PL80311B2 - - Google Patents

Description

Priority: Application announced: May 30, 1973 The patent description was published: September 30, 1975 80311 H. 21g, 10/02 MKP H01g 3/06 READING ROOM Office, titytmtimlKi ^ Inventors: Antoni Skibinski, Zbigniew SzpigiJ, Julian Kowar: Polish Committee with a temporary patent Normaliz i Miar, Warsaw (Poland) Capacitor designed to work, especially in precise electric coaxial tracks and the method of its implementation The subject of the invention is a capacitor designed to work, especially in precise electric coaxial tracks in the microwave frequency range and the method of its implementation. Obtaining desired characteristics and values of currents in electric circuits, in particular separating direct current from alternating current and giving electric circuits desired frequency or phase characteristics requires, inter alia, introducing into such circuits capacitors: coupling, separating, correction, equalizing, flow rate short circuits. Such capacitors may be made in the form of plates or tubes of dielectric material with linings. A plate capacitor has, on both sides of the dielectric, cladding, most often made of metal foil, to which they are pressed, soldered or welded leads from wires, strips or metal plates. Such outputs are used to connect the capacitor to the electric circuit. A tubular capacitor made of a dielectric in the shape of a tube has a metal cladding placed: one outside and one inside the tube. A variety of tubular capacitors are shorting capacitors, also known as bushing capacitors. They are also made of a shaped dielectric, or in the form of a cylinder or a tube with lining, where a plate or a screw is attached to the outer cladding, directed transversely to the axis of the pipe, and the inner cladding is also a current conduit. The plate or bolt is attached to the ground or ground housing, while the cladding or the center conductor connected to it is usually used to pass a direct or alternating low frequency current into or outside the device. Capacitors commonly used in electronic circuits are made of a dielectric in in the form of a plate, most often a disc, with both surfaces of the disc having a sputtered or vapor-deposited metal layer, constituting a lining. Leads in the form of wires or strips are soldered to the cladding. Such capacitors fulfill their functional tasks well in all circuits and electronic systems, even at higher frequencies, but have some drawbacks in the field of microwaves. Used in precise electric coaxial microwave tonch, they lead to significant deformation of the electromagnetic field and prevent the achievement of the required precision, alignment and homogeneity of the track. The aim of the invention is a capacitor suitable for use in precise electric coaxial paths in the frequency range of microwave lava flows in the production and application and which, when fitted in the inner conductor coaxially to the outer conductor of the coaxial track, makes it easy to obtain the correct formation of the electromagnetic field and the track precision. This goal was achieved by a capacitor, designed to work, in particular, in precise electric coaxial tracks, in which the dielectric formed in the form of a cylinder has metal cladding on the front parts of the cylinder, to which disks with a diameter of the same diameter as that of the dielectric cylinder are permanently attached. The discs are arranged coaxially to the roller and provided with centering elements. The centering members are holes in the disks, and in some cases they may be either cylindrical projections in disks smaller than the diameter of the disk, or a projection at one end and a hole at the other. The disks are front-mounted, coaxially to the dielectric cylinder, and constitute both the lining and the leads of the capacitor. The disks are set and permanently connected to the dielectric by means of a binder, while the coaxial arrangement is made according to the surface forming the dielectric cylinder and the outer diameter of the disks. The described housing and execution of the capacitor intended for operation, especially in precise electric coaxial tracks, ensures accuracy and uniformity of dimensions Outer diameter of the track inner conductor. The finished capacitor can be aligned and sanded together with the disks and centering elements. The installation of such a capacitor in the internal conductor of the coaxial track is easy and allows to obtain significant precision of the desired track parameters without additional correction measures. 1 is a cross-sectional view of such a capacitor with centering lugs in the discs; Fig. 2 is a cross section of a capacitor with centering holes in the disks, and Fig. 3 is a capacitor with a centering lug in one disk and a centering hole in the other disk. The cylindrical dielectric 1 made of a ceramic material with predetermined electrical parameters has metal disks 3 permanently attached with a binder 2 provided with centering projections 4 (Fig. 1) or centering holes 5 (Fig. 2), or on one side there is a hole centering 5 and, on the other hand, centering projection 4. Both the holes 5 and the centering projections 4 can be fitted with or without a thread. The capacitor shown in the example has a dielectric cylinder and disks diameter of 3 mm, a disk thickness of 5 mm, and a cylindrical dielectric length of 1 mm. The diameter of the centering elements is 1.5 mm and their length is 3 mm. A capacitor mounted to the internal conductor of the coaxial track with a characteristic (wave) impedance of 50 cm practically does not distort the electromagnetic field in the space between the coaxial track conductors and allows for high precision track. PL PL

Claims (6)

1. Claims 1. A capacitor designed to work, especially in precise electric coaxial tracks, in which the dielectric formed in the form of a cylinder has metal facings on the front parts of the cylinder, to which the terminals are permanently attached, characterized by the fact that these terminals are shaped in a in the form of disks (3) with a diameter the same as that of the dielectric cylinder (1), the disks (3). they are equipped with centering elements (4 or 5) located in the axis of the roller. 2. Capacitor according to claim The method of claim 1, characterized in that the centering elements are projections (4) in the disks (3). 3. Capacitor according to claim The method of claim 1, characterized in that the centering means are holes (5) in the disks (3). 4. A capacitor according to claim The method of claim 1, characterized in that the centering means are: a projection (4) in one disk (3) and a hole (5) in the other disk (3). 5. The method of making a capacitor according to claim 1-4, in which the disks are positioned and permanently joined frontally, coaxially to the dielectric cylinder, characterized in that the alignment of the dielectric (1) and disks (3) is made according to the surface forming the cylinder (1) and the outer diameter of the disks (3 3 80 311 6. The method according to p. The method of claim 5, characterized in that the disks (3) are frontally, coaxially and permanently attached to the dielectric cylinder (1) with a binder (2) so that they simultaneously constitute the linings and leads of the capacitor. In PL PL