Smartcard controlled Lock with Relay
This design uses a smart card to enable a relay. A Nutchip recognizes its mating smart card among thousand similar ones, because you choose the code to be programmed in the card’s memory. No speacilized knowledge is necessary, as we supply the card program and codes. Nutchip truth table is simple as well, so you should be able to adapt it to your needs (e.g., adding more than one card, or timing the relay). Even in its actual form, the board is ready to work in many useful applications: open gates e.g. for park lots. access control to gyms, swimming pools, tennis play fields. switch on central heating or showers, or the football field lights. enable TV viewing, photocopyng, faxing, coffe machine use, telephones etc. ..
Read more source:http://www.nutchip.com/progetti/card/card_en.htm
Categories: Alarm systems, Electronic Control Tags: code lock circuit, relay driver circuit
iButton DS1990A Lock
This electronic lock can be used with any type of iButtons you may already have, since the only thing needed is the internal serial number, that’s different for every iButton. The command used to read the serial number is the same for all iButtons. The iButton family code that goes with every iButton, can be anything and is calculated as part of the whole serial number. We must also notice that DS1990A series iButtons are the cheapest. This electronic lock designed to work stand-alone and it’s easy to construct. What the user sees (outside of the door for example) is a iButton socket and a led. ..
Source: http://www.electronics-lab.com/projects/sensors/001/index.html
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Categories: Alarm systems, Electronic Control Tags: code lock circuit, Electronic lock switch, keypad lock circuit
Simple Combination Lock by IC 4017 74C14
This simple combination lock accommodates codes from 1-9 digits long, with the only restriction being that the same digit cannot be used twice. The circuit shows strapping for a 4-digit code, in this case “2057″. Any unused switches are strapped to ground. When power is applied, the 330nF capacitor connected to pin 1 of inverter IC1a is discharged, holding it at a logic low level. The high output is inverted by a second gate (IC1b), with the result being a logic low on pin 4. This pulls Q1’s emitter low via D1, causing the transistor to conduct. The falling voltage on the collector then pulls the input of IC1c low, which in turn resets counter IC2.
On reset, output O0 (pin 3) of IC2 goes high, charging the 330nF capacitor via D2 and the 33k? resistor. If switch S2 is now pressed, Q2′s emitter will be pulled high and so Q2 conducts, applying a rising positive voltage to one end of the 1M? resistor. This resistor and the 33nF capacitor act as a switch “debounce” circuit, delaying the pulse through IC1e by about 33ms. After the delay, the output of IC1e goes low. However, counter IC2 does not increment at this stage, since it needs a positive-going edge at the clock input (pin 14). When the switch is released, Q2 turns off, IC1e’s output goes high after the debounce period and the counter advances to the next state (ie. O0 goes low and O1 goes high).
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Author: Len Cox – Copyright: Silicon Chip Electronics
Source: http://www.extremecircuits.net/
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Categories: Circuit diagram, Digital, Electronic Control Tags: 74C14, code lock circuit, Electronic lock switch
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