JPH0281417A - Electrolyte for driving electrolytic capacitor - Google Patents

Abstract

PURPOSE:To provide an electrolytic capacitor having a low specific resistance, a high reliability and a low cost by adding humic acid to electrolyte made by dissolving boric acid and organic acid or its salt in mixture solvent of water and ethylene glycol. CONSTITUTION:Humic acid is added to and dissolved in electrolyte made by dissolving boric acid and organic acid or its salt in mixture solvent of water and ethylene glycol. The desirably adding amount of the humic acid is ranged at 0.05-1.00wt.%. The humic acid is added to the electrolyte so that the acid is absorbed to the surfaces of aluminum electrodes to suppress the hydration of water molecule and aluminum, thereby protecting the aluminum electrodes. The life characteristic due to the corrosionproofing effect of the humic acid is improved, and the electrolyte for driving an electrolytic capacitor having a low specific resistance is obtained.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention provides an electrolyte for driving an electrolytic capacitor (
(hereinafter referred to as electrolyte).

Conventional technology Traditionally, ethylene glycol has been used as the main solvent for the electrolyte of aluminum electrolytic capacitors, and since ethylene glycol alone has low solubility for boric acid and organic acids or their salts, and increases the specific resistance of the electrolyte, pure water has been used as a secondary solvent. In addition to adding 10 to 20% by weight as a solvent, phosphorous compounds such as phosphorous acid and phosphoric acid were added to prevent hydration of the aluminum electrode by water.

Problems to be Solved by the Invention However, although the above-mentioned phosphorus compound can prevent hydration of 10 to 20% by weight of pure water, in order to obtain an electrolytic solution with an even lower specific resistance, it is necessary to add more pure water. When added, high temperature load,
Appearance abnormalities such as valve expansion or valve operation occur during high temperature no-load tests.

Means for Solving the Problems The present invention solves the above-mentioned problems, and is capable of achieving low resistivity and high temperature load and high temperature no-load tests without sacrificing the excellent properties obtained from conventional electrolytes. It provides a stable electrolyte.

That is, the electrolytic solution for an electrolytic capacitor is characterized in that humic acid is added and dissolved in an electrolytic solution prepared by dissolving boric acid and an organic acid or a salt thereof in a mixed solvent of water and ethylene glycol.

Further, the amount of humic acid added is preferably within the range of 0.05 to 1.00% by weight.

Function: By adding humic acid to the electrolytic solution of the present invention, the humic acid is adsorbed on the surface of the aluminum electrode.
Suppresses the hydration reaction between water molecules and aluminum and protects the aluminum electrode.

Example Table 1 shows the composition and specific resistance of the electrolytic solution, and Table 2 shows the prototype aluminum electrolytic capacitors with a rating of 10 WV and 100 μF using the electrolytic solution of each composition, and a high temperature load test was conducted at 105°C for 1000 hours. The results are shown below.

However, the values in the table indicate the weight/g ratio in the compositions in Table 1, and the values in parentheses () indicate the weight % ratio.

Specific resistance is measured at 30℃, capacitance is measured at 25℃120
The measured value in Hz, D-F is the percentage of the tan δ value measured at 25°C and 120 Hz, and the leakage current is the measured value 1 minute after applying the rated voltage, and is the average value of the values of samples n = 10. .

Table ■ The electrolyte solution containing humic acid according to the present invention does not cause any appearance abnormality in the high-temperature load test even if the amount of pure water in the electrolyte solution is 20% by weight or more. Moreover, due to its low specific resistance, a remarkable improvement effect is obtained.

Further, if the amount of humic acid added exceeds 1% by weight, the concentration becomes saturated and it precipitates and does not become an electrolytic solution, and if it is less than 0.05% by weight, there is no effect.

Effects of the Invention As described above, the electrolytic solution of the present invention is characterized in that humic acid is added and dissolved in the electrolytic solution obtained by dissolving boric acid and an organic acid or a salt thereof in a mixed solvent of water and ethylene glycol. Electrolytic capacitors using this type of capacitor have low resistivity, high reliability, and are advantageous in terms of cost, and are of great industrial and practical value.

Claims (1)

[Claims] An electrolytic solution for driving an electrolytic capacitor, characterized in that humic acid is added and dissolved in an electrolytic solution obtained by dissolving boric acid and an organic acid or a salt thereof in a mixed solvent of water and ethylene glycol.