Which mosfet is used in 100 watts inverter and its rating?
There are literally thousands of different MOSFETs that are suitable for such an application, each with different ratings. Thus there is no single answer possible here.
If we assume that the inverter is used in your car on 12 Volts DC and you are creating 120 VAC; and the 2500 watts refers to the AC side of inverter then for a resistive load Amps = Watts / Volts = 2500/120.
83.3333 Amps <<>> The answer to this question, how many watts are drawn from the battery, is dependant upon what the amperage of the connected load is. A 1000W rated inverter is the maximum amount of connected wattage load that can be used from the inverter. W = A x V.
One 150 watt inverter reports 0.2 Amps (=approx 2.4watts) Another inverter (180 watts?) reported 0.4 Amps If you find a fairly complete spec sheet, it may tell you the Amps or Watts that it uses under "No Load". I'm the originator of the question, and I discovered the "additional" specs.
A heat pump has a cop rating of 2.5 to 1 if 200 watts of electricity are used to run the heat pump how many equivalent watts are produced?
19.a heat pump has a COP rating of 2.5 to 1. If 200 watts of electricity are used to run the heat pump, how many equivalent watts(heat) are produced?
It depends. A depletion MOSFET can be used as an ehancemnet MOSFET when it is operated as an analog amplifier. However, a depletion MOSFET can't replace an enhancement MOSFET when it is operated as a digital switch. When a depletion MOSFET is used as a digital switch, since the junction between source terminal and substrate must be reverse biased, the voltage of the source terminal of an N typde transistor must be tied to Vdd… Read More
Watts is a RATING of power not energy therefore 100 watts is a constant no matter how long its running for.. watt-hours is a rating of energy and after 24hrs 2.4kilo-watt hours have been used this is around 30-40p worth!!
supposed to be MOSFET. but i also depends on your working freq.
each appliance should have a rating label showing the amps or watts used, Add up these figures to see if they exceed the capacity of the circuit. Amps =watts/voltage
Answer If, when you state "...240 watt 2.0amp..." you are indicating that 2 amps, or 240 watts at 120 volts, then that inverter will power a device which does NOT draw more than that amount of current. Check the plate or label on the compact fridge you want to power, and find the maximum current draw. For appliances, it will usually be stated in amps, rather than watts. If that amount is equal to or… Read More
The wattage rating of a recessed light is governed by the amount of heat it can dissipate. The wattage rating is set by a standards organization and has to be adhered to by the manufacturing company. The label that is on the recessed light fixture is the maximum size incandescent bulb that can be used in the fixture. Depending on the bulb size used in the fixture will reflect the amount of watts the recess… Read More
A MOSFET (metal oxide semiconductor field effect transistor) can be used INSTEAD of a BJT (bypolar junction transistor, so transistor is redundant in your question), if the circuit in question is modified to allow it and the MOSFET is chosen appropriately. BJT's will usually have a higher intrinsic gain, but have lower input resistance. Also a BJT in general will work better at higher frequencies than a MOSFET (unless you choose a high frequency MOSFET)… Read More
What wattage of voltage converter should be used to power a product that is 3400 watts and uses a power input of 110 volts?
Anything over 3400 watts is ok for a converter to power the product. The converter's rating is a maximum value so it can power anything up to 3400 watts.
A few Watts more output than one appliance used or a few Watts more output than The TOTAL ADDED POWER RATING OF ALL THE APPLIANCES CONNECTED TO THE GENERATOR. Usually Professional Electrical Engineers work using a simple calculation called THE DISTRIBUTION FACTOR, But to simplify matters for DIY just ADD all of the Wattage ratings together of all of the appliances and then ADD say about 20 Watts and the total is the required Wattage… Read More
One capable of being used at power rating of greater than about 10 watts, and generally requiring some means of cooling
cause MOSFET are mainly the comes into category of Semiconductors, main work of inverter is to switch the contacts within microseconds, here i want to give some constructional things so it could go easy to understand the things, 1] MOSFET has a three satates, i]Deplition ii]enhancement iii]pick When the current go through the system the work of 'mft' has start as a implementing the depletion region(increasing the electrons in emitter collector junction) as and as… Read More
Can a12v dc 2200 mA ac adaptor be used with a 300 Watt ac power inverter to save on electricity used on your lawn mower?
No. The formula for watts is amps X volts. 1000ma is one amp. So, 12V X 2.2A = 26.4 watts Your adaptor can only supply 26.4 watts. This is not enough for the invertor, which needs a little more than 300 watts. Also, chances are your mower needs more than 300 watts to run anyway. A mower that uses 300 watts would draw only 2.5 Amps. Check the nameplate on your mower, I would guess… Read More
An e-mosfet is and "enhancement" mosfet. A d-mosfet is a "depletion" mosfet. These essentially show what mode the mosfet operates in when a voltage is applied to the gate. . An enhancement mode mosfet is normally non-conducting but conducts when the channel is enhanced by applying a voltage to the gate and pulling carriers into the channel. A depletion mode mosfet normally conducts but becomes more and more non-conducting as carriers are depleted or pulled… Read More
It depends on the current being drawn by the computer's components. The voltage will remain constant at 230V and should have a maximum amperage rating labeled on the power supply. Multiply the volts times the max amp rating to find out the max wattage that the power supply can handle. The watts actually being used is probably lower than the rated max (and should be).
this IC is used as a regulated power supply A: DEFINITELY not it is an hex Schmidt trigger inverter function is Y=A inverter
This IC is mainly used in Inverter circuits. It's very compact and has a very high life in inverter circuits.
MAJOR COMPONENTS OF AN INVERTER An inverter design and components vary with requirements but following components are most commonly used in designing an inverter. 1. MICROCONTROLLER Microcontroller is the main and integral part of an inverter. The main working of microcontroller is to control the switching of signals according to the requirements. A single microcontroller can perform multiple functions (e.g.) generating PWM for switching, controlling the protection systems etc. There are various types and families… Read More
It is a memory device consisting of MOSFET and capacitor. It is used to store the data temporarily.
in inverter batteries
it invert the polarity of the in/out of the device. Inverter by definition invert one form to another form of energy [minus loss] so it can be used.
this type of IC is mainly used in inverter
A: Three sections one AC to DC converter and a DC to AC converter result inverter A: An inverter changes DC voltage to AC voltage. They are often used for UPS systems or for powering AC devices from automotive or boat batteries.
How do you use a common H bridge - FET Switchs for both inverter and battery charger application in a Sinewave offline UPS using PIC16F72 Micro controller?
In a sine wave inverter, during inverter operation the four switches of the H bridge are switched using sine wave PWM signals normally generated using a µ-controller or an analog circuit. One upper and the opposite lower switch is switched in sequence with necessary delay between the two. This will continue for one half cycle and the other two switch pairs are switched during the next half cycle to make a full sine wave output… Read More
Well, that all depends on the voltage of both the inverter and the charger. As long as the output of the inverter is the same voltage as the input on the charger, you should be fine. Example: Normal scooter charger is 110 volts. Inverter is a 12V DC to 110V AC inverter. (the type used to watch a household TV while in a car) and your scooter charger normally plugs into a wall socket in… Read More
It is 177, 000 watts ; but note that KWh is measure of power over time, so this means the equivalent of: one hundred and seventy seven thousands of watts of per power during 1 hour of time by rating . However, this doesn't mean you would have consumed that much in 1 hour because the calculation would account for this. So it could be said that you used 1770 watts in 100 hours in… Read More
FET's improve the switching frequency from KHZ to MHZ.. FET can be used as temperature sensor.. and mosfet is used as a switch..
The main factors governing this is dependent on the rating of heating element in watts, the temperature being used and the length of time the hair straightener is on. The average device usually draws 1500 watts. If the element remains on continuously for an hour, it would use 1.5 kilowatts per hour.
when n- channel mosfets are used to construct a circuit these are called nmos(N- channel mosfet).
If you know the power rating of an appliance and the voltage of the line it is attached to you can you calculate the current used by the appliance?
If I understood your question correctly, 'If you know the power rating of an appliance and the voltage of the line it is attached to, can you calculate the current used by the appliance?' You are looking for this equation: I = Current (Amps) P = Power Rating (Watts) V = Voltage (Volts) I = P/V This equation is useful when calculating the fuse rating for an appliance. For example, and appliance rated at 2400… Read More
In UPS ,the main power comes to the UPS and is used to charge a battery inside. The output from the battery is fed into a sine wave inverter which converts DC into AC and feeds to the computer in case of a power failure. In such a scenario, the battery is stopped from charging and instantly starts to supply power to the computer. In Inverter ,AC is converted into DC and then is used… Read More
Bisleri miniral water
1. BJT is a Bipolar Junction Transistor, while MOSFET is a Metal Oxide Semiconductor Field-Effect Transistor. 2. A BJT has an emitter, collector and base, while a MOSFET has a gate, source and drain. 3. BJTs are preferred for low current applications, while MOSFETs are for high power functions. 4. In digital and analog circuits, MOSFETs are considered to be more commonly used than BJTs these days. 5. The operation of MOSFET depends on the… Read More
You need the EER rating, that will let you calculate the power used. EER is a measure of efficiency, power input versus power output. The Energy Efficiency Ratio (EER) of a particular cooling device is the ratio of output cooling (in Btu/hr) to input electrical power (in Watts) at a given operating point (indoor and outdoor temperature and humidity conditions). one ton HVAC capacity = 12,000 BTU/hour = 3500 watts so if the EER is… Read More
[Power = watts] The power can be determined by multiplying the voltage and the amps. So for example if you have a 500 watt power inverter in your car. You want to know if your drill will be able to run with it plugged in. Figure it out like this. The label on the drill has (rated at 9.5 amps). Calculate volts X amps = watts. 110 volts x9.5 amps ------ 1045 watts So the… Read More
This information is written on the glass of the bulb. Incandescent bulbs are usually sold as 40, 60, 100, and 150 watts. Energy saving bulbs use much less, for instance a 20 watt energy saving bulb will produce about as much light as a 100 watt incandescent bulb. The watt reading on the bulb is the number of watts used per hour (ie kwh). Additional Answer The power of a lightbulb is printed on its… Read More
because mosfet supply sustem is simple.....so integrstion is done beter than bjt
This would be dependent upon the Resistance of the load being applied. Now, a 25-Amp/120V circuit can handle a max. power of 3000 watts, assuming that an 80% de-rating isn't being used. If it is, then a max. of 2400 Watts can be applied to the said circuit.
Answer #1: Anywhere from 1 (power saver) to 200 (filament/halogen). =========================================== Answer #2: It depends on the bulb and its rating. Household incandescent bulbs go from 2 watts to 200 watts depending on the design and materials used. =========================================== Answer #3: -- Incandescent bulbs are available ranging from 1.19 watts (PR2 flashlight bulb) to 700 watts (aircraft obstructon lighting beacon). -- LEDs start at about 0.02 watts. -- Halogen reflector lamps using 5,000 watts are… Read More
An inverter is used to change DC current into AC; e.g., you could plug an inverter into the cigar lighter socket of your car and then plug 110v AC-powered equipment into the inverter. A converter would be used in international travel where the voltage and frequency of AC current needs to be converted, for us Americans, into 110v, 60 cycle. Other countries often use 50 cycle and/or 220v. Our equipment would then work on the… Read More
Light bulbs have always used watts.
becoz it is very cheaper than germanium and also it is mainly used inducing negative ions (electrons ).
Boiler horsepower equals 9809.5 watts. It was used for rating steam boilers and is equivalent to 34.5 pounds (about 15.6 kg) of water evaporated per hour at 212 degrees Fahrenheit (100 degrees Celsius).
It's NOT a question of "better" . -They are different machines with different purposes. The inverter gets it's power from batteries, and is much used in submersibles and aircraft. A generator is powered by a gas motor and cannot be used in some locations.
Automotive battery is used for cranking purpose of a vehicle,it needs high current discharge at the time of ignition. Where as an Inverter battery used as a power bank and its discharge is need based at the time of power failure.
There are zero watts related to 1.8 amps. Watts are the product of amps times volts. The equation that is used to find watts is Watts = Amps x Volts. Insert the circuit voltage into the equation and you will find the circuit's wattage load.