Product Details:
Payment & Shipping Terms:
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Other Name: | Sealed Relay | Contact Ratings: | 16A 240VAC |
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Max.switching Voltage: | 250VAC/110VDC | Max.switching Current: | 16A |
Max.switching Power: | 4000VA/480W | Initial Contact Resistance: | 100mΩMax At 6VDC 1A |
Life Expectancy Electrical: | 100,000 Operations(rated Load) | Contact Material: | Ag Alloy |
High Light: | electromagnetic power relay,miniature signal relay |
Sealed power relay 14F2 ( OMRON G2R-E) 8pin 16A, 29*12.6*20.6cm
Description:
A relay is an electromagnetic switch operated by a relatively small electric current that can turn on or off a much larger electric current. The heart of a relay is an electromagnet (a coil of wire that becomes a temporary magnet when electricity flows through it). You can think of a relay as a kind of electric lever: switch it on with a tiny current and it switches on ("leverages") another appliance using a much bigger current. Why is that useful? As the name suggests, many sensors are incredibly sensitive pieces of electronic equipment and produce only small electric currents. But often we need them to drive bigger pieces of apparatus that use bigger currents. Relays bridge the gap, making it possible for small currents to activate larger ones. That means relays can work either as switches (turning things on and off) or as amplifiers (converting small currents into larger ones).
Applications:
Relays are used wherever it is necessary to control a high power or high voltage circuit with a low power circuit, especially when galvanic isolation is desirable. The first application of relays was in long telegraph lines, where the weak signal received at an intermediate station could control a contact, regenerating the signal for further transmission. High-voltage or high-current devices can be controlled with small, low voltage wiring and pilots switches. Operators can be isolated from the high voltage circuit. Low power devices such as microprocessors can drive relays to control electrical loads beyond their direct drive capability. In an automobile, a starter relay allows the high current of the cranking motor to be controlled with small wiring and contacts in the ignition key.
General data:
Contact form | 1A/1C |
Insulation resistance | 100MΩMin at500VDC |
Dielectric strength between open contacts | 1000VAC 50-60HZ(1 minute) |
Dielectric strength between contacts and coil | 5000VAC 50-60HZ(1 minute) |
Operate time | 15ms max. |
Release time | 8ms max. |
Ambient temperature | -30°C ~ +70°C |
Shock resistance-Malfuction | 10G |
Shock resistance-Destruction | 100G |
Vibration resistance | 10-55Hz,1.5mm double amplitude |
Ambient humidity | 20-85% RH |
Weight | Approx 13g |
Safety standard | TUV,CE |
Coil data (@20°C)
Rated voltage (VDC) |
Coil Resistance Ω(±10%) |
Max Operate Voltage (VDC) | Min Release Voltage (VDC) | Max Applied Voltage (VDC) | |
0.53W | 0.72W | ||||
3 | 17 | 12.5 | 2.4 | 0.15 | 3.9 |
5 | 50 | 36 | 4 | 0.25 | 6.5 |
6 | 68 | 50 | 4.8 | 0.3 | 7.8 |
9 | 155 | 115 | 7.2 | 0.45 | 11.7 |
12 | 270 | 200 | 9.6 | 0.6 | 15.6 |
24 | 1100 | 820 | 19.2 | 1.2 | 31.2 |
48 | 4400 | 3300 | 38.4 | 2.4 | 62.4 |
Outline dimension(mm):
PCB board layout and Wiring diagram:
Contact Person: Mr. Roy Zhang
Tel: 86 574 56807757
Fax: 86-574-55844980