ARDUINO SOLENOID LOCK 12VDC 10mm
DC 12V Solenoid Electric Lock working principleThese Locks are basically electromagnets: they are m..
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- Brand: ATC
- Product Code:25020010
- Availability:Pre-Order
DC 12V Solenoid Electric Lock working principle
These Locks are basically electromagnets: they are made of a big coil of copper wire with an armature (a slug of metal) in the middle. When the coil is energized, the slug is pulled into the center of the coil and the cabinet/door is unlocked. When 12V power is removed, an internal spring pushes the slug out and the cabinet/door is locked again. This means that when activated with up to 12VDC, the solenoid moves and when the voltage is removed it springs back to the original position, which is quite handy.
This one even has nice mounting holes, it’s a great all-purpose solenoid. To drive a 12V lock from an Arduino or any other microcontroller, you will need a power transistor and a diode. You can also use our relay boards to control the lock from an Arduino. You will need a fairly good power supply to drive a lock, as a lot of current will rush into the lock to charge up the electro-magnet, so don’t try to power it with a 9V battery!
An intermittent duty solenoid is designed to be energized for no more than 30 seconds. The intermittent duty solenoid is used in a fail-secure(products are locked when power is removed. Power is applied to unlock the door) electric strike application.
Features:
Model DC 12V Cabinet Door Lock
Rated Operating Voltage 12(VDC)
Rated Current 600(mA)
Power Consumption 7.5(Watt)
Holding Force 2.45(N)
Unlocking Time 1 sec
Body Material Iron Metal
Energized forms Intermittent
Cable Length 26(cm)
Weight 150(gm)
Dimensions LxWxH 54 x 42 x 28(mm)
These Locks are basically electromagnets: they are made of a big coil of copper wire with an armature (a slug of metal) in the middle. When the coil is energized, the slug is pulled into the center of the coil and the cabinet/door is unlocked. When 12V power is removed, an internal spring pushes the slug out and the cabinet/door is locked again. This means that when activated with up to 12VDC, the solenoid moves and when the voltage is removed it springs back to the original position, which is quite handy.
This one even has nice mounting holes, it’s a great all-purpose solenoid. To drive a 12V lock from an Arduino or any other microcontroller, you will need a power transistor and a diode. You can also use our relay boards to control the lock from an Arduino. You will need a fairly good power supply to drive a lock, as a lot of current will rush into the lock to charge up the electro-magnet, so don’t try to power it with a 9V battery!
An intermittent duty solenoid is designed to be energized for no more than 30 seconds. The intermittent duty solenoid is used in a fail-secure(products are locked when power is removed. Power is applied to unlock the door) electric strike application.
Features:
Model DC 12V Cabinet Door Lock
Rated Operating Voltage 12(VDC)
Rated Current 600(mA)
Power Consumption 7.5(Watt)
Holding Force 2.45(N)
Unlocking Time 1 sec
Body Material Iron Metal
Energized forms Intermittent
Cable Length 26(cm)
Weight 150(gm)
Dimensions LxWxH 54 x 42 x 28(mm)
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