RU5305U1 - Microwave Amplifier NAGOVITSYNA - Google Patents

Abstract

A microwave amplifier, including two transistor stages connected in series and an input circuit made of the ends of the first capacitor and the first loop connected to the second loop, connected to the base of the transistor of the first stage, the collector of which is connected to the third loop, which is connected to the fourth loop, one the end connected to the second capacitor, the second output of which is connected to the housing, and having a feedback circuit from the first resistor and the third capacitor connected in parallel, one in the outputs of which are connected to the housing, characterized in that the emitter of the transistor of the first stage is connected to the housing, and its collector is connected through the second resistor to the beginning of the third loop and directly to the base of the transistor of the second stage, to the emitter of which a feedback circuit from the first resistor and the third capacitor is connected , and a third resistor, the second terminal of which is connected to the base of the transistor of the first stage, which is also connected to the second terminal of the first capacitor, while the second loop is connected at one end to the first loop at a distance of 0.5 - 0.75 from its beginning, which is the input of the circuit, and its second end is connected to the case, the third loop is connected to the fourth loop at a distance of 0.1 - 0.8 from its beginning, connected to the collector of the transistor second cascade.

Description

Microwave oven

The invention relates to microwave technology vCB4), and MivieHHO to microwave amplifiers and can be used in television, in particular, cable with collective or individual reception of speech and video signals in the deciliter wavelength range.

Known microwave amplifier described in the application of France {° 2oo499: CL IOZ R 3/139; Broadband VHF - an amplifier for amplifying television signals and a processing device with such an amplifier, 3.10.II.83, publ. 17.05.85. The known amplifier contains two transistor amplification stages without feedback, an input filter of two resistors and three capacitors and an output filter of three capacitors, as well as capacitors in the power circuit.

It is known that in broadband amplifiers it is necessary to take into account the decrease in the gain of the transistor with increasing frequency. To compensate for the decrease in gain due to the lack of feedback in the circuit, it is necessary to go for signal loss in the input circuits, which degrades the characteristics of the amplifier.

Also known microwave - amplifier described in the patent CLA Ji 4465979, CL NOZR 3/60 3.8.10.82, publ. 08/14/84 Antenna UHF amplifier with flat transformers. The known amplifier contains two transistor stages, voltage feedback circuits, input and output matching flat transformers.

A disadvantage of the known amplifier is the high noise level at low frequencies of the operating range. This is due to the fact.

that in the circuit, voltage feedbacks are not frequency-dependent, it is necessary to compensate for the drop in the gain with frequency by selecting matching elements of the input circuits, which leads to an increase in the actual losses and an increase in the noise level at the lower frequencies of the operating range.

The closest in technical essence to the claimed solution is microwave. -amplifier described in the book Receiving devices under the editorship of L.G. Barulina,.,. Radio and Communications, 1984, pp. 241-242 and selected as a prototype.

The known amplifier contains three connected sequentially identical cascades, each of which consists of one transistor, five resistors, five capacitors and six loops connected by the following. way. The input circuit consists of the first capacitor and the first loop connected in series to the base of the transistor, the second loop connected to the end connected to the end, and the third loop connected to the end, the second end of which is connected to the second capacitor connected by the second output to the case and the first a resistor connected to a second resistor, the second terminal of which is connected to the housing, and a third resistor, a feedback circuit is connected to the emitter of the transistor, consisting of a fourth resistor and a third connected in parallel capacitors, the second terminals of which are connected to the housing, and the collector of the transistor is connected to the beginning of the fourth loop, the end of which is connected to the fifth loop and through the fourth capacitor to the sixth loop, not closed at the end:., the second end of the fifth loop is connected to the fifth capacitor, the second terminal connected to the housing, to the second terminal of the third resistor and

the first output of the fifth resistor, while the first output of the first capacitor is the input of the amplifier, and the second output of the fifth capacitor is the output of the cascade.

The disadvantage of the amplifier is the complexity of the circuit, which consists of a large number of consonants / units: elements at the input of the cascade to the international cascades that the E circuit is introduced to compensate for the decrease in the gain of the transistor amplifier in the operating frequency range and match the input and output transistors with standard lines transmission. The matching of the transistor with the input load is provided by three loops of Ivi to a resistor with a condensation / gore, and also due to the presence of a feedback circuit from a resistor with a capacitor included in the emitter of the transistor. The output matching is provided by the mb} :: entered, by cascades of the circuit with diss; random losses, consisting of loops and capacitors. In this case, the cascades are configured separately, and then sequentially connected to each other, which is also a slostosto.

The aim of the invention is to simplify the device without degrading the amplifier parsets in the frequency band.

The goal is achieved by the fact that in the amplifier, which includes two transistor stages connected in series and an input circuit from the ends of the first capacitor and the first loop connected to each other, connected to the second loop, connected to the base of the transistor of the first stage, the collector of which is connected to the third loop connected to the fourth loop, one end connected to the second capacitor, the second terminal of which is connected to the housing, and having a feedback circuit from connected in parallel to the first resistor and the third to of the capacitor, some of the terminals of which are connected to the housing, according to the invention, the emitter of the transistor of the first stage is connected to the housing, and its collector is connected through the second resistor to the beginning of the third loop and directly to the base of the transistor of the second stage, to the emitter of which a feedback circuit from the first resistor is connected and a third capacitor and a third resistor, the second output of which is connected to the base of the transistor of the first stage, which is also connected to the second output of the first capacitor, while the second loop is one to is connected to the first loop at a distance of 0.5-0.75 from its beginning, which is the input of the circuit, and its second end is connected to the case, the third loop is connected to the fourth loop at a distance of 0.1-0.8 from its beginning, connected with the collector of the transistor of the second stage.

Thus, the claimed amplifier functionally contains an input circuit from the first and second loops and the first capacitor; an amplifying first stage on a single transistor and 11 having a direct connection with it an amplifying second stage on a single transistor; DC feedback circuit from one resistor and parallel RC circuit; a voltage feedback circuit from the third resistor and the third and fourth loops between the collectors of the transistors of the first and second stages.

The presence of only two amplification cascades with a direct connection between them and current and voltage feedbacks; Ken1Po with fewer elements significantly simplifies the device circuit, for example, the combination of current and voltage feedbacks makes it possible to control the input shedding of the cascade without breaking the constant current mode, which leads to a decrease in signal loss in the input circuits of the amplifier, which is equivalent to a decrease in the coefficient of the core. At the same time, the amplifier is also matched with the output load, without deteriorating the parade / s of the BO amplifier over the entire operating frequency range.

The inventive amplifier has a novelty in comparison with the prototype, differing from it by the above symptom 1.: and direct communication of both stages with each other, the implementation of the current feedback circuit, the presence of a voltage feedback circuit and the specific connections between the amplifier’s Alementagly due to these signs. The claimed technical solution having the listed essential principles with the achievement of the aforementioned technical effect does not follow explicitly from the prior art and, according to the applicant, meets the criterion of inventive step.

The inventive amplifier can be used in radio engineering, in particular in cable television and meets the criterion of industrial applicability.

The invention is illustrated in the drawing, which shows the electrical circuit of the amplifier, and a photograph with the invention of the circuit topology.

The amplifier contains loops 1-4, resistors 5-7, transistors 8.9, capacitors 10-12.

The purpose of the amplifier elements is as follows.

Loops 1,2 are used to match the amplifier with the input load, loops 3 and 4 are used to match the input and output loads. Resistors 5.6 give a direct current mode.

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Resistor 7 together with capacitor II is necessary to adjust the frequency response of amplifier B in a given frequency range.

Transistors 8 and 9 serve as amplifying elements.

The capacitor 10 is designed to filter on the power circuit.

The capacitor 12 is used for galvanic isolation of the transistor 8 and the input load.

The implementation of the elements of the amplifier is as follows.

The loops 1-4 are made inductive, while the length of the loop 2 i5-, the length of loops I and 3 is 0.15-0.2Ac, and the length of loop 4 is where A is the wavelength, and the indices n, s and c denote the lower , middle and upper frequencies of the operating range.

Resistors 5-7 are discrete resistors, the value of which is selected depending on the type of transistor.

As transistors 8.9 are used mashyush bipolar transistors.

Capacitors 10 and 12 are discrete, and 11 is constructive, printed.

The electrical circuit is connected as follows.

One end of loop I is connected to a STANDARD RF signal transmission line from an antenna (not shown in the drawing), and the other to a main transmission line connected through a capacitor 12 to the base of transistor 8. A line is connected at a distance of 2/3 from the beginning of loop I, which includes a loop 2, the second end of which is connected to the housing. The emitter of the transistor 8 of the mash is connected to the housing, and a resistor 5 is included in the circuit of its collector, the second output of co-9

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expensively connected to the first end of the loop 3, the second end of which is connected to the loop 4 at a distance of C, 1-0.8 of its length. II one end of loop 4 is connected to a capacitor 10, the second end of which is connected. It is connected to the housing, and the second end of the loop 4 is connected to the collector of transistor 9. The first output of resistor 0, connected to the collector of transistor 8, is connected as follows: e to the transistor base, 9, the emitter of which is connected through the resistor 6 to the base of transistor 5. To the emitter transistor 9 is connected to the resistor 7 and capacitor II, the second terminals of which are connected to the housing.

L to the cable 4 at a distance of 0.1-0.3 from its beginning, connected to the collector of transistor 9, a standard transmission line 13 is connected, which is connected through a power splitter w, consisting of the 1st resistor 14 and capacitor 15, with the input of the television receiver (not shown in the drawing). Structurally, the amplifier is made trace; in a skinny way.

The silica is located on a fiberglass substrate with a size of 50x80x1.5 mm, on one side of which there are working elements, and the second is metallized, except for the places of connecting the input and output.

The transistors are made in sealed enclosures with planar leads and are located in holes cut into the substrate.

Strip matching-transforming chains (loops) are made in the form of meanders and lines with a width of I mm and 1.2 mm.

Discrete volume resistors (mounted) are mounted on the board.

One of the capacitors (II) is made by preserving part of the metallization, the other two capacitors (10 and 12) are shell-free elements and are soldered into the gap of the strip lines.

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All connections are made by metal plating or soldering.

The board with the elements of the amplifier is placed in a protective housing.

The amplifier operates in the range 470-640 1.1HZ. 11it1-1ie amplifier is made on the central core of the cable from an individual power source or a TV power source.

The device operates as follows.

The input signal from the receiving antenna (not shown) through the loop I and the capacitor 12 enters the base of the transistor 8, and the input signal with frequency less than the frequency of the operating range is switched by the loop 2. The signal from its collector amplified by the transistor 8 is fed to the base of the transistor 9. When this mode of transistors 8 and 9 in direct current is provided by selecting the values of the resistors 5,6,7 and the resistor 14 of the external load. The amplified signal from the collector of transistor 9, standing out on the cable 4, is fed into the external load - cable 13 power circuit separator (resistor 14, capacitor 15) and the input resistance of the television receiver (not shown).

To compensate for the high input impedance of the amplifier due to the elements of the feedback circuit 7 and II, a part of the output signal is supplied to the base of the transistor 9 through the cable 3 and the resistor 5 from the cable 4, which, when added to the input signal amplified by the transistor 3, forms an equivalent matched load for the cascade on the transistor 8 in such a way that the input impedance of the amplifier, taking into account the properties of the I loop, becomes equal to the external input line noise. Thus, the coordination of the amplifier with the input and output loads and the load - // f06 /.

Normal operation in the frequency range is printed.

In comparison with the prototype, the circuit of the claimed amplifier is simple, being performed on two amplifier stages with fewer elements.

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A. 1. Nag O VITSYN

Claims (1)

A microwave amplifier, including two transistor stages connected in series and an input circuit made of the ends of the first capacitor and the first loop connected to the second loop, connected to the base of the transistor of the first stage, the collector of which is connected to the third loop, which is connected to the fourth loop, one the end connected to the second capacitor, the second output of which is connected to the housing, and having a feedback circuit from the first resistor and the third capacitor connected in parallel, one in the outputs of which are connected to the housing, characterized in that the emitter of the transistor of the first stage is connected to the housing, and its collector is connected through the second resistor to the beginning of the third loop and directly to the base of the transistor of the second stage, to the emitter of which a feedback circuit from the first resistor and the third capacitor is connected , and a third resistor, the second terminal of which is connected to the base of the transistor of the first stage, which is also connected to the second terminal of the first capacitor, while the second loop is connected at one end to the first loop at a distance of 0.5 - 0.75 from its beginning, which is the input of the circuit, and its second end is connected to the case, the third loop is connected to the fourth loop at a distance of 0.1 - 0.8 from its beginning, connected to the collector of the transistor second cascade.