Analysis on the Application of Film Capacitors in Electromagnetic Heating Equipment

2024-10-29 CG-Elec Official website
Film Capacitors,CG-Elec Film Capacitors,CG-Elec Film Capacitors,CG-Elec Film Capacitors,CG-Elec

Electromagnetic heating equipment converts power frequency alternating current or pure direct current into high-frequency alternating current (1KHz-1MHz) through half-bridge/full-bridge inverter technology. High-frequency alternating current will generate high-frequency alternating magnetic field after passing through various inductive loads When a metal object is in a high-frequency alternating magnetic field, the metal molecules will produce countless small eddy currents. The eddy currents cause the metal molecules to move randomly at high speeds, and the metal molecules collide and rub against each other to generate heat energy, and finally achieve the purpose of converting electrical energy into heat energy. Electromagnetic heating equipment is frequently used in our work and life. For example, household induction cooker/induction tea stove, commercial induction cooker, high-frequency hardening machine, sealing machine, industrial melting furnace, etc. This article uses three-phase high-power commercial induction cooker as For example, analyze the application of Film Capacitors in electromagnetic heating equipment.


Three-phase full-bridge circuit topology diagram of commercial induction cooker

C1—C6 function description


C1/C2: Three-phase AC input filter, ripple absorption, improve the equipment's ability to resist grid interference

C1, C2 and the three-phase common mode inductor form a Pi-type filter, which plays the role of electromagnetic interference suppression and absorption in the equipment. On the one hand, the circuit suppresses the electromagnetic interference generated by the IGBT due to high-speed switching and is transmitted to the three-phase power frequency grid through the power line It affects the normal use of other grid-connected equipment. On the other hand, it prevents electromagnetic interference signals generated by other equipment in the same grid from being transmitted to the three-phase power frequency grid through the power line, affecting the normal use of the electromagnetic heating equipment itself. (Internal suppression) Interference generated by itself, external resistance to interference generated by other equipment, with double-sided) EMC=EMI+EMS


In actual use, C1 can choose MKP-X2 type (fixed capacitor for electromagnetic interference suppression), the capacity range is between 3µF-10µF, and the rated voltage is 275V.AC-300V.AC. Y-type connection is adopted, and the common terminal is suspended Not grounded. C2 can choose MKP type metallized film capacitor, the capacity range is between 3µF-10µF, the rated voltage is 450V.AC-500V.AC, and the delta connection is adopted.


In principle, the larger the capacitance selected for C1 and C2, the better the suppression and absorption of electromagnetic interference. However, the larger the capacitance, the greater the reactive current when the device is in standby. The withstand voltage should be based on the area where the device is used. It is reasonable to reserve a certain margin to prevent the voltage breakdown of the capacitor or the life of the capacitor when the power consumption is very small at night.


C3: Smoothing and filtering after rectification, DC-Link, absorbing ripple and completing the circuit of AC component.

C3 and choke coil L form an LC circuit, which converts the pulsating direct current after the three-phase bridge rectification into a smooth direct current for the subsequent inverter bridge and load. In the actual circuit of the commercial induction cooker core, C3 is generally composed of It is composed of film capacitors of tens of microfarads. The film capacitor at this position actually plays a role of DC support (DC-LINK), which is responsible for the absorption of ripple and the completion of the AC component loop, rather than what many people think (filtering) The capacitance of tens of microfarads, for a load of tens of kilowatts, the filtering effect is very small, and the voltage waveform of the DC bus cannot be smoothed at all. Due to the high-speed switching of the IGBT, it will produce A large number of high-order harmonic currents and peak harmonic voltages. If there is no capacitor as the absorption of harmonic currents and peak voltages, then the DC bus circuit will produce a large number of self-excited oscillations, which will affect the safe use of IGBTs, etc. and shorten the life time. Therefore. The use of film capacitors as a DC bus ripple voltage and ripple current absorption is currently one of the most commonly used methods at home and abroad.


In principle, the larger the capacitance selected for C3, the better the absorption effect. However, it should be noted that the capacitance is too large, which will easily cause the rectifier bridge when the device is just closed and powered on due to the excessive instantaneous charging current of the capacitor. Fuse and other overcurrent breakdown. In commercial induction cooker cores, the general selection principle is: half-bridge solution (1.5μF/KW) full-bridge solution (1.2μF/KW). This configuration is based on the conventional film capacitor energy It is inferred from the design process of 2A/µF.


For example, for a commercial induction cooker with a half-bridge 20KW model, the required C3 capacity is 20*1.5=30µF. The total ripple current of C3 is 30*2=60A for a full-bridge 20KW model, and the required C3 capacity is 20*1.2=24µF (actually 25-30µF is acceptable) The total ripple current of C3 is 25*2=50A. It is recommended that the actual selected capacitance and the allowable ripple current value of the capacitor should not be lower than the recommended value above.


The position of C3 must consider whether the ripple current value actually required by the circuit is less than the total ripple current value that the selected film capacitor can withstand (still a certain current margin), otherwise, if the circuit requires a ripple current of 60A, and The selected capacitor can withstand a total ripple current of only 40A, which will cause serious heating of the film capacitor, long-term overheating operation, greatly reducing the service life of the film capacitor, and severely causing the film capacitor to expand and bulge, or even catch fire. In terms of pressure resistance, general Select the rated voltage as 800-1000V.DC.


C4: IGBT peak voltage/current absorption, buffering and suppression to prevent IGBT breakdown

C4 is used as the turn-on/turn-off spike absorption of the IGBT. It is generally connected with the C-type or RC-type connection and is connected to the CE terminal of the IGBT. The withstand voltage is generally selected according to the rated voltage of the IGBT, and a certain voltage margin is reserved. In terms of capacitance, it can generally be between 0.01µF and 0.033µF. The most suitable capacitance should be selected according to the matching situation between the circuit and the IGBT. The capacitor at the C4 position must be used with a larger dv/dt value. Pay attention to whether the temperature rise is within the allowable range. If you use the RC type connection, you need to pay attention to the huge heat generation of R. When laying out, you need to keep a certain distance between R and C to prevent the capacitor from excessive heat radiation.


C5: Resonant capacitor, which cooperates with the load (inductance coil, transformer, etc.) to form an LC resonant circuit.

C5 acts as a resonant capacitor and forms an LC resonant circuit with L to deliver power. In use, pay attention to whether the rated voltage of the selected capacitor is sufficient (resonant voltage and equipment power, load material, magnetic load rate, distance from load to inductance, Circuit Q value, etc.). If the selected capacitor rated voltage value is lower than the actual resonant voltage value, then the capacitor voltage breakdown is likely to occur. In terms of current selection of the resonant capacitor, it is best to calculate the theoretical value first, and then make a preliminary selection The current value, after the equipment function meets the requirements, let the equipment be adjusted by measuring the actual value of the peak current/root mean square value of the LC circuit at the maximum power. If the actual high frequency current value passed is higher than the rated value of the capacitor If the current value is large, it will cause the resonant capacitor to overheat and run, and it will be prone to bulging or blow up or even fire after long-term work. The resonant frequency of the circuit should also be within the allowable frequency range of the resonant capacitor.


C6: DC bus absorption capacitor, local absorption, buffer and suppression of the peak voltage generated when IGBT switching.

C6 and C3 are also connected in parallel to the positive and negative poles of the DC bus. However, due to factors such as structure and wiring loops, the back-end IGBT is far away from the C3 capacitor, so it is necessary to directly lock a bus at the power end of the back-end IGBT module Absorb the capacitor and absorb the ripple voltage and ripple current generated by the IGBT locally. When C6 is selected, the withstand voltage is generally selected according to the rated voltage of the IGBT. Try to choose a large ripple current, large dv/dt, and stray inductance Small bus absorbing capacitance. For example, MKPH-S 0.47µF 1µF 1.5µF 2µF and other models, rated voltage 1200V.DC absorbing capacitor.


Common problems in the selection of film capacitors


A. Improper selection of rated voltage

The rated voltage is improperly selected, and the most frequent place is the resonant circuit part (C5). R&D personnel should base on the equipment's rated power, input voltage, circuit topology, inverter control method, load material, load magnetic load rate, circuit Q value and other parameters Make preliminary calculations after comprehensive consideration. After the prototype meets the requirements initially, you need to use an oscilloscope to add a high-voltage voltage probe to actually measure the peak-to-peak voltage, peak voltage, and root mean square voltage across the resonant capacitor when the device is at maximum power. Parameters such as resonant frequency are used to determine whether the selected resonant capacitor model and parameters are correct.


B. Improper selection of rated current

The rated current is improperly selected, and the most frequent occurrences are C3 (DC support) and C5 (resonance). If the actual current value required is greater than the allowable current value of the capacitor, it will cause the capacitor to generate serious heat and long-term high temperature operation, resulting in The life of the capacitor is greatly reduced, and it will blow up or even catch fire. In the equipment development, you can use a dedicated current probe or other methods to measure the actual peak current and the root mean square current, and then adjust the parameters of the capacitor. Finally, the temperature rise of the capacitor can be measured in the full power aging test of the equipment, and the selection of the capacitor can be determined according to the allowable parameters of the temperature rise of the capacitor. (Comprehensive evaluation of current measurement and temperature rise)


C. Improper wiring

The improper wiring method mainly occurs in the use of multiple capacitors in parallel. Due to the wiring method, the inconsistent wiring distance and other factors, each parallel capacitor is inconsistent in the circuit. It is finally reflected in the multiple parallel capacitors, and the temperature of each capacitor The rise is inconsistent. The temperature of the capacitors in individual locations is too high and burned. Therefore, it is necessary to connect and connect the capacitors in parallel, and try to achieve current sharing and improve the service life of the capacitors.


Waveform reference in the use of film capacitors

C5 resonance current waveform (Ip=84A Irms=60A) C4 absorption capacitor waveform (Vce=581V F=19.6KHz)

To sum up

The application field of electromagnetic heating equipment is increasing, and the use requirements and electrical performance parameters of film capacitors are getting higher and higher. This article uses a three-phase full-bridge commercial induction cooker as a case to analyze the role and function of film capacitors at various positions inside the equipment. The selection principles, precautions, etc., hope to bring some convenience to the majority of R&D personnel!

授权代理商:世强先进(深圳)科技股份有限公司
技术资料,数据手册,3D模型库,原理图,PCB封装文件,选型指南来源平台:世强硬创平台www.sekorm.com
现货商城,价格查询,交期查询,订货,现货采购,在线购买,样品申请渠道:世强硬创平台电子商城www.sekorm.com/supply/
概念,方案,设计,选型,BOM优化,FAE技术支持,样品,加工定制,测试,量产供应服务提供:世强硬创平台www.sekorm.com
集成电路,电子元件,电子材料,电气自动化,电机,仪器全品类供应:世强硬创平台www.sekorm.com
  • +1 赞 0
  • 收藏
  • 评论 0

本文由wenxia转载自CG-Elec Official website,原文标题为:Analysis on the Application of Film Capacitors in Electromagnetic Heating Equipment,本站所有转载文章系出于传递更多信息之目的,且明确注明来源,不希望被转载的媒体或个人可与我们联系,我们将立即进行删除处理。

相关研发服务和供应服务

评论

   |   

提交评论

全部评论(0

暂无评论

相关推荐

EXXELIA‘s Film Capacitors Helped NASA‘s Perseverance Robot with Measuring and Sampling on Mars

After the InSight probe that landed on the Red Planet on November 26, 2018 with our film capacitors onboard, it is with the Perseverance robot that Exxelia proudly makes its return to Mars! The robot is equipped with several measuring and sampling instruments, including SuperCam, MEDA and PIXL served by our components: Transformers and Inductors : SESI, CMC and MPCI series, Film capacitors PM94 series, Tantalum capacitors CTC21 series, Ohmcraft resistors HVD, HVR and CN series.

2021-03-06 -  应用方案 代理服务 技术支持 批量订货

Analysis on the Influence of Indian Cookware (J4) on Household Induction Cookers

In the past year or two, a number of customers engaged in the production/sale of household induction cookers have provided feedback. For household induction cookers sold in India, the percentage of abnormal quality of the whole appliance after a few months of use is much higher than in other sales regions. The problems of the whole machine with abnormal quality are mainly concentrated in high temperature protection, (fuse/rectifier bridge/IGBT/filter capacitor/resonant capacitor) burnout, etc.

2024-09-14 -  技术探讨 代理服务 技术支持 批量订货

CG-Elec(创格电子)与世强先进的代理协议

描述- 2024年7月,佛山市顺德区创格电子实业有限公司与世强先进(深圳)科技股份有限公司签署了代理协议。

2024.7.15  - CG-ELEC  - 代理协议/证明 代理服务 技术支持 批量订货 世强代理协议查询

薄膜电容器

描述- 本资料主要介绍了薄膜电容器的产品规格、系列表、编号系统、最小包装数量、注意事项和指南。内容包括不同系列电容器的应用、额定电压范围、额定电容范围、温度范围、页码位置,以及制造商变更通知。此外,还详细说明了部分系列电容器的具体规格、尺寸、最大纹波电流、额定电压等参数。

型号- HACB3C682J,FTACD801V474JELHZ0,FTACD3B1V156JTLJZ0,HACB3G822J,HACB3A394J,HACD3E104J,FHACD252V223JRLQZ0,TACB2G154J,TACD2H274J,TACD3A224J,TACD3A684J,TACD3A333J,FTACB801V473JDLCZ0,FTACD401V225JELHZ0,FTACD501V225JELHZ0,FHACD1C2V183J0LGZ0,TACD2G824J,FHACD202V332JKLDZ0,HACD3D123J,TACD2G185J,HACB3C223J,FTACD801V275JTLJZ0,FTACB401V224JDLCZ0,FTACB801V105JFLEZ0,FTACD102V564JFLEZ0,HACD3A823J,FTACB401V185JFLEZ0,TACB2G155J,TACD3A334J,FHACB3B2V682JLLQZ0,HACB3G183J,FTACD102V683JDLCZ0,FTACB801V104JHLGZ0,HACD3D473J,FHACB102V473J0LGZ0,FTACB801V394JELHZ0,FHACB202V183J1LHZ0,HACB3A154J,FHACB162V104 J2LEZ0,HACD3C274J,FHACE631N684J1A1S0,TACD2J104J,TACD2J564J,HACB2J824J,TACC2K275J,TACB2F394J,HACD3B184J,HACD3D472J,FHACD631V563J0LGZ0,HACB3C334J,FHACD631V124J0LGZ0,FHACD402V153JRLQZ0,HACB3C683J,FHACB631V124J0LGZ0,FTACD401V274JDLCZ0,FHACD1C2V394J2LEZ0,HACD3C273J,TACD2H185J,TACD2J105J,TACD2J565J,TACD3A683J,TACB2F395J,HACD3B824J,FTACD801V155JFLEZ0,TACC2J825J,HACB3C333J,HACB3C224J,FTACB3B1V395JFLEZ0,FHACD3B2V393JRLQZ0,TACD2H824J,FHACB162V562 JKLDZ0,FHACD252V823JRLQZ0,FTACC801V685JULWZ0,HACB3F822J,FTACD102V274JELHZ0,FHACD162V334J2LEZ0,HACD3B823J,FTACC451V106JRLFZ0,FTACD801V184JHLGZ0,HACB2J184J,HACB3F183J,FTACD401V224JDLCZ0,FTACD251V125JDLCZ0,FHACD202V823J2LEZ0,HACB3B223J,HACB2J823J,HACB3G272J,FHACD102V473J0LGZ0,FTACD102V125JFLEZ0,FTACD102V124JHLGZ0,FHACD202V274JTLJZ0,HACD3B183J,FTACD102V823JDLCZ0,FTACD801V105JFLEZ0,FTACD801V185JFLEZ0,FTACC451V126JTLJZ0,TACB2F155J,HACB3B684J,HACB3B333J,HACB3B224J,HACB3B683J,FHACD162V224J2LEZ0,HACD3D274J,FHACB1C2V274 J2LEZ0,FHACD102V333J0LGZ0,HACD3C184J,FTACD3B1V275JELHZ0,FTACB631V185JFLEZ0,FHACD102V394J1LHZ0,HACB3B334J,FHACD3B2V473JRLQZ0,HACD3D273J,FTACC801V395JRLFZ0,HACD3C183J,TACB2K823J,HACB2J474J,FHACD102V824J2LEZ0,FTACD3B1V186JTLJZ0,HACD3C823J,FTACB3B1V565JFLEZ0,FHACD252V683JRLQZ0,FTACB631V105JFLEZ0,TACD2E225J,FHACB162V273 J1LHZ0,FHACB3B2V103JLLQZ0,FTACB3B1V274JDLCZ0,FTACE102N684JHAHS0,FTACD801V335JTLJZ0,TACD2E685J,TACB2G224J,TACB2K824J,FHACD202V683J2LEZ0,FHACB202V222JKLDZ0,HACB2J124J,HACD3C822J,TACB2G684J,FTACD401V334JDLCZ0,TACB2K184J,TACD2E335J,HACD2J154J,FHACD162V683J1LHZ0,FHACD402V123JRLQZ0,HACB3A223J,HACB3A683J,FHACD1C2V474J2LEZ0,FHACD402V183JRLQZ0,TACC SERIES,FTACD801V394JELHZ0,TACB2G334J,TACB2G225J,FHACB631V184J1LHZ0,FHACB202V822JKLDZ0,FTACC631V565JRLFZ0,FTACB631V563JDLCZ0,FHACB162V473 J1LHZ0,FHACD102V823J0LGZ0,TACC3A155J,HACD2J155J,FHACB162V123 JKLDZ0,FHACB631V474J2LEZ0,FHACB631V563J0LGZ0,HACB3A333J,HACB3A224J,HACB3A684J,FTACD102V334JELHZ0,FHACD102V154J1LHZ0,FTACC631V685JTLJZ0,FHACB202V224J4LJZ0,FTACB401V155JFLEZ0,TACB2G335J,HACB2J473J,FHACB102V154J1LHZ0,TACB2E106J,HACD3G392J,FTACD631V475JTLJZ0,FTACB251V156JTLJZ0,HACD3D184J,TACC2W685J,TACD3A154J,HACB3A334J,HACD3D823J,TACD2F225J,FTACD3B1V684JDLCZ0,FTACD102V224JELHZ0,FHACB402V472JLLQZ0,FHACB202V392JKLDZ0,FTACB631V474JELHZ0,TACB2E105J,TACD2F334J,TACD2F685J,HACD3G153J,FHACD162V333JKLDZ0,TACB2E565J,HACD3D183J,FTACD251V685JFLEZ0,TACB2J823J,FHACB3B2V273JLLQZ0,FHACD1C2V104J1LHZ0,FHACD252V473JRLQZ0,TACD2F226J,FTACD801V125JFLEZ0,TACD2F335J,HACD3D822J,FTACD631V155JFLEZ0,FTACD801V823JDLCZ0,TACB2E564J,FHACB202V332JKLDZ0,FHACB202V683J2LEZ0,TACB2F224J,TACB2F684J,FTACD401V565JFLEZ0,TACB2J824J,FHACB162V183 JKLDZ0,HACB3G123J,FTACD501V564JHLGZ0,FHACD102V105J2LEZ0,FHACD162V273JKLDZ0,HACB2J274J,FHACD202V682JKLDZ0,HACB3D183J,FTACC631V395JRLFZ0,HACB3D823J,HACB3F273J,FHACB102V274 J2LEZ0,TACB2F225J,FHACB3B2V822JLLQZ0,FHACD162V223JKLDZ0,FTACB801V334JELHZ0,FHACD1C2V823J1LHZ0,TACB2F334J,TACB2F685J,TACB2J184J,HACB3D182J,HACB3D822J,FTACB631V274JHLGZ0,TACB2E126J,TACD2F684J,FHACD402V682JRLQZ0,FHACD202V183JKLDZ0,HACD3F393J,HACD2J394J,FTACD401V395JFLEZ0,FTACB801V824JFLEZ0,TACB2F335J,HACB3G472J,FTACD3B1V824JDLCZ0,FHACD202V103JKLDZ0,FHACB1C2V334 J2LEZ0,FTACD3B1V125JHLGZ0,FHACB1C2V184 J2LEZ0,FTACE631N105JDADS0,FHACB402V272JLLQZ0,FHACB1C2V393 J0LGZ0,FTACD801V824JELHZ0,HACD3G472J,FTACB801V224JELHZ0,FTACB251V685JFLEZ0,FHACD162V124J2LEZ0,FHACD202V392JKLDZ0,TACD2G335J,FTACD102V474JELHZ0,FHACB402V682JLLQZ0,TACD2E156J,TACC2J335J,HACD3F273J,HACB3G562J,TACB2J394J,FHACB3B2V153JLLQZ0,FTACD3B1V335JELHZ0,FTACB801V125JFLEZ0,FTACB401V475JTLJZ0,FTACD631V395JTLJZ0,FHACB162V274 J4LJZ0,FTACD3B1V225JELHZ0,TACD3A823J,HACB3D184J,HACB3F123J,FTACD401V105JHLGZ0,HACD3A104J,HACD3A564J,HACD3A563J,TACC2J685J,FTACB251V275JELHZ0,HACD2J683J,FTACB801V823JDLCZ0,TACD2G225J,HACB3G103J,TACD2G334J,TACD3A184J,TACD2G685J,FTACE401N685JEAES0,TACB2J395J,FHACB102V683J0LGZ0,FTACD3B1V564JDLCZ0,HACD3B105J,HACD3G123J,FHACD102V683J0LGZ0,HACB3C183J,HACB3D272J,FTACC631V335JRLFZ0,HACD3A125J,TACB2K154J,HACD2J224J,FHACB102V104J1LHZ0,HACD2J684J,FHACB202V274J4LJZ0,FHACD252V393JRLQZ0,HACB3C823J,TACD2G224J,FTACC451V186JULWZ0,TACD2G684J,HACD3B564J,FTACD631V275JFLEZ0,FHACD202V334JTLJZ0,FTACE631N335JEAES0,FTACB401V394JHLGZ0,FHACD1C2V125JTLJZ0,FTACC451V565JRLFZ0,FTACB801V563JDLCZ0,HACB3F472J,FTACB3B1V185JELHZ0,TACC3A225J,HACD2J334J,TACC2W156J,TACD2K394J,HACB3C822J,FTACD3B1V126JFLEZ0,FTACC102V225JULWZ0,FTACD102V154JHLGZ0,TACD2E155J,HACD3B563J,HA

2024/4/3  - NIPPON CHEMI-CON  - 选型指南 代理服务 技术支持 批量订货

Exxelia Film Capacitors Designed for Medical and Railway Applications Now Benefit from Reduced Delivery Times

Exxelia announces that delivery times for film capacitors in the RA and KM ranges have been considerably reduced. In some cases, Exxelia has been able to reduce the usual delivery times for PMR range film capacitors by a factor of 10.

2023-06-29 -  新产品 代理服务 技术支持 批量订货

薄膜电容器零件编号系统

型号- FTACD251V824JDLCZ0,TACE,TACD,HACB,TACC,HACE,TACD SERIES,TACB,HACD

2021/04/02  - NIPPON CHEMI-CON  - 型号命名规则 代理服务 技术支持 批量订货 查看更多版本

薄膜电容器注意事项和指南

描述- 本资料主要针对薄膜电容器的使用注意事项和操作指南进行详细说明。内容包括:确认操作和安装环境,使用符合性能限制的电容;避免在温度剧变的环境中使用电容;选择合适的电容并避免用于非指定应用;注意电容的安装方式,防止损坏;在负载下避免直接触摸电容;注意电容的温度升高和电流限制;避免在特定环境下使用电容;在购买和使用前确认产品规格;关注产品法规合规性。

2024/4/3  - NIPPON CHEMI-CON  - 用户指南 代理服务 技术支持 批量订货 查看更多版本

TYPE 911P +250 C FILM CAPACITORS

描述- 该资料介绍了Dearborn公司的Type 911P薄膜电容器。这些电容器适用于需要在超过普通电容器工作温度下运行的系统。它们由不熔融的聚合物薄膜制成,具有超过+320°C的玻璃化转变温度(Tg),能够在+250°C的温度下无电压降级地运行。这些电容器的特点是低损耗、高绝缘电阻和稳定的电容值。

型号- 911P103X9400,911P

2018/01/19  - EXXELIA  - 数据手册 代理服务 技术支持 批量订货

Does a Manufacturer Specializing in Film Capacitors Still Have Any Future at All Compared to a Broadliner?

Film capacitor technology has definitely kept up with the technical progress of recent years and will continue to do so in the future. The question can be extended beyond the product itself: Does a manufacturer who specializes mainly in film capacitors still have any future at all compared to a broadliner?

2021-07-07 -  原厂动态 代理服务 技术支持 批量订货

薄膜电容器包装

型号- TACE,TACD,HACB,HACE,TACC,HACD,TACB

2021/04/02  - NIPPON CHEMI-CON  - 技术文档 代理服务 技术支持 批量订货 查看更多版本

薄膜电容器注意事项和警告

描述- 本资料由EPCOS AG于2009年发布,主要针对薄膜电容器的安全使用提供警告和注意事项。内容包括存储条件、防火性、耐振动性、焊接、清洁以及电容在成品组装中的嵌入等方面的安全指导。

型号- IEC 60068-2-6

April 2009  - EPCOS  - 数据手册

薄膜电容器

型号- P2S,F2D,H2D

2017/12/22  - RUBYCON  - 数据手册

FPEA106J250XRR薄膜电容器

型号- FPEA106J250XRR

2021/10/22  - AKYGA  - 数据手册

薄膜电容器质量

型号- IEC 721-3-3,IEC 1709

May 2009  - EPCOS  - 数据手册
展开更多

电子商城

查看更多

品牌:WIMA

品类:FILM CAPACITORS

价格:¥1.0006

现货: 7,435

品牌:WIMA

品类:FILM CAPACITORS

价格:¥1.2645

现货: 6,900

品牌:WIMA

品类:FILM CAPACITORS

价格:¥1.2645

现货: 6,900

品牌:WIMA

品类:FILM CAPACITORS

价格:¥1.5400

现货: 5,000

品牌:WIMA

品类:FILM CAPACITORS

价格:¥1.1900

现货: 4,997

品牌:WIMA

品类:FILM CAPACITORS

价格:¥0.9911

现货: 4,500

品牌:WIMA

品类:FILM CAPACITORS

价格:¥1.0050

现货: 4,200

品牌:WIMA

品类:FILM CAPACITORS

价格:¥1.1500

现货: 4,000

品牌:WIMA

品类:FILM CAPACITORS

价格:¥1.4700

现货: 2,400

品牌:WIMA

品类:FILM CAPACITORS

价格:¥1.8200

现货: 2,300

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

品牌:

品类:

价格:

现货:

现货市场

查看更多

暂无此商品

海量正品紧缺物料,超低价格,限量库存搜索料号

查看更多

授权代理品牌:接插件及结构件

查看更多

授权代理品牌:部件、组件及配件

查看更多

授权代理品牌:电源及模块

查看更多

授权代理品牌:电子材料

查看更多

授权代理品牌:仪器仪表及测试配组件

查看更多

授权代理品牌:电工工具及材料

查看更多

授权代理品牌:机械电子元件

查看更多

授权代理品牌:加工与定制

世强和原厂的技术专家将在一个工作日内解答,帮助您快速完成研发及采购。
我要提问

954668/400-830-1766(工作日 9:00-18:00)

service@sekorm.com

研发客服
商务客服
服务热线

联系我们

954668/400-830-1766(工作日 9:00-18:00)

service@sekorm.com

投诉与建议

E-mail:claim@sekorm.com

商务合作

E-mail:contact@sekorm.com

收藏
收藏当前页面