- Help Center
- Automation/Electrical
- Solid-state Relays
-
Pneumatics
- Air Cylinders
- Air Dryers
- Auto Switches
- Boosters
- Electric Actuators
- Fieldbus System/Serial Transmission System
- Fittings
- Modular F.R.L.
- Pressure Switches
- Regulators
- Rotary Actuators
- Solenoid Valve
- Temperature Control Equipment
- Vacuum Equipment
- Photoelectric Sensors
- Process Valves
- Valve Clamps and Accessories
- Pumps
- Additional Articles in Pneumatics
- Safety Valves
- Tubing
-
Hydraulics
-
Automation/Electrical
- Contact Sensors / Liquid Leakage Sensors
- Level Switches
- Basic Switches
- Limit Switches
- Push Buttons / Indicator Lamps
- Thumbwheel Switches
- Safety Limit Switches
- Temperature Controllers
- Counters
- Programmable Relays
- Programmable Controllers
- Safety Sensors
- Safety Door Switches
- Solid-state Relays
- Timers
- Inverters
- Power Supplies
- Axial Fans
- Wiring Systems
- Rotary Encoders
- Pressure Sensors
- Displacement Sensors/Measurement Sensors
- Ultrasonic Sensors
- Emergency Stop Switches
- Power Controllers
- Signal Converters
- Machine Automation Controllers
- RFID Systems
- Measuring / Motor Protective Relays
- Vision Sensors / Machine Vision Systems
- Photomicro Sensors
- Digital Panel Indicators
- Programmable Terminals
- Servomotors / Servo Drivers
- Proximity Sensors
- General Purpose Relays
-
Safety
-
Website Help Center
Does the input current change for Solid-state Relays with a wide rated input voltage?
In Solid-state Relays which have wide input voltages (such as G3F and G3H), the input impedance depends on the input voltage and changes in the input current. For semiconductor-driven Solid-state Relays, changes in voltage can cause malfunctions in the semiconductor, so be sure to check the actual device before usage.
This is not the case for Solid-state Relays with DC inputs that use a constant current input method (such as G3NA and G3PA).
Ratings
| Applicable model | Item | Rated voltage | Operating voltage | Impedance | |
| Model | |||||
| ○ | G3H-203SN | 5 to 24 VDC | 4 to 28 VDC | 1.5 kΩ +20%, -10% * | |
| G3H-203SLN | DC | 5 V | 4 to 6 VDC | 390 Ω ±20% | |
| 12 V | 9.6 to 14.4 VDC | 900 Ω ±20% | |||
| 24 V | 19.2 to 28.8 VDC | 2 kΩ ±20% | |||
| ○ | G3HD-X03SN | 5 to 24 VDC | 4 to 28 VDC | 1.5 kΩ +20%, -10% * | |
| ○ | G3H-203S | 4 to 24 VDC | 3 to 28 VDC | 1.5 kΩ +20%, -10% * | |
| G3H-203SL | DC | 5 V | 4 to 6 VDC | 390 Ω ±20% | |
| 12 V | 9.6 to 14.4 VDC | 900 Ω ±20% | |||
| 24 V | 19.2 to 28.8 VDC | 2 kΩ ±20% | |||
| ○ | G3HD-X03S | 4 to 24 VDC | 3 to 28 VDC | 1.5 kΩ +20%, -10% * | |
Note: The input impedance is measured at the maximum operating voltage.
Applicable Input Impedance for a Photocoupler-type Solid-state Relays without Indicators (Typical Example)
G3F or G3H (No Indicators)
Applicable Input Impedance for a Photocoupler-type Solid-state Relays with Indicators (Typical Example)
G3B, G3F, or G3H (with Indicators)
