FI65343C - KVARTVAOGSRESONATOR - Google Patents

Description

2,634,33 with transverse openings which form a flexible pattern which allows the center conductor to expand and contract between the fixed end and the free end of the center conductor stationary relative to the fixed end due to temperature, depending on the temperature.

According to the invention, the compensating elements may preferably comprise a steel alloy with a coefficient of thermal expansion of 0.0000115, a central rod, one end of which is threadedly connected to a fixed end of the center conductor and the other end of which is an aluminum alloy with a coefficient of thermal expansion of 0.000023 a coaxially surrounding one end of a tube having one end of the tube connected to a steel alloy having a coefficient of thermal expansion of 0.0000115, the other end of the tube being connected to the free end of the center conductor.

For coarse positioning of the resonator frequency, the center conductor may be formed in a manner known per se from two telescopically nested tubes, the first end of the first tube being fixed and the second end connected by a conical compression fitting to a second tube forming a free end of the center conductor.

An embodiment of the invention will now be described in more detail with reference to the accompanying drawing.

Figure 1 shows an axial section of an embodiment of a quarter-wave resonator according to the invention.

Fig. 2 shows a part of Fig. 1 showing a flexible pattern of the free end of the middle conductor.

The embodiment shows a UHF and SHF region coaxial type quarter-wave resonator with a closed outer conductor consisting of a container 15 and a lid 10, for example made of aluminum, and an inner center conductor 4 consisting of two telescopically nested tubes, the first of which the end attached to the resonator is fixed in the middle of the cover 10 with a threaded opening in the middle,

Claims (2)

3 65343 which receives a central steel alloy bar 1 with a coefficient of thermal expansion of 0.0000115. The outer end of the rod 1 is attached to an aluminum alloy tube 2 coaxially surrounding the rod, having a coefficient of thermal expansion of 0.000023, and the other end is attached to the inner end of a steel alloy tube 3 coaxially surrounding the tube having a thermal expansion coefficient of 0.00 connected to the free end of the center conductor 4. Due to the material properties of the compensating elements 1, 2, 3, the center conductor has a fixed length L over a very large temperature range. flexible i.e. the patterned part can be compressed and stretched without changing the transition resistance. The second tube of the center conductor 4, provided with a flexible pattern, is connected to the first tube by means of a conical compression die 12 for coarse setting of the resonant frequency of the resonator. The rod 1 allows the resonator to be fine-tuned by connecting its upper end to the rotating and locking members 5, 6, 7, 9. As shown in Fig. 1, the oscillator or amplifier 8 is connected to the resonator interior by a connecting loop 12 passing through the opening 11 in the cover 10. . 1. Kvartvägs resonator av coaxial typ, där mittledarens fria ände är temperaturkompeneerad i förhällande account mitledarens fasta ände med hjälp av en combination av element av material med olika värmeutvidgnings- coefficientienter, kännetecknad därav, att mittledarens (4) (1,2,3) are used as a means of measuring a particular temperature (14) are shown in the form of an indication of the temperature and the temperature at which the mixture is exposed to the same temperature and pa The compensation is granted in the form of an account for the purposes of the stationary area. A coaxial-type quarter-wave resonator in which the free end of the center conductor is temperature compensated with respect to the fixed end of the center conductor by a combination of elements of different thermal expansion coefficients, characterized in that the free end of the center conductor (4) is connected to the center conductor by means of elements (1, 2, 3). end, is provided with transverse openings (14) which form a flexible pattern which allows the center conductor to expand and contract depending on the temperature between the fixed end and the free end of the center conductor stationary relative to the fixed end due to compensation. <. 65343 Quarter wave resonator according to claim 1, characterized in that the compensating elements comprise a steel alloy with a coefficient of thermal expansion of 0.0000115, a central rod (1), one end of which is threadedly connected to a fixed end of the center conductor (4) and the other end of which is connected to one end of a coaxially surrounding tube (2) of aluminum alloy having a coefficient of thermal expansion of 0.000023, the other end of which is connected to the other end of a coaxially surrounding tube (3) of steel alloy having a coefficient of thermal expansion of 0.0000115, the other end of the tube is connected to the free end of the center conductor. A quarter-wave resonator according to claim 1 or 2, wherein the center conductor (4) consists of two telescopically nested tubes, characterized in that the first end of the first tube is fixed and the second end is connected by a cartloom-operated spray connection (13) to the second tube. free end and is equipped with a flexible opening pattern. 2. Quadrant resonator according to claim 1, with the result that the compensating elements have an equal value (1) with an equalization value, with a maximum of 0.0000115