sock swt mech only 10a 250v

Automatic Single Socket Outlet Mechanism, 250VAC, 10A

Catalogue Number: 10M
sock swt mech only 10a 250v
Colour: White Electric
Colour: Per UOM Std.
  • Grey 1 PCE
  • White Electric 1 PCE
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Specifications

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Range of product
Standard Series
Product brand
Clipsal
Quantity per set
set of 1
Cover type
complete housing
Marking
without marking
Local signalling
without light indicator
Device mounting
flush
Fixing mode
by screws
[In] rated current
10 A
[Ue] rated operational voltage
250 V AC
Depth
29 mm
Length
97 mm
Width
43 mm
Fixing center
84 mm
Number of poles
1
Standards
  • AS/NZS 3100
  • AS/NZS 3112
  • AS/NZS 3133:approval number S/1
    • EU RoHS Directive
      Compliant
      Environmental Disclosure
      ENVPEP120506EN

      Documents & downloads

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      Frequently Asked Questions

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      Do you have a shielded CAT 5E 10m patchlead?

      No unfortunately this part is not available.

      What is the measurement for the mounting centres for the Clipsal 10M

      It is 84mm

      What are the dimensions for the 10M?

      Clarification: not the 10MP.

      In theory any panel thickness less than 3.8mm will suit
      Hole size is 35.7mm diameter.

      Like products:
      10M
      10MD
      10MDS
      10MDLS
      10MD15S
      10MD20
       

      What is the recommended maximum cable length (with part numbers) for the TM3BCEIP Bus Coupler?

      Issue
      What cable do I use for the TM3BCEIP Ethernet/IP or Modbus TCP Bus Coupler?
      What is the maximum length for the cable(s)?

      Product Line 
      Modicon TM3

      Environment
      Distributed I/O Modules for M221, M241, M251, M262 PLCs

      Resolution
      The cabling options for the TM3BCEIP Bus Coupler module are as follows.
      All cables listed below are Ethernet Shielded cables for DTE connections with equipped with RJ45 connectors at each end.

      For environments without Electromagnetic Interference (EMI), the maximum cable length recommended is 80m. Part numbers are as follows:
      CE compliant cables:
      490NTW0002 - 2m (6.56 ft)
      490NTW0005 - 5m (16.4 ft)
      490NTW00012  - 12m (39.37 ft)
      490NTW00040 - 40m (131.23 ft)
      490NTW00080 - 80m (262.47 ft)

      UL compliant cables:
      490NTW0002U - 2m (6.56 ft)
      490NTW0005U - 5m (16.4 ft)
      490NTW00012U  - 12m (39.37 ft)
      490NTW00040U - 40m (131.23 ft)
      490NTW00080U - 80m (262.47 ft)

      For harsh environments with Electromagnetic Interference (EMI), the maximum cable length recommended is 10m. Part Numbers are as follows:
      CE compliant cables:
      TCSECE3M3M1S4 - 1m (3.28 ft)
      TCSECE3M3M2S4 - 2m (6.56 ft)
      TCSECE3M3M3S4 - 3m (9.84 ft)
      TCSECE3M3M5S4 - 5m (16.4 ft)
      TCSECE3M3M10S4 - 10m (32.81 ft)

      UL compliant cables:
      TCSECU3M3M1S4 - 1m (3.28 ft)
      TCSECU3M3M2S4 - 2m (6.56 ft)
      TCSECU3M3M3S4 - 3m (9.84 ft)
      TCSECU3M3M5S4 - 5m (16.4 ft)
      TCSECU3M3M10S4 - 10m (32.81 ft)

      What would cause the assembly 106 and 107 I/0 tables in somove to reset to default after closing out somove and or power cycling the ATV930 drive?

      Issue:
      What would cause the assembly 106 and 107 I/0 tables in somove to reset to default after closing out somove and or power cycling the ATV930 drive?

      Product Line:
      Somove and ATV930 

      Environment:
      All 

      Cause:
      assemblies 106 and 107 are not supported

      Resolution:
      Assemblies 106 and 107 are only supported in Somove and not the Drive so the drive will not retain the settings and will reset back to default after power cycle or if you open up somove again and copy from drive to PC. 

      What are the part numbers for the Power and Feedback cables for a BMH1003 xxxxxx motor ?

      Issue: Part numbers

      Product Line: BMH

      Environment: None

      Cause:

      Resolution:

      The part number for the power cable for a BMH1003 xxxxxx motor is VW3 M5101 Rxxx . where xxx = 15, 30, 50, 100, 150, 200, 250, 500, 750 for cable lengths 1.5m, 3m, 5m, 10m, 15m, 20m 25m 50m and 75 m respectively, The composition of this cable is [(4 x 1.5 mm^2) + (2 x 1 mm^2)] and comes with a pre-made M23 style industrial connector on the motor end and free ends on the drive side.

      The part number for the feedback cable for a BMH1003 xxxxxx motor is VW3 M8102 Rxxx  where xxx = 15, 30, 50, 100, 150, 200, 250, 500, 750 for cable lengths 1.5m, 3m, 5m, 10m, 15m, 20m 25m 50m and 75 m respectively, The composition of this cable is [(3 x 2 x 0.14 mm^2) + (2 x 0.34 mm^2)] and comes with a pre-made M23 style industrial connector on the motor end and an RJ45 style connector on the drive side.

      What is the detection range for the Argus Occupancy Sensor SAE_UE_MS_CU_WE

      PIR: 360° circular, adjustable up to Φ8m

      US: 360°, adjustable up to 10m x 16m, it’s an oval shape, at the height of 2.5 m

      What is the connector to fit the XUM2AKCNM8T proximity switch

      The connector is an M8 4 pin female connector
      XZCPV0941L2 for a straight connector with PVC cable
      XZCPV1041L2 for an angled connector with PVC cable
      XZCP0941L2 for a straight connector with PUR cable for severe environments
      XZCPA0941L2 for a straight connector for food & beverage applications
      (change L2 to L5 or L10 for 5 or 10m cables)
      See attached data sheet

      How to read alarm status's via registers on a CM2000 series meter

      The alarm status's are stored in registers 5771-5778 with each alarm set to a bit indexed from zero. For example, if one needed to determine if the over current alarm for phase A was active you would read register 5771 and look to bit zero. If the register reading program is not capable of displaying binary (bit level) information, the information may be entered into the Windows calculator and converted from decimal to binary.
      Alarm No. Alarm Description
      01 Over Current Phase A
      02 Over Current Phase B
      03 Over Current Phase C
      04 Over Current Neutral
      05 Over Current Ground
      06 Under Current Phase A
      07 Under Current Phase B
      08 Under Current Phase C
      09 Current Unbalance Phase A
      10 Current Unbalance Phase B
      11 Current Unbalance Phase C
      12 Phase Loss, Current
      13 Over Voltage Phase A
      14 Over Voltage Phase B
      15 Over Voltage Phase C
      16 Over Voltage Phase A-B
      17 Over Voltage Phase B-C
      18 Over Voltage Phase C-A
      19 Under Voltage Phase A
      20 Under Voltage Phase B
      21 Under Voltage Phase C
      22 Under Voltage Phase A-B
      23 Under Voltage Phase B-C
      24 Under Voltage Phase C-A
      25 Voltage Unbalance A
      26 Voltage Unbalance B
      27 Voltage Unbalance C
      28 Voltage Unbalance A-B
      29 Voltage Unbalance B-C
      30 Voltage Unbalance C-A
      31 Voltage Loss (Loss of A, B, or C, but not all)
      32 Over kVA 3-Phase Total
      33 Over KW Into the Load 3-Phase Total
      34 Over KW Out of the Load 3-Phase Total
      35 Over kVAR Into the Load 3-Phase Total
      36 Over kVAR Out of the Load 3-Phase Total
      37 Over Current Demand Phase A
      38 Over Current Demand Phase B
      39 Over Current Demand Phase C
      40 Over Current Demand 3-phase Total
      41 Over Frequency
      42 Under Frequency
      43 Lagging True Power Factor
      44 Leading True Power Factor
      45 Lagging Displacement Power Factor
      46 Leading Displacement Power Factor
      47 Suspended Sag/Swell
      49 Over Value THD Current Phase A
      50 Over Value THD Current Phase B
      51 Over Value THD Current Phase C
      52 Over Value THD Voltage Phase A-N
      53 Over Value THD Voltage Phase B-N
      54 Over Value THD Voltage Phase C-N
      55 Over Value THD Voltage Phase A-B
      56 Over Value THD Voltage Phase B-C
      57 Over Value THD Voltage Phase C-A
      58 Over K-Factor Phase A 1071 Tenths % A
      59 Over K-Factor Phase B 1072 Tenths % A
      60 Over K-Factor Phase C
      61 Over Predicted kVA Demand
      62 Over Predicted KW Demand
      63 Over Predicted kVAR Demand
      64 Over kVA Demand Level 1
      65 Over kVA Demand Level 2
      66 Over kVA Demand Level 3
      67 Over kW Demand Level 1
      68 Over KW Demand Level 2
      69 Over KW Demand Level 3
      70 Over kVAR Demand
      71 Over Lagging 3-phase Avg. Power Factor
      72 Under 3-Phase Total Real Power
      73 Over Reverse 3-Phase Power
      74 Phase Reversal
      75 Status Input 1 Transition from Off to On
      76 Status Input 2 Transition from Off to On
      77 Status Input 3 Transition from Off to On
      78 Status Input 4 Transition from Off to On
      79 Status Input 5 Transition from Off to On
      80 Status Input 6 Transition from Off to On
      81 Status Input 7 Transition from Off to On
      82 Status Input 8 Transition from Off to On
      83 Status Input 1 Transition from On to Off
      84 Status Input 2 Transition from On to Off
      85 Status Input 3 Transition from On to Off
      86 Status Input 4 Transition from On to Off
      87 Status Input 5 Transition from On to Off
      88 Status Input 6 Transition from On to Off
      89 Status Input 7 Transition from On to Off
      90 Status Input 8 Transition from On to Off
      99 End of Incremental Energy Interval
      100 Power-Up/Reset
      101 End of Demand Interval
      102 End of Update Cycle
      103 Over Analog Input Channel 1
      104 Over Analog Input Channel 2
      105 Over Analog Input Channel 3
      106 Over Analog Input Channel 4
      107 Under Analog Input Channel 1
      108 Under Analog Input Channel 2
      109 Under Analog Input Channel 3
      110 Under Analog Input Channel 4
      201 Voltage Swell A-N/A-B
      202 Voltage Swell B-N
      203 Voltage Swell C-N/C-B
      204 Current Swell Phase A
      205 Current Swell Phase B
      206 Current Swell Phase C
      207 Current Swell Neutral
      208 Voltage Sag A-N/A-B
      209 Voltage Sag B-N
      210 Voltage Sag C-N/C-B
      211 Current Sag Phase A
      212 Current Sag Phase B
      213 Current Sag Phase C
      214 Current Sag Neutral


      Legacy KB System (APS) Data: RESL209554 V1.0, Originally authored by MaTh on 11/02/2012, Last Edited by MaTh on 11/02/2012
      Related ranges: CM2000 series

      Setting up ATV61/71 drives to run reverse using Ethernet IP with assemblies 103 and 104?

      Issue:
      Setting up ATV61/71 drives to run reverse using Ethernet IP with assemblies 103 and 104?

      Product Line:
      Altivar ATV61 and ATV71 with Ethernet IP card VW3A3316

      Environment:
      All

      Cause:
      Needs to write a reverse command over the network using assemblies 103 and 104.

      Resolution:
      Ethernet IP command for REV  using assemblies 103 and 104.
      Reverse mode
      bits 1, on
      bits 5 on
      bits 13 on
      all need to be on
      bit 4 needs to be off
      or DEC 8226 is REV

      What is the socket for 418SL or 439SL

      438L - Socket PVD 10A suit 1mm ord.duty flex, rnd Earth socket.

      According to datasheet, operating distance is "50m", and maximum sensing distance is "100m". What is a difference between these distance explanation?

      We speak about 100m in free field, we can guaranty a well functioning at 50m in industrial applications, actually it depends mainly of where the system is installed, for the moment no customer is complying about low range.
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