SU379972A1 - FREQUENCY-TIME FILTER OF ORTHOGONAL SIGNALS - Google Patents

Description

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The invention relates to a technique for transmitting and receiving signals, and now to time-frequency filters of orthogonal segals, and can be used in communication systems, control, and signaling.

A frequency-time filter for argon-shaped signals is known, made up of several -groups, each of which contains a reference voltage generator and multipliers associated with it by its first inputs.

The purpose of the invention is to simplify the device.

This is achieved by the fact that: The second inputs of the tree multipliers located in pairs in the subsequent group are connected respectively to the output and input of each tree-multiplier of the previous group. The number of groups corresponds to the number n equal to 1, 2, ..., the number of multipliers in each group is equal, and the input signal containing the number of ensembles equal to 2 is fed to the input of the multiplier of the first group.

FIG. 1 is a filter block diagram; ha fig. 2 - filter in the correlation receiver.

The proposed filter is made of several groups containing generators J - 4 of the reference voltage n. Multipliers 5-19. As an example, the filter (Fig. 1) has the number of groups and the number of multipliers 15. The multipliers are divided into n (i.e., four) groups according to the number of generators, the outputs of which are connected to the first inputs of the multipliers. The input of multiplier 5, controlled by generator 4, is the input of the device. Two multipliers 6, 7 controlled by generator 3 are connected to its output and input. To the inputs and outputs of multipliers 6, 7 are connected

the second inputs of the four multipliers 8-I of the next group, controlled by generator 2. The inputs of and outputs of the multipliers 8-C are connected to the second inputs of eight multipliers 12-19 of the last group in the considered variant, controlled by the generator /. The inputs and outputs of the multipliers 12-19 of the last group are filter outputs. The number of outputs is equal to the number of orthogonal signals 2 ° 16. FIG. 1 outputs

the filter is indicated by four-bit double IFN1Yi numbers corresponding to the number of the signal generated by the filter. In this case, the signs “O and“ 1 denote, respectively, the turning off or on of the multipliers

appropriate group in the signal processing circuit.

The proposed filter works as follows.

A filtered signal, such as a modulated carrier, is applied to the input. At 2 outputs, components of a time-domain filter are formed. One of the outputs "0000" is connected directly to the input of the filter and the component of this output is a constant input signal. The remaining outputs have a binary designation, in which the units correspond to the inclusion of a forest breeder corresponding to, its group in the path of the component being formed, and zeros to the absence of a Multiplier. For example, component ' 0001 is generated by passing an input signal through multiplier 19 of the last group. In this example, the input signal at the output will be formed phase-manipulated signal. (FM signal) with a period T corresponding to the first generator. Component 010 is a FM carrier, in which the manipulation period corresponds to a period of 2T, since it passes through the omnibus 11, which is controlled by a generator 2 with a period of 2T. The component "OOP is formed as a result of the carrier passing through multiplier 11 (period 2T} and 18 (period T) and represents the FM carrier with double manipulation with periods 2T and T. Components" 0100 "0101, IT, 0111 are formed by multipliers 7 , 10, 16, 1 /. The multipliers W, 16, 17 work similarly to the multipliers 11, 18, 19. The multiplier 7 is controlled by a generator, 5 with a period of 4T. This multiplier converts the carrier into a FM city signal with a period of 4T, which passes through multipliers 10, 16, 17, completing the formation of pointer chtetfeh component, as already described above e for cultivators II, 1c, 19. Components: "1000," 1001, "1010," lilil, "1100," 1101, "1110," 1111 are formed first by a multiplier 5, which is controlled by generator 4 with a period of 81. At the output This multiplier generates a FM signal with a period of 8T, which is then fed to multipliers 6, 8, 9, 12, 13, 14, 15. These alternators complete the formation of these eight components and work similarly to multipliers 7, 10, 11, 16 , 17, 18, 19.

Thus, the proposed filter can be applied to form 2 orthogonal signals. Another example of its use may be a correlation receiver (Fig. 2). A phase-shift keyed signal, formed, for example, by adding two carriers shifted in phase by 90 °, each of which is a FM signal, arrives at the receiver input. The generator 20 feeds its treadmill 21 carrier and, at the output of the multiplier, produces a modulating voltage of the first signal. Through a phase shifter 22 contributing to a 90 ° offset, the generator is supplied to the multiplier 23, the output of which forms the second signal. The outputs of the multiplier 21 is connected time-frequency

a filter 24 similar to that of FIG. 1 and the same filter 25 is connected to the output of multiplier 23. A gradual voltage is selected at one of the outputs of the filter 24 corresponding to the code pattern of the first signal, and a constant voltage corresponding to the second signal is separated at one of the outputs of the filter 25.

Subject invention

An orthogonal seigeal time-frequency filter made of several groups, each of which contains a reference voltage generator and multipliers associated with its first inputs, characterized in that, in order to simplify the device, the second inputs of multipliers arranged in pairs in the subsequent group , are connected respectively with the output and the input of each of the previous forest cutter

groups, while the number of groups corresponds to the number n equal to 1,2, ..., the number of multipliers in each group is equal, and the input signal containing the number of ensembles equal to 2 is fed to the input of the multiplier of the first group.

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