Product Details Portlet

G6E Low Signal Relay

Subminiature, Sensitive SPDT Signal Switching Relay

  • High sensitivity: 98-mW (Rated power consumption:
    200mW) pickup coil power.
  • Impulse withstand voltage of 1,500V (10×160 νs) meets
    FCC requirements.
  • Stick packing employed in consideration of supporting
    automatic implementation.
  • Plastic-sealed model that allows automatic soldering.
  • New series of ultrasonically cleanable models is available.
  • Standard model conforms to UL/CSA standards.
RoHS適合
Model 2D/3D CAD
Download
G6E-134P-US Download
G6E-134P-US-U Download
G6E-134PL-US-U Download
G6EK-134P-US Download
G6EK-134P-US-U Download
G6EK-134PL-US Download
G6EU-134P-US Download
G6EU-134P-US-U Download
本ページは製品カタログからの抜粋した情報を記載しています。その他の製品情報はデータシート他各種データをご覧ください。
●Standard Models (UL, CSA certified)
Relay Function

Classification


Contact form  
Single-side
stable
Single
-winding latching
Double
-winding latching
Minimum
packing
unit
Standard Low
-sensitivity
Standard Standard Low
-sensitivity
Model Rated coil
voltage
Model Rated coil
voltage
Model Rated coil
voltage
Model Rated coil
voltage
Model Rated coil
voltage
SPDT (1c) G6E
-134P-US
5 VDC G6E
-134PL-US
5 VDC G6EU
-134P-US
5 VDC G6EK
-134P-US
5 VDC G6EK
-134PL-US
5 VDC 25 pcs/tube
6 VDC 6 VDC 6 VDC 6 VDC 6 VDC
9 VDC 9 VDC 9 VDC 9 VDC
12 VDC 12 VDC 12 VDC 12 VDC 12 VDC
24 VDC 24 VDC 24 VDC 24 VDC 24 VDC
48 VDC

●Models for Ultrasonically Cleanable
Relay Function

Classification


Contact form  
Single-side stable Single-winding latching Double-winding latching Minimum packing unit
Standard Low-sensitivity Standard Standard
Model Rated coil
voltage
Model Rated coil
voltage
Model Rated coil
voltage
Model Rated coil
voltage
SPDT (1c) G6E
-134P-US-U
5 VDC G6E
-134P-US-U
5 VDC G6EU
-134P-US-U
5 VDC G6EK
-134P-US-U
5 VDC 25 pcs/tube
6 VDC
DC9
12 VDC 12 VDC 12 VDC 12 VDC
24 VDC 24 VDC 24 VDC
48 VDC
Note: When ordering, add the rated coil voltage to the model number.
 
  However, the notation of the coil voltage on the product case as well as on the packing will be marked as □□ VDC.
Coil Ratings
Single-side Stable, Bifurcated Crossbar Contact Type
Classification 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
Standard 5 VDC 40.0 125 70% max. 10% min. 190%
(at 23°C)
Approx. 200
6 VDC 33.3 180
9 VDC 22.2 405
12 VDC 16.7 720
24 VDC 8.3 2,880
48 VDC 8.3 5,760 170%
(at 23°C)
Approx. 400
Low-sensitivity 5 VDC 79.4 63 70% max. 10% min. 170%
(at 23°C)
Approx. 400
6 VDC 66.6 90
9 VDC 44.3 203
12 VDC 33.3 360
24 VDC 16.7 1,440

Single-winding Latching, Bifurcated Crossbar Contact Type
Contact type 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 Set coil (mW) Reset coil (mW)
Bifurcated
crossbar
5 VDC 40.0 125 70% max. 70% max. 190%
(at 23°C)
Approx. 200 Approx. 200
6 VDC 33.3 180
9 VDC 22.2 405
12 VDC 16.7 720
24 VDC 8.3 2,880

Double-winding Latching, Bifurcated Crossbar Contact Type
Classification Rated voltage Rated
current
(mA)
Coil
resistance
(Ω)
Must operate
voltage
(V)
Must release
voltage
(V)
Max.
voltage
(V)
Power
consumption
(mW)
Set coil Reset coil Set coil Reset coil % of rated voltage Set coil (mW) Reset coil (mW)
Standard 5 VDC 40.0 40.0 125 125 70% max. 70% max. 190%
(at 23°C)
Approx. 200 Approx. 200
6 VDC 33.3 33.3 180 180
9 VDC 22.2 22.2 405 405
12 VDC 16.7 16.7 720 720
24 VDC 8.3 8.3 2,880 2,880
Low-sensitivity 5 VDC 79.4 79.4 63 63 70% max. 70% max. 170%
(at 23°C)
Approx. 400 Approx. 400
6 VDC 66.6 66.6 90 90
9 VDC 44.3 44.3 203 203
12 VDC 33.3 33.3 360 360
24 VDC 16.7 16.7 1,440 1,440
Note: 1. The rated current and coil resistance are measured at a coil temperature of 23ºC with a tolerance of ±10%.
  2. Operating characteristics are measured at a coil temperature of 23ºC.
  3 The maximum voltage is the highest voltage that can be imposed on the relay coil.
  4 Refer to the engineering data for relations between the ambient temperature and maximum coil voltage.

Contact Ratings
Load
Item
Resistive load cosφ = 0.4; L/R = 7 ms)
Contact type Bifurcated crossbar
Contact material Ag (Au-Alloy)
Rated load 0.4 A at 125 VAC;
2 A at 30 VDC
0.2 A at 125 VAC;
1 A at 30 VDC
Rated carry current 3 A
Max. switching voltage 250 VAC, 220 VDC
Max. switching current 3 A


Characteristics
Item Relay Function Single-side Stable Single-winding Latching Double-winding Latching
Contact resistance 50 mΩ max.
Operate (set*) time 5 ms max.
Release (reset*) time 5 ms max.
Min. set pulse width - 15 ms
Min. reset pulse width - 15 ms
Insulation resistance *2 1,000 MΩ min. (at 500 VDC)
Impulse withstand
voltage
Between coil and contacts 2,500 V (10×160 νs) (conforms to FCC part 68)
Between contacts of same polarity 1,500 V (10×160 νs) (conforms to FCC part 68)
Dielectric strength Between coil and contacts 1,500 VAC, 50/60 Hz for 1 min
Between contacts of same polarity 1,000 VAC, 50/60 Hz for 1 min
Vibration resistance Destruction 10 to 55 to 10 Hz, 2.5 mm single amplitude (5 mm double amplitude)
Malfunction 10 to 55 to 10 Hz, 1.65 mm single amplitude (3.3 mm double amplitude)
Shock resistance Destruction 1,000 m/s2
Malfunction 300 m/s2
Endurance Mechanical 100,000,000 operations min. (at 36,000 operations/hr)
Electrical
100,000 operations min. (0.4 A at 125 VAC resistive load; 0.2 A at 125 VAC inductive load)(at 1,800 operations/hr)
500,000 operations min. (2 A at 30 VDC resistive load; 1 A at 30 VDC inductive load)(at 1,800 operations/hr)
200,000 operations min. (3 A at 30 VDC resistive load) (at 1,800 operations/hr)
Failure rate (P level) (reference value) *3 10 νA at 10 mVDC
Ambient operating temperature -40°C to 70°C (with no icing or condensation)
Ambient operating humidity 5% to 85%
Weight Approx. 2.7 g
Note:   The values here are initial values.
  1. The contact resistance was measured with 1 A at 5 VDC using a voltage-drop method.
  2. The insulation resistance was measured with a 500 VDC Megger Tester applied to the same parts as those used for checking the dielectric strength.
  3. This value was measured at a switching frequency of 120 operations/min and the criterion of contact resistance is 50 Ω.
This value may vary depending on the switching frequency and operating environment. Always double-check relay suitability under actual operating conditions.
SIngle-side-stable
G6E-134P-US
G6E-134PL-US
G6E-134P-US-U
G6E-134PL-US-U

G6E:Dimensions1  
PCB Mounting Holes
(Bottom View)Tolerance:±0.1
g6e
note
Terminal Arrangement/
Internal Connections

(Bottom VIEW)
G6E:Dimensions2

Single-winding-latching
G6EU-134P-US
G6EU-134P-US-U

G6E:Dimensions7  
PCB Mounting Holes
(Bottom View)Tolerance:±0.1
g6e
note
Terminal Arrangement/
Internal Connections

(Bottom VIEW)
G6E:Dimensions8

Double-winding latching
G6EK-134P-US
G6EK-134PL-US
G6EK-134P-US-U

G6E:Dimensions13  
PCB Mounting Holes
(Bottom View)Tolerance:±0.1
g6e
note
Terminal Arrangement/
Internal Connections

(Bottom VIEW)
G6E:Dimensions14

Precautions for Correct Use

●Long-term Continuously ON Contacts

•Using the Relay in a circuit where the Relay will be ON continu- ously for long periods (without switching) can lead to unstable contacts because the heat generated by the coil itself will affect the insulation, causing a film to develop on the contact surfaces. We recommend using a latching relay (magnetic-holding relay) in this kind of circuit. If a single-side stable model must be used in this kind of circuit, we recommend using a fail-safe circuit design that provides protection against contact failure or coil burnout.

●Mounting

•Do not reverse the polarity of the coil (+, -). Provide sufficient space between Relays when mounting two or more on the same PCB, as shown in the following diagram.

•Provide sufficient space between Relays when mounting two or more on the same PCB, as shown in the following diagram.

●Wiring

•Refer to the following diagram when wiring to switch a DC load. The difference in polarity applied to the contacts will affect the endurance of the Relay due to the amount of contact movement. To extend the endurance characteristics beyond the performance ratings, wire the common (pin 7) terminal to the positive (+) side.

●Ultrasonic Cleaning

•Do not use ultrasonic cleaning on standard relay models. Doing so may result in resonance, coil burnout, and contact adhesion within the Relay. Use a model designed for ultrasonic cleaning if ultrasonic cleaning is required.

●Relay Handling

•When washing the product after soldering the Relay to a PCB, use a water-based solvent or alcohol-based solvent, and keep the solvent temperature to less than 40℃. Do not put the Relay in a cold cleaning bath immediately after soldering.