RU1251765C - Circulator based on concentrated reactive elements - Google Patents

Description

 The invention relates to microwave technology and is intended for use in powerful radio transmitting systems.

 The purpose of the invention is to increase the operating level of power.

 Figure 1 shows the design of the circulator on the concentrated reactive elements; figure 2 - design of the inductive element of the circulator on the concentrated reactive elements.

 A circulator based on concentrated inductive elements contains three inductive frames 1, ferrite disks 2, a three-layer insulating dielectric disk 3, radial slots 4, a magnetic system 5, grounded covers 6, case 7, connectors 8, capacitors 9, and reactive bipolar 10.

 The inductive element of the circulator contains three inductive frames 1 and a three-layer insulating dielectric disk 3.

 The inductive element is assembled as follows.

The frames 1 are cut in the center of one of the short sides along the line 11. The extreme layers 12 and the middle layer 13 of the disk 3 are folded so that all the slots 4 coincide. The long sides of the frames 1 are passed through slots 4, one side from top to bottom, the other from bottom to top. The extreme layers 12 rotate relative to the middle layer 13 by 30 ^about : one clockwise, the other counterclockwise.

 Thus, the frames 1 are symmetrically interwoven with each other and reliably isolated from one another.

 The inductive element is clamped between two ferrite disks 2 having the same diameter as the layer 13. In turn, the ferrite disks 2 are either glued to the grounded covers 6 or clamped externally by the grounded covers 6. All this is placed in the housing 7 with connectors 8 and a magnetic system 5 that creates a magnetic field perpendicular to the plane of the ferrite disks 2. Inductive frames 1 on one side are grounded and, on the other hand, connected to matching reactive elements: capacitors 9 and reactive two-terminal 10. Cog asuyuschie reactive elements are connected to the connectors 8.

 The operation of the circulator on concentrated reactive elements at an increased power level is ensured by the following facts.

 The location of the slots 4 in the middle layer 13 allows to achieve maximum symmetry of the structure when the long sides of the inductive frames 1 are passed through the slots 4 at equipotential points.

The use and location of the two extreme layers 12 with slots 4 allows you to eliminate the small gap between the parts of adjacent inductive frames 1 located on one side of the disk 3. The length of the slots 4 in the extreme layers 12 allows them to rotate 30 ^about relative to the slots 4 in the middle layer 13. This increases the electrical strength of the device, as it eliminates the gap, which makes it possible to breakdown between parts of adjacent inductive frames 1 located on one side of the disk 3, due to possible overlap in the air.

 The location of the slots 4 in the middle layer 13 and the slots 4 in the extreme layers 12 allows you to pass the long sides of the inductive frames 1 through each pair of slots 4 in the middle layer 13 and through the slots 4 in the extreme layers 12 and at the same time increase the cross-sectional area of the conductors of the inductive frames 1.

 The main reason for the departure of the parameters of the circulators on the concentrated reactive elements in the temperature range is the change in the saturation magnetization of ferrite. Compensation for such changes is achieved by performing one of the layers of the disk 3 from a material with a positive temperature coefficient of dielectric constant, for example, from polycor.

Claims (2)

1. A CIRCULATOR ON A FOCUSED REACTIVE ELEMENTS, comprising three inductive frames located between ferrite disks, an insulating dielectric disk in which radial slots are made, through which the long sides of the inductive frames are passed, and the longitudinal axes of adjacent radial slots are placed at an angle of 60 ^o , and a magnetic system, characterized in that, in order to increase the operating power level, the insulating dielectric disk in it is made three-layer, with the outer edges of the radial slots of the middle layer I are located from the center at a distance r = (a + 2c) / 2, and the outer edges of the radial slots of the extreme layers are located at a distance from the center

while the radial slots made in these layers are respectively placed one under one and offset relative to the radial slots in the middle layer by an angle of 30 ^o , where a is the distance between the long sides of the inductive frame; b is the width of the long side of the inductive frame.  2. The circulator according to claim 1, characterized in that at least one of the layers is made of polycor.

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