MIL tantál hibrid kondenzátor, CBEN
❖ Jellemzők és Alkalmazás
•Minden tantál tok, hermetikus tömített, négyzet, kis méret, radiális vezetékek, polarizált
•Ez a termék tantál kondenzátorból és elektrokémiai kondenzátorból áll
• Stabil elektromos teljesítmény, nagy megbízhatóság, hosszú élet, nagy energiasűrűség egységnyi térfogatra, sok energiát tárol.
• Akkumulátorként használható az energiaátalakító áramkörben és a teljesítmény impulzus ci「csatban, Energiatárolás végrehajtása,szűrő, kikapcsolási késleltetés az áramkörben.
•Alapértelmezett: GJB733A-96,QJ/PWV500-2013,QJ/PWV519-2013,QJ/PWV518-2013
Tantalum hybrid capacitor application for defense & légtér
Tantalum hybrid capacitors have a wide range of applications in the defense and aerospace fields, and the following are some specific application scenarios:
1,high-speed communication equipment: tantalum hybrid capacitors can be used in high-speed communication equipment, such as radar systems,
satellite communication equipment, stb.. These devices require fast signal transmission and processing capabilities, and tantalum hybrid capacitors can provide a stable power supply to help achieve high-speed data transmission.
2, military aircraft and missile systems: tantalum hybrid capacitors are widely used in military aircraft and missile systems. These systems require high temperature,
high voltage and high frequency characteristics of capacitors, and tantalum hybrid capacitors can meet these needs, and have a high capacitance density and energy density.
3, rockets and spacecraft: In rockets and spacecraft, tantalum hybrid capacitors are used to store and release energy to supply the work of various systems.
Its high energy density and high temperature stability make it an ideal choice.
4, defense system: tantalum hybrid capacitors play an important role in defense systems, such as radar jamming systems, missile defense systems, stb..
These systems require stable power and energy reserves to cope with complex operational environments and mission requirements.
Jinpei brand tantalum hybrid capacitors are widely used in the field of defense and aerospace because of their high performance,high stability and high energy density (600uF~230000uF/ CBEC CBEL sorozat).
❖ Műszaki Teljesítmény
Hőmérséklet tartomány: -55'C-+125•c C >85″C használjon csökkentett feszültséget) Tárolja a környezeti hőmérsékletet: -62'C-+130'C
kapacitás tolerancia: K = ±10%; M=±20 : Q=-10%-+30%
ALKATRÉSZSZÁM PÉLDA
Megjegyzések
•A tantál kondenzátorok nem mérhetők multiméterrel.(Könnyen visszafordíthatatlan károsodást okoz, és fordított polaritás esetén selejthez vezethet)
•Kapacitancia, OF mérési frekvenciát: 100Hz,DC offset feszültség U-=2,2% V,Csere offset feszültség U-= 1,0°-o.sV(effektív érték), A mérési módszer soros egyenértékű áramkörrel történik
• Mérje meg a szivárgási áramot 「125 ℃-on,kérjük, használjon csökkentett feszültséget. DCL olvasni at 5 perc
• Különleges méretű és nagy kapacitású termékek, kérem, tárgyaljon velünk
Alkalmazás
Capacitors applicationfor radar-transmitted pulse storage
The pulse storage of radar transmission refers to the storage of the pulse signal transmitted by radar for processing and analysis after receiving the echo signal. Pulse storage is often used for specific radar applications, including range measurement, target recognition, and imaging.
The basic principle of pulse storage is to convert the pulse signal emitted by the radar into digital form and store it in memory or other media. When the radar receives the echo signal, the information about the target can be extracted by correlation processing with the stored pulse signal.
The main advantage of pulse storage is that a large number of pulse signals can be stored in a short period of time, and it can be processed and analyzed flexibly. This method can improve the detection performance and target recognition ability of the radar system, but also reduce the complexity and cost of the system.
In modern radar systems, pulse storage is often combined with other techniques, such as pulse compression, frequency Doppler processing, stb., to achieve higher resolution and accuracy. Továbbá, with the improvement of computing power, the radar system based on pulse storage can also realize real-time signal processing and image reconstruction, so as to achieve better results in target detection and tracking.
Pulse storage can be achieved by capacitors, and Jinpei hybrid tantalum capacitors can be charged during the off phase of the pulse and then discharged during the on phase to supplement the power provided by the radar system power supply