JPS58191402A - Printed resistor - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for manufacturing a printed resistor, and the seventh object is to easily control the desired resistance value and to manufacture a resistor with a high stacking density. be.

Conventionally, printed resistors fired by printing means have been manufactured by a screen printing method using ink as a resistive material. Therefore, in the conventional printed resistor, it is difficult to accurately control the thickness of the resistive material ink formed by one screen printing, so the resistance value to be determined is determined by the desired Ii [
In order to do this, it was necessary to make multi-pole inks with different resistances and use the necessary ones, or to increase the thickness of the ink by overprinting. However, it is not easy to design an ink composition that exhibits a desired resistance value and to manufacture it in a reliable manner. Furthermore, in many cases, it is too late to obtain a resistor with a desired resistance value by mixing ink with several types of known resistance values.

These problems were particularly noticeable when attempting to mass-produce resistors.

The present inventor sought to improve such a conventional printed resistor, and as a result of various research and considerations, the present invention was completed. That is, the present invention relates to a printed resistor characterized in that at least two or more ink layers made of resistive material ink are provided on a substrate surface, and at least one of the layers is formed in a halftone dot shape. will be explained in more detail.

As the substrate 1, an ordinary insulator such as an epoxy/pheno-V laminate or an aluminum oxide film is used. As a resistance material ink,
It is composed of a mixture of powders of silver, badge rum, palladium oxide, platinum, etc., and glass frit, or carbon powder, to which a resin binder and a solvent are appropriately added.

Two or more ink layers 2.12 are provided on the surface of the substrate 1 using the resistive material ink. Of these ink layers, at least 1 m or more is formed in the form of halftone dots (see FIG. 1). Gravure printing is suitable for forming an ink layer in the form of halftone dots.

In addition, when providing a single layer of ink that is not in the form of halftone dots, a screen printing method may be used (see Figure 2). It is selected as appropriate depending on the desired resistance value C.

Part 3 Ia shows the measurement results of the resistance values of various embodiments of the printed resistor according to the invention.

These examples include polyethylene terephthalate fiber V
The results were printed using a gravure printing method using a resistive material ink having the composition shown below, using a film as a substrate.

The resistance material ink and Evoki VM resin 57wt4 example is formed by overprinting using 311Ji ink with the above a%b, o, and is used as a gravure printing plate.
50 strips/1 nah s Printed using a 33 μm depth plate, heat treated at 120° C. for 69 minutes, and a 1 rin wide sample was prepared.

The resistance values were measured at 10 inch intervals.

For each sample, 16 types of samples were created as shown in the table below by using different 7V diameters of the halftone gravure plates. The graph in Figure @3 is a compilation of the measured resistance values of these samples and the area of the halftone dots made of the above ink a.

From the above results, when it is desired to obtain a resistor with a desired resistance value, the desired resistance value can be obtained by appropriately selecting the size of the halftone dots of ink a or ink b. Therefore, it is possible to control the resistance value without changing the thickness of the resistance material ink or depending on the design of the ink composition. In addition, the ink for resistive materials with different resistance values only needs to be prepared based on the standard type, so the ink creation time is 1.
1&. In addition, in the case of a flat resistor, even if the resistance value is partially different or the resistance value changes continuously, it can be easily created by changing the area blueness of the halftone dots on the printing plate. This is something that can happen. Therefore, it is expected that it will be widely used as a resistor as a component of various electrical products.

[Brief explanation of the drawing]

FIG. 111 and FIG. 2 each show an enlarged cross-sectional view of an example of the printing drum resistor according to the present invention, and FIG. 3 shows a graph of the measurement results of the example. In the figure, 1...Substrate 2.12.22...Ink layer Patent applicant Nippon Photo Ink Co., Ltd. 2 Company Yingkei Figure 1 Figure 2 HΩ In^α #! Fig. 3 of Moxibustion, Moxibustion II

Claims (1)

[Scope of Claims] 1. A printed resistor, characterized in that at least two or more ink layers made of resistive material ink are provided on a substrate surface, and at least one of the layers is formed in a halftone dot shape. 2. The printed resistor according to claim 1, wherein each ink layer is made of a resistive material ink having a different specific resistance value. 2. The printed resistor according to claim 1, wherein two or more of the three ink layers are formed in the form of halftone dots.