High - Energy Ceramic Composite Resistors: Unrivaled Performance in High - Energy and High - Voltage Applications

In the demanding world of high - energy and high - voltage applications, our high - energy ceramic composite resistors stand out as the go - to solution, offering unparalleled performance. These resistors are not just ordinary components; they are engineered with precision to meet the most challenging requirements.​
Exceptional Design for Specific Applications​
Our non - inductive ceramic composite resistors are meticulously designed for applications such as pulse shaping, clamping, and capacitor charging and discharging. In these scenarios, low inductance, along with the ability to handle extreme voltage and energy, is of utmost importance. They are an ideal fit for pulse power systems, where they play a crucial role in evenly distributing energy within their structure. This energy distribution mechanism effectively reduces thermal stress, ensuring the long - term reliability and durability of the resistors, even under continuous high - energy operations.​
Key Performance Parameters​
Resistance​
With a resistance value of 75Ω±20%, these resistors provide a stable and reliable electrical characteristic. Composed of 5 Disc resistors, each with a resistance of 15 ohms ±20%, they offer a flexible yet precise resistance configuration that can be tailored to different circuit requirements.​
Impulse Energy​
The impulse energy handling capacity is truly remarkable. These resistors can withstand 10kJ of energy every 45 seconds. Additionally, they are capable of handling infrequent (>5mins) 63 kJ pulses. This high - energy tolerance makes them suitable for applications where sudden, intense energy surges are expected, such as in certain industrial in certain industrial machinery and scientific research equipment.​
Voltage​
Rated at 12ky @ 1.6s t.c., these resistors can handle extremely high voltages. This high - voltage capability is essential for applications in high - voltage power supplies, electrical testing equipment, and other high - energy electrical systems.​
Power Dissipation​
The power dissipation of our high - energy disk resistors is a function of the mounting method. In free air, a conservative rule of thumb is a continuous power dissipation of .25 watt per cm2 of exposed surface area. For example, a 50mm disk with both faces and the periphery exposed can easily dissipate 20 watts. However, higher power dissipation can be achieved through conduction cooling via the mounting surface or by applying an air or water - cooled heat sink to one or both faces. This flexibility in power dissipation management allows for optimal performance in various operating environments.​ www.eak.sg

Enhanced Performance with Coating and Configurations​
Our standard high - temperature silicone coating significantly improves the high - voltage performance in air. This coating acts as a protective layer, preventing electrical breakdown and ensuring smooth operation even in high - voltage, high - humidity environments. Moreover, we offer optional configurations that can be optimized for use in other gas or liquid dielectrics. This adaptability makes our high - energy ceramic composite resistors suitable for a wide range of applications, from those in harsh industrial settings to delicate laboratory experiments.​
In conclusion, if you are in need of high - performance resistors for high - energy and high - voltage applications, look no further than our high - energy ceramic composite resistors. With their outstanding design, remarkable performance parameters, and adaptable configurations, they are the perfect choice for applications such as pulse power systems, high - voltage power supplies, and more.