750-435
WAGO
T/T
1 year
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The WAGO 750-435 is a 4-channel digital input module that is part of the WAGO I/O System 750/753. It is used to connect field devices, such as sensors, to a controller. The module has four input channels and four 24 V outputs, providing a direct connection to four 2-wire sensors. Each input module has a noise-rejection filter. Field and system levels are electrically isolated.
Here are some of the technical specifications of the WAGO 750-435:
Number of input channels: 4
Input voltage: 24 VDC
Input current: 10 mA
Input signal: PNP or NPN
Input response time: 0.2 ms
Output voltage: 24 VDC
Output current: 200 mA
Output signal: PNP or NPN
Output response time: 0.2 ms
Operating temperature range: -25°C to +60°C
Storage temperature range: -40°C to +85°C
Protection class: IP20
Dimensions: 87 x 22.5 x 12.5 mm
FGU130B | NB2W90R-11 | NP1AY02-MR |
NB2W56R | CTHMIMOD-00 | NP1AXH8VG-MR |
FTU612A | NP1AXH8V-MR | NP1AXH4DG-MR |
NC1X6406 | FNC160A-C20 | NR1TW-16T65DT |
NP1F-MM1 | NP1X1611-RI | NR1DY-16T05DT |
NP1W1606T | NP1Y16T10P2 | NR1SW-16T65DT |
Description
IEC Standards testing procedures require that the mechanical durability test be carried out without current flowing in the main circuit, with the rated voltage applied to the coil and for at least as many on-off operation cycles as specified for the corresponding intermittent duty class as shown in the table on page 5. The mechanical life of the contactor is inversely proportional to the third or fourth power of the operating voltage. Therefore, if the control circuit voltage is 10% higher than the coil’s rated voltage, the mechanical durability will be reduced by half. An increase in control circuit voltage will harm the operating mechanism, core and shading coil. The results of the mechanical durability test for SC series contactors are given in the table below. The electrical durability test must be carried out for the number of operation cycles specified for the corresponding intermittent duty class shown in the table on page 5, and under the circuit conditions of the corresponding utilization category as defined in the table on page 4. Contact wear is caused by arcing that occurs between contacts when the current is interrupted. The amount of contact wear is directly proportional to approximately the second power of the interrupted current value. Therefore, when a contactor is used for inching or plugging operations, the expected service life of the contacts will be much less than if used for normal operations.
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Fuji | Prosoft | Bently Nevada | Schneider |
NP1W1606T | MVI69L-MBS | 1900/65A | 490NRP25300 |
NP1F-MM1 | MVI46-MBP | 3500/65-01-01 | 140AII33010 |
FTU612A | MVI69-MCM | 3500/42 138700-01 | 140XTS00200 |
FGU130B | MVI56E-GSC | 330180-91-05 | 140CRP81100 |
FNC160A-C20 | MVI69E-MBS | 3500/50 133434-01 | AS-B805-016 |
NR1SW-16T65DT | 2150-AGA | 3500/42 140471-01 | 170INT11003 |
NP1X1611-RI | PS69-DPM | 125680-01 | 140DDM39000 |
NJ-JM | MVI71-ADM | 330180-51-00 | 416NHM30032 |
NC1X6406 | MVI69-MNET | 136188-02 | MC-4/11/03/400 |
NP1AXH4DG-MR | MVI56-HART | 125388-01 125388-01H | 140CPS51100 |
The WAGO 750-435 is a 4-channel digital input module that is part of the WAGO I/O System 750/753. It is used to connect field devices, such as sensors, to a controller. The module has four input channels and four 24 V outputs, providing a direct connection to four 2-wire sensors. Each input module has a noise-rejection filter. Field and system levels are electrically isolated.
Here are some of the technical specifications of the WAGO 750-435:
Number of input channels: 4
Input voltage: 24 VDC
Input current: 10 mA
Input signal: PNP or NPN
Input response time: 0.2 ms
Output voltage: 24 VDC
Output current: 200 mA
Output signal: PNP or NPN
Output response time: 0.2 ms
Operating temperature range: -25°C to +60°C
Storage temperature range: -40°C to +85°C
Protection class: IP20
Dimensions: 87 x 22.5 x 12.5 mm
FGU130B | NB2W90R-11 | NP1AY02-MR |
NB2W56R | CTHMIMOD-00 | NP1AXH8VG-MR |
FTU612A | NP1AXH8V-MR | NP1AXH4DG-MR |
NC1X6406 | FNC160A-C20 | NR1TW-16T65DT |
NP1F-MM1 | NP1X1611-RI | NR1DY-16T05DT |
NP1W1606T | NP1Y16T10P2 | NR1SW-16T65DT |
Description
IEC Standards testing procedures require that the mechanical durability test be carried out without current flowing in the main circuit, with the rated voltage applied to the coil and for at least as many on-off operation cycles as specified for the corresponding intermittent duty class as shown in the table on page 5. The mechanical life of the contactor is inversely proportional to the third or fourth power of the operating voltage. Therefore, if the control circuit voltage is 10% higher than the coil’s rated voltage, the mechanical durability will be reduced by half. An increase in control circuit voltage will harm the operating mechanism, core and shading coil. The results of the mechanical durability test for SC series contactors are given in the table below. The electrical durability test must be carried out for the number of operation cycles specified for the corresponding intermittent duty class shown in the table on page 5, and under the circuit conditions of the corresponding utilization category as defined in the table on page 4. Contact wear is caused by arcing that occurs between contacts when the current is interrupted. The amount of contact wear is directly proportional to approximately the second power of the interrupted current value. Therefore, when a contactor is used for inching or plugging operations, the expected service life of the contacts will be much less than if used for normal operations.
More Products
Fuji | Prosoft | Bently Nevada | Schneider |
NP1W1606T | MVI69L-MBS | 1900/65A | 490NRP25300 |
NP1F-MM1 | MVI46-MBP | 3500/65-01-01 | 140AII33010 |
FTU612A | MVI69-MCM | 3500/42 138700-01 | 140XTS00200 |
FGU130B | MVI56E-GSC | 330180-91-05 | 140CRP81100 |
FNC160A-C20 | MVI69E-MBS | 3500/50 133434-01 | AS-B805-016 |
NR1SW-16T65DT | 2150-AGA | 3500/42 140471-01 | 170INT11003 |
NP1X1611-RI | PS69-DPM | 125680-01 | 140DDM39000 |
NJ-JM | MVI71-ADM | 330180-51-00 | 416NHM30032 |
NC1X6406 | MVI69-MNET | 136188-02 | MC-4/11/03/400 |
NP1AXH4DG-MR | MVI56-HART | 125388-01 125388-01H | 140CPS51100 |