plug brass screw cond 20mm

Series 1220S Brass Plugs, 20mm, Screwed Conduit, Brass Plug

Catalogue Number: 1220S20
plug brass screw cond 20mm
Colour:
Colour: Per UOM Std.
  • 1 PCE

Specifications

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Product brand
Clipsal
Range of product
Series 1220S
Material
brass
Product destination
diameter: 20-20 mm tube
Stub stiffness
rigid
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)

Frequently Asked Questions

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Is there a black version of the 220S20?

Yes, there is.  The 220S20 comes in 3 colors.

For more information, please refer to the link:
https://www.clipsal.com/Trade/Products/ProductDetail?catno=220S20 

What is the part number for a 20mm steel conduit plug?

The part number  for a 20mm brass plug for steel conduit is 1220S20.

Can I order the 220/20 in white?

Yes, you can order the 220/20 in white but it needs to be done as a special.
For more information, please refer to the link:https://www.clipsal.com/Trade/Products/ProductDetail?catno=220/20

What is part number for lid to suit 1239/20/4?

Part number 1239L20 will suit any of 1239/20 series.

What is the part no for 40mm Screw caps

Part no 220S40 available as standard in Grey
Orange can be supplied as special

for more information on this part please refer to https://www.clipsal.com/Trade/Products/ProductDetail?catno=220S40
User-added image

How do i seal up a 50mm hole in the 230DRAVL?

Using parts 220S50-GY and 260/50-GY. Placethe 260/50 on the inside and the 220S50 on the out side place it in the hole and screw them together. This willl then seal the hole.

For further information please visit https://www.clipsal.com/Trade/Products/ProductDetail?catno=260/50
https://www.clipsal.com/Trade/Products/ProductDetail?catno=220S50
 
 
 

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 part number do I need if I am looking for a 1920/30 in brass with a white porcelain base

Part number is 1920/30-WE

What is the VA rating of a 9001KM transformer light module?

Issue:
What is the VA rating of a 9001KM transformer light module?

Product Line:
Harmony Pushbuttons

Environment:
All Products

Cause:
Product Features

Resolution:
9001 KM2 110-120 volt 25-30 hertz      2.2 VA
9001 KM1 110-120 volt 50-60 hertz      2.4 VA
9001 KM3 208-220 volt 50-60 hertz      2.5 VA
9001 KM4 220-240 volt 25-30 hertz      2.2 VA
9001 KM7 220-240 volt 50-60 hertz      2.0 VA
9001 KM8 277 volt 50-60 hertz             2.4 VA
9001 KM5 380-480 volt 50-60 hertz      2.8 VA
9001 KM6 550-600 volt 50-60 hertz      2.5 VA

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

What is the part number for the solid state overload relay for 185 amps for LC1F185G7?

Product Line:
 
Tesys F line Contactors

Resolution:
 
The LR9F5371 has a setting range of 132-220 amps. The interconnection kit LA7F407 is required to directly mount the overload to the contactor.


CTA-ID : 2060527

How do I hardwire 10kva and 20kva transformers in a 208/120 or 240/120 environment

Issue:
Implementing a hardwire stepdown transformer in a 208v or 240v environment


Product Line:

Smart-UPS / Symmetra

Environment:

APTF10KT01, APTF10KW01, and APTF20KW01, All Serial Numbers

Cause:

Unbalanced UPS outputs require a stepdown transformer to power 120v loads


Resolution:

This document refers to installing  the APTF10KT01, APTF10KW01, and APTF20KW01 transformers in a North American 120/240 or 120/208 environment. For installations in other regions please consult the users manual.

The wiring block outputs are as follows:


For domestic use, make sure that the Terminal Block Jumper is installed between the Ground Terminal and Terminal 8 on the output wiring block, as illustrated on page 8 of the user manual. Please also make sure that the input voltage switch is in the correct position.

The step-down transformer provides 240/120 output as 2 120v hots, a neutral, and a ground. It provides 208v output as a 120v hot, an 88v hot, and a ground. The 120v hot (terminal  7) and the 88v hot (terminal 9) are 180 degrees out of phase. You will measure 208v from terminals 7 to 9. The step-down transformer is not able to provide 2 120v hots that are 120 degrees out of phase as you would see with utility power.



 Note: If your installation requires both 208v and 120v output power you will need 2 separate subpanels: a 240v/120v panel and a dedicated 208v subpanel.

Conext SW - Installation/ Wiring issue.

Issue:

Customer is installing the Conext SW and wants to confirm the wiring of the AC and DC cabling. 

Environment:

Conext SW 2524 120/240 Split-phase (865-2524)
 
Conext SW 4024 120/240 Split-phase (865-4024)


Resolution:
 

See the attached wiring diagrams for the Conext SW and Conext SW-NA.
Do not mix AC and DC wiring in the same conduit or panel. Consult the applicable installation code for details.
There are two dual 3/4" /1" trade-size knockouts on the side panel and another two on the bottom panel for AC wiring. Use the same trade size of strain relief as the trade size of the knockout(s) you are using.

 

What's the difference between the SyMax Model 50 programmable controllers 8005CP50 and 8005CP51?

The difference between the two SyMax Model 50 programmable controllers is the power voltage rating.
8005CP50 is a 120/240 VAC Processor Unit.
8005CP51 is a 24 VDC Processor Unit.


Legacy KB System (APS) Data: RESL169642 V1.0, Originally authored by on , Last Edited by on
Related ranges: Sy/Max

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 replacement AC coil for CAD32 and CAD50 relay?

Issue:
Are replacement  AC coil available for CAD32 and CAD50 relay?

Product Line:
Tesys Relays

Environment:
All Products

Cause:
Product selection

Resolution:
Volt = coil part number
12 = LXD1J7
21 = LXD1Z7
24 = LXD1B7
32 = LXD1C7
36 = LXD1CC7
42 = LXD1D7
48 = LXD1E7
60 = LXD1EE7
100 = LXD1K7
110 = LXD1F7
115 = LXD1FE7
120 = LXD1G7
127 = LXD1FC7
200 = LXD1L7
208 = LXD1LL7
220/230 = LXD1M7
230 595 21 LXD1P7
230/240 = LXD1U7
277 781 30 LXD1W7
380/400 = LXD1Q7
400 = LXD1V7
415 = LXD1N7
440 = LXD1R7
480 = LXD1T7
600 = LXD1X7
690 = LXD1Y7

 

NetBotz UI slow when viewing Pelco image

Issue:

Viewing a Pelco camera image in the NetBotz Advanced View or the web UI causes a performance issue on the NetBotz appliance.

Product Line:
NetBotz

Environment:
NetBotz 4.x
NetBotz Advanced View
NetBotz web UI
Supported Pelco Cameras

Cause:
Viewing a Pelco camera image in the NetBotz Advanced View or the web UI using any resolution other than the resolution that matches the setting on the Pelco camera causes a performance issue on the NetBotz appliance.

The NetBotz appliance must use more processing power to re-size the image when you view the image with mismatched settings.

Example:
The Pelco camera resolution is set to 1280x720.
When you view the image at 1280x720 in the Advanced View or the web UI, there are no noticeable performance issues.
When you view the image at 320x240 in the Advanced View or the web UI, the interface responsiveness becomes very slow.

Resolution
Make sure the resolution set in the Advanced View or web UI matches the resolution set on the Pelco camera.

Can the PowerLogic Energy Meter be used to monitor multiple loads?

Issue
A user would like to totalize multiple loads with an Energy meter.

Product Line
Powerlogic Energy Meter

Environment
Energy Meter Installation

Cause
The installation guide for the Energy meter does not contain instructions on wiring the meter to monitor multiple loads.

Resolution
*Warning: Installation and maintenance of this device should only be performed by qualified, competent personnel that have appropriate training and experience with high voltage and current devices. Failure to follow the instructions / warnings in the Meter Installation Guide can result in permanent damage to the meter, severe injury or death. 

The Energy meter is calibrated with the set of CTs that are included with the meter, however the Energy Meter can be installed with up to three sets of parallel CTs to monitor multiple loads. When wiring multiple current transformers in parallel to the Energy Meter, all voltages corresponding to the individual loads must be the same voltage values and must be from the same source. The voltage applied to the inputs of the Energy Meter will be used in the power calculations. Monitoring different voltage values and monitoring the same voltage values from different sources will both cause the power calculations to be inaccurate.

For example, if load A has a system voltage type of 120/208 VAC, and load B has a system voltage type of 277/480 VAC, an Energy Meter cannot be used to measure both loads in a parallel configuration. Likewise, if Load A and Load B both have a system voltage type of 120/208 VAC, but are supplied their respective voltage from different transformers, an Energy Meter cannot be used to measure both loads in a parallel configuration.

Note: When multiple sets of CTs are connected in parallel to the Energy Meter, the accuracy drops from less than 1% to between 1%-3%.


Please follow the guidelines in the attached addendum for selecting and installing the parallel CTs on an Energy meter.

Can you hardwire the input/output of the Matrix-UPS?

Issue:
Can the input or output of a Matrix UPS be hardwired?

Product Line:
Matrix UPS

Environment:
All serial ranges

Cause:
A user may wish to hardwire the input/output of the UPS rather than use the supplied input power cord.

Resolution:
APC offers a hardwire kit to be used with the 120/208 Matrix-UPS product. The part #s for these kits are as follows:

MXA001: 5kVA Hardwire kit
MXA002: 3kVA Hardwire kit

These hardwire kits replace the standard back plate and allows the input and output of the Matrix to be wired directly to their corresponding electrical panels. This kit provides 120V, 208V and 240V on the output. The electrical specifications for both the Matrix 3kVA and Matrix 5kVA UPS systems are as follows:

Input Over-current Protection
3kVA: 20 A
5kVA: 30 A

Input/Output Wire Size
3kVA: 12 AWG
5kVA: 10 AWG


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 values should be set for the potential transformer (PT) primary and secondary values in a CM4000 when connecting the voltage inputs of meters directly to the bus (with fuses)?

Issue
A user may want to know the PT primary and secondary values for a CM4000 upon initial setup

Product Line
CM4000

Environment
Setup

Cause
The meter may be set to "No PT" or the PT ratio may be used. 

Resolution
When setting the PT ratio, one may select "No PT" for the PT Primary Scale - there is no requirement to set the PT ratio if "NO PT" is chosen.

The PT Primary and PT Secondary inputs are still available, but they are not used when "No PT" is selected for the PT Pri Scale.
A user would set the PT ratio to "No PT" when the system voltage used by the load to be metered is the same as the system voltage connected directly to the meter (i.e. direct connect with no potential transformers used).

The PT ratio needs to be set only when the load is using a different voltage from the meter voltage inputs (i.e. potential transformers are being utilized). Potential transformers are used when the voltage of the electrical system is higher than the rated specifications of the meter voltage inputs. The PT primary and secondary ratio on the meter should match that of the potential transformers in the field.

Example 1: When metering a 1.2 kV system with a set of PT's that contain a ratio of 1200:120, the PT Primary of the meter should be set to 1200 and the PT Secondary of the meter should be set to 120.
(Potential transformers are used in this scenario because 1.2 kV exceeds the acceptable voltage input threshold the CM4000 can withstand (1–690 L-L, 400 L-N)

Example 2: When metering a a 480V L-L system, no PT's are being used. The system voltage is directly connected to the metering inputs. In this scenario, you would set the PT Pri Scale of the meter to "No PT".

Note: If the meter receives voltage that is the same as the voltage used by the load and "No PT" is NOT selected, then a PT ratio of 1:1 would need to be used and is still acceptable. (i.e.This result can be achieved by setting the PT Ratio to 120:120 or 480:480)

XW Won't qualify generator.

Issue:

XW inverter charger will not qualify AC generator. AC IN light blinks
AC input qualification, overloading the generator, unable to sustain battery charging and and running loads (multi-tasking)


Environment:

XW 4024/4548/6048 with AC generator


Resolution:

1) Ensure generator is split phase 120/240, not 120 monophase or 120/208V. Voltage from (L1 to N) and (N to L2) should add up exactly to (L1 to L2) voltage
3) Recommended, size your generator 2 times the rating of the XW system.
2) Ensure no neutral to ground bond in Generator
3) Connect gen output to AC2, not AC1 and open up AC2 parameters in XW advanced settings - ac settings menu
4) Reduce max charge rate in XW
5) If Kohler RES series generator, see  Solution 1179

Cause:

1) XW can only connect to splt-ph 120/240 unless converted to monophase 
2) Potential ground loop
3) AC2 qualification parameter window much wider than AC1
4) Gen being overloaded by combination of house loads and XW charger.

Can a circuit breaker be operated at a voltage less than the voltage marked on the breaker?

Inquiry:
Is it OK to apply a circuit breaker on a voltage system rated lower than the rating of the breaker?

Product Line:
MCB and MCCB circuit breakers

Cause:
Circuit breakers are typically marked only with a few standard voltages, while other voltage systems exist.

Resolution:
Yes. According to 2011 NEC article  240.83(E), a circuit breaker may be used at voltages equal to or less than its voltage rating. 
When applied on a system of lower voltage than marked, he interrupting rating is equal to the next highest marked interrupting rating. 
The only exceptions to application at less than rated voltage are:
1. QO and HOM -GFI, -EPD, -AFI, -CAFI, and DF circuit breakers must be applied on 120/240 Vac systems only (they need over 100 Vac to power the electronic modules)
2. EHB-EPD and EDB-EPD type breakers which must be applied on 480Y/277 systems only

NOTE:  Circuit breakers marked with DC ratings only are not suitable for application on AC systems, and circuit breakers marked with AC ratings only are not suitable for application on DC systems.

Lost Neutral - effects on loads and UL1449

Issue:

Lost Neutral - effects on loads and UL1449

Product Line:

All Back-UPS, Back-UPS PRO and Personal Surge

Environment:

Lost Neutral in electrical infrastructure.

Cause:

Lifted neutral at utility panel.

Resolution:

In a typical balanced load with all loads using the neutral return and the neutral is severed, the voltage from each Phase appears across each load and is added on itself. This is a typical fault condition. Underwriter's Laboratories realized that this fault condition is common and it is not up to the Surge Protection Industry to prevent these failures but in the event of this common failure, UL addressed this condition by requiring all Surge Protectors to pass a fault of 240 VAC at different current levels to simulate different loads. These currents are: 125 mA rms. 500 mA rms. 2.5 A rms. and 5 A rms. They also require an unlimited current test (1000 A rms. or greater). 240 VAC is used because most household wiring is 120/240 3 wire single phase and a lost neutral produces 240 VAC. The unit during this test has cheesecloth wrapped around it. The unit may not emit flame nor can it char the cheesecloth nor can it create an opening in the housing that exposes live metal parts large enough for a child's finger to be inserted. After the test, the unit may not allow leakage currents of > 0.5 mA from Line to Ground and Neutral to Ground also it must withstand a dielectric voltage of 240 VAC for minute between each protected mode. Our units have passed this stringent test requirement in order to get UL recognition and to insure the safety of our customer's lives and property.
 

Can a 3-pole breaker be used in a 2-pole application?

Issue:
Can a three pole breaker be used in either a two pole or a single phase application?

Product Line:
MCCB

Environment:
Powerpact and Masterpact

Resolution:
  • A 3p breaker can be used on a 3 phase system using either 2 or 3 poles.
  • A 3p breaker can be used on a 1 phase system only if indicated by the markings as noted below.
For reference:
  • Per NEC article 240.85: "A circuit breaker with a straight voltage rating, such as 240V or 480V, shall be permitted to be applied in a circuit in which the nominal voltage between any two conductors does not exceed the circuit breaker’s voltage rating."
  • According to UL's White book, "3–pole circuit breakers are suitable for use on 3-phase systems only, unless marked to indicate use on 1-phase systems, such as, “For 1–phase connections, use two outside poles,” or an equivalent statement. A 3-pole breaker used in place of a 2-pole breaker on a 3-phase system, such as a 2-pole breaker used in a branch circuit that is actually two legs of a 3-phase system, is acceptable without the 3-pole breaker being specifically marked."

Powerpact P
  • The 3-pole P-frame breaker has a marking on the cover that states "single phase any 2 poles". Therefore on a 120/240Vac system, it is ok to use any 2 poles of a 3 pole P-frame breaker.
  • This breaker marking correlates with the wiring diagram markings of the M and P breaker enclosure, which shows both 2p and 3p applications.
Powerpact L
  • The 3-pole L-frame breaker does NOT have a marking for single phase systems. Therefore on the 120/240Vac system, it is NOT ok to use a 3 pole L-frame breaker.
  • This marking correlates with the wiring diagram of the L breaker enclosure, which shows only 3p applications.
Powerpact H and J
  • Three-pole Powerpact H and J-frame thermal-magnetic breakers are marked for single phase use
  • Three-pole Powerpact H and J-frame Micrologic breakers with standard trip units (U31X and U33X) are marked for single-phase use
  • Three-pole Powerpact H and J-frame Micrologic breakers with Ammeter and Energy trip units (U43X, U44X, U53X and U54X) are NOT marked for single-phase use.

Energy Meter shows "Phase Loss" Alarm

Issue
Energy meter shows “Phase Loss” alarm on front display.

Product Line
Energy meter (EMB and EME series).

Environment
Installing/wiring energy meter

Cause
If the voltage of any phase is measured as less than 75% of the voltage on any other phase, the display will show PHASE LOSS and indicate the specific phase(s).

Resolution
If the energy meter is installed with the proper number of phases (see selection below to determine this) then the phase voltages should be verified. If the number of phases installed is not correct, then the phase loss alarm will be indicated in all operating conditions.

It’s very important to know the model number of your Energy meter.  
For example, users see “Phase Loss” error when they use EMB2043 (1 phase, 3 wire) with 1 phase, 2 wire application.

As a result, it’s very important for users to know their application and use appropriate meter that meets their system type.  Please review the tables below for selecting correct meter.

Basic 120/240 Volt 208 Wye

EMB1010 Basic 100A 1 Phase, 2 wire installation 1 CT
EMB1021 Basic 200A 1 Phase, 2 wire installation 1 CT
EMB1032 Basic 300A 1 Phase, 2 wire installation 1 CT
EMB2010 Basic 100A 1 Phase, 3 wire installation 2 CTs
EMB2021 Basic 200A 1 Phase, 3 wire installation 2 CTs
EMB2032 Basic 300A 1 Phase, 3 wire installation 2 CTs
EMB2043 Basic 400A 1 Phase, 3 wire installation 2 CTs
EMB2083 Basic 800A 1 Phase, 3 wire installation 2 CTs
EMB3010 Basic 100A 3 Phase, 4 wire installation 3 CTs
EMB3021 Basic 200A 3 Phase, 4 wire installation 3 CTs
EMB3032 Basic 300A 3 Phase, 4 wire installation 3 CTs
EMB3043 Basic 400A 3 Phase, 4 wire installation 3 CTs
EMB3083 Basic 800A 3 Phase, 4 wire installation 3 CTs
EMB3084 Basic 800A 3 Phase, 4 wire installation 3 CTs
EMB3164 Basic 1600A 3 Phase, 4 wire installation 3 CTs


Extended Range 120/480 Volt Wye

EME1010 Basic 100A 1 Phase, 2 wire installation 1 CT
EME1021 Basic 200A 1 Phase, 2 wire installation 1 CT
EME1032 Basic 300A 1 Phase, 2 wire installation 1 CT
EME2010 Basic 100A 1 Phase, 3 wire installation 2 CTs
EME2021 Basic 200A 1 Phase, 3 wire installation 2 CTs
EME2032 Basic 300A 1 Phase, 3 wire installation 2 CTs
EME2043 Basic 400A 1 Phase, 3 wire installation 2 CTs
EME2083 Basic 800A 1 Phase, 3 wire installation 2 CTs
EME3010 Basic 100A 3 Phase, 4 wire installation 3 CTs
EME3021 Basic 200A 3 Phase, 4 wire installation 3 CTs
EME3032 Basic 300A 3 Phase, 4 wire installation 3 CTs
EME3043 Basic 400A 3 Phase, 4 wire installation 3 CTs
EME3083 Basic 800A 3 Phase, 4 wire installation 3 CTs
EME3084 Basic 800A 3 Phase, 4 wire installation 3 CTs
EME3164 Basic 1600A 3 Phase, 4 wire installation 3 CTs


NOTE: the meter will operate, however the phase loss alarm will constantly be present if the improper meter is in use.