Showing posts with label alarm. Show all posts
Showing posts with label alarm. Show all posts

Simple Cmos Motorcycle Alarm Circuit Diagram

Friday, September 19, 2014 | Labels: , , , , , | 0 comments |
This Simple Cmos Motorcycle Alarm Circuit Diagram features an intermittent siren output and automatic reset. It can be operated manually using a key-switch or a hidden switch; but it can also be wired to set itself automatically when you turn-off the ignition. By adding external relays you can immobilize the bike - flash the lights etc.

Cmos Motorcycle Alarm Schematic Diagram

Cmos Motorcycle Alarm Circuit Diagram

Notes
Any number of normally-open switches may be used. Fit "tilt" switches that close when the steering is moved or when the bike is lifted off its side-stand or pushed forward off its centre-stand. Use micro-switches to protect removable panels and the lids of panniers etc.

Once activated - the rate at which the siren switches on and off is controlled by R9 & C5. For example - increasing the value of C5 will slow it down - while reducing the value of R9 will make it faster.

While at least one switch remains closed the siren will sound. About thirty seconds after all of the switches have been opened, the alarm will reset. How long it takes to switch off depends on the characteristics of the actual components used. You can adjust the time to suit your requirements by changing the value of R6 and/or C4.

The circuit is designed to use an electronic Siren drawing 300 to 400mA. Its not usually a good idea to use the bikes own Horn because it can be easily located and disconnected. However, if you choose to use the Horn, remember that the alarm relay is too small to carry the necessary current. Connect the coil of a suitably rated relay to the "Siren" output. This can then be used to sound the Horn - flash the lights etc.

The circuit board and switches must be protected from the elements. Dampness or condensation will cause malfunction. Connect the 1-amp in-line fuse AS CLOSE AS POSSIBLE to your power source. This is VERY IMPORTANT. The fuse is there to protect the wiring - not the alarm. Exactly how the system is fitted will depend on the make of your particular machine - so Im unable to provide any further help or advice in this regard.

The quiescent (standby) current of the circuit is virtually zero - so there is no drain on the battery. If you want to operate the alarm manually use a key-switch or a hidden switch connected to the "off/set" terminals. For automatic operation connect a wire from the ignition circuit to the "ignit" terminal. Then every time you turn-off the ignition - the alarm will set itself. Remember that this wire from the ignition switch is not protected by your 1-amp inline fuse. So unless its run is very short - fit the wire with its own 1-amp fuse as close as possible to its source.

When you set the alarm - if one of the switches is closed - the siren will sound. This could cause annoyance late at night. A small modification will allow you to Monitor The State Of The Switches using LEDs. When the LEDs are all off - the switches are all open - and its safe to turn the alarm on.

Veroboard Layout

Cmos Motorcycle Alarm Circuit Diagram

 

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Simple Photodiode Alarm Circuit Diagram

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Motorcycle Alarm With Transistor Circuit Diagram

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This is a simple Motorcycle Alarm With Transistor Circuit Diagram. Its designed to work at 12-volts. But - if you change the relay for one with a 6-volt coil - itll protect your "Classic Bike". The standby current is virtually zero - so it wont drain your battery.

Motorcycle Alarm With Transistor Circuit Diagram

Motorcycle Alarm With Transistor Circuit Diagram

Any number of normally-open switches may be used. Fit the mercury switches so that they close when the steering is moved or when the bike is lifted off its side-stand or pushed forward off its centre-stand. Use micro-switches to protect removable panels and the lids of panniers etc. While at least one switch remains closed - the siren will sound.

About one minute after all of the switches have been opened again - the alarm will reset. How long it takes to switch off depends on the characteristics of the actual parts youve used. You can adjust the time to suit your requirements by changing the value of C1 and/or R3.

The circuit is designed to use an electronic Siren drawing 300 to 400mA. Its not usually a good idea to use the bikes own Horn because it can be easily located and disconnected. However, if you choose to use the Horn, remember that the alarm relay is too small to carry the necessary current. Connect the coil of a suitably rated relay to the Siren output - and use its contacts to sound the horn.

The circuit board and switches must be protected from the elements. Dampness or condensation will cause malfunction. Without its terminal blocks, the board is small. Ideally, you should try to find a siren with enough spare space inside to accommodate it. Fit a 1-amp in-line fuse as close as possible to the power source. This is Very Important. The fuse is there to protect the wiring - not the circuit board. Instead of using a key-switch you can use a hidden switch; or you could use the normally-closed contacts of a small relay. Wire the relay coil so that its energized while the ignition is on. Then every time you turn the ignition off - the alarm will set itself.

When its not sounding, the circuit uses virtually no current. This should make it useful in other circumstances. For example, powered by dry batteries and with the relay and siren voltages to suit, it could be fitted inside a computer or anything else thats in danger of being picked up and carried away. The low standby current and automatic reset means that for this sort of application an external on/off switch may not be necessary.

When you set the alarm - if one of the switches is closed - the siren will sound. This could cause annoyance late at night. A small modification will allow you to Monitor The State Of The Switches using LEDs. When the LEDs are all off - the switches are all open - and its safe to turn the alarm on.

Veroboard Layout

Veroboard Layout

 

 

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latest Door Knob Touch Alarm circuit schematic with explanation

Wednesday, June 12, 2013 | Labels: , , , , , , , , | 0 comments |
Door Knob Touch Alarm circuit diagram

This is door knob touch alarm for your home security purpose. The alarm will be activated when someone touch the metal door knod. This circuit won’t work on full metal door.


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easy build motocycle alarm circuit Schematic with explanation

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The following circuit is a simple, cheap and easy build motorcycle alarm. The circuit just required 2 transistors to drive the relay the the relay act as a switch to activate the buzzer.

easy build motocycle alarm circuit Schematic with explanation

Any number of normally-open switches may possibly be applied. Fit the mercury switches to ensure that they close when the steering is moved or when the bike is lifted off its side-stand or pushed forward off its centre-stand. Use micro-switches to secure removable panels as well as the lids of panniers and so on. Although at the very leastonce again – the alarm will reset. How lengthy it takes to switch off depends upon the characteristics of the actual parts you have utilized. You are able to adjust the time to suit your requirements by changing the value of C1 and/or R3.

easy build motocycle alarm component

The circuit board and switches need to be protected from the elements. Dampness or condensation will trigger malfunction. With out its terminal blocks – the board is small. Ideally, you need to attempt to locate a siren with sufficient spare space inside to accommodate it. Fit a 1-amp in-line fuse as close as achievable to the power source. This is Extremely Crucial. The fuse is there to secure the wiring – not the circuit board. Rather than utilizing a key-switch you’ll be able to use a hidden switch; or you could use the normally-closed contacts of a tiny relay. Wire the relay coil to ensure that it is energized whilst the ignition is on. Then each and every time you turn the ignition off – the alarm will set itself.

When it is not sounding – the circuit uses practically no present. This need to make it helpful in other circumstances. For instance, powered by dry batteries and using the relay and siren voltages to suit, it might be fitted inside a personal computer or anything else that is in danger of becoming picked up and carried away. The low standby electric current and automatic reset indicates that for this sort of application an external on/off switch might not be essential.

Easy build motorcycle alarm circuit source: www.zen22142.zen.co.uk

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Zero degree Celsius alarm

Tuesday, May 14, 2013 | Labels: , , , | 0 comments |
This is a circuit of Zero degree Celsius alarm . this is very useful circuit for all.Because we all can get different uses from this circuit.When you fix this circuit You have to face to a problem it is none but the power supply.Here I have given a power supply so you can avoid that problem.

Power supply

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