RU2601200C2 - Harmonic filter for short-wave transmitter - Google Patents

Abstract

FIELD: radio engineering.

SUBSTANCE: invention relates to radio engineering and can be used in harmonic filters of power amplifiers of wide-band radio transmitters. Harmonic filter for short-wave transmitter comprises N sub-bands, input and output connectors, N low-pass filters (LPF), arranged in one plane and switched at input and output by means of input and output switching elements, between any two LPF frequency-adjacent sub-bands there is the LPF of other sub-band, frequency-remote from both LPF of this pair, wherein the input switching elements are composed in the form of three-contact switches, movable contact of each is connected to the input of the corresponding LFF and simultaneously with the first fixed contact, and the second fixed contact is connected to the input connecting bus.

EFFECT: technical result is higher selectivity and improved matching in the entire operating frequency range of a transmitter.

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Description

The invention relates to the field of radio engineering and can be used in harmonic filters of power amplifiers of wide-range radio transmitters.

To transmit high-frequency signals with harmonic components suppressed to the required level in the harmonic filters of short-wave transmitters, low-pass filters (LPFs) are usually used [1]. Based on the requirements for filtering higher harmonics, starting from the second, the filters are designed for a given attenuation value in the delay band. In this case, the overlap coefficient of the sub-bands in frequency is usually chosen within 1.4 ... 1.8, that is, for a short-wave transmitter that covers the frequency range of 1.5 ... 30 MHz, nine to five filters are required, respectively, and the smaller the number of filters, the more complicated their structure. Sub-band filters are switched, as a rule, by means of relays connected at the input and output of each filter, or by means of step switches [2].

The main disadvantages of harmonic filters based on switched low-pass filters are their complex design, as well as their large overall dimensions and mass.

In [3], the problem of the increased size and mass of the harmonic filter was solved as follows: the number of low-pass filters for the frequency range 1.6 ... 30 MHz was reduced to two, but almost all L- and C-elements were made variable. But this option is expensive due to mechanical tuning, and a large number of tunable elements significantly complicate the process of tuning the harmonics filter during manufacture and do not provide the necessary level of harmonics filter matching, since the traveling wave coefficient (KBW) at the input of the harmonics filter is most sensitive to the accuracy of its tuning .

Almost all harmonic filters require careful shielding of the filters and links in their composition as filters, as was done, for example, in [4].

As a prototype, you can choose a harmonic filter, presented in [2], as the closest in technical essence to the claimed one.

The analysis of the prototype showed that it has large overall dimensions, is difficult to configure, and does not provide the necessary increase in the IPM in each of its sufficiently wide passband.

The objective of the invention is to simplify the design and reduce the overall dimensions of the harmonic filter while increasing selectivity and improving matching in the entire operating frequency range of the transmitter.

This problem is solved by the fact that in the harmonic filter of a short-wave transmitter, the frequency range of which is divided into N subbands, containing input and output connectors and N low-pass filters, located in the same plane and switched by input and output using input and output switching elements, between any two A low-pass filter of adjacent frequency subbands is a low-pass filter of another subband, remote in frequency from both low-pass filters of a given pair, while the input switching elements are made in the form of three-pin switches, each of which a movable contact is connected to the input of the corresponding low-pass filter and simultaneously with the first fixed contact connected to the common bus, and the second fixed contact is connected to the input connecting bus connected to the input connector, and the output switching elements are also made in the form of three-contact switches, each of which the movable contact is connected to the output of the corresponding low-pass filter and simultaneously with the first fixed contact connected to the common bus, and the second fixed contact is connected connecting output bus connected to the output terminal. The input and output connecting buses are made in the form of long lines with a wave impedance equal to the nominal wave impedance of the filters, while the input of the input long line is connected to the input connector and simultaneously with the second fixed contact of the input switch of the low-pass filter of the first subband, and the input of the output long line is connected to the output connector and simultaneously with the second fixed contact of the output switch of the low-pass filter of the first subband. Each low-pass filter contains two inductors connected in series and capacitors connected between the terminals of the inductors and a common bus, while the inductors are made inductively coupled to each other by the mutual inductance M [5] and placed on one core, mainly of a toroidal shape, with magnetic flows of inductively coupled inductors are directed towards each other.

The drawing shows a diagram of the claimed device in its original state.

A harmonic filter of a short-wave transmitter, the frequency range of which is divided into N subbands, where N = 6, contains input 1 and output 2 connectors and N low-pass filters 3 located in the same plane and switched by input and output using input 4 and output 5 switching elements. Between any two low-pass filters 3 adjacent frequency bands, there is a low-pass filter 3 of another subband, remote in frequency from both low-pass filters of a given pair, while the input switching elements 4 are made in the form of three-contact switches, each of which has a movable contact connected to the input of the corresponding low-pass filter the first fixed contact connected to the common bus, and the second fixed contact connected to the input connecting bus 6 connected to the input connector 1, and the output switching elements 5 also made in the form of three-contact switches, each of which has a movable contact connected to the output of the corresponding low-pass filter and simultaneously with a first fixed contact connected to a common bus, and a second fixed contact connected to an output connecting bus 7 connected to output connector 2. Input 6 and output 7, the connecting buses are made in the form of long lines with a wave impedance equal to the nominal impedance of the low-pass filter, while the input of the input long line 6 is connected to the input connector 1 and simultaneously with the second fixed contact of the input switch 4 of the low-pass filter 3 of the first subband, and the input of the output long line 7 is connected to the output connector 2 and simultaneously with the second fixed contact of the output switch 5 of the low-pass filter 3 of the first subband. The low-pass filter 3 shown in FIG. 1 are indicated in accordance with their placement on the printed circuit board of the harmonic filter, that is, the low-pass filters of frequency-adjacent subbands are structurally spaced.

For an odd N = 7, the placement of the low-pass filter will be as follows:

LPF _1pd -FNCH _5pd -FNCH _2pd -FNCH _6pd -FNCH _3pd -FNCH _7pd -FNCH _4pd.

Thus, the last in the series of the low-pass filter has a serial number, that is, the number of the frequency subband equal to N / 2 + 0.5. In this case, the low-pass filters of the subsequent subbands successively take their places in the intervals between the low-pass filters of the lower-frequency subbands. As can be seen from the diagram presented in the drawing, the low-pass filters are similarly distributed and with an even number, only, in this case, the last one in the low-pass filter series has a sequence number equal to N. This placement of the low-pass filter on the harmonic filter circuit board ensures their minimal influence on each other. . This means that you can maximally approximate the adjacent low-pass filters to each other and exclude screens from the design.

Each low-pass filter 3 contains two inductors 8 and 9, connected in series, and capacitors 10, 11 and 12, connected between the terminals of the inductors and a common bus, while the inductors are made inductively interconnected by means of mutual inductance M and placed on one core, mainly toroidal shape, and the magnetic fluxes of inductively coupled inductors are directed towards each other.

The harmonic filter is a set of N low-pass filters, each of which contains only two inductors, wound on one core. At the same time, there is a damping pole in the low-pass filter holding band, the frequency of which depends on the mutual inductance M, that is, on the magnitude of the coupling coefficient [5] between the first 8 and second 9 inductors and is determined by the distance between the inductors and the core material. The attenuation pole arises due to the fact that inductively coupled inductors 8 and 9 have a mutually opposite direction of winding, which ensures the opposite direction of their magnetic fluxes. The frequency of the attenuation pole also depends on the capacitance of the capacitor 11 and is usually located between the frequencies of the second and third harmonics of the minimum frequency of the corresponding subband.

The harmonics filter of the short-wave transmitter operates as follows.

The output signal of the transmitter power amplifier, together with the harmonic components of the signal, is fed to the input connector 1 of the harmonic filter and through the input connecting bus, made in the form of a coordinated long line, to the input of one of the pre-switched low-pass filters 3, in the operating frequency band of which is the frequency of the main signal, and the frequencies of the harmonic components of the signal are beyond. At the same time, the corresponding 4 low-pass filters 3 input 4 and output 5 switches are turned on. Due to the selective properties of the low-pass filter, depending on the inductors 8 and 9 and on the capacitors 10, 11 and 12, as well as on the mutual inductance M, the main signal is supplied to the output connector 2 of the harmonics filter through the output connecting bus made in the form of a matched long line attenuated harmonic components. In this case, the main signal passes to the output connector 2 of the harmonic filter with minimal loss due to improved matching and a simple low-pass filter structure.

The claimed harmonic filter of the short-wavelength transmitter has a simple design and small overall dimensions, due to the fact that each low-pass filter contains only two inductors made on one core, and also due to the absence of shielding partitions between the low-pass filter and inside the filters. The harmonics filter matching is improved due to the fact that the input and output connecting buses are made in the form of long lines with a wave impedance equal to the nominal impedance of the low-pass filter, while the input of the long input line is connected to the input connector and simultaneously through the input switch with the low-pass filter input of the first subband, and the input of the output long line is connected to the output connector and simultaneously through the output switch with the output of the low-pass filter of the first subband. At the same time, the harmonic filter provides increased selectivity, that is, the level of harmonic components of the signal at the output of the harmonic filter is quite low. In this case, the suppression of the second and to a greater extent the third harmonics of the signal increases, compared to the initial Chebyshev low-pass filters without inductive coupling, due to the presence of a damping pole, the frequency of which depends on the magnitude of the coupling coefficient between the first and second inductors in each low-pass filter. One more advantage of the claimed harmonic filter can be noted - the level of the third harmonic of the signal at the output is much lower than the level of the second harmonic, which compensates for the inverse ratio of harmonic levels at the output of the power amplifier. As a result, a guaranteed attenuation of the harmonic components of the signal of about 50 dB can be obtained, which is quite sufficient for a small-sized short-wave transmitter or radio station. It can be noted once again that such parameters were obtained only from a fifth-order Chebyshev low-pass filter, with both inductors in each filter placed on one core.

An experimental verification of the layout of the claimed harmonic filter for the frequency range 3 ... 30 MHz together with a power amplifier showed good agreement between the calculated and experimental data. The level of harmonic components of the signal at the output of the mock-up of the harmonic filter did not exceed minus 50 dB with a CBM at its input of at least 0.85. If necessary, you can slightly decrease the harmonic attenuation by increasing the CBM.

Information sources

1. Radio transmitting devices: Textbook for high schools / V.V. Shahgildyan, V.B. Kozyrev, A.A. Lyakhovkin et al .; Ed. V.V. Shahgildyan - 3rd ed., Rev. and add. - M.: Radio and Communications, 2003. - p. 205 ... 208.

2. Red E. Reference manual on high-frequency circuitry: Circuits, blocks, 50-ohm technology: TRANS. with him. - M .: 1990. - p. one hundred.

3. Red E. Reference manual on high-frequency circuitry: Circuits, blocks, 50 ohm technology: TRANS. with him. - M .: 1990. - p. 119.

4. Red E. Reference manual on high-frequency circuitry: Circuits, blocks, 50-ohm technology: TRANS. with him. - M .: 1990. - p. 116.

5. Handbook of Radio Engineering: Ed. B.A. Smirenin. - M., L .: Gosenergoizdat, 1950 .-- p. 54, 55.

Claims (3)

1. The harmonic filter of a short-wave transmitter, the frequency range of which is divided into N subbands, containing input and output connectors and N low-pass filters located in the same plane and switched by input and output using input and output switching elements, characterized in that between any two low-pass filters of neighboring frequency subbands have a low-pass filter of the other subband, remote in frequency from both low-pass filters of a given pair, while the input switching The elements are made in the form of three-contact switches, each of which has a movable contact connected to the input of the corresponding low-pass filter and simultaneously with a first fixed contact connected to a common bus, and a second fixed contact connected to an input connecting bus connected to the input connector, switching elements are also made in the form of three-contact switches, each of which has a movable contact connected to the output of the corresponding low-pass filter and simultaneously of a first fixed contact connected to the common bus, and the second fixed contact connected to the connecting bus output connected to the output terminal. 2. The harmonic filter of the short-wave transmitter according to claim 1, characterized in that the input and output connecting buses are made in the form of long lines with a wave impedance equal to the nominal wave impedance of the low-pass filters, while the input of the input long line is connected to the input connector and simultaneously with the second fixed contact of the input switch of the low-pass filter of the first subband, and the input of the output long line is connected to the output connector and simultaneously with the second fixed contact of the output breakers lowpass filter of the first subband. 3. The harmonic filter of the shortwave transmitter according to claim 1, characterized in that the low-pass filter contains two inductors connected in series and capacitors connected between the terminals of the inductors and the common bus, while the inductors are made inductively coupled to each other and placed on one core, mainly toroidal in shape, and the magnetic fluxes of inductively coupled inductors are directed towards each other.

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