DE4034160C1 - Directional coupler for domestic microwave oven - has stripline structure terminated by HF diode and wave resistance - Google Patents

Abstract

The directional coupler uses a stripline structure (7) supported by a substrate (6) attached to the outside of the hollow waveguide (1) for the microwaves provided by the microwave generator. The structure (7) has an integrated balancing device, and an integrated voltage line with a voltage tap-off. The structure is terminated by a HF diode and a resistance which corresponds to the wave resistance at its opposite ends. Pref. the hollow waveguide has two coupling holes (4,5) with a dia. of 5 mm. spaced by a quarter wavelength, the stripline structure having a length which is an odd multiple of a quarter wavelength. USE - For microwave frequency of 2.45 GHz. in space-saving construction.

Description

The invention relates to a microwave household appliance, below Use of a waveguide, being in the area of the hollow conductor on an electromagnetic two-hole coupling based microwave directional coupler is arranged.

In household technology are microwave ovens or micro wave furnaces with or without additional thermal heating sources in use by a microwave generator, mostly a magnetron, the microwave energy via waveguide in a microwave-proof sealed cooking space Food. The microwave frequency allowed for this is 2.45 GHz. The upper limit of the coupled in the cooking space Microwave energy is usually 600 to 700 watts. Depending on the type and nature of the food, it penetrates Microwave energy more or less intense in this food a. This makes this form of energy for cooking and defrosting processes can be used advantageously.

To the microwave energy fed into the cooking space in Dependence on the load, i.e. H. the food to be able to control various procedures have been followed.

In ultra-high frequency technology, it is still known with With the help of so-called directional couplers, which consist of a Branch line connected to the main line by one or more  Holes or coupled through a slot, microwaves decouple energy. Such directional couplers can both as a waveguide - as well as a stripline directional coupler be trained. (See e.g. Kummer: Basics of Micro wellentechnik, VEB-Verlag Technik, Berlin 1986, pp. 241-248).

A method has become known from DE 37 43 919 C2, which is used to control microwave energy Directional coupler operated. This process for thermal Treatment of food is characterized in that a microwave directional coupler in the area of the waveguide is arranged, the control of the microwave generator influenced by an evaluation circuit and these measured values delivers that of the micro flowing to or from the cooking space correspond to shaft power.

DE 38 43 919 C2 is a directional coupler, the one Controlled evaluation circuit, become known. It deals but not a matchable, in strip control technology executed directional coupler.

The object of the present invention is to carry out a comparison Microwave directional coupler for 2.45 GHz in a space-saving way To develop execution.

An arrangement that meets these requirements is characterized in that the micro wave directional coupler in stripline structure, on the one Substrate bed-carrying waveguide is arranged that the Microwave directional coupler inte has matched balancing means that one in the stripline Structure-integrated directional voltage spur line arranged is, with the directional voltage stub a dir  has voltage tap, and that the stripline structure of the microwave directional coupler on the one hand with a high frequency diode and on the other hand with a characteristic impedance corresponding resistance is completed.

Advantageous embodiments of the invention are in the Subclaims included.

An embodiment according to the invention is as follows described in more detail with reference to the drawing. It shows

Fig. 1 is a microwave directional coupler in stripline structure on a waveguide,

Fig. 2 shows a layout of a microwave directional coupler in a stripline structure.

Referring to FIG. 1, a waveguide 1, a Energieflußvektor 2, a Energieflußvektor 3, a coupling hole 4, a coupling hole 5, a substrate bed 6 and a strip conductor pattern 7 can be seen. The microwave directional coupler is based on an electromagnetic two-hole coupling 4, 5 between a waveguide main arm 1 and a stripline secondary arm 7 . The energy flow vector 2 documents the amount of energy in front of the stripline directional coupler, while the energy flow vector 3 illustrates the amount of energy after the microwave directional coupler in the direction of the cooking space. The distance between the coupling holes 4, 5 from each other, which decisively determines the directivity, is ¼ of the waveguide wavelength λH. Given the waveguide width of 73 mm and an operating frequency F = 2.45 GHz, the distance d is:

Here λ₀ = free space wavelengths of 122.45 mm. According to Fig. 2 of the microwave directional coupler is disposed in a strip conductor pattern 7 on the waveguide 1. A stub 8 as a matching means, a Richtspannungs- stub 9, a directional voltage tap 10, a circular line thickening 11, into a Leitungsver thickening 11 disposed gap 12, an HF capacitor 13, a resistor 14, a characteristic impedance termination 15 and a detector diode 16 , can also be seen in FIG. 2. The electrical length of the stripline structure 7 on the substrate bed 6 , which can be a ceramic substrate, must be an odd multiple of a four-part of the stripline wave. The stripline wavelength depends on the substrate thickness and the line wave resistance. In the present case, it is 47.83 mm. For the constructive implementation, a stripline length of l = 7 / 4λ is selected on the 3 × 1 inch substrate. The diameter of the coupling holes 4, 5 in the waveguide wall is 5 mm, in the 4 mm high substrate bed 6 the diameter is already 10 mm. By doubling the hole size from 5 mm to 10 mm, the sensitivity of the electrical properties of the stripline directional coupler to positioning errors of the substrate bed 6 on the waveguide 1 is reduced. To couple the electromagnetic energy into the stripline, the substrate bottom (ground side) also has two openings of 10 mm in diameter. These force the current to take a detour and therefore cause two series inductors. The series inductors are compensated with parallel capacitances, realized by circular thickening of cables with a diameter of 5 mm, over the coupling holes on the top of the substrate. In order to have a possibility of matching the directional coupler properties, an idle stub 8 with a characteristic impedance of 80 ohms in the middle of the strip line 7 is provided.

The electrical length of the strip line 7 can be changed by approximately 10% by shortening the geometric length of the stub line 8 . The stub 8 has a length of approximately the wavelength of the wave propagating in the strip line, that is, for example, 27 mm, the wave impedance being 80 ohms and the width of the stub 8 = 0.2 mm.

While one end of the stripline structure 7 is terminated with a resistance of 50 ohms with the correct wave resistance, the other end is closed with a high-frequency detector diode to detect the decoupled high-frequency power. The decoupled high-frequency power supplied to the detector diode is taken from an empty λ / 2 long stub. This directional voltage branch line 9 integrated in the stripline structure 7 has a directional voltage tap 10 at λ / 4, that is to say in the middle of the λ / 2 length of the directional voltage branch line 9 . In this low-resistance section of the directional voltage branch line 9 , a parallel capacitance is provided by a square line widening. On this square line widening, the directional voltage tap 10 , the directional voltage can be easily removed, for example via a wire. Due to the arrangement of the microwave directional coupler on the waveguide 1 , the temperature load of up to approximately 200 ° C. cannot be avoided. This makes it necessary to glue all the components onto the substrate bed 6 with a silver conductive adhesive.

Claims (14)

1. microwave domestic appliance using a hollow conductor ( 1 ) in the microwave energy from a microwave generator and is coupled out of the microwave energy in a food treatment area, wherein in the area of the waveguide ( 1 ) based on an electromagnetic two-hole coupling microwave directional coupler is arranged, characterized in

• - That the microwave directional coupler in stripline structure ( 7 ) on which a substrate bed ( 6 ) carrying hollow conductor ( 1 ) is arranged,
• - That the microwave directional coupler in the stripline structure ( 7 ) has integrated balancing means ( 8 ),
• - That one in the stripline structure ( 7 ) integrated directional voltage branch line ( 9 ) is arranged, the directional voltage branch line ( 9 ) has a directional voltage tap ( 10 ) and
• - That the stripline structure ( 7 ) of the microwave directional coupler is completed on the one hand with a high-frequency diode ( 16 ) and on the other hand with a resistor ( 15 ) corresponding to the characteristic impedance.

2. Microwave household appliance according to claim 1, characterized in that the distance between the coupling holes forming the two-hole coupling ( 4; 5 ) is ¼ of the waveguide wavelength and that the diameter of the coupling holes ( 4; 5 ) in the waveguide wall is 5 mm. 3. Microwave household appliance according to claim 1, 2, characterized in that the diameter of the coupling holes ( 4; 5 ) in the substrate bed ( 6 ) is 10 mm. 4. Microwave household appliance according to claim 1, characterized in that the electrical length of the strip conductor structure ( 7 ) on the substrate bed ( 6 ) is an odd multiple of ¼ of the microwave length in the strip conductor structure ( 7 ). 5. Microwave household appliance according to claim 1, 4, characterized in that the substrate bed ( 6 ) is a ceramic substrate. 6. Microwave household appliance according to claim 1, characterized in that a spur line ( 8 ) is arranged as a balancing means for the microwave directional coupler in the middle of the stripline structure ( 7 ). 7. Microwave household appliance according to claim 1, 6, characterized in that the stub line ( 8 ) at a wave resistance of 80 ohms has a length of approximately that in the stripline structure ( 7 ) spreading microwave length. 8. A microwave household appliance according to claim 1, characterized in that the coupling holes ( 4; 5 ) in the substrate bed ( 6 ) represent series inductances for the microwave frequencies. 9. Microwave household appliance according to claim 1, characterized in that in the stripline structure ( 7 ) parallel capacitances, which are formed by circular line thickenings ( 11 ) are integrated, which compensate for the series inductances in the substrate bed ( 6 ). 10. A microwave domestic appliance according to claim 1, 9, characterized in that the line thickening ( 11 ) closest to the wave resistor ( 15 ) ends of the stripline structure ( 7 ) is halved by a line-interrupting gap ( 12 ). 11. Microwave household appliance according to claim 1, 10, characterized in that the gap ( 12 ) is bridged by the parallel circuit of a high-frequency capacitor ( 13 ) and an ohmic resistor ( 14 ). 12. Microwave household appliance according to claim 1, characterized in that the directional voltage stub ( 9 ) has a length of λ / 2 which is in the substrate bed ( 6 ) from a microwave. 13. Microwave household appliance according to claim 1, characterized in that the directional voltage tap ( 10 ) in the center of the line of the directional voltage stub ( 9 ) is arranged. 14. Microwave household appliance according to claim 1, 13, characterized in that the directional voltage tap ( 10 ) is a square line broadening of the directional voltage stub ( 9 ).