The max current is 60A as marked by Vedder. Can handle higher continuous current than VESC4.Three shunts design (means the ESC can measure each motor cable’s working current, ESC can work more precisely and has better working performance).Has great FOC function, quite, low consumption.The Max current spec is : 50A as marked in Vedder’s original design. handle lower current : can only handle continuous less than 30A safely.2 Shunts design (Means ESC only measure the 2 cable’s working current of the motor, and calculate the third one in theory).
The most significant improvement was changing how the Analog to Digital Converter (ADC) worked with the Serial Peripheral Interface (SPI), allowing users to gather more relevant data, giving them more control of their electric skateboards. And the version of VESC developed keeps updated. For example, between version 4.0 and version 4.5, various changes occurred, including re-designing the product and adding a temperature sensor to protect the engine from overheating. Over time there have been multiple versions of VESC, each one incorporating suggestions from the online community. Now that we know a little more about this fantastic technology, let’s look at how it was initially discovered. The VESC will be able to help you set how high these limits can go, ensuring that a steep incline doesn’t cause you to send too many amps to the wheels, overloading the electrical circuits. For example, if you are going up a hill, you will need to increase the number of amps sent to the wheels. The voltage describes how powerful each component is, while the amp describes how much electricity it is receiving. To make sure that you set the controls correctly, you need to understand the difference between voltage and amps. There are a few critical factors that you need to understand when setting the safe parameters. By controlling these functions, you will be able to protect all the electrical components of your skateboard from getting overworked, ensuring that your electric skateboards will last for longer. For example, you can set the maximum power that the engine can use, which will prevent the engine from burning out too early. One of the most significant benefits is that you will be able to set parameters that ensure that the motor operates safely. You can do an instruction, like increasing the speed and the VESC will relay the instructions to the motors. It tells your motor how hard to push or how strong to brake. It’s the CPU of the board. The Electronic Speed Controller (ESC) is the brain of your electric skateboard.
It’s quickly become popular among the electric skateboard community. Vedder tested it in his electric skateboard, due to its strong compatibility and programming feature. VESC is an open source ESC (electric speed controller), it’s named by its creator, Benjamin Vedder, Vedder’s ESC. Actually it's an amazing product that can be used in many application field. Other props from T-MOTOR are available for custom arm sets)VESC is very hot in electric skateboard world.
carbon is a new patent polymer folding prop series of high RPM, high efficiency, and strong power.The efficient, accurate and stable motor control from intelligent algorithm meets the demand of various applications. Smart and EfficientFOC (sine wave) ESCs are default match for the arm sets. The tube sizes available are 30mm and 25mm with an adapter ring to switch from one to anotherįEATURES of Multirotor DC Brushless Motor Mount Set This is a coaxial arm set series for industrial drones with motors, FOC ESCs and X T-MOTOR U8II 100KV BLDC Motor Integrated with Electronic Speed Controller Propulsion System Integration (X-COAXIAL)