Vishay IL410

Optocoupler, Triac Output, DIP, 6 Pins, 5.3 kV, Zero Crossing, 600 V

IL410 Series Single Channel 600 V 5300 Vrms Phototriac Optocoupler - DIP-6

OPTOCOUPLER, PHOTOTRIAC, 1.16 V (TYP.), 60 MA, 500 MW, 6 V, 25 PF, 35 US, 50 US

ZERO CROSSING, HIGH DV/DT, LOW INPUT CURRENT, PHOTOTRIAC OUTPUT, OPTOCOUPLER Triac Output Optocoupler With Zero CRSVR, 1-Element, 5300V Isolation

Optocoupler, Triac, 5300Vrms; Optocoupler Case Style:Dip; No. Of Pins:6Pins; Isolation Voltage:5.3Kv; Triac Operating Mode:Zero Crossing; Peak Repetitive Off State Voltage:600V; Product Range:-; Forward Voltage:1.35V Rohs Compliant: No |Vishay IL410.

Channels = 1 / Isolation Voltage kV = 5.3 / Continuous Output Current Max. mA = 300 / Off-State Output Voltage (VDRM) V = 600 / Operating Temperature Max. °C = 100 / Operating Temperature Min. °C = -55 / Power Dissipation (Pd) mW = 500 / Zero-Crossing Circuit = With / Forward Voltage (Vf) Max. V = 1.35 / Output Type = Phototriac / Forward Current (If) Max. mA = 60 / Package Type = DIP-6 / Reverse Voltage (Vr) V = 6

OPTOCOUPLER, Z-X, TRIAC DRIVER; No. of Channels:1; Isolation Voltage:5.3kV; Optocoupler Output Type:Phototriac; Input Current:10mA; Output Voltage:600V; Opto Case Style:DIP; No. of Pins:6; SVHC:No SVHC (20-Jun-2011); Approval Bodies:UL Recognised; Blocking Voltage:600V; External Depth:6.4mm; External Length / Height:3.55mm; External Width:8.6mm; Fall Time tf:50µs; Forward Voltage VF Max:1.35V; Lead Spacing:2.54mm; Operating Temperature Range:-55°C to +85°C; Output Type:Phototriac; Peak Forward Current:60mA; Power Dissipation Pd:100mW; RMS Current Max:300mA; Rate of Voltage Change dv / dt:10000V/µs; Rise Time:35µs; Row Pitch:7.62mm; Threshold Current If on:2.0mA; Trigger Current If Max:2mA; Voltage Vf Typ:1.16V

The IL410/ IL4108 consists of a Ga As IRLED optically coupled to a photosensitive zero crossing TRIAC network. The TRIAC consists of two inverse parallel connected monolithic Sc Rs. These three semiconductors are assembled in a six pin dual in-line package. High input sensitivity is ac hieved by using an emitter follower photo transistor and a cascaded SCR predriver resulting in an LED trigger current of less than 2.0 mA (DC). The IL410/ IL4108 uses two discrete Sc Rs resulting in a commutating dV/dt greater than 10 kV/ Ps. The use of a proprietary dV/dt clamp results in a static dV/ dt of greater than 10 kV/ Ps. This clamp circuit has a MOSFET that is enhanced when high dV/dt spikes occur between MT1 and MT2 of the TRIAC. When conducting, the FET clamps the base of the photo transistor, disabling the first stage SCR predriver. The zero cross line voltage detection circuit consists of two enhancement MOSFETS and a photo diode. The inhibit voltage of the network is determined by the enhancement voltage of the N-channel FET. The Pchannel FET is enabled by a photo current source that permits the FET to conduct the main voltage to gate on the N-channel FET. Once the main voltage can enable the N-channel, it clamps the base of the photo transistor, disabling the first stage SCR predriver. The 600/800 V blocking voltage permits control of off line voltages up to 240 VAC, with a safety factor of more than two, and is sufficient for as much as 380 VAC. The IL410/ IL4108 isolates low-voltage logic from 120, 240, and 380 VAC lines to control resistive, inductive, or capacitive lo ads including motors, solenoids, high current thyristors or TRIAC and relays.