Product Details Portlet

G7EB PCB Power Relay

High Power and high temperature type
Power Relay with 480 VAC 100 A current

  • 480 VAC/100 A high current switching capable
  • Ambient temperature 85°C
  • High impulse withstand voltage, 10 kV
  • Contact gap ≥3.6 mm (Applied to VDE0126)
  • Low initial contact resistance ≤5 mΩ
RoHS Compliant
Model 2D/3D CAD ECAD(Download symbol,FootPrint,3DCAD)
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G7EB-1A Download Download
G7EB-1AP1 Download Download
(*) Ultra Librarian uniquely created ECAD data based on the information provided by OMRON. Please note that OMRON does not guarantee the accuracy, concurrence or completeness of ECAD data.
Note: This web page provides an excerpt from a datasheet. Refer to Product Datasheet and other applicable documents for more information.
Terminal shape Contact form Enclosure rating Model Rated coil voltage (V) Minimum packing unit
Standard SPST-NO (1a) Flux protection G7EB-1A 12 VDC
24 VDC
Special G7EB-1AP1
Note. When ordering, add the rated coil voltage to the model number.
Example: G7EB-1A DC12 Rated coil voltage
Both the coil voltage on the product case and the packing will be marked as [][] VDC.
Rated voltage Rated current(mA) Coil resistance(Ω) Must operate voltage(V) Must release voltage(V) Max. voltage(V) Power consumption(mW)
% of rated voltage
12 VDC Approx. 235.3 51 75% max. * 5 to 32% 120%
(at 23°C)
Approx. 2,800
Approx. 575 *
24 VDC Approx. 116.5 206
Note 1. The rated current and resistance are measured at a coil temperature of 23°C with a tolerance of ±10%. Note 2. The operating characteristics are measured at a coil temperature of 23°C Note 3. The maximum permissible voltage is the maximum value of the fluctuation range for the relay coil operating power supply and was measured at an ambienttemperature of 23°C. Note 4. Use this relay with coil voltage reduction. * Power consumption with Holding Voltage is approx. 575 mW (when applying Holding Voltage at 45%). Please confirm the details in Precautions ●Coil Voltage Reduction (Holding Voltage) after Relay Operation. * Some mounting directions are not guaranteed. Please confirm the detail in Precautions ●Mounting Direction.
Item Resistive load
Contact type Double
Contact material Ag Alloy (Cd free)
Rated load 100 A at 480 VAC, 40A at 800 VAC
100 A at 60 VDC, 50 A at 60 VDC, 40 A at 60 VDC
Rated carry current 100 A
Max. switching voltage 800 VAC, 60 VDC
Max. switching current 100 A

Contact resistance *1 5 mΩ max.
Operate time *2 30 ms max.
Release time *2 10 ms max.
Insulation resistance *3 1,000 MΩ min.
Dielectric strength Between coil and contacts 5,000 VAC, 50/60 Hz for 1 min
Between contacts of the same polarity 2,000 VAC, 50/60 Hz for 1 min
Impulse withstand voltage Between coil and contacts 10 kV (1.2 × 50 μs)
Vibration resistance Destruction 10 to 55 to 10 Hz, 0.75 mm single amplitude (1.5 mm double amplitude)
Malfunction Excitation: 10 to 55 to 10 Hz, 0.75 mm single amplitude (1.5 mm double amplitude)
No excitation: 10 to 55 to 10 Hz, 1.5 mm single amplitude (0.3 mm double amplitude)
Shock resistance Destruction 1,000 m/s2
Malfunction Excitation: 100 m/s2
No excitation: 50 m/s2
Durability Mechanical 1,000,000 operations min. (at 10,800 operations/h)
Electrical (Resistive) *4 (1) 480 VAC 100 A 300 operations min.
(2) 800 VAC 40 A switch on, 100 A carry current,
   40 A switch off; 30,000 operations min.
(3) 60 VDC 100 A 400 operations min.
(4) 60 VDC 50 A 1,000 operations min.
(5) 60 VDC 40 A 6,000 operations min.
   (Switching frequency: 1 second ON - 9 seconds OFF at 85°C)
Failure rate (P level) (Reference value) *5 1 A at 5 VDC
Use conditions Coil holding voltage *6 45% to 65% of rated coil voltage
Ambient operating temperature -40°C to 85°C (with no icing or condensation)
Ambient operating humidity 5% to 85%
Weight Approx. 100 g
Note. The values given above are initial values at 23°C. (Except Electrical Durability) *1. Measurement conditions: 6 VDC, 20 A (after 5 seconds) voltage drop method. *2. Measurement conditions: Applied rated coil voltage, no contact bouncing. *3. Measurement conditions: Measured with a 1,000 VDC megohmmeter at the same point as the dielectric strength was measured. *4. This specification is when diode and zener diode are used. For relay coil, please connect diode and zener diode.
For more detail, please refer to ●Diode Connection for Operating Coil on Precautions.
*5. The value was measured at a switching frequency of 180 operations/ minute. *6. For the detail regarding holding voltage usage, please refer to ●Coil Voltage Reduction (Holding Voltage) after Relay Operation on Precautions.

Malfunction shock resistance

Malfunction shock resistance​​
Measure the value of contact malfunction happening by applying 3 axes with 6 direction 3 times each.
The energized voltage is within the range of the rated holding voltage.

Standard value:
Excitation 100 m/s2
No excitation 50 m/s2
Shock direction
Shock direction

(Unit: mm)

Standard type G7EB-1A
Standard type G7EB-1A

PCB Mounting Holes

PCB Mounting Holes

Terminal Arrangement/ Internal Connections
Terminal Arrangement/ Internal Connections

Special terminal type G7EB-1AP1
Special terminal type G7EB-1AP1

PCB Mounting Holes

PCB Mounting Holes

Terminal Arrangement/ Internal Connections

Correct Use

●Mounting Direction

  • ・ The relay is limited for mounting direction due to the specification of operation voltage and electrical durability.
    Do not use in any other direction except as indicated in below chart. There is a risk of reduced operational lifetime for failure to observe this warning.
Mounting Direction

●Coil Voltage Reduction (Holding Voltage) after Relay Operation

  • ・ Use this relay with coil voltage reduction.
  • ・ Apply the rated voltage for 0.1 to 3 seconds to the coil first.
  • ・ The range of coil rated voltage must be set as 100 to 120%, and holding voltage must be 45 to 65%. Do not exceed the ranges due to the change of coil voltage change and so on.
Coil Voltage Reduction (Holding Voltage) after Relay Operation
  Applied coil voltage Coil resistance * Coil power consumption
Rated voltage 100 to 120% 51 Ω (12 VDC)
206 Ω (24 VDC)
Approx. 2.8 to 4.0 mW
Holding voltage 45 to 65% Approx. 0.57 to 1.2 mW
* The coil resistances were measured at a coil temperature of 23°C with tolerances of ± 10%.

●Diode Connection for Operating Coil

  • ・ Connect diode or Zener diode (or Varistor) to the coil (refer to the picture below).
    Diode is for coil surge absorption. Ensure to include Zener diode as there is a possibility of any influence for switching capability when only using diodes.
  • ・ Coil has no polarity. Connect the diodes in the reverse polarity of the voltage applied to the coil.
  • ・ The recommended Zener diode voltage is 3 times that of the rated coil voltage.
  • ・ Use diodes with reverse dielectric strength 10 times or more that of coil rated voltage, and with forward current more than coil rated current.

●PCB Terminal soldering

  • ・ Solder at 290°C for 20 seconds (max.) in soldering bath.
  • ・ It is not possible to wash relay as this is not fully sealed type.


  • ・ To reduce the risk of specification deterioration, assemble relays in a dust free, low humidity and non-corrosive gas environment.
  • ・ Take care when mounting relays to utilize adequate anchorage on both sides of PCB to optimize heat transfer and reduce risk for both heat and mechanical stress.
  • ・ This product weight is about 100 g. Be careful of the strength of PCB. To reduce soldering crack due to heat stress, use both sides through hole PCB.


  • ・ Do not use relays in the event of any droppage.

●Electrical Endurance

  • ・As this relay is high voltage and high current type, there are increased risks of abnormal heat or smoke generation if you use in an application inconsistent with published specification. Use only within specified rating.
  • ・ This relay's electrical endurance specification is based on our company's standard test procedure with resistive loads.
    Relays intended for use with remove; types of drive circuits PWM, capacitive, resistive dropper etc.), types of loads (e.g. capacitive or inductive), and switching cycles (duty and operation timing) must be tested to confirm suitability to the actual intended application.
  • ・ The final failure mode is failure to break the circuit. In such a case, burning may extend to surrounding components. Implement safety circuits and other measures to minimize the risk of mechanical failure.
  • ・ Do not apply high current to this relay using copper probe or socket while pressure contact of terminals is insufficient. There is a risk of abnormal heat generation.
  • ・ Properly implement this relay onto a PCB before use. If not implemented securely, there is a risk of abnormal heat generation when high current is applied.

●Micro load

  • ・ This is a power relay for high power switching. Do not use for micro loads such as signal switching.