A true voltage transformer is not designed for power applications; it will only supply so many VA to your charger. I would suggest you purchase a power transformer for this application. You'll need to rectify the AC voltage, and minimize the ripple. Rectifiers are used for the first part, capacitors, varistors, and power transistors can be used to minimize the ripple.
No, by doubling the input voltage to the charger which is just a transformer you will be doubling the output of the charger. Batteries like to be charged at about a volt and a half above their working voltage.
A battery charger is a DC voltage source followed by some kind of regulator that controls the current flowing into the battery. Depending on the type of battery, this regulator might be simple, based on current and/or voltage, or it might be complex, based on voltage slope. A transformer rectifier is simply one of the part of the DC voltage source.
The transformer used in mobile is pulse transformer which operates at very high frequency pulsating DC in order to make charger energy efficient and light weight.
A transformer that increases voltage is a step-up transformer.
Bumblebee was a Camaro, not a Charger..
If the charger is a new type of multi-voltage version. Look at the voltage range label.If it says110-240 Volts AC then it's ok .It will automatically adjust. Otherwise get a step down transformer from cpc.co.uk or Tandy stores.
The incoming voltage from the source to the transformer is called primary voltage.
Voltage Tarnsformer transforms only voltage. While power transformer transforms both voltage and current.
Ni-Cd , Ni-HM and other rechargeable batteries are in massive use now a days.Let me not describe the use , importance and bla bla of the rechargeable batteries.What we are going to talk about here is how to make simple battery charger circuit to recharge your rechargeable batteries.Making a battery charger circuit is very simple , Simply step down the mains voltage using a step down transformer and convert the current into DC and stabilize it using a bridge rectifier circuit.But you might not want to use a transformer in your circuit to maker your battery charger circuit small and handy.If you don't want to use a a transformer to step down the mains voltage then you can also use a resistor and a capacitor to step down the voltage and stabilize it.And you can see the circuit diagram of a battery charger below which is not using any transformer. Battery charger circuit diagram:So here is a simple battery charger circuit diagram:Click on the image to enlarge it:Battery charger circuit diagramYou can see the values of the components used below:R1: 56 giga ohms resistorR2: 220 Mega ohms resistorC1: 105 Kilo pico farad , 250 voltage capacitorD1: IN 4007 DiodeD2: Light emitting diode indicatorD3 : IN 4007 DiodeIf you use the values of the components stated above the circuit can recharge a 3 voltage rechargeable battery , You can change the value of R1 and C1 to get recharge battery of more voltage.
If the voltage needs to be increased from a lower voltage to a higher voltage a step up transformer is used. If the voltage needs to be lowered from a higher voltage to a lower voltage a step down transformer is used.
the voltage of a laptop charger is in between fifteen to twenty four voltage.
No. A transformer transforms electrical energy, from one voltage to another voltage.No. A transformer transforms electrical energy, from one voltage to another voltage.No. A transformer transforms electrical energy, from one voltage to another voltage.No. A transformer transforms electrical energy, from one voltage to another voltage.