Home Electrical Device Control HOWTO
Rui Li
<ruili@worldnet.att.net>
Joy Yokley - Coverted document from Linuxdoc to DocBook v4.1 (SGML).
2003-02-08
Revision History
Revision 0.008 2003-02-08 Revised by: Goldencat
Revision 0.007 2002-02-12 Revised by: RL
Revision 0.006 2001-06-27 Revised by: JEY
Revision 0.005 2001-06-13 Revised by: RL
Revision 0.004 2001-06-12 Revised by: JEY
This HOWTO will tell you how to use Linux to control your home electrical
devices. You will only need to make a very simple circuit to control almost
any kind of electrical device using Linux!
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Table of Contents
1. Introduction
2. System Requirement
3. Electronic Circuit
4. Examples of Relays
5. Special Thanks
6. Copyright and License
1. Introduction
Many people asked me, "Is it possible to control some electrical stuff [e.g.
lights, radio, tv, etc.] by using a home computer?" The answer is YES. The
process is very easy, and anyone can do it.
After I read the Coffee Machine Mini-HOWTO, I got an idea of how to control
my home electrical appliances. I made some modifications on the circuit
discussed in that Coffee Machine Mini-HOWTO, and wrote a simple program. The
circuit can control many small electrical devices.^_^ You can use crontab to
set your lights to come on automatically or to turn on your airconditioner. I
use it to control my VCR and VCD ( I do still need some modification on VCR/
VCD). By writing a simple program, you can control everything over the web.
You can use telnet with SSH and your telephone dial in to control all the
appliances you have on the circuit.
This circuit is VERY SIMPLE. Even if you don't know anything about circuits,
you can set up this circuit.
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2. System Requirement
Get any computer that is running Linux and has a working parallel port. :)
I'm using a 386DX with 4MB RAM 40MB HD. You will need gcc to compile the
program. If you want to use telnet or SSH, you will also need telnetd or sshd
. You can write your own program by using ioperm and outb. If you would like
to use my program, you will need g++.
Click the following link to download my program. You will need g++ to compile
it. [http://edc.sourceforge.net/paralle.tar.gz] edc.sourceforge.net/
paralle.tar.gz.
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3. Electronic Circuit
The data line of the parallel port can provide between 0 and 5 volts.
Therefore, we can use this line to control a relay and let that relay control
an electrical device.
Use pins 2 through 9 to get +5V
Use pins 18 through 25 as the Ground
____________________________________________________________
/ \
\ 13 12 11 10 9 8 7 6 5 4 3 2 1 /
\ /
\ 25 24 23 22 21 20 19 18 17 16 15 14 /
\______________________________________________________/
| Vcc for Relay
|
|
/ -------+--------| |---------|
P data 4.7K B / c | 1N4002 |_| |-------
-----------/\/\/\/\---------+-----| NPN _____ | relay |home device
| \ e /_\ |-| |-------
LED X \ +--------| |---------|
P Ground | | |
----------------------------+-------+--------+
Relay Ground |
---------------------------------------------+
Below is the key to the diagram above:
P data parallel port data line(pin 2 to pin 9, use any)
P Ground parallel port ground (pin 18 to pin 25, use any)
Vcc depends on the type of your relay. I'm using 12VDC
Relay Ground the ground for 12VDC
4.7k 4.7K resistor
NPN C2235 NPN transistor
1N4002 1N4002 diode
LED light emitting diode
relay a coil relay
+5 volts from parallel port will turn on the relay. Once the relay is on, the
device connected to that relay will be on. When the parallel port's data line
goes back to 0, it will turn off the relay, and device is off.
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4. Examples of Relays
The diagrams below are used to explain how relays work.
The relay itself is just a switch as seen in the diagram below:
relay power off relay power on
|3 |3
| |
| |
o o
\ |
o \ o
| |
| |
| |
|4 |4
The diagram below demonstrates the setup of a 4 pin relay.
____________________________
| |
1 | | 3
-----|---------s o----------|-------
| coil s \switch |
2 | s \ | 4
-----|---------s o- \-------|-------
| |
| |
| |
|__________________________|
In the diagram above, pin 3 and pin 4 are disconnected by default. When you
send +12V between pin 1 and pin 2, it will turn on a switch, and pin 3 and 4
are now connected.
The following is a 5 pin relay:
_______________________________
| |
1 | | 5
---------|---+ o------------|----------------
| |-----------/---- s |
| / s |
3 | / s |
---------|-----------o/ coil s | 4
| o---s-------|----------------
| | |
| | |
2 | | |
----------|---------------------+ |
|_____________________________|
In the above diagram pin 3 is connected to pin 5, by default. By sending +12V
between pin 1 and pin 2, you will will turn on a switch. Pin 1 and pin 2 will
disconnect, and pin 5 and pin 4 will connect.
relay power off relay power on
|5 |5
| |
| |
o o
\ |
o \ o o
| o | |
| | | |
| | | |
4| |3 4| |3
Some relays may have more that 5 pins. More pins just means there are more
switches.
I wrote a simple program that can control 8 relays. The program is available
at the following location and will need g++ in order to be able to use this
program. [http://edc.sourceforge.net/paralle.tar.gz] http://
edc.sourceforge.net/paralle.tar.gz
A complete circuit can control up to eight relays, that means that a complete
circuit can control eight different devices. You will need a DB25 connector.
Using a parallel switch cable, connect this relay board to your computer. I
put the relay board in a box and use a parallel switch cable to connect it to
my Linux box:
Panel: LED, Switch Back: DB25 connector
Below is an example of how a relay board would connect with your electrical
device:
CONNECTED RELAY BOARD
+-----+ power outlet
1 _______3 | __|________ || ||
--| |---------+ | | | || ||
2 |relay|4 | (o) (o) | _||___||__
--|_____|----+ |------|---| | |
| | | |
| +------------+ | | plug
ground | | hot | |
| | | |
__|_|__ | |
| | | | |________|
| | | | plug
| | | |
|_|_|_| (i know it doesn't look like a plug, but it's a plug :-) )
|| ||
|| ||
To connect the system, just connect your home electrical device to the power
outlet. That is it! You don't need to make any change on the electrical
device. And you can connect any kind of device to that power outlet. Plug
this power outlet into any wall outlet.
To see photos of what the finished product looks like, go to the following
sites:
* [http://edc.sourceforge.net/p1.jpg] http://edc.sourceforge.net/p1.jpg
* [http://edc.sourceforge.net/p2.jpg] http://edc.sourceforge.net/p2.jpg
* [http://edc.sourceforge.net/p3.jpg] http://edc.sourceforge.net/p3.jpg
The following URL shows a complete electronic circuit (control 8 devices):
[http://edc.sourceforge.net/01.png] http://edc.sourceforge.net/01.png
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5. Special Thanks
Special thanks to Rufus Chang [mailto:rufus@chu.url.com.tw]
rufus@chu.url.com.tw.
Special thanks to Chih-Wei Huang [mailto:cwhuang@linux.org.tw]
cwhuang@linux.org.tw.
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6. Copyright and License
Copyright Rui Li 2000-2001. License is GNU GPL, but it is requested that you
retain the author's name and email on all copies. Please keep my name and
e-mail address when you are copying this HOWTO.
