Temperature Controllers: PID, Electronic and More | RS
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    Temperature Controllers

    A temperature controller is a device which has been built to help control temperature. The best part is there is no extension involvement. This device usually carries out such functionalities based on process variables. After that, the desired value will be compared. The differences which exist between such values are referred to as error derivation. A temperature control device will use such errors in determining the amount of cooling or heating, which is needed for the temperature to return to its desired value. Manipulated signal is the output value produced by a temperature switch. It can be said that this device is all about temperature control.

    Types of Temperature Controller

    PID Temperature Controller

    A Proportional-Integral-Derivative (PID) temperature controller is a sophisticated component of a temperature control system. To illustrate its functionality, consider an oven setup that includes a heater, thermometer, and the PID controller itself. The primary function of the PID controller is to continuously monitor the temperature via the thermometer and make adjustments to the heater to maintain a consistent temperature.

    PID controllers are known for their accuracy and are widely used in applications where precise temperature control is critical. They work by continuously adjusting the process to minimise the error, ensuring that the temperature remains stable even under varying conditions.

    The working principle of a PID controller involves three key components:

    • Proportional Control (P): Adjusts the output proportionally to the current error. If the temperature deviates significantly from the setpoint, the controller will apply a larger correction.
    • Integral Control (I): Accumulates past errors over time, addressing any persistent discrepancies. If the temperature remains below the setpoint for an extended period, the integral action increases the output to eliminate the error.
    • Derivative Control (D): Anticipates future errors based on the rate of change of the temperature, helping to mitigate overshoot and stabilise the system as it approaches the setpoint.

    Digital Temperature Controller

    Digital temperature controllers represent a modern approach to temperature management, typically categorised into two main series:

    • DTC-A Series: This series is designed for precise heating applications. Unlike traditional controllers, DTC-A series controllers don’t require external relays, as they’re capable of directly controlling temperature. These controllers are also programmable, allowing for temperature adjustments at specific time intervals. Additionally, they can memorise both temperature settings and time, making them highly adaptable to various heating requirements, particularly in flexible heaters.
    • DTC-T Series: The DTC-T series controllers are versatile, capable of monitoring both DC and AC voltages. These electronic temperature controllers are characterised by low electromagnetic interference and minimal voltage output, making them suitable for sensitive applications. These controllers come with adapters for better customisation of temperature settings and time intervals. Like the DTC-A series, they can memorise settings, eliminating the need for complex circuit designs or additional controls. They also feature multiple power settings, including 100%, 75%, 50%, and 25%, offering flexibility in temperature management.

    On/Off Temperature Controllers

    On/Off controllers are the simplest type of temperature controller. They operate by switching the heating or cooling device ON when the temperature drops below a setpoint and OFF when it exceeds that setpoint. While effective for basic applications, they lack the precision of more advanced PID temp controllers and are typically used in systems where tight temperature control is not critical, such as residential heating systems and basic industrial processes.

    Proportional Temperature Controllers

    Proportional temperature controllers offer a more advanced approach compared to On/Off controllers. They modulate the output based on the difference between the actual temperature and the setpoint. This proportional response allows for more precise temperature control, making them suitable for applications like incubators and HVAC systems.

    Choosing the Right Temperature Controllers

    When selecting a temperature controller, several critical factors must be evaluated to ensure it meets your specific process requirements:

    • Temperature Range: Determine the minimum and maximum temperature limits required for your application. This will help you select a temperature controller that can operate effectively within the desired range.
    • Control Accuracy: Assess the level of precision needed for your temperature control. Some applications may require high accuracy, while others may tolerate broader tolerances. Look for controllers with low tolerance levels and high-resolution sensors to achieve the necessary precision.
    • Control Stability: Evaluate the stability requirements of your process. Applications that demand consistent results will require controllers that can maintain tight temperature stability, while others may allow for slight fluctuations.
    • Control Algorithm: Different control algorithms, such as On/Off, Proportional, and PID (Proportional-Integral-Derivative), offer varying levels of control performance. PID temp controllers are particularly effective for applications requiring precise and stable temperature regulation.
    • Response Time: Consider how quickly the controller can respond to temperature changes. Quick response times are essential in dynamic processes where fluctuations can significantly impact product quality.
    • Environmental Considerations: Take into account the environmental conditions in which the controller will operate. Factors such as temperature extremes, humidity, and exposure to chemicals can influence the choice of controller.
    • Display Type: Look for digital temperature controllers with clear and intuitive displays that allow easy monitoring of temperature values. Options may include LED, LCD, or touchscreen interfaces.

    Industrial Applications for Temperature Controllers

    Temperature controllers are indispensable across various industries, ensuring precise temperature regulation in critical processes. Below are some key applications:

    Laboratories

    In laboratories, maintaining accurate temperature control is crucial for experiments and testing. Temperature controllers help in creating stable environments for chemical reactions, biological research, and material testing. They ensure that temperature-sensitive processes are conducted under optimal conditions, reducing variability and improving the reliability of results.

    Processing Plants

    Processing plants, particularly those involved in food and chemical production, rely on temperature controllers to regulate processes like fermentation, pasteurisation, and distillation. Accurate temperature control is essential for ensuring product quality, consistency, and safety. By maintaining the correct temperature, these controllers help optimise production efficiency and prevent equipment malfunctions.

    Research Centres

    Research centres across various scientific disciplines use temperature controllers to support a wide range of studies, from environmental simulations to material science research. These controllers provide the precise temperature regulation needed for accurate data collection and analysis, supporting breakthroughs in technology and science.

    Packaging Industry

    In the packaging industry, temperature controllers are vital for processes such as sealing, moulding, and material bonding. They ensure that packaging materials are processed at the correct temperature, which is essential for creating strong seals, preventing product contamination, and maintaining package integrity during storage and transport. In food packaging, precise temperature control is crucial to ensure the safety and quality of the packaged products, helping to prevent spoilage and extend shelf life by maintaining the ideal conditions for food preservation.

    Healthcare

    Temperature controllers are crucial in the healthcare industry, where they’re used in medical devices, sterilisation equipment, and pharmaceutical storage. Maintaining precise temperatures is essential for patient safety, the efficacy of sterilisation processes, and the preservation of sensitive medicines and biological samples.

    Plastic Industry

    In the plastic industry, temperature controllers are used in injection moulding machines, extruders, and other equipment involved in shaping and forming plastic materials. Precise temperature control ensures the quality of the final product, reduces material waste, and enhances the efficiency of the manufacturing process.

    Frequently Asked Questions About Temperature Controllers

    Is PID a good controller for temperature control?

    Yes, PID temperature controllers are highly effective for temperature control and are often a top choice for sale in applications requiring precise management. They’re designed to continuously calculate the error between the desired and actual temperature, and apply corrective actions to minimise this error. PID controllers offer precise control by adjusting the process in real-time, making them ideal for applications that require stable and accurate temperature maintenance.

    What are the advantages of a digital temperature controller?

    Digital temperature controllers offer several advantages over their analogue counterparts. They provide higher accuracy and precision in temperature control, thanks to their ability to process complex algorithms. Digital controllers are also programmable, allowing for customised temperature settings and timing intervals, which is particularly useful in applications requiring specific temperature profiles. Additionally, they often come with features such as memory for storing settings, user-friendly interfaces, and the ability to integrate with other digital systems, enhancing overall process control and efficiency.

    What is the difference between a PID controller and a temperature controller?

    A temperature controller is a general term for any device that regulates temperature, while a PID controller is a specific type of temperature controller. PID controllers use a control loop feedback mechanism (Proportional, Integral, Derivative) to maintain the desired temperature by minimising the error between the setpoint and the actual temperature.

    In contrast, basic temperature controllers may use simpler mechanisms, such as on-off control, which only turns the heating or cooling element on or off when a certain threshold is reached. PID controllers offer more precise and stable temperature control compared to basic temperature controllers, often justifying their higher price due to the advanced features and accuracy they provide. This is also the case for digital temperature controllers.

    Delivery Information

    RS offers fast and reliable delivery services to ensure you receive your temperature controllers and related components like temperature data recorder and signal conditioners when you need them. Our efficient delivery options are designed to meet your timelines and keep your projects on schedule. For more detailed information on delivery specifics, please refer to our Delivery FAQ page.

    1225 Products showing for Temperature Controllers

    Tempatron
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    110 → 240 V ac
    48 x 48mm
    -
    -
    -10°C
    +50°C
    -
    -
    -
    -
    -
    -
    -
    Thermocouple
    -
    0 → +400 °C
    -
    WIKA
    -
    Relay
    24 V ac/dc, 100 → 240 V ac
    48 x 96mm
    -
    -
    0°C
    +50°C
    +32 → +2534 (Type PL-II) °F, +32 → +3200 °F, +32 → +3308 °F, +32 → +4199 °F, 0 → +1390 (Type PL-II) °C, 0 → +1760 (Type R) °C, 0 → +1760 (Type S) °C, 0 → +1820 (Type B) °C, 0 → +2315 (Type C) °C, -200 → +1000
    -
    Dual 5 Digit 7-Segment LED Display
    IP00, IP20, IP65
    Alarm
    -
    -
    JPT100, PT100, Thermocouple
    Panel Mount
    -
    -
    Omron
    -
    Linear, Analogue, 4-20 mA
    100 → 240 V ac
    96 x 48mm
    4
    4
    -
    -
    -
    ON/OFF, PID, 2-PID Controller
    -
    -
    -
    -
    -
    Universal, Platinum Resistance Thermometer, PT100, Thermocouple, Analogue
    Panel Mount
    -
    E5EC
    Jumo
    -
    2 Relay, 1 Logic
    20 → 30 V ac/dc
    48 x 48mm
    3
    3
    -10°C
    +55°C
    -10 → +55 °C
    -
    Segment
    IP20, IP65
    PID Controller
    -
    -
    Analogue, Digital
    Panel Mount
    -
    diraTRON
    Eurotherm
    -
    Relay
    500 V
    229.5 x 117 x 192mm
    -
    -
    -
    -
    -
    1 Phase
    -
    -
    -
    -
    -
    -
    -
    -
    -
    Omron
    -
    SSR, Solid State Relay, Logic
    100 → 240 V ac
    48 x 96mm
    2
    2
    -10°C
    +55°C
    -10 → +55 °C
    ON/OFF, PID, 2-PID Controller
    11-Segment Digital Display
    IP00, IP20, IP66
    -
    -
    -
    Universal, Platinum Resistance Thermometer, PT100, Thermocouple, Analogue
    Panel Mount
    Omron E5ED
    E5ED
    Siemens
    -
    -
    -
    -
    -
    -
    -
    -
    -
    PID Controller
    -
    -
    -
    -
    -
    -
    -
    -
    6ES7830
    P.M.A
    -
    Relay
    230 V ac
    100 x 50mm
    -
    -
    -10°C
    +55°C
    -100 → +600 °C
    ON/OFF
    -
    IP20
    ON/OFF
    -
    -
    -
    -
    -
    STB 55
    CAL
    -
    Relay, SSD
    115 V ac
    48 x 48 (1/16 DIN)mm
    -
    2
    -
    -
    -200 → +1800 °C
    -
    LED
    IP54
    -
    -
    -
    -
    -
    CAL 9900
    9900
    West Instruments
    -
    Relay
    100 V ac, 240 V ac
    96 x 96 (1/4 DIN)mm
    -
    1
    0°C
    +55°C
    -
    ON/OFF
    LED
    IP20, IP66
    ON/OFF
    -
    -
    -
    -
    P 4100
    P4100
    Jumo
    -
    1 Relay, 1 Logic
    20 → 30 V ac/dc
    48 x 24mm
    2
    2
    -10°C
    +55°C
    -10 → +55 °C
    -
    Segment
    IP20, IP65
    PID Controller
    -
    -
    Analogue, Digital
    Panel Mount
    -
    diraTRON
    Omron
    -
    SSR, Solid State Relay, Logic
    100 → 240 V ac
    22.5mm
    -
    2
    -10°C
    +50°C
    +100 → +1800 (Type B Thermocouple) °C, 0 → +1300 (Type PL II Thermocouple) °C, 0 → +1700 (R & S Thermocouples) °C, 0 → +2300 (Type W Thermocouple) °C, -100 → +850 (Type J Thermocouple) °C, -100 → +850 (Type L
    ON/OFF, PID, 2-PID Controller
    11-Segment Digital Display
    IP00, IP20
    ON/OFF
    -
    -
    Universal, Platinum Resistance Thermometer, PT100, Thermocouple, Analogue
    DIN Rail, Panel Mount
    Omron E5DC
    E5DC
    Tempatron
    -
    Relay
    85 → 270 V ac
    96 x 96 (1/4 DIN)mm
    -
    2
    0°C
    +50°C
    +149 → +1820 (Type B Thermocouple) °C, 0 → +1390 (PL2 Type) °C, 0 → +1750 (Type R & S Thermocouples) °C, 0 → +2300 (Type C & W Thermocouples) °C, -100 → +850 (PT100) °C, -200 → +1300 (Type N Thermocouple) °C,
    ON/OFF
    LED
    IP65
    ON/OFF
    -
    -
    -
    -
    -
    PID330
    Carel
    Communication Module Available
    SSR
    115 → 230 V ac
    76.2 x 34.2mm
    -
    4
    -10°C
    +60°C
    -100 → +800 (Type J/K Thermocouple) °C, -199 → +800 (PT100) °C, -199 → +800 (PT1000) °C
    -
    Single Line
    IP65
    ON/OFF
    -
    -
    -
    Panel Mount
    Carel IR33
    IR33
    Lumel
    Communication Module Available
    Current, Voltage
    85 → 253 V ac/dc
    48 x 48mm
    -
    2
    0°C
    +50°C
    +200 → +1767 (Type B Thermocouple) °C, 0 → +1767 (Type R Thermocouple) °C, 0 → +1767 (Type S Thermocouple) °C, -100 → +1000 (Type E Thermocouple) °C, -100 → +1200 (Type J Thermocouple) °C, -100 → +1300 (Type N
    -
    Digital
    IP20, IP65
    ON/OFF
    -
    -
    PT100, PT1000, Type B Thermocouple, Type E Thermocouple, Type J Thermocouple, Type K Thermocouple, Type L Thermocouple, Type N Thermocouple, Type R Thermocouple, Type S Thermocouple, Type T Thermocouple
    Panel Mount
    -
    RE72
    Eurotherm
    -
    Voltage
    24 V ac/dc
    -
    -
    -
    0°C
    +45°C
    -
    -
    -
    -
    -
    -
    -
    Voltage
    DIN Rail
    -
    MINI MCR-2-TC-UI-PT
    CAL
    -
    Relay
    100 V ac, 240 V ac
    48 x 48 (1/16 DIN)mm
    -
    2
    0°C
    +50°C
    -
    -
    LED
    IP66
    -
    -
    -
    -
    -
    CAL 9500
    9500
    Eurotherm
    Communication Module Available
    1 Relay, 2 DC Output
    100 → 230 V ac
    48 x 96mm
    1
    -
    0°C
    +55°C
    0 → +55 °C
    PID Controller
    LCD
    IP65
    RS485
    -
    -
    Current & Voltage, mV Input, Resistance Thermometer, Thermocouple
    Panel Mount
    EPC3000
    EPC3008
    Eurotherm
    Communication Module Available
    1 DC Output, 1 Logic, 1 Relay, 4 Digital I/O
    100 → 230 V ac
    96 x 96mm
    2
    -
    0°C
    +55°C
    0 → +55 °C
    1 x 24 Segment Advanced Programmer
    LCD
    IP65
    Ethernet, RS485
    -
    -
    Current & Voltage, mV Input, Resistance Thermometer, Thermocouple
    Panel Mount
    EPC3000
    EPC3004
    Tempatron
    -
    -
    10 → 32 V ac/dc
    48 x 48mm
    -
    -
    -10°C
    +50°C
    -
    -
    -
    -
    -
    -
    -
    Thermocouple
    -
    -99 → +999 °C
    -
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