TRIGGER OUTPUT SSR Solid State Relays 1,570

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Manufacturers
    • Altech
    • At & T Microelectronics
    • Bright Toward Industrial
    • Broadcom
    • Carlo Gavazzi Holding Ag
    • Celduc Relais
    • Comus International
    • Cosmo Electronics
    • Coto Technology
    • Crouzet
    • Crydom
    • Defense Logistics Agency
    • Excel Cell Electronic
    • Finder
    • Global Components & Controls
    • IXYS Corporation
    • Idec
    • Infineon Technologies
    • International Rectifier
    • Littelfuse
    • Magnecraft
    • Motorola
    • Nihon Inter Electronics
    • Omega Engineering
    • Omron
    • Opto Twenty-two (22)
    • Panasonic
    • Phoenix Contact
    • Potter & Brumfield
    • Renesas Electronics
    • STMicroelectronics
    • Schneider Electric Sa
    • Sensata Technologies
    • Sensitron Semiconductor
    • Sharp Corporation
    • Siemens
    • TE Connectivity
    • Teledyne Technologies
    • Texas Instruments
    • Toshiba
    • Vishay Intertechnology
    • Weidmueller & Kg
Optoelectronic Type (1)
    • TRIGGER OUTPUT SSR
    • FET OUTPUT OPTOCOUPLER
    • TRANSISTOR OUTPUT OPTOCOUPLER
    • TRANSISTOR OUTPUT SSR
    • TRIGGER OUTPUT OPTOCOUPLER
Mounting Feature
    • CHASSIS MOUNT
    • PANEL MOUNT
    • SURFACE MOUNT
    • THROUGH HOLE MOUNT
    • THROUGH HOLE MOUNT
Terminal Finish
    • GOLD
    • MATTE TIN
    • MATTE TIN/TIN BISMUTH
    • Matte Tin (Sn)
    • NICKEL
    • NICKEL PALLADIUM GOLD
    • Nickel/Palladium/Gold (Ni/Pd/Au)
    • Silver/Copper (Ag/Cu)
    • TIN
    • TIN BISMUTH
    • TIN LEAD
    • TIN SILVER COPPER
    • Tin (Sn)
    • Tin (Sn) - with Nickel (Ni) barrier
    • Tin/Bismuth (Sn/Bi)
    • Tin/Copper (Sn/Cu)
    • Tin/Lead (Sn/Pb)
    • Tin/Silver/Copper (Sn/Ag/Cu)
Maximum On State Voltage
    • 1.3 V
Configuration
    • COMPLEX
    • DUAL, SIMULTANEOUS OPERATION
    • SEPARATE, 2 CHANNELS
    • SEPARATE, 2 ELEMENTS
    • SEPARATE, 2 ELEMENTS WITH BUILT-IN DIODE
    • SEPARATE, 2 ELEMENTS WITH BUILT-IN SNUBBER
    • SEPARATE, 3 ELEMENTS
    • SEPARATE, 4 ELEMENTS
    • SEPARATE, 4 ELEMENTS WITH BUILT-IN RESISTOR
    • SINGLE
    • SINGLE WITH BUILT-IN DIODE
    • SINGLE WITH BUILT-IN DIODE AND LED DISPLAY
    • SINGLE WITH BUILT-IN DIODE AND VARISTOR
    • SINGLE WITH BUILT-IN LED DISPLAY
    • SINGLE WITH BUILT-IN RESISTOR
    • SINGLE WITH BUILT-IN SNUBBER
    • SINGLE WITH BUILT-IN VARISTOR
    • SINGLE WITH OPTOCOUPLER AC INPUT-TRANSISTOR OUTPUT
    • SINGLE WITH OPTOCOUPLER TRANSISTOR OUTPUT
Maximum Supply Voltage
    • 10 V
    • 140 V
    • 15 V
    • 18 V
    • 280 V
    • 32 V
    • 36 V
    • 8 V
Control Current
    • .00004 A
    • .00013 A
    • .00018 A
    • .0002 A
    • .0003 A
    • .00033 A
    • .0004 A
    • .00044 A
    • .00045 A
    • .0005 A
    • .00055 A
    • .00058 A
    • .0006 A
    • .00065 A
    • .0007 A
    • .0008 A
    • .00087 A
    • .0009 A
    • .00095 A
    • .001 A
    • .0011 A
    • .0012 A
    • .0013 A
    • .0015 A
    • .0016 A
    • .0017 A
    • .002 A
    • .0022 A
    • .003 A
    • .0033 A
    • .0034 A
    • .004 A
    • .0046 A
    • .005 A
    • .0051 A
    • .006 A
    • .0062 A
    • .0069 A
    • .007 A
    • .0073 A
    • .0077 A
    • .0079 A
    • .008 A
    • .0081 A
    • .0088 A
    • .0089 A
    • .009 A
    • .01 A
    • .0114 A
    • .0115 A
    • .012 A
    • .013 A
    • .014 A
    • .015 A
    • .018 A
    • .019 A
    • .0195 A
    • .02 A
    • .024 A
    • .025 A
    • .03 A
    • .036 A
    • .05 A
    • .4 A
    • 1.1 A
    • 28 A
    • 5 A
    • 8.5 A
Peak Surge Current
    • 50 A
    • 60 A
Maximum Forward Current
    • .0002 A
    • .0004 A
    • .00125 A
    • .0016 A
    • .002 A
    • .0025 A
    • .003 A
    • .004 A
    • .0044 A
    • .0046 A
    • .005 A
    • .0051 A
    • .0062 A
    • .0069 A
    • .007 A
    • .0073 A
    • .0077 A
    • .0079 A
    • .008 A
    • .0081 A
    • .0085 A
    • .0088 A
    • .0089 A
    • .009 A
    • .01 A
    • .0106 A
    • .011 A
    • .0114 A
    • .0115 A
    • .012 A
    • .014 A
    • .015 A
    • .016 A
    • .018 A
    • .0195 A
    • .02 A
    • .025 A
    • .0253 A
    • .027 A
    • .028 A
    • .03 A
    • .032 A
    • .0338 A
    • .034 A
    • .035 A
    • .036 A
    • .04 A
    • .042 A
    • .05 A
    • .06 A
    • .1 A
No. of Elements
    • 1
    • 2
    • 3
    • 4
Nominal Supply Voltage
    • 120 V
    • 15 V
    • 24 V
    • 240 V
    • 4 V
    • 5 V
Depth
    • 10.3 mm
    • 11.05 mm
    • 13.46 mm
    • 15.2 mm
    • 22.5 mm
    • 25.4 mm
    • 37 mm
    • 5.1 mm
    • 57 mm
    • 57.8 mm
    • 58 mm
    • 7.6 mm
Packing Method
    • BOX
    • BOX; TRAY
    • BULK
    • MAGAZINE
    • TAPE
    • TR
    • TR, 13 INCH
    • TR, 7 INCH
    • TR, EMBOSSED, 13 INCH
    • TR, EMBOSSED, 7 INCH
    • TR, PAPER, 10 INCH
    • TUBE
Output Circuit Type
    • BJT
    • Back to Back SCR
    • DIAC
    • MOSFET
    • SCR
    • Transistor
    • Triac
Maximum Response Time
    • .0002 s
    • .0005 s
    • .001 s
    • .0015 s
    • .002 s
    • .0025 s
    • .003 s
    • .005 s
Sub-Category
    • Optocoupler - Transistor Outputs
    • Optocoupler - Trigger Device Outputs
    • Solid State Relays
Minimum Supply Voltage
    • 18 V
    • 180 V
    • 3 V
    • 3.3 V
    • 3.5 V
    • 3.8 V
    • 4 V
    • 9 V
    • 90 V
Maximum Operating Temperature
    • 100 Cel
    • 105 Cel
    • 110 Cel
    • 125 Cel
    • 150 Cel
    • 50 Cel
    • 55 Cel
    • 60 Cel
    • 65 Cel
    • 70 Cel
    • 75 Cel
    • 80 Cel
    • 85 Cel
    • 90 Cel
    • 95 Cel
Maximum On State Resistance
    • .0033 ohm
    • .005 ohm
    • .0056 ohm
    • .008 ohm
    • .01 ohm
    • .015 ohm
    • .017 ohm
    • .018 ohm
    • .02 ohm
    • .024 ohm
    • .025 ohm
    • .03 ohm
    • .039 ohm
    • .04 ohm
    • .045 ohm
    • .05 ohm
    • .051 ohm
    • .06 ohm
    • .065 ohm
    • .07 ohm
    • .072 ohm
    • .075 ohm
    • .078 ohm
    • .08 ohm
    • .09 ohm
    • .1 ohm
    • .12 ohm
    • .13 ohm
    • .145 ohm
    • .15 ohm
    • .164 ohm
    • .165 ohm
    • .18 ohm
    • .19 ohm
    • .2 ohm
    • .22 ohm
    • .23 ohm
    • .245 ohm
    • .25 ohm
    • .29 ohm
    • .3 ohm
    • .34 ohm
    • .35 ohm
    • .4 ohm
    • .45 ohm
    • .5 ohm
    • .55 ohm
    • .6 ohm
    • .63 ohm
    • .7 ohm
    • .75 ohm
    • .8 ohm
    • .85 ohm
    • 1 ohm
    • 1.1 ohm
    • 1.2 ohm
    • 1.25 ohm
    • 1.4 ohm
    • 1.5 ohm
    • 1.6 ohm
    • 1.8 ohm
    • 10 ohm
    • 100 ohm
    • 12 ohm
    • 12.5 ohm
    • 120 ohm
    • 13 ohm
    • 14 ohm
    • 15 ohm
    • 16 ohm
    • 160 ohm
    • 17 ohm
    • 18 ohm
    • 2 ohm
    • 2.3 ohm
    • 2.4 ohm
    • 2.5 ohm
    • 20 ohm
    • 200 ohm
    • 22 ohm
    • 23 ohm
    • 24 ohm
    • 25 ohm
    • 26 ohm
    • 27 ohm
    • 3 ohm
    • 3.2 ohm
    • 3.5 ohm
    • 3.75 ohm
    • 30 ohm
    • 33 ohm
    • 335 ohm
    • 34 ohm
    • 35 ohm
    • 36 ohm
    • 4 ohm
    • 40 ohm
    • 45 ohm
    • 5 ohm
    • 50 ohm
    • 500 ohm
    • 6 ohm
    • 6.25 ohm
    • 60 ohm
    • 65 ohm
    • 7 ohm
    • 7.5 ohm
    • 8 ohm
    • 8.5 ohm
    • 9.5 ohm
Height
    • .46 mm
    • .8 mm
    • 1.3 mm
    • 1.4 mm
    • 1.65 mm
    • 1.8 mm
    • 1.85 mm
    • 10.1 mm
    • 102 mm
    • 111.5 mm
    • 12 mm
    • 12.5 mm
    • 12.7 mm
    • 13 mm
    • 13.5 mm
    • 13.8 mm
    • 15 mm
    • 17 mm
    • 19 mm
    • 19.6 mm
    • 2 mm
    • 2.03 mm
    • 2.081 mm
    • 2.094 mm
    • 2.1 mm
    • 2.159 mm
    • 2.18 mm
    • 2.184 mm
    • 2.286 mm
    • 2.3 mm
    • 2.337 mm
    • 2.55 mm
    • 2.6 mm
    • 2.9 mm
    • 20.1 mm
    • 20.5 mm
    • 20.88 mm
    • 21 mm
    • 21.6 mm
    • 22 mm
    • 22.48 mm
    • 22.6 mm
    • 22.8 mm
    • 22.86 mm
    • 22.9 mm
    • 23 mm
    • 24 mm
    • 25 mm
    • 25.4 mm
    • 25.5 mm
    • 26.16 mm
    • 26.4 mm
    • 27 mm
    • 27.1 mm
    • 27.9 mm
    • 28 mm
    • 28.45 mm
    • 28.8 mm
    • 3 mm
    • 3.2 mm
    • 3.3 mm
    • 3.302 mm
    • 3.4 mm
    • 3.42 mm
    • 3.5 mm
    • 3.55 mm
    • 3.56 mm
    • 3.6 mm
    • 3.65 mm
    • 3.7 mm
    • 3.8 mm
    • 3.81 mm
    • 3.9 mm
    • 3.93 mm
    • 3.94 mm
    • 30 mm
    • 30.2 mm
    • 31 mm
    • 31.7 mm
    • 32 mm
    • 32.87 mm
    • 33 mm
    • 34 mm
    • 35.43 mm
    • 36.5 mm
    • 4 mm
    • 4.064 mm
    • 4.19 mm
    • 4.2 mm
    • 4.3 mm
    • 4.445 mm
    • 4.45 mm
    • 4.5 mm
    • 4.6 mm
    • 4.7 mm
    • 4.8 mm
    • 4.82 mm
    • 4.9 mm
    • 43.4 mm
    • 5 mm
    • 5.3 mm
    • 5.33 mm
    • 52 mm
    • 6 mm
    • 6.3 mm
    • 6.35 mm
    • 6.5 mm
    • 6.8 mm
    • 6.9 mm
    • 61 mm
    • 7 mm
    • 7.36 mm
    • 7.6 mm
    • 7.62 mm
    • 73.5 mm
    • 77.9 mm
    • 81.3 mm
    • 83.7 mm
    • 87.8 mm
    • 92.4 mm
    • 94 mm
Minimum Operating Temperature
    • -20 Cel
    • -25 Cel
    • -30 Cel
    • -40 Cel
    • -55 Cel
    • 25 Cel
Maximum Reverse Leakage Current
    • .0001 A
    • .001 A
Maximum Output Voltage
    • 120 V
    • 140 V
    • 200 V
    • 240 V
    • 250 V
    • 280 V
    • 30 V
    • 480 V
    • 60 V
    • 660 V
Maximum Isolation Voltage
    • 1000 V
    • 10000 V
    • 1500 V
    • 200 V
    • 2000 V
    • 2060 V
    • 2500 V
    • 300 V
    • 3000 V
    • 3700 V
    • 3750 V
    • 3800 V
    • 4000 V
    • 500 V
    • 5000 V
    • 5300 V
Maximum Input Trigger Current
    • .005 A
    • .01 A
    • .1 A
Control Voltage
    • .8 V
    • .9 V
    • 1 V
    • 1.1 V
    • 1.13 V
    • 1.14 V
    • 1.15 V
    • 1.18 V
    • 1.2 V
    • 1.25 V
    • 1.3 V
    • 1.32 V
    • 1.35 V
    • 1.4 V
    • 1.45 V
    • 1.5 V
    • 1.7 V
    • 1.8 V
    • 10 V
    • 100 V
    • 110 V
    • 12 V
    • 12.5 V
    • 15 V
    • 16 V
    • 18 V
    • 180 V
    • 19.2 V
    • 2 V
    • 2.5 V
    • 20 V
    • 200 V
    • 230 V
    • 24 V
    • 3 V
    • 3.3 V
    • 3.5 V
    • 38 V
    • 4 V
    • 4.5 V
    • 48 V
    • 5 V
    • 5.5 V
    • 6 V
    • 8.5 V
    • 9 V
    • 90 V
Repetitive Off-state Voltage (Peak)
    • 400 V
    • 600 V
Maximum Power Dissipation
    • .1 W
    • .15 W
    • .2 W
    • .3 W
    • .31 W
    • .35 W
    • .36 W
    • .46 W
    • .56 W
    • .61 W
    • .65 W
    • .85 W
Input Type
    • AC
    • AC/DC
    • DC
Additional Features
    • AEC-Q101, UL RECOGNIZED
    • BI-DIRECTIONAL
    • BI-DIRECTIONAL, UL RECOGNIZED
    • CMOS COMPATIBLE
    • CMOS COMPATIBLE, HIGH IMMUNITY, UL RECOGNIZED
    • CMOS COMPATIBLE, HIGH RELIABILITY, UL RECOGNIZED
    • CMOS COMPATIBLE, HIGH RELIABILITY, UL RECOGNIZED, VDE APPROVED
    • CMOS COMPATIBLE, UL RECOGNIZED
    • CMOS COMPATIBLE, UL RECOGNIZED, VDE APPROVED
    • CMOS COMPATIBLE, UL RECOGNIZED, ZERO VOLTAGE CROSSING
    • HIGH FUNCTION TYPE, UL RECOGNIZED
    • HIGH RELIABILITY
    • HIGH RELIABILITY, CMOS COMPATIBLE
    • HIGH RELIABILITY, UL APPROVED
    • HIGH RELIABILITY, UL APPROVED, VDE APPROVED
    • HIGH RELIABILITY, UL RECOGNIZED
    • HIGH RELIABILITY, UL RECOGNIZED, CMOS COMPATIBLE
    • HIGH RELIABILITY, UL RECOGNIZED, LOGIC COMPATIBLE
    • HIGH RELIABILITY, UL RECOGNIZED, VDE APPROVED
    • HIGH RELIABILITY, VDE APPROVED
    • HIGH RELIABILITY, VDE APPROVED, UL APPROVED
    • HIGH SENSITIVITY
    • HIGH SENSITIVITY, UL RECOGNIZED
    • HIGH SENSITIVITY, UL RECOGNIZED, VDE APPROVED
    • IEC-55011; IEC-60947-4-3; IEC-61000-4-2, 4-3, 4-4, 4-5, 4-6, 4-11, UL RECOGNIZED, VDE APPROVED
    • IEC-60068-2-6, 2-27; IEC-60947; IEC-61000-4-2, 4-4, 4-5; IEC-62314, UL LISTED
    • IEC-60529, UL LISTED
    • IEC-60664
    • IEC-60664, UL RECOGNIZED
    • IEC-61000-4-2, 4-4, 4-5, UL APPROVED
    • IEC-61000-4-2, 4-4, 4-5,UL RECOGNIZED
    • IEC-62314, UL RECOGNIZED
    • LOGIC COMPATIBLE, UL RECOGNIZED, HIGH RELIABILITY
    • LOW LEAKAGE CURRENT, UL APPROVED
    • SURFACE MOUNT
    • TTL COMPATIBLE
    • TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT
    • TTL COMPATIBLE, WITH ZERO CROSSOVER CIRCUIT
    • TTL COMPATIBLE, ZERO VOLTAGE CROSSING
    • TTL COMPATIBLE; WITH SNUBBER NETWORK
    • UL APPROVED
    • UL APPROVED, CMOS COMPATIBLE, HIGH RELIABILITY
    • UL APPROVED, HIGH RELIABILITY
    • UL APPROVED, VDE APPROVED
    • UL APPROVED, VDE APPROVED, HIGH RELIABILITY
    • UL APPROVED, VDE APPROVED, WITH ZERO CROSS OVER CIRCUIT
    • UL CERTIFIED
    • UL LISTED
    • UL RECOGNIZED
    • UL RECOGNIZED, BI-DIRECTIONAL
    • UL RECOGNIZED, CMOS COMPATIBLE
    • UL RECOGNIZED, CMOS COMPATIBLE, HIGH RELIABILITY
    • UL RECOGNIZED, CMOS COMPATIBLE, WITH ZERO CROSSOVER CIRCUIT
    • UL RECOGNIZED, HIGH RELIABILITY
    • UL RECOGNIZED, HIGH RELIABILITY, CMOS COMPATIBLE
    • UL RECOGNIZED, HIGH RELIABILITY, WITH ZERO CROSS OVER CIRCUIT
    • UL RECOGNIZED, HIGH RELIABILITY, WITH ZERO CROSSOVER CIRCUIT
    • UL RECOGNIZED, LOGIC COMPATIBLE
    • UL RECOGNIZED, VDE APPROVED
    • UL RECOGNIZED, VDE APPROVED, WITH SNUBBER CIRCUIT, WITH ZERO CROSS OVER CIRCUIT
    • UL RECOGNIZED, VDE APPROVED, WITH ZERO CROSS OVER CIRCUIT
    • UL RECOGNIZED, VDE APPROVED, ZERO VOLTAGE CROSSING
    • UL RECOGNIZED, WITH SNUBBER CIRCUIT, WITH ZERO CROSS OVER CIRCUIT
    • UL RECOGNIZED, WITH ZERO CROSS OVER CIRCUIT
    • UL RECOGNIZED, WITH ZERO CROSS OVER CIRCUIT, WITH SNUBBER CIRCUIT
    • UL RECOGNIZED, WITH ZERO CROSSOVER CIRCUIT
    • UL RECOGNIZED, ZERO VOLTAGE CROSSING
    • UL RECOGNIZED, ZERO VOLTAGE CROSSING, VDE APPROVED
    • ULRECOGNIZED,VDEAPPROVED
    • VDE APPROVED
    • VDE APPROVED, UL RECOGNIZED
    • VDE APPROVED, ZERO VOLTAGE CROSSING
    • WITH ZERO CROSS OVER CIRCUIT, UL APPROVED
    • WITH ZERO CROSS OVER CIRCUIT, UL RECOGNIZED
    • WITH ZERO CROSSOVER CIRCUIT
    • ZERO VOLTAGE CROSSING
    • ZERO VOLTAGE CROSSING, UL APPROVED, VDE APPROVED
    • ZERO VOLTAGE CROSSING, VDE APPROVED
    • ZEROVOLTAGECROSSING,ULRECOGNIZED,VDEAPPROVED
Minimum Current Transfer Ratio
    • 50 %
Length
    • 1.45 mm
    • 1.95 mm
    • 10 mm
    • 10.06 mm
    • 10.211 mm
    • 10.28 mm
    • 10.37 mm
    • 101.29 mm
    • 103.8 mm
    • 104 mm
    • 11 mm
    • 14.22 mm
    • 16.38 mm
    • 19 mm
    • 19.1 mm
    • 19.5 mm
    • 19.9 mm
    • 19.91 mm
    • 2 mm
    • 2.04 mm
    • 2.1 mm
    • 2.2 mm
    • 2.3 mm
    • 2.45 mm
    • 2.5 mm
    • 2.65 mm
    • 2.85 mm
    • 2.95 mm
    • 20 mm
    • 20.2 mm
    • 21 mm
    • 21.6 mm
    • 22 mm
    • 22.6 mm
    • 24.1 mm
    • 24.5 mm
    • 28 mm
    • 3.6 mm
    • 3.9 mm
    • 30 mm
    • 34.7 mm
    • 34.9 mm
    • 35 mm
    • 35.5 mm
    • 38.1 mm
    • 4.089 mm
    • 4.1 mm
    • 4.3 mm
    • 4.4 mm
    • 4.55 mm
    • 4.58 mm
    • 4.6 mm
    • 4.7 mm
    • 4.78 mm
    • 43 mm
    • 43.1 mm
    • 43.5 mm
    • 43.6 mm
    • 43.94 mm
    • 44 mm
    • 44.5 mm
    • 45 mm
    • 46.5 mm
    • 48 mm
    • 5 mm
    • 50.8 mm
    • 51.31 mm
    • 55.9 mm
    • 57 mm
    • 57.1 mm
    • 57.15 mm
    • 57.3 mm
    • 58 mm
    • 58.2 mm
    • 58.4 mm
    • 59.4 mm
    • 6.3 mm
    • 6.4 mm
    • 6.81 mm
    • 7.12 mm
    • 7.6 mm
    • 70 mm
    • 74 mm
    • 75 mm
    • 76.2 mm
    • 78.23 mm
    • 8 mm
    • 8.36 mm
    • 8.38 mm
    • 8.382 mm
    • 8.6 mm
    • 8.61 mm
    • 8.63 mm
    • 8.7 mm
    • 8.8 mm
    • 80 mm
    • 82.3 mm
    • 87.6 mm
    • 88.87 mm
    • 88.9 mm
    • 89.6 mm
    • 9 mm
    • 9.25 mm
    • 9.3 mm
    • 9.4 mm
    • 9.5 mm
    • 9.6 mm
    • 9.65 mm
    • 9.652 mm
    • 9.66 mm
    • 9.7 mm
    • 9.78 mm
    • 9.9 mm
    • 9.91 mm
    • 90 mm
    • 90.5 mm
    • 99 mm
JESD-609 Code
    • e0
    • e1
    • e2
    • e3
    • e3/e6
    • e4
    • e6
Maximum Forward Voltage
    • .5 V
    • 1.3 V
    • 1.4 V
    • 1.48 V
Maximum On State Current
    • .001 A
    • .003 A
    • .004 A
    • .006 A
    • .02 A
    • .025 A
    • .03 A
    • .04 A
    • .05 A
    • .055 A
    • .065 A
    • .07 A
    • .075 A
    • .08 A
    • .085 A
    • .09 A
    • .095 A
    • .1 A
    • .11 A
    • .12 A
    • .125 A
    • .13 A
    • .14 A
    • .15 A
    • .155 A
    • .16 A
    • .17 A
    • .19 A
    • .2 A
    • .24 A
    • .25 A
    • .3 A
    • .32 A
    • .35 A
    • .36 A
    • .375 A
    • .4 A
    • .45 A
    • .5 A
    • .55 A
    • .6 A
    • .65 A
    • .7 A
    • .75 A
    • .8 A
    • .825 A
    • .9 A
    • 1 A
    • 1.1 A
    • 1.2 A
    • 1.25 A
    • 1.35 A
    • 1.4 A
    • 1.5 A
    • 1.6 A
    • 1.65 A
    • 1.7 A
    • 1.8 A
    • 10 A
    • 100 A
    • 12 A
    • 125 A
    • 15 A
    • 16 A
    • 2 A
    • 2.2 A
    • 2.5 A
    • 2.7 A
    • 20 A
    • 22 A
    • 24 A
    • 25 A
    • 28 A
    • 3 A
    • 3.3 A
    • 3.4 A
    • 3.5 A
    • 3.6 A
    • 30 A
    • 35 A
    • 4 A
    • 40 A
    • 45 A
    • 5 A
    • 5.25 A
    • 50 A
    • 55 A
    • 6 A
    • 6.5 A
    • 6.75 A
    • 60 A
    • 65 A
    • 7 A
    • 75 A
    • 8 A
    • 8.25 A
    • 80 A
    • 9 A
    • 90 A
Reset All
Part RoHS Manufacturer Optoelectronic Type Mounting Feature Terminal Finish Maximum On State Voltage Configuration Maximum Supply Voltage Control Current Peak Surge Current Maximum Forward Current No. of Elements Nominal Supply Voltage Depth Packing Method Output Circuit Type Maximum Response Time Sub-Category Minimum Supply Voltage Maximum Operating Temperature Maximum On State Resistance Height Minimum Operating Temperature Maximum Reverse Leakage Current Maximum Output Voltage Maximum Isolation Voltage Maximum Input Trigger Current Control Voltage Repetitive Off-state Voltage (Peak) Maximum Power Dissipation Input Type Additional Features Minimum Current Transfer Ratio Length JESD-609 Code Maximum Forward Voltage Maximum On State Current

TSS25G41S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

WITH ZERO CROSSOVER CIRCUIT

25 A

TLP798GA(TP1,F)

Toshiba

TRIGGER OUTPUT SSR

SINGLE WITH BUILT-IN DIODE

.02 A

1

85 Cel

12 ohm

-40 Cel

5000 V

.15 A

TSA3001G

Toshiba

TRIGGER OUTPUT SSR

Tin/Lead (Sn/Pb)

SINGLE

.05 A

1

100 Cel

-40 Cel

3000 V

TTL COMPATIBLE, WITH ZERO CROSSOVER CIRCUIT

e0

3 A

TSZ1G45S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

TTL COMPATIBLE; WITH SNUBBER NETWORK

1 A

TSS2G47

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

TTL COMPATIBLE, WITH ZERO CROSSOVER CIRCUIT

2 A

TSZ12G47S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.025 A

1

80 Cel

-30 Cel

2060 V

TTL COMPATIBLE

12 A

TSA3101G

Toshiba

TRIGGER OUTPUT SSR

Tin/Lead (Sn/Pb)

SINGLE

.05 A

1

100 Cel

-40 Cel

3000 V

TTL COMPATIBLE

e0

3 A

TSS1G47S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT

1 A

TSS2G41

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

1500 V

WITH ZERO CROSSOVER CIRCUIT

2 A

TSS2J48S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.03 A

1

80 Cel

-20 Cel

2000 V

TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT

2 A

TSZ1G48S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.03 A

1

80 Cel

-20 Cel

2000 V

TTL COMPATIBLE; WITH SNUBBER NETWORK

1 A

TSS1G2A44S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

WITH ZERO CROSSOVER CIRCUIT

1 A

TSS3J45S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT

3 A

TSS1G45

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

TTL COMPATIBLE, WITH ZERO CROSSOVER CIRCUIT

1 A

TSZ2J43S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

2 A

TSS1G44S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

WITH ZERO CROSSOVER CIRCUIT

1 A

TSS2J47

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

TTL COMPATIBLE, WITH ZERO CROSSOVER CIRCUIT

2 A

TSS2G41S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

1500 V

WITH ZERO CROSSOVER CIRCUIT

2 A

TSZ3J44S

Toshiba

TRIGGER OUTPUT SSR

Tin/Lead (Sn/Pb)

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

e0

3 A

TSA2000G

Toshiba

TRIGGER OUTPUT SSR

Tin/Lead (Sn/Pb)

SINGLE

.05 A

1

100 Cel

-40 Cel

3000 V

TTL COMPATIBLE, WITH ZERO CROSSOVER CIRCUIT

e0

2 A

TSZ3J45S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

TTL COMPATIBLE; WITH SNUBBER NETWORK

3 A

TSS2G44

Toshiba

TRIGGER OUTPUT SSR

Tin/Lead (Sn/Pb)

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

WITH ZERO CROSSOVER CIRCUIT

e0

2 A

TSZ2J48

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.03 A

1

80 Cel

-20 Cel

2000 V

TTL COMPATIBLE

2 A

TSZ12G48S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.03 A

1

80 Cel

-20 Cel

2500 V

TTL COMPATIBLE; WITH SNUBBER NETWORK

12 A

TSS3G44S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

WITH ZERO CROSSOVER CIRCUIT

3 A

TSZ8J48SR

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.03 A

1

80 Cel

-20 Cel

3750 V

TTL COMPATIBLE; WITH SNUBBER NETWORK

8 A

TSZ2J47S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

TTL COMPATIBLE; WITH SNUBBER NETWORK

2 A

TSZ3G44S

Toshiba

TRIGGER OUTPUT SSR

Tin/Lead (Sn/Pb)

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

e0

3 A

TSZ1G2A44S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

1 A

TSS8G48S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.03 A

1

80 Cel

-20 Cel

2500 V

TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT

8 A

TSS1J47S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT

1 A

TSS1G41

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

1500 V

WITH ZERO CROSSOVER CIRCUIT

1 A

TSS12J48SR

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.03 A

1

80 Cel

-20 Cel

3750 V

TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT

12 A

TSZ1J48S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.03 A

1

80 Cel

-20 Cel

2000 V

TTL COMPATIBLE; WITH SNUBBER NETWORK

1 A

TSZ2G48

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.03 A

1

80 Cel

-20 Cel

2000 V

TTL COMPATIBLE

2 A

TSS16J47S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.025 A

1

80 Cel

-30 Cel

2060 V

TTL COMPATIBLE, WITH ZERO CROSSOVER CIRCUIT

16 A

TSZ16G48S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.03 A

1

80 Cel

-20 Cel

2500 V

TTL COMPATIBLE; WITH SNUBBER NETWORK

16 A

TSS1J48S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.03 A

1

80 Cel

-20 Cel

2000 V

TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT

1 A

TSS16J41S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

WITH ZERO CROSSOVER CIRCUIT

16 A

TSS8J48S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.03 A

1

80 Cel

-20 Cel

2500 V

TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT

8 A

TSS1G47

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

TTL COMPATIBLE, WITH ZERO CROSSOVER CIRCUIT

1 A

TSZ1J2A44S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

1 A

TSS2J47S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT

2 A

TSZ16J48S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.03 A

1

80 Cel

-20 Cel

2500 V

TTL COMPATIBLE; WITH SNUBBER NETWORK

16 A

TSS10J45S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

1500 V

TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT

10 A

TSZ1J45S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

2060 V

TTL COMPATIBLE; WITH SNUBBER NETWORK

1 A

TSS10G45S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.02 A

1

80 Cel

-30 Cel

1500 V

TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT

10 A

TSS16G48S

Toshiba

TRIGGER OUTPUT SSR

SINGLE

.03 A

1

80 Cel

-20 Cel

2500 V

TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT

16 A
Solid State Relays

Solid state relays (SSRs) are electronic devices that are used to switch or control electrical loads without using any moving parts. They consist of a control circuit and a switching device, which are both made from semiconductor materials. SSRs are widely used in a variety of applications, including in industrial control systems, home automation, and power management.

The control circuit of an SSR typically consists of a light-emitting diode (LED) and a phototransistor or a photothyristor. The LED is used to control the phototransistor or photothyristor, which is used to switch the load. When the LED is turned on, it produces light that is detected by the phototransistor or photothyristor, which then switches the load.

One of the advantages of SSRs is their ability to switch high loads without the use of any mechanical components. They are also able to switch loads quickly and precisely, making them suitable for applications that require fast response times or precise control.

Another advantage of SSRs is their durability and reliability. They do not have any moving parts that can wear out or break, and they are not affected by vibrations or shocks.

One of the disadvantages of SSRs is their cost. They are generally more expensive than electromechanical relays, which use mechanical components to switch loads.