tonchean Smart Voltage Transformer Converter
Specifications
- INPUT: 110-220V
- OUTPUT: 220-240V
- MAX LOAD CAPACITY: 400Watts
- FREQUENCY: 50/60Hz
- DIMENSIONS:5 x 6 x 2.6inch/19 x 15 x 6.5cm
- GROSS WEIGHT: 6lbs/2.75kg
- POWER CORD LENGTH: 4ft/1.2m
Introduction
If you have any questions, don’t hesitate to get in touch with us. Input voltage 110V-120V can be used for origin 110V power supplies (such as in the US, Canada, and Mexico) to 220V for devices from Europe and Asia.
You can utilize two 220V-rated devices at once, but the combined power must not be greater than the maximum 400W of the power converter transformer.
It has temperature control, lightning protection, and short circuit protection. The step-up voltage converter is pure wave, and there is no ominous hum or buzz in its operation. The power button has a small light that indicates whether it is on or off. Its size and form make it easy to tuck beneath objects like huge books.
If you live abroad and want to use appliances from your home country or if you want to use foreign appliances but the voltage is different, our product is ideal for you to use. For instance, if you live in the US but have an Italian coffee maker, you will need our product to change the voltage for the machine to work.
The step-up voltage converter is pure wave technology that features short circuit, lightning, and temperature management.
You may decorate it with numerous appliances in many circumstances thanks to the modern, elegant design. As it just takes up 7.5 x 6 x 2.6 inches of space, you may use it in the living room or the kitchen.
Before ordering our goods, please verify the voltage and power of your appliance. It is crucial to check and confirm the Maximum Power Consumption (MPC) of your appliance, which can be found on the device’s nameplate or in its user manual.
User Instructions
The truncheon Step up transformer has an output socket of 220V. It is used to step up the 110V voltage to 220V. It comes with a switch for power. It features a special design that is used to carry it easily. It also features two suction cups.
FREQUENTLY ASKED QUESTIONS
The operational characteristics of step up and step down transformers are what distinguish them most from one another. The output value is increased by a step up transformer while decreased by a step down transformer.
Power plants employ step-up transformers to generate the extremely high voltages required to transport electricity over the National Grid power lines. Step-down transformers are used locally to lower the voltage to safe levels because these high voltages are too harmful to use in the home.
Step-up transformers reduce secondary coil current while raising secondary coil voltage. Transformers can only operate on ac current because the coil’s flux does not change with DC current.
Step-up transformers are typically used by power companies to raise the voltage for improved energy transmission throughout the power grid. Step-down transformers take that voltage and lower it to a safe level that can be used in industrial machinery, domestic appliances, and other applications.
The transformer’s power loss is the primary cause. As a result, the total losses in a transformer are solely dependent on volt-ampere (VA) and not on the load’s power factor. The transformer rating is indicated in kVA rather than kW for this reason.
The electromagnetic induction and mutual induction laws of Faraday are the foundation of how the transformer operates. On the transformer core, there are typically two coils: a primary coil and a secondary coil. Strips are used to link the core laminations.
A step-down transformer operates primarily using the electromagnetic induction principle. Faraday’s first law of electromagnetic induction states that a conductor exposed to a fluctuating electromagnetic field will experience an induced current proportional to the rate of flux change.
Electrostatic dust precipitators, insecticides, any cathode ray tube TVs or monitors still in use, plasma TVs, electric-ignition gas appliances, electrostatic speakers, and ionic speakers.
Because the output and input powers are the same and the only source is the signal (incoming AC voltage), a transformer is not an amplifier. An amplifier can increase the signal voltage without decreasing the output current.
Voltages are ‘stepped up’ or increased using step-up transformers. These are utilized when the power plant steps up its electrical output from 25,000 V to 275,000 V or 400,000 V for transportation throughout the UK. The secondary coil of a step-up transformer has more wire turns than the primary coil.
A unit of electric power is called a kW, or kilowatt. It measures how quickly energy is transported and is equal to 1,000 Joules per second. This implies that 1 kVA is equivalent to 1 kW in DC circuits. As a result, 1 kVA is equivalent to 1,000 watts.
In order to help the protective devices in the circuit work properly, neutral transformer grounding acts as a permanent and continuous conductive connection to “earth” with enough capacity to carry any fault current and low enough impedance to keep the voltage rise above ground to a minimum.
The inverter transformer and the saturable transformer have complementary roles. A Jensen circuit with a power and saturable transformer is seen in Figure 6B. The inverter transformer also serves as the power transformer.
Television A step-up transformer converts 120V to 48,000V for the CRT in a television. The transformer’s secondary side has 20,000 turns and produces 1.0 mA.
