TRIGGER OUTPUT SSR Solid State Relays 1,570
| 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 |
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|
Sharp Corporation |
TRIGGER OUTPUT SSR |
Tin/Copper (Sn/Cu) |
SINGLE |
.05 A |
1 |
100 Cel |
-25 Cel |
3000 V |
e2 |
8 A |
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|
Littelfuse |
TRIGGER OUTPUT SSR |
Matte Tin (Sn) |
SINGLE |
.005 A |
.1 A |
1 |
SCR |
Solid State Relays |
85 Cel |
6.35 mm |
-40 Cel |
3750 V |
.9 V |
DC |
CMOS COMPATIBLE, UL RECOGNIZED, ZERO VOLTAGE CROSSING |
19.5 mm |
e3 |
1 A |
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|
Littelfuse |
TRIGGER OUTPUT SSR |
Matte Tin (Sn) |
SINGLE |
.05 A |
1 |
85 Cel |
-40 Cel |
3750 V |
CMOS COMPATIBLE, UL RECOGNIZED, ZERO VOLTAGE CROSSING |
e3 |
.5 A |
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|
Littelfuse |
TRIGGER OUTPUT SSR |
Matte Tin (Sn) |
SINGLE |
.05 A |
1 |
TR |
85 Cel |
-40 Cel |
3750 V |
CMOS COMPATIBLE, UL RECOGNIZED, ZERO VOLTAGE CROSSING |
e3 |
.5 A |
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|
Littelfuse |
TRIGGER OUTPUT SSR |
TIN |
e3 |
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Motorola |
TRIGGER OUTPUT SSR |
THROUGH HOLE MOUNT |
Tin/Lead (Sn/Pb) |
1.3 V |
SINGLE |
60 A |
.05 A |
1 |
Optocoupler - Trigger Device Outputs |
100 Cel |
-40 Cel |
.0001 A |
3750 V |
.005 A |
400 V |
ZERO VOLTAGE CROSSING |
e0 |
2 A |
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|
Motorola |
TRIGGER OUTPUT SSR |
THROUGH HOLE MOUNT |
Tin/Lead (Sn/Pb) |
1.3 V |
SINGLE |
50 A |
.05 A |
1 |
Optocoupler - Trigger Device Outputs |
100 Cel |
-40 Cel |
.0001 A |
3750 V |
.005 A |
600 V |
WITH ZERO CROSSOVER CIRCUIT |
e0 |
2 A |
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|
Sharp Corporation |
TRIGGER OUTPUT SSR |
SINGLE WITH BUILT-IN SNUBBER |
1 |
80 Cel |
-25 Cel |
3000 V |
WITH ZERO CROSSOVER CIRCUIT |
1.6 A |
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|
Sharp Corporation |
TRIGGER OUTPUT SSR |
Tin/Copper (Sn/Cu) |
SINGLE |
.05 A |
1 |
100 Cel |
-25 Cel |
4000 V |
UL RECOGNIZED, HIGH RELIABILITY |
e2 |
8 A |
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|
Sharp Corporation |
TRIGGER OUTPUT SSR |
Tin/Lead (Sn/Pb) |
SINGLE |
.05 A |
1 |
100 Cel |
-25 Cel |
3000 V |
e0 |
8 A |
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|
Sharp Corporation |
TRIGGER OUTPUT SSR |
Tin/Lead (Sn/Pb) |
SINGLE |
.05 A |
1 |
100 Cel |
-25 Cel |
3000 V |
UL RECOGNIZED, WITH ZERO CROSSOVER CIRCUIT |
e0 |
2 A |
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|
Sharp Corporation |
TRIGGER OUTPUT SSR |
Tin/Lead (Sn/Pb) |
SINGLE |
.05 A |
1 |
100 Cel |
-25 Cel |
3000 V |
UL RECOGNIZED, HIGH RELIABILITY, WITH ZERO CROSSOVER CIRCUIT |
e0 |
16 A |
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|
Sharp Corporation |
TRIGGER OUTPUT SSR |
Tin/Lead (Sn/Pb) |
SINGLE |
.05 A |
1 |
80 Cel |
-25 Cel |
4000 V |
UL RECOGNIZED |
e0 |
.6 A |
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|
Texas Instruments |
TRIGGER OUTPUT SSR |
SINGLE |
.06 A |
1 |
WITH ZERO CROSSOVER CIRCUIT |
8 A |
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|
Texas Instruments |
TRIGGER OUTPUT SSR |
SINGLE |
.06 A |
1 |
WITH ZERO CROSSOVER CIRCUIT |
25 A |
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|
Infineon Technologies |
TRIGGER OUTPUT SSR |
Tin/Lead (Sn/Pb) |
SINGLE |
.01 A |
1 |
MOSFET |
Solid State Relays |
85 Cel |
5 mm |
-30 Cel |
4000 V |
1.3 V |
DC |
22 mm |
e0 |
1 A |
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|
Infineon Technologies |
TRIGGER OUTPUT SSR |
Tin/Lead (Sn/Pb) |
SINGLE |
.012 A |
1 |
MOSFET |
Solid State Relays |
85 Cel |
5 mm |
-30 Cel |
4000 V |
3.5 V |
DC |
22 mm |
e0 |
1 A |
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|
Infineon Technologies |
TRIGGER OUTPUT SSR |
Tin/Lead (Sn/Pb) |
SINGLE |
.01 A |
1 |
MOSFET |
Solid State Relays |
85 Cel |
5 mm |
-30 Cel |
4000 V |
1.3 V |
DC |
22 mm |
e0 |
1 A |
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|
Infineon Technologies |
TRIGGER OUTPUT SSR |
Tin/Lead (Sn/Pb) |
SINGLE |
.012 A |
1 |
MOSFET |
Solid State Relays |
85 Cel |
5 mm |
-30 Cel |
4000 V |
3.5 V |
DC |
22 mm |
e0 |
1 A |
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|
Infineon Technologies |
TRIGGER OUTPUT SSR |
Tin/Lead (Sn/Pb) |
SINGLE |
.012 A |
1 |
MOSFET |
Solid State Relays |
85 Cel |
5 mm |
-30 Cel |
4000 V |
3.5 V |
DC |
22 mm |
e0 |
1 A |
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|
Infineon Technologies |
TRIGGER OUTPUT SSR |
Tin/Lead (Sn/Pb) |
SINGLE |
.01 A |
1 |
MOSFET |
Solid State Relays |
85 Cel |
5 mm |
-30 Cel |
4000 V |
1.3 V |
DC |
22 mm |
e0 |
1 A |
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|
Phoenix Contact |
TRIGGER OUTPUT SSR |
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|
Phoenix Contact |
TRIGGER OUTPUT SSR |
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Phoenix Contact |
TRIGGER OUTPUT SSR |
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|
Phoenix Contact |
TRIGGER OUTPUT SSR |
COMPLEX |
1 |
80 Cel |
-30 Cel |
4000 V |
5 A |
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|
Phoenix Contact |
TRIGGER OUTPUT SSR |
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|
Phoenix Contact |
TRIGGER OUTPUT SSR |
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|
Toshiba |
TRIGGER OUTPUT SSR |
SINGLE |
.025 A |
1 |
80 Cel |
-30 Cel |
2060 V |
TTL COMPATIBLE |
12 A |
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|
Toshiba |
TRIGGER OUTPUT SSR |
SINGLE |
.025 A |
1 |
80 Cel |
-30 Cel |
2060 V |
TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT |
12 A |
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|
Toshiba |
TRIGGER OUTPUT SSR |
SINGLE |
.02 A |
1 |
80 Cel |
-30 Cel |
2060 V |
TTL COMPATIBLE; WITH SNUBBER NETWORK |
1 A |
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|
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 |
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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 |
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|
Toshiba |
TRIGGER OUTPUT SSR |
.025 A |
Triac |
Solid State Relays |
80 Cel |
6.5 mm |
-30 Cel |
6 V |
DC |
46.5 mm |
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|
Toshiba |
TRIGGER OUTPUT SSR |
SINGLE |
.02 A |
1 |
80 Cel |
-30 Cel |
2060 V |
TTL COMPATIBLE, WITH ZERO CROSSOVER CIRCUIT |
1 A |
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|
Toshiba |
TRIGGER OUTPUT SSR |
SINGLE |
.02 A |
1 |
80 Cel |
-30 Cel |
2060 V |
TTL COMPATIBLE, WITH ZERO CROSSOVER CIRCUIT |
2 A |
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|
Toshiba |
TRIGGER OUTPUT SSR |
SINGLE |
.02 A |
1 |
80 Cel |
-30 Cel |
2060 V |
TTL COMPATIBLE; WITH SNUBBER NETWORK |
1 A |
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|
Toshiba |
TRIGGER OUTPUT SSR |
SINGLE |
.02 A |
1 |
80 Cel |
-30 Cel |
2060 V |
WITH ZERO CROSSOVER CIRCUIT |
16 A |
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|
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 |
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|
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 |
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|
Toshiba |
TRIGGER OUTPUT SSR |
SINGLE |
.02 A |
1 |
80 Cel |
-30 Cel |
1500 V |
WITH ZERO CROSSOVER CIRCUIT |
1 A |
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|
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 |
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|
Toshiba |
TRIGGER OUTPUT SSR |
SINGLE |
.03 A |
1 |
80 Cel |
-20 Cel |
2000 V |
TTL COMPATIBLE, WITH ZERO CROSSOVER CIRCUIT |
2 A |
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|
Toshiba |
TRIGGER OUTPUT SSR |
SINGLE |
.02 A |
1 |
80 Cel |
-30 Cel |
2060 V |
TTL COMPATIBLE, WITH ZERO CROSSOVER CIRCUIT |
1 A |
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|
Toshiba |
TRIGGER OUTPUT SSR |
Tin/Lead (Sn/Pb) |
SINGLE |
.03 A |
1 |
80 Cel |
-20 Cel |
2000 V |
TTL COMPATIBLE, WITH ZERO CROSSOVER CIRCUIT |
e0 |
1 A |
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|
Toshiba |
TRIGGER OUTPUT SSR |
SINGLE WITH BUILT-IN DIODE |
.02 A |
1 |
85 Cel |
12 ohm |
-40 Cel |
5000 V |
.15 A |
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|
Toshiba |
TRIGGER OUTPUT SSR |
SINGLE |
.025 A |
1 |
80 Cel |
-30 Cel |
2060 V |
TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT |
8 A |
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|
Toshiba |
TRIGGER OUTPUT SSR |
SINGLE |
.02 A |
1 |
80 Cel |
-30 Cel |
2060 V |
TTL COMPATIBLE; WITH SNUBBER NETWORK |
2 A |
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|
Toshiba |
TRIGGER OUTPUT SSR |
SINGLE |
.02 A |
1 |
80 Cel |
-30 Cel |
1500 V |
WITH ZERO CROSSOVER CIRCUIT |
1 A |
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.