593D Series. The Vishay 593D solid tantalum capacitors are a low profile Tantamount surface mount chip with a conformal coating. The 593D series is available in a wide range of capacitance values a...
593D Series. The Vishay 593D solid tantalum capacitors are a low profile Tantamount surface mount chip with a conformal coating. The 593D series is available in a wide range of capacitance values a...
595D and 592D Series CMS Tantalum Capacitors. 595D tantalum chips are as compact as 293D capacitors, but with a higher CV ratio 592D capacitors are suited for all applications requiring ultra-thin ...
595D and 592D Series CMS Tantalum Capacitors. 595D tantalum chips are as compact as 293D capacitors, but with a higher CV ratio 592D capacitors are suited for all applications requiring ultra-thin ...
150D Series. Vishay 150D series tantalum case electrolytic capacitors are high performance, hermetically-sealed TANTALEX® capacitors. These capacitors offer low dissipation factor and exceptional o...
293D Series. The Vishay 293D series industrial grade TANTAMOUNT® Capacitors are solid Tantalum, surface mount with 100% matte tin terminations. The 293D series offers stable electrical parameters, ...
293D Series. The Vishay 293D series industrial grade TANTAMOUNT® Capacitors are solid Tantalum, surface mount with 100% matte tin terminations. The 293D series offers stable electrical parameters, ...
593D Series. The Vishay 593D solid tantalum capacitors are a low profile Tantamount surface mount chip with a conformal coating. The 593D series is available in a wide range of capacitance values a...
593D Series. The Vishay 593D solid tantalum capacitors are a low profile Tantamount surface mount chip with a conformal coating. The 593D series is available in a wide range of capacitance values a...
CTS13 Series. Hermetically sealed metal case with plastic film insulation High operational stability with both time and temperature Low leakage current Low dissipation factor
CTS13 Series. Hermetically sealed metal case with plastic film insulation High operational stability with both time and temperature Low leakage current Low dissipation factor