Electronic Components can be classified as passive, and active

• Active components rely on a source of energy (usually from the DC circuit, which we have chosen to ignore) and usually can inject power into a circuit, though this is not part of the definition.[1] Active components include amplifying components such as transistors, triode vacuum tubes (valves), and tunnel diodes.
• Passive components cannot introduce net energy into the circuit. They also cannot rely on a source of power, except for what is available from the (AC) circuit they are connected to. As a consequence they cannot amplify (increase the power of a signal), although they may increase a voltage or current (such as is done by a transformer or resonant circuit). Passive components include two-terminal components such as resistors, capacitors, inductors, and transformers.

Main Parts of PLC

PLC has mainly three parts,

1.      CPU or Central Processing Unit

2.      Input Module and Output Module

3.      Programming device

Generally, microcontroller or microprocessor is used in Programmable Logic Controller and they are programmed by an external computer. After installing the appropriate program, PLC works.

PLC Working Procedure

Now, let's discuss each block of the Programmable Logic Control circuits which will help you to understand the working principle of PLC.

CPU(Central Processing Unit)

It is the main part of the PLC. It processes all the instructions required for working of the circuit. First, we store the program or instruction in memory. In the operation time, the CPU takes the commands from the input module and then process and ultimately gives the output to the output module.

Memory

It is a storage device which stores all data, programs, and instructions.

Programming Device 

It is the device where the program or instruction is written and then using this device the program or instruction is stored to the PLC Memory. The programming device may be a computer, laptop, etc 

Input and Output Module

The CPU or Microprocessor can work with 5V DC supply and it can deliver very small output current. But the input devices or sensor may not work with the same voltage that is 5V DC. So to interface real-world input devices and sensors with the microprocessor, the input module is used. Here the input module always gives 5V DC input signal to the CPU. 

Another important point is that the microprocessor can work with only the digital signal but all the input devices or sensor may not produce a digital signal. In fact, most of the sensors create an analog signal. So another important function of the input module to convert the analog signal into a digital signal.

Microprocessor or CPU can deliver a very small amount of current(in few mA) at 5V DC as output. So we can not drive the loads directly with the microprocessor. Here the output Module solved this problem.

Power Supply

The power supply circuit provides the power supply to all devices such as CPU, Memory, Input module, and output module. Generally, the PLC works with up to 24V DC supply.

The Features of 8085 Microprocessor include :

1.It is an 8-bit microprocessor i.e. it can accept, process, or provide 8-bit data simultaneously.

2.It operates on a single +5V power supply connected at Vcc; power supply ground is connected to Vss.

3.It operates on clock cycle with 50% duty cycle.

4.It has on chip clock generator. This internal clock generator requires tuned circuit like LC, RC or crystal. The internal clock generator divides oscillator frequency by 2 and generates clock signal, which can be used for synchronizing external devices.

5.It can operate with a 3 MHz clock frequency. The 8085A-2 version can operate at the maximum frequency of 5 MHz.

6.It has 16 address lines, hence it can access (216) 64 Kbytes of memory.