JPH0582103U - Dielectric filter - Google Patents

Abstract

(57) [Abstract] [Purpose] To standardize the case by positioning the dielectric coaxial resonator using an insulating sheet. [Structure] An insulating sheet 71 made of an insulating material is formed on the case 51 without forming any positioning projections or the like.
Adhesively fixed to the flat bottom surface. A strip-shaped window 72 for soldering is formed in the insulating sheet 71. In addition, a plurality of protrusions 73 for positioning the dielectric coaxial resonator and the coupling substrate are integrally formed on a main part of the upper surface of the insulating sheet 71. The window hole 72 for soldering is formed only in a necessary portion according to the location of the dielectric coaxial resonator to be soldered. Therefore, the same case 51 can be used, standardization can be achieved, and cost can be reduced.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a dielectric filter used in the microwave band, for example.

[0002]

[Prior Art]

 First, a conventional dielectric filter of this type will be described. FIG. 4 shows a conventional example and shows an exploded perspective view of a dielectric filter used in mobile communication equipment such as a car phone and a mobile phone, which is composed of, for example, a bandpass filter. In FIG. 4, five dielectric coaxial resonators 2 to 6 are arranged in parallel on one side of the bottom surface of the case 1. A film-shaped inner conductor is formed on the inner surface of the hole opened at the end surface of each of the dielectric coaxial resonators 2 to 6, and the coupling terminal 7 contact-connected to this inner conductor is press-fitted into the hole. An outer conductor is formed in a film shape on the outer surfaces of the dielectric coaxial resonators 2 to 6 excluding the end surface on the side where the coupling terminal 7 is press-fitted. Further, on the other side of the bottom surface of the case 1, that is, on the side where the open ends of the dielectric coaxial resonators 2 to 6 are located, a dielectric coupled substrate 8 is arranged via a spacer 9 made of an insulator. ..

On the upper surface of the coupling substrate 8, film-shaped capacitor electrode films 10 to 14 to which the tips of the coupling terminals 7 derived from the dielectric coaxial resonators 2 to 6 are respectively connected are formed. A capacitor electrode film is formed on the lower surface of the coupling substrate 8 corresponding to the capacitor electrode film 10, and the input / output terminal 16 is connected to this capacitor electrode film. Further, the input / output terminal 17 is connected to the capacitor electrode film 15 formed on the end portion of the combined substrate 8 so as to be connected to the outside. Further, one end of the coil 18 for adjusting the damping characteristic is connected to the capacitor electrode film 15 of the coupling substrate 8, and the other end of the coil 18 is grounded to the case 1. On the upper surface side of the case 1 in which the above-mentioned members are arranged, a box-shaped cover 19 having an opening on the lower surface is provided by fitting with the case 1.

Here, the positioning and fixing of the dielectric coaxial resonators 2 to 6 and the coupling substrate 8 to the case 1 are performed as follows. That is, as shown in FIGS. 4 to 6, in order to position the dielectric coaxial resonators 2 to 6, the end of the case 1 is bent upward to form a positioning piece 21, and an inner surface of the positioning piece 21 is formed. Positioning was performed by contacting the dielectric coaxial resonators 2 to 6 with. Further, the joint substrate 8 is positioned by forming the protrusion 20 on the bottom surface of the case 1 by extrusion and contacting the side end surface of the spacer 9 with the protrusion 20. In the dielectric coaxial resonators 2 to 6, the outer conductor formed on the surface of the dielectric is soldered to the case 1 in order to suppress variations in characteristics due to stray capacitance and the like. The diagonally shaded portion indicated by 22 in FIG. 6 is a portion to be soldered to the outer conductors of the dielectric coaxial resonators 2 to 6, and the small portion connects the case 1 and the dielectric coaxial resonators 2 to 6 to each other. They were connected electrically and mechanically, respectively.

As described above, since the soldering points of the dielectric coaxial resonators 2 to 6 are small, in order to prevent the rattling due to the soldering, the resin 23 is applied in a strip shape as shown in FIG. And the dielectric coaxial resonators 2 to 6 were fixed.

[0006]

[Problems to be solved by the device]

 However, in the above method, it is necessary to change the positions of the positioning protrusions and the like depending on the length of the dielectric coaxial resonator and the size of the coupling substrate even with the same number of filters. Therefore, the case had to be changed for each model, and there was a problem of poor versatility. Further, there is a problem that the number of steps for applying the resin 23 increases, resulting in an increase in cost.

The present invention has been made in view of the above points, and provides a dielectric filter for the purpose of standardizing a case by positioning a dielectric coaxial resonator using an insulating sheet. It is a thing.

[0008]

[Means for Solving the Problems]

 The present invention relates to an dielectric filter having a dielectric coaxial resonator that resonates at a predetermined frequency with an inner conductor formed on the inner surface of a hole of a dielectric and an outer conductor formed on the outer peripheral surface except one end surface of the dielectric. , The dielectric coaxial resonator is arranged on the bottom surface of the case through an insulating sheet made of an insulating material, and the insulating sheet is provided with a positioning portion for positioning the dielectric coaxial resonator, and the dielectric coaxial resonator is also provided. A window for soldering is punched in the part of the insulating sheet corresponding to the required soldering location between the case and the case.

[0009]

[Action]

 The present invention positions the dielectric coaxial resonator by the positioning part provided on the insulating sheet and does not form the positioning part on the case, so that the same case can be used even if the model changes, and therefore the case Can be standardized and cost reduction can be achieved. In addition, the user can use the case with the same shape, which is easy to use. Furthermore, when the case and the dielectric coaxial resonator are soldered, it is possible to make a window hole in the portion of the insulating sheet corresponding to the necessary portion for soldering, and it is an insulating sheet. Since the window hole can be easily formed and only the part that needs to be soldered can be provided, the reliability of the characteristics as a filter is improved.

[0010]

【Example】

 Embodiments of the present invention will be described below with reference to the drawings. First, the overall structure of the dielectric filter to which the present invention is applied will be described. FIG. 2 shows an exploded perspective view of the entire dielectric filter according to the embodiment of the present invention. For example, in mobile communication devices such as car phones and mobile phones, simultaneous transmission and reception are performed, so that the receiving side and the transmitting side are configured with filters having different frequency bands. The elongated dielectric filter shown is composed of a bandpass filter (bandpass filter) 26 on the receiving side and a band elimination filter (bandstop filter) 31 on the transmitting side. This dielectric filter is of a type that is surface-mounted on a printed circuit board or the like.

The band-pass filter 26 on the receiving side has five dielectric coaxial resonators 2 to 6 as shown in FIG. 4, and the band elimination filter 31 has five dielectric coaxial resonators. It has resonators 32-36. In each of the dielectric coaxial resonators 2 to 6 and 32 to 36, a circular hole 37 is bored at the center of a rectangular columnar dielectric body, and an inner conductor is formed on the inner peripheral surface of the hole 37. There is. Further, an outer conductor is formed on the outer peripheral surface and one end surface of the dielectric. The coupling terminals 7 are press-fitted into the holes 37 of each of the dielectric coaxial resonators 2 to 6 and 32 to 36 so as to make contact with the internal conductors. This coupling terminal 7 is split into two pieces, and the tip end portion is formed in a tapered shape so that it can be easily pressed into the hole 37. Further, the opposite side is connected to the capacitor electrode film of the coupling substrate 8 or the capacitor electrode films formed on the upper surfaces of the capacitor substrates 38 to 42 constituting the band elimination filter 31 by soldering or the like. ing.

The band elimination filter 31 side has the above-mentioned capacitor substrates 38 to 42 made of a dielectric material, and capacitor electrode films (hatched portions in the drawing) on the upper and lower surfaces of the capacitor substrates 38 to 42. Is formed. Further, a capacitor electrode film (hatched portion in the figure) is formed on the upper surface of a thin plate-shaped capacitor substrate 43, which is disposed on the bottom surface of the case 51 and is made of a dielectric material, corresponding to the capacitor substrates 38 to 42. ing. A capacitor electrode film serving as a ground electrode is formed on substantially the entire lower surface of the capacitor substrate 43. Further, capacitor electrode films are formed on the upper and lower surfaces of the capacitor substrate 27 provided between the coupling substrate 8 and the capacitor substrate 43. The substantially central portion of the substantially L-shaped antenna terminal 49 is connected to the capacitor electrode film on one end side of the lower surface of the coupling substrate 8, and the end portion is connected to the capacitor electrode film on the upper surface of the capacitor substrate 27. Further, the capacitor electrode film on the lower surface of the capacitor substrate 27 is grounded to the case 51. Further, the input / output terminal 16 is connected to the capacitor electrode film on the other end side of the lower surface of the coupling substrate 8. Incidentally, one end of the coil 18 is connected to the antenna terminal 49 and the other end is grounded to the case 51.

One end of the coil 44 is connected to the capacitor electrode film on the upper surface of the capacitor substrate 27, and the other end is connected to the capacitor electrode film on the upper end of the capacitor substrate 43. The other coils 45 to 48 are also connected so as to bridge between the capacitor electrode films of the capacitor substrate 43, and the capacitor electrode films on the lower surfaces of the capacitor substrates 38 to 42 are connected to each capacitor electrode film by soldering or the like. It has become so. Further, one end of the input / output terminal 50 is also connected to the capacitor electrode film on the end portion of the capacitor substrate 43. The ends of the terminals 16, 49, 50 project outward from the case 51 and can be connected to the outside. Further, insulating plates 53 and 54 are interposed between the inner surface of the side plate 52 of the case 51 and the filters 26 and 31, and the case 51 is short-circuited with the coupling substrate 8 and the capacitor substrates 27 and 43. Is being prevented.

A plurality of ground terminals 55 are formed on the side plate 52 and both sides of the case 51. Further, the cover 60 that fits over the upper surface of the case 51 is formed in a substantially box shape with the lower surface opening, and is soldered to the upper surfaces of the outer conductors of the dielectric coaxial resonators 2 to 6 and 32 to 36. A window 61 and a plurality of windows 62 for inserting jigs for adjusting the characteristics of the dielectric coaxial resonators 2 to 6 and 32 to 36. The outer surfaces of the outer conductors of the dielectric coaxial resonators 2 to 6 and 32 to 36 are soldered through the window 61 of the cover 60 and are electrically and mechanically coupled to the cover 60. A tongue piece 59 is integrally bent upward at approximately the center of both sides of the case 51 to improve the strength of the case 51 against bending.

Next, a method of positioning the dielectric coaxial resonators 2 to 6 and 32 to 36 (hereinafter referred to as the dielectric coaxial resonator 2), which is the gist of the present invention, will be described. Note that FIG. 1 is a schematic view, and as shown in FIG. 1, an insulating sheet 71 made of an insulating material is formed on the case 51 without forming any positioning projections or the like on the case 51. It is adhesively fixed to the flat bottom surface. A strip-shaped window 72 for soldering is formed in the insulating sheet 71, and the dielectric coaxial resonator 2 and the coupling substrate 8 are positioned in the main part of the upper surface of the insulating sheet 71. A plurality of protrusions (positioning portions) 73 for performing the above are integrally formed. The window hole 72 for soldering may be formed in accordance with the location where the dielectric coaxial resonator 2 is arranged, and is not limited to the position shown in FIG. That is, a window hole 72 is formed in the insulating sheet 71 only in the portion of the dielectric coaxial resonator 2 that needs to be soldered, solder is placed in this window hole 72, and heat is applied from the lower surface of the case 51. Then, the case 51 and the outer conductor of the dielectric coaxial resonator 2 are soldered. As a result, the dielectric coaxial resonator 2 is electrically and mechanically coupled to the case 51. Further, a soldering window hole may be formed on the bottom surface of the case 51 in a shape corresponding to the window hole 72 of the insulating sheet 71, and the soldering may be performed through the window hole.

By setting the thickness of the insulating sheet 71 to, for example, about 0.1 mm, it is possible to form the overall size (height size) of the dielectric filter substantially the same as the conventional one. Further, since the positioning projection 73 only contacts the elements such as the dielectric coaxial resonator 2 and the coupling substrate 8, strength is not required. With this configuration, the same case 51 can be used for both the dielectric filter having a resonance frequency of 900 MHz and the dielectric filter having a resonance frequency of 1.5 GHz, although the dielectric coaxial resonator length is changed. This can be dealt with by changing the insulating sheet 71 to change the position of the positioning protrusion 73. Therefore, the element can be positioned with the insulating sheet 71, and the window holes 72 are punched in the insulating sheet 71 only for the portions that need to be soldered to the dielectric coaxial resonator. Can improve reliability.

FIG. 3 shows an equivalent circuit diagram of the whole, and each capacitor C on the side of the bandpass filter 26. ₁ ~ C₆Are formed by the capacitance between the capacitor electrode films 10 to 15 formed on the combined substrate 8. In addition, each capacitor C on the band elimination filter 31 side₇~ C₁₁Is formed by the capacitance between the capacitor electrode films on the upper and lower surfaces of the capacitor substrates 38 to 42.₁₂Are formed of capacitor electrode films on the upper and lower surfaces of the capacitor substrate 27. Also, the capacitor C₁₃~ C₁₇Is formed by each capacitor electrode film on the upper surface of the capacitor substrate 43 and the capacitor electrode film on the lower surface. Note that RX in FIG. 3 indicates the receiving side, and TX indicates the transmitting side. That is, the band pass filter 26 is for reception, and the band elimination filter 31 selects different frequency bands for transmission.

Further, in the embodiment, the example of the combination of the bandpass filter and the band elimination filter is shown as the filter configuration. However, these single configurations, other highpass filters and lowpass filters respectively, Alternatively, it can be applied to a combination of filters. Further, it is of course applicable not only to the filter but also to a case for accommodating and arranging all kinds of electric parts.

[0019]

[Effect of the device]

 As described above, the present invention has a dielectric coaxial resonator that resonates at a predetermined frequency with the inner conductor formed on the inner surface of the hole of the dielectric and the outer conductor formed on the outer surface of the dielectric except one end surface. In the body filter, a dielectric coaxial resonator is arranged on the bottom surface of the case via an insulating sheet made of an insulating material, and a positioning portion for positioning the dielectric coaxial resonator is provided on the insulating sheet, and the dielectric coaxial resonator is also provided. Since a window hole for soldering is punched in the part of the insulating sheet corresponding to the required soldering place between the resonator and the case, the positioning of the dielectric coaxial resonator is performed by the positioning part provided on the insulating sheet. By not forming the positioning part on the case, the same case can be used even if the model is changed. Therefore, the case can be standardized and the cost can be reduced. In addition, the user can use the case with the same shape, which is easy to use. Furthermore, when soldering the case and the dielectric coaxial resonator, it is possible to make a window hole in the part of the insulating sheet that corresponds to the required location and solder it. Therefore, the window hole can be easily formed, and only the portion where soldering is required can be formed, so that the reliability of the characteristics of the filter is improved.

[Brief description of drawings]

FIG. 1 is an explanatory view when an insulating sheet according to an embodiment of the present invention is arranged in a case.

FIG. 2 is an exploded perspective view of an entire dielectric filter showing an application example of the present invention.

FIG. 3 is an equivalent circuit diagram of the above dielectric filter.

FIG. 4 is an exploded perspective view of a conventional dielectric filter.

FIG. 5 is a side view of a conventional dielectric filter.

FIG. 6 is an explanatory diagram for positioning a dielectric coaxial resonator of a conventional example.

[Explanation of symbols]

 2-6 Dielectric coaxial resonator 32-36 Dielectric coaxial resonator 51 Case 71 Insulating sheet 72 Window hole 73 Projection

Claims (1)

[Scope of utility model registration request] 1. A dielectric filter having a dielectric coaxial resonator that resonates at a predetermined frequency with an inner conductor formed on an inner surface of a hole of a dielectric and an outer conductor formed on an outer peripheral surface of the dielectric except one end surface thereof. , A dielectric coaxial resonator is disposed on the bottom surface of the case via an insulating sheet made of an insulating material, and a positioning portion for positioning the dielectric coaxial resonator is provided on the insulating sheet, and a dielectric coaxial resonator is provided. A dielectric filter, characterized in that a window hole for soldering is punched in a portion of an insulating sheet corresponding to a required soldering portion with a case.