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Modena/Strato, Metal Wall Box, 1 Gang, Wide Type, Slide Nut

Modena/Strato, Metal Wall Box, 1 Gang, Wide Type, Slide Nut

Modena/Strato, Metal Wall Box, 1 Gang, Wide Type, Slide Nut

Item Number: 157

Discontinued

Datasheet

Barcode

Qty UoM EAN Colour
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Specifications

Design

Sustainable offer status

Green Premium product

Physical

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

ENVPEP1401002

Others

Package 1 Bare Product Quantity

1

Unit Type of Package 1

PCE

Number of Units in Package 1

1

Package 1 Height

21 cm

Package 1 Width

34.8 cm

Package 1 Length

44.5 cm

Package 1 Weight

0.142 kg
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Frequently Asked Questions

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Where to download the firmware (V 1.13.0) for SpaceLogic C-Bus Controllers NAC and AC?

The new firmware (version 1.13.0) for SpaceLogic C-Bus Controllers NAC and AC is available for download on se.com. and in Exchange Platforms

The new firmware version V1.13.0 is available for 5500NAC2, 5500AC2, 5500NAC, 5500SHAC, LSS5500NAC, LSS5500SHAC.

The main features of this new firmware release  (V1.13.0) are:
 

  • Scheduler Enhancement
  • Error reporting application improvements
  • Bug fixes

Related documents can be downloaded along with the firmware file:
  • Release Notes for V1.13.0
  • User Manual update for firmware V1.13.0
Links for www.se.com page and Exchange to download the firmware and the related documents:
 
 
5500NAC2
SpaceLogic C-Bus Network Automation Controller
Commercialized
 
 
Se.com: Link   
 
Exchange:
Firmware download page link
 
Direct link to the firmware file
 
5500AC2
SpaceLogic C-Bus Application Controller
Commercialized
 
 
Se.com: Link 
 
Exchange:
Firmware download page link
 
Direct link to the firmware file
 
5500NAC
C-Bus Network Automation Controller
End of Commercial
 
 
Se.com:  Link   
 
Exchange:
Firmware download page link
 
Direct link to the firmware file
 
5500SHAC
Wiser for C-Bus Automation Controller
End of Commercial
 
 
Se.com: Link
 
 
Exchange:
Firmware download page link
 
Direct link to the firmware file



 

Is old Enerlin'X IFE interface (LV434010) compatible to communicate with MTZ Micrologic X trip units?

Please find the below details from firmware history notice DOCA0155EN .

IFE LV434010 firmware should be >=003.005.003 and date code >=HL164585 to compatible with Micrologic X.
FW notice



Please see below additional details as well from the MTZ Modbus Communication Guide DOCA0105EN .

MTZ Comms

Acti9 PowerTag Link Display (A9XMWRD) shows only the first 20 PowerTags connected to PowerTag Link HD (A9XMWD100). Is it normal?

image.png

Please see below details from the PowerTag Link User Guide (DOCA0157EN).
image.png

Please note that one PowerTag Link HD gateway can only be paired to ONLY ONE PowerTag Link Display (A9XMWRD).
Please see below details from the same user guide.

image.png


Therefore, there is no way to display all the PowerTags configured to PowerTag Link HD through PowerTag Link Display (A9XMWRD).
As a solution you can;

1.Have a separate PowerTag Link Display (A9XMWRD) configured to each gateway with 20 PowerTag sensors.

OR

2. Have configured one FDM128 display to monitor up to 8 PowerTag Link or PowerTag Link HD gateways.
In case of PowerTag Link HD (A9XMWD100) is used as a gateway then max number of 40 PowerTag sensors can be viewed.

For example if a customer wants to view details of 100 PowerTags in FDM128 then architecture with 2 PowerTag Link HD (40 sensors per PowerTag Link HD) and 1 PowerTag Link-A9XMWD20 (20 sensors PowerTag Link) can be used.


Please see more details in the FDM128 User Guide (DOCA0037EN).
image.png

image.png


 
 

Is there a MSDS for 157FSM?

Yes, the material safety data sheet for the 157FSM Flexible Fire Resistant Sealant is available on request only.
To receive a copy, please call the Clipsal/Schneider Technical Department on 137328

For further product information see:
https://www.clipsal.com/products/detail?CatNo=157FSM&backto=/search?q=157FSM&tab-document-1=0&itemno=157FSM
box wall fyre seal mastic

How does Multidrive link grouping works on ATV Process drives?

In case of drives ATV600 it is possible to use several Multidrive Link groups by configuring MDPC parameter for each group. It is also possible to add individual drives to the same network.


In case of ATV900 it is not possible to use more than one group in the same network. but individual drives can be used in the same network as the multidrive link group.
A simple switch can be used for this kind of application.
 

What are the technologies used in RCD?

Voltage Independent Technology
Residual current devices using Voltage Independent Technology can continue to operate in the event of a complete voltage loss or neutral break.

The residual current device consists of:
  • high magnetic performance core (ex: nanocristalline)
  • a high-sensitivity relay
  • an electronic interface analyzing the signal.
  • The toroid provides information on the leakage current and the power required to trip the device.
  • The electronic circuit and the relay are not connected to the electrical network. Power is provided only by the leakage current.
  • Even if there is an accidental break of the neutral conductor or a voltage drop, the entire electromechanical system will continue to operate, allowing the residual current device to trip.

Voltage Dependent Technology (with and without FE)
A voltage source is required to operate this technology.
For Schneider Electric residual current devices, earth fault protection is provided in the event of a voltage drops down to 50 V.

In the case of VDT technology ("Voltage Dependent Technology"), the toroid only provides information about the leakage current.
The power required for tripping is supplied by the electrical network.


"Voltage Dependent Technology" RCDs supplied via the FE (Functional Earth)
In the event of loss of supply (required to address the fault and trip), there are two categories of behavior:
  • Category 1: the RCD does not open and continuity of service is optimum, because the load is powered on when the voltage is restored, but the RCD is unable to operate if the loss of power supply is the result of a neutral break. The presence of line voltage is a hazard because the RCD is no longer able to perform its protection function in the event of contact with the line potential
 
  • Category 2: the RCD opens if there is loss of power supply (including in the event of neutral break). After the voltage is restored, the RCD must be reclosed to power on the load again.
To improve the level of protection provided by category 1 RCD, in the event of neutral breaking, the product is supplied by redundancy via the FE (line to FE supply instead of line to neutral), allowing it to continue to perform its protection function.
This configuration allows the behavior of VDT RCDs to be compared with that of VIT RCDs.
 
  • conformity with the standards is confirmed by a national conformity mark on the product. The mark is assigned by a third-party organization independent of Schneider Electric. This involves regular sampling at the production site to ensure continued conformity with the standards in question.
According to the standard requirements, all electrical equipment protected by VD with FE RCDs must be earthed to ensure maximum earthing resistance as follows:
  • Ue = 110 V: 50 ohm,
  • Ue = 230/240 V: 100 ohm.

Reference document - CA908066E
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