Film Capacitors
Description | Unit Price Unit Pack |
Stock Info | |||
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PHE840MA6100KA04R17FF 100nF 275Vac 10% X2 P10 MKP Part No.: KFO12101 Packaging: BULK |
Unit Price
0.175 $
Unit Pack
600
|
Stock Info
45 weeks
On request
|
Price, Lead time Find Alternatives Datasheet | |
|
PHE844RF6220MR30L2FF 220F 440Vac 20% X1 P27,5 MKP Part No.: KFO12116 Packaging: TRAY |
Unit Price
0.6121 $
Unit Pack
216
|
Stock Info
40 weeks
On request
|
Price, Lead time Find Alternatives | |
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PHE844RF6330MR06L2FF 330nF 440Vac 20% X1 P27,5 MKP Part No.: KFO12386 Packaging: TRAY |
Unit Price
1.26 $
Unit Pack
171
|
Stock Info
44 weeks
On request
|
Price, Lead time Find Alternatives Datasheet | |
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PHE844RR7150MR06L2FF 1,5uF 440Vac 20% X1 P37,5 MKP Part No.: KFO12074 Packaging: TRAY |
Unit Price
On request
Unit Pack
91
|
Stock Info
Soon available
|
Price, Lead time Find Alternatives Datasheet | |
|
PHE850EA4100MA01R17FF 1,0nF 300Vac 20% Y2 P10 MKP Part No.: KFO12239 Packaging: BULK |
Unit Price
0.0955 $
Unit Pack
1000
|
Stock Info
50 weeks
On request
|
Price, Lead time Find Alternatives Datasheet | |
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PME271YA4100MR06FF 1,0nF 300Vac 20% Y2 P10 MP Part No.: KFO12152 Packaging: BULK |
Unit Price
0.3193 $
Unit Pack
2000
|
Stock Info
18 weeks
On request
|
Price, Lead time | |
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PME271YB5100MR19T0FF 10nF 300Vac 20% Y2 P15 MP Part No.: KFO12000 Packaging: BULK |
Unit Price
0.4359 $
Unit Pack
600
|
Stock Info
18 weeks
On request
|
Price, Lead time Find Alternatives Datasheet | |
|
R413I2680JHT0MFF 68nF 300Vac 20% Y2 P15 MKP Part No.: KFO12461 Packaging: BULK |
Unit Price
On request
Unit Pack
450
|
Stock Info
28 weeks
On request
|
Price, Lead time Find Alternatives Datasheet | |
|
R463I310050H1MFF 100nF 310Vac 20% X2 P15 MKP Part No.: KFO12160 Packaging: BULK |
Unit Price
0.1459 $
Unit Pack
900
|
Stock Info
39 weeks
On request
|
Price, Lead time Find Alternatives | |
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R46KF3150CKP0MFF 150nF 275Vac 20% X2 P10 MKP Part No.: KFO12369 Packaging: REEL |
Unit Price
0.1894 $
Unit Pack
1000
|
Stock Info
27 weeks
On request
|
Price, Lead time Find Alternatives Datasheet | |
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R46KI310040M1K1FF 100nF 275Vac 10% X2 P15 MKP Part No.: KFO12141 Packaging: BULK |
Unit Price
0.0576 $
Unit Pack
1000
|
Stock Info
27 weeks
On request
|
Price, Lead time Find Alternatives | |
|
R46KI315050P0MFF 150nF 275Vac 20% X2 P15 MKP Part No.: KFO12207 Packaging: BULK |
Unit Price
0.1413 $
Unit Pack
1000
|
Stock Info
27 weeks
On request
|
Price, Lead time Find Alternatives Datasheet | |
|
R46KI347000M1KFF 470nF 275Vac 10% X2 P15 MKP Part No.: KFO11967 Packaging: BULK |
Unit Price
0.1917 $
Unit Pack
450
|
Stock Info
Soon available
|
Price, Lead time Find Alternatives Datasheet | |
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R46KN3330GYM1KFF 330nF 275Vac 10% X2 P22,5 MKP Part No.: KFO11976 Packaging: REEL |
Unit Price
0.5481 $
Unit Pack
250
|
Stock Info
39 weeks
On request
|
Price, Lead time Find Alternatives | |
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R46KN410055N2MFF 1,0uF 275Vac 20% X2 P22,5 MKP Part No.: KFO12094 Packaging: BULK |
Unit Price
0.8378 $
Unit Pack
300
|
Stock Info
39 weeks
On request
|
Price, Lead time Find Alternatives | |
|
R46KN415000P1MFF 1,5uF 275Vac 20% X2 P22,5 MKP Part No.: KFO12013 Packaging: BULK |
Unit Price
0.293 $
Unit Pack
396
|
Stock Info
27 weeks
On request
|
Price, Lead time Find Alternatives Datasheet | |
|
R46KR422000M1MFF 2,2uF 275Vac 20% X2 P27,5 MKP Part No.: KFO11953 Packaging: BULK |
Unit Price
0.8262 $
Unit Pack
352
|
Stock Info
27 weeks
On request
|
Price, Lead time Find Alternatives Datasheet | |
|
R46KR447050P1MFF 4,7uF 275Vac 20% X2 P27,5 MKP Part No.: KFO12175 Packaging: BULK |
Unit Price
1.30 $
Unit Pack
176
|
Stock Info
39 weeks
On request
|
Price, Lead time Find Alternatives Datasheet | |
|
R46KR4470JBP1MFF 4,7uF 275Vac 20% X2 P27,5 MKP Part No.: KFO12381 Packaging: TRAY |
Unit Price
0.7658 $
Unit Pack
352
|
Stock Info
Soon available
|
Price, Lead time Find Alternatives Datasheet | |
|
R474N31500001MFF 150nF 440Vac 20% X2 P22,5 MKP Part No.: KFO12150 Packaging: BULK |
Unit Price
0.287 $
Unit Pack
396
|
Stock Info
34 weeks
On request
|
Price, Lead time Find Alternatives |
Film Capacitors - More information
Film capacitors are essential components in electronics, distinguished by their unique properties. They consist of thin plastic films that serve as the dielectric and are placed between two conductive electrodes. This structure allows for high voltage resistance and excellent temperature stability. Film capacitors have a long history, having been first developed in the 1930s. Today, they are indispensable in a variety of applications, from consumer electronics to power electronics. Leading manufacturers include companies like WIMA, KEMET, and Vishay, which offer a wide range of film capacitors for various applications.
Technical Properties of Film Capacitors
The technical properties of film capacitors vary depending on the materials used and specific application requirements. The dielectric can be made from various materials such as polyester (PET), polypropylene (PP), or polytetrafluoroethylene (PTFE). These materials significantly influence the capacitance, voltage tolerance, and temperature behavior of the capacitors. Polyester film capacitors (PET) are known for their high capacitance stability and reliability at medium voltages and temperatures, making them suitable for many standard applications. Polypropylene capacitors (PP) offer excellent electrical properties and low loss factors, making them ideal for high-frequency and power electronics applications. PTFE film capacitors offer extremely high temperature resistance and chemical resistance, but due to their cost, they are more suited for specialized applications.
A notable feature of film capacitors is their low loss, making them ideal for high-frequency applications. This low loss means that less energy is lost as heat, increasing the efficiency of the capacitor. They also have high voltage resistance, meaning they can withstand high voltages without breakdowns or other failures, which is crucial in applications requiring high operating voltages.
The temperature stability of film capacitors is also a significant factor. They maintain their capacitance and performance over a wide temperature range, making them suitable for applications in extreme environments. They also exhibit high mechanical and electrical reliability, making them a preferred choice for applications with high demands on stability and longevity. Their ability to withstand high mechanical stresses makes them robust against vibrations and shocks, which is advantageous in industrial and military applications.
Another important aspect is the impedance of film capacitors. They have low impedance, meaning they can deliver consistent performance across various frequencies. This is particularly important in high-frequency applications and signal transmission where stable electrical properties are required. Additionally, they have a long lifespan and are less prone to aging effects compared to electrolytic capacitors, which enhances their reliability and ease of maintenance.
Applications and Areas of Use
Film capacitors are used in a variety of applications due to their versatile and robust properties. In audio and high-frequency technology, they are appreciated for their low losses and excellent frequency characteristics. They ensure clear and undistorted sound quality in audio amplifiers and signal transmissions, making them a preferred choice for audiophiles and professionals. Their ability to handle high frequencies also makes them ideal for high-frequency circuits in communication devices.
In power electronics and motor drives, they ensure efficient energy transfer and storage. They stabilize voltage fluctuations and help minimize energy losses, enhancing the efficiency of motor controls and inverters. Their high voltage resistance and robustness make them a preferred choice for power electronics applications where reliability and longevity are crucial.
Industrial electronics and automation systems benefit from their robustness and longevity. Film capacitors are resistant to harsh environmental conditions such as high temperatures and mechanical stresses, making them ideal for use in industrial controls and automation systems. They play a key role in smoothing DC voltages and filtering noise signals, increasing the precision and reliability of automation systems.
In medical technology and metrology, they are indispensable where precision and reliability are of utmost priority. They are used in medical devices such as pacemakers, imaging equipment, and diagnostic instruments, where stable electrical properties and reliability are critical. In metrology, they ensure accurate and reliable measurements by filtering noise signals and providing stable voltages.
In lighting technology and power supply, they play a crucial role in stabilizing and filtering power flows. They are used in ballasts for fluorescent lamps and LED drivers to smooth voltage spikes and ensure a stable power supply. Their ability to handle large voltages and currents makes them an important component in power supply and energy storage systems where reliability and efficiency are key.
Advantages and Disadvantages of Film Capacitors
Film capacitors offer numerous advantages, including low losses, high reliability, and excellent temperature stability. Their design allows for high voltage resistance, and they are less prone to aging effects than other capacitor types like electrolytic capacitors. However, they also have disadvantages such as larger size compared to ceramic or electrolytic capacitors and higher costs. Nevertheless, the advantages outweigh the disadvantages in many applications, especially where reliability and performance are critical. Their longevity and ease of maintenance make them a sustainable choice. Environmental aspects and disposal of film capacitors are also important as they contain fewer problematic chemicals than some other capacitors.
Advantages
- Low losses: The low loss factor makes film capacitors particularly efficient, especially in high-frequency applications.
- High reliability: Film capacitors have high mechanical and electrical reliability, making them suitable for critical applications.
- Excellent temperature stability: They maintain their capacitance and performance over a wide temperature range, making them ideal for extreme environments.
- High voltage resistance: Their design allows them to withstand high voltages without breakdowns or failures.
- Low susceptibility to aging: Unlike electrolytic capacitors, film capacitors are less prone to aging effects, extending their lifespan.
Disadvantages
- Larger size: Compared to ceramic or electrolytic capacitors, film capacitors have a larger size, making them less suitable for miniaturized applications.
- Higher costs: Manufacturing film capacitors is generally more expensive, leading to higher costs compared to other capacitor types.
- Limited capacitance per volume: Film capacitors offer lower capacitance per volume compared to electrolytic capacitors, limiting their use in high-capacitance applications.
- Environmental aspects: Although they contain fewer problematic chemicals, the disposal and recycling of film capacitors still need to be considered.
- Susceptibility to mechanical damage: Despite their robust construction, film capacitors can be damaged under extreme mechanical stress.
Selection Criteria for Film Capacitors
Selecting the right film capacitor depends on various factors. Key criteria include the required capacitance and voltage resistance, as well as tolerance requirements. Datasheets and technical specifications are essential to select the appropriate capacitors for specific applications. Additionally, ambient temperatures and operating conditions must be considered to ensure longevity and reliability. A cost-benefit analysis helps find the most economical option that meets the technical requirements.
Innovations and Future Trends of Film Capacitors
Research and development in the field of film capacitors focus on new materials and technologies to further enhance performance. Miniaturized film capacitors are gaining importance, particularly in electromobility and renewable energy applications. These capacitors contribute to efficiency improvements in power electronics and are indispensable in modern automation and robotics applications. The future outlook is promising as continuous efforts are made to improve materials and manufacturing technologies to meet growing demands.
Quality Assurance and Standards
Quality assurance and compliance with standards are crucial for the reliability of film capacitors. Relevant standards such as IEC and UL certifications ensure that capacitors meet high requirements. Quality controls and testing procedures, such as reliability tests and long-term stress tests, are integral parts of production. These measures ensure that products meet high standards and achieve the expected lifespan. Production standards and processes also play an important role in ensuring consistent quality.
Rutronik and Film Capacitors
At Rutronik, we offer a comprehensive range of high-quality film capacitors that meet the demands of various applications. With our expertise and long-standing experience, we support you in selecting the optimal components for your projects. With over 25% supply share, passive components are a cornerstone of our supply chain. Smooth delivery is crucial here. Many part numbers with high delivery volumes but relatively low turnover are prone to errors and pose a logistical challenge. We stand out with specialized logistics systems and IT integrations. Rutronik is your perfect partner for film capacitors, offering not only high-quality products but also comprehensive support and expertise. With us, you are well-prepared for the electronics demands of tomorrow.
Film capacitors are essential components in electronics, distinguished by their unique properties. They consist of thin plastic films that serve as the dielectric and are placed between two conductive electrodes. This structure allows for high voltage resistance and excellent temperature stability. Film capacitors have a long history, having been first developed in the 1930s. Today, they are indispensable in a variety of applications, from consumer electronics to power electronics. Leading manufacturers include companies like WIMA, KEMET, and Vishay, which offer a wide range of film capacitors for various applications.
Technical Properties of Film Capacitors
The technical properties of film capacitors vary depending on the materials used and specific application requirements. The dielectric can be made from various materials such as polyester (PET), polypropylene (PP), or polytetrafluoroethylene (PTFE). These materials significantly influence the capacitance, voltage tolerance, and temperature behavior of the capacitors. Polyester film capacitors (PET) are known for their high capacitance stability and reliability at medium voltages and temperatures, making them suitable for many standard applications. Polypropylene capacitors (PP) offer excellent electrical properties and low loss factors, making them ideal for high-frequency and power electronics applications. PTFE film capacitors offer extremely high temperature resistance and chemical resistance, but due to their cost, they are more suited for specialized applications. A notable feature of film capacitors is their low loss, making them ideal for high-frequency applications. This low loss means that less energy is lost as heat, increasing the efficiency of the capacitor. They also have high voltage resistance, meaning they can withstand high voltages without breakdowns or other failures, which is crucial in applications requiring high operating voltages. The temperature stability of film capacitors is also a significant factor. They maintain their capacitance and performance over a wide temperature range, making them suitable for applications in extreme environments. They also exhibit high mechanical and electrical reliability, making them a preferred choice for applications with high demands on stability and longevity. Their ability to withstand high mechanical stresses makes them robust against vibrations and shocks, which is advantageous in industrial and military applications. Another important aspect is the impedance of film capacitors. They have low impedance, meaning they can deliver consistent performance across various frequencies. This is particularly important in high-frequency applications and signal transmission where stable electrical properties are required. Additionally, they have a long lifespan and are less prone to aging effects compared to electrolytic capacitors, which enhances their reliability and ease of maintenance.
Applications and Areas of Use
Film capacitors are used in a variety of applications due to their versatile and robust properties. In audio and high-frequency technology, they are appreciated for their low losses and excellent frequency characteristics. They ensure clear and undistorted sound quality in audio amplifiers and signal transmissions, making them a preferred choice for audiophiles and professionals. Their ability to handle high frequencies also makes them ideal for high-frequency circuits in communication devices. In power electronics and motor drives, they ensure efficient energy transfer and storage. They stabilize voltage fluctuations and help minimize energy losses, enhancing the efficiency of motor controls and inverters. Their high voltage resistance and robustness make them a preferred choice for power electronics applications where reliability and longevity are crucial. Industrial electronics and automation systems benefit from their robustness and longevity. Film capacitors are resistant to harsh environmental conditions such as high temperatures and mechanical stresses, making them ideal for use in industrial controls and automation systems. They play a key role in smoothing DC voltages and filtering noise signals, increasing the precision and reliability of automation systems. In medical technology and metrology, they are indispensable where precision and reliability are of utmost priority. They are used in medical devices such as pacemakers, imaging equipment, and diagnostic instruments, where stable electrical properties and reliability are critical. In metrology, they ensure accurate and reliable measurements by filtering noise signals and providing stable voltages. In lighting technology and power supply, they play a crucial role in stabilizing and filtering power flows. They are used in ballasts for fluorescent lamps and LED drivers to smooth voltage spikes and ensure a stable power supply. Their ability to handle large voltages and currents makes them an important component in power supply and energy storage systems where reliability and efficiency are key.
Advantages and Disadvantages of Film Capacitors
Film capacitors offer numerous advantages, including low losses, high reliability, and excellent temperature stability. Their design allows for high voltage resistance, and they are less prone to aging effects than other capacitor types like electrolytic capacitors. However, they also have disadvantages such as larger size compared to ceramic or electrolytic capacitors and higher costs. Nevertheless, the advantages outweigh the disadvantages in many applications, especially where reliability and performance are critical. Their longevity and ease of maintenance make them a sustainable choice. Environmental aspects and disposal of film capacitors are also important as they contain fewer problematic chemicals than some other capacitors.
Advantages
- Low losses: The low loss factor makes film capacitors particularly efficient, especially in high-frequency applications.
- High reliability: Film capacitors have high mechanical and electrical reliability, making them suitable for critical applications.
- Excellent temperature stability: They maintain their capacitance and performance over a wide temperature range, making them ideal for extreme environments.
- High voltage resistance: Their design allows them to withstand high voltages without breakdowns or failures.
- Low susceptibility to aging: Unlike electrolytic capacitors, film capacitors are less prone to aging effects, extending their lifespan.
Disadvantages
- Larger size: Compared to ceramic or electrolytic capacitors, film capacitors have a larger size, making them less suitable for miniaturized applications.
- Higher costs: Manufacturing film capacitors is generally more expensive, leading to higher costs compared to other capacitor types.
- Limited capacitance per volume: Film capacitors offer lower capacitance per volume compared to electrolytic capacitors, limiting their use in high-capacitance applications.
- Environmental aspects: Although they contain fewer problematic chemicals, the disposal and recycling of film capacitors still need to be considered.
- Susceptibility to mechanical damage: Despite their robust construction, film capacitors can be damaged under extreme mechanical stress.
Selection Criteria for Film Capacitors
Selecting the right film capacitor depends on various factors. Key criteria include the required capacitance and voltage resistance, as well as tolerance requirements. Datasheets and technical specifications are essential to select the appropriate capacitors for specific applications. Additionally, ambient temperatures and operating conditions must be considered to ensure longevity and reliability. A cost-benefit analysis helps find the most economical option that meets the technical requirements.
Innovations and Future Trends of Film Capacitors
Research and development in the field of film capacitors focus on new materials and technologies to further enhance performance. Miniaturized film capacitors are gaining importance, particularly in electromobility and renewable energy applications. These capacitors contribute to efficiency improvements in power electronics and are indispensable in modern automation and robotics applications. The future outlook is promising as continuous efforts are made to improve materials and manufacturing technologies to meet growing demands.
Quality Assurance and Standards
Quality assurance and compliance with standards are crucial for the reliability of film capacitors. Relevant standards such as IEC and UL certifications ensure that capacitors meet high requirements. Quality controls and testing procedures, such as reliability tests and long-term stress tests, are integral parts of production. These measures ensure that products meet high standards and achieve the expected lifespan. Production standards and processes also play an important role in ensuring consistent quality.
Rutronik and Film Capacitors
At Rutronik, we offer a comprehensive range of high-quality film capacitors that meet the demands of various applications. With our expertise and long-standing experience, we support you in selecting the optimal components for your projects. With over 25% supply share, passive components are a cornerstone of our supply chain. Smooth delivery is crucial here. Many part numbers with high delivery volumes but relatively low turnover are prone to errors and pose a logistical challenge. We stand out with specialized logistics systems and IT integrations. Rutronik is your perfect partner for film capacitors, offering not only high-quality products but also comprehensive support and expertise. With us, you are well-prepared for the electronics demands of tomorrow.