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Neon Key Card Switch

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White | Neon Key Card Switch

Neon Key Card Switch

Item Number: 626N-WH

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$361.93
RRP (Inc. GST)
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Datasheet

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Qty UoM EAN Colour
-
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-
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Specifications

Design

Range of product

PDL 600 Designer Series

Product brand

Clipsal

Physical

Device presentation

basic element

Switch function

2-pole

Actuator

key card

Number of poles

2

Fixing mode

by screws

Local signalling

neon

[Ue] rated operational voltage

250 V AC

Rated current

  • 20 A
  • 16 AX, fluorescent lamp

      • Marking

      without marking

      Standards

      AS/NZS 3133

      Others

      Package 1 Weight

      0.1 kg
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      Frequently Asked Questions

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      Can the blank mechs in the 626N be removed and replaced with other 600 series mechs?

      YES -  those blank mechs are standard blanks and are removable and replaceable with other 600 series mechs.

      How to wire the built in analog input of the M221 to a Dwyer 626 pressure transmitter?

      Issue:
      How to wire the built in analog input of the M221 to a Dwyer 626 pressure transmitter?

      Product Line:
      Somachine Basic, wiring, analog input

      Environment:


      Cause:


      Resolution:
      The Dwyer 626 is a 3wire connection which will require it's own power.  The - (negative of M221) goes to the common and + (positive of M221) goes the white.  See below for more information. 

      Dwyer pressure transmitter:

      The receiver would be the M221 in this case.


       

      What registers is the IP address of a PM8 with PM8ECC stored?

      Issue  
      Where can one find the IP address of an PM8 if communicating over RS485?

      Product Line             
      PM8ECC

      Resolution
      The IP address of the Ethernet Option Module is stored in registers 622 and 623.
      Register format:
      1st Register High byte: IP Address 1st Octet
      1st Register Low byte: IP Address 2nd Octet
      2nd Register High byte: IP Address 3rd Octet
      2nd Register Low byte: IP Address 4th Octet

      Range:
      000.000.000.000 to 255.255.255.255

      Example:
      In this example we are assuming that the PM800 we are reading has a current IP configuration of 10.168.96.17

      1. Read registers 622 and 623



      2. Convert the register data into binary format:
      Register 622: 2728 dec = 101010101000 bin
      Register 623: 24593 dec = 110000000010001 bin

      3. Convert the binary data into High and Low bytes for each register:
      Register 622: 1010 10101000
      High byte = 1010 = 00001010
      Low byte = 10101000

      Register 623: 1100000 00010001
      High byte = 1100000 = 01100000
      Low byte = 00010001

      4. Convert the High and Low Bytes back to decimal format:
      Register 622:
      High byte = 00001010 bin = 10 dec
      Low byte = 10101000 bin = 168 dec

      Register 623:
      High byte = 01100000 bin = 96 dec
      Low byte = 00010001 bin = 17 dec

      IP address = 10.168.96.17


      Note: You can use the same procedure to determine the IP Subnet Mask and IP Router Address which are contained in the following registers.
      IP Subnet Mask: 624 and 625
      IP Router Address: 626 and 627