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NOVUS has been developing a wide range of industrial controllers for almost 4 decades, making sure your processes benefit from the most advanced technology while keeping unique stability and performance. Our controllers stand out as the easiest to install and configure in the market.
The N20K48 Modular Controller is a powerful automated solution designed to enhance industrial processes through IoT connectivity, remote monitoring, and precise control. This advanced solution integrates seamlessly into ...
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The N1020 temperature controller has a high performance microprocessor, which can control complex and critical processes through the self-adaptive PID control algorithm that adjusts the PID parameters and obtains the bes...
The N1200 process controller was designed for high performance control in the most demanding applications. Its advanced and consolidated Auto-Adaptive PID algorithm ensures fast and highly accurate response in very ...
N1030 is a temperature controller that features a high performance PID algorithm in a compact housing, with only 35 mm depth. Its compact construction and the convenient detachable connector provide an easy set up o...
N1040T is an economic and efficient Time and Temperature controller, developed with modern technology and automatic tuning of PID parameters, ON-OFF control and totally configurable. It has a reduced depth flameproof pla...
Complete and extremely versatile process controller arranged on a printed circuit board. Accepts most sensors and signals used in the industry and provides the main types of output needed to operate in various processes....
The microprocessor based N1040 was conceived for low cost applications and yet achieving high degree of accuracy. It features a short depth enclosure of only 70 mm thus reducing panel space considerably. Another importan...
The N480D series of PID temperature controllers was designed for non-experienced novice users for combining extreme simplicity in operation with high performance only found in expensive high end controllers.It is a low-c...
The N2000 Universal Process Controller is a real breakthrough in versatility for holding in one single instrument all the major features required in the vast majority of industrial processes.With a sophisticated and cons...
The N2000 Universal Process Controller is a real breakthrough in versatility for holding in one single instrument all the major features required in the vast majority of industrial processes.With a sophisticated and cons...
Great substitute for the old and obsolete analog controllers for holding extreme simplicity in operation and yet featuring the highly accurate performance of digital technology. The 20 mm high display can be viewed from ...
N3000 Big Digit Universal Process Contoller is a real breakthrough in versatility for holding in one single instrument all the major features required in the vast majority of industrial processes.With a sophisticated and...
N1030T is a temperature controller with timer that features high performance PID algorithm, ideal for manufacturers of machines and equipment, in compact housing, with only 35 mm depth. Its compact size and the detachabl...
N1050 is an advanced high performance PID temperature controller featuring a vivid LCD display in a modern design package. It combines the proven robustness of NOVUS PID algorithm with a large and bright easy-to-read mul...
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10/31/2024
NOVUS will participate in two important trade fairs in november.
9/30/2024
NOVUS will be present at four important fairs in October 2024, presenting its innovative technological solutions for different industry sectors. Check out event details and featured products:
9/30/2024
NOVUS will be present at four important fairs in October 2024, presenting its innovative technological solutions for different industry sectors. Check out event details and featured products:
7/25/2024
International Trade Show is Southeast Asia's biggest Automation Industry Exhibition
5/2/2024
NOVUS Automation solutions in the spotlight
Process Control is the active changing of the process based on the results of process monitoring. Once the process monitoring tools have detected an out-of-control situation, the person responsible for the process makes a change to bring the process back into control.
The working principle behind a PID controller is that the proportional, integral and derivative terms must be individually adjusted or "tuned." Based on the difference between these values a correction factor is calculated and applied to the input.
There are three broad categories for any given system: inputs, outputs, and constants or parameters. Inputs are any factors that change with time that affect the system's output. The output refers to the desired controlled variable. Consider this as the objective of the model.
To install a controller, you will need to look at the model chosen. The connections are linked to the number of inputs and outputs desired for the application. In addition, you need a power supply to turn the equipment on, and a software to configure its functions.
In industrial automation, process controllers are the equipment responsible for controlling the industrial process or part of it through specific control algorithms, such as PID, fuzzy logic, or neural networks.
A controller serves to adjust or test the control of something. It is an instrument or device that serves to adjust or control something.
The digital temperature controller is a device designed to measure values and enable a given environment to meet the expected heat or cold requirements.
Smart controllers are important for improving processes and quality in many industry segments, resulting in more profit and less waste.
Today we use programmable logic controllers to define system actions for several purposes. They are responsible for improving the quality of products and services through their functions and programming, automating processes, and reducing the percentage of human error. In addition, they enable remote control.
NOVUS controllers have certificates that guarantee their quality and efficiency, and a 3-year warranty.
You must choose a controller based on the requirements of your process. NOVUS has a complete line of controllers with features such as ON/OFF and PID that allow you to program ramps and soaks.
Electronic controllers are an evolution of industrial automation, responsible for controlling industrial processes or part of them through programmable algorithms of specific controls.
Process controllers are responsible for controlling the industrial process or part of it. These remote controllers analyze, control, operate valves, chronologically store data and events, and are connected remotely by different means.
This answer is linked to the controller application. For a good cost-benefit, you must choose a controller based on the requirements of your process. NOVUS has a complete line of controllers with several features that make it possible to program ramps and soaks.
N321R is a temperature controller for refrigeration that starts the defrost process when the compressor stops. It accepts 3 types of sensors. It is possible to program the minimum on and off times. The defrost process is automatic and the duration can be programmed. The equipment has a key to enable manual defrost. It keeps the indication during the defrost cycle. The equipment also allows a scheduled delay to start the defrost cycle after power-up.
Proportional-Integral-Derivative (PID) is the most widely used process control algorithm in industry. As the name suggests, the PID algorithm is composed of three coefficients: Proportional, integral, and derivative, used to obtain the optimal response. The ON-OFF control action is used when the process allows a continuous oscillation of the controlled variable. As the error signal passes through the Setpoint, the controller output changes from on to off (or vice versa).
ON-OFF controllers are used when the process allows a continuous oscillation of the controlled variable. As the error signal passes through the Setpoint, the controller output changes from on to off (or vice versa).
An actuator converts the energy connected to it into useful automation for the system. The actuators most used in an automation application are pneumatic cylinders and DC (or AC) motors. They are most often controlled by PLCs or controllers. Process controllers are the equipment responsible for controlling an industrial process or part of it through specific control algorithms, such as PID, fuzzy logic, or neural networks.
Analog systems generally consist of operational amplifiers. Digital systems are based on processors, which, in addition to requiring electronic circuitry (hardware), also require programs (software).
The device has a temperature sensor and an output connected to a device, such as a heater or a fan. Besides providing an output to the control element, it compares the actual temperature with the desired control temperature or Setpoint.
The working principle behind a PID controller is that the proportional, integral and derivative terms must be individually adjusted or "tuned." Based on the difference between these values a correction factor is calculated and applied to the input.
In industrial automation, electronic controllers are the equipment responsible for controlling an industrial process or part of it through specific control algorithms.