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• DC6-28V ZS-X12H 0-100W Brushless Motor Speed Controller With Hall BLDC Driver Board Module With Cable Power Supply Accessories 1 Using fantastic materials, the quality is guaranteed 2 Single chip mini has Hall BLDC large voltage 6-28V, rated 3 three Small length embedded, brushless with Hall controller, nice functionality and a number of purposes four Almost all small motors with Hall can power stably 5 There is a potentiometer at the board for speed regulation, and it's despatched to the Hall lead-out cable Product parameters: Product name: Three-phase DC brushless with Hall drive Model: ZS-X12H (with Hall) Working voltage: 6-28V (limit 30V) Drive Current: Rated 3 Peak 4A Current-limiting and locked-rotor protection: current-limiting protection when the current exceeds 4A, and the motor is locked-rotor for five seconds for shutdown protection Product Notes: 1 This driver is a DC three-phase brushless with Hall driving force board The motor must have Hall and connect the line collection to work normally 2 Since the ahead and opposite rotation is a non-delay challenging commutation and high-speed braking, there will be an excellent impact, so those two purposes cannot be operated at high voltage and whole speed, and the speed control accelerator needs to be lowered to 50% or beneath Yes, forcible operation may injury the ability tube and chip 3 The power of this module is small (up to 100W), and the overload ability is weak It must be used with a margin It isn't allowed to hook up with a high-power motor for paintings or verify mechanical device Forcible paintings has the chance of affect damage to the power tube It is usually recommended to use 12V strength delivery within 42W, 24V Power supply inside 84W 4 This force is a low-power fan brushless with Hall drive, and it would also be embedded in different techniques It is specifically used for air pumps, water pumps, oil pumps, fans, and many others and commercial control electric motors of small area and coffee strength DC three-phase brushless motors Small tools, etc, aren't compatible for high-power motors akin to long-term full-load latest work, it is strongly recommended to reinforce heat dissipation 5 There isn't any fuse in the strength delivery circuit at the main board It is suggested to add it on your own The reverse connection of the high quality and destructive poles of the ability delivery will cause everlasting harm to some chips on the board (even for 1 second) Debugging instructions: Please read and understand, and then check the mechanical device After receiving the driving force board, first examine whether or not the interface can correspond to your brushless motor interface 1 There are commonly five Hall cables or interfaces at the brushless motor, two of that are Hall strength delivery strains and 3 are Hall sign lines, which ought to be distinguished, particularly the Hall strength delivery strains (the Hall strength supply strains commonly use purple and black traces , some are not, I don’t understand how to find a fashion find a motor producer to ask for it) Don’t get it unsuitable The 3 Hall signal strains are generally marked with a(Ha) b (Hb) c(Hc), and there are also 3 ports Ha Hb Hc at the motive force board, and so forth characters, such as each other 2 There are 3 comparatively thick part wires at the motor There also are 3 part cord interfaces on the power board They are respectively marked with A(U) B(V) C(W) and other same characters, and they are also related correspondingly and confirmed wisely After the key power supply is energized, turn on the potentiometer throttle by way of about 20%, and it would rotate usually and smoothly (If the interfaces are correctly mapped per the labels, the ability delivery will not paintings properly, and the possibility of non-standard labeling via the manufacturer or other causes cannot be ruled out Please press the following three because the interface definition is unclear to debug) three If you don't know the definition of the motor part twine and the Hall wire, or the manufacturer&;s mark isn't always standardized, it can&;t work normally, you then can blindly connect it consistent with the ensuing system after which slowly replace the Hall cord sequence, first join the three phases of the motor The line and the part line interface of the power board are related arbitrarily There are 5 Hall sign traces on the motor and three Hall sign traces on the force board The three Hall signal ports on the power board ought to be linked The leading board will provide 5V power supply, one of the crimson 5V and one black ground twine of the corridor lead cord we despatched must have the option to hook up with the motor hall energy delivery wire, remember!!!) After checking that every one connections are correct, strength on for low voltage (6-12V) small current (0) power-on debugging (if situations permit, use fixed recent power delivery or low-power strength delivery plus latest proscribing resistor, etc), switch on the potentiometer on the board to regulate the speed throttle by means of about 20%, if the motor If it doesn't turn or there are other irregular phenomena, the power is grew to become off immediately, after which the sequence of the three section wires of the motor is modified back (because the phase wire interface on our pressure board is a terminal, it is extra handy to connect and disconnect the wire, so I use the motor phase wire to interchange the wire If the phase line of the motor is fixed, the sequence of the 3 Hall sign traces is the same, and it will depend on own preference), till it should rotate easily after power-on, indicating that the wiring is correct There are 6 different combinations of line collection change List it out: If the present order of the linked part wires is explained as ABC, it can be changed to ACB BAC BCA CAB CBA These combinations are switched as soon as and the electrical examine mechanical device is became on Only this type of 6 combos is true four When the wiring is incorrect and the operation isn't normal, don't verify the mechanical device with excessive latest and high voltage, in any other case there is a menace of detrimental the pressure board After the 3 motor part traces are exchanged, if the road series is correct, the motor will run silky delicate and begin at low pace after power-on The stable torque is large; if the 3 motor phase wires are usually not related in sequence, Generally have the following traits listed below: 1 After the power is turned on, the motor cannot start usually and has no response, or it solely shakes when it starts and can't rotate normally 2 There is a slight shaking, it's hard to start, and it can&;t flip up and makes a slight tub sound, and infrequently it should be manually became to turn it up three The motor can rotate in a single direction, but can not rotate within the other direction and there is a slight shower sound four The motor begins to vibrate vastly and is weak, there is a tub sound, the present is obviously too large, and the flexibility tube is clearly heated Product interface description: 1 B C part line output to motor 2 VCC GND leading power delivery (external DC power supply) three PWM exterior duty cycle pace control sign input (PWM sign amplitude 3-5V, frequency 1KZ-20KHZ) This interface supports full-speed operation when connected to 5V, and prevents when grounded four tachometer pulse signal output (only the interface is reserved, no technical support) five DIR forward and opposite management interface (active low level would be related to the floor exterior switch) 6 brake control interface (active low point could be linked to ground external switch) 7 Hb Hc +5V GND Hall sign strength delivery input interface, commonly motors with Hall have corresponding 5 wires Package list: Motor Controller X1

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