Level 2 until th...
- Front Panel Main Menu
- View or Change Settings Using the Front Panel
- Setting Entry Error Messages
- 4- Hardware Commissioning
- 5- Using MPS Explorer
- 6- Configuring Protection & Logic Functions
- Overview
- Application Data
- Main Settings
- Basic Motor Protection
- Ground Fault
- Jam
- Undercurrent (Load Loss)
- Current Imbalance/ Phase Loss
- Protection Disable
- Start Monitoring
- Star-Delta (Wye-Delta) Starting
- Start Inhibit
- Phase Reversal Protection
- Speed Switch (Stalling During Start)
- Thermistor (PTC) Monitoring
- RTD-Based Protection
- Voltage-Based Protection
- I/O Configuration
- Analog Output
- Table 35 - I/O Settings
- ANALOG OUT SEL
- LOAD_I, AVG_I, MAX_I, %THERM, WDG_RTD, BRG_RTD, PWR_kW, PF
- LOAD_I
- LOAD_I
- AVG_I
- MAX_I
- %THERM
- WDG_RTD
- BRG_RTD
- PWR_kW
- PF
- Average Load Current
- Average Load Current
- Maximum of the Phase currents
- Percentage Thermal Capacity
- Hottest Winding RTD Temperature
- Hottest Bearing RTD Temperature
- Motor Power
- Motor Power Factor
- 0.0…1.0 Per Unit of FLA
- 0.2…2.0 Per Unit of FLA
- 0.2…2.0 Per Unit of FLA
- 0…100%TCU
- 0…250°C
- 0…250°C
- 0.0…1.0 per unit FLVA
- 0.8 Lag…0.8 Lead
- Trip Inhibit (Block)
- Output Relay Behavior
- Timer Function
- Front Panel Settings
- Display Enable
- I/O Assignments
- Trip Relay I/O
- TRIP A
- TRIP B
- TRIP C
- TRIP D
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- Overload
- Undercurrent
- Jam
- Current Imbalance
- Short Circuit
- RTD (Winding/Bearing)
- PTC
- Ground Fault (Residual)
- VAR
- Underpower
- Undervoltage
- Overvoltage
- Phase Reversal
- Power Factor
- Speed Switch
- Ground Fault (Core Balance)
- Start Time
- Frequency 1
- Frequency 2
- RTD (Other)
- RTD (Ambient)
- PTC Error
- RTD Error
- MCM Error
- Comm Idle
- Comm Loss
- Remote Trip
- Comm Fault
- Reserved
- Reserved
- Reserved
- Reserved
- Aux# A
- Aux# B
- Aux# C
- Aux# D
- Aux# E
- Aux# F
- Aux# G
- Aux# H
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- Overload
- Undercurrent
- Jam
- Current Imbalance
- Short Circuit
- RTD (Winding/Bearing)
- PTC
- Ground Fault (Residual)
- VAR
- Underpower
- Undervoltage
- Overvoltage
- Phase Reversal
- Power Factor
- Speed Switch
- Ground Fault (Core Balance)
- Start Time
- Frequency 1
- Frequency 2
- RTD (Other)
- RTD (Ambient)
- PTC Error
- RTD Error
- MCM Error
- Comm Idle
- Comm Loss
- Remote Trip
- Comm Fault
- Latch Trip
- Reserved
- Reserved
- Reserved
- Overload Warning
- Undercurrent Warning
- Jam Warning
- Current Imbalance Warning
- RTD (Winding/Bearing) Warning
- Power Factor Warning
- Ground Fault (Core Balance) Warning
- Ground Fault (Residual) Warning
- VAR Warning
- Underpower Warning
- Undervoltage Warning
- Overvoltage Warning
- Speed Switch Warning
- Frequency 1 Warning
- Frequency 2 Warning
- RTD (Other) Warning
- RTD (Ambient) Warning
- Setting Warning
- General Warning
- Load Control — Upper
- Load Control — Lower
- Timer 1
- Timer 2
- Short Circuit Warning
- Stopped State
- Running State
- Starting State
- Star (Wye) Starting State
- Delta Starting State
- Start Command
- Network Control
- Reserved
- IN#
- X
- X
- X
- X
- X
- X
- X
- X
- X
- X
- Emergency Start
- Disable Settings
- Trip Reset
- Timer 1
- Timer 2
- Speed Switch
- Block Protection
- Speed 2
- Breaker/Contactor Auxiliary
- Remote Trip
- Analog Output
- Logic Explanation
- 7- Metering & Monitoring
- 8- Analyzing Events
- 9- 825-PDN DeviceNet Communication Card
- Introduction
- Features
- Required Equipment
- Wiring
- 1. Remove power from the DeviceNet network and 825-P Modular Protection System relay
- 2. Use static control precautions
- 3. Connect a DeviceNet cable to the network
- 4. Terminate the bare leads of the DeviceNet cable to the 5-pin linear plug as illustrated in Figure 40
- 5
- 4
- 3
- 2
- 1
- Red
- White
- Bare
- Blue
- Black
- V+
- Can_H
- SHIELD
- CAN_L
- V-
- Power Supply
- Signal High
- Shield
- Signal Low
- Common
- Node Commissioning
- Setting the Hardware Switches
- Using RSNetWorx for DeviceNet
- 1. After going on-line using RSNetWorx for DeviceNet, do the following:
- 2. Choose the appropriate DeviceNet PC interface. In this example, a 1784-PCIDS module is chosen. Other common DeviceNet interfaces are the 1770-KFD, and 1784-PCD.
- 3. Select OK.
- 4. RSNetWorx notifies the user to upload or download devices before viewing configuration. Select OK.
- 5. RSNetWorx now browses the network and displays all of the nodes it has detected on the network. For some versions of RSNetWorx software, the 825-P Modular Protection System EDS files and icon might not be included, and the device could be identifi...
- 6. If RSNetWorx recognizes the device as an 825-P Modular Protection System, skip ahead to the section Using the Node Commissioning Tool of RSNetWorx for DeviceNet.
- Registering an EDS File
- Using the Node Commissioning Tool of RSNetWorx for DeviceNet
- Explicit Messaging
- DeviceLogix
- DeviceLogix Programming Example
- Table 60 - Hardware Bit Assignments and Description for the 825-P Modular Protection System
- 1. While in RSNetWorx for DeviceNet, double-click 825-P Modular Protection System.
- 2. Select tab DeviceLogix.
- 3. If you are on-line with a device, in the dialog box that appears asking you to upload or download, select Upload.
- 4. Select Start Logic Editor.
- 5. Do one of the following:
- 6. Left-click the AND function block.
- 7. Move your cursor into the grid.
- 8. Left-click to drop the function onto the grid.
- 9. From the toolbar, select Discrete Input Point.
- 10. From the pull-down menu, select Input 2. This is the remote Reset button that is based on the I/O table example.
- 11. Drag the input to the left of the AND function.
- 12. To drop the input on the page, left-click on the position that you want.
- 13. Position your cursor over the tip of Input 2. The pin tip turns green.
- 14. Click on the pin tip when it turns green.
- 15. Move your cursor toward the input of the AND function. A line follows the cursor. When a connection can be made, the tip of the AND function also turns green.
- 16. Click on Input. The line is drawn from Input 2 to the Input 1 of the AND function.
- 17. From the toolbar, select Module Status Point.
- 18. From the pull-down menu, select Fault.
- 19. Place the input to the left of the AND function.
- 20. Connect the input to the Input 2 of the AND latch.
- 21. From the toolbar, select Network Output Point.
- 22. From the pull-down menu, select Flt Reset.
- 23. Select OK.
- 24. Moving your cursor into the grid, place the Output to the right of the AND function block.
- 25. Connect the Output of the AND function block to Flt Reset.
- 26. From the toolbar. select Discrete Output Point.
- 27. From the pull-down menu, select Aux Out 5. This is the tower light output listed in the I/O table example.
- 28. Select OK.
- 29. Moving cursor into the grid, place Aux Out 5 to the right of the AND function block
- 30. Correct the Fault Input to the Aux Out 5.
- 31. Do one of the following:
- 32. To toggle out of edit mode if you are online with a device, select Tools.
- 33. After selecting Edit from the main menu, select Download from the pull- down menu (right corner of the toolbar).
- 34. When the download is successful, select OK.
- 35. From the same pull-down menu, select Logic Enable On.
- 36. The 825-P Modular Protection System is now programmed and the logic is active.
- DeviceLogix Programming Example
- Parameter Groups
- 10- Modbus RTU Communications
- Overview
- Installation
- Commissioning
- Modbus Queries
- Modbus Responses
- Supported Modbus Function Codes
- Modbus Exception Responses
- Cyclical Redundancy Check
- 03h Read Holding Register Command
- Table 68 - 03h Read Holding Register Command (Sheet 1 of 2)
- Requests from the master must have the following format:
- 1 byte
- 1 byte
- 2 bytes
- 2 bytes
- 2 bytes
- A successful response from the slave will have the following format:
- 1 byte
- 1 byte
- 1 byte
- n bytes
- 2 bytes
- Slave Address
- Function Code (03h)
- Starting Register Address
- Number of Registers to Read
- CRC-16
- Slave Address
- Function Code (03h)
- Bytes of data (n)
- Data (2…250)
- CRC-16
- Illegal register to read
- Illegal number of registers to read
- Format error
- Illegal Data Address (02h)
- Illegal Data Value (03h)
- Illegal Data Value (03h)
- Invalid Address
- Illegal Register
- Bad Packet Format
- 06h Preset Single Register Command
- Table 70 - 06h Preset Single Register Command
- Requests from the master must have the following format:
- 1 byte
- 1 byte
- 2 bytes
- 2 bytes
- 2 bytes
- Slave Address
- Function Code (06h)
- Register Address
- Data
- CRC-16
- Illegal register address
- Illegal register value
- Format error
- Illegal Data Address (02h)
- Illegal Data Value (03h)
- Illegal Data Value (03h)
- Invalid Address Illegal Write
- Illegal Write
- Bad Packet Format
- 10h Preset Multiple Registers Command
- Table 72 - 10h Preset Multiple Registers Command
- Requests from the master must have the following format:
- 1 byte
- 1 byte
- 2 bytes
- 2 bytes
- 1 byte
- n bytes
- 2 bytes
- A successful response from the slave will have the following format:
- 1 byte
- 1 byte
- 2 bytes
- 2 bytes
- 2 bytes
- Slave Address
- Function Code (10h)
- Starting Address
- Number of Registers to Write
- Bytes of Data (n)
- Data
- CRC-16
- Slave Address
- Function Code (10h)
- Starting Address
- Number of Registers
- CRC-16
- Illegal register to set
- Illegal number of registers to set
- Incorrect number of bytes in query data region
- Invalid register data value
- Illegal Data Address (02h)
- Illegal Data Value (03h)
- Illegal Data Value (03h)
- Illegal Data Value (03h)
- Invalid Address Illegal Write
- Illegal Write
- Bad Packet Format Illegal Write
- Illegal Write
- 60h Read Parameter Information Command
- Table 74 - 60h Read Parameter Information Command
- Requests from the master must have the following format:
- 1 byte
- 1 byte
- 2 bytes
- 2 bytes
- A successful response from the slave will have the following format:
- 1 byte
- 1 byte
- 2 bytes
- 1 byte
- 1 byte
- 2 bytes
- 2 bytes
- 2 bytes
- 2 bytes
- Slave Address
- Function Code (60h)
- Parameter Number
- CRC-16
- Slave Address
- Function Code (60h)
- Parameter Number
- Parameter Descriptor
- Parameter Conversion
- Parameter Minimum Settable Value
- Parameter Maximum Settable Value
- Parameter Default Value
- CRC-16
- 0
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- Boolean
- Unsigned Integer
- Unsigned Integer
- Unsigned Integer
- Unsigned Integer
- Hexidecimal
- Integer
- Integer
- Integer
- Integer
- Enumeration
- Bit Enumeration
- 1
- 1
- 1
- 1
- 1
- 1
- 1
- 1
- 1
- 1
- 1
- 1
- 1
- 1
- 10
- 100
- 1000
- 1
- 1
- 10
- 100
- 1000
- 1
- 1
- 0
- 0
- 0
- 0
- 0
- 0
- 0
- 0
- 0
- 0
- 0
- 0
- 1
- 1
- 1
- 1
- 1
- 1
- 1
- 1
- 1
- 1
- 1
- 1
- Illegal parameter to read
- Illegal Data Value (03h)
- Illegal Register
- 61h Read Parameter Text Command
- Table 78 - 61h Read Parameter Text Command
- Requests from the master must have the following format:
- 1 byte
- 1 byte
- 2 bytes
- 2 bytes
- A successful response from the slave will have the following format:
- 1 byte
- 1 byte
- 2 bytes
- 16 bytes
- 4 bytes
- 2 bytes
- Slave Address
- Function Code (61h)
- Parameter Number
- CRC-16
- Slave Address
- Function Code (61h)
- Parameter Number
- Parameter Text (setting name)
- Parameter Unites (e.g., Amps)
- CRC-16
- Illegal parameter to read
- Illegal Data Value (03h)
- Illegal Register Illegal Write
- 62h Read Enumeration Text Command
- Table 80 - 62h Read Enumeration Text Command
- Requests from the master must have the following format:
- 1 byte
- 1 byte
- 2 bytes
- 1 byte
- 2 bytes
- A successful response from the slave will have the following format:
- 1 byte
- 1 byte
- 2 bytes
- 1 byte
- 16 bytes
- 2 bytes
- Slave Address
- Function Code (62h)
- Parameter Number
- Enumeration Index
- CRC-16
- Slave Address
- Function Code (62h)
- Parameter Number
- Enumeration Index
- Enumeration Text
- CRC-16
- Illegal parameter to read
- Illegal Data Value (03h)
- Illegal Register
- 7Dh Encapsulated Packet With Control Command
- Requests from the master must have the following format:
- 1 byte
- 1 byte
- 2 bytes
- 1 byte
- n bytes
- 2 bytes
- A successful response from the slave will have the following format:
- 1 byte
- 1 byte
- 2 bytes
- 1 byte
- n bytes
- 2 bytes
- Slave Address
- Function Code (7Dh)
- Subfunction (2000h)
- Modbus Function
- Optional Data to Support Modbus Function (0…250)
- CRC-16
- Slave Address
- Function Code (7Dh)
- Subfunction (2100h or 2101h)
- Function Code (7Eh)
- Optional Data to Support Modbus Function (0…250)
- CRC-16
- Requests from the master must have the following format:
- 1 byte
- 1 byte
- 2 bytes
- 1 byte
- 1 byte
- 2 bytes
- Slave Address
- Function Code (7Dh)
- Subfunction (2100h or 2101h)
- Function Code (7Eh)
- Function Error Code
- CRC-16
- 7Eh NOP Command
- Table 83 - 17Eh NOP Command
- Requests from the master must have the following format:
- 1 byte
- 1 byte
- 2 bytes
- A successful response from the slave will have the following format:
- 1 byte
- 1 byte
- 2 bytes
- An example of a 7D message using 7E will have the following format:
- 1 byte
- 1 byte
- 2 bytes
- 2 bytes
- 1 byte
- 2 bytes
- Slave Address
- Function Code (7Eh)
- CRC-16
- Slave Address
- Function Code (7Eh)
- CRC-16
- Slave Address
- Function Code (7Dh)
- Subfunction (2100h)
- Subfunction (2101h)
- Function Code (7Eh)
- CRC-16
- Modbus Password Control and Parameter Modification
- Modbus Serialized Events Recording Register Operation
- 1. Write the date and time for the first desired record to the Start Record Time/Date registers of the SER region of the map.
- 2. Read the Number of Records Available register to determine how many SER records are available on or after the selected date and time. Ten records are available for reading from the SER region of the map.
- 3. Write to the Selected Starting Record register to select additional records from the number available. For example, if the Number of Records available is 25, write 11 to the Selected Starting Record to read records 11…20.
- Modbus Load Profile Register Operation
- 1. Read the Load Profile 1 Name to Load Profile 12 Name registers from the Product Information region of the map. These names are returned as a NULL terminated ASCII string and provide the human readable label for the profiled data. If the load profi...
- 2. Write the date and time for the first desired record to the Start Record Time/Date registers of the Load Profile region of the map. Up to 100 records are available on or after the selected date and time. Channels that are not profiling data return...
- INT
- INT10
- INT100
- INT1000
- UINT
- UINT10
- UINT100
- UINT1000
- LONG
- LONG10
- LONG100
- LONG1000
- BITMAP
- ENUM
- STRING
- Value ranges = –32767…32767
- INT with scale factor of 10
- (divide by 10 to obtain value)
- INT with scale factor of 100
- (divide by 100 to obtain value)
- INT with scale factor of 1000
- (divide by 1000 to obtain value)
- Value ranges from 0 to 65535
- UINT with scale factor of 10
- (divide by 10 to obtain value)
- UINT with scale factor of 100
- (divide by 100 to obtain value)
- UINT with scale factor of 1000
- (divide by 1000 to obtain value)
- Value ranges = –2147483647…2147483647, most
- significant word in lower address register
- LONG with scale factor of 10
- (divide by 10 to obtain value)
- LONG with scale factor of 100
- (divide by 100 to obtain value)
- LONG with scale factor of 1000
- (divide by 1000 to obtain value)
- A bitmapped value
- An enumerated value
- A null terminated ASCII string
- 0x8000
- 0x8000
- 0x8000
- 0x8000
- 0x8000
- 0x8000
- 0x8000
- 0x8000
- 0x80000000
- 0x80000000
- 0x80000000
- 0x80000000
- 11- Testing & Troubleshooting
- Overview
- Testing
- Commissioning Tests
- Introduction
- Required Equipment
- Procedure
- 1. Remove the control voltage and AC signals from the 825-P by opening the appropriate breakers or removing fuses.
- 2. Isolate the relay trip contact.
- 3. Verify the correct AC and DC connections by performing point-to-point continuity checks on the associated circuits.
- 4. Apply AC or DC control voltage to the relay.
- 5. After the relay is energized, the front panel green ENABLE LED illuminates.
- 6. Connect a PC to the relay using an appropriate serial cable.
- 7. Start the MPS Explorer software and establish communication with the relay.
- 8. Set the correct relay time and date using either the front panel or MPS Explorer software.
- 9. Enter the relay settings for your application.
- 10. If you are connecting an external RTD scanner, follow the substeps below; otherwise continue with Step 11.
- 11. Verify the relay AC connections.
- 12. Connect the AC test source current or voltage transformers to the relay side of the open breaker or contactor.
- 13. Apply the rated current.
- 14. If the relay is equipped with voltage inputs, apply rated voltage for your application.
- 15. Use the front panel METER VALUES > INSTANTANEOUS METER function or serial port METER command to verify that the relay is measuring the magnitude and phase angle of both voltage and current correctly. Take into account the relay PTR and CTR1 setti...
- 16. If you are using a core balance current transformer, apply a single-phase current (A-Phase) as described in Step 11. Do not apply voltage.
- 17. Verify that the relay is measuring the magnitude and phase angle of the GF Current-Core Balance correctly.
- 18. Verify the control input connections are properly seated. Check the control input status in the relay using the front panel MAIN > TARGETS > ROW 9 function. As the appropriate voltage is applied across input common and input, its corresponding po...
- 19. Verify the output contact operation by performing the following steps:
- a. Disconnect the MCM converter module cable from the connector on the rear panel of the 825-P. The 825-P trip relay and AUX1 (alarm) relay will be energized once the front panel displays the following output:
- b. Set AUX2C to equal: 0 0 0 0 0 0 0 1. This will cause the AUX2 contact to close.
- c. Repeat this process for AUX3…AUX6, if present. Ensure that each contact closure produces the result required in its associated annunciation, control, or trip circuit.
- d. Reconnect the MCM converter module cable to the 825-P.
- e. Select STATUS from the front panel display menu and press the Enter push button. The front panel displays the following: Confirm Hardware Config (Enter)
- f. Press . The front panel displays the following: Accept Config? Yes No
- g. Select Yes, then press the Enter push button. The front panel displays the following: Config Accepted Enter to Restart
- h. Press . The 825-P will restart and the ENABLE LED will illuminate to indicate that the MCM module is recognized.
- 20. Perform any protection element tests using the individual element test procedures in Selected Functional Tests on page 151.
- 21. Connect the relay for tripping duty.
- 22. Verify that any settings changed during the tests performed in Step 19 and Step 20 are changed back to the correct values for your application.
- 23. Prepare the relay for operation by clearing the relay data buffers using MPS Explorer software.
- 24. Start the motor only when it is safe to do so.
- 25. Verify the following AC quantities using the front panel METER or serial port METER command:
- 26. If your relay is equipped with voltage inputs, verify the following:
- Selected Functional Tests
- Phase Current Measuring Accuracy
- 1. Connect the current source to the MCM converter module, as shown in Figure 50.
- 2. Using the front panel or MPS Explorer software, record the Phase CT Ratio and Phase Rotation setting values.
- 3. Set the phase current angles to apply balanced three-phase currents in accordance with the Phase Rotation setting. Refer to Figure 48 on page 149.
- 4. Set each phase current magnitude equal to the values listed in Column 1 of Table 85. Use the front panel to view the phase current values. The relay displays the applied current magnitude times the CT Ratio setting.
- Current Unbalance Element Accuracy
- 1. Connect the current source to the MCM module as shown in Figure 48.
- 2. Using the front panel SET/SHOW function or MPS Explorer software, record the Phase CT Ratio, Phase Rotation, and Motor FLA (Ie) setting values.
- 3. Set the phase current angles to apply balanced three-phase currents in accordance with the Phase Rotation setting. See Figure 48.
- 4. Apply the appropriate magnitude for each phase current as shown in column 1 of Table 86
- Power and Power Factor Measuring Accuracy
- Wye-Connected Voltages
- 1. Connect the current source to the MCM module, as shown in Figure 50.
- 2. Connect the voltage source to the 825-P, as shown in Figure 51. Make sure that Xfmt Connection = Wye.
- 3. Using the front panel SET/SHOW or MPS Explorer software, record the Phase CT Ratio, Phase VT Ratio, and Phase Rotation setting values.
- 4. Apply the current and voltage quantities shown in Column 1 of Table 87. Values are given for Phase Rotation = ABC and Phase Rotation = ACB.
- 5. Use the front panel METER function or MPS Explorer software to verify the results.
- Delta-Connected Voltages
- 1. Connect the current source to the MCM module, as shown in Figure 50 on page 151.
- 2. Connect the voltage source to the 825-P, as shown in Figure 52. Make sure that Xfmr Connection=Delta.
- 3. Use the front panel SET/SHOW or MPS Explorer software to record the Phase CT Ratio, Phase VT Ratio, and Phase Rotation setting values.
- 4. Apply the current and voltage quantities shown in Column 1 of Table 88. Values are given for Phase Rotation = ABC and Phase Rotation = ACB.
- 5. Use the front panel METER or MPS Explorer software to verify the results.
- Phase Current Measuring Accuracy
- Periodic Tests (Routine Maintenance)
- Commissioning Tests
- Troubleshooting
- Field Serviceability
- Power Supply Fuse Replacement
- 1. De-energize the relay.
- 2. Remove the eight rear panel screws, ground screw, and relay rear panel.
- 3. Remove the Slot A printed circuit board.
- 4. Locate the fuse on the board, then remove the fuse from the fuse holder.
- 5. Replace the fuse with a BUSS 2A/250V ABC (ceramic) or equivalent.
- 6. Insert the printed circuit board into Slot A.
- 7. Reinstall the relay rear panel, ground screw, and eight rear panel screws.
- 8. Energize the relay.
- Real-Time Clock (RTC) Battery Replacement
- 1. De-energize the relay.
- 2. Remove the eight rear panel screws, ground screw, and relay rear panel.
- 3. Remove the Slot B printed circuit board.
- 4. Locate the battery clip (holder) on the circuit board.
- 5. Remove the existing battery from beneath the battery clip.
- 6. Properly dispose of the battery.
- 7. Install the new battery, 3V lithium coin cell battery (Rayovac BR2335 or equivalent), with the positive (+) side facing up.
- 8. Insert the printed circuit board into Slot B.
- 9. Reinstall the relay rear panel, ground screw, and eight rear panel screws.
- 10. Energize the relay.
- 11. Set the relay date and time.
- Power Supply Fuse Replacement
- Troubleshooting DeviceNet
- Troubleshooting Device Backplane Communication
- 12 -ASCII Serial Communications
- Overview
- ASCII Serial Port Operation
- Serial Port Settings
- Description of Commands
- View or Change Settings with Front Panel Serial Port
- 13- Firmware Upgrade Instructions
- Overview
- Required Equipment
- Upgrade Instructions
- 1. If the relay is in service, open its motor control circuits.
- 2. Connect the PC to the front-panel serial port and enter Access Level 2.
- 3. Save the current relay settings.
- 4. Type BAU 38400 and press the Enter key.
- 5. Begin the transfer of new firmware to the relay by issuing the REC command.
- 6. Type Y to erase the existing firmware or press the Enter key to abort.
- 7. Press any key (e.g., the Enter key) when the relay sends a prompt.
- 8. Start the file transfer.
- 9. The relay illuminates the ENABLE front-panel LED if the relay settings were retained through the download.
- Calibration settings lost, please call the factory!
- d. Enter Access Level 2.
- e. Issue STATUS command, and verify that the relay status is OK.
- f. Set the relay clock and calendar using the DATE and TIME commands.
- g. Set the Relay and Port settings using the following commands: SET, SET M, and SET P.
- h. Set the relay passwords with the PAS command.
- 10. Set the communications software settings (baud rate, number of data bits, number of stop bits) to agree with the port settings of the 825-P.
- 11. Issue the STATUS command, and then verify that all relay self-test results are OK.
- 12. Apply current and voltage signals to the relay.
- 13. Issue the METER command, and then verify that the current and voltage signals are correct.
- Overview
- A- Specifications
- B- Parameter List
- C- Relay Word Bits
- Chapter 13
- D- ASCII Port Relay Command Summary
- E- DeviceNet Information
- Electronic Data Sheets
- Product Codes
- DeviceNet Objects
- Table 114 - DeviceNet Object Classes
- 0x0001
- 0x0002
- 0x0003
- 0x0004
- 0x0005
- 0x0008
- 0x0009
- 0x000F
- 0x0010
- 0x001E
- 0x0029
- 0x002B
- 0x002C
- 0x00B4
- 0x00C2
- Identity
- Message Router
- DeviceNet
- Assembly
- Connection
- Discrete Input Point
- Discrete Output Point
- Parameter Object
- Parameter Group Object
- Discrete Output Group
- Control Supervisor
- Acknowledge Handler
- Overload Object
- DN Interface Object
- PCP Object
- Identity Object - CLASS CODE 0x0001
- Message Router - CLASS CODE 0x0002
- DeviceNet Object - CLASS CODE 0x0003
- Assembly Object - CLASS CODE 0x0004
- Custom Parameter Based Input (Produced) Assembly Instance 100
- Standard Input (Produced) Assemblies
- Byte
- 0
- Bit 7
- Bit 6
- Bit 5
- Bit 4
- Bit 3
- Bit 2
- Bit 1
- Bit 0
- Fault
- Byte
- 0
- Bit 7
- Bit 6
- Bit 5
- Bit 4
- Bit 3
- Bit 2
- Bit 1
- Warning
- Bit 0
- Fault
- Byte
- 0
- 1
- 2
- 3
- Bit 7
- Bit 6
- Bit 5
- Bit 4
- Bit 3
- Bit 2
- Bit 1
- Warning
- Bit 0
- Tripped
- Byte
- 0
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- Bit 7
- Bit 6
- Bit 5
- Bit 4
- Bit 3
- Bit 2
- Bit 1
- Warning
- Bit 0
- Tripped
- Byte
- 0
- 1
- 2
- 3
- 4
- Bit 7
- Bit 6
- Bit 5
- Bit 4
- Bit 3
- Bit 2
- Bit 1
- Warning
- Bit 0
- Tripped
- Byte
- 0
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- Bit 7
- Bit 6
- Bit 5
- Bit 4
- Bit 3
- Bit 2
- Bit 1
- Warning
- Bit 0
- Tripped
- Byte
- 0
- 1
- Bit 7
- Input 8
- Bit 6
- Input 7
- Bit 5
- Input 6
- Bit 4
- Input 5
- Bit 3
- Input 4
- Bit 2
- Input 3
- Bit 1
- Input 2
- Bit 0
- Input 1
- Byte
- 0
- 1
- Bit 7
- Net Out 8
- Net Out 16
- Bit 6
- Net Out 7
- Net Out 15
- Bit 5
- Net Out 6
- Net Out 14
- Bit 4
- Net Out 5
- Net Out 13
- Bit 3
- Net Out 4
- Net Out 12
- Bit 2
- Net Out 3
- Net Out 11
- Bit 1
- Net Out 2
- Net Out 10
- Bit 0
- Net Out 1
- Net Out 9
- Byte
- 0
- 1
- Bit 7
- GF Res
- GF CB
- Bit 6
- PTC
- Sp Switch
- Bit 5
- RTD Wind
- P Factor
- Bit 4
- Short Ckt
- Ph Rev
- Bit 3
- Cur Imbal
- Over V
- Bit 2
- Jam
- Under V
- Bit 1
- Undercurrent
- Under power
- Bit 0
- Overload
- VAR
- Byte
- 0
- 1
- Bit 7
- MCM err
- Bit 6
- RTD err
- Bit 5
- PTC err
- Bit 4
- RTD Amb
- Bit 3
- RTD other
- Bit 2
- Freq 2
- Remote
- Bit 1
- Freq 1
- Comm Idle
- Bit 0
- Stall
- Comm Loss
- Byte
- 0
- 1
- Bit 7
- GF Res
- GF CB
- Bit 6
- PTC
- Sp Switch
- Bit 5
- RTD Wind
- P Factor
- Bit 4
- Short Ckt
- Ph Rev
- Bit 3
- Cur Imbal
- Over V
- Bit 2
- Jam
- Under V
- Bit 1
- Undercurrent
- Under power
- Bit 0
- Overload
- VAR
- Byte
- 0
- 1
- Bit 7
- MCM err
- Bit 6
- RTD err
- Bit 5
- PTC err
- Bit 4
- RTD Amb
- Bit 3
- RTD other
- Bit 2
- Freq 2
- Remote
- Bit 1
- Freq 1
- Comm Idle
- Bit 0
- Stall
- Comm Loss
- Byte
- 0
- 1
- Bit 7
- Bit 6
- Bit 5
- Bit 4
- I/O Idle
- Bit 3
- I/O Flt
- Bit 2
- Exp Flt
- Bit 1
- I/O Cnxn
- Warning
- Bit 0
- Exp Cnxn
- Trip
- Standard Output (Consumed) Assemblies
- Byte
- 0
- Bit 7
- Bit 6
- Bit 5
- Bit 4
- Bit 3
- Bit 2
- Flt Reset
- Bit 1
- Bit 0
- Byte
- 0
- 1
- Bit 7
- Aux 8
- Flt Reset
- Bit 6
- Aux 7
- Bit 5
- Aux 6
- Bit 4
- Aux 5
- Bit 3
- Aux 4
- Bit 2
- Aux 3
- Bit 1
- Aux 2
- Aux 10
- Bit 0
- Aux 1
- Aux 9
- Byte
- 0
- 1
- 2
- 3
- 4
- 5
- Bit 7
- Aux 8
- Flt Reset
- Net In 8
- Net In 16
- Net In 24
- Net In 32
- Bit 6
- Aux 7
- Net In 7
- Net In 15
- Net In 23
- Net In 31
- Bit 5
- Aux 6
- Net In 6
- Net In 14
- Net In 22
- Net In 30
- Bit 4
- Aux 5
- Net In 5
- Net In 13
- Net In 21
- Net In 29
- Bit 3
- Aux 4
- Net In 4
- Net In 12
- Net In 20
- Net In 28
- Bit 2
- Aux 3
- Net In 3
- Net In 11
- Net In 19
- Net In 27
- Bit 1
- Aux 2
- Aux 10
- Net In 2
- Net In 10
- Net In 18
- Net In 26
- Bit 0
- Aux 1
- Aux 9
- Net In 1
- Net In 9
- Net In 17
- Net In 25
- Byte
- 0
- 1
- Bit 7
- Aux 8
- Flt Reset
- Bit 6
- Aux 7
- Bit 5
- Aux 6
- Bit 4
- Aux 5
- Bit 3
- Aux 4
- Bit 2
- Aux 3
- Bit 1
- Aux 2
- Aux 10
- Bit 0
- Aux 1
- Aux 9
- Byte
- 0
- 1
- Bit 7
- Net Input 8
- Net Input 16
- Bit 6
- Net Input 7
- Net Input 15
- Bit 5
- Net Input 6
- Net Input 14
- Bit 4
- Net Input 5
- Net Input 13
- Bit 3
- Net Input 4
- Net Input 12
- Bit 2
- Net Input 3
- Net Input 11
- Bit 1
- Net Input 2
- Net Input 10
- Bit 0
- Net Input 1
- Net Input 9
- Byte
- 0
- 1
- Bit 7
- Net Input 24
- Net Input 32
- Bit 6
- Net Input 23
- Net Input 31
- Bit 5
- Net Input 22
- Net Input 30
- Bit 4
- Net Input 21
- Net Input 29
- Bit 3
- Net Input 20
- Net Input 28
- Bit 2
- Net Input 19
- Net Input 27
- Bit 1
- Net Input 18
- Net Input 26
- Bit 0
- Net Input 17
- Net Input 25
- Connection Object - CLASS CODE 0x0005
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 12
- 13
- 14
- 15
- 16
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get/Set
- Get
- Get
- Get
- Get
- Get
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 12
- 13
- 14
- 15
- 16
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get/Set
- Get/Set
- Get
- Get/Set
- Get
- Get/Set
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 12
- 13
- 14
- 15
- 16
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get/Set
- Get
- Get
- Get
- Get
- Get/Set
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 12
- 13
- 14
- 15
- 16
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get/Set
- Get
- Get
- Get
- Get
- Get
- 0x05
- 0x0E
- 0x10
- No
- No
- No
- Yes
- Yes
- Yes
- Reset
- Get_Attribute_Single
- Set_Attribute_Single
- Discreet Input Point Object - CLASS CODE 0x0008
- Discreet Output Point Object - CLASS CODE 0x0009
- Discrete Output Point Object Special Requirements
- Parameter Object - CLASS CODE 0x000F
- 1
- 2
- 8
- 9
- Get
- Get
- Get
- Get
- Revision
- Max Instance
- Parameter Class Descriptor
- Configuration Assembly Instance
- UINT
- UINT
- WORD
- UINT
- 0
- 0x0E
- 0x10
- 0x01
- Yes
- No
- No
- Yes
- Yes
- Yes
- Get_Attribute_Single
- Set_Attribute_Single
- Get_Attributes_All
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
- 13
- 14
- 15
- 16
- 17
- 18
- 19
- 20
- 21
- Get/Set
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Get
- Value
- Link Path Size
- Link Path
- Descriptor
- Data Type
- Data Size
- Parameter Name String
- Units String
- Help String
- Minimum Value
- Maximum Value
- Default Value
- Scaling Multiplier
- Scaling Divisor
- Scaling Base
- Scaling Offset
- Multiplier Link
- Divisor Link
- Base Link
- Offset Link
- Decimal Precision
- Parameter Object - CLASS CODE 0x0010
- Discrete Output Group Object - CLASS CODE 0x001E
- 3
- 4
- 6
- 104
- 105
- Get
- Get
- Get/Set
- Get/Set
- Get/Set
- USINT
- Array of UINT
- BOOL
- BOOL
- BOOL
- 3
- 4
- 7
- 8
- 9
- 10
- 113
- 114
- Get
- Get
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- USINT
- Array of UINT
- BOOL
- BOOL
- BOOL
- BOOL
- BOOL
- BOOL
- 3
- 4
- 7
- 8
- 9
- 10
- 113
- 114
- Get
- Get
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- USINT
- Array of UINT
- BOOL
- BOOL
- BOOL
- BOOL
- BOOL
- BOOL
- 3
- 4
- 7
- 8
- 9
- 10
- 113
- 114
- Get
- Get
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- USINT
- Array of UINT
- BOOL
- BOOL
- BOOL
- BOOL
- BOOL
- BOOL
- 0x0E
- 0x10
- No
- No
- Yes
- Yes
- Get_Attribute_Single
- Set_Attribute_Single
- Control Supervisor Object - CLASS CODE 0x0029
- Acknowledge Handler Object - CLASS CODE 0x002b
- Overload Object - CLASS CODE 0x002c
- DeviceNet Interface Object - CLASS CODE 0x00B4
- 1
- Get
- Revision
- UINT
- 02
- 7
- 8
- 9
- 10
- 15
- 16
- 17
- 19
- 23
- 24
- 30
- 50
- 55
- 56
- 57
- 58
- 65
- 66
- 67
- 68
- 69
- 70
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- Get
- Get
- Get
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- Get/Set
- UINT
- UINT
- UINT
- UINT
- BOOL
- USINT
- USINT
- BOOL
- USINT
- USINT
- UINT
- WORD
- UINT
- UINT
- UINT
- UINT
- UINT
- UINT
- UINT
- UINT
- UINT
- UINT
- 0…1
- 0…185
- 0…185
- 0…1
- 0…16
- 0…8
- 0…0x00FF
- 0…ffff
- 0…ffff
- 0…ffff
- 0…ffff
- 0…ffff
- 0…ffff
- 1
- 5
- 6
- 7
- 1
- 150
- 103
- 0
- 0
- 0
- 0
- 0
- 0
- 0
- 0
- 0
- 0
- 0
- 0
- 0x0E
- 0x10
- No
- No
- Yes
- No
- Get_Attribute_Single
- Set_Attribute_Single
- Back Cover