KR100841400B1 - Signal generator having multi carrier signal - Google Patents

Abstract

A multi-carrier signal generator is provided to generate a signal having a multi-carrier by using only one PLL frequency synthesizer. A digital signal processor(300) generates a digital signal having a plurality of carrier frequencies by modulating an inputted digital signal. A buffer(310) stores the generated digital signal. A converter(340) converts the stored digital signal to an analog signal. A PLL frequency synthesizer(360) generates and outputs a particular frequency signal as a carrier frequency. An I/Q modulator(370) receives the analog signal from the converter and receives a carrier frequency signal from the PLL frequency synthesizer. The I/Q modulator generates a final output signal by synthesizing inputted signals.

Description

Signal generator having multi carrier signal

1 is a block diagram conceptually illustrating a structure of a general single carrier signal generator.

2 is a block diagram conceptually illustrating a structure of a conventional multi-carrier signal generator.

3 is a block diagram conceptually illustrating a structure of a multi-carrier signal generator according to an exemplary embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

30: multi-carrier signal generator

300: digital signal processor

310: buffer

320: clock generator

330: sequencer

340: DAC

350: temperature compensated crystal oscillator

360: PLL Frequency Synthesizer

370 I / Q modulator

The present invention relates to a multi-carrier signal generator, and more particularly to a signal generator for generating a multi-carrier signal by using a single PLL frequency synthesizer and using a one-side band modulation technique.

The signal generator is a device that outputs an analog signal corresponding to the frequency desired by the user. In the method of outputting a desired frequency in the signal generator, the PLL frequency synthesizer stably outputs a frequency desired by a user with reference to a stable frequency provided by a temperature compensated crystal oscillator (TCXO), as shown in FIG. 1.

These signal generators have a variety of uses depending on the application. In particular, when a multi-carrier signal output is required, such as a plurality of amplifier tests or device tests, the signal generator should generate and output a multi-carrier signal. 2 is a block diagram showing a hardware structure of a multi-carrier signal generator 20 according to the prior art. As shown in FIG. 2, the conventional multi-carrier signal generator includes a plurality of PLL frequency synthesizers, and converts a stable frequency output from a temperature compensated crystal oscillator into a desired frequency through a plurality of PLL frequency synthesizers, respectively. In addition, the output signals from the plurality of PLL frequency synthesizers are synthesized to finally generate a multi-carrier signal.

Since the conventional multi-carrier signal generator has to use a plurality of PLL frequency synthesizers, the manufacturing cost increases and the physical volume increases, which makes it difficult to use a small product.

Accordingly, the present applicant intends to propose a method for generating a multi-carrier signal by software.

SUMMARY OF THE INVENTION An object of the present invention for solving the above problems is to provide a multi-carrier signal generator capable of generating a multi-carrier signal using a digital signal processor (DSP) and one PLL frequency synthesizer.

Another object of the present invention is to provide a multi-carrier signal generator capable of generating a multi-carrier signal using a single side band modulation technique.

It is still another object of the present invention to provide a method for generating a multicarrier signal using a single side band modulation technique.

A feature of the present invention for achieving the above technical problem relates to a multi-carrier signal generating apparatus for generating a multi-carrier signal in software using one PLL frequency synthesizer, the multi-carrier signal generating apparatus,

 A digital signal processor (DSP) for generating a digital signal s (n) having a plurality of carrier frequencies by single sideband modulating the input digital signal,

A buffer for storing the digital signal s (n) generated by the DSP,

A converter (DAC) for converting and outputting a digital signal stored in the buffer to an analog signal,

PLL frequency synthesizer for generating and outputting a specific frequency signal which is a carrier frequency,

And an I / Q modulator for inputting an analog signal output from the DAC and a carrier frequency signal output from the PLL frequency synthesizer, and synthesizing the input signals to generate a final output signal.

The digital signal processor (DSP) of the multi-carrier signal generating apparatus having the above-mentioned characteristics is respectively applied to N original signals s ₁ (n), s ₂ (n), ..., s _N (n). Obtain the one-sided band modulator (m ₁ (n), m ₂ (n), ..., m _N (n)) defined in Equation 1, and the single-sided band modulator (m ₁ ( n), m ₂ (n), ..., m _N (n)) is multiplied and summed up to generate and output the digital signal s (n) of the equation (2).

 In addition, the digital signal processor of the multi-carrier signal generation device having the above-described characteristics is preferably divided into an in-phase signal and a quadrature signal and stored in the buffer.

Hereinafter, a multicarrier signal generator according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram schematically illustrating a configuration of a multi-carrier signal generator 30 according to a preferred embodiment of the present invention. Hereinafter, the configuration and operation of the multi-carrier signal generator according to the present invention will be described in detail with reference to FIG. 3.

Referring to FIG. 3, the multi-carrier signal generator 30 according to the present invention may be referred to as a digital signal processor (DSP): 300, a buffer 310, a clock generator 320, and a sequencer. 330), a digital-to-analog converter (hereinafter referred to as 'DAC'; 340), a temperature compensated crystal oscillator (TCXO: 350), a PLL frequency synthesizer 360, and an IQ modulator 370.

The DSP 300 processes a signal by applying a single-side band modulator to an original signal, and generates and outputs a digital signal s (n) having multiple carriers. The DSP 300 temporarily stores the generated digital signal s (n) in the buffer 310. The process of generating the digital signal s (n) having the multicarrier by the DSP will be described later. On the other hand, since the DSP needs to perform a long sample operation in the process of applying a single-side band modulator, an external RAM can be additionally used in addition to the internal RAM of the DSP. In addition, since the digital signal s (n) generated by the DSP has a complex value, the digital signal s (n) is divided into an in-phase signal and a quadrature signal, and according to a clock of a constant speed generated by the clock generator 320, a specific time. Each of the sequencers 330 is stored in the buffer 310.

The digital data stored in the buffer is transmitted to the DAC 340 according to the clock generated by the clock generator 320.

The DAC 340 connected to the output terminal of the buffer receives a clock of the same speed from the clock generator 320 in synchronization and converts digital data input from the buffer into an analog signal to the I / Q modulator 370. Output

The PLL frequency synthesizer 360 connected to the temperature compensated crystal oscillator 350 generates a specific frequency signal used as a carrier frequency and outputs it to the I / Q modulator 370.

The I / Q modulator 370 receives a baseband analog signal and a carrier frequency signal from the DAC 340 and the PLL frequency synthesizer 360, respectively, and combines the input signals to up-convert the synthesized signals. Generate and output the final output signal.

Hereinafter, a process of generating a digital signal s (n) having multiple carriers by the DSP according to an exemplary embodiment of the present invention will be described.

First, using only one analog hardware that outputs the frequency fc, the signals s ₁ (n), s ₂ (n), ..., s _N (n) to be sent are respectively N carrier frequencies f _c1 , f Suppose we _send on _c2 , ..., f _cN .

The DSP performs a predetermined operation on the signals to be transmitted, moves the frequency side by f _offset (= f _c -f _c1 ) corresponding to the difference between f _c and f _c1 , and then expresses a single side expressed by Equation 1 below. calculated using the band modulator, and by giving the calculated value is multiplied by the original s ₁ (n) signal, and generates a signal shifted by f _offset from the original signal s ₁ (n).

,here,

,

,

,

,

,

,

,

sgn (x) = 1, (x ≧ 0), sgn (x) = 0, and (x ≦ 0).

In this case, if a real modulator such as cosine is used, two signals that are half the magnitude of the original signal while being symmetrical with respect to f _c are output, which is called bilateral band modulation. In this case, when synthesizing and transmitting a plurality of signals, there is a case where the original signal cannot be restored due to interference of other signals. Thus, the DSP of the system according to the present invention uses a single side band modulator to minimize interference from other signals.

That is, the single sideband modulator applied in the DSP according to the present invention is a signal of Equation 1, and the single side band modulator can be obtained by multiplying the original signal by the single side band modulator.

However, there is a restriction that the same number of samples should be applied when the single-side band modulator is applied. Therefore, in order to obtain s (n), which is the sum of signals transmitted on multiple carriers, first N single-sided modulators m ₁ (n), m ₂ (n), ..., m _N (n) are obtained. All. Where m ₁ (n) is a one-sided band modulator computed for f _offset1 (= f _c -f _c1 ), and m ₂ (n) is a one-sided band modulator computed for f _offset2 (= f _c -f _c2 ) M _N (n) is a one-sided band modulator computed for f _offsetN (= f _c -f _cN ).

Next, single-sided band modulators m ₁ (n), m ₂ (n), ... corresponding to N original signals s ₁ (n), s ₂ (n), ..., s _N (n), respectively. , multiply m _n (n)) and add to generate signal s (n). Equation 2 is an equation for obtaining s (n).

Through this process, the digital signal (s (n)) transmitted to the multiple carriers output from the DSP is converted into an analog signal by the DAC, and then loaded on the output of the signal generator outputting the frequency (f _c ). In other words, each of the carrier frequencies f _c1 , f _{c2 ,.}

  Although the present invention has been described above with reference to preferred embodiments thereof, this is merely an example and is not intended to limit the present invention, and those skilled in the art do not depart from the essential characteristics of the present invention. It will be appreciated that various modifications and applications which are not illustrated above in the scope are possible. And differences relating to such modifications and applications should be construed as being included in the scope of the invention defined in the appended claims.

According to the present invention, a signal having multiple carriers can be generated by applying a single side band modulation technique while using one PLL frequency synthesizer. Therefore, according to the present invention, by using a DSP, a signal having multiple carriers can be generated using only one PLL frequency synthesizer without using a PLL frequency synthesizer which is a lot of analog hardware.

Claims (5)

A digital signal processor (DSP) for generating a digital signal s (n) having a plurality of carrier frequencies by single sideband modulating the input digital signal; A buffer for storing the digital signal s (n) generated by the DSP; A converter (DAC) for converting the digital signal stored in the buffer into an analog signal and outputting the analog signal; A PLL frequency synthesizer for generating and outputting a specific frequency signal which is a carrier frequency; An analog signal output from the DAC and a carrier frequency signal output from the PLL frequency synthesizer are input, and an I / Q modulator for synthesizing the input signals to generate a final output signal. And a multi-carrier signal generation apparatus for generating a multi-carrier signal in software using one PLL frequency synthesizer. The digital signal s (n) having multiple carriers generated by the digital signal processor (DSP) is generated by a DSP performing equation (4), and the single-side band modulator (m (n)). The multi-carrier signal generating apparatus is characterized by the equation (3).

here,

,

,

,

, sgn (x) = 1, (x ≧ 0), sgn (x) = 0, and (x ≦ 0).

The method of claim 2, wherein the digital signal processor (DSP), Single sideband modulators m ₁ (n) and m ₂ (n) defined in Equation 3 for the N original signals s ₁ (n), s ₂ (n), ..., s _N (n), respectively. ), ..., m _N (n)) and single-sided modulators m ₁ (n), m ₂ (n), ..., m _N (n) corresponding to the N original signals, respectively. Multi-carrier signal generating apparatus characterized in that by generating the multiplier and adds the digital signal s (n) of the equation (4). The apparatus of claim 1, wherein the apparatus for generating a multicarrier signal further comprises a RAM, and wherein the digital signal processor (DSP) uses the RAM for calculation. The apparatus of claim 1, wherein the digital signal processor divides the generated digital signal s (n) into an in-phase signal and a quadrature signal and stores the digital signal in the buffer.

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