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TeSys Vario, Switch Body for Switch Disconnector, 3 Poles, 63A

TeSys Vario, Switch Body for Switch Disconnector, 3 Poles, 63A

TeSys Vario, Switch Body for Switch Disconnector, 3 Poles, 63A

Item Number: V3

Product Dimensions

Width icon

Width60 mm

Height icon

Height83 mm

Depth icon

Depth65 mm

Datasheet

Barcode

Qty UoM EAN Colour
-
-
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Specifications

Design

Range

TeSys

Product or component type

switch body

Sustainable offer status

Green Premium product

Warranty

18 months

Physical

Mounting support

  • plate
  • symmetrical rail

[Ue] rated operational voltage

690 V AC 50/60 Hz

[Ie] rated operational current

41.5 A AC-23 Ue: 400 V

Mechanical durability

30000 cycles

Electrical durability

  • 30000 cycles AC-21
  • 30000 cycles DC-1...5

Connections - terminals

  • power circuit: screw clamp terminals16-16 mm² - flexible - with cable end
  • power circuit: screw clamp terminals25-25 mm² - solid

Height

83 mm

Width

60 mm

Depth

65 mm

Net weight

0.5 kg

Standards

IEC 60947-3

Product certifications

  • UL
  • CSA
  • GL
  • UKCA

IP degree of protection

IP20 conforming to IEC 60529

Ambient air temperature for operation

-20...50 °C

REACh Regulation

Free of Substances of Very High Concern above the threshold

REACh free of SVHC

Yes

EU RoHS Directive

Compliant

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

ENVPEP110227EN

Others

Product name

TeSys VARIO

Device short name

V

Compatibility code

V

Performance level

high performance

Poles description

3P

Contacts type and composition

3 NO

Network type

  • DC
  • AC

Network frequency

50/60 Hz

Rated operational power in W

  • 11 kW at 230...240 V (AC-3)
  • 22 kW at 500 V (AC-3)
  • 22 kW at 690 V (AC-23A)
  • 30 kW at 500 V (AC-23A)
  • 18.5 kW at 400...415 V (AC-3)
  • 18.5 kW at 690 V (AC-3)
  • 15 kW at 230...240 V (AC-23A)
  • 22 kW at 400...415 V (AC-23A)

[Ith] conventional free air thermal current

63 A

[Ithe] conventional enclosed thermal current

50 A

Making capacity

  • 630 A at 400 V AC-21A
  • 630 A at 400 V AC-22A
  • 630 A at 400 V AC-23A

Breaking capacity

  • 500 A at 400 V (AC-21A)
  • 500 A at 400 V (AC-22A)
  • 500 A at 400 V (AC-23A)

Rated conditional short-circuit current

  • 10 kA at 400 V - associated fuse 63 A aM
  • 10 kA at 400 V - associated fuse 63 A gG

[Icm] rated short-circuit making capacity

2.1 kA at 400 V at Ipeak

Intermittent duty class

30

Suitability for isolation

yes

[Uimp] rated impulse withstand voltage

8 kV

[Icw] rated short-time withstand current

756 A at 400 V duration: 1 s

Tightening torque

power circuit: 4 N.m - on screw clamp terminals

Protective treatment

TC

Mechanical robustness

  • vibrations 10...150 Hz (1 gn) conforming to IEC 60068-2-6
  • shocks 11 ms (30 Gn) conforming to IEC 60068-2-27

Fire resistance

960 °C conforming to IEC 60695-2-1

Unit Type of Package 1

PCE

Number of Units in Package 1

1

Package 1 Weight

290.0 g

Package 1 Height

11.5 cm

Package 1 width

8.5 cm

Package 1 Length

8 cm

Unit Type of Package 2

S02

Number of Units in Package 2

12

Package 2 Weight

3.968 kg

Package 2 Height

15 cm

Package 2 width

30 cm

Package 2 Length

40 cm

Unit Type of Package 3

P06

Number of Units in Package 3

192

Package 3 Weight

71.46 kg

Package 3 Height

77 cm

Package 3 width

60 cm

Package 3 Length

80 cm

WEEE

The product must be disposed on European Union markets following specific waste collection and never end up in rubbish bins

PVC free

Yes

Halogen content performance

Halogen free product
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Documents & downloads

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  • CAD Files and Packs

  • Product Brochures

  • Technical Data Catalogues

  • Installation Instruction

  • Product Environmental

  • Technical Drawing

  • Declaration of Conformity

Frequently Asked Questions

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What is the operation of the GVAD fault signalling contacts of the GV2 & GV3 motor protection circuit breakers?

GV2ME, GV2P, GV2L, GV2LE, GV3P and GV3L motor protection circuit breakers (MPCB) can be fitted with the following fault indicating contact blocks:
 

GVAD0110
GVAD0101
GVAD1010
GVAD1001

These blocks comprise of fault signalling contacts and instantaneous auxiliary contacts.

GVAD0110
A N/C fault signalling contact (terminals 95-96), closed if there is no fault, open when a fault (magnetic or thermal) occurs.

A N/O instantaneous auxiliary contact (terminals 53-54), closed when the device is energised and open when the device is de-energised.

GVAD0101
A N/C fault signalling contact (terminals 95-96), closed if there is no fault, open when a fault (magnetic or thermal) occurs. 

A N/C instantaneous auxiliary contact (terminals 51-52), closed when the device is de-energised and open when the device is energised.

GVAD1010
A N/O fault signalling contact (terminals 97-98), open if there is no fault, closed when a fault (magnetic or thermal) occurs. 

A N/O instantaneous auxiliary contact (terminals 53-54), closed when the device is energised and open when the device is de-energised.
 

GVAD1001
A N/O fault signalling contact (terminals 97-98), open if there is no fault, closed when a fault (magnetic or thermal) occurs. 

A N/C instantaneous auxiliary contact (terminals 51-52), closed when the device is de-energised and open when the device is energised.


The instantaneous auxiliary contact test is performed by creating a state of transition of the handle actuator between the de-energised position and the energised position.

The fault contact test is performed by pressing the test button when the handle actuator is in the closed position.

How do you set up the ATV312 drive for modbus control?

Issue:
Setup an ATV312 drive for modbus control.

Product Line:
Altivar ATV31 ATV312 drives

Environment:
All

Cause:
Needs to set up the ATV312 drive to do modbus control over the network.

Resolution:
Programming
1st set up your modbus address in the CON menu
Add= modbus address enter 1 thru 247
tbr= modbus baud rate 4.8K thru 19.2K
tFo= modbus format: 8-O-1, 8-E-1, 8-N-1 or 8-N-2
tto=modbus time out 0.1 thru 30 seconds

2nd set up your ref and command channel in CLT menu
LAC= Level 3  hold enter in for 3 seconds
FR1= modbus

Important addresses
Command address
8501= CMD address for start and stopping
8502= LFRD speed ref in hz  0.1hz  example 600 value equals 60hz

3201= ETA address for status
3202= output speed in hz 0.1hz  example 600 value equals 60hz

Pinouts
Pin 4=D1 modbus
Pin 5=D0 modbus
Pin 8= Common for modbus

See the attached documents for more programming and modbus information.
 

Where can I find basic programming information for ATV32?

Issue:
Looking for basic programming information for ATV32

Product Line:
Altivar ATV32

Environment:
All

Cause:
Programming configuration set up

Resolution:

CONF>FULL>SIM  

bFr= Base motor frequency 60hz
nPr= HP of he motor 
UnS= Rated motor voltage 
nCr= Rated motor current (motor FLA)
FrS= Rated motor frequency 
nSP= Ratd motor speed (rpm's on motor nameplate)
tFr= Max frequency
ItH= Motor thermal current (match motor FLA)
ACC= Acceleration (ramp up) time
dEC= Deceleration (ramp down) time
LSP= Low speed
HSP= High speed

What is an O.CF fault on an ATV31 or ATV312 drive?

Issue:
O.CF fault on an ATV31 or ATV312

Product Line:
Altivar, ATV31, ATV312 

Environment: 
All

Cause: 
N/A

Resolution:
O.CF is a phase-to-phase motor short circuit fault.  Check motor windings and motor leads for a possible shorting path. A Megger test at a 1,000V of the motor and motor leads should be performed.
You can also try running the drive "open circuit" and see it faults without the motor connected
1. ​Turn off Output Phase Loss (OPL)
2. Power down and disconnect the motor leads from the drive
3. Run the drive at 20, 40, and 60Hz and measure output voltage phase-to-phase checking for balanced voltage

Other possible related fault codes are OCF and OC.F:
OCF is an overcurrent fault.  Possible causes are incorrect settings in the SET and DRC menus, excessive loading on the motor or mechanical binding.
OC.F is an impedance short-circuit fault.  This is a detected short-circuit or grounding at the drive output. Check the cables connecting the drive to the motor and the motor insulation.  A Megger test at a 1,000V of the motor and motor leads should be performed.

What are the points to consider when selecting an Altivar VSD?

Motor current:
The continuous output current of the drive must be higher than the motor rated current.

a
b
Voltage:
The motor rated voltage must be within the drive voltage range.
 
Application:
Drives have different features available for different application. To summarize:
ATV61, ATV600 - High Performance Pump/fan/compressor applications
ATV71, ATV900 - High Performance Material Handling/machine applications
ATV312, ATV32, ATV320 - Simple or advanced Pump/fan/compressor/Material Handling/machine applications
ATV12 - Basic pump/fan/machine/material handling applications
 
Communication:
All Altivar drives come with standard Modbus serial port. However other communication options are available via optional communication modules. These include Ethernet, CanOpen, Profibus, Profinet, DeviceNet, Modbus TCP
 
Degree of Protection:
The ATV600, ATV61, ATV900, ATV71 come with two different degree of protections.
ATV600/900 - IP21, IP55
ATV61/71 -  IP20, IP54




 

Would the Motor Mechanism of the NT-NW breaker require Resistor?

The Resistor arrangement (33193) is required for the 440/480V Motor Mechanism of the NT-NW Breaker. 
 
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