JPH07320979A - Filter unit - Google Patents

Abstract

PURPOSE:To reduce the size of a filter unit and improve the performance of the unit by forming a filter mechanism composed at least of either a capacitor or ferrite on a substrate having through holes by a printing method. CONSTITUTION:A ferrite layer 2 is formed of ferrite paste on the internal surfaces of through holes 9 of an alumina ceramic substrate 1 having a notch 7, holes 8 and 8', and the through holes 9 by using a printing method. Then, after forming common electrodes 4 of conductive paste on the upper surface of the substrate 1 by using a printing method, independent dielectric layers 5 are formed of dielectric paste on the electrodes 4 by using a printing method. After forming the layers 5, signal electrodes 6 and 6' which are continuously conducted are formed of conductive paste on the upper surfaces of the dielectric layers 5, upper and lower surfaces of the substrate 1, internal surfaces of the ferrite layers 2 in the holes 9, and internal surfaces of the holes 9. Then a protective layer 10 is formed of glass paste by using a printing method so as to cover a filter mechanism constituted of the common electrodes 4, ferrite, capacitors, and signal electrodes 6 and 6'.

Description

Detailed Description of the Invention

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a filter unit for which electronic parts are required to be smaller and have higher performance.

[0002]

2. Description of the Related Art Conventionally, a large number of individual chip capacitors, individual ferrites, etc. are aligned and mounted on a substrate, a printed wiring board, etc. and used as a filter function.
Further, JP-A-6-85485 discloses an LC substrate which is a porcelain substrate integrally formed with a ferrite layer and a capacitor portion, which has a through hole into which a lead wire is inserted.

[0003]

The handling of individual chip capacitors, individual ferrites, etc. by mounting as described above requires a large number of parts and a large number of man-hours. Further, in the above-mentioned LC substrate into which the lead wire is inserted, it is necessary to insert the lead wire, and the route of the ferrite layer with respect to the lead wire is short and a sufficient effect cannot be obtained.

Accordingly, an object of the present invention is to provide a leadless filter unit which is integrally formed with a filter mechanism, does not require the insertion of lead wires, is small in size, low in cost, and has high performance, and which is suitable for surface mounting. It is provided.

[0005]

According to the present invention, a filter mechanism made of at least one of a capacitor and a ferrite is integrally formed on a substrate having a through hole by a printing method,
(EN) Provided is a leadless filter unit which does not require insertion of a lead wire, has a small size, a low price and high performance and is suitable for surface mounting.

The filter unit according to the present invention will be described in detail below. FIG. 1A is a diagram showing an embodiment of a filter unit according to the present invention. Figure 1 (B)
FIG. 2 is a cross-sectional view taken along the line JJ ′ of FIG.

The filter mechanism of the filter unit according to the present invention is, for example, as shown in FIG. 1, and the ferrite layer 2 is formed on the inner wall of the through hole of the substrate 1 having the through hole 9 by printing and firing. The common electrode 4 and the dielectric layer 5 are formed on the upper surface of the substrate by printing and firing, and the signal electrodes 6 and 6'are formed on the upper surface of the dielectric layer 5, both surfaces of the base body 1 and the upper surface of the ferrite layer in the through holes. Is formed by printing and firing to produce a filter unit. Further, the protective layer 10 is formed in order to improve reliability.

In the filter unit according to the present invention,
The structure of the filter unit is not limited to the above-mentioned structure, and may be any structure having a filter function. Further, as the substrate having the through holes, insulating ceramics are preferable. More preferably, it is an alumina ceramic. Further, the material forming the common electrode, the signal electrode, the ferrite layer and the dielectric layer is not particularly limited as long as it can be printed by a printing method and can be fired. Preferably, the dielectric layer is Pb (Mg _1/3 Nb _2/3 ) O ₃ ,
A composition containing at least one of Pb (Zn _1/3 Nb _2/3 ) O ₃ , PbTiO ₃ , and Bi ₂ O ₃ is preferable. Further, the common electrode, the signal electrode, the ferrite layer and the dielectric layer are formed by printing and firing by a method known per se. Preferably, it is formed by a thick film printing technique.

Further, the inside of the through hole is a signal electrode material or
It may be filled with a ferrite material or may be formed only on the wall surface.

Further, the protective layer is formed by printing, drying and baking, and printing, coating, dipping
Etc., and may be dried and cured.

Further, the filter mechanism is composed of a common electrode and a signal electrode and a ferrite layer or a ferrite layer or a dielectric layer. Further, the filter mechanism is
It may be composed of at least one of the ferrite and the capacitor, and a combination of the ferrite and the capacitor may be mixed. Further, the filter function may be formed for each signal electrode, or may be formed only for a necessary signal electrode. Further, the shape of the filter mechanism is not particularly limited. Preferably, due to the shielding effect, the common electrode should cover the whole and wide area of the substrate. Also,
The dielectric layer of the capacitor that constitutes the filter mechanism may be formed commonly to a plurality of signal electrodes, but it is preferable that the dielectric layer is formed independently of each signal electrode.

[0012]

Embodiments of the filter unit according to the present invention will be described below. The filter unit according to the present invention is
It is not limited to the following examples.

(Embodiment 1) A plurality of break lines are formed on the inner wall of the through hole 9 of the alumina ceramic substrate 1 having the cut 7, the holes 8 and 8'for determining the orientation of the filter unit and the through hole 9. The ferrite paste was screen-printed, dried and fired to form the ferrite layer 2.

Next, an Ag-Pd type conductive paste was screen-printed on the upper surface of the alumina ceramic substrate 1, dried and baked to form a common electrode 4. The common electrode 4
Were also formed on the inner wall surface of the hole 8 '.

Next, the dielectric paste was screen-printed on the common electrode 4, dried, and fired to form independent dielectric layers 5.

Next, the upper surface of the dielectric layer 5, the upper surface of the alumina ceramic substrate 1, the lower surface of the alumina ceramic substrate 1,
On the inner surface of the ferrite layer of the through hole 9 in which the ferrite layer 2 is formed and on the inner wall surface of the hole 8, Ag-Pd-based conductive paste is screen-printed, dried, and fired to form signal electrodes 6 and 6'which are continuously conductive. did. The common electrode, the dielectric layer, and the signal electrode form the capacitor 3.

Next, a glass paste was screen-printed so as to cover the filter mechanism composed of the common electrode, the ferrite, the capacitor and the signal electrode, dried and baked to form the protective layer 10.

The filter unit manufactured in this manner forms a filter mechanism with a ferrite, a capacitor and a ferrite, and a signal electrode and a common electrode penetrating the capacitor, and has excellent filter performance, small size, low price and high reliability. Therefore, it is very useful as a leadless electronic component in surface mounting mounting on a printed circuit board or the like.

(Example 2) A filter unit was manufactured in substantially the same manner as in Example 1 without forming a ferrite layer. The filter unit manufactured in this manner forms a filter function with a capacitor and a signal electrode that penetrates the capacitor and a common electrode, and has excellent filter performance, small size, low price, and high reliability, and a leadless electronic component. As a result, it is very useful for surface mounting mounting on a printed circuit board or the like.

(Embodiment 3) In substantially the same manner as in Embodiment 1,
A ferrite layer, a common electrode, a dielectric layer, and a signal electrode are formed. Further, a ferrite paste is printed on the inner wall of the through hole 9, dried and fired to form a ferrite layer, and a glass paste is screen-printed and dried. Then, it was fired to form a protective layer to produce a filter unit.

The filter unit thus manufactured has excellent filter performance, is small in size, low in price, and highly reliable, and is very useful as a leadless electronic component in surface mounting mounting on a printed circuit board or the like. .

(Embodiment 4) Both sides of the alumina ceramic substrate 1 having notches 7, holes 8, 8 ′ and through holes 9 for determining the orientation of the filter unit by taking a plurality of break lines formed therein, in the hole 8, A in the through hole 9
The g-Pd-based conductive paste was printed, dried, and fired to form the signal electrodes 6 and 6 '.

Next, a ferrite paste was printed on the inner wall of the through hole in which the signal electrode was formed, dried and fired to form a ferrite layer 9.

Next, a dielectric paste was printed on the upper surface of the signal electrode, dried and baked to form a dielectric layer 5.

Next, an Ag-Pd type conductive paste was printed on the upper surface of the dielectric layer 5 and the alumina ceramic substrate 1 and in the holes 8 ', dried and fired to form the common electrode 4.

Next, a glass paste was printed so as to cover the filter mechanism composed of the common electrode, the ferrite, the capacitor and the signal electrode, dried and fired to form the protective layer 10 to fabricate a filter unit.

The filter unit thus manufactured has excellent filter performance, is small in size, is low in price, and has high performance, and is very useful as a leadless electronic component for surface mounting on a printed circuit board or the like.

[0028]

The filter unit according to the present invention is excellent in filter performance, small in size, low in price, and highly reliable, and is provided as a leadless electronic component very useful for surface mounting on a printed circuit board or the like. it can.

[0029]

[Brief description of drawings]

1A and 1B are a top view and a cross-sectional view showing an embodiment of a filter unit according to the present invention.
(A) is a view seen from the upper surface, and (B) is a cross-sectional view taken along the line JJ 'of (A). (Example 1)

[0030]

FIG. 2 is a cross-sectional view of Example 4.

[0031]

[Explanation of symbols]

 1 Base 2 Ferrite Layer 3 Capacitor 4 Common Electrode 5 Dielectric Layer 6, 6'Signal Electrode 7 Notch 8, 8'Hole 9 Through Hole 10 Protective Layer

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification number Office reference number FI technical display location H05K 1/16 A 7726-4E 9/00 K

Claims (1)

[Claims] 1. A filter unit comprising a substrate having a through hole and a filter mechanism made of at least one of a capacitor and a ferrite formed by a printing method. [0001]