JPS58141503A - 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 resistors are arranged in series at intervals of one hex.

When automatically assembling resistors onto printed circuit boards using automatic machines,
As shown in Figure 1, the lead wires (2) attached to individual resistors (1) can be pasted on adhesive tape (3) at regular intervals as shown in Figure 2, and a large number of resistors (1) can be connected. It had a taping structure that was connected and fixed, and was used for automatic assembly by automatic machines.

However, when making the resistors, they were made individually, so
Resistors and other parts are also separate, and (1) the feeding mechanism for each part becomes complicated, and transport errors also occur. The aim was to make a long piece of daping resistance by connecting the resistors at regular intervals, and to automatically assemble it with an automatic machine with the resistors connected at regular intervals. By forming a patterned resistor film on a flexible film base material and forming a large number of continuous resistors into a structure with a large number of continuous resistors using a flexible film, the above objective [1] was achieved. Of course, it can be used as is for automatic assembly by automatic machines,
This resulted in an extremely thin and compact product.

An embodiment of the present invention will be described below with reference to the drawings. Third
As shown in the figure, a long flexible film (4) is coated with a resistive film by plating, vacuum evaporation, sputter evaporation, etc.
5) Form. Or, as shown in Figure 4, use adhesive (6
) to prepare a flexible resistor dispersion H fabric by fixing the resistor foil (7) to the flexible film (4).

(2) Next, as shown in Fig. 5, a resist pattern (9) having a terminal part (9) is formed by gravure printing, screen printing, photoresist film, etc. on the resistive film (5) in a pattern according to the resistance value. After forming the same pattern (8) on the entire surface in succession, etching is performed to remove the resistive film (5) other than the turns (8), and further remove the resist to form a long flexible film (4). A large number of resistors are manufactured in series 17 at regular intervals on top of the resistor.

You can connect the terminal part (9) with a 7. fern to create a connected resistor without lead wires, or connect the lead terminal (10) as shown in Figure 6.
Connect to the terminal part (9) by welding or welding.

Place a protective resin mold (1) on the resistor as shown in Figure 7.
υ or complete coating may be applied. The J-turn in Figure 5 is an example, and the pattern can be changed to create any combination of resistance values.
It is also possible to make products with various resistance values that repeat the combination of resistance values. .

Note that pattern formation has been explained in terms of machining and cutting, but mask deposition during vapor deposition and bonding after punching of foil (3) are also applicable.

Example 1 25 μm thick polyimide film (trade name) 7-, :r
Copper nickel N gold (Ni4
By applying a 1Q1tnl foil of 5% Cu, 55%), a ♂ in-plane resistance of 005 ΩA was obtained, and by changing the pattern fK:%: from 0.1Ω in an area of 5 tnm x 5 mm] (431 resistance value of lkΩ was obtained. radius of curvature 10m/
At 7g, a change in resistance 11h of 1% or less was also obtained for the curve 4j [1, -C. Because of this, it has been possible to connect the resistors in one role from the beginning (this is a resistor with a configuration that allows continuous production of up to 1 kg of resistance).

(2) Kawanobe C sent to the flexible film base
By melting the lot water, it is possible to create a connected resistor with good feeding accuracy and easy to use. F of 0.1 mm or more is now possible 1. (4) Since it can be bent for use, only a small base with IIX is needed.

(5) By changing the pattern formation t'4', the wiring and resistance value of the resistor can be easily changed, and combinations can be made freely.

[Brief explanation of the drawing]

Fig. 1 shows a conventional resistor, Fig. 2 shows a conventional resistor connected by turns, t, fr, physical diagram, and the top view shows a resistor base formed by vaporization according to the eleventh embodiment of the present invention. FIG. 4 is a cross-sectional view of a resistor base material bonded with resistance foil according to another embodiment of the present invention, FIG. 5 is a plan view showing a part of a continuous pattern, and FIG. 6 is a cross-sectional view of a lead terminal portion FIG. 7 is a plan view of the resistor and a perspective view of the resin-molded resistor. (4)...Flexible film, (5...resistance i[, (6)...adhesive, (7)...resistance foil, (8
)...Resist pattern, (9)...Terminal section, (1
0 ... REIT terminal agent Yoshihiro Morimoto Figure 1 Figure 2 Figure 3 Figure 4 Figure S Figure

Claims (1)

[Claims] 1 A long flexible film base material v (-
f A taching resistor characterized in that a plurality of resistors H''t are formed into a continuous structure using the flexible film.