There are many manufacturers of power boards and surge protectors, so keep an eye out for brands like Belkin, CABAC and Monster Power. There are even surge protectors that are shaped like a cube that are stylish and perfect for smaller spaces.
Power boards also allow you to plug in as few as two cords and as many as 12 cords (or sometimes even more). Some come arranged in a straight line, while others are arranged in two rows. Look for options that include USB ports or outlets that rotate to fit larger plugs. Surge protectors and power boards come with a variety of features.
Many power boards also reduce the amount of energy needed to power your equipment, which can be helpful in reducing energy costs. A power board helps to keep cords neat and makes turning off multiple items at one time fast and easy. When using one power board, you can plug multiple devices into it. Instead, their job is to allow you to use one outlet to support more than one plug. It was designed for the IoT (Internet of Things) and is able to control hardware remotely and store/display data from sensors for any desired project. Arduino, NodeMCU, Raspberry Pi, Beaglebone Black, Particle Photon etc.). It can interact with various microcontrollers (e.g.
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Power boards don’t usually protect your equipment from power surges. Blynk is a platform compatible with both iOS and Android smartphones. You don’t want to need one, but not having it makes you vulnerable and unprepared. Surge protectors are like parachutes or life vests. A computer or piece of media equipment is only as safe as you make it. When there is a surge, sensitive equipment can become overloaded and “fried,” rendering it unusable. Surge protectors are much like power boards, but they are used mainly to protect the equipment that is plugged into one from power surges. You can plug in your monitor, printer, hard drive, desk lamp and more in one wall outlet using a power board. They help to keep all the cords that computers and computer desks often have tidy as well. With computers being a necessity in most homes, it is a smart idea to have a surge protector or power board to protect your investment and to help with energy consumption. In the last step, connect the positive terminal of the battery to the Arduino’s Vin pin and the negative terminal to the GND.Computer Surge Protectors and Power Strips Make sure to write down the time in seconds on the paper before placing it on the servo motor. A chiller’s efficiency is measured by the coefficient of performance (COP), which is the ratio of heating or cooling provided to electrical energy consumed. Similarly, make sure to connect the signal (yellow wire) to the D7 of the Arduino.Īfter making the connections, take out the paper and paste it on the servo motor so that the rotor can easily rotate around the paper. There are two types of high-efficiency chillers for HVAC systems: air-cooled chillers and water-cooled chillers. The Trigger and VCO are connected to the D9 and D10 of the Arduino respectively. Now, carefully make the connection according to the pin configurations seen above in the diagram. Place the Arduino on the breadboard and connect the Ultrasonic sensor with it first. Note that we have used a breadboard in this project to keep it easy and comfortable for you. Step 2: Schematics DiagramĪfter gathering all the components required, the next step is to connect them according to the Schematics given above. This is an Arduino based project where the ultrasonic sensor and servo motor plays a vital role. For this amazing and useful project, you need the following things: