Download Data Sheet. Home Projects Services Products Contact. HVAC Control. Climate control to be envied. HVAC controllers form the brain and nerves of a HVAC system, monitoring interior conditions and responding to load changes in a coordinated fashion providing comfort and energy efficiency.

Our communicating controllers share information making sure your building automation systems work together maximizing both comfort and energy efficiency. We can still add a few more binary output devices to bring attention to a dangerous situation.

By adding two more output devices, a strobe light, and a horn we can notify garage occupants that the levels of carbon monoxide have reached a dangerous level. The carbon monoxide controller will have a setting that sends a binary signal to the horn and emergency strobe light to turn on when the CO exceeds a hazardous level.

You can see that using a controller allows you to add input and output points to any system. The garage exhaust fan can be setup to run at low and high speed or if acceptable to the local code be run using a VFD. There are four basic elements of a control system: controller, sensor, the controlled device, and the source of energy, such as electrical or pneumatic.

These special sensors monitor and measure variables like, temperature, humidity, pressure, flow, and air quality and provide controllers with the status of the space. The analog input and output devices send or receive a variable current, voltage or resistance between a minimum and maximum value.

This allows for an accurate measurement. There are different types of signals produced by sensors, which include: Electronic, Pneumatic or Electric Sensors. Pneumatic systems are prone to leaks and are being changed out whenever possible as they are less energy efficient than DDC.

Pneumatic sensors put out a 3 psig to 15 psig pressurized air signal, electronic sensors can be resistance, voltage, or current based sensors, with a voltage signal range of 0 to 10vdc, a current signal range of 4 to 20 mA milliamps.

The controller is the brain that makes the decisions based on settings entered by the controls company according to the specifications and sequence of operation. The controller receives inputs from sensors and compares that to the controllers setpoint and then provides a response to output devices.

The inputs inform the controller of the existing environmental condition, and then the controller directs the output devices to change the environment to meet the setpoint.

Much like your brain is the controller taking input from your senses, like taste, smell, hearing, vision, and sense of touch. The brain will take the input from your senses and direct an output signal on what the body should do with that information, such as move hand away from hot stove, or spit out a hot pepper, or a visual input of a man with gun, will provide the response or output to run away fast.

There are all kinds of input and output devices for controlling the environment. Each device is meant to serve a particular purpose. The difference between a binary and analog input or output device is the number of positions or steps you can have.

Analog is used when the environmental element being measured has more than two options. Inputs provide the controller with the information it needs to make a decision, while the outputs are where the controller sends its messages to make adjustments as required to meet the settings of the controller.

An analog input to the controller could be the current speed of the fan when using a VFD, while the analog output could be used to change the speed of the fan using the VFD.

Using an analog input or output allows for a range of fan speeds to be used. The typical home thermostat acts as the controller and temperature sensor all in one.

You set the desired temperature and the thermostat will try to maintain that setpoint. To automate this, we could add a simple bimetal thermostat that would sense the air temperature surrounding the stat or temperature sensor and feed that information to the HVAC equipment.

When it got warm in the room the bimetal would expand and make contact in the electrical circuit, causing the air conditioner to turn on.

When the air has cooled down it would cause the bimetal in the thermostat to contract and pull away from the electrical contacts, thereby turning off the air conditioner. Now at least you have the HVAC system automated according to temperature.

Adding a time clock to the thermostat or BAS will allow additional control based on day of the week or time of day. For example, you could have the thermostat turn on the air conditioner an hour before you get home from work so that the home is already cool when you arrive.

A simple timeclock allows the HVAC system to have its own schedule based on time, while the thermostat will be based on temperature. So, with a simple thermostat we can control temperature and time. The automation software will look to optimize the starting and stopping of the HVAC system to provide for energy savings.

So, the control program will check with other input devices such as an outside air temperature sensor and zone temperature sensors to determine when to bring on the heating or cooling to meet the design temperature before the occupants arrive.

This will help the controls program calculate how long it might take to heat up the building before the occupants arrive. The colder the outside air the longer it will take to warm up the building, so the earlier the HVAC system heating mode will be turned on.

A VAV box is commonly found in medium to large commercial buildings, so this will help explain the basic control sequence for this design. You can see that the VAV Box Controller 1 is mounted on the VAV box and receives an analog input from the room temperature sensor 2 , meaning it can provide a wide range of temperature readings, the Discharge Air Temperature sensor 3 is another analog input device, and Airflow Sensor 4.

The controller being the brains, receives input information on which to compare against the setpoint, and then sends an output command to various components to achieve the desired environmental conditions set for this space. In heating mode, the VAV box damper will be at the minimum open position to avoid wasting energy, as the air arriving at the VAV box has been cooled down at the Air Handler to around 55°F 13°C.

We will build on this system by introducing the VAV system and additional control points. In a VAV system we can add another component of control and that is fan speed. See our video on fan laws to understand the savings potential, and our video on VAV systems which are commonly used in larger commercial buildings.

Fan speed is accomplished by adding a static pressure sensor in the main supply air ductwork. The static pressure sensor is an analog input device which measures the static pressure in the duct. As VAV zone dampers reduce their need for air, they close their dampers causing the pressure in the main supply air duct to increase which is sensed by the static pressure sensor.

The controller will receive the input signal from the pressure sensor that the pressure has increased, and then send a message to the fan to slow down by use of a VFD, variable speed drive. The controller compares the static pressure in the main supply duct to the setpoint and then modulates the supply fan VFD to maintain that static pressure setpoint.

As the demand for cooling decreases more, the static pressure setpoint can be reset downward to save additional energy. A similar device in a water-based system would be a differential pressure controller combined with two-way valves on the coils. In a heating hot water or chilled water system, as the modulating 2-way control valves at each coil begin to close, the increased pressure is sensed by the differential pressure controller, an analog input device.

This sends a signal to adjust the pump speed using a VFD to reduce the frequency or hertz delivered to the motor on the pump, thereby reducing the flow of water. All these points can be monitored by the BAS, building automation system for a more optimized and energy efficient system.

Using a thermostat with a control valve connected to a fan coil or radiator we can control the flow of heating hot water or chilled water, either of two ways. First, the 2-way flow control valve can be either a two-position valve, that is either open or closed binary , or modulating analog.

Using a two position control valve, when there is a demand for cooling or heating, the control valve opens all the way and you get full water flow whether you need it or not. The second method would have a modulating or proportional control valve accept a varying analog signal, like 4 to 20 milliamps.

Instead of two positions, full open or full closed, the valve will have various percentages of open. Skip To Main Content. For Your Business Solutions Machine Control HVAC Control. Smart HVAC control systems See how IoT and advanced automation solutions can strongly help the HVAC heating, ventilation, and air conditioning industry and machine builders to solve the equation: balancing costs and enhanced comfort while producing the lowest emission output possible.

Modern and sustainable HVAC strategies Powered by the Industrial Internet of Things IIoT , smart technology has gained a foothold in the HVAC industry. Taking advantage of these new technological advancements can deliver many benefits to the original equipment manufacturers OEMs.

Read the e-book opens in new Window. Beyond the pandemic, climate change remains a hot topic around the world. We help the HVAC industry and machine builders to benefit from technologies such as the Internet of Things IoT , automated control systems, and remote control access to make their HVAC equipment and business smarter more efficient, and sustainable.

Virtual tour Air-handling units Air-cooled chillers. Innovation Hub virtual tour Experience digitization through a showroom that replicates real-world scenarios. Discover our EcoStruxure HVAC solution demonstrated in a virtual tour. Plant mode control AHU temperature control Energy management Drive communication control PID.

Fan management Floating high-pressure control with variable-speed drives Compressor management Drive communication control Energy management PID.

Moreover, you can create zones for personalized. IAQ can be compromised due to a host of reasons. You must watch out for any pollutants seeping into your house for a healthy lifestyle. HVAC control systems can be an effective way to minimize the harmful effects of these pollutants.

They are designed to keep you healthy by constantly recycling and purifying the air you breathe. With the help of sensors, there is no need to repeatedly adjust the temperature manually. By investing in the latest HVAC technology , like a smart thermostat or a smart AC controller, you are directly contributing to acting on climate change.

It reduces the carbon footprint as well as electricity bills as your AC never runs unnecessarily. It is a win-win situation for both the consumer and the environment! Smart HVAC systems give you even more control and offer a variety of benefits.

When combined with smart technology, it can help prevent problems before they arise. For example, Cielo smart AC controllers send alerts when air filter cleaning is due. Some smart thermostats even detect if the AC is not performing well, which could be due to defective parts.

With timely measures, you can prevent maintenance cost and improve efficiency. Understanding the controls might initially feel overwhelming, but getting the hang of all the terms and functions will definitely make it a lot easier.

If you were reluctant to spend on an HVAC unit, now is a perfect time. Invest in a good control system, and enjoy greater efficiency and comfort in your living space all year round. Your email address will not be published.

Notify me via e-mail if anyone answers my comment. Post Comment. Transform your home into a comfy oasis with Cielo Smart Thermostats and Cielo Breez smart AC controllers. HVAC Controls: All You Need to Know Cielo.

HVAC Control Systems in Detail. Shop Cielo Smart Products. Cielo Smart Thermostat Next-gen smart thermostat for HVAC systems. Smart Thermostat Eco Budget-friendly smart thermostat for central HVAC systems. A thermostat that guarantees savings. Cielo Breez Max Award-winning smart AC controller for room air conditioners.

A design that magically blends. Cielo Breez Lite Smart AC controller that is engineered for affordable comfort. Small in size, big in benefits.

Cielo Smart AC Controllers Your best choice to make any mini-split, window, or portable AC smart. Shop Now. Leave a Reply Cancel reply Your email address will not be published. Recommended For You What Temperature to Set Your Thermostat in Winter?

The Ultimate Furnace Replacement Guide for Heat Pump vs. AC: Which One Is the Ideal Fit for Your Home? Smart Air Conditioning At Its Finest Transform your home into a comfy oasis with Cielo Smart Thermostats and Cielo Breez smart AC controllers. Recomended for you. What Temperature to Set Your Thermostat in Winter?

The Ultimate Furnace Replacement Guide for Skip To Main Content. For Your Business Solutions Machine Control HVAC Control. Smart HVAC control systems See how IoT and advanced automation solutions can strongly help the HVAC heating, ventilation, and air conditioning industry and machine builders to solve the equation: balancing costs and enhanced comfort while producing the lowest emission output possible.

Modern and sustainable HVAC strategies Powered by the Industrial Internet of Things IIoT , smart technology has gained a foothold in the HVAC industry. Taking advantage of these new technological advancements can deliver many benefits to the original equipment manufacturers OEMs.

Read the e-book opens in new Window. Beyond the pandemic, climate change remains a hot topic around the world. We help the HVAC industry and machine builders to benefit from technologies such as the Internet of Things IoT , automated control systems, and remote control access to make their HVAC equipment and business smarter more efficient, and sustainable.

Virtual tour Air-handling units Air-cooled chillers. Innovation Hub virtual tour Experience digitization through a showroom that replicates real-world scenarios. Discover our EcoStruxure HVAC solution demonstrated in a virtual tour.

Plant mode control AHU temperature control Energy management Drive communication control PID. Fan management Floating high-pressure control with variable-speed drives Compressor management Drive communication control Energy management PID.

Compressed Air Dryer. System solutions. Agricultural and Food Industry Air-conditioning in commercial applications Automotive Cleanrooms Convenience store Cultivation of mushrooms Data Center Die Casting Electronics and Hi-tech industries Evap.

cooling for chillers and drycoolers Evaporative cooling for AHUs Hospitals and Operating Rooms Hotels Hypermarket Industry and Process Museums, Libraries and Theatres Offices Painting and coating Pharmaceutical industry Plastic Industry Printing industry Production of bread and rusks crisp bread Remote operation centre Residential Restaurant chain Shopping centres Steam baths and Spas Textile industry Tobacco Industries Wine industry Wood industry.

Without them, it is impossible to monitor and regulate the indoor climate. For example, different types of controlled variables crucial for an HVAC unit include temperature, the flow of the air, humidity level, etc. If the set point temperature is 73, the sensor will detect the current room temperature, and if it is higher, it would start cooling.

A controller or a thermostat is a device that regulates the behavior of a system. It takes in input from sensors and processes that information to generate an intelligent output signal. Then, the required action is carried out.

For example, when the temperature rises above a certain level, the sensors detect it and send a signal to reduce the temperature to cool down the place.

Your best choice to make any mini-split, window, or portable AC smart. Enhance your comfort and savings. After the sensors collect information and relay it to the controllers, the controllers direct the dedicated device to perform specific actions. The HVAC control module is responsible for directing the output devices.

This computerized system governs all operations to adapt to changes in the environment so they can maintain desired conditions. There are two main types of control systems: pneumatic and electric.

Both of them require power to operate. The HVAC system in your home is powered by electricity, and the energy source for that electricity is your local utility company. But did you know there are other options for powering your HVAC system? One alternative energy source is solar power.

Solar panels can be used to generate electricity that can then be used to power your HVAC system. Solar power has several advantages, including being renewable and environmentally friendly. However, it is more suitable for commercial use and requires a substantial installation cost.

There are multiple types of HVAC control. All of them have their own advantages and limitations. Ultimately, deciding which type of HVAC control system to use depends on your specific needs and requirements. Pneumatic control systems are powered by compressed air.

Pneumatic controls are the most common type of HVAC control. They help HVAC work by providing a way to regulate the temperature and humidity in a space automatically. By using sensors and controllers, pneumatic control can help maintain a comfortable environment while saving energy.

They are simple to install and maintain. They are also less expensive than electronic controls. However, pneumatic controls are not as accurate as electronic controls, but they can be calibrated to compensate for inaccuracies.

Electric control systems are powered by electricity. They are typically used in environments where precision is important, such as automotive manufacturing or aerospace engineering. That said, they are also widely used in residential areas.

Electric control systems are more expensive to maintain than pneumatic control systems but offer greater precision and accuracy. Analog electronic control systems use electrical signals to control the various components of an HVAC system. They are used in multiple ways to help regulate the operation of these systems.

One common use is to control the speed of fans and other moving parts from the HVAC control board. This can help save energy and extend the life of the equipment. Additionally, analog electric controls can be used to monitor system performance and make adjustments as needed.

Analog electronic control systems are typically more reliable and easier to troubleshoot than digital electronic control systems. Nonetheless, the precision may be compromised. DDC systems transmit information over the internet for remote monitoring and control capabilities.

Digital electronic control systems use computerized algorithms to control the components of an HVAC system. As a result, they often offer more precise control over the various parts of the system, making them more energy-efficient.

Smart HVAC control systems and IoT technology play a big role in improving the comfort, efficiency, and convenience of heating, ventilation, and air conditioning systems. By leveraging the latest advances in machine learning and cloud computing, these solutions have been engineered to operate efficiently and lower energy costs, as well as reduce maintenance demands.

You can even make your ordinary HVAC unit smart right now by pairing it with a smart thermostat for ducted units or a smart AC controller for ductless units. The integration of IoT into smart HVAC controls allows for more robust management and control as multiple smart appliances can be connected and operated together.

By connecting thermostats to the internet via an IoT hub, these systems are enabled to access your preferences from anywhere, respond to voice commands from voice assistants like Alexa or Google Home with extraordinary accuracy, integrate with weather app to learn forecasts, and then optimize temperature settings accordingly.

It is important to know about your HVAC controls as they offer many benefits when it comes to indoor climate control. It is affected by many factors, including air speed, mean radiant temperature, relative humidity, clothing level, activity level and thermal adaptation.

Humidity and temperature are important factors to consider when optimizing your thermal comfort. In addition to heating and cooling your home, an HVAC system also helps maintain comfortable living conditions by removing excess water vapors that contribute to indoor humidity. Moreover, you can create zones for personalized.

IAQ can be compromised due to a host of reasons. You must watch out for any pollutants seeping into your house for a healthy lifestyle. HVAC control systems can be an effective way to minimize the harmful effects of these pollutants.

They are designed to keep you healthy by constantly recycling and purifying the air you breathe. With the help of sensors, there is no need to repeatedly adjust the temperature manually. By investing in the latest HVAC technology , like a smart thermostat or a smart AC controller, you are directly contributing to acting on climate change.

It reduces the carbon footprint as well as electricity bills as your AC never runs unnecessarily. It is a win-win situation for both the consumer and the environment! Search for a solution on your own, or connect with one of our experts. Skip To Main Content. For Your Business Solutions Machine Control HVAC Control.

Smart HVAC control systems See how IoT and advanced automation solutions can strongly help the HVAC heating, ventilation, and air conditioning industry and machine builders to solve the equation: balancing costs and enhanced comfort while producing the lowest emission output possible.

Modern and sustainable HVAC strategies Powered by the Industrial Internet of Things IIoT , smart technology has gained a foothold in the HVAC industry. Taking advantage of these new technological advancements can deliver many benefits to the original equipment manufacturers OEMs.

Read the e-book opens in new Window. Beyond the pandemic, climate change remains a hot topic around the world. We help the HVAC industry and machine builders to benefit from technologies such as the Internet of Things IoT , automated control systems, and remote control access to make their HVAC equipment and business smarter more efficient, and sustainable.

Virtual tour Air-handling units Air-cooled chillers. Innovation Hub virtual tour Experience digitization through a showroom that replicates real-world scenarios.

Discover our EcoStruxure HVAC solution demonstrated in a virtual tour. Plant mode control AHU temperature control Energy management Drive communication control PID.

Fan management Floating high-pressure control with variable-speed drives Compressor management Drive communication control Energy management PID. NIT Korea Co. Transtherm With the industrial internet looming large on the horizon, Transtherm partnered with Schneider Electric to futureproof its cooling systems, allowing for smart communication between machines and remote access, as well as energy efficiency and noise reduction gains.

Apps, Analytics and Services Edge Control Connected Products. Contact Sales Start your sales inquiry online and an expert will connect with you. Access mySchneider Get easy access to the latest digital tools, resources, business services, training sessions, and programs to grow and differentiate your business in the market.

Share your ideas Do you want to continue the discussion with HVAC professionals?