Celduc SG4 Series Solid State Relay, 40 A Load, Panel Mount, 460 V rms Load, 10 V dc Control

Bulk discount available

Subtotal (1 unit)*

£259.26

(exc. VAT)

£311.11

(inc. VAT)

Add to Basket
Select or type quantity
In Stock
  • 1 unit(s) ready to ship from another location
Need more? Click ‘Check delivery dates’ to find extra stock and lead times.
Units
Per unit
1 - 4£259.26
5 - 9£248.87
10 +£243.70

*price indicative

RS Stock No.:
231-1043
Mfr. Part No.:
SG464020
Brand:
Celduc
Find similar products by selecting one or more attributes.
Select all

Brand

Celduc

Maximum Load Current

40 A

Mounting Type

Panel Mount

Maximum Load Voltage

460 V rms

Minimum Load Voltage

200 V ac

Maximum Control Voltage

10 V dc

Minimum Control Voltage

0 V

Switching Type

Phase Angle

Control Voltage Range

0 → 10 V dc

Minimum Load Current

10 mA

Range

SG4

Number of Poles

1

Terminal Type

Screw

Output Device

Thyristor

Relay Type

Single Phase angle controller

Series

SG4

Maximum Turn On Time

10ms

Load Voltage Range

200 → 400V ac

Dimensions

100 x 73.5 x 39.5mm

Minimum Operating Temperature

-40°C

Standards Met

CE, EAC

Depth

73.5mm

Maximum Operating Temperature

+85°C

Operating Temperature Range

-40 → +85°C

Length

100mm

Off State Leakage Current

5 mA

Height

39.5mm

COO (Country of Origin):
FR

Phase Angle and Frequency Burst Regulators


SG5 relays with proportional control have an analogue input isolated from the mains allowing a proportional variation of the operating duty cycle at this input through the generation of frequency bursts.
Applications: heating regulation.- Ve = 0 V → t/T = 0%
- Ve = 5 V → t/T = 50%
- Ve = 10 V → t/T = 100%.

The SG4 models have an analogue input isolated from the mains allowing a proportional variation at this input of the switching instant on the sine wave.
Applications: motor speed variation, dimmable lighting.
Specific documentation available on request.


Proportional and Power

Note

Temperature can affect current rating; please consult the data sheet for potential derating.

Related links