Read This Is Enough About What is 4-20mA Output

Read This Is Enough About What is 4-20mA Output

 All you want to know 4-20mA

 

What is the 4-20mA output? 

 

1.) Introduction

 

4-20mA (milliamp) is a type of electrical current commonly used for transmitting analog signals in industrial process control and automation systems. It is a self-powered, low-voltage current loop that can transmit signals over long distances and through electrically noisy environments without significantly degrading the signal.

The 4-20mA range represents a span of 16 milliamps, with four milliamps representing the minimum or zero value of the signal and 20 milliamps representing the maximum or full-scale value of the signal. The actual value of the analog signal being transmitted is encoded as a position within this range, with the current level being proportional to the value of the signal.

4-20mA output is often used to transmit analog signals from sensors and other field devices, such as temperature probes and pressure transducers, to control and monitor systems. It is also used to transmit signals between different components within a control system, such as from a programmable logic controller (PLC) to a valve actuator.

 

In industrial automation, the 4-20mA output is a commonly used signal for transmitting information from sensors and other devices. 4-20mA output, also known as a current loop, is a robust and reliable method for transmitting data over long distances, even in noisy environments. This blog post will explore the basics of 4-20mA output, including how it works and the advantages and disadvantages of using it in industrial automation systems.

 

4-20mA output is an analog signal transmitted using a constant current of 4-20 milliamps (mA). It is often used to transmit information about the measurement of a physical quantity, such as pressure, temperature, or flow rate. For example, a temperature sensor may transmit a 4-20mA signal proportional to the temperature it measures.

 

One of the main advantages of using 4-20mA output is that it is a universal standard in industrial automation. It means that a wide range of devices, such as sensors, controllers, and actuators, are designed to be compatible with 4-20mA signals. It makes integrating new devices into an existing system easy, as long as they support 4-20mA output.

 

 

2.)How does 4-20mA output work?

4-20mA output is transmitted using a current loop, which consists of a transmitter and a receiver. The transmitter, typically a sensor or other device measuring a physical quantity, generates the 4-20mA signal and sends it to the receiver. The receiver, typically a controller or other device responsible for processing the signal, receives the 4-20mA signal and interprets the information it contains.

 

For the 4-20mA signal to be transmitted accurately, it is important to maintain a constant current through the loop. It is achieved by using a current-limiting resistor in the transmitter, which limits the amount of current that can flow through the circuit. The current-limiting resistor's resistance is chosen to allow the desired range of 4-20mA to flow through the loop.

 

One of the key benefits of using a current loop is that it allows the 4-20mA signal to be transmitted over long distances without suffering from signal degradation. It is because the signal is transmitted as a current rather than a voltage, which is less susceptible to interference and noise. In addition, current loops can transmit the 4-20mA signal over twisted pairs or coaxial cables, reducing signal degradation risk.

 

3.) Advantages of using 4-20mA output

There are several advantages to using 4-20mA output in industrial automation systems. Some of the key benefits include:

 

Long-distance signal transmission: The 4-20mA output can transmit signals over long distances without suffering signal degradation. It is ideal for use in applications where the transmitter and receiver are far apart, such as in large industrial plants or offshore oil rigs.

 

A: High noise immunity: Current loops are highly resistant to noise and interference, which makes them ideal for use in noisy environments. It is especially important in industrial settings, where electrical noise from motors and other equipment can cause problems with signal transmission.

 

B: Compatibility with a wide range of devices: As 4-20mA output is a universal standard in industrial automation, it is compatible with many devices. It makes integrating new devices into an existing system easy, as long as they support 4-20mA output.

 

 

4.) Disadvantages of using 4-20mA output

 

While 4-20mA output has many advantages, there are also some drawbacks to using it in industrial automation systems. These include:

 

A: Limited resolution: 4-20mA output is an analog signal transmitted using a continuous range of values. However, the resolution of the signal is limited by the range of 4-20mA, which is only 16mA. This may not be sufficient for applications that require a high degree of precision or sensitivity.

 

B: Dependence on the power supply: For the 4-20mA signal to be transmitted accurately, it is important to maintain a constant current through the loop. This requires a power supply, which can be an additional cost and complexity in the system. In addition, the power supply may fail or become disrupted, which can affect the transmission of the 4-20mA signal.

 

5.) Conclusion

4-20mA output is a widely used type of signal in industrial automation systems. It is transmitted using a constant current of 4-20mA and received using a current loop consisting of a transmitter and a receiver. 4-20mA output has several advantages, including long-distance signal transmission, high noise immunity, and compatibility with a wide range of devices. However, it also has some drawbacks, including limited resolution and dependence on a power supply. Overall, the 4-20mA output is a reliable and robust method for transmitting data in industrial automation systems.

 

 

What is the Difference Between 4-20ma, 0-10v, 0-5v, and I2C Output? 

 

4-20mA, 0-10V, and 0-5V are all analog signals commonly used in industrial automation and other applications. They are used to transmit information about the measurement of a physical quantity, such as pressure, temperature, or flow rate.

 

The main difference between these types of signals is the range of values that they can transmit. 4-20mA signals are transmitted using a constant current of 4-20 milliamps, 0-10V signals are transmitted using a voltage ranging from 0 to 10 volts, and 0-5V signals are transmitted using a voltage ranging from 0 to 5 volts.

 

I2C (Inter-Integrated Circuit) is a digital communication protocol used to transmit data between devices. It is commonly used in embedded systems and other applications where many devices need to communicate with each other. Unlike analog signals, which transmit the information as a continuous range of values, I2C uses a series of digital pulses to transmit data.

 

Each of these types of signals has its own set of advantages and disadvantages, and the best choice will depend on the application's specific requirements. For example, 4-20mA signals are often preferred for long-distance signal transmission and high noise immunity, while 0-10V and 0-5V signals may offer higher resolution and better accuracy. I2C is generally used for short-distance communication between a small number of devices.

 

1. Range of values: 4-20mA signals transmit a current ranging from 4 to 20 milliamps, 0-10V signals transmit a voltage ranging from 0 to 10 volts, and 0-5V signals transmit a voltage ranging from 0 to 5 volts. I2C is a digital communication protocol and does not transmit continuous values.

 

2. Signal transmission: 4-20mA and 0-10V signals are transmitted using a current loop or a voltage, respectively. 0-5V signals are also transmitted using a voltage. I2C is transmitted using a series of digital pulses.

 

3. Compatibility: 4-20mA, 0-10V, and 0-5V signals are typically compatible with many devices, as they are widely used in industrial automation and other applications. I2C is primarily used in embedded systems and other applications where many devices need to communicate with each other.

 

4. Resolution: 4-20mA signals have a limited resolution due to the limited range of values they can transmit (only 16mA). 0-10V and 0-5V signals may offer higher resolution and better accuracy, depending on the application's specific requirements. I2C is a digital protocol and does not have a resolution in the same way that analog signals do.

 

5. Noise immunity: 4-20mA signals are highly resistant to noise and interference due to using a current loop for signal transmission. 0-10V and 0-5V signals may be more susceptible to noise, depending on the specific implementation. I2C is generally resistant to noise as it uses digital pulses for signal transmission.

 

 

Which one is the most used ?

Which one is the best output option for temperature and humidity transmitter?

 

It is difficult to say which output option is the most used for temperature and humidity transmitters, as it depends on the system's specific application and requirements. However, 4-20mA and 0-10V are widely used for transmitting temperature and humidity measurements in industrial automation and other applications.

 

4-20mA is a popular choice for temperature and humidity transmitters due to its robustness and long-distance transmission capabilities. It is also resistant to noise and interference, which makes it suitable for use in noisy environments.

0-10V is another widely used option for temperature and humidity transmitters. It offers higher resolution and better accuracy than 4-20mA, which may be important in applications requiring high precision.

Ultimately, the best output option for a temperature and humidity transmitter will depend on the application's specific requirements. Factors to the distance between the transmitter and receiver, the level of accuracy and resolution needed, and the operating environment (e.g., the presence of noise and interference). 

 

 

What is the Main Application of 4-20mA Output ? 

4-20mA output is widely used in industrial automation and other applications due to its robustness and long distance transmission capabilities. Some common applications of 4-20mA output include:

1. Process Control: 4-20mA is often used to transmit process variables, such as temperature, pressure, and flow rate, from sensors to controllers in process control systems.
2. Industrial Instrumentation: 4-20mA is commonly used to transmit measurement data from industrial instruments, such as flow meters and level sensors, to controllers or displays. 
3. Building Automation: 4-20mA is used in building automation systems to transmit information about temperature, humidity, and other environmental conditions from sensors to controllers. 
4. Power Generation: 4-20mA is used in power generation plants to transmit measurement data from sensors and instruments to controllers and displays.
5. Oil and Gas: 4-20mA is commonly used in the oil and gas industry to transmit measurement data from sensors and instruments in offshore platforms and pipelines.
6. Water and Wastewater Treatment: 4-20mA is used in water and wastewater treatment plants to transmit measurement data from sensors and instruments to controllers and displays.  
7. Food and Beverage: 4-20mA is used in the food and beverage industry to transmit measurement data from sensors and instruments to controllers and displays.
8. Automotive: 4-20mA is used in the automotive industry to transmit measurement data from sensors and instruments to controllers and displays.

 

 

Are you interested in learning more about our 4-20 temperature and humidity transmitter? Contact us by email ka@hengko.com to get all of your questions answered and to receive more information about our product. We're here to help you make the best decision for your needs. Don't hesitate to reach out to us – we look forward to hearing from you! 

 

 


Post time: Jan-04-2023