ELM334 データシートの表示（PDF） - Elm Electronics

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ELM334

Garage Doorman

Elm Electronics 

Example Applications (continued)

Figure 4 carries the circuit of Figure 3 a little

farther, creating an alarm type circuit. We have used a

dual red/green LED this time, and also connected the

green LED output to the pushbutton input. In this way,

a momentary opening of the door switch will create a

pushbutton input, when the green LED goes off. Once

the green LED is off, it will remain that way, even if the

door contact should close (as internally a pushbutton

input always forces the green LED off, and the red

LED on). Note that there will be a 0.5 second pulse at

the Control output (pin 5) when the door first opens -

this might be used to trigger an audible alarm.

This monitor circuit could be used for a door of any

type, not just a garage door. Perhaps a shed, or a

storage bin. A contact such as from a thermostat could

also be connected to warn that a temperature has

gone above or below a set limit. To reset this circuit

requires turning the power off then on.

The circuits so far have used a battery to supply

power. The problem with this is that a pair of AA cells

will only last a week or two in such an application. To

avoid always having to monitor the monitor, it would be

good to power the circuit from a different supply that is

derived from the main AC service. Figure 5 on the next

page shows a circuit that assumes you are able to

obtain 12V from a source (most likely an AC adapter).

This allows generating a 5V supply for the ELM334

while also providing a higher voltage that is suitable for

driving a relay (from the Control output).

Operation of the LED portion of Figure 5 is very

similar to the previous circuits, except that we have

now added a switch to indicate that the door is fully

open. The position sensing switches (possibly

magnetic reeds) are connected to the 5.1KΩ pullup

resistors in order to provide a full logic swing input to

the ELM334 as they operate. The 2.2KΩ series

resistors provide some protection for the chip as the

wires to the switches are likely to be lengthy, and

susceptible to induced voltages and currents. After

processing, the appropriate voltages appear at pins 2

and 3, driving the LEDs through the 150Ω current

limiting resistors. Since the supply is now 5V, we have

increased the LED resistors slightly in order to

maintain roughly the same current.

The control portion of the circuit may appear to be

a little odd-looking at first. To understand its operation,

note that one of the two driven LEDs is always on,

whether flashing or solid. Due to the connection of the

two NPN transistors then, one of the NPNs is always

biased on, keeping the PNP on, and pin 4 of the

ELM334 at 5V. When the remote pushbutton is

pressed, the LED circuit is shorted out, and neither

NPN can conduct. The PNP thus shuts off, and pin 4

of the IC drops to 0V, its active level. With the PB input

active, a pulse is output at pin 5, causing the relay to

pick up for 0.5 seconds.

Although this circuit was designed to monitor

doors, there are likely to be many other applications

that it can be adapted to. Monitoring thermostats, or

light levels, or water levels, for example.

green

3V

100Ω

red 100Ω

+3V

0.1µF

1

8

2

7

3

6

4

5

+3V

5.1KΩ

2.2KΩ

door

closed

Figure 4. A Remote Monitor with Memory

ELM334DSC

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