Advantages and disadvantages of Mitsubishi's different output types

Create Date: 2024-8-30 12:03:23|Source: Mitsubishi Electric/Mitsubishi Electric

The three output types of PLC are: transistor output, thyristor output and relay output, what is the difference between these three different output types?

(1) Transistor output:

The biggest advantage is to adapt to high-frequency action, the response time is short, generally about 0.2ms, but it can only carry DC5-30V load, the maximum output load current is 0.5A/point, but every 4 points shall not be greater than 0.8A.

(2) Thyristor output:

Only with load can be 0.2A/point, only with communication load, can adapt to high-frequency action, and the echo time is 1ms.

                               Advantages and disadvantages of Mitsubishi's different output types

(3) Relay output:

The advantage is that different AC and DC loads can be carried between different common points, and the voltage can also be different, and the load current can reach 2A/point; However, the relay output method is not suitable for high-frequency action loads, which is determined by the lifetime of the relay. Its life decreases with the addition of load current, generally between hundreds of thousands of times and Jl million times, and some companies' products can reach more than 10 million times, and the echo time is 10ms.

When the output frequency of your system is less than 6 times per minute, the relay output should be preferred, because its circuit planning is simple, anti-interference and load can be strong. When the frequency is less than 10 times/min, the relay output method can be selected; PLC output can also be used to drive the Darlington triode (5-10A), and then drive the load, which can be greatly reduced.

ADVANTAGES OF TRANSISTORS: THE ACTION FREQUENCY CAN REACH HUNDREDS OF KHZ, NO CONTACT, SO THERE IS NO MECHANICAL LIFE;

Defects: It can only be connected to DC load (generally below DC30V), and the current is relatively small;

Triac (thyristor output): It can only be connected to the communication load, the action frequency is relatively high, and the life is long, but the rated current of the load is also relatively small

Advantages of relays: both communication and DC loads can be driven; The rated current of the load is large;

Defects: the action frequency can not be too high, and the relay has a lifetime, generally 1 million times;

Transistors are primarily used for positioning and manipulation, and the output of the crystal is used to send out pulses. The relay cannot be used to send out pulses, so it cannot be positioned and controlled. If you use a relay to control the positioning servo or stepper, you need to add a positioning module, which is not cost-effective. With a single transistor output, you can control the servo, etc. That's it. According to the requirements of the production process, the transistor output should be selected for the start-up and abort of various indicators and inverters/digital DC governors, which is suitable for high-frequency action and has a short response time; If the output frequency of the PLC system is less than 6 times per minute, the relay output should be preferred, and the output circuit is planned simply, and the anti-interference and load can be strong.

1. The transistor overload can be less than the relay overload

Generally speaking, when there is a large inrush current (e.g., bulb, inductive load, etc.), the transistor overload is less and the demand derating is more.

2. Transistors respond faster than relays

The principle of the relay output type is that the CPU drives the relay coil to make the contacts engage, so that the external power supply drives the external load through the closed contacts, and the open circuit leakage current is zero, and the response time is slow (about 10ms).

The principle of transistor output type is that the CPU is optically coupled to turn the transistor on and off to control the external DC load, and the response time is fast (about 0.2ms or even less). Transistor output is generally used for high-speed output, such as servo/stepper, etc., for output with high action frequency: such as temperature PID control, which is mainly used in stepper motor control, servo control, and solenoid valve control (valve action frequency is high).

3. The load voltage and current types are different

Load type: Transistors can only carry DC loads, while relays can carry both AC and DC loads.

Current: Transistor current 0.2A-0.3A, relay 2A.

Voltage: The transistor can be connected to DC 24V (generally the maximum is about 30V DC, and the relay can be connected to DC 24V or AC 220V.)

4. The load can be different

The ability of a transistor with a load is smaller than that of a relay with a load, and when using a transistor, sometimes it is necessary to add other things to drive a large load (such as relays, solid-state relays, etc.).

5. Under the rated working condition, the relay has the life of the number of actions, and the transistor only ages and has no limit on the number of times of use

Relays are mechanical components so they have a lifetime of action, while transistors are electronic components that only age and have no constraints on the number of times they can be used. The number of switches per minute for relays is also constrained, while transistors are not.

6. The price of transistor output is slightly more expensive.

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