CBB81 High Voltage Polypropylene Film Capacitors

High voltage polypropylene film capacitors play a critical role in enhancing the efficiency, reliability, and stability of electronic circuits operating at elevated voltage levels. From power electronics to renewable energy systems and electric vehicles, their contributions span a multitude of industries and applications. By understanding their construction, advantages, selection criteria, and proper installation techniques, engineers can harness the capabilities of these capacitors to ensure optimal circuit performance, prevent voltage fluctuations, and contribute to the longevity of electronic systems. As technology continues to advance, high voltage polypropylene film capacitors are poised to shape the landscape of high voltage applications, powering progress in the ever-evolving world of electronics.

Product Description

CBB81 High Voltage Polypropylene Film Capacitor Specifications:

Dielectric Polypropylene film
Electrodes Aluminum foil as outer electrodes and vacuum evaporated metal layer as inner series electrode
Coating Epoxy resin coating
Leads Radial leads of tinned wire
Reference standard IEC 384-17; GB 14579-1993
Climatic catalogue 40/85/21
Capacitance versus rated voltage (UR) 0.001μF-0.10μF/1000VDC
0.001μF-0.047μF/1600VDC
0.001μF-0.022uF/2000VDC
Capacitance tolerance M = ±20%, K = ±10%, and J = ±5%
Dissipation factor DF≤1.0% (at 20°C, 1KHz)
Voltage-proof 2.0*UR Unit:VDC (1 minute at 20°C)
Insulation resistance C≤0.1µF, IR≥30000MΩ, C>0.1µF, IR*C≥5,000s (1 minute at 20°C and R≤65%)
Endurance 1000 hours with 125% of rated voltage at 85°C. After the test:
ΔC/C ≤10%; ΔDF ≤0.30%, IR ≥50% of the specified value (20°C 1kHz)

Feature of high voltage polypropylene film capacitors:

1. High voltage polypropylene film capacitors and aluminum foil composition, non-inductive structure
2. Low dissipation, small internal temperature rise
3. Can withstand high pulse, high current, high-frequency resistance 100KHZ
4. Low capacity change, negative temperature coefficient
5. Epoxy resin encapsulation

Application of high voltage polypropylene film capacitors:

1.Mainly applicable to various electronic circuits in high pulse lines, high current
2.Applicable to electronic ballast

High voltage polypropylene film capacitors, also called CBB81 capacitor, is a kind of capacitor that can withstand high voltage, high frequency and high current, only some factories love to print CBB81 and some manufacturers love to print PPS, both are exactly the same.

CBB81 is a kind of non-polar polypropylene precipitated film dielectric high voltage capacitor.

C – Capacitor.

BB – Non-polar polypropylene film dielectric.

8 – High voltage capacitor.

1 – Design serial number, indicating different form factors, etc.

High voltage polypropylene film capacitors features:

Metalized polypropylene film series structure type, can withstand high voltage and high current shock, low loss, excellent electrical performance, high reliability and good self-healing performance.

High voltage polypropylene film capacitors are widely used in instruments, meters, TV sets and household appliances for DC pulsation and AC voltage reduction, especially for all kinds of electronic rectifiers and energy-saving lamp lines, and also for high-voltage potential absorption lines of all kinds of contactor contacts.

In the realm of electronic components, high voltage polypropylene film capacitors stand as indispensable devices, designed to store and discharge energy efficiently while maintaining stable performance under high voltage conditions. This comprehensive product details guide delves into the construction, advantages, applications, and considerations of high voltage polypropylene film capacitors, highlighting their pivotal role in modern electronics.

 

High voltage polypropylene film capacitors are electronic components designed to store and release electrical energy. These capacitors are specifically engineered to handle high voltage applications and are often used in various electronic circuits and systems where voltage requirements exceed those of standard capacitors. Here’s some key information about high voltage polypropylene film capacitors:

  1. Dielectric Material: High voltage polypropylene film capacitors use polypropylene as their dielectric material. Polypropylene is chosen because of its high dielectric constant, low dielectric losses, and excellent self-healing properties. This dielectric material can withstand higher voltage levels without breaking down.
  2. Voltage Rating: These capacitors are designed to handle voltage levels significantly higher than typical capacitors. Voltage ratings can range from hundreds of volts to several thousand volts. For example, they might have voltage ratings of 600V, 1000V, 2000V, or more.
  3. Capacitance Value: The capacitance value of high voltage polypropylene film capacitors can vary widely, from a few nanofarads (nF) to several microfarads (µF) or more. The specific capacitance value depends on the application requirements.
  4. Tolerance: Like other capacitors, they are manufactured with a specified tolerance, which indicates the allowable variation in capacitance value from the nominal value. Common tolerances include ±5% and ±10%.
  5. Temperature Rating: These capacitors usually have a wide temperature operating range, making them suitable for a variety of environmental conditions. Typical temperature ranges are -40°C to +85°C or even higher.

Construction and Design:

High voltage polypropylene film capacitors are engineered with precision to address the demands of applications requiring reliable energy storage and discharge at elevated voltage levels. These capacitors feature a layered construction, typically comprising polypropylene film as the dielectric material and metal foil electrodes. The winding of these layers forms a compact cylindrical structure, encapsulated to protect against environmental factors and mechanical stress.

Polypropylene film, known for its exceptional dielectric properties, offers low losses and high insulation resistance, making it a preferred choice for high voltage applications. The winding technique ensures uniform distribution of the dielectric and electrode layers, resulting in a capacitor that can withstand substantial voltage stress while maintaining stability.

Advantages of High Voltage Polypropylene Film Capacitors:

  • High Voltage Rating: The primary advantage of these capacitors is their ability to handle elevated voltage levels, making them suitable for applications that demand reliable energy storage in high voltage circuits.
  • Low Losses: Polypropylene film’s low dielectric losses contribute to efficient energy storage and discharge, minimizing energy dissipation as heat.
  • Stable Performance: High voltage polypropylene film capacitors exhibit stable capacitance values, even under varying operating conditions of frequency, temperature, and voltage.
  • Longevity: Their robust construction and stable performance characteristics contribute to a long operational life, enhancing the durability of electronic systems.
  • High Insulation Resistance: The dielectric properties of polypropylene film ensure high insulation resistance, preventing leakage currents and enhancing the capacitor’s overall efficiency.
  • Low Dielectric Absorption: These capacitors exhibit low dielectric absorption, ensuring quick charge and discharge cycles without significant delay.

Applications of High Voltage Polypropylene Film Capacitors:

High voltage polypropylene film capacitors find applications across a wide range of industries and circuits:

  • Power Electronics: In high voltage power supplies, inverters, and energy storage systems, these capacitors play a crucial role in energy transfer, voltage regulation, and ripple reduction.
  • Motor Drives: High voltage polypropylene film capacitors enhance the efficiency and reliability of motor drive circuits by providing stable energy storage for rapid voltage changes.
  • Power Quality Improvement: These capacitors are employed in power factor correction circuits and harmonic filtering systems to ensure efficient energy usage and mitigate power quality issues.
  • Medical Equipment: In medical devices such as X-ray machines and MRI systems, high voltage polypropylene film capacitors provide energy storage and stabilization for critical components.
  • Electric Vehicles: These capacitors contribute to the efficient operation of electric vehicle powertrains and battery management systems, ensuring reliable energy transfer and storage.
  • Renewable Energy Systems: High voltage capacitors support energy conversion and distribution in renewable energy systems, such as solar inverters and wind turbine generators.

Considerations and Selection Criteria:

  • Voltage Rating: Select capacitors with a voltage rating that exceeds the maximum voltage encountered in the circuit to prevent breakdown.
  • Capacitance Value: Choose the appropriate capacitance value based on the energy storage requirements and the circuit’s operating frequency.
  • Dielectric Material: Polypropylene film is a common choice for its high insulation resistance and low dielectric losses.
  • Tolerance and Stability: Consider the tolerance level and the stability of the capacitance value under varying conditions.
  • ESR and ESL: Low Equivalent Series Resistance (ESR) and Equivalent Series Inductance (ESL) are desirable for efficient energy transfer and reduced losses.
  • Physical Size: Ensure that the capacitor’s physical dimensions are compatible with the available space in your circuit.

Installation and Integration:

Proper installation and integration of high voltage polypropylene film capacitors are crucial to their performance:

  • Positioning: Place capacitors close to the components that require stable energy supply to minimize voltage drops and optimize energy transfer.
  • Mounting: Follow recommended mounting guidelines to prevent mechanical stress on the capacitor leads and minimize the risk of damage.
  • Cooling: Ensure proper ventilation and cooling if capacitors are subjected to high temperature conditions to prevent thermal stress.

Advancements and Future Prospects:

The field of high voltage polypropylene film capacitors is marked by continuous research and innovation:

  • Higher Voltage Ratings: Advancements are being made to develop capacitors with even higher voltage ratings to meet the demands of emerging high voltage applications.
  • Miniaturization: Efforts are underway to create more compact high voltage capacitors without compromising their performance, catering to space-constrained applications.
  • Advanced Dielectric Materials: Researchers are exploring innovative dielectric materials that offer enhanced properties such as higher dielectric constants and improved temperature stability.
  • High-Frequency Performance: Capacitors that excel at high-frequency performance are being developed to meet the requirements of modern high-frequency power electronics.

Installation and Integration:

Effective installation and integration of high voltage polypropylene film capacitors are critical for optimal performance:

  • Placement: Position capacitors strategically close to components that require stable energy supply to minimize voltage drops and optimize energy transfer.
  • Mounting: Follow recommended mounting guidelines to avoid mechanical stress on the capacitor leads and reduce the risk of damage during operation.
  • Cooling: Ensure adequate ventilation and cooling if capacitors are exposed to high temperature conditions to prevent thermal stress.

Advancements and Future Outlook:

The field of high voltage polypropylene film capacitors continues to evolve as technology advances:

  • Higher Energy Density: Efforts are being made to increase the energy density of these capacitors, allowing for more efficient energy storage in a compact form factor.
  • Enhanced Dielectric Materials: Researchers are investigating novel dielectric materials that offer superior temperature stability, higher dielectric constants, and reduced losses.
  • Integration with Energy Storage Systems: These capacitors are being integrated into advanced energy storage systems to enhance their performance and efficiency.
  • Smart Capacitors: The integration of sensors and control circuitry into capacitors enables real-time monitoring and adjustment of their parameters based on operating conditions.

 

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