Whether you're in a factory, a workshop, or a laboratory, the need for precise and efficient heating is universal. Induction heaters are a cornerstone of modern industrial processes, offering a powerful and clean alternative to traditional heating methods. At their core, these systems use electromagnetic fields to generate heat directly within a material.
An induction heater is comprised of two essential parts: a high-frequency generator and a heating station, which houses the inductor. The generator is the powerhouse, converting standard electrical current into a high-frequency alternating current. This current then flows through the inductor, creating a rapidly changing magnetic field.
When a conductive material is placed within this magnetic field, a fascinating phenomenon occurs. Eddy currents are induced within the material, and these swirling currents generate heat due to the material's internal resistance. This process is incredibly efficient because the heat is created directly inside the object, with very little energy wasted on heating the surrounding air.
Our induction heating units are built with advanced semiconductor technology, which allows for optimal overall system efficiency. This sophisticated design ensures that you get the most out of every watt of power.
We offer both mobile and stationary induction heater versions to fit a variety of needs. Our stationary units are ideal for fixed production lines and large-scale operations, providing robust, continuous power. For more flexible applications, our mobile units offer the same high-performance heating in a compact, portable design, allowing you to bring the power of induction heating wherever it's needed.
Induction heating is a testament to how modern technology can revolutionize classic processes, delivering superior efficiency and control. Whether you're annealing, soldering, or forging, a well-designed induction heater can provide the precision you need.
Here, you will find energy-saving heating equipment!
Fast heating speedStepless power regulationStrong anti-interference ability98% energy utilization
Application scope of products: plastic andrubber equipment, industrial heating, pipelineheating, boiler, heating, petroleum, etc
Products Description
| rated power | Three-phase 80KW |
| Rated input current | 110-120(A) |
| Rated output current | 180-200(A) |
| Rated voltage frequency | AC 380V/50Hz |
| Voltage adaptation range | constant power output at 300 ~ 400V |
| Power adjustment range | 20% ~ 100% stepless adjustment(That is: adjustment between 0.5 ~ 80KW) |
| working frequency | 5~40KHz |
| Power overload protection | 130% instantaneous protection |
| Soft start mode | Fully electrically isolated soft start heating / stop mode |
| RS485 communication | Modbus RTU standard communication protocol |
| Support PID adjustment power | Identify 0-5V input voltage |
| Support 0 ~ 1000 ºC load temperature detection | Accuracy up to ± 1 ºC |
| Adaptive coil parameters | 50 square line, length 50m, inductance 110 ~ 120uH |
| Coil to load distance(Thermal insulation thickness) | 20-25mm for circle, 15-20mm for plane, 10-15mm for ellipse and within 10 mm for super ellipse |
Whether you're in a factory, a workshop, or a laboratory, the need for precise and efficient heating is universal. Induction heaters are a cornerstone of modern industrial processes, offering a powerful and clean alternative to traditional heating methods. At their core, these systems use electromagnetic fields to generate heat directly within a material.
An induction heater is comprised of two essential parts: a high-frequency generator and a heating station, which houses the inductor. The generator is the powerhouse, converting standard electrical current into a high-frequency alternating current. This current then flows through the inductor, creating a rapidly changing magnetic field.
When a conductive material is placed within this magnetic field, a fascinating phenomenon occurs. Eddy currents are induced within the material, and these swirling currents generate heat due to the material's internal resistance. This process is incredibly efficient because the heat is created directly inside the object, with very little energy wasted on heating the surrounding air.
Our induction heating units are built with advanced semiconductor technology, which allows for optimal overall system efficiency. This sophisticated design ensures that you get the most out of every watt of power.
We offer both mobile and stationary induction heater versions to fit a variety of needs. Our stationary units are ideal for fixed production lines and large-scale operations, providing robust, continuous power. For more flexible applications, our mobile units offer the same high-performance heating in a compact, portable design, allowing you to bring the power of induction heating wherever it's needed.
Induction heating is a testament to how modern technology can revolutionize classic processes, delivering superior efficiency and control. Whether you're annealing, soldering, or forging, a well-designed induction heater can provide the precision you need.
Here, you will find energy-saving heating equipment!
Fast heating speedStepless power regulationStrong anti-interference ability98% energy utilization
Application scope of products: plastic andrubber equipment, industrial heating, pipelineheating, boiler, heating, petroleum, etc
Products Description
| rated power | Three-phase 80KW |
| Rated input current | 110-120(A) |
| Rated output current | 180-200(A) |
| Rated voltage frequency | AC 380V/50Hz |
| Voltage adaptation range | constant power output at 300 ~ 400V |
| Power adjustment range | 20% ~ 100% stepless adjustment(That is: adjustment between 0.5 ~ 80KW) |
| working frequency | 5~40KHz |
| Power overload protection | 130% instantaneous protection |
| Soft start mode | Fully electrically isolated soft start heating / stop mode |
| RS485 communication | Modbus RTU standard communication protocol |
| Support PID adjustment power | Identify 0-5V input voltage |
| Support 0 ~ 1000 ºC load temperature detection | Accuracy up to ± 1 ºC |
| Adaptive coil parameters | 50 square line, length 50m, inductance 110 ~ 120uH |
| Coil to load distance(Thermal insulation thickness) | 20-25mm for circle, 15-20mm for plane, 10-15mm for ellipse and within 10 mm for super ellipse |
