Register to unlock your exclusive B2B prices and start shopping. Sign up now!
Current-limiting relay capacitive, 1 NO contact 16A image 1

Current-limiting relay capacitive, 1 NO contact 16A

In stock: No Vendor stock: No Minimal order quantity: 1
Price (excl. VAT):
32,43 €
This price is valid until 31.12.24
EAN: 4010312205457
MPN: 22100430
Package: 1

Technical Information

Item condition New
Manufacture name Current-limiting relay capacitive, 1 NO contact 16A
Brand ELTAKO
Categories Accessories (Automatics & control)
Country of origin CN
Harmonized System Code 8536 4900 00
Mounting method DIN rail
Rated permanent current Iu 16 A
Conditioned rated short-circuit current Iq 0.02 kA
Short-circuit current limiter No
Max. apparent power 1200 VA

Packing details

Packing level 1 4010312205457, 4010312205457
Packing level 2 4010312205457
Packing level 3 4010312205457

Downloads

Description

1 NO contact 16A/250V AC. No standby loss. Modular device for DIN 60715 TH35 rail mounting. 1 module = 18mm wide, 58mm deep. Max. capacitive load 240μF downstream of rectifier (e.g. energy saving lamps and electronic ballast) or 120μF directly at the mains (e.g. shunt-compensated fluorescent lamps). Limiting resistor 12Ω, limiting period approx. 15ms. The starting current impulse of energy saving lamps, fluorescent lamps and compact fluorescent lamps is limited to 20A by short-time switch-on (approx. 15ms) of heavy-duty resistors (12Ω). The current-limiting relay is connected on the load side of the protected relay contact. Permanent load max. 1200W, max. switching frequency 600/h. Explanation of capacitive load specification: The specified max. capacitive load directly at the mains is the deciding factor determining shunt-compensated fluorescent lamps or conventional ballast, for example. Here the capacitor switched in parallel to the mains is the deciding factor determining the correct dimensioning per lamp. The specified max. capacitive load downstream of the rectifier is the deciding factor determining fluorescent lamp ballast or energy saving lamps, for example. An equivalent capacitance of 10µF per lamp may be calculated.