Experience the power of ignition! Learn how to build a powerful induction heater with a single transistor in this unique DIY project. In this video you will find step by step instructions and detailed explanations on how to create a high power induction heater using a single transistor. You will get information about circuit diagram, coil design, parts list and assembly process, and learn the steps needed to make your own induction heater. We will also emphasize safety precautions, warnings and tips throughout the video. Create your own induction heater with an exciting DIY project and harness the power to heat metal objects instantly
Induction heating, basic principles and technologies. How to make an induction heater with your own hands
Induction heating is at the heart of a new way of heating residential buildings. The unit uses electromagnetic energy for heating. Water is used as a heat carrier in the device. An induction boiler can be purchased ready-made at the factory, or you can make it yourself. I will tell you about the features of the device and its assembly.
The induction device works on the energy generated by the electromagnetic field. It is absorbed by the coolant, then returns it to the premises:
An inductor creates an electromagnetic field in such a water heater. It is a multi-turn cylindrical wire spool.
Passing through it, an alternating electric current around the coil generates a magnetic field.
Its lines are placed perpendicular to the electromagnetic flux vector. When moved, they recreate a closed circle.
Eddy currents created by alternating current convert electrical energy into heat.
Thermal energy during induction heating is expended sparingly and at a low rate of heating. Thanks to this, the induction device brings the water in the heating system to a high temperature in a short time.
Device Features
Induction heating is achieved using a transformer. It consists of a pair of windings:
external (primary);
internal (secondary) short circuit.
Eddy currents occur in the deep part of the transformer. They redirect the emerging electromagnetic field to the secondary circuit. It simultaneously performs the function of the body and acts as a heating element for water.
With an increase in the density of vortex flows directed to the core, it heats up first, and then the entire thermal element.
To supply cold water and remove the prepared coolant from the heating system, the induction heater is equipped with a pair of pipes:
The lower part is installed at the entrance to the water supply.
The upper branch pipe - to the supply section of the heating system.
Experience the power of ignition! Learn how to build a powerful induction heater with a single transistor in this unique DIY project. In this video you will find step by step instructions and detailed explanations on how to create a high power induction heater using a single transistor. You will get information about circuit diagram, coil design, parts list and assembly process, and learn the steps needed to make your own induction heater. We will also emphasize safety precautions, warnings and tips throughout the video. Create your own induction heater with an exciting DIY project and harness the power to heat metal objects instantly
Induction heating, basic principles and technologies. How to make an induction heater with your own hands
Induction heating is at the heart of a new way of heating residential buildings. The unit uses electromagnetic energy for heating. Water is used as a heat carrier in the device. An induction boiler can be purchased ready-made at the factory, or you can make it yourself. I will tell you about the features of the device and its assembly.
The induction device works on the energy generated by the electromagnetic field. It is absorbed by the coolant, then returns it to the premises:
An inductor creates an electromagnetic field in such a water heater. It is a multi-turn cylindrical wire spool.
Passing through it, an alternating electric current around the coil generates a magnetic field.
Its lines are placed perpendicular to the electromagnetic flux vector. When moved, they recreate a closed circle.
Eddy currents created by alternating current convert electrical energy into heat.
Thermal energy during induction heating is expended sparingly and at a low rate of heating. Thanks to this, the induction device brings the water in the heating system to a high temperature in a short time.
Device Features
Induction heating is achieved using a transformer. It consists of a pair of windings:
external (primary);
internal (secondary) short circuit.
Eddy currents occur in the deep part of the transformer. They redirect the emerging electromagnetic field to the secondary circuit. It simultaneously performs the function of the body and acts as a heating element for water.
With an increase in the density of vortex flows directed to the core, it heats up first, and then the entire thermal element.
To supply cold water and remove the prepared coolant from the heating system, the induction heater is equipped with a pair of pipes:
The lower part is installed at the entrance to the water supply.
The upper branch pipe - to the supply section of the heating system.
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