Heavy-duty medium frequency water cooled capacitor is a crucial component in various high-power applications, such as induction heating, resonant circuits, medical imaging, heat treatment, plasma applications, wireless power transfer, EV charging, IPT, and high-frequency inverters. This type of capacitor is designed to improve power factor or circuit characteristics by reducing losses and enhancing efficiency. In this article, we will explore the features, applications, and operating conditions of heavy-duty medium frequency water cooled capacitor.

The Features of Water-Cooled Capacitor

Polypropylene Water-Cooled Capacitor: Heavy-duty medium frequency water cooled capacitor is made of polypropylene, which is a high-quality dielectric material that ensures low losses and high power handling capacity. The water-cooled design of the capacitor allows for efficient cooling, which further enhances its performance and reliability.

High Power Self-Healing Capacitor: Heavy-duty medium frequency water cooled capacitor is a self-healing capacitor, which means that it can recover from minor faults or damages caused by overvoltage or overcurrent. This feature ensures the longevity and durability of the capacitor, even in harsh operating conditions.

Low ESR: Heavy-duty medium frequency water cooled capacitor has a low equivalent series resistance (ESR), which means that it can handle high-frequency currents without significant losses or heat generation. This feature is essential for applications that require high power density and efficiency.

Low Losses: Heavy-duty medium frequency water cooled capacitor has low losses, which means that it can operate at high efficiency and reduce energy consumption. This feature is crucial for applications that require high power output and long operating hours.

Easy to Mount: Heavy-duty medium frequency water cooled capacitor is easy to mount and install, which saves time and effort during the assembly process. The capacitor comes with a welded cooling water pipe for efficient cooling, and the case is made of aluminum alloy or brass plate, which reduces heat generation caused by eddy currents.

The Applications of Water-Cooled Capacitor

Heavy-duty medium frequency water cooled capacitor is widely used in various high-power applications, such as:

Induction Heating: Heavy-duty medium frequency water cooled capacitor is used in induction heating systems to improve power factor and reduce losses. The capacitor is connected in parallel with the load to compensate for the reactive power and enhance the efficiency of the system.

Resonant Circuits: Heavy-duty medium frequency water cooled capacitor is used in resonant circuits to store and release energy at high frequencies. The capacitor is connected in series with the inductor to form a resonant circuit, which can generate high voltages and currents for various applications.

Medical Imaging: Heavy-duty medium frequency water cooled capacitor is used in medical imaging systems, such as MRI and CT scanners, to generate high-frequency magnetic fields. The capacitor is connected in parallel with the coil to store and release energy, which creates a strong magnetic field for imaging purposes.

Heat Treatment: Heavy-duty medium frequency water cooled capacitor is used in heat treatment systems to generate high-frequency currents for heating and hardening metals. The capacitor is connected in parallel with the load to compensate for the reactive power and enhance the efficiency of the system.

Plasma Applications: Heavy-duty medium frequency water cooled capacitor is used in plasma applications, such as plasma cutting and welding, to generate high-frequency currents for ionizing gases. The capacitor is connected in parallel with the load to compensate for the reactive power and enhance the efficiency of the system.

Wireless Power Transfer: Heavy-duty medium frequency water cooled capacitor is used in wireless power transfer systems, such as wireless charging pads, to store and release energy at high frequencies. The capacitor is connected in series with the inductor to form a resonant circuit, which can transfer power wirelessly to the receiver.

EV Charging: Heavy-duty medium frequency water cooled capacitor is used in EV charging systems to generate high-frequency currents for fast charging. The capacitor is connected in parallel with the load to compensate for the reactive power and enhance the efficiency of the system.

IPT: Heavy-duty medium frequency water cooled capacitor is used in IPT (inductive power transfer) systems to transfer power wirelessly between two coils. The capacitor is connected in series with the inductor to form a resonant circuit, which can transfer power wirelessly to the receiver.

High-Frequency Inverters: Heavy-duty medium frequency water cooled capacitor is used in high-frequency inverters to store and release energy at high frequencies. The capacitor is connected in parallel with the load to compensate for the reactive power and enhance the efficiency of the system.

 The Operating Conditions of Water-Cooled Capacitor

Heavy-duty medium frequency water cooled capacitor has the following operating conditions:

The altitude of the installation and operation area does not exceed 1000m.

The installation site should be free from dust, moisture, and corrosive gases.The ambient temperature should be between -25°C and +55°C.

The relative humidity should not exceed 90%.

Conclusion

Heavy-duty medium frequency water cooled capacitor is a crucial component in various high-power applications that require high efficiency, low losses, and reliable performance. This type of capacitor is designed to improve power factor or circuit characteristics by reducing losses and enhancing efficiency. With its polypropylene dielectric material, water-cooled design, self-healing feature, low ESR, and low losses, heavy-duty medium frequency water cooled capacitor is the ultimate solution for high-power applications.If you want to learn more about this product, please contact.liv@sunraylink.com