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plate only 4gang arch

34

Flush Plate, 4 Gang, Architrave

plate only 4gang arch
Colour: White Electric
Colour: Per UOM Std.
  • Cream 1 PCE
  • White Electric 1 PCE
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Key Features & Specifications

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  • Architrave flush switch
  • Flush mount
  • For termination of unused or looped cables, mounting of custom equipment or simply blanking off unused openings in wall/wall cladding
Range of product
Standard Series
Product brand
Clipsal
Number of gangs
4 gangs
Product destination
switch
Fixing mode
by screws
Material
plastic
Marking
without marking
Mounting position
horizontal and vertical
Fixing center
124 mm
Length
140 mm
Width
32 mm
Depth
11 mm
REACh Regulation
Free of Substances of Very High Concern above the threshold
EU RoHS Directive
Pro-active compliance (Product out of EU RoHS legal scope)
Mercury free
Yes
RoHS exemption information
Yes
China RoHS Regulation
Product out of China RoHS scope. Substance declaration for your information
Circularity Profile
N/A

Documents & downloads

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  • Technical Data Catalogues

Frequently Asked Questions

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How many pounds of force will it take to actuate the toggle on a Powerpact M-frame breaker?

Product Line:
Powerpact M-frame circuit breakers

Environment:
Molded Case Circuit Breakers

Cause:
Need to know the force required to turn and M-frame breaker on and off

Resolution:
The Powerpact M-frame breaker requires:
54 pounds to turn ON
34 pounds to turn OFF
63 pounds to RESET

What is the part number for a 30 series 20A double pole switch mechanism?

The part number you need is 30MD20.

Some of the key features are:
  • 4 terminals of 1.5mm diameter accommodate 3 x 2.5 sq mm cable
  • Body fits 34 mm diameter hole
  • Motor rating is 100
For further information please https://www.clipsal.com/Trade/Products/ProductDetail?catno=30MD20

What is the part number for the 30 series mech with neon?

The part number is 30/2NM.

Some opf the key features are:
  • Neon can be wired to indicate on, off or power available
  • Looping/switch terminal bores of 4.1 mm diameter
  • Body fits 34 mm diameter hole
For further information please visit https://www.clipsal.com/Trade/Products/ProductDetail?catno=30/2NM

What is the part # for a clear plastic bezel for a ZB4BW31, ZB4BW32, ZB4BW33 ZB4BW34, ZB4BW35, ZB4BW36, ZB4BW37 ?

Issue:
What is the part # for a clear plastic bezel for a ZB4 illuminated push buttons (incandescent type)?

Product Line:
Product selection

Environment:
All Products

Cause:
Product selection

Resolution:
Use a W415595280111
 

Does Advanced Reports (AR) have to be installed before Upgrading to System Manager Software (SMS) version 4.2?

Advanced Reports (AR) does not have to be installed previous to upgrading SMS version 4.2.
From page 34 of the System Manager Software Setup Guide Version 4.2, step 23 states:
"If no previous Advanced Reports software is installed on this computer, a message displays telling that it will be installed. This will install Crystal Enterprise and then the SMS Advanced Reports software."


  • Date Created: May 19, 2008
    Last Revised: June 24, 2008
    Public
    Original Author: AV
    All content © 1992-2008 Schneider Electric

Legacy KB System (APS) Data: RESL192204 V1.0, Originally authored by PhHa on 06/25/2008, Last Edited by PhHa on 06/25/2008
Related ranges: SMS Add-on, System Manager 4.0

PME Licensing error loc_LicenseGracePeriod in SystemLog

Issue
The licenses in PME are not detected:
          
          Licensed Modules: Entry-Range Device Licenses: 0 Mid-Range Device Licenses: 0 High-End Device Licenses: 0
          IMPORTANT: The current configuration of this system does not comply with the device licensing requirements.
          Additional device licenses are needed: Entry-Range Device Licenses: 3 Mid-Range Device Licenses: 34 High-End Device Licenses: 29


SystemLog shows the following event:
          

          
          loc_LicenseGracePeriod

Product Line
Power Monitoring Expert 7.2.2 (Data Center edition)
note: could apply to any version prior to PME 8.2

Environment
License Manager
Flexnet Publisher (FNP)

Cause
Even thought there doesn't seem to be any license (as shown in Management Console), Floating License Manager shows that licenses are still within the system:
          

Resolution
The workaround is to increase the number of retries. In some versions it is set to zero by default and as a result the service will not try to start on its own. In version PME8.2 the parameter is already set for retries. For other versions, follow the procedure below to change the number of retries:

1. Open the "C:\ProgramData\Schneider Electric\Floating License Manager\FLEXnet Publisher License Server Manager\conf\server.xml" file in Notepad for editing

2. Find 'vendorDaemonRetry' parameter and set it to 10

          

NOTE: The parameter may have a different name depending the version

3. Restart the lmadminschneider service

How to read alarm status's via registers on a CM3000/CM4000 series meter

Issue
Reading alarm registers

Product Line
CM3000
CM4000

Environment
Alarming

Resolution
Register 10011 - 10022 (12) contain the active alarm status for all alarms in a Series 4000 or 3000 Circuit Monitor (CM3, CM4). The least significant register is 10022 and 10011 is the most significant register. Therefore, register 10022 contain the status of the first 16 alarms. In binary, the least significant bit (referred to as bit 00) to the right of the register represents alarm 1, bit 01 = alarm 2, bit 02 = alarm 3, and ...........

1 = alarm is active
0 = alarm is inactive

Example:.
Alarm 2 and 4 are active (bits 01 and 03)
register 10022 reads 0000000000001010 in binary


Alarm Description
01 Over Current Phase A Over Ia 
02 Over Current Phase B Over Ib 
03 Over Current Phase C Over Ic 
04 Over Current Neutral Over In 
05 Over Current Ground Over Ig 
06 Under Current Phase A Under Ia 
07 Under Current Phase B Under Ib 
08 Under Current Phase C Under Ic 
09 Current Unbalance, Max I Unbal Max 
10 Current Loss Current Loss 
11 Over Voltage Phase AN Over Van 
12 Over Voltage Phase BN Over Vbn 
13 Over Voltage Phase CN Over Vcn 
14 Over Voltage Phase AB Over Vab 
15 Over Voltage Phase BC Over Vbc 
16 Over Voltage Phase CA Over Vca 
17 Under Voltage Phase A Under Van 
18 Under Voltage Phase B Under Vbn 
19 Under Voltage Phase C Under Vcn 
20 Under Voltage Phase AB Under Vab 
21 Under Voltage Phase BC Under Vbc 
22 Under Voltage Phase CA Under Vca 
23 Voltage Unbalance LN, Max V Unbal L-N Max 
24 Voltage Unbalance LL, Max V Unbal L-L Max 
25 Voltage Loss (loss of A,B,C, but not all) Voltage Loss 
26 Phase Reversal Phase Rev 
27 Over kVA Demand Over kVA Dmd 
28 Over kW Demand Over kW Dmd 
29 Over kVAR Demand Over kVAR Dmd 
30 Over Frequency Over Freq 
31 Under Frequency Under Freq 
32 Lagging true power factor Lag True PF 
33 Leading true power factor Lead True PF 
34 Lagging displacement power factor Lag Disp PF 
35 Leading displacement power factor Lead Disp PF 
36 Over Current Demand Phase A Over Ia Dmd 
37 Over Current Demand Phase B Over Ib Dmd 
38 Over Current Demand Phase C Over Ic Dmd 
39 Over THD Voltage AN Over THD Van 
40 Over THD Voltage BN Over THD Vbn 
41 Over THD Voltage CN Over THD Vcn 
42 Over THD Voltage AB Over THD Vab 
43 Over THD Voltage BC Over THD Vbc 
44 Over THD Voltage CA Over THD Vca 
45-80 Reserved for custom alarms.

 

BMS AP9921X-AP9922 Battery Management System; high battery voltages on 40 Jar battery applications

 
 
Issue:
Battery Management System; high battery voltages on 40 Jar battery applications
 
 
Product line:
AP9921X-AP9922 Battery Management System installed on a 40 Jar battery applications
 

Environment:
All models, all serial numbers
 

Cause:
In applications where you have AP9921X-AP9922 Battery Management System (BMS) installed on a 40 Jar battery solution; such as we see on MGE UPS battery systems, it’s possible to see high voltages on one or more B side batteries. The voltages will typically be found higher than 13.5vdc and the BMS unit may be in alarm, Battery High User Defined Voltage, Battery High Chemistry Voltage alarm may exist.
 
Connector 35 is the negative side of the battery string voltage to the BMS power supply.
 

Resolution:
First check the BMS “A” side harness wiring for incorrectly terminated #35 wire to battery 32 negative post instead of the last battery 40 negative terminal. This miss wire may result in some batteries with high voltages on the “B” side connector. If this is a 40 jar battery string, please be sure that you have BMS “A” side #35 wire terminated at Battery jar 40 negative terminal.
 
Please find wiring example below for 40 Jar battery string:
 
Connector A - Wire 1 = Positive Terminal Battery 1
Connector A - Wire 34 = Positive Terminal Battery 1
Connector A - Wire 2 = Positive Terminal Battery 2
Connector A - Wire 3 = Positive Terminal Battery 3
...continues…
Connector A - Wire 32 = Positive Terminal Battery 32
Connector A - Wire 33 = Negative Terminal Battery 32
 
Connector B - Wire 1 = Positive Terminal Battery 33
Connector B - Wire 2 = Positive Terminal Battery 34
Connector B - Wire 3 = Positive Terminal Battery 35
...continues…
Connector B - Wire 8 = Positive Terminal Battery 40
Connector B - Wire 9 = Negative Terminal Battery 40
Connector A - Wire 35 = Negative Terminal Battery 40
 
If the BMS harness is not miss wired then proceed with testing of the battery (s) and wiring, replace any battery that doesn’t pass the cell recorder test. If a specific battery causes repeated alarms (especially if the voltage continues to increase), the battery is failing.
 

 

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