| 21. | For aluminum electrolytic capacitors with non-solid electrolyte the ESR generally decreases with increasing frequency and temperature.
|
| 22. | In 1952 Bell Labs researchers discovered the use manganese dioxide as a solid electrolyte for a sintered tantalum capacitor.
|
| 23. | Electrolytic capacitors with non-solid electrolytes show a broader aberration over frequency and temperature ranges than polymer capacitors.
|
| 24. | The dependence of the impedance and ESR at lower temperatures is very low compared with non-solid electrolytes.
|
| 25. | Aluminum e-caps with non-solid electrolyte have a polarity marking at the cathode ( minus ) side.
|
| 26. | Tantalum electrolytic capacitors with solid electrolyte are marked at their positive terminal with a bar or a " + ".
|
| 27. | These first sintered tantalum capacitors used a non-solid electrolyte, which does not fit the concept of solid electronics.
|
| 28. | Aluminum electrolytic capacitors with non-solid electrolyte are generally called " electrolytic capacitors " or " e-caps ".
|
| 29. | A solid electrolyte ensures low equivalent series resistance ( ESR ) and a stable electrical behavior over a broad temperature range.
|
| 30. | This first solid electrolyte manganese dioxide had 10 times better conductivity than all other types of non-solid electrolyte capacitors.
|
