lock nut nylon hexagon 40mm

LOCK NUT NYLON HEXAGON 40MM

Catalogue Number: 259/40
lock nut nylon hexagon 40mm
Colour: Grey
Colour: Per UOM Std.
  • Grey 1 PCE 1

Specifications

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Range
Clipsal
Product or component type
lock nut
Accessory / separate part category
fixing accessory
Range compatibility
Material
nylon
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
ENVPEP100802EN
Circularity Profile
N/A

Frequently Asked Questions

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What are the part numbers of slip type expansion couplings?

Slip Type Expansion Couplings are available from 16mm through to 50mm.The part numbers of slip type expansion coupling are as follows:
16mm = 251/16
20mm = 251/20 *
25mm = 251/25 *
32mm = 251/32
40mm = 251/40 *
* = only available in Grey
Where long conduit runs are likely to be exposed to wide variations in temperature, it is recommended that expansion couplings be used at each join. It is not recommended that Slip Type Expansion Couplings be used where the conduit run is exposed to the weather. Standard colour is Grey (GY).
Dimension details are attached.
 

Can I get the 251/50 in orange?

No. Unfortunately, the 251/50 is the only one that comes in grey.

For further information please visit https://www.clipsal.com/Trade/Products/ProductDetail?catno=251/50



 

Are the Clipsal Conduit Clips available in Electric Orange?

No, they are only available in grey.

This applies to the 280/16 (16mm), 280/20 (20mm), 280/25 (25mm), 280/32 (32mm), 280/40 (40mm) and 280/50 (50mm).

What is the part number for the bitsa box?

The part number for the bitsa box is 357TB.
Some of the key features are:
  • Tool boxes
  • 12 compartment transparent box with assorted screws, screws and quantities included
  • Includes: 357WF30 (100), 357/20 (150), 357WH12 (350), 357P30 (200), 357P20 (300), 357WH25 (100), 357PH50 (50), 357/63 (50), 357WHP32 (100), 357PH45 (100), 357/35 (100), 357/40 (100)
For further information please visit www.clipsal.com/Trade/Products/ProductDetail?catno=357TB


 

Typical 3-line drawings for Sepam Series 20, 40 and 80 current and voltage input connections

Goals and Symptoms

Typical 3-line drawings of Sepam 20/40 Feeder, Sepam 20/40 Main and Sepam 80 Main/Feeder.

Causes and Fixes

See attachment
Sepam.zip



AEDL3
Legacy KB System (APS) Data: RESL203669 V1.0, Originally authored by MiZe on 10/09/2010, Last Edited by MiZe on 10/09/2010
Related ranges: Sepam series 80, Sepam series 40, Sepam series 20

How to calculate Energy readings from the raw Integer register data on an Energy Meter

Issue
The energy values are stored across two 16-bit integer registers on an energy meter. 

Product Line
Energy Meter

Environment
Reading and converting Modbus register values

Resolution
The Energy Meter stores energy across two 16-bit integer registers.

Register #1 and Register #2 (Modbus address 257/258 for Register #1 and 259/260 for Register #2). Register #2 is the High WORD and Register #1 is the Low WORD. 

The Multiplier/Divisor table states that both of these registers must be divided by 32 to obtain the real value from the raw data.
The Multiplier/Divisor should NOT be applied to both registers. It is applied to the final value of both registers.

To calculate the Energy the registers must first be arranged as the register list states [2] is the High word and [1] is the Low word.

To make [2] the High word it needs to be shifted to the left 16 bits.
To accomplish this multiply the value in [2] by 65,356.
You will then add this value to the value in [1].
The final value will be divided or multiplied by the correct scaling value. Please see the example listed below.

For this example we will assume an Energy Meter with 300 amp CTs. According to the Integer Multiplier/ Divisor table, 300 amp CTs will give a divisor value, (d), of 32 and a multiplier value, (m), of 0.03125.
We will assume the following register values.
Register #1 = 29,586
Register #2 = 31

Using Divisor Table
kWh = ([R2]*65,536+[R1])/d
kWh = (31*65,536+29,586) / 32
kWh = 64412.56

Using Multiplier Table
kWh = ([R2]*65,536+[R1]) * m
kWh = (31*65,536+29,586) * 0.03125
kWh = 64412.56

*Note the divisor will not always be 32 and the multiplier will not always be 0.03125. For the correct values please see the Integer Multiplier Table.