No. | parte # | Fabricante | Descripción | Hoja de Datos |
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Kemet |
COTS Polymer Electrolytic rom 2.5 to 63 VDC. These are the first polymer electrolytic capacitors available with failure rate options as defined by KEMET's KO-CAP Reliability Assessment method. This method utilizes accelerated conditions (voltage and temperature) applied to bo |
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Kemet |
High Energy Polymer Tantalum of multilayer ceramic capacitors (low ESR and high frequency capacitance retention), aluminum electrolytics (higher capacitance and benign failure mode) and proven solid tantalum technology (volumetric efficiency, surface mount capability and extreme |
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Kemet |
High Energy Polymer Tantalum of multilayer ceramic capacitors (low ESR and high frequency capacitance retention), aluminum electrolytics (higher capacitance and benign failure mode) and proven solid tantalum technology (volumetric efficiency, surface mount capability and extreme |
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|
Kemet |
High Energy Polymer Tantalum of multilayer ceramic capacitors (low ESR and high frequency capacitance retention), aluminum electrolytics (higher capacitance and benign failure mode) and proven solid tantalum technology (volumetric efficiency, surface mount capability and extreme |
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|
Kemet |
High Energy Polymer Tantalum of multilayer ceramic capacitors (low ESR and high frequency capacitance retention), aluminum electrolytics (higher capacitance and benign failure mode) and proven solid tantalum technology (volumetric efficiency, surface mount capability and extreme |
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|
Kemet |
High Energy Polymer Tantalum of multilayer ceramic capacitors (low ESR and high frequency capacitance retention), aluminum electrolytics (higher capacitance and benign failure mode) and proven solid tantalum technology (volumetric efficiency, surface mount capability and extreme |
|
|
|
Kemet |
High Energy Polymer Tantalum of multilayer ceramic capacitors (low ESR and high frequency capacitance retention), aluminum electrolytics (higher capacitance and benign failure mode) and proven solid tantalum technology (volumetric efficiency, surface mount capability and extreme |
|
|
|
Kemet |
High Energy Polymer Tantalum of multilayer ceramic capacitors (low ESR and high frequency capacitance retention), aluminum electrolytics (higher capacitance and benign failure mode) and proven solid tantalum technology (volumetric efficiency, surface mount capability and extreme |
|
|
|
Kemet |
High Energy Polymer Tantalum of multilayer ceramic capacitors (low ESR and high frequency capacitance retention), aluminum electrolytics (higher capacitance and benign failure mode) and proven solid tantalum technology (volumetric efficiency, surface mount capability and extreme |
|
|
|
Kemet |
COTS Polymer Electrolytic rom 2.5 to 63 VDC. These are the first polymer electrolytic capacitors available with failure rate options as defined by KEMET's KO-CAP Reliability Assessment method. This method utilizes accelerated conditions (voltage and temperature) applied to bo |
|
|
|
Kemet |
High Energy Polymer Tantalum of multilayer ceramic capacitors (low ESR and high frequency capacitance retention), aluminum electrolytics (higher capacitance and benign failure mode) and proven solid tantalum technology (volumetric efficiency, surface mount capability and extreme |
|
|
|
Kemet |
High Energy Polymer Tantalum of multilayer ceramic capacitors (low ESR and high frequency capacitance retention), aluminum electrolytics (higher capacitance and benign failure mode) and proven solid tantalum technology (volumetric efficiency, surface mount capability and extreme |
|
|
|
Kemet |
High Energy Polymer Tantalum of multilayer ceramic capacitors (low ESR and high frequency capacitance retention), aluminum electrolytics (higher capacitance and benign failure mode) and proven solid tantalum technology (volumetric efficiency, surface mount capability and extreme |
|
|
|
Kemet |
High Energy Polymer Tantalum of multilayer ceramic capacitors (low ESR and high frequency capacitance retention), aluminum electrolytics (higher capacitance and benign failure mode) and proven solid tantalum technology (volumetric efficiency, surface mount capability and extreme |
|
|
|
Kemet |
High Energy Polymer Tantalum of multilayer ceramic capacitors (low ESR and high frequency capacitance retention), aluminum electrolytics (higher capacitance and benign failure mode) and proven solid tantalum technology (volumetric efficiency, surface mount capability and extreme |
|
|
|
Kemet |
High Energy Polymer Tantalum of multilayer ceramic capacitors (low ESR and high frequency capacitance retention), aluminum electrolytics (higher capacitance and benign failure mode) and proven solid tantalum technology (volumetric efficiency, surface mount capability and extreme |
|
|
|
Kemet |
High Energy Polymer Tantalum of multilayer ceramic capacitors (low ESR and high frequency capacitance retention), aluminum electrolytics (higher capacitance and benign failure mode) and proven solid tantalum technology (volumetric efficiency, surface mount capability and extreme |
|
|
|
Kemet |
High Energy Polymer Tantalum of multilayer ceramic capacitors (low ESR and high frequency capacitance retention), aluminum electrolytics (higher capacitance and benign failure mode) and proven solid tantalum technology (volumetric efficiency, surface mount capability and extreme |
|
|
|
Kemet |
Polymer Tantalum COTS of multilayer ceramic capacitors (low ESR, high frequency capacitance retention), aluminum electrolytic capacitors (higher capacitance, benign failure mode), and proven solid tantalum technology (volumetric efficiency, surface mount capability, extre |
|
|
|
Kemet |
COTS Polymer Electrolytic rom 2.5 to 63 VDC. These are the first polymer electrolytic capacitors available with failure rate options as defined by KEMET's KO-CAP Reliability Assessment method. This method utilizes accelerated conditions (voltage and temperature) applied to bo |
|