Hi there, I was searching the web for a way to allow me to control electrical appliances using PC and I found it here. Here is a circuit (figure 1) for using the printer port of a PC, for control application using software and some interface hardware. The interface circuit along with the given software can be used with the printer port of any PC for controlling up to eight equipments.
The interface circuit shown in figure 1 is drawn for only one device, being controlled by D0 bit at pin 2 of the 25-pin parallel port. Identical circuits for the remaining data bits D1 through D7 (available at pins 3 through 9) have to be similarly wired. The use of opto-coupler ensures complete isolation of the PC from the relay driver circuitry.
Parallel port is a simple and inexpensive tool for building computer controlled devices and projects. The simplicity and ease of programming makes parallel port popular in electronics hobbyist world. The parallel port is often used in computer controlled robots, Atmel/PIC programmers, home automation, ...etc... Here is a simple tutorial on parallel port interfacing and programming, with some examples.
Everybody knows what is parallel port, where it can be found, and for what it is being used. The primary use of parallel port is to connect printers to the computer and is specifically designed for this purpose. Thus it is often called as printer Port or Centronics port (this name came from a popular printer manufacturing company 'Centronics' which devised some standards for parallel port). You can see the parallel port connector in the rear panel of your PC. It is a 25 pin female (DB25) connector (to which printer is connected). On almost all the PCs only one parallel port is present, but you can add more by buying and inserting ISA/PCI parallel port cards.
Parallel port modes
The IEEE 1284 Standard which has been published in 1994 defines five modes of data transfer for parallel port. They are:
- Compatibility Mode
- Nibble Mode
- Byte Mode
The programs, circuits, and other information found in this tutorial are compatible to almost all types of parallel ports and can be used without any problems (Not tested, just because of confidence!).
The pin outs of DB25 connector is shown in the picture below:
The lines in DB25 connector are divided into three groups, they are:
- Data lines (data bus)
- Control lines
- Status lines
As the name refers, data is transferred over data lines. Control lines are used to control the peripheral, and of course, the peripheral returns status signals back to the computer through Status lines. These lines are connected to Data, Control And Status registers internally. The details of parallel port signal lines are given below:
|Pin No (DB25)||Signal name||Direction||Register - bit||Inverted|
Parallel port registers
As you know, the Data, Control and Status lines are connected to there corresponding registers inside the computer. So, by manipulating these registers in program, one can easily read or write to parallel port with programming languages like 'C' and BASIC.
The registers found in a standard parallel port are:
- Data register
- Status register
- Control register
As their names specify, Data register is connected to Data lines, Control register is connected to Control lines and Status register is connected to Status lines. (Here the word connection does not mean that there is some physical connection between data/control/status lines. The registers are virtually connected to the corresponding lines.) So, whatever you write to these registers will appear in the corresponding lines as voltages. Of course, you can measure it with a multimeter. And whatever you give to Parallel port as voltages can be read from these registers (with some restrictions). For example, if we write '1' to Data register, the line Data0 will be driven to +5v. Just like this, we can programmatically turn on and off any of the Data lines and Control lines.
Where these registers are?
In an IBM PC, these registers are IO mapped and will have an unique address. We have to find these addresses to work with the parallel port. For a typical PC, the base address of LPT1 is 0x378 and of LPT2 is 0x278. The Data register resides at this base address, Status register at base address + 1 and the control register is at base address + 2. So, once we have the base address, we can calculate the address of each register in this manner. The table below shows the register addresses of LPT1 and LPT2.
|Data register (baseaddress + 0)||0x378||0x278|
|Status register (baseaddress + 1)||0x379||0x279|
|Control register (baseaddress + 2)||0x37a||0x27a|
Using the code
I will use Inpout32.dll (or hwinterface.ocx) for Win 98/NT/2000/XP. This DLL has the following features:
- Works seamless with all versions of Windows (Win 98, NT, 2000 and XP)
- Using a kernel mode driver embedded in the DLL
- No special software or driver installation required
- Driver will be automatically installed and configured automatically when the DLL is loaded
- No special APIs required, only two functions
- Can be easily used with VC++ and VB or C#.
The above code reads the value from port 0x378 (888 decimal) and then OR with value 2. This code will send value 1 to D1.
For a value=0, all the outputs (D0-D7) are off. For value=1, D0 is ON, value=2 D1 is ON, value=4 D2 is ON, and so on. E.g., if value=29 (decimal) = 00011101 (binary) -> D0, D2, D3, D4 are ON and the rest are OFF.
Points of Interest
You can use voice recognition (or DTMF) to control your house by this method (Smart House).
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