{"product_id":"zalati-motor-drive-controller-board-l298n-dual-h-bridge-dc-stepper-motor-driver-module-compatible-with-arduino","title":"zalati Motor Drive Controller Board L298N Dual H Bridge DC Stepper Motor Driver Module Compatible with Arduino","description":"\u003ch3\u003ezalati Motor Drive Controller Board L298N Dual H Bridge DC Stepper Motor Driver Module Compatible with Arduino\u003c\/h3\u003e\n\u003cp id=\"b\"\u003eDescription: This module uses L298N as the main drive chip with strong drive\ncapability, low heat generation and strong anti-interference ability. Built in\n78m05 drive power supply parts work flawlessly. However, to avoid damage to\nthe voltage regulator chip, please use the external 5V logic power supply when\nusing a drive voltage greater than 12V. By using a large capacity filter\ncapacity, a passage protection diode can improve reliability. Notes: 1. If you\nuse the voltage (see above logo for the 12V input, can actually take an input\nrange of 7 to 12V) for 7V to 12V, you can connect 5V logic to the on-board\npower supply when using the integrated power supply. After the 5V power\nsupply, the interface is +5V. The power supply does not output input voltage,\nbut can supply a 5V voltage for external use delivery n. Notes: 2. If the\ndrive voltage is higher than 12V, it is less than or equal to 24V (the chip\nmanual suggests supporting 35V, but according to the book. When the maximum\nvoltage is applied to the maximum voltage of 298 conservative applications,\nthe motor should be operated with a rated voltage of 18 V. You must first\nremove the 5V output of the board to activate the jumper cap. Then 5V is\naccessed outside the 5V output port. The 5V allows the power supply control\nsignal with a level of 5V. If the signal input is valid and the power supply\nin the motor drive module is normal, the motor drive module outputs the power.\nOtherwise, there is no electricity, even if the power supply is normal on the\nmotor. Package: 1 x zalati motor drive controller board.\u003c\/p\u003e \n\n\u003ch3\u003eProduct Features\u003c\/h3\u003e\n  \u003cul class=\"a\"\u003e\n         \u003cli\u003eThis module uses L298N as the main drive chip with strong drive capability, low heat generation and strong anti-interference ability.\u003c\/li\u003e\n         \u003cli\u003eBuilt in 78m05 drive power supply parts work flawlessly. However, to avoid damage to the voltage regulator chip, when using a drive voltage greater than 12V, please use the external 5V logic power supply.\u003c\/li\u003e\n         \u003cli\u003eBy using a large capacity filter capacity, a passage protection diode can improve reliability.\u003c\/li\u003e\n         \u003cli\u003eNotes: 1. If you use the voltage (see above logo for the 12V input, can actually take an input range of 7 to 12V) for 7V to 12V, you can connect 5V logic to the on-board power supply when using the integrated power supply. After the 5V power supply, the interface is +5V. The power supply does not enter input voltage, but can supply a 5V voltage for external use delivery n.\u003c\/li\u003e\n         \u003cli\u003eNotes: 2. If the drive voltage is higher than 12V, it is less than or equal to 24V (the chip manual suggests supporting 35V, but according to the book. When the maximum voltage is applied to the maximum voltage of 298 conservative applications, the motor should be operated with a rated voltage of 18 V. You must first remove the 5V output of the board to activate the jumper cap. Then 5V is accessed outside the 5V output port.\u003c\/li\u003e\n  \u003c\/ul\u003e","brand":"zalati","offers":[{"title":"Default Title","offer_id":45749865152665,"sku":"de-B0CNT6KKZ6","price":100.0,"currency_code":"AUD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0491\/3148\/7385\/files\/de-B0CNT6KKZ6.jpg?v=1775753020","url":"https:\/\/soundstores.net\/products\/zalati-motor-drive-controller-board-l298n-dual-h-bridge-dc-stepper-motor-driver-module-compatible-with-arduino","provider":"SoundStore Australia","version":"1.0","type":"link"}