tee conduit pvc insp 40mm

TEE CONDUIT PVC INSP 40MM

Catalogue Number: 246/40
tee conduit pvc insp 40mm
Colour: Electric Orange
Colour: Per UOM Std.
  • Electric Orange 1 PCE 1
  • Grey 1 PCE 1

Specifications

hide show
Product brand
Clipsal
Range of product
Series 246
Material
PVC (polyvinyl chloride)
Diameter
inner: 40 mm
Length
  • 94 mm
  • 145 mm
    • 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)

      Frequently Asked Questions

      hide show

      Is there a 246/50 in orange?

      Yes we do but it is manfactured to order.

      Is part number 242/50 suitable for underground?

      Yes. Part number 242/50 is suitable for underground.

      What would be a longer screw to suit Clipsals round j-boxes (Junction Boxes)?

      The part number would be 248/20 which is a combination screw head 20MM 3/16 BSW.

      What is the alternative Acti 9 part code for the discontinued Multi 9 24674?

      The alternative Acti 9 conversion is the A9F45316   3 Pole 16A 6kA MCB 

      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 replacement for 16066 Timer?

      The replacement for 16066 Timer is A9E16066.

      A9E16066
      iRTB relay-delays de-energizing a load upon closing-1C/O - Uc 24-240 VAC/24VDC

      For more information see:
      https://eshop.schneider-electric.com/product.aspx?org=21&lang=1&dist=276&prod_id=A9E16066

      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

      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.
       

      What is the operating principle of a detector for XSAV type rotation control?

      Advantage and preferred uses

      • XSAVxx inductive sensors for rotation control have the special feature of combining data acquisition functions and processing by a pulse comparator in a single unit, thus creating an integrated rotation control device.
      • These devices provide a good solution for monitoring slip, belt break, coupling break, overloads, etc. in the following applications: conveyor belts, bucket elevators, lifting screws, grinders, crushers, pumps, centrifugal drying machines, mixing machines, etc.


      Principle

      The output signal of this type of sensor is processed by a pulse comparator integrated in the device.

      The frequency of the pulses Fc emitted by the moving element to be monitored is compared with the frequency Fr preset on the device.

      The output switching circuit of the sensor is at closed state when Fc > Fr and open state when Fc < Fr.

      XSA-V sensors are particularly suitable for underspeed detection: when the speed of the moving element to be monitored Fc falls below a preset threshold Fr following deceleration, this detection leads to opening of the device's output circuit.

       

      Other characteristics

      • Two ratings: 0.1 Hz-2.5 Hz and 2 Hz-50 Hz
      • Cylindrical inductive sensor, diameter 30
      • Range 10 mm

      Special features:

      • Detection and comparison of pulses are integrated in the device
      • The frequency is preset in the device using a 15-turn potentiometer
      • Caution: The adjustment of the threshold is not linear according to the number of turns
      • For both ratings there is a 3-wire model with 12-48 VDC power supply and a 2-wire model with 24-240 VAC or 24-210 VDC power supply
      • Rotation monitoring becomes effective 9 s after the sensor MST
      • Connection via 2 m cable

      How to change the power sign on 5.2E, 6.2E, 5.3E,6.3E trip units for Powerpact H, J and L frame breaker?

      Issue:
      How to change the power sign on 5.2E, 6.2E, 5.3E,6.3E trip units for Powerpact H, J and L frame breaker?

      Product Line:
      Powerpact H, J and L

      Environment:
      5.2E, 6.2E, 5.3E,6.3E Micrologic trip units

      Cause:
      Power values reading negative.



      Resolution:
      The power sign can be changed through Modbus register, or with RSU software and UTA test kit STRV00910.

      RSU:
      Modify the Power sign using the RSU software and UTA Tester STRV00910, see link for free RSU download.
      https://www.schneider-electric.us/sites/us/en/support/product-support-resources/software-and-calculators/software/ltu-software-for-uta-tester.page

      By default, the Micrologic E trip unit signs as positive the powers running through the circuit breaker supplied from the top with loads connected from the underside. Circuit breakers powered from the underside must have the powers signed as negative. 

      In the Metering setup/Power sign window, select the power sign:
      • + The power running through the circuit breaker from top to bottom is
      counted positively.
      • - The power running through the circuit breaker from bottom to top is
      counted negatively.
      The default value of the powersign is +.


      MODBUS:
      Power Flow
      Sign 3316 3315 RW — — UINT 0–1 E
      Power flow sign
      0 = the active power flows from upstream (top) to downstream (bottom) (default).
      1 = the active power flows from downstream (bottom) to upstream (top).
      The power flow sign command (command code = 47240) configures the content of the power flow sign register.

      8000 7999 — — UINT 46240 E Command code = 46240
      8001 8000 — — UINT 12 E Number of parameters (bytes) = 12
      8002 8001 — — UINT 5121 E Destination = 5121 (0x1401)
      8003 8002 — — UINT 1 E 1
      8004
      8005
      8003
      8004 — — STRING — E Level 4 password (default value = ‘0000’ = 0x30303030)
      8006 8005 — — UINT 0–1 E
      Power flow sign
      0 = the active power flows from upstream (top) to downstream (bottom)
      (default)
      1 = the active power flows from downstream (bottom) to upstream (top).
       

      There is an application with Altivar 38 with pump switching card where the auxiliary pump is driven by an Altistart 48.There is also Modbus connection...

      Goals and Symptoms

      There is an application with Altivar 38 with pump switching card where the auxiliary pump is driven by an Altistart 48.There is also Modbus connection where the master is a Twido PLC and the slaves are the ATV38 and the ATS 48. The problem is that en error ERR 7 (erreur LS) is appeared at the ATV38 display.What kind of error is that and what can we do about it?

      Facts and Changes

      ATV38 with Modbus connection

      Causes and Fixes

      Product trips transiently to "Err3" or "Err7" fault. Both faults type are generated by the display module.
      This one communicates with the microprocessor of control card .
      When incorrect messages occur during the communication and after some repetition of exchanges , the display module shows to "ErrX".
      This is a very difficult fault to reproduce because depending of environment ( lenght of wire between display module and control board , motor running, disrupted site ) and the combination between display module and control board.

      Origin of problem :

      Insufficient immunity of communication facing the various disturbances.
      The communication frames managing is made by integrated components called "drivers". One is located on control board, the same is inside display module. This fault is the result of wrong interpretation of display module of logic level between two communication frames.
      This technical conceived problem is appeared from August 2000.

      Corrective action:

      This failure has been resolved by a modification of two values of resistors inside the display module.
      The revision levels become:
      · A20, B20 for the ATV58 display modules.
      · A02 for the ATV58Fdisplay modules.

      This evolution is applied from the week 47/2000 on all manufactured PRODUCTS and all VW3A58101 spare parts.


      Information for internal use:

      We have noticed that anyway neither control board nor display module have never been directly to the fault origin . Fault "Err X" is always due to the association of two items.

      On no account this failure cannot to disrupted the motor running but she can to disturb only the programming of product.

      If during the programming, a customer encounters to " Err3 " or " Err7 " with a product manufactured from the week 31/00 to 46/00 , it is advised to exchange only the VW3A58101 display module.

      This problem can also appear if the baudrate of internal communication was modified ( subD 9 pins ) and there is a difference between the keypad and internal modbus.

      A solution is to reset the inverter with the 50/60 Hz switch to return the baudrate in factory setting, don't forget to accord the Twido PLC.


      Legacy KB System (APS) Data: RESL156317 V3.0, Originally authored by on , Last Edited by on
      Related ranges: Altivar 38