KELTRON Capacitor Dealers in Chennai

1. Point of products       We started the development of capacitors with large capacitance and for high ripple current,       ahead of other companies. Now, our capacitors for mid-to high-voltage have a high market       share. Our Screw Terminal Type Aluminum Electrolytic Capacitors are used for inverters for       trains elevators etc. in the fields that are required to offer high reliability.      2. Features       Through the self-development of high-quality anode foil and electrolyte,       high reliability and excellent cost performance have been achieved.       Our products are used for the equipment that requires a large capacitance such       as invereter and large power source.       Lead-free/Conforming to RoHS Directive.      3. Product line chart     CRART   Redial Type Aluminum Electrolytic Capacitor      1. Features        The HU type is the radial type products of 2,000 hours.       2. Product line chart    CRART   Snap Mount Type Aluminum Electrolytic Capacitor      1. Point of products        Snap Mount Type Aluminum Electrolytic Capacitors are used for switching power supply,        general inverters, UPS, etc. that require small-size capacitors with relatively large-capacitance.      2. Features       Through the self-development of high-quality anode foil and electrolyte.       our Snap Mount Type Aluminum Electrolytic Capacitors have achieved high reliability       and excellent cost performance.       Lead-free/Conforming to RoHS Directive.      3. Product line chart  CRART   Aluminum Electrolytic Capacitor for Photo Flash      1. Point of products        Hitachi stroboflash capacitors have been used for Digital Still Camera(DSC),        Digital single lens reflex camera(D-SLR), Medium Format Camera,        and others for professional studio, especially for the minifuarized applications.      2. Features       Hitachi stroboflash capacitors provide the high reliability and the excellent cost performance       with high-quality anode foils and electrolyte liquid which we have developed by ourselves.       All Hitachi stroboflash capacitors apply RoHS regulation.      3. Product line chart   CRART   Plastic Film Capacitors      1. Point of products       Plastic Film Capacitors with the high with stand-current performance of the conventional       capacitors for photo flashes are used now widely for general appliances, industrial equipment,       digital equipment, automotive electrical components, and hybrid cars which are required to offer       high reliability and long life.       At present, Plastic Film Capacitors are used only for automotive components such as HID lamp.       ECU for engine control which is required to offer high reliability, and smoothing capacitor for       hybrid car, DC/DC capacitor.       All products are environmental-conscious and comply with RoHS Directive.      2. Features       [MDD(5),MDD-HD(5Y),MDD-HD(4H),MDD-HD(4),MDD-HD(4HS),MDD-p(4) Series]       For PFC use only, Improve of pulse current resistance with the technology for Automobile       [MMX-E,MML-E Series]       Small-Size, flame-resistant epoxy resin encased       [MKC-JS]       High moisture resistant, small-size resin encased type, suited for automotive electrical       components       [MTB Series}       Special products such as high-frequency type and large-current type are available depending       on applications for general electronic equipment and industrial equipmen

An electrolytic capacitor is a capacitor that uses an electrolyte (an ionic conducting liquid) as one of its plates to achieve a larger capacitance per unit volume than other types, but with performance disadvantages. All capacitors conduct alternating current (AC) and block direct current (DC) and can be used, amongst other applications, to couple circuit blocks allowing AC signals to be transferred while blocking DC power, to store energy, and to filter signals according to their frequency. Most electrolytic capacitors are polarized; hence, they can only be operated with a lower voltage on the terminal marked "-" without damaging the capacitor. This generally limits electrolytic capacitors to supply-decoupling and bias-decoupling, since signal coupling usually involves both positive and negative voltages across the capacitor. The large capacitance of electrolytic capacitors makes them particularly suitable for passing or bypassing low-frequency signals and storing large amounts of energy. They are widely used in power supplies and for decoupling unwanted AC components from DC power connections.Supercapacitors provide the highest capacitance of any practically available capacitor,[1] up to thousands of farads, with working voltages of a few volts. Electrolytic capacitors range downwards from tens (exceptionally hundreds) of thousands of microfarads to about 100 nanofarads—smaller sizes are possible but have no advantage over other types. Other types of capacitor are available in sizes typically up to about ten microfarads, but the larger sizes are much larger and more expensive than electrolytics (film capacitors of up to thousands of microfarads are available, but at very high prices[2]). Electrolytic capacitors are available with working voltages up to about 500V, although the highest capacitance values are not available at high voltage. Working temperature is commonly 85°C for standard use and 105° for high-temperature use; higher temperature units are available, but uncommon.Unlike other types of capacitor, most electrolytic capacitors require that the voltage applied to one terminal (the anode) never become negative relative to the other (they are said to be "polarized"), so cannot be used with AC signals without a DC polarizing bias (non-polarized electrolytic capacitors are available for special purposes).Capacitance tolerance and stability, equivalent series resistance (ESR) and dissipation factor are significantly inferior to other types of capacitors, leakage current is higher and working life is shorter. Capacitors can lose capacitance as they age and lose electrolyte, particularly at high temperatures. A common failure mode which causes difficult-to-find circuit malfunction is progressively increasing ESR without change of capacitance, again particularly at high temperature. Large ripple currents flowing through the ESR generate harmful heat.Two types of electrolytic capacitor are in common use: aluminum and tantalum. Tantalum capacitors have generally better performance, higher price, and are available only in a more restricted range of parameters. Solid polymer dielectric aluminum electrolytic capacitors have better characteristics than wet-electrolyte types—in particular lower and more stable ESR and longer life—at higher prices and more restricted values.

• Terminals: 2
• Mounting Type: Surface Mount
• Material: Plastic
• Capacitor Type: Dry Filled
• Tolerance: 10%
• Country of Origin: Made in India