KR101003843B1 - Auto level control apparatus and method using sample and hold - Google Patents

Abstract

PURPOSE: An automatic level control device and a method thereof are provided to have a uniform output level of a pulse by controlling the adjustment value of a variable amplifier according to the added result of a first and a second argument. CONSTITUTION: A droop improvement part(210) integrates a reference value and the difference of transmission output power. The droop improvement part comprises a comparator(242) and an integrator(244). An overshoot improving part(220) samples and holds a value within the overshoot period of the present pulse of transmission output power(204). The overshoot improvement part scales the first argument in order to control the size of the overshoot. A level difference improvement part(230) scales a second argument in order to adjust the pulse size of the transmission output power. A combiner(250) controls the variable amplifier adjustment value according to the addition result of the first and the second argument.

Description

Automatic level control apparatus and method using sample and hold {Auto level control apparatus and method using sample and hold}

At least one embodiment of the present invention relates to a radar system, and more particularly, to a radar system using a solid state power amplifier (SSPA) as a transmission amplification module.

The output level of the pulse to be sent by the radar may not be constant for each pulse. To make this constant, the window of the reference output level is determined and when the output level of the currently measured pulse is out of the reference window, A method of adjusting the output power to reflect the next pulse is currently used.

However, according to this scheme, if the output level of the pulse is out of the reference window, the power difference between the pulses may be generated due to the adjustment, and the rising time of the pulse is large, and the time for the pulse to reach a certain level is somewhat longer, and is variable. There is no pulse droop improvement, as the amplifier's pulse droop remains on the final outgoing pulse.

The technical problem to be achieved by at least one embodiment of the present invention is that the pulse signal to be transmitted automatically reaches a constant output level, each pulse has a constant output level for each pulse and the pulse droop of each pulse is an improved pulse signal It is to provide a level control device.

Another technical problem to be achieved by at least one embodiment of the present invention is to provide a pulse signal to be transmitted such that each pulse rapidly reaches a constant output level, has a constant output level for each pulse, and the pulse droop of each pulse is an improved pulse signal. It is to provide an automatic level control method.

In order to achieve the above object, the automatic level control apparatus according to at least one embodiment of the present invention includes a droop improving unit for integrating the difference between the reference value and the transmission output; An overshoot improvement unit configured to sample and hold a value in an overshoot period of a current pulse of the transmission output, and to scale a first factor for adjusting the held overshoot value; A level difference improvement unit for sampling and holding the variable amplifier adjustment value at the end of the current pulse and scaling a second factor for adjusting the pulse size of the transmission output; And an adder configured to sum the first factor and the second factor and adjust the held variable amplifier adjustment value according to the summed result.

The droop improving unit includes: a comparator for obtaining a difference between the reference value and the magnitude of the transmission output; And an integrator that integrates the difference.

The overshoot refiner may include: a first sample and holding unit which samples a value in the overshoot period and holds the sampled value until the next pulse starts; And a first scaling unit to scale the first factor. At this time, the first sample and holding unit samples the peak value of the overshoot and holds the sampled value until the next pulse starts.

Wherein the level difference improving unit samples the variable amplifier adjustment value at the end of the current pulse and scales the second sample and holding unit and the second factor to hold the sampled variable amplifier adjustment value until the next pulse starts. It includes two scaling parts.

Here, the level difference improving unit samples and holds the variable amplifier adjustment value at the end of the current pulse of the summed result and scales the second factor.

Here, the automatic level control device operates in an analog manner.

Here, the automatic level control device changes the transmission output in accordance with the adjusted variable amplifier adjustment value.

According to at least one embodiment of the present invention, an automatic level control method includes: (a) integrating a difference between a reference value and a transmission output; (b) sample and hold a value in the overshoot period of the current pulse of the transmit output and scale a first factor to adjust the held overshoot value; (c) sampling and holding the variable amplifier adjustment value at the end of the current pulse and scaling a second factor to adjust the pulse magnitude of the transmit output; And (d) summing the integrated result, the first factor, and the second factor and adjusting the held variable amplifier adjustment value according to the summed result.

Here, the step (b) may include (b1) sampling a value in the overshoot period and holding the sampled value until the next pulse starts; And (b2) scaling the first factor. At this time, step (b1) samples the peak value of the overshoot and holds the sampled value until the next pulse starts.

Wherein step (c) comprises sampling the variable amplifier adjustment value at the end of the current pulse and holding the sampled variable amplifier adjustment value until the next pulse starts; And scaling the second factor.

Wherein step (c) samples and holds the variable amplifier adjustment value at the end of the current pulse of the summed result and scales the second factor.

Wherein the automatic level control method further comprises changing the transmission output in accordance with the adjusted variable amplifier adjustment value.

In the automatic level control apparatus and method according to at least one embodiment of the present invention, the pulse signal to be transmitted each pulse quickly reaches a constant output level, each pulse has a constant output level, pulse pulse with improved pulse droop of each pulse To be

When at least one embodiment of the present invention is provided in the radar system, at least one embodiment of the present invention improves the performance of the radar system.

In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings that illustrate preferred embodiments of the present invention and the accompanying drawings.

Hereinafter, an apparatus and method for automatic level control according to at least one embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a waveform diagram illustrating a pulse output according to at least one embodiment of the present invention. Although only four pulses are shown in FIG. 1 for convenience of description, pulses after pulse 4 may also exist. In Fig. 1, pulse n (where n is a natural number) is a pulse generated just before pulse (n + 1).

As shown in FIG. 1, pulse 1 is an example of a pulse output before the automatic level control scheme according to at least one embodiment of the present invention is operated, and pulses 2 to 4 are automatic according to at least one embodiment of the present invention. This is an example of the pulse output when the level control scheme operates.

As shown, according to the automatic level control method according to at least one embodiment of the present invention, the output of the pulse is substantially flat from pulse 2 and does not exceed the reference value 110 except for the overshoot period. Further, from the pulse 3, the size of the overshoot is also controlled so that the size of the overshoot is present on the reference window 120.

Hereinafter, the automatic level control method according to at least one embodiment of the present invention will be described in more detail with reference to FIGS. 2 to 5.

2 is a block diagram illustrating an automatic level control apparatus according to at least one embodiment of the present invention, which includes a comparator 242, an integrator 244, a first sample and holding unit 246, and a first scaling unit 2 48. , An adder 250, a second sample and holding unit 252, and a second scaling unit 254. Such an automatic level control device may be provided in a radar system for transmitting a pulse signal.

The droop improving unit 210 integrates the difference between the reference value and the transmission output. In this specification, the transmission output means a pulse signal to be transmitted by the radar system. At least one embodiment of the present invention adjusts the transmit power such that each pulse reaches a constant output level rapidly and has a constant output level for each pulse and the pulse droop of each pulse is an improved pulse signal and the radar system is adapted to such an adjustment. Send the transmission output.

The automatic level control (ALC) reference (202) 202 is a preset value, and the transmission output 204 is detected by a detector (not shown).

The droop improvement unit 210 includes a comparator 242 and an integrator 244.

The comparator 242 compares the magnitudes of the reference value 202 and the transmission output 204 and obtains an error between the reference value and the transmission output magnitude.

Integrator 244 integrates the difference obtained by comparator 242.

In this way, the droop in the pulse of the current pulse as the signal finally transmitted by the radar system is improved compared to the droop of the current pulse of the transmission output 204 sensed by the detector (not shown). In this specification, droop (in pulse) means the difference between the maximum value and the minimum value of a pulse. The smaller the droop, the flatter the pulse and the constant magnitude (level) of the pulse. According to at least one embodiment of the invention, the transmit power can be adjusted such that the droop in the pulse of the transmit power is improved to within 0.1 dB.

The overshoot refiner 220 samples and hold the value in the overshoot period of the current pulse of the transmit output 204 and scales a first factor for adjusting the size of the overshoot. (scaling)

More specifically, the overshoot improvement unit 220 includes a first sample and holding unit 246 and a first scaling unit 248.

The first sample and holding unit 246 samples the value in the overshoot period of the current pulse of the transmission output 204 and holds the sampled value until the next pulse starts. In this case, the value sampled by the first sample and holding unit 246 may be a peak value of the overshoot of the current pulse, or may be a value near a peak as a point separated by a predetermined interval from the peak.

The first scaling unit 248 scales the first factor according to a degree instructed by the user so as to adjust the magnitude value of the overshoot held by the first sample and the holding unit 246.

The level difference improvement unit 230 samples and holds the variable amplifier adjustment value Vpd at the end of the current pulse and scales a second factor for adjusting the pulse size of the transmission output.

More specifically, the level difference improving unit 230 includes a second sample and holding unit 252 and a second scaling unit 254.

The second sample and holding unit 252 receives the variable amplifier adjustment value Vpd from the summer 250, which will be described later, and samples the variable amplifier adjustment value at the end of the current pulse among the input variable amplifier adjustment values. Hold the sampled variable amplifier adjustment until the start of the next pulse. The timing at which the second sample and holding unit 252 performs sampling is determined by a signal (Pulse Enable) generated on the entire system provided with the automatic level control apparatus of the present invention.

The second scaling unit 254 scales the second factor, which is a factor for adjusting the overall magnitude of the pulse of the transmission output 204, according to the degree instructed by the user.

The adder 250 sums and adds the first factor scaled by the first scaling unit 248 and the second factor scaled by the second scaling unit 254 as a result of being integrated by the integrator 244. According to the result, the held variable amplifier adjustment value is adjusted and the adjusted variable amplifier adjustment value is output.

Although not shown in FIG. 2, the automatic level control apparatus according to at least one embodiment of the present invention includes an RF amplifier, and the RF amplifier transmits power 204 according to the variable amplifier adjustment value adjusted by the adder 250. Change).

The above-described automatic level control device operates analogously rather than digitally.

3 is a flowchart illustrating an automatic level control method according to at least one embodiment of the present invention. 3 will be described with reference to FIG. 2.

The automatic level control apparatus receives the reference value 202 (step 310) and detects the transmission output 204 (step 312).

The comparator 242 calculates the difference between the reference value 202 and the transmission output 204 (step 314), and the integrator 244 integrates the difference obtained in step 314 (step 316).

The first sample and holding unit 246 samples the value in the overshoot period of the current pulse of the transmission output detected in step 312 and holds the sampled value until the next pulse starts (318). step).

After operation 318, the first scaling unit 248 scales the first parameter, which is a factor for adjusting the size of the overshoot value held in operation 318, according to a degree instructed by the user (operation 320).

Meanwhile, the second sample and holding unit 252 receives the variable amplifier adjustment value Vpd from the adder 250 (step 322), and the variable amplifier adjustment value at the end of the current pulse among the input variable amplifier adjustment values. Is sampled and the sampled variable amplifier adjustment value is held until the next pulse starts (step 324).

After the step 324, the second scaling unit 254 scales the second factor, which is a factor for adjusting the overall magnitude of the pulse of the transmission output 204, according to the degree instructed by the user (step 326).

The adder 250 adds the first factor scaled in step 320 and the second factor scaled in step 326 as a result of integration in operation 316 (operation 328), and in operation 324. The held variable amplifier adjustment value is adjusted according to the summed result (step 330).

After operation 330, the automatic level controller adjusts the transmission output 204 according to the variable amplifier adjustment value adjusted in operation 328 (operation 332).

The program for executing the automatic level control method according to at least one embodiment of the present invention mentioned above on a computer may be stored in a computer-readable recording medium. Here, the computer-readable recording medium may be a magnetic storage medium (for example, a ROM, a floppy disk, a hard disk, etc.), and an optical reading medium (for example, a CD-ROM, a DVD). : Digital Versatile Disc).

So far, the present invention has been described with reference to the preferred embodiments. Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the scope will be construed as being included in the present invention.

1 is a waveform diagram illustrating a pulse output according to at least one embodiment of the present invention.

2 is a block diagram illustrating an automatic level control apparatus according to at least one embodiment of the present invention.

3 is a flowchart illustrating an automatic level control method according to at least one embodiment of the present invention.

Claims (14)

A droop improving unit for integrating the difference between the reference value and the transmission power; An overshoot improvement unit configured to sample and hold a value in an overshoot period of a current pulse of the transmission output, and to scale a first factor for adjusting the magnitude of the overshoot; A level difference improvement unit for sampling and holding the variable amplifier adjustment value at the end of the current pulse and scaling a second factor for adjusting the pulse size of the transmission output; And A summation unit configured to sum the first factor and the second factor and adjust the variable amplifier adjustment value according to the summed result; The overshoot refiner may include: a first sample and holding unit configured to sample the peak value of the overshoot in the overshoot period and to hold the sampled value until the next pulse starts; and first scaling to scale the first factor; Automatic level control device comprising a. The method of claim 1, wherein the droop improving unit A comparator for obtaining a difference between the reference value and the magnitude of the transmission output; And And an integrator that integrates the difference. delete delete The method of claim 1, wherein the level difference improving unit A second sample and holding unit for sampling the variable amplifier adjustment value at the end of the current pulse and holding the sampled variable amplifier adjustment value until the next pulse starts; And And a second scaling unit to scale the second factor. The method of claim 1, wherein the level difference improving unit And sample and hold the variable amplifier adjustment value at the end of the current pulse of the summed result and scale the second factor. The automatic level control apparatus according to claim 1, wherein the automatic level control apparatus operates in an analog manner. The method of claim 1, wherein the automatic level control device And varying the transmission power in accordance with the adjusted variable amplifier adjustment value. (a) integrating the difference between the reference value and the transmit power; (b) sample and hold the value in the overshoot period of the current pulse of the transmit output, and scaling a first factor to adjust the magnitude of the overshoot; (c) sampling and holding the variable amplifier adjustment value at the end of the current pulse and scaling a second factor to adjust the pulse magnitude of the transmit output; And (d) summing the integrated result, the first factor, and the second factor and adjusting the variable amplifier adjustment value according to the summed result; The step (b) includes: (b1) sampling the peak value of the overshoot in the overshoot period and holding the sampled value until the next pulse starts; (b2) scaling the first factor Automatic level control method comprising a. delete delete The method of claim 9, wherein step (c) Sampling the variable amplifier adjustment value at the end of the current pulse and holding the sampled variable amplifier adjustment value until the next pulse starts; And Scaling the second factor. 10. The method of claim 9, wherein step (c) samples and holds the variable amplifier adjustment value at the end of the current pulse of the summed result and scales the second factor. The method of claim 9, wherein the automatic level control method And varying the transmission power in accordance with the adjusted variable amplifier adjustment value.

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