1 normally open contact potential-free 16A/250V AC, 230V LED lamps up to 600W, incandescent lamps 2000W. No standby loss. Modular device for mounting on DIN-EN 60715 TH35 mounting rail. 1 division unit = 18mm wide, 58mm deep. With the patented Eltako Duplex technology (DX), the normally potential-free contacts can still switch at zero crossing when switching 230V AC 50Hz, thus drastically reducing wear. To do this, simply connect the N conductor to terminal (N) and L to 1 (L). This results in a standby loss of just 0.1 watt. If the contact is used to control switching devices that do not switch at zero crossing themselves, (N) should not be connected, as the additional closing delay otherwise has the opposite effect. Either universal control voltage 8..230V UC at the control input +A1/-A2 or 230V with up to 5mA glow lamp current at the control input (L)/-A2 (N). The simultaneous use of two potentials at the control inputs is not permitted. Very low switching noise. 1 normally open contact potential-free 16A/250V AC, 230V LED lamps up to 600W, incandescent lamps 2000W. No standby loss. Modular device for mounting on DIN-EN 60715 TH35 mounting rail. 1 division unit = 18mm wide, 58mm deep. With the patented Eltako Duplex technology (DX), the normally potential-free contacts can still switch at zero crossing when switching 230V AC 50Hz, thus drastically reducing wear. To do this, simply connect the N conductor to terminal (N) and L to 1(L). This results in a standby loss of just 0.1 watts. If the contact is used to control switching devices that do not switch at zero crossing, (N) should not be connected, as the additional closing delay will otherwise have the opposite effect. Either universal control voltage 8..230V UC at the control input +A1/-A2 or 230V with up to 5mA glow lamp current at the control input (L)/-A2 (N). The simultaneous use of two potentials at the control inputs is not permitted. Very low switching noise. No constant power supply required, therefore no standby loss. State-of-the-art hybrid technology combines the advantages of wear-free electronic control with the high performance of special relays. By using a bistable relay, there is no coil power loss and no heating as a result, even when switched on. The relay contact can be open or closed when commissioned and synchronizes when first activated. The connection terminal assignment is identical to the electromechanical impulse switch S12-100-. If this impulse switch is in a circuit that is monitored with a FR12-230V mains disconnector, no additional base load is required. However, the monitoring voltage of the FR12-230V must be set to max and control is only via A1-A2. The electronics do not have their own power supply and therefore do not consume any power in either contact position. The control current, which activates the microcontroller, only flows during the short control pulse of just 0.2 seconds. It reads the last switching state from its non-volatile memory, switches the bistable relay in the opposite direction accordingly and writes the new switching state back into the memory.
| Property | Value |
| Width in division units: | 1 |
| Rated switching current: | 16 A |
| Control voltage 1: | 8 to 230 V |
| Control voltage type 1: | AC/DC |
| Control voltage 2: | 230 V |
| Control voltage type 2: | AC |
| Installation depth: | 58 mm |
| Function: | electronic switch |
| Mounting type: | DIN rail |
| Frequency of control voltage 1: | 50 Hz |
| Frequency of control voltage 2: | 50 Hz |
| Max. incandescent lamp load: | 2000 W |
| Max. Fluorescent lamp load: | 1000 VA |
| Max. fluorescent lamp load (duo circuit): | 1000 VA |
| Max. fluorescent lamp load (parallel compensated): | 500 VA |
| Max. switching current (cos phi = 0.6): | 4 A |
| Number of contacts as normally open: | 1 |
