Systemline S7 Wiring Diagram

[Charise Zelnick]

Atypical access control system set up will have these four main components: card reader/keypad, door contact, request to

exit and lock power device connectivity. What this composite cable does is to simply

The first number is the thickness of the cable - in our case this would be 18 gauge (thickness). The thickness is the most important factor of how long a cable run can be and how much amperage can be drawn.

Much like the door access control system diagram above, the mag lock wiring diagram relies on a few simple basics: electricity supply, switches, and, of course, locks. Magnetic locks, also referred to as mag locks or maglocks for short, rely on a constant flow of electricity to stay sealed. When that power is cut, the magnet essentially turns off, undoing the lock and allowing the door to open freely. This is triggered by readers that have granted access to a cardholder that has presented their badge. Unlocking the door will be as simple as tapping your phone or other credentials to the reader next to your door. The flow of electricity is only cut for a set amount of time, and after that period has passed, the magnets will attract each other again with such force that the door cannot be opened.

To correctly wire your maglock, make sure that you have attached the CAT6 cables to the readers and controllers, which are in turn connected to the internet switch. Power must be supplied to the door lock and the Kisi Pro Controller, which work to keep the magnetic lock turned on, as stated above. These power supplies should be separate from one another and should be attached to emergency backup power to protect against outages. See the maglock wiring diagram below to make sure that you have wired your access control system correctly.

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