INS250 3P 100 A - SWITCH DISCONNECTOR
Interpact INS630 standard switch. 3 poles
Compact INS250 3P; Switch Disconnector
INS250 3P 100 A - SWITCH DISCONNECTOR
Interpact INS630 standard switch. 3 poles
Compact INS250 3P; Switch Disconnector

Compact Interpact Switch Disconnector INS250, 100A, 3 Poles

Catalogue Number: 31100
INS250 3P 100 A - SWITCH DISCONNECTOR
Interpact INS630 standard switch. 3 poles
Compact INS250 3P; Switch Disconnector
INS250 3P 100 A - SWITCH DISCONNECTOR
Interpact INS630 standard switch. 3 poles
Compact INS250 3P; Switch Disconnector
Colour:
Colour: Per UOM Std.
  • 1 PCE

Specifications

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Range
Compact
Range of product
INS250
Product or component type
switch disconnector
Product name
Compact INS
Device short name
Interpact INS250
Switch-disconnector name
Interpact INS250
Poles description
3P
Network type
  • AC
  • DC
    • Network frequency
      50/60 Hz
      [Ie] rated operational current
    • AC-22A: 100 A AC 50/60 Hz 220/240 V
    • AC-23A: 100 A AC 50/60 Hz 480 V NEMA
    • AC-23A: 100 A AC 50/60 Hz 500/525 V
    • AC-23A: 100 A AC 50/60 Hz 660/690 V
    • DC-22A: 100 A DC 125 V 2 poles in series
    • DC-23A: 100 A DC 125 V 2 poles in series
    • AC-22A: 100 A AC 50/60 Hz 380/415 V
    • AC-22A: 100 A AC 50/60 Hz 440/480 V
    • AC-22A: 100 A AC 50/60 Hz 480 V NEMA
    • AC-22A: 100 A AC 50/60 Hz 500/525 V
    • AC-22A: 100 A AC 50/60 Hz 660/690 V
    • AC-23A: 100 A AC 50/60 Hz 220/240 V
    • AC-23A: 100 A AC 50/60 Hz 380/415 V
    • AC-23A: 100 A AC 50/60 Hz 440/480 V
      • [Ui] rated insulation voltage
        750 V AC 50/60 Hz
        [Ith] conventional free air thermal current
        100 A at 60 °C
        [Icm] rated short-circuit making capacity
      • 30 kA switch-disconnector alone 690 V AC at 50/60 Hz
      • 330 kA with upstream protection circuit breaker 690 V AC at 50/60 Hz
        • [Ue] rated operational voltage
        • 125 V DC
        • 690 V AC 50/60 Hz
          • Suitability for isolation
            yes
            Contact position indicator
            yes
            Visible break
            no
            Pollution degree
            3
            Control type
            direct front rotary handle
            Handle colour
            black
            Mounting mode
            fixed
            Mounting support
          • rail
          • plate
            • Upside connection
              front
              Downside connection
              front
              Maximum power
            • AC-23: 22 kW at 220/240 V AC 50/60 Hz
            • AC-23: 22 kW at 230 V AC 50/60 Hz (NEMA)
            • AC-23: 45 kW at 380/415 V AC 50/60 Hz
            • AC-23: 55 kW at 440 V AC 50/60 Hz
            • AC-23: 55 kW at 480 V AC 50/60 Hz (NEMA)
            • AC-23: 55 kW at 500/525 V AC 50/60 Hz
            • AC-23: 55 kW at 660/690 V AC 50/60 Hz
              • Rated duty
                uninterrupted
                [Icw] rated short-time withstand current
              • 1.8 kA during 30 s conforming to IEC 60947-3
              • 2.2 kA during 20 s conforming to IEC 60947-3
              • 4.9 kA during 3 s conforming to IEC 60947-3
              • 8.5 kA during 1 s conforming to IEC 60947-3
                • Mechanical durability
                  15000 cycles
                  Electrical durability
                • AC-22A: 1500 cycles 440 V AC 50/60 Hz
                • AC-22A: 1500 cycles 500 V AC 50/60 Hz
                • AC-22A: 1500 cycles 690 V AC 50/60 Hz
                • AC-23A: 1500 cycles 440 V AC 50/60 Hz
                • AC-23A: 1500 cycles 500 V AC 50/60 Hz
                • AC-23A: 1500 cycles 690 V AC 50/60 Hz
                • DC-22A: 1500 cycles 125 V DC 2 poles in series
                • DC-23A: 1500 cycles 125 V DC 2 poles in series
                  • Connection pitch
                    35 mm
                    Height
                    136 mm
                    Width
                    140 mm
                    Depth
                    96 mm
                    Net weight
                    2 kg
                    Compatibility code
                    INS250
                    Standards
                  • IEC 60947-1
                  • IEC 60947-3
                    • Product certifications
                    • CCC
                    • KEMA-KEUR
                      • IP degree of protection
                        IP40 conforming to IEC 60529
                        IK degree of protection
                        IK07 conforming to EN 50102
                        Ambient air temperature for operation
                        -25-70 °C
                        Ambient air temperature for storage
                        -50-85 °C
                        Sustainable offer status
                        Green Premium product
                        REACh Regulation
                        Free of Substances of Very High Concern above the threshold
                        EU RoHS Directive
                        Compliant
                        Mercury free
                        Yes
                        RoHS exemption information
                        Yes
                        China RoHS Regulation
                        Product out of China RoHS scope. Substance declaration for your information
                        Environmental Disclosure
                        ENVPEP1304025
                        Circularity Profile
                        N/A
                        WEEE
                        The product must be disposed on European Union markets following specific waste collection and never end up in rubbish bins
                        Warranty
                        18 months

                        Documents & downloads

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                        Filter items
                        • All

                        • CAD Files and Packs

                        • Technical Data Catalogues

                        • Catalog Page

                        • Installation Instruction

                        • Product Environmental

                        • End of Life Manual

                        • Operating Manuals

                        • Specification for Tender

                        • Declaration of Conformity

                        Frequently Asked Questions

                        hide show

                        What is the extended rotary handle for a 31104

                        The part code is 31050

                        What is the bolt hole size of the 31100 INS250-100?

                        The bolt hole size is M10 for the INS250-100....INS250-250

                        see attachment

                        Interpact load break switch needed, 160Amp 3P

                         Use a 31104

                        Getting E1100 error on the LXM32 servo drive

                        Issue:
                        Getting E1100 error on the LXM32 servo drive

                        Product Line:
                        LXM32

                        Resolution:
                        E1100 is a "parameter out of range" error. The parameter could be coming from a PLC or an HMI communication with the LXM32 drive and sending an out of range parameter like speed, acceleration, deceleration or position.

                        What is the part code for a Escutcheon plate for a 31106 - INS250 load break switch

                        Use a 31079 escutcheon plate

                        What is the NZ Equivalent for a 43850 IN250

                         The part code is 31106 which is an INS250

                        What is the code for an extended rotary handle for 31052 (INS400) ?

                        Code = 31052 Suits INS320 to INS 630 - Black

                        Does the 31106 come with a handle?

                         It comes complete with a direct handle. Extended rotary handles are available as an extra.

                        What is the part number for the Auxiliary to suit the INS Load break swiich, 31106?

                        The part number for the Auxiliary to suit the INS Load break swiich, 31106 is part number 29450.
                        See data sheet for more information:
                        https://eshop.schneider-electric.com/product.aspx?org=21&lang=1&dist=276&prod_id=29450
                        User-added image

                        Where can I find the register list for the iEM3100, iEM3200, and iEM3300 series of meters?

                        Issue
                        A user may need the register list for the iEM3100, iEM3200, and iEM3300 series of meters.
                         
                        Product Line
                        iEM3100, iEM3200, iEM3300 series
                         
                        Environment
                        iEM3100, iEM3200, iEM3300 series
                         
                        Cause
                        A user may need the register list for the iEM3100, iEM3200, and iEM3300 series of meters.
                         
                        Resolution
                        The user manual for the iEM3100, iEM3200, and iEM3300 series of meters (document reference number DOCA0005EN-04) has a register list in Chapter 5: Communications via Modbus RS-485. See page 57 of the pdf document attached   (doca0005en-04.pdf)

                        Why a limit of 9672 Registers with CPU31110 since Unity V3.0?

                        In the CPU overview there was already a limit of 9672 registers,but Unity didn't have any no limitation for this limit. Since Unity Pro V3.0 a control was added to check this limitation.
                        That's why we could configure 9672 registers or more with CPU 31110 using Unity Pro v2.3,  but since Unity v3.0 we cannot exceed 9672.
                         

                        Does the SR2MOD03 wireless modem support 3G networks?

                        Issue:
                        Does the SR2MOD03 wireless modem work with 3G networks?

                        Product Line:
                        SR2MOD03

                        Resolution:
                        The modems with manufacturing dates greater than or equal to 1630 are six Bands (Band I (2100 MHz), Band II (1900 MHz), Band IV (1700 MHz), Band V (850 MHz), Band VI (800 MHz) and Band VIII (900 MHz)) in 3G UMTS/HSDPA/HSUPA.

                        Can StruxureWare Data Center Expert output a 32 bit register with its Modbus output?

                        Issue:

                        A single register in StruxureWare Data Center Expert's modbus output is limited to 16 bit.

                        Product Line:

                        StruxureWare Central / StruxureWare Data center Expert

                        Environment:

                        StruxureWare Central any version
                        StruxureWare Data center Expert any version

                        Cause:

                        The output of a single register for StruxureWare is a 16 bit unsigned integer. This means that any value larger than 65535 can not be handled by a single register. This includes values lower than 65535 that report with a decimal such as 6553.5. DCE will output 65535 but your BMS will need to divide by 10 in such cases.

                        Resolution:

                        We can not output a 32 bit register in StruxureWare. To overcome this limitation, StruxureWare Data Center Expert can be configured to output a value to 2 registers. This must be configured during the initial setup for the output of each register. StruxureWare does not know which registers may be too large for an individual register so each must be done manually. Each should be polled a 16 bit unsigned integer

                        To configure this option, go to the system menu and building management settings. Select the device that you will be using and choose modify device settings. If you double click any register, you get the option to "Edit the Slave Sensor Register Value" which is not necessary and you get the option to "Edit the number of registers used for this sensor". This second field can take a value of either 1 or 2. For values above 65535, you must enter the number 2 and hit OK. If the register chosen was 31000, the next available register will now be 31002. The sensor that may have been set to use 31001 will now change. This is also why this should be done upon initial setup as if the system is already configured and a register is changed, the polling software must be reconfigured with the new registers.

                        If you set 31000 to a double register, you then need to poll 31000 and 31001. you then take the 1st register and left shift the first register (31000) by 16. In binary, it would look like this:

                        Assuming a value of 131071, a 32 bit register would return:
                        00000000000000011111111111111111

                        With 2 registers, you must poll both.
                        31000 returns 0000000000000001 If this were a single register, = 1
                        31001 returns 1111111111111111 = 65535

                        With 2 registers however, you must left shift the 1st register and add it to the second.

                        00000000000000010000000000000000 is the 1st register left shifted by 16 and is equal to 65536.
                        Add this value to the value returned from the second register:
                        1111111111111111 = 65535


                        Now you have a 32 bit number capable of holding values up to 4,294,967,295
                        00000000000000011111111111111111 = 65535 + 65536 = 131071

                        This math must all done on the side of the querying application.
                         

                        What is the part number for an INS250 isolator and rotary handle?

                        the part number for an INS250 isolator and rotary handle is - 31106 & LV431050

                        For further information , visit links below:-
                        https://www.schneider-electric.com.au/en/search/LV431050
                        https://www.schneider-electric.com.au/en/search/31106
                        User-added image
                        User-added image
                         

                        Mapping NetBotz language id to string.

                        Issue:
                        Mapping NetBotz language id to string.

                        Product Line:
                        NetBotz

                        Environment:
                        NetBotz Advanced View.

                        Cause:
                        N/A

                        Resolution:

                        fr_FR = French
                        de_DE = German
                        ja_JP = Japanese
                        zh_CN = Chinese
                        ru_RU = Russian
                        pt-BR = Brazilian Portuguese
                        es_ES = Spanish
                        it_IT = Italian
                        ko_KR = Korean

                         

                        Which cable should be used when making Interbus-S cables longer than 100cm?

                        There are two Belden cables that can be used.
                        1. Belden 3120A for signal only.
                        2. Belden 3119A for signal and power.


                        Why does 'address out of range' error come in Vijeo Citect.

                        Actually Vijeo Citect reads digital addresses in blocks of 16 bits. So if there is a digital tag at C1000, Citect will read from C993 to C1008 in a single request. If the address C993 does not exist then 'address out of range' error comes. Because of this optimization of digital read requests make sure that there are valid addresses in the PLC. In some PLCs the valid ranges of all memory addresses can be set and make sure that the setup in the PLC is what Citect is going to read. If the range cannot be adjusted then do not use any digital tags within the first and last 16 digitals.

                        Vijeo Citect also tries to block reads together and may try to read across invalid addresses. So if C1000 and C1100 are configured, Citect will try to read from C993 to C1105. If any address is invalid between these tags then also 'address out of range' error comes. This is quite unlikely as almost all PLC contain continuous memory with no holes.

                        Will the Default StatusRegister Setting of 1100 for the PWRMODBUS Driver Work for the Power Meter 600 (PM6) in PowerLogic SCADA v7.10?

                        The default StatusRegister setting of 1100 will work with the Power Meter 600 in PowerLogic SCADA, even though 1100 is not defined in the PM6 Register List. If the user reads register 1100 with a generic Modbus register reader, he will receive a value of 32768. While this denotes an undefined value, the register is still readable and therefore, the PM6 I/O device can use this register as verification to come online.
                        The following is some additional general information about the StatusRegister parameter:
                        This parameter defines the address of the register that the driver will read to determine whether a device is responding to communication requests. The result of this read is not important; however, it must be a valid register address within the device. This parameter can only be configured for the PWRMODBUS driver.


                        Keywords: Series 600, PM600, PM620, PM650


                        Legacy KB System (APS) Data: RESL203061 V1.0, Originally authored by AnVa on 08/06/2010, Last Edited by AnVa on 08/06/2010
                        Related ranges: PowerLogic SCADA 7.1

                        Documentation of TCP/IP statistics insufficient MBP_MSTR function 3

                        Goals and Symptoms

                        Documentation of TCP/IP statistics insufficient MBP_MSTR function 3

                        Facts and Changes

                        Unity-Pro v2.01 Primary 140NOE77111 v3.5 Connected at 10MB/HDX
                        Get local statistics word 3
                        1100 0011 1000 0000 c380: OK
                        1100 0011 0001 0000 c310: Disconnected NOK flash
                        1100 0111 0011 0000 c730: Disconnected NOK flash 2
                        Description in helpfile/manual, online describe bit 0, 14 and 15. What is the meaning of al these bits in the status register?

                        Causes and Fixes

                        The description on the help/online file in Unity pro is not correct for the NOE version 3.5. The description refers to the older version of NOE, corrections will be made for the documents.

                        Please refer to the information on page 147, Modicon Quantum with Unity Ethernet Network Modules User Manual, UNY USE 100 10 V20E, September 2004

                        The correct bits that you need to monitor are bits 6, 7, 8 respectively if you would like to see the APPL, LINK or RUN led status.


                        Legacy KB System (APS) Data: RESL169335 V1.0, Originally authored by on , Last Edited by on
                        Related ranges: Unity Pro

                        What is the extended rotary handle for a 31146

                        The part code is 31055

                        What is the part number of Probe only for T20NC80000?

                        Unfortunately, the Ni100 sensors are no longer available from Schneider.
                         
                        They will need to be sourced from a local external supplier or you can replace the control with a PT100 model with a sensor.
                         

                        What is the replacement for the NC100 range?

                        NC100H is an obsolete range with the possible replacement of C120 range breakers.
                        Please find attached substitution file
                         

                        Can the TS100 External Temperature Sensor be immersed in water?

                        Issue:

                        Can the TS100 External Temperature Sensor be immersed in water?

                        Product Line:

                        NetBotz

                        Environment:

                        NetBotz TS100 temperature sensor

                        Cause:

                        Alternative configurations

                        Resolution:

                        The TS100 External Temperature Sensor is not designed to be immersed in water. Doing so may adversely affect the temperature readings and could damage the sensor.
                         

                        How to I monitor NetBotz alarms using Modbus?

                        Issue:
                        Monitoring alarms on NetBotz using Modbus.
                         
                        Product Line:
                        NetBotz
                         
                        Environment:
                        NetBotz 550
                        NetBotz 570
                        NetBotz 450 (with Advanced Software Pack)
                        NetBotz 455 (with Advanced Software Pack)
                         
                         
                        Cause:
                        This is just a guide showing how to monitor NetBotz events using Modbus. Modbus output is not available on the 4xx units by default.
                         
                        Resolution:
                         
                        In this example, I have configured a NetBots 570 with a rack access pod NBPD0171. I want to see when there is a forced entry into a rack door being monitored by this NetBotz configuration. Any supported firmware should work but in this case, I have used version 4.5.2.
                        There is no way using Modbus to know the exact error message. Based on the return values and the register maps, you can tell what sensor is in an error state and you can tell what level of event is occurring. Let me first state that this mimics the DCE modbus output and you can use the following document (at least the beginning of it) to figure out the level of alarm:
                        https://www.apcmedia.com/salestools/JRUK-7R4L9N/JRUK-7R4L9N_R3_EN.pdf?sdirect=true
                        This is app note 156 and the link may change over time.
                         
                        First, Enable the Modbus output on the “Modbus Slave Communications” applet in NetBotz Advanced View (AV). On a 4xx unit, you must first install the advanced software pack. On a 5xx unit, this is enabled by default. 3xx units and older version 2 units does not support this feature.

                        This example is using Modbus over TCP but there is a serial option. Please see the user manual for your unit as to how to use the serial connections.
                         
                        Next, using the ”Modbus Slave System” applet in AV, find the appropriate pod. In this case, I am using Rack Access Pod 170 (03)

                         
                        Click “Modify Pod Settings” and you will be able to give the pod a slave address and create a register map for all it’s sensors:


                        After this configuration, you can view and subsequently export the register map back on the “Modbus Slave System” page.
                        You will see the alarms configured this way (and more):
                        all   30992(0x7910)  Alarm #03                                                         002     UINT16       RO      Alarm - Alarm Code + Corresponding Sensor
                         all   30994(0x7912)  Alarm #02                                                         002     UINT16       RO      Alarm - Alarm Code + Corresponding Sensor
                         all   30996(0x7914)  Alarm #01                                                         002     UINT16       RO      Alarm - Alarm Code + Corresponding Sensor

                        You will also see each pod as it’s own slave. Here you can see the main unit as slave 1 and the NetBotz 170 pod as slave 2:
                         
                        001   31000(0x7918)  NetBotz Rack Monitor 570:Ethernet Link Status                     002     INT16        RO      Value - 0(Down), 1(Up)
                         001   31002(0x791a)  NetBotz Rack Monitor 570:A-Link Bus Power                         002     INT16        RO      Value - 0(OK), 1(Overloaded)
                         
                         002   31000(0x7918)  Rack Access Pod 170 (03):Handle  (2)                              002     INT16        RO      Value - 0(Up), 1(Down)
                         002   31002(0x791a)  Rack Access Pod 170 (03):Handle  (1)                              002     INT16        RO      Value - 0(Up), 1(Down)
                         002   31004(0x791c)  Rack Access Pod 170 (03):Lock  (1)                                002     INT16        RO      Value - 0(Unlocked), 1(Locked)
                         002   31006(0x791e)  Rack Access Pod 170 (03):Reader  (2)                              002     INT16        RO      Value - 0(Disabled), 1(Enabled)
                         002   31008(0x7920)  Rack Access Pod 170 (03):Reader  (1)                              002     INT16        RO      Value - 0(Disabled), 1(Enabled)
                         002   31010(0x7922)  Rack Access Pod 170 (03):Door  (1)                                002     INT16        RO      Value - 0(Open), 1(Closed)
                         002   31012(0x7924)  Rack Access Pod 170 (03):Lock  (2)                                002     INT16        RO      Value - 0(Unlocked), 1(Locked)
                         
                        Please note that each register is actually listed as 2 numbers higher than the last. This is because each sensor is configured as 2 registers. If you're looking for data on a specific register say 31000, you actually have to pull 31000 and 31001. Note the register in bold is 31010. To get the data for this sensor, you need to pull 31010 and 31011. It also shows this is the door sensor and the value should be 0 for open and 1 for closed. Knowledge base FA214410 can assist if you’re unsure how to use dual registers but it should not be necessary in this specific instance.
                         
                        Next, when you poll for alarms, you poll register 30999. This  shows how many alarms there are. Register 30998 shows the highest severity of the alarms if there are multiple. For each alarm, you should read 2 registers back. In this case there is 1 alarm so reading 2 registers before the 30998 is 30997 and 30996.
                         
                        In this image from AV, you can see the door is open and in an error state:

                         
                        Upon polling the device’s IP and slave address 2, you can see that 31010 and 31011 (31011 is the important one) is reading 0. This means from the register map that the door is open. Value - 0(Open), 1(Closed)
                         

                        Here is what that same register looks like if I close the door:

                         
                         
                        Putting the door back in alarm, you can see that 30999 is 1 meaning there is 1 error and 30998 is 2 which means it is level 2 (error)....the latter is defined in the DCE app note 156 linked above.

                         
                        The register 30997 above reports the sensor. The return is 31010. This matches the register on that door sensor as shown in the register map. The register 30996 reports the actual error. This is also defined in the DCE app note. It's in HEX in the app note so you have to show the return in hex as I am doing here:

                         
                        Note that 30996  is reporting 000E. If you check the device alarm codes here (again from app note 156), you'll see that 000E relates to "General Device Alarm":

                         
                        So with this information, I opened a door with a locked handle and the information I pulled via Modbus shows that sensor (register) 31010  is in an alarm state of general device alarm and it is an error level. Looking at the register map I can tell that 31010 (remember, it's 2 registers on a sensor) is a door sensor and since it's return is 0, the door is open. You can also check the other sensors such as handle to see if it is down or check the lock to ensure it is locked etc.
                         

                        What is the new code for 31050 ?

                        now =  LV431050

                        What are the dimensions for 31147?

                        Dimensions for the 31147 are - H136mm x W285mm x D131mm

                        For further details regarding 31147 go to link below:-
                        https://www.schneider-electric.com.au/en/search/31147

                        What are errors E1300 and E1301 on the LXM32 drive?

                        Issue:
                        Errors E1300 and E1301 on the LXM32 drive

                        Product Line:
                        LXM32
                        Lexium32


                        Resolution:
                        E1300 means a safety STO function is activated (STO_A, STO_B)
                        E1301 means the levels of the inputs STO_A and STO_B were different for more than 1 second
                        These 2 errors are related to a bad wiring of inputs STO_A and STO_B, a bad 24V power supply or an activated emergency stop, which cuts the 24VDC from the STO inputs.
                        Making sure the STO inputs are getting 24VDC before powering the drive will reset these faults.

                        What is the replacement for 31V1000 fan speed controller

                        This fan speed controller have been deleted and is no longer available

                        What is the part code for a CHANGE OVER SWITCH manual 250Amp

                        Use a 31146 - MANUAL SOURCE CHAN E OVER SWITCH 

                        What is the replacement for 31V1000 fan speed controller?

                        The closest option available is 32E500FM-WE which is only 500W compared to 1000W.

                        Where can I find the operating time (run time) on the ATS48 softstarter?

                        Issue:
                        Where can I find the operating time (run time) on the ATS48 softstarter?

                        Product Line:
                        Altistart 48, ATS48

                        Environment:
                        All

                        Cause:
                        Run time

                        Resolution:
                        Go into SUP menu.

                        RNT parameter is operating time in hours since last reset (if there was ever a reset to begin with).
                        In hours up to 999 hrs (examples: 001 is 1hr and 111 is 111hrs)
                        In kilo-hours from 1000-65535 (examples: 1.11 is 1110 hrs and 11.1 is 11100 hrs)
                        Above 65535 hrs (65.5) the display resets to zero.

                        Operating time is counted when the motor is not stopped, i.e. when the thyristors fired (heating, acceleration, steady state, deceleration, braking) and in continuous bypass operation.

                        When polling dual registers in InfraStruXure Central 6.0, both registers must be polled together.

                        Issue:

                        When polling dual registers in InfraStruXure Central / StruxureWare Data Center Expert, both registers must be polled together.

                        Product Line:

                        InfraStruXure Central / StruxureWare Data Center Expert

                        Environment:

                        Modbus communications

                        Cause:

                        Modbus registers are limited in size, which limits the values they can store and return to a BMS. Unsigned values can not exceed 65535. Because some values returned by ISXC may be greater than this maximum value, we have created the ability to use 2 registers together as a pair to allow for this larger output. If you choose to configure 31001 as a dual register, it will encompass 31001 and 31002.

                        Resolution:

                        When polling these registers, poll both 31001 and 31002 (or whatever register pair you have set up this way) during the same poll. Failure to do so will return invalid results.

                        What is the code extended front rotary handle / shaft for an INS250?

                        Code = 31050

                        What are the dimensions of the INS400 single handle transfer switch 31150?

                        205mm x 395mm x 155mm (H x W x D) excluding the handle.
                        Overall depth with standard handle is 213mm.
                        See attached.

                        Is there a manual for the 140XSM 00100 Quantum analog simulator module ?

                        Attached you will find the documentation for the 140XSM00100 Quantum analog simulator module.

                        What is part number for interior plug to suit P4100?

                        The part number for interior plug to suit is a SP-116201.

                        Is the PDL SD100 Smoke alarm base interchangeable with the 755PSMA2 smoke alarm?

                        Yes, The 755PSMA2 smoke alarm will fit the old PDL SD100 base. However, the PDL SD100 smoke alarm will not fit the 755PSMA2 base.

                        What are the altitude considerations for the ATV28 and any required sizing criteria?

                        Issue:   What are the altitude considerations for the ATV28 and any required sizing criteria?
                         
                        Product Line:   ATV28
                         
                        Environment:  All
                         
                        Cause:   N/A
                         
                        Resolution:   Up to 3,300 ft (1,000 m) without derating;
                        derate by 3% for each additional 3,300 ft (1,000 m)


                         

                        Need to know if a LV429517-long terminal shield fit a NS100 breaker

                        Yes it will fit

                        What is the Rotary handle for a NS100 breaker

                         Use a LV429337 rotary handle

                        What is the part number for a NS100 breaker toggle extension?

                        The part number for the toggle extension for the NS100 breaker is 29313.



                         

                        Crash of the DEMO of Unity SFCVIEW V2.0

                        Goals and Symptoms

                        If you minimize the window of the UnitySFCViewDemo.exe the program crashes.

                        Facts and Changes

                        Unity SFCVIEW V2.0
                        UnitySFCViewDemo.exe

                        Causes and Fixes

                        If you have Visual Basic you can solve the problem by changing the source "frmDemoMain.frm" of the UnitySFCViewDemo.exe.

                        faulty part:

                        Private Sub Form_Resize()
                        SFCView1.Height = Me.Height - 1100
                        If SFCView1.ViewMode <> sfcDetailsSimple Then SFCView1.Width = Me.ScaleWidth
                        End Sub

                        correction:

                        Private Sub Form_Resize()
                        If Me.Height - 1100 > 0 Then SFCView1.Height = Me.Height - 1100
                        If SFCView1.ViewMode <> sfcDetailsSimple Then SFCView1.Width = Me.ScaleWidth
                        End Sub


                        Legacy KB System (APS) Data: RESL170412 V1.0, Originally authored by on , Last Edited by on
                        Related ranges: Unity Pro

                        Instructions on how to set the time on an ION73xx meter using modbus

                        Using the modbus protocol, it is possible to set the time on an ION7300, ION7330, and ION7350 meters. This is not a time synchronization as there is no source sending a signal out to the device, however it is possible to use a modbus software to automate this process and get time from a source and pass this time to the meter over modbus.

                        In order to time synchronize an ION73xx meter using modbus, it must be done by converting unix time into two 16 bit values. These values are then passed to the 41926 and 41927 registers.

                        The time being passed to the meter must first be converted to UNIX time. The UNIX time is then split into a higher and lower order 16 bit values. For example:

                         

                        UTC time: 07/01/2009 2:00:01 AM

                        UNIX time: 1246413600 (decimal)

                        UNIX time: 0100 1010 0100 1010 1100 0011 0010 0000(binary)

                        Lower order bit: 1100 0011 0010 0000 (binary)

                        Lower order bit: 49952 (decimal)

                        Higher order bit: 0100 1010 0100 1010(binary)

                        Higher order bit: 19018(decimal)

                         

                        At this point the user can pass 49952 into register 41926 and 19018 into register 41927. The meter will now display 07/01/2009 2:00:01 AM, and will continue to tick away based on the clock source.

                        Date Created: November 27, 2009
                        Last Revised: December 23, 2009
                        Public
                        Original Author: TO
                        All content © 1992-2009 Schneider Electric


                        Legacy KB System (APS) Data: RESL200779 V1.0, Originally authored by MiNe on 12/23/2009, Last Edited by MiNe on 12/23/2009
                        Related ranges: ION7300

                        Will the EGX models communicate with the older CM100 and CM200 lines?

                        Issue: 
                        Will the EGX models communicate with the older CM100 and CM200 lines?

                        Product Line:
                        CM100 and CM200 series
                        EGX100
                        EGX200
                        EGX300
                        EGX400 

                        Environment: 
                        Communication capability between EGX gateway and CM100/CM200 series meters

                        Resolution: 
                        Yes, EGX models (EGX 100, 200, 300, and 400) will communicate with the older CM100 and CM200 meters. 

                        NOTE: Customer will have to configure the "Device List" from EGX webpage. Configure the modbus address and set protocole as "PowerLogic". View picture below where '1' is the CM100/200's modbus address:

                        What is the maximum Modbus port speed on the M340 CPU?

                        Modbus port speed up to 38400 baud on all CPU's with embedded Modbus ports. (ex. BMXP341000, BMXP342000, BMXP342010, BMXP342020)


                        What is the replacement for a SD100 smoke alarm?

                        The replacement for SD100 would be a 755PSMA4 photoelectricsmoke alarm.

                        Some of the key features are:
                        • New look design with easy to use test/hush button
                        • Easy installation and maintenance
                        • Wired interconnect feature (up to 40 alarms)
                        • Optional relay or wireless interconnect bases

                         

                        What is the part number for markers from 0-100 for 2.5 mm terminal?

                        What causes error 32600 in a SY/MAX controller?

                        Error code 32600 is the Hardware Diagnostic Error.
                        Possible causes:
                        1) May be any module in CPU rack (usually LI or LTI)
                        2) Module series incompatibility

                        Recovery procedure:
                        1) Check for series incompatibility. Determine if a Model 700 processor is used with pre-series C Analog or pre-series H Local Interface module in CPU rack. Both modules will not operate properly in CPU rack. Replace with later series modules.
                        2) Switch power off. Check power supply according to Section 2 of Troubleshooting Guide.
                        3) Replace LI, CPU or any modules in the rack where needed.

                         

                        What is the breaking capacity of a NC100 circuit-breaker.

                        The obsolete range of NC100 circuit breakers have the following short circuit breaking capacity at 400V.

                        NC100LS ratings 10 - 63A  = 36KA

                        NC100H ratings 80 - 100A  = 10KA

                        Can I still purchase the PDL SD100 smoke alarm in NZ?

                        No, this ionisation smoke alarm has been replaced by the Clipsal 755PSMA4 photoelectric smoke alarm.
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