RU2718461C1 - Digital computing synthesizer of frequency-modulated signals - Google Patents

Abstract

FIELD: computing appliances.

SUBSTANCE: invention relates to computer engineering and radio engineering, is intended for synthesis of complex frequency-modulated signals and can be used in radio communication and telecommunication systems. Digital computing synthesizer of frequency-modulated signals comprises reference generator (1), unit of formation and delay (2), first memory register (3), first digital frequency storage (4), second memory register (5), second digital frequency storage (6), adder (7), digital phase accumulator (8), code-to-sine functional converter (9), digital-to-analogue converter (DAC) (10), low-pass filter (11), third memory register (12), divider with variable division factor (13). Digital inputs of the digital synthesizer are inputs of the first, second and third memory registers, and its analog output is LPF output.

EFFECT: enabling generation of complex frequency-modulated signals to introduce additional frequency modulation for transmitting information.

1 cl, 1 dwg

Description

The invention relates to electronic computing and radio engineering, is intended for the synthesis of complex frequency-modulated signals and can be used in radio communication systems and telecommunications.

Known digital synthesizers of frequency-modulated signals containing a reference generator and a delay unit, a permanent memory unit, a memory register, a divider with a variable division ratio, a digital storage device, a code converter, a digital-to-analog converter, a low-pass filter, a waiting multivibrator, a reversing counter with a preset, a comparison circuit [ one].

The closest technical solution (prototype) to the proposed one is a digital frequency synthesizer containing a reference generator, a delay unit, a first ROM unit, a first digital drive, a second memory register, a second digital drive, a code converter, DAC, low-pass filter, a second ROM unit and a counter with preset [2].

However, the known digital frequency synthesizer generates only a chirp signal with desired properties and does not allow the formation of complex frequency-modulated signals.

The proposed digital computer synthesizer generates a complex frequency-modulated signal in which information can be transmitted in the chirped mode.

The technical result is the expansion of the functionality of the DAC with the possibility of forming complex frequency-modulated signals.

The technical result is achieved due to the fact that in a digital computer synthesizer of frequency-modulated signals, containing a series-connected reference generator and a block of formation and delay; first digital frequency storage; digital phase drive; a digital-to-analog converter and a low-pass filter connected in series, the LPF output being the analog output of a digital computer synthesizer; a series-connected third memory register and a divider with a variable division ratio; the outputs of the formation and delay unit are connected to the clock inputs of a divider with a variable division ratio, a digital phase storage device and a digital-to-analog converter; the output of the divider with a variable division ratio is connected to the clock input of the first digital frequency storage; the digital input of the digital computational synthesizer is the input of the third memory register, and new is that two memory registers are introduced; adder; functional converter code-sine; and the inputs of the first and second memory registers are digital inputs of the DAC; the output of the first memory register is connected to the input of the first digital frequency storage device, and the output of the second memory register is connected to the input of the second digital frequency storage device; the outputs of the first and second digital frequency storage devices are connected to the corresponding inputs of the adder, the output of the latter is connected to the input of the phase digital storage device; the output of the phase digital storage device is connected to the input of the code-sine functional converter, the output of which is connected to the information inputs of the digital-to-analog converter; the output of the divider with a variable division ratio is connected to the clock input of the second digital frequency storage.

The digital computer synthesizer of the frequency-modulated signals contains a reference generator 1, a generation and delay unit 2, a first memory register 3, a first digital frequency memory 4, a second memory register 5, a second digital frequency memory 6, adder 7, a digital phase 8 memory device, a functional converter sine code 9, digital-to-analog converter (DAC) 10, low-pass filter 11, third memory register 12, divider with variable division ratio 13.

The digital inputs of the digital synthesizer are the inputs of the first, second and third memory registers, and its analog output is the LPF output.

The invention is illustrated in the drawing.

A digital computer synthesizer of frequency-modulated signals contains a series-connected reference generator 1 and a block of formation and delay 2; connected in series to the first memory register 3, the first digital frequency storage 4; sequentially connected to the second memory register 5, the second digital frequency storage device 6, and the outputs of the first and second digital frequency storage devices are connected to the first and second inputs of the adder 7; serially connected adder 7, digital storage device phase 8, functional converter code-sine 9, digital-to-analog converter (DAC) 10, low-pass filter (LPF) 11; connected in series with the third memory register 12 and a divider with a variable division ratio 13, the output of which is connected to the clock inputs of the first and second digital frequency drives; the outputs of the formation and delay unit are connected to the clock inputs of a divider with a variable division ratio, a digital phase storage device and a DAC; the digital inputs of the digital computational synthesizer are the inputs of the first, second, and third memory registers, and its analog output is the low-pass filter output.

Digital synthesizer works as follows.

The reference generator 1 generates a sinusoidal signal of the reference frequency, from which a sequence of clock pulses of the meander shape are formed in the generation and delay unit 2, which serve to synchronize the operation of the main nodes of the digital synthesizer: a divider with a variable division ratio, a digital phase storage device and a DAC.

Let the initial frequency code A _i enter the input of the first memory register 3 at the moment t ₀ , the code B _j - the code B _j , and the code D _k - the input of the third memory register 13.

At time t _1, code A _i from the first memory register 3 is recorded in the first digital frequency drive 4, and code B _j - from the second memory register 5 is recorded in the second digital frequency drive 6.

Code D _k from the third memory register is a divider with a variable division coefficient.

Further, with each subsequent clock pulse, starting from the moment t _2, the summation result in the first digital frequency storage device 4 will change according to the formula:

S1 = A _i + T, (1)

and the result of the summation in the second digital frequency storage device 6 will change according to the formula:

S2 = B _j + T, (2)

In adder 7, the result is described by the following expression:

S3 = A _i + B _j + T (3)

The result of the summation in the digital storage device phase 8 will vary by the formula:

S4 = (C _i + T) × T / D _k . (4)

where C _i = A _i + B _j

Next, the summation result S4 is fed to the input of the functional converter 9, where it is converted into the code sin {(C _i + T) × T / D _k }

 Then the sine code is fed to the DAC 10, where a “step-like” frequency-modulated signal is generated, described by the formula:

u _c (t) = U ₀ sin [(2π f _Σ t + π f `t ² )], (5)

where U ₀ is the amplitude of the signal,

∆t = T is the clock interval,

f _Σ is the total frequency of the signal,

1 / D _k = f `is the rate of change of the frequency of the digital computational synthesizer.

Thus, the first memory register and the first digital frequency storage device provide the LFM signal, and the second memory register and the second digital frequency storage device allow you to enter additional frequency modulation for information transfer.

The third memory register, together with a divider with a variable division coefficient, provides the necessary rate of change of frequency, and the lower the code value D _k , the higher the frequency tuning rate.

Literature

1. RF patent No. 2204197. IPC H03L 7/18. Digital synthesizer of frequency-modulated signals / Ryabov I.V., Ryabov I.V. Claimed. 06/06/2001. Publ. 05/10/2003. Bull. No. 13. - 5 p.

2. RF patent No. 2058659. MKI H03B 19/00. Digital frequency synthesizer / Ryabov I.V., Fischenko P.A. Claim 09/23/1993. Publ. 04/20/1996. Bull. No. 11. - 6 p.

(prototype).

Claims (1)

A digital computer synthesizer (CVS) of frequency-modulated signals containing a series-connected reference generator and a block for generating and delaying; first digital frequency storage; digital phase drive; a digital-to-analog converter and a low-pass filter connected in series, the output of the low-pass filter being the analog output of a digital computer synthesizer; a series-connected third memory register and a divider with a variable division ratio; the outputs of the formation and delay unit are connected to the clock inputs of a divider with a variable division ratio, a digital phase storage device and a digital-to-analog converter; the output of the divider with a variable division ratio is connected to the clock input of the first digital frequency storage; the digital input of the digital computational synthesizer is the input of the third memory register, characterized in that two memory registers are introduced; adder; functional converter code-sine; and the inputs of the first and second memory registers are digital inputs of the DAC; the output of the first memory register is connected to the input of the first digital frequency storage device, and the output of the second memory register is connected to the input of the second digital frequency storage device; the outputs of the first and second digital frequency storage devices are connected to the corresponding inputs of the adder, the output of the latter is connected to the input of the phase digital storage device; the output of the phase digital storage device is connected to the input of the code-sine functional converter, the output of which is connected to the information inputs of the digital-to-analog converter; the output of the divider with a variable division ratio is connected to the clock input of the second digital frequency storage.

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