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Series 170SS Fixing Accessories, Metal, Stainless Steel Saddles, 25mm

Series 170SS Fixing Accessories, Metal, Stainless Steel Saddles, 25mm

Series 170SS Fixing Accessories, Metal, Stainless Steel Saddles, 25mm

Item Number: 173SS

Retail
$7.34
RRP (Inc. GST)

Datasheet

Barcode

Qty UoM EAN Colour
-
-
-

Specifications

Design

Product brand

Clipsal

Range of product

Series 170SS

Sustainable offer status

Green Premium product

Physical

Fixing mode

by screws

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

ENVPEP110719EN

Material

Material

stainless steel

Others

Diameter

25 mm

Package 1 Weight

14 g

Package 1 Height

28 mm

Package 1 width

62 mm

Package 1 Length

20 mm
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Frequently Asked Questions

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What is the Steel rating for 173SS?

The 173SS is rated at 316 Grade Steel

What is the grade rating for the stainless steel saddle part number 173SS?

The grade rating of stailess steel for the 173SS stainless steel is 316.

Are the 172SS saddles made from 316 Stainless Steel?

Yes, the 172SS saddles are made from 316 stainless steel.

Some of the key features are:
  • 0.9 mm gauge
  • 135 mm Maximum Slot Width
  • 5 mm diameter Hole
  • 39 mm Centres
  • 50 mm Length x 20 mm Width x 24 mm Height
For further information please visit https://www.clipsal.com/Trade/Products/ProductDetail?catno=172SS

 

What is the part number with a full saddle with 2 holes either side 50mm?

Part number is a 176SS

What is the part number with a full saddle with 2 holes either side 50mm?

Part number is a 176SS

How to convert floating point registers to an integer value in the Enercept Meter and Energy Meter?

Product Line:  
Enercept and Energy Meter

Resolution:  
Follow the steps below in the example to convert register values to an integer.  

In this example register 287 has a value of 17395 and register 288 has a value of -22528.  Register 287 is the upper 16 bit number and 288 is the lower 16 bit number.  

1) Convert 17395 and 22528 to binary numbers (add a 0 to the front of the number to make it 16 bits) and combine them (drop the negative sign from register 288). This will give you the following binary number:

0100001111110011 0 101100000000000

2) Drop the 0 to the far left giving you: 

1000011111100110101100000000000

3) Take the 8 bits on the far left and convert them to a decimal number:

10000111 | 11100110101100000000000

10000111 = 135

4) Subtract 127 from the value that you got in step 3:

135 - 127 = 8

5) Take the part of the binary number that was not used in step 3

11100110101100000000000

6) Count over from the left the amount calculated in step 4. Drop off everything to the right of this.

11100110

7) Add a 1 to the front of that number.

111100110

8) Convert that number to decimal and this is the register value.

486