ABB DTCC901B High Performance Digital Temperature Controller

ABB DTCC901B High Performance Digital Temperature Controller

Product Overview

ABB DTCC901B is an excellent high-performance digital temperature controller designed to meet various complex industrial environments and precision temperature control requirements. It utilizes advanced digital processing technology to accurately perceive temperature changes and achieves precise temperature control through efficient control algorithms. This controller has rich functional interfaces and can flexibly adapt to various temperature sensors, such as thermocouples, PT100, etc., ensuring accurate temperature data can be obtained in different measurement scenarios, thereby providing reliable guarantee for the stable operation of the equipment.

Brand background

As mentioned earlier, ABB, as a globally renowned Fortune 500 company, has a deep foundation and outstanding influence in the fields of power and automation technology. Since its merger with ASEA and BBC Brown Boveri in 1988, ABB has continuously launched industry-leading products and solutions with over a hundred years of technological accumulation and innovative spirit. In the field of temperature control, ABB also relies on its advanced research and development capabilities and strict quality control to ensure that DTCC901B inherits ABB's consistent high quality and high reliability genes.

Specification parameters

Working voltage: It is usually compatible with common industrial voltages, such as 220V, to ensure compatibility with most industrial electrical systems and facilitate access to existing equipment networks.

Output frequency: up to 60KHZ, the fast output frequency enables the controller to quickly respond to temperature changes, adjust control strategies in a timely manner, and achieve rapid and stable temperature regulation.

Temperature measurement range: It is compatible with the measurement range of multiple temperature sensors. Taking thermocouples as an example, it can adapt to a wide temperature range and accurately measure from low to high temperatures; For the PT100 sensor, it can also accurately obtain temperature data within its specified range, meeting the requirements of different application scenarios for temperature measurement range.

Communication Interface: Equipped with multiple communication interfaces, supporting high-speed communication, facilitating data exchange and system integration with other devices, such as seamless connection with industrial control systems such as PLC and DCS, achieving remote monitoring and centralized control.

Core functions

Accurate temperature measurement and control: Combined with high-precision temperature sensors, it can accurately measure the temperature of the environment or equipment. Through the built-in advanced control algorithm, the temperature can be stably controlled within the set threshold range with minimal deviation, suitable for processes that require extremely high temperature accuracy, such as chip temperature control in semiconductor manufacturing and reactor temperature control in the pharmaceutical industry.

Multi sensor adaptation: It can easily connect different types of temperature sensors such as thermocouples and PT100. Users can flexibly choose the most suitable sensor according to the characteristics and needs of actual application scenarios, greatly expanding the product's applicability.

Intelligent alarm function: equipped with a comprehensive alarm mechanism, when the temperature exceeds the preset safe range, an alarm signal can be immediately issued to remind operators to handle it in a timely manner, avoiding equipment failure or production accidents caused by abnormal temperature. There are various alarm methods, such as sound and light alarms, and sending alarm information through communication networks.

Precautions

Installation location: It should be installed in a well ventilated area away from heat sources and strong electromagnetic interference sources to avoid measurement and control errors caused by environmental factors affecting the controller itself. At the same time, ensure that the installation is firm and prevent equipment damage caused by vibration or collision.

Sensor connection: Connect the temperature sensor correctly, pay attention to the polarity and sequence of the wiring, and avoid incorrect connections that may cause measurement data errors or sensor damage. During the connection process, it is important to ensure that the wiring is secure and prevent poor contact from affecting signal transmission.

Parameter setting: When setting temperature control parameters, users need to make reasonable settings according to actual application scenarios and process requirements to avoid unstable temperature control or abnormal equipment operation caused by improper parameter settings. If you are unsure about the parameter settings, you can refer to the product manual or consult ABB technical support personnel