SU439851A1 - Resistive material - Google Patents

Description

one

The invention relates to the field of production technology of electronic equipment and is intended for the manufacture of resistors on a ceramic base, mainly for the manufacture of thick-film resistors of hybrid integrated circuits.

A resistive material is known that consists of powdered lead alumina glass, a metal resiate (conductive agent) and an organic binder, for example ethyl cellulose, dissolved in alcohol (for example, 1-undecyl or 1-capron or their equivalents).

Resistive material, which includes lead-boron silicate glass, has the following disadvantages: resistors of the same geometric size, made of such material, after high-temperature calcination give a variation of resistance values of the order of ± 20%, and the temperature coefficient of resistance is a significant value - (-f4) - (-6) X 10 deg- (depending on the ratio of components in the material used). These deficiencies are due to the absence of softening temperature in lead-borosilicate glass.

In order to improve the reproducibility of resistors, reduce their temperature coefficient of resistance, they are introduced into

resistive material with a silver-palladium-conductive filler and an organic binder of lead-and-doped glass. The use of lead – zinc glass with a narrow range of softening temperature reduces the spread of the resistances of the resistors after firing and reduces the temperature coefficient of resistance.

The proposed resistive material for the manufacture of thick-film resistors contains, weight. %:

6-25 Silver Oxide Palladium 4-20

Organic binder (eg lanolin and

15-20 liquid paraffin) Lead zinc borate

Rest. glass

20

At the same time, the reproducibility of resistor ratings for different material compositions is no worse than ± 10%. The temperature coefficient of resistance of the resistors is (+1.6) - - (0.8) X 10 (when the temperature changes from -65 ° C to -f T25 ° C).

The achieved effect is due to the structuring of particles of the conducting phase in a narrow range of glass softening temperatures, corresponding to the temperature of solid-chemical reactions in the powder-like components of the material (575-580 ° С). In this connection, the burning temperature of the resistive material was chosen: 580 ° C ± 2 ° C.

The resistive material is produced by mechanical mixing of powder-different components: a pig-zinc-borate glass and a silver-iodine-palladium conductive powder charge followed by the addition of an organic binder.

Subject invention

Resistive material, mainly for the manufacture of thick-film resistors, containing srreber and palladium oxide as a conductive filler, glass and an organic binder, such as lanolin and liquid paraffin, characterized in that Lead-zinc borate glass was used as glass with the following quantitative ratio of the starting components, weight. % ::

Silver Oxide-25

Palladium4-20

Organic binder (for example, lanolin and liquid petrolatum) 15-20

Lead-zinc borate glassEverything else.