Can a 12v motor run on 5v?

If you give a 6 V to 12 V motor, the motor will run at half of its rated speed and the Torque will also reduce.

The 9V batteries are weak because the other half of the story is how much current they can supply. … It’s possible to run a 12V motor on 9V, but it will run slower and with less Torque.

Typical DC motors may operate on as few as 1.5 Volts or up to 100 Volts or more. Roboticists often use motors that operate on 6, 12, or 24 volts because most robots are battery powered, and batteries are typically available with these values.

Operating a motor at a voltage below nominal generally has no detrimental effect on performance. In fact, running a motor at lower than nominal voltage (and, therefore, slower than nominal speed) can result in less brush and commutator wear (for brushed motors), lower current consumption, and longer motor life.

Yes, It is safe. You can connect your DC motor directly to your battery(if the voltages are same) . Your motor will work continuously ~100 hours in this battery.

When calculating the current draw in amps with a 12 VDC Motor you can use the following guidelines: 0.1 HP = 8 amperes. 0.2 HP = 17 amperes. 0.5 HP = 42 amperes.

Originally Answered: Can I run a 12v, 0.7 kW electrical motor with 12 V , 9 amp battery? Yes, you can, just probably not for very long at any useful speed/work. Yes, you can, just probably not for very long at any useful speed/work.

Yes,it will run,but not for long. All motors are basically made up of windings i.e. wires bundled together. To run a motor it is necessary for the windings to carry current through it. This current flows due to the application of voltage.

Your motor will run fastly and then it may damage , because you can run 12v motor on 9v power but you can’t do the higher voltage input on lower VTG load , yes you can use series resistor to reduce 12 v VTG in near 9v , but also decrease current so you can check motor speed enough or not .

A motor in itself can run at any voltage up to its rated voltage (and beyond provided a heat sink is added). The performance of the motor in terms of speed VS torque, and therefore the [speed;torque] operating point, will be decreased accordingly though.

A “5v” motor on a 3.7V battery will draw 3.7V. Depending on the winding , when spinning freely, it can draw a few milliamps, to several amps. If the motor stalls – if it’s not able to spin – then the power draw can shoot up based on the bare resistance of the coil. e.g. Lets say the winding is 0.02 Ohms resistance.

Over voltage. The windings in the coil have an insulation rating that will fail if the voltage is high enough causing arcing and again, burn out. Further, the brushes will arc more at higher voltages causing heat and faster wear.

Since, power is constant therefore, Voltage is inversely proportional to current drawn in the coils. Less Voltage ( or Under-voltage) gives rise to more current drawn, thus producing more copper losses(I^2 R) which results into heating in the coils which causes burning.

You can run at 48 volts as long as 1) you don’t exceed the maximum current, and 2) you don’t exceed the maximum speed. I regularly run 24 volt motors from a 120 or 160 volt DC bus, using a trans-impedance amplifier to control the current.

Short answer, Yes you can. The charging current will be the lowest of the two current ratings of device and charger.

Yes you can! the thing is you need voltage regulator which converts 6V ,1.5 A to 9V , 0.6A, however this will drain battery faster it has many other reasons.

A typical 12-volt battery used in a RV or marine craft has a rating 125 AH, which means it can supply 10 amps of current for 12.5 hours or 20-amps of current for a period of 6.25 hours.

DC motor is called that because it needs DC power input. So yes it can run from batteries, if their voltage and max current are right. Just connect it any way and you’ll see. The polarity can be connected in any way, it will affect only the direction of rotation.

The battery provides direct current, so the DC motor will not fail when connected to the battery. And if the battery can provide enough current, the DC motor will rotate.

If you were to run a 12v motor off a 24v battery the stall current could then be excessive if it weren’t limited by the controller. Therefore, provided you chose a controller suitable for the motor you use, you can usually run a motor 12v motor from a 24v battery with no effect except that full speed is doubled.

24v hooked to 12v will spin for a while on a full battery but there will be no torque. You could stop it with your hand. It is like running your motor with half the spark plugs missing.

The reduction in wire size cuts down the costs, as the thicker the wire the more costly it is. Another advantage of 24 volt supplies is that they are more compatible with AC appliances. However, in case you need a 12 volt supply, it is easy to step down the voltage from 24 volts to 12 volts using a charge controller.

yes a battery can be charged by motor.

Short answer – possibly. Batteries have a wide range of capacities, typically measured in Amp-Hours (sometimes Watt-Hours) which is more-or-less how many hours the battery can supply 1 amp. The battery in my truck is 70Ah, so it could supply 28 amps for around 2.5 hours.

Introduction: Emergency Mobile Charger Using DC Motor The charger works on the principal of DC motor being used as a generator converting mechanical energy to electrical energy. But since the voltage required by a phone is 5V a voltage regulator IC 7805 is used to get the desired output voltage from the DC motor.

No, you can’t use a 24v inverter with a single 12v battery. … No, it’s best to match the voltage of the inverter with the voltage of the battery bank for the safety and lifespan of the batteries. So if you have a 24 volt battery bank, you should use a 24 volt inverter.

12-volt lights are compatible with 24-volt systems – they use electricity and can be wired into the system. Light bulbs and light strips are designed to operate at slightly lower and slightly higher voltages. … The problem with adding them to a 24-volt system is the excess voltage.

12 Volt 100 Watt MY6812 Electric Motor.

Although motor gives 60 RPM at 12V, motor runs smoothly from 4V to 12V and gives the wide range of RPM, and torque.

Voltage: DC 12V. Maximum push/pull: Approx. 150kg/140kg.

No. You will need to use 120 volt inverter. This will convert 12V DC into 120V AC so your motor will run.

12 V motor will work well with 12 V battery, and will be fine up to the maximum voltage the battery goes when fully charged. This means it will work well up to 14 V.

Look for the stator core construction and rotor. If there is no commutator, then it is a AC motor. If there is a commutator and brushes, it may be either a DC motor or an AC commutator motor (Universal motor).

With the decrease in voltage, the torque will decrease and the RPM of the motor will also get decreased. The torque of the motor is directly proportional to the square of the supply voltage. With the decrease in voltage, the torque will decrease and the RPM of the motor will also get decreased.

You can use just about any motor to generate electric current, if it is wired correctly and you follow specific rules for its use. Modern AC induction motors are quite simple to wire as alternating current generators, and most will begin generating electricity the first time you use them.

Yes the speed of the DC motor is increased by increasing the armature voltage. Therefore, the speed of the motor is proportional to the applied DC voltage if the field flux is constant.

It isn’t really over volting the motor. A series DC motor wants to turn at a given RPM depending on the voltage under a load. The motor will draw current in an effort to reach that RPM. If you increase the load the current will go up and the RPM will drop somewhat.

The amount of current in a circuit depends on the voltage supplied: if the voltage is too high, then the wire may melt and the light bulb would have “burned out real time”. Similarly other electrical devices may stop working, or may even burst into flames if an overvoltage is delivered to the circuit.