TSP-6/50 DUO-MAX Cavity fixing
Duo-Max TSP, Cavity fixing with screw
Cavity fixing  L10160
TSP-6/50 DUO-MAX Cavity fixing
Duo-Max TSP, Cavity fixing with screw
Cavity fixing  L10160

Duo Max TSP 6/50 Box 25 Pcs

Catalogue Number: 1240001
TSP-6/50 DUO-MAX Cavity fixing
Duo-Max TSP, Cavity fixing with screw
Cavity fixing  L10160
TSP-6/50 DUO-MAX Cavity fixing
Duo-Max TSP, Cavity fixing with screw
Cavity fixing  L10160
Colour:
Colour: Per UOM Std.
  • 1 PCE

Specifications

hide show
Range of product
Thorsman
Product or component type
cavity fixing
Device short name
TSP
Provided equipment
screw
Mounting support
board material - thickness: 3-26 mm
Device application
3-26 mm board material
Mounting support
wall mounted
Thread type
M3
Screw diameter
3 mm
Screw length
50 mm
Drilling diameter
6 mm
Colour tint
red/white
Quantity per set
set of 25
Net weight
0.0028 kg
Material
  • screw: steel electroplated
  • collar: PA (polyamide)
  • spring: PA (polyamide)
    • Practical load capacity
    • shear: 180 N for 13 mm board 4.5 )
    • pull-out load: 70 N for 13 mm board 6 )
    • shear: 240 N for 2 x 13 mm board 4.5 )
    • pull-out load: 90 N for 2 x 13 mm board 6 )
      • Thickness
      • 0-20 mm fixture 13 mm board
      • 0-7 mm fixture 2 x 13 mm board
        • Environmental characteristic
          corrosion resistance
          Ambient air temperature for operation
          -40-80 °C
          Diameter
          11 mm
          Length
          52 mm
          Sustainable offer status
          Green Premium product
          REACh Regulation
          Free of Substances of Very High Concern above the threshold
          REACh free of SVHC
          Yes
          EU RoHS Directive
          Pro-active compliance (Product out of EU RoHS legal scope)
          Toxic heavy metal free
          Yes
          Mercury free
          Yes
          RoHS exemption information
          Yes
          China RoHS Regulation
           Pro-active China RoHS declaration (out of China RoHS legal scope)
          Environmental Disclosure
          ENVPEP101028EN
          Circularity Profile
          N/A
          Warranty
          18 months

          Documents & downloads

          hide show
          Filter items
          • All

          • Product Brochures

          • Technical Data Catalogues

          • Catalog Page

          • Product Environmental

          • Handout

          • Operating Manuals

          • Certificates (MSDS)

          • Declaration of Conformity

          Frequently Asked Questions

          hide show

          Concept 2.6. Trying to assign an address to a variable using the format '%I1' produces error message: "Invalid selector of register address Error ID: NCC-19902".

          Open the Concept project and navigate to Options - Preferences and choose IEC format. Once this option is chosen,
          the following rule applies:

          Entering %0x0001 on a pin will display %Q0001 on the block.
          Entering %1x0001 on a pin will display %I0001 on the block.
          Entering %3x0001 on a pin/block will display %IW0001 on the block.
          Entering %4x0001 on a pin/block will display %QW0001 on the block.

          You will find that this will alter the \windows\concept.ini file' [Common] section. AddrStyle=3 will be set.


          Can I use a PDL699TB with a 14470019 modem pack floor socket bracket

          Yes, PDL699TB will suit the 14470019 modem

          How to gear in two LXM28 drives in SoMachine?

          Issue:
          Setup function block GearIn_LXM28 so that the master and slave drives follow each other perfectly

          Product Line:
          LXM28

          Resolution:
          The NUM of the GearIn_LXM28 function block should be set to 1280000 and the DENUM should be set to 8192 (2048 x 4).
          This will make the perfect gear between the master and slave.

          What is the native resolution of the encoder counts for Lexium 28 servo drives?

          The native resolution for Lexium 28 is 1280000 counts per revolution on the motor.

          This is important to know especially when using the LXM28 in gear mode.
          The factory default ratio for gear mode is 128/10      (128 = numerator  10 = denominator)
          The equates to 128 motor increments for 10 pulses applied to the pulse train input.  


          Rev 10-23-18
           

          What is the factory default scaling on Lexium 28 servo drives?

          The factory default for position scaling is 128 as the numerator and 10 and the denominator.  Parameters P1-44 and P1-45 respectively.
          These values are based on the encoder feedback resolution of 1280000 counts per revolution from the motor.

          With the factory default scaling a commanded move of 100000 will result in the motor shaft making one full revolution.


          rev 7-19-18

           

          What is the native resolution of the encoder counts for Lexium 28 servo drives?

          The native resolution for Lexium 28 is 1280000 counts per revolution on the motor.

          This is important to know especially when using the LXM28 in gear mode.
          The factory default ratio for gear mode is 128/10      (128 = numerator  10 = denominator)
          The equates to 128 motor increments for 10 pulses applied to the pulse train input.  


          rev 10-19-17

          What is the life cycle of the 30MBP?

          The 30MBP has been tested to 12000 cycles.

          Where can I find the register list for CM3000, CM4000, CM4250, CM4000T meters?

          Product Line
          CM3000, CM4000, CM4250, CM4000T

          Environment
          Register List, Commands, Data Types
           
          Resolution
          View the attached documents for Register List.

          See attached document:

          Does the 1240/25 series come with gaskets?

          No, they are light duty. Buy the 1240HL25 to obtain a heavy duty lid and gasket , or if gasket is required for retro fit then buy 1240GT
          For more information on this product range please visit the Clipsal web site on the link provided
          https://www.clipsal.com/Trade/search-results?q=1240

          What is the rated operational current and durability when used with DC voltage for a ZBE102

           0.55Amp at 125V dc-13, and durability of 1000000 cycles

          Is it possible to configure the PM800 series meters to only reset Min/Max values manually?

          Issue:
          A customer would like to change the Min/Max reset behavior on a PM800 series meter from the default monthly time interval to only on a manual basis.

          Product Line:
          PM800 series meters

          Environment:
          PM810 / PM820 / PM850 / PM870

          Cause:
          By default the Min/Max values for the PM800 series meters are configured to reset on a monthly basis.

          Resolution:
          Register 1443 is the Min/Max Configration register, to NOT allow Monthly Min/Max resets, that register must be set to a zero (0).

          if Bit 0 = ‘1’ the Present Month Min/Max is copied to the Previous Month Min/Max at 12:00:01 AM of the new month.

          To set register 1443 to 0 perform the following modbus register writes below.

          1) write value 9020 to register 8000 
          2) write value 0 to register 1443
          3) write value 1 to register 8001
          4) write value 9021 to register 8000

          These writes can be performed either through the front panel of the meter following the register write instructions on page 26 of the PM800 User Guide, or using Modbus Tester.

          How can I direct the diagnostics display to write to a file on the E-series SCADAPack file system?

          The diagnostic display can be directed to an SCADAPack E file, rtudiag.log with the use of the FILEDIAG command.

          The diagnostic display can only be directed to a single service at any given time, and so if the diagnostic mode is already enabled in the RTU, it will have to be disabled before diagnostic file logging can commence.

          If the FILEDIAG command is invoked while a diagnostic display session is active, the following message will be displayed

          Diagnostic display already in-use

          Use RESTART DIAG to disconnect remote user

          The available commands are as follows:

          FILEDIAG [filesize]
           This command is used to enable diagnostic file logging. Filesize is an optional parameter:

          · If filesize is not specified, there is no limit to the size of the log file (rtudiag.log).  

          · If filesize is specified, diagnostic file logging is stopped when the rtudiag.log file exceeds that size. Because the filesize parameter is used as a trigger to stop diagnostic logging, a few seconds worth of diagnostic information may be appended to the rtudiag.log file after the specified file size is reached.

          Activating diagnostic file logging will overwrite any previously created rtudiag.log files.
           
          FILEDIAG 0
           This command is used to disable diagnostic file logging.
           
          A FILEDIAG request with no file size specified will be characterized by the following messages. On SCADAPack 530E and SCADAPack 535E RTUs, the /user prompt replaces c:\ in the messages.

          Diagnostic File Logging Commenced (c:\rtudiag.log). Max size not restricted

          Use command FILEDIAG 0 to disable

          A FILEDIAG request that specifies a file size, e.g. FILEDIAG 12000, will be characterised by the following messages:

          Diagnostic File Logging Commenced (c:\rtudiag.log). Max size = 12000 bytes

          Use command FILEDIAG 0 to disable

           A FILEDIAG 0 request to disable diagnostic file logging will be characterised by the following message

          Diagnostic File Logging Disabled

           

          Is ISO 9001 or 14001 available for NetShelter SX, SV or CX cabinets?

          Issue: 
          ISO certifications are not noted on the individual product pages of the APC website. 

          Product Line: 
          NetShelter SX, SV or CX cabinets and all accessories. 

          Environment: 
          All models, all serial numbers. 

          Cause: 
          A customer is requesting ISO 9001 and/or 14001 certification for specific NetShelter cabinets or accessories. 

          Resolution: 
          An ISO certification (9001 and 14001) is on a company's quality system and environmental system respectively, there is no ISO for an individual product.
          Here's a link to the APC by Schneider Electric ISO documents: https://www.apc.com/us/en/who-we-are/sustainability/environmental-compliance/quality-environmental-policies.jsp
           

          CM2000 series power meter displays "Current Unbalance Worst" alarm after updating the firmware

          Issue
          After upgrading the firmware on a CM2000 series power meter, the meter activates the "Current Unbalance Worst" alarm.

          Product Line
          CM2000 Series Power Meter

          Environment
          Power Meter Alarms

          Cause
          The Current Unbalance monitoring was only available for 4-wire systems before firmware version 17.000. As of firmware version 17.000, Current Unbalance monitoring was added for 3-Wire systems.

          When the firmware on a CM2000 seriese meter that is monitoring a three wire system is upgraded from a version previous to 17.000, the alarm appears because the meter is setting the worst current unbalance for the first time.

          Resolution
          Wait for the monitoring to take into account the normal fluxuations of the current. Once the worst setting is set below the normal fluxuations the system will stop alarming until a new worst case unbalance occurs.

          Description of P1-46 on LXM28 drive

          Issue:
          Description of P1-46 on LXM28 drive

          Product Line:
          LXM28

          Resolution:
          That parameter is for ESIM output resolution.
          Default is 2048 counts from the encoder output based on 1 rotation of the motors encoder at 1280000 counts

          What is the replacement for the GV1M06?

          GV2ME06 is the replacement range.

          Can I remotely scan a customer network with Toolkit and just a CNI (C-Bus Network Interface)?

          Yes, you will need to purchase and configure a CNI for the network, once you have set a static IP on the CNI you will need to setup Port Forwarding in the customers Modem/Router.

          You will need to create a Port forward Rule, to allow port 10001 from External to Port 10001 Internal at the IP address of the CNI.
          For help with Port Forwarding go to a service like https://www.portforward.com

          Once this has been configured, you will need to configure the confection in Toolkit to use either a CNI or Wiser connection type, enter the IP address that the ISP has assigned to that customers connection (Not the internal IP of the CNI), the Port should already be set to 10001 - Do not change this.

          The External IP can be either Dynamic or Static, if it's Static this will not change, but if Dynamic you will need to use a method to be able to check what the current External IP is before trying to connect.

          You can use a service like https://dyn.com/dns/ sign up for an account and enter those details into the customer Modem, to check the IP you will need to go to a Command Prompt (CMD) and Ping the URL address, it will respond with the current External IP address that the ISP has assigned to the customers Internet Connection

          How SCADAPack's digital input can be used as 32-bit counter and then input for TelePACE FLOW block?

          In SCADAPack-s with TelePACE firmware, 32-bit integers are stored in the form: Lower word at lower address, higher word at higher address. If digital input at address 10001 is used to count pulses and ladder logic shown in the attachment, then 32-bit unsigned integer (double word) at address 40009 can be used as input register for FLOW block.
           

          What is the minimum version of firmware required for the CM4000T to enable Flicker monitoring?

          Issue
          Minimum firmware required for flicker monitoring on the CM4000T

          Product Line
          CM4000T

          Environment
          Firmware

          Resolution
          It is necessary to have CM4000T firmware version 12.32 or later AND CVMT firmware 11.00 or later to enable Flicker monitoring.

          Do you know the color code of ATV38? (In China, we use a serial number to define different color ,that is color code,for instance Red is GB-0001 etc....

          Goals and Symptoms

          Do you know the color code of ATV38? (In China, we use a serial number to define different color ,that is color code,for instance Red is GB-0001 etc. It is a color standard.I am not sure if it is the same in France?)

          Causes and Fixes

          The color of plastic is RAL7030, it's a standard in Europe and it's possible to have more details with a painting manufacturer.

          What is the dimension of 1260025 TMX-4E hollow wall anchor cavity fixing with screw?

          The dimension of 1260025 TMX-4E is 14mm (diameter) x 47mm (length). 1260025 is cavity fixing including fully threaded screw with combi-head and Phillips cross-slot.
          Benefits
          • Captive fixing – stays fixed even when the screw is not tightened
          • Anti-rotation design
          • Pre-assembled screw
          • High load values
          • Fire-resistant
          • Ideal for overhead cavity fixing
          Material and Operative Data:
          Material cavity fixing Expanding part: electroplated sheet metal
          Screw: electroplated steel
          Material mounting tool: Steel and plastic
          Temperature range:  –40°C to 80°C
          For further information please visit https://www.clipsal.com/Trade/Products/ProductDetail?catno=1260025
          User-added image

          How to use MBMaster to verify basic modbus communications.

          Issue
          Using MBMaster to verify that a Modbus device is working.

          Product Line
          Modbus devices

          Environment
          Windows

          Cause
          MbMaster can be used to determine if a modbus device is working.

          Resolution
          Run this program from a DOS prompt.

          For example here is a sample where I connect to a 6200 device at 19,200 baud. I am using the PC's COM2. The meter's Unit ID is 100 and it is configured to use the Modbus protocol. I am asking for Modbus address 44000 which provides the password for this meter. My meter's password is 0.

          MBMaster provides quite a bit of diagnostic information which you can ignore in this case. Just look for the data from the register.

          -=-=-=-=-=- Sample MBMaster -=-=-=-=-=-=-=-
          H:\\Bin>mbmasterV21M3 -COM2 -B19200 -ID100 -SR44000 -NR1
          MBMASTER v2.1M3:    Compiled at Jul 13 2001 04:13:57

          Stripped BAUD from input: 19200
          Stripped SR from input: 44000
          Install ModPL
          About to open ModPL with port COM2
          Building request: modslave = 100
          Modbus AL frame received: fc = 03
          Modbus AL frame: startreg = 404000, #regs = 1
          Register 404000: 0
          Exiting.
          -=-=-=-=-=- End Sample MBMaster -=-=-=-=-=-=-=-

          • Original article#9458

            Controlled

            All content © 1992-2007 Schneider Electric


          Legacy KB System (APS) Data: RESL189023 V1.0, Originally authored by KBAdPM on 11/09/2007, Last Edited by KBAdPM on 11/09/2007
          Related ranges: Modbus / JBus

          What is Intelligent Loop Automation?

          Issue 
          Loop Automation Restrictions

          Product Line 
          ADVC

          Environment
          ADVC Controller

          Resolution
          This is an evolution of the Classic Loop Automation algorithm. Intelligent Loop Automation utilizes peer-to-peer communications between devices to eliminate the possibility of a device closing onto a fault with the network is being configured.

          What is the part number for Moduline 2 channel ducting , D35mm x H150mm x L2400mm?

          The part number for Moduline 2 channel ducting , D35mm x H150mm x L2400mm is - PL35150D.

          Fir further information , visit link below;-
          https://www.clipsal.com/Trade/search-results?q=PL35150D

          How do the rear fan doors of the NetShelter CX cabinet unlock?

          Issue:
          A customer needs to unlock the rear fan doors to open them.

          Product Line:
          NetShelter CX

          Environment:
          All versions and serial ranges.

          Cause:
          The customer is unsure how to unlock the door.

          Resolution:
          see attached

          Is there a way to place a PowerLogic meter in test mode (demo mode) to simulate a load?

          Issue 
          Is there a way to place a PowerLogic meter in test mode (demo mode) to simulate a load?

          Product Line
          CM3000
          CM4000
          PM800    

          Environment
          Powerlogic meter modes

          Cause
          Simulating a load for a Powerlogic Meter

          Resolution
          The Series 3000, 4000 Circuit Monitor (CM3000 (CM3), CM4000 (CM4)) and the Series 800 Power Meter (PM800 (PM8)) have a load simulation mode that can be enabled. The 3 phase load simulation will be based on the CT and PT ratios that are in the meter prior to enabling the simulation. 
          *Note: PM800 firmware revisions 12.000 and 12.200 do not support demo mode.

          How to enable the simulation mode using SMS or a Modbus communication utility:
          Write a decimal value of 2 to register 8001
          Write a decimal value of 32320 to register 8000.

          How to enable the simulation mode from the front panel display of the meter (refer to the device reference manual for instructions on Reading/Writing Registers):
          Write a decimal value of 2 to register 8001
          Write a decimal value of 32320 to register 8000.
          Exit the register write mode but do not save changes. The meter will reset if changes are saved and the simulation mode will be disabled. 

          The register write/read screen can be accessed by going to Maintenance (Maint), Diagnostics(Diag), Register (Reg) then entering the password, which is default 0. The register being written to can be changed by using the + soft key to increment the number by one. The <--- soft key can be used to increment the cursor by a factor of 10 (1 to 10 to 100 to 1000). Once the correct register is selected scroll down to the decimal value by pressing the ok soft key. Using the same procedure that was used to change the register value, change the value to be stored into the register. After the value is entered press ok until the cursor returns to the top.This will write the value to the register.

          To disable the simulation mode:
          Write a decimal 1110 to register 8000 or cycle control power to the meter.

          How can a floating point value be moved into 4XXXX registers in a Quantum PLC with 984 LL?


          A floating point value can be moved into 4XXXX registers with the equation network. An example of moving a floating point value of 123.456 into registers 40001 and 40002 is shown below:

           

          Can I order a CVMT for a CM4000T separately?

          Issue
          The CM4000T is shipped with one CVMT (Current Voltage Module). Is the CVMT sold independently of the circuit monitor in the case that a replacement is needed?

          Product Line
          CM4000T

          Environment
          Product Availability

          Resolution
          Yes, the Current/Voltage Module can be ordered separately.

          The CVMT supports high speed transient detection. 

          Note: Previously, there was another type of Current Voltage Module. However, now the CVM42 is obsolete along with the CM4250. The CVM42 supported an anti-aliasing filter and was compatible with the CM4000 and the CM4250.

          What combination of ECC and CM4 firmware do I need to support email on alarm?

          Issue
          It is desired to know the minimum firmware required to support ECC21's email-on-alarm for a CM4000.

          Product Line
          CM4000
          ECC21

          Environment
          Firmware

          Resolution
          Version 4.5 of the ECC firmware and version 12.81 or later of the CM4 firmware.

          ​For instructions on how to upgrade the CM4000s firmware see FA237920
          ​For instructions on how to upgrade the ECC firmware see FA212757

          Does the time or clock on a Circuit Monitor or Power Meter change during Daylight Savings Time (DST)?

          Issue
          Meters do not show the correct time and/or reset their time automatically to an incorrect time (one hour off) in SMS, ION, SPM, and/or PME.

          Product Line
          CM2000, CM3000, CM4000, PM700, PM800, PM5000 Series Meters and PM210 Meter

          Environment
          Power Monitoring Software SMS, ION, SPM, and PME

          Cause
          PowerLogic Circuit Monitors (CM2000, CM3000, CM4000) and Power Meters (PM200, PM700, PM800, PM5000) do not take into account Daylight Savings Time (DST) on board the meter. When the data is read into software (SMS, ION, SPM), the time is adjusted.
          During DST, if the local time is 2:00PM, the CM or PM will read 1:00PM on the front display.

          Resolution
          The software will make the approrpiate time corrections on data displayed and logged, but the individual meters will reset to show the time without adjustment for daylight savings. The software time will be correct during daylight savings, but the meter will show one hour difference at the meter display.

          How fast can the CM4000T update the analog outputs?

          Issue:
          A customer would like to know how fast the analog output status for a CM4000T can be updated for use in a high speed application.

          Product Line:
          CM4000T

          Environment:
          CM4000 I/O

          Resolution:
          The analog output statuses are updated once every 100 ms.  If the desired application requires faster update rates the 4000T may not be appropriate.

          STB UL Certification, 12/2007

          Goals and Symptoms

          This resolution contains the currently available STB product Underwriters Lab certification as of December 2007.

          Causes and Fixes

          See Attachments for the STB UL certification.

          Attachments


          (Removed File URL: 190462_4842/STB_UL_2007.zip)(Removed Image URL: /PubResEXPORT.nsf/2b87ee90be777fc085257c28006ee4ef/7867fd9951a10ec2c12573be001611e5/fl_block_5/0.586?OpenElement&FieldElemFormat=gif)


          Legacy KB System (APS) Data: RESL190462 V1.0, Originally authored by WeDa on 12/27/2007, Last Edited by WeDa on 12/27/2007
          Related ranges: Advantys STB

          How to control an Altivar312 (ATV312) drive with a Twido PLC via Modbus RTU?

          Goals and Symptoms

          How to control an Altivar312 (ATV312) drive with a Twido PLC via Modbus RTU?

          Causes and Fixes

          Below is a step by step procedure describing a small application using a Twido Compact PLC controlling an ATV312 drive connected via Modbus RTU. A program example can be found at the end of this procedure.
          Hardware and software used:

          - TWDLCAE40DRF Twido PLC
          - TWDNAC485T (RS485 serial interface adaptor with 3 pin screw terminal type connector)
          - TwidoSuite 2.30.007 (free to download from www.schneider-electric.com)
          - ATV312H075M2 variable speed drive


          WIRING CONSIDERATIONS FOR THE MODBUS NETWORK

          Connection:
          ATV312 RJ45 connector pin 4 - A terminal of the Twido TWDNAC485T
          ATV312 RJ45 connector pin 5 - B terminal of the Twido TWDNAC485T
          ATV312 RJ45 connector pin 8 SG terminal of the Twido TWDNAC485T





          ATV312 SETUP

          The Altivar 312 control process using the communication bus is based on the CANopen CiA 402 profile status chart compatible with the IEC61800-7 standard. Each state represents an aspect of the internal behavior of the drive.

          In practical terms, before you can start the motor you will have to write to the CMD command word, Modbus address 8501, a value of 16#0006 (drive goes to a Ready to switch on state that can be checked with ETA status word, Modbus address 3201), then a 16#0007 (drive goes to a Switched on state) and finally a 16#000F (drive goes into an Operation enabled state, drive running).

          Please refer to the chart and description of the states at the end of this document.

          Relevant parameters:

          • 1. Drive Modbus Address (ADD) - 4 in our example (default: 1)
            2. Modbus baud rate (TBR) - 19200 in our example (default)
            3. Modbus com format (TFO) - 8-E-1 in our example (default)
            4. Level of access control (LAC) - change to Level3 (default: Level1)
            Note: When the drive is controlled via a communication bus, it is advisable to configure the access level "LAC" = "L3":
            5. Configuration reference 1 (FR1) - change to Modbus (default: AI1).
            6. Control channel 1 config (CD1) - change to Modbus (default: Terminal)
            Note: Change CHCF Channel mode config to Separate to be able to change this parameter. You can change it back to Not separate after that.


          TWIDOSUITE CONFIGURATION
          Note: the program example is attached to this resolution.

          1. Your Twido controller must be configured as a Master:



          2. You have to add a Generic Modbus element with a Modbus address, 4 in our example


          3. Configuration of the Comm Macro
          Set the Modbus address of the drive in the Network address field.
          Comm Macro zero is used in this example to read N words and write N words.

          C_RDNW
          We will read one word, ETA status word, Modbus address 3201. C_RDNW will use 8 registers (1+7), from %MW0 to %MW7.
          C_RDNW _ADDR1_0 sets the address of the register to be read from the drive (%MW3:=3201).
          C_WRNW 0 1 sends the Modbus message to the drive. (0-comm macro instance, 1 number of words to be read)
          The result will be read in C_RDNW _VAL1_0 or %MW7 in our example.

          C_WRNW
          We will write two words, CMD control word, Modbus address 8501 and LFr frequency reference, Modbus address 8502. C_WRNW will use 11 register (2+9) from %MW20 to %MW30.
          C_WRNW_ADDR1_0 sets the address of the starting register to be written in the drive (MW23:=8501).
          C_WRNW_VAL1_0 sets the value of the first register be to written (%MW26, the CMD control word value)
          The second value to be written is set with %MW27 and this will be the LFr speed reference.
          C_WRNW 0 2 sends the Modbus message to the drive.(0-comm macro instance, 2 number of words to be written)





          ADDITIONAL INFORMATION


          IEC 61800-7 status chart




          Description of the status chart states




          CMD control word (W8501)


          ETA status word (W3201)


          ATV312 Communication Menu Structure



          This completes the step by step procedure on how to control an Altivar312 (ATV312) drive with a Twido PLC via Modbus RTU.

          Attachments

          (Removed File URL: 207065_2002/Twido_ATV312_Comm_Macro.zip)(Removed Image URL: /PubResEXPORT.nsf/2b87ee90be777fc085257c28006ee4ef/17453b735252b685c125797d005801cc/fl_block_5/0.EA?OpenElement&FieldElemFormat=gif)


          Legacy KB System (APS) Data: RESL207065 V1.0, Originally authored by TVe on 01/06/2012, Last Edited by TVe on 01/06/2012
          Related ranges: Twido, Altivar 312

          Data Center Operation | How to create and Restoring from backup?

          Issue:
          How to create and Restoring from backup for StruxureWare Data Center Operation?

          Product Line:
          StruxureWare Data Center Operation (DCO)

          Environment:
          StruxureWare Data Center Operation (all versions)

          Cause:
          This article explains how to create and restore from a backup for StruxureWare Data Center Operation.

          Resolution:

          For the most up to date instructions please see the URL outlined below.

          https://help.ecostruxureit.com/display/UADCO8x/Backing+up+and+restoring+backup​

          What is included with the GV2APN** through the door operators?

          Issue:
          What is the part number for a 3 position selector switch for an 8903 type LX lighting contactor?

          Product Line:
          GV2 Manual Starter Accessories

          Environment:
          All Product Lines

          Cause:
          Can not find it in the Digest

          Resolution:
          The GV2APN** through the door operators come with an external handle operator, extension shaft, and operating mechanism.

          What is the maximum number of I/O cards can be put on a Advantys PDT (Power Distribution Module)?

          Issue:
          Maximum configuration with the Advantys PDT module.

          Product line:
          Advantys

          Environment:
          Advantys Configuration Software

          Cause:
          Configuration of Advantys I/O modules build error.

          Resolution:
          The maximum number of I/O cards that can be put on a STBPDT3100 is 16, if more than 16 is needed you will need to add a STBCPS2111 auxiliary power supply and then a second STBPDT3100 power supply.

          What is the Schneider Electric part number for the limit switches found on Berger Lahr linear axis type LM-P608?

          The limit switches found on Berger Lahr linear axis type LM-P608 can be ordered from Schneider Electric using part number 52060001

          The part number of 52050001 is loaded in MySchneider and can be ordered from any SquareD / Schneider Electric distributor.


          Rev 8-22-18

          Why is my M1E not IO scanning my Advantys STBNIP2212 island?

          Title

           

          Issue

           

          Product Line

           

          Environment

           

          Cause

           

          Resolution

          Ensure that the ethernet network, IP addresses and subnet masks are configured properly and all devices can be pinged.  Now verify that in the M1E IO scanner setup that the 'Read Ref Slave' memory location is set for 45392 and not 40001 as would be the case if scanning a Momentum IO base with an ENT communication adapter.  This is a common error with Advantys STB.

          Accutech Modbus Register Mapping

          Modbus RTU protocol is supported on the BR10 and BR20 Base Radios. Transmission rates of 9600, 19200, 38400, 57600, 115200 are supported with even, odd or no parity, 8 data bits and 1 or 2 stop bits. The Modbus settings are configured by using the push buttons on the base radio only. The BR10 contains 1 RS-485 port for Modbus communications. The BR20 contains 1 RJ45 connection called the "Short Haul Data" port. This port can be configured for 2-wire RS-485 or 3-wire RS-232 by a dipswich next to the serial port.

          The following menu items are used to configure Modbus in the base radio via the push buttons. For a complete menu map of all Accutech Instruments, please reference the Accutech Wireless User Manual that is installed along with Accutech Manager Software an your PC.

          BAUD RT - Baud Rate
          DEV ID - Modbus Device ID
          PARITY - Parity
          STOPB - Stob bit selection
          MODMAP - Register mapping options (see below)
          MODADR - Modbus address of base radio
          ORDER - Floating point word order

          There are two user options to determine Modbus mapping in the base radio/field units. The MODMAP configuration determines if the mapping will be DEV mode (Device ID) or REG mode (Register)

          Device ID Mode

          • Poll for individual devices (Base Radio and Field Units)
          • Modbus Station ID = Base Radio Modbus Station Address + Field Unit RF ID
          • Modbus starting register = 40001

          Register Mode

          • Poll single Modbus station ID for complete Accutech network
          • Modbus Station ID = Base Radio Modbus Station Address
          • Field unit Modbus address are multiples of their RF ID
          • Modbus starting register = (Field Unit RF ID * 10) + 40001

          Base Radio Registers

          Base Radio Holding Register (Device and Register Mapping Modes)

          Device ID: 1 To 247 Max.

          Address

          Description

          Register Type

          40001

          Base Radio Device Type

          16-Bit Unsigned Integer

          40002

          Base Radio Device Status

          16-Bit Unsigned Integer

          40003

          Number of Field Units Expected on the wireless network.

          16-Bit Unsigned Integer

          40004

          Number of Field Units actually online in the wireless network.

          16-Bit Unsigned Integer

          40005

          Online/Offline Status Of Field Units with RFIDs 1-16

          16-Bit Unsigned Integer

          40006

          Online/Offline Status Of Field Units with RFIDs 17-32

          16-Bit Unsigned Integer

          40007

          Online/Offline Status Of Field Units with RFIDs 33-48

          16-Bit Unsigned Integer

          40008

          Online/Offline Status Of Field Units with RFIDs 49-50

          16-Bit Unsigned Integer

          40009

          Diagnostic Counter (increments each second)

          16-Bit Unsigned Integer

          40010

          Reserved For Future Use

          16-Bit Unsigned Integer

           

          Field Unit Holding Registers

          Field Unit operational data is stored in a sequential block of 10 Modbus registers in the Base Radio. The Modbus Station address and the actual register addresses will vary depending on the Modbus Mapping mode set in the base radio. The Modbus Station address and register locations are described below for each Mapping mode.

          Device ID Mapping Mode

          When DEVMODE is selected, the base radio stores the field unit and base radio operation data (10 Modbus holding registers) in separate Modbus Station addresses. In this mode, the SCADA Host (Modbus Master) needs to send an individual poll request for each field units data and the base radio data. Station addresses are determined using Base Radio Device ID parameter and the Field Units RFID parameter. This mode is suitable for systems using a template for each field unit.

          Field Unit Modbus Station Address = Base Radio Device ID + Field Unit RFID

          Field Unit Holding Register Addresses

          Field Unit Register Description

          Register Type

          40001 and 40002

          Device Type

          Two Modbus registers formatted as a 32-Bit IEEE Floating Point1

          40003 and 40004

          Device Status

          Two Modbus registers formatted as a 32-Bit IEEE Floating Point1

          40005 and 40006

          Primary Sensor Value2

          Two Modbus registers formatted as a 32-Bit IEEE Floating Point1

          40007 and 40008

          Secondary Sensor Value2

          Two Modbus registers formatted as a 32-Bit IEEE Floating Point1

          40009 and 40010

          Tertiary Sensor Value2

          Two Modbus registers formatted as a 32-Bit IEEE Floating Point1

          1The default floating point format for Modbus database registers is Low Word, High Word. For example if a floating point value is in registers 40001 and 40002 then 40001 is the low word and 40002 is the high word. For SCADAPack controllers 40001 is the high word and 40002 is the low word. The floating point word order is decided by Modbus Floating Point Order of base radio Modbus Communication Configuration.

          2Any field unit that is currently offline will return NaN (Not a Number) when queried for its primary, secondary or tertiary measurement value. If a field unit is online, NaN will also be returned for measurement values that do not exist in the device. For example, a field unit providing one measurement will return NaN for its secondary and tertiary values.

          Register Mapping Mode

           When REGMODE is selected, the base radio stores the field unit and base radio operation data (10 Modbus holding registers) in sequential blocks of registers located at a single Modbus Station address. The base radio uses register addresses 1 through 10 with subsequent groups of 10 registers used by each field unit. Station address is determined by the base radio Device ID and the Register addresses for each field unit are offset from the base radio registers by a factor of 10 times the field unit RFID parameter. This mode is suitable for a system that wants to poll for multiple field unit devices at once.

          Field Unit Modbus Station Address = Base Radio Device ID

          Field Unit Holding Register Addresses

          Field Unit Register Description

          Register Type

          40001 + (RFID * 10) and 40002 + (RFID * 10)

          Device Type (see list below)

          Two Modbus registers formatted as a 32-Bit IEEE Floating Point1

          40003 + (RFID * 10) and 40004 + (RFID * 10)

          Device Status (see list below)

          Two Modbus registers formatted as a 32-Bit IEEE Floating Point1

          40005 + (RFID * 10) and 40006 + (RFID * 10)

          Primary Sensor Value2

          Two Modbus registers formatted as a 32-Bit IEEE Floating Point1

          40007 + (RFID * 10) and 40008 + (RFID * 10)

          Secondary Sensor Value2

          Two Modbus registers formatted as a 32-Bit IEEE Floating Point1

          40009 + (RFID * 10) and 40010 + (RFID * 10)

          Tertiary Sensor Value2

          Two Modbus registers formatted as a 32-Bit IEEE Floating Point1

           

          1The default floating point format for Modbus database registers is Low Word, High Word. For example if a floating point value is in registers 40001 and 40002 then 40001 is the low word and 40002 is the high word. For SCADAPack controllers 40001 is the high word and 40002 is the low word. The floating point word order is decided by Modbus Floating Point Order of base radio Modbus Communication Configuration.

          2Any field unit that is currently offline will return NaN (Not a Number) when queried for its primary, secondary or tertiary measurement value. If a field unit is online, NaN will also be returned for measurement values that do not exist in the device. For example, a field unit providing one measurement will return NaN for its secondary and tertiary values.

          Can I create a custom quantity in System Manager Software (SMS) that has a scale factor or multiplier other than a factor of 10?

          System Manager Software (SMS) will only scale by factors of 10, but there is a way around this by using a virtual circuit node and if necessary a meter with available utility registers. PM800s, CM3000s, and CM4000s all have a block of 200 utility registers starting at register 15,800. These are empty read/write registers that a user can use to store values.
          Example Scenario:

          User has a third party device such as Caterpillar EMCP (Electronic Modular Control Panel) which uses non-standard scaling calculations
          User has a PowerLogic meter which has available utility registers

          For example, assume the desired value requires a scale factor of 0.026 and a offset of -200:

           
          y = 0.026x 200

          Where y is the desired value to be logged or displayed in SMS and x is the raw register value in the EMCP
          The scale or slope is 0.026 and the offset is -200
           
          When creating a custom quantity within SMS, you can only apply a scale or multiplier that is a factor of 10: unity, tens, tenths, thousands, thousandths, etc. This simply moves the decimal point to the left or the right which is not what we want to accomplish.


          Resolution

          1. Within SMS, create a new custom quantity. For this example, use the name CQ. Make it writable and loggable. Leave the format code set to No Format
          2. Assign CQ to the device type that holds the raw register value 'x'. Point it to the specific register number of 'x'
          3. Assign CQ to a CM4000, CM3000, or PM800 that is available in the system. Point it to one specific register within the block of 15800 to 15999 ( 12000-12199 in PM800 series)
          4. Assign CQ to the device type Virtual Circuit Node
          5. Write the value of the offset to the utility register. For example, you would write the value of 200 to register 15800 in a CM4000
          6. Create a Virtual Circuit Node
          a. First, add the device that holds the raw register value 'x' to the virtual circuit node. For the multiplier use the value of the scale or slope, in this example use the value of 0.026
          b. Second, add the device which you are using the utility register from, in this example a CM4000. For the multiplier, use a value of -1. This will effectively apply -200 (the offset)

          The virtual circuit node puts together the equation that governs the value that you want to log or display in SMS.

          Logging and alarming of this custom quantity can then be configured for the virtual circuit node. This custom quantity can also be used for the virtual circuit node in GFX screens.

          Note : This virtual circuit node is specific to this one quantity. The process of steps 1 6 will have to be repeated for any other quantity that is stored in a similar manner in the device.
          Note : If only the "scale" is required, a utility register is not required and steps 3, 5, and 6b can be skipped.

          Legacy KB System (APS) Data: RESL200112 V2.0, Originally authored by MaTh on 09/25/2009, Last Edited by MaTh on 12/01/2010
          Related ranges: System Manager 4.0, System Manager 4.2, System Manager 4.3

          Can transient detection be added to an existing Series 4000 Circuit Monitor?

          Issue
          Is it possible to upgrade a CM4000 so it has transient detection

          Product Line
          CM4000
          CM4000T

          Environment
          Field Retrofit
          Hardware upgrades

          Cause
          By default the CM4000 does not have transient detection.

          Resolution
          Yes. The difference between a standard CM4000 and a CM4000T is firmware and removable module called a Current Voltage Module (CVM on the CM4000, CVMT on the CM4000T). The CVMT can be purchased separately to upgrade a CM4000 to a CM4000T. The CVMT kit includes all of the hardware, software, and instructions necessary to upgrade a standard CM4000 to a CM4000T. The CVMT kit includes the following: CVMT (Current Voltage Module for transient detection), CVMT Installation Instructions, Hardware kit (spade lugs), CM4000 Firmware upgrade CD (Includes circuit monitor firmware and the softwareDLF-3000 used to download the firmware), CM4000T instruction bulletin, CM4000 instruction bulletin (English, French, Spanish), CM4000 technical library CD, System Manager Software upgrade CD (if necessary).

          Is it possible to change the output register name for a PowerLogic meter in PME?

          Issue

          The output register name for a measurement in a PowerLogic meter needs to be changed in ION E, SPM, or PME.
           

          Environment

          ION Enterprise
          Sturxureware Power Monitoring
          Power Monitoring Expert


          Product Line

          CM3000 Series
          CM4000 Series
          PM800 Series
           

          Resolution

          In general, it is not possible or useful to change the output register measurement names for a single PowerLogic meter. This is because PowerLogic meters communicate to PME through translator files, unlike ION meters, which communicate directly to the system.

          It is possible to modify the translator file to change the register name, but that change would be global across ALL meters of that type in the system.

          For example, the B-S1 Status name in a CM4000 may be changed by editing the translator file, but that change would affect all CM4000s in the system.
          Generally, this is not recommended.

          Note about ION meters: Since the system has access to the framework of ION meters, register names for ION meters can be changed individually; however, this is not possible with PowerLogic meters.



           

          Where to get a case for a Portable CM4000?

          Product Line
          PCM4

          Resolution

          Schneider Electric does not currently sell a case for the PCM4 portable circuit monitor. The recommendation is to buy a Tool case with wheels and a telescoping handle.

          The minimum inside dimensions required to fit the meter + cables + Clamp-on CTs are:

          23 inches by 15 inches by 11 inches.

          The following links are to web sites that may offer appropriate cases.

          Click the link: https://www.plattcases.com or https://www.justcases.com/delwheelship.html

          What registers hold the DL, OS, LL, and CVMT firmware versions of the CM4000?

          Issue
          Which registers hold DL, OS, LL, and CVMT firmware versions of the CM4000?

          Product Line
          CM4000

          Environment
          Register Mapping

          Resolution

          Register Mapping
          Item Register
          OS 3014
          LL 3015
          DL 3016
          CVMT Firmware 3017

          What are the product standards for the CM4000?

          Issue
          The UL listing for the CM4000

          Product Line
          CM4000

          Environment
          Standard Compliance

          Resolution
          For safety, the CM4000 is UL 508 for the USA. It's listing is cUL and UL listed 18x5 Ind. Cont. Eq. This information is listed in the CM4000 IB under the specifications. This can be found on page 8 of the attached document

          CM2000 (CM2) Firmware Summary (Revision History)

          Goals and Symptoms

          The Series 2000 Circuit Monitor began shipping in early 1993 with firmware version 10.000. Each new version of firmware
          has enhanced the performance of the Circuit Monitor. In addition, each new version of firmware includes fixes
          to any minor problems identified in earlier firmware versions.
          This document is intended to provide a brief history of the changes that have occurred in the Series 2000 Circuit
          Monitor firmware since its introduction

          Causes and Fixes


          CM2000_Firmware_history.pdf

          Where can I find the manual for the StruxureWare Data Center Expert VM appliance?

          Issue:

          Where can I find the manual for the StruxureWare Data Center Expert VM appliance?

          Product Line:

          StruxureWare Data Center Expert

          Environment:

          StruxureWare Data Center Expert Virtual Machine

          Cause:

          This article explains where the StruxureWare Data Center Virtual Machine Appliance documentation can be found. Which will include all hardware specification as well installation instructions.

          Resolution:

          The link below contains the most up to date documentation for the APC StruxureWare Data Center Expert Virtual Machine product line.

          https://www.apcmedia.com/salestools/JLER-8M7NG2/JLER-8M7NG2_R4_EN.pdf?sdirect=true
           

          Does Schneider offer a din rail mounting kit for an ATV212HD15N4?

          Issue:
          Do you offer a din rail mounting kit for a ATV212HD15N4?

          Product Line:
          ATV212, Altivar 212 Altivar buildings

          Environment:
          Altivar 212H075M3X...U22M3X
          Altivar 212H075N4...U22N4

          Cause:
          Din rail mounting inside a panel.

          Resolution:
          There is no DIN rail mounting kit for the ATV212HD15N4.
          The DIN rail mounting kit part number VW3A31852 is for installation on 35 mm wide DIN rail that are available only for:  Altivar 212H075M3X...U22M3X and Altivar 212H075N4...U22N4, the smaller HP sized drives.

          Data Center Operation | How to configure an Energy System for Energy Efficiency modules?

          Issue:
          How to configure an Energy System for StruxureWare Data Center Operation Energy Efficiency modules?

          Product Line:
          StruxureWare Data Center Operation​

          Environment:
          StruxureWare Data Center Operation (All Version)

          Cause:
          This article explains how to configure an Energy System for StruxureWare Data Center Operation with the Energy Efficiency module.

          Resolution:

          For the most up to date instructions please see the URL outlined below.

          https://help.ecostruxureit.com/display/UADCO8x/Energy+system+configuration
           

          Generator does not charge my batteries using the XW or SW models?

          Generator is not charging the batteries

          If the inverter/charger qualifies the signal but the unit goes right away to passthrough, please check the following
          Make sure Charger is enabled
          Confirm that the Charger Block Start/Stop is not enabled during the times that you want it to charge

          NOTE:Ex.  If the Charger Block Start is set at 4:00am and the Charger Block Stop is set at 11:00pm, that means that it will not charge between 4am and 11:00pm.
          It would only charge from 11:00pm to 4:00am
          Tip:If there is no need to block the charging then set the start/stop times to 12:00am to disable the feature
          Show More