JPH07192975A - Electrolytic solution of electrolytic capacitor - Google Patents

Abstract

PURPOSE:To obtain electrolytic solution whose breakdown voltage is high by a method wherein a phosphorus compound which has one or more hydroxyl groups inside a molecule is dissolved in a solution which uses gamma-butyrolactone as a main solvent and in which the tetraalkylammonium salt of phthalic acid or the tetraalkylammonium salt of maleic acid has been dissolved. CONSTITUTION:In the electrolytic solution of an electrolytic capacitor, a phosphorus compound expressed by Formula [where R1 and R2 represent hydrogen atoms, an alkyl group or an aryl group and (n) represents an integer of or higher] and having one or more hydroxyl groups inside a molecule is dissolved in a solution in which gamma-butyrolactone is used as a main solvent and in which the tetraalkylaunmonium salt of phthalic acid or the tetraalkylammonium salt of maleic acid has been dissolved. In addition, in the electrolytic solution of the electrolytic capacitor, the addition amount of the phosphorus compound is at 0.05 to 5wt.%. Thereby, the phosphorus compound which has been added forms an electrode foil and a strong and insoluble film, it prevents the destruction of a chemical conversion film, and the electrolytic solution can be applied up to a high rated voltage.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrolytic solution for electrolytic capacitors.

[0002]

2. Description of the Related Art Conventionally, as an electrolytic solution for a low-voltage electrolytic capacitor, an electrolytic solution in which adipic acid salt is dissolved with ethylene glycol as a main solvent has been widely used. In order to cope with high reliability and high reliability, an electrolytic solution in which a tetraalkylammonium salt of phthalic acid or maleic acid is dissolved is generally used with γ-butyrolactone as a main solvent.

[0003]

The electrolytic solution of the electrolytic capacitor in which the tetraethylammonium salt of phthalic acid is dissolved in γ-butyrolactone is 9% as the specific resistance value.
Although it is possible to reach 0 Ω · cm and the reliability is very high in a high temperature atmosphere, its withstand voltage is very low, so its application to rated 50V products was limited. In addition, a solution of tetraethylammonium salt of maleic acid can have a specific resistance value of 70 Ω · cm, but the withstand voltage further decreases, and its application to 35V rated products is limited. In this regard, there is a strong demand for the development of products with low impedance and high reliability.

[0004]

The present invention solves the above problems and provides an electrolytic solution having a high withstand voltage while having a low specific resistance. That is, a phosphorus compound having one or more hydroxyl groups in the molecule represented by the following structural formula in a solution in which a tetraalkylammonium salt of phthalic acid or a tetraalkylammonium salt of maleic acid is dissolved using γ-butyrolactone as a main solvent. Is an electrolytic solution for an electrolytic capacitor.

[Chemical 2]

[0005]

In the electrolytic solution of the present invention, the added phosphorus compound forms a strong insoluble film with the electrode foil to prevent destruction of the chemical conversion film due to concentration of leakage current.
Eliminates the occurrence of product short punctures and enables application up to high rated voltage.

[0006]

EXAMPLES Examples of the present invention will be described below. Table 1 shows comparative examples of the composition, the specific resistance and the spark generation voltage of the electrolytic solution of the present invention and the conventional electrolytic solution when the dissolved mass is 20% by weight. In Table 1, electrolytic solution sample symbols A and B are conventional examples, C and D are examples of the present invention in which the phosphorous acid having the above structural formula is dissolved, and the symbol GBL is γ-butyrolactone. .

[0007]

[Table 1]

Table 2 shows an electrolytic capacitor rated at 63V and 1000 μF prepared by using the electrolytic solution shown in Table 1.
The result of having performed the high temperature load test for 2000 hours in a 05 degreeC atmosphere is shown.

[0009]

[Table 2]

As is clear from Table 2, the electrolytic capacitors using the electrolytic solutions of sample symbols C and D according to the present invention have no problem in all the characteristics even in the test in a high temperature atmosphere for a long time. In addition, it is 0.05 with respect to 100 g of mixed solvent.
If it is less than g, it is impossible to improve the withstand voltage of the electrolytic solution.
When it exceeds 5 g, precipitation is observed. In addition, the phosphorus compounds other than this example were also evaluated, and similar results were obtained.

[0011]

As described above, a solution of a tetraalkylammonium salt of phthalic acid or a tetraalkylammonium salt of maleic acid in which γ-butyrolactone is the main solvent is dissolved in a solution having one or more hydroxyl groups in the molecule. An electrolytic solution of an electrolytic capacitor, which is characterized by dissolving a compound, has a high withstand voltage while having a low specific resistance, and has great industrial and practical value.

Claims (2)

[Claims] 1. A solution in which a tetraalkylammonium salt of phthalic acid or a tetraalkylammonium salt of maleic acid is dissolved using γ-butyrolactone as a main solvent, and one or more hydroxyl groups in the molecule represented by the following structural formula are added to the solution. An electrolytic solution for an electrolytic capacitor, which is obtained by dissolving a phosphorus compound contained therein. [Chemical 1] 2. The phosphorus compound is added in an amount of 0.05 to 5
The electrolytic solution of the electrolytic capacitor according to claim 1, wherein the electrolytic solution is wt%.