KR100347906B1 - The device and method for compensating error of intermediate frequency filter amplifier - Google Patents

Abstract

The present invention relates to an amplification stage error compensator and method of the intermediate frequency filter unit, and more particularly, to reliably and stably compensate for errors generated by the characteristics of components or assembly characteristics in the amplification stage of the intermediate frequency filter unit of the spectrum analyzer. Amplifying stage error compensation device and method for operating the intermediate frequency filter unit.

The amplification stage error compensator of the intermediate frequency filter unit of the present invention includes a control unit in which a program for controlling the entire apparatus and calculating an error compensation value is built in; A spectrum analyzer configured to analyze a frequency of an input signal, the intermediate frequency filter unit amplifying and outputting a signal input from a receiver, and storing a compensation value; And a signal generator for generating a predetermined frequency signal and inputting the signal to the intermediate frequency filter unit.

In addition, the method of the present invention includes a first step of initializing a spectrum analyzer and a signal generator after a program is initialized and setting a measurement environment of the spectrum analyzer; A second step of setting an output signal of the signal generator in the controller and outputting the set signal; A third step of setting, by the control unit, an amplification degree of the intermediate frequency filter unit to 0 dBm; Detecting and storing a maximum value R of an input setting signal input to the intermediate frequency filter unit; Resetting the amplification degree (A) of the intermediate frequency filter unit and sensing a maximum value M of the measured value output through the intermediate frequency filter unit from the control unit; The difference value (D) is calculated by subtracting the maximum value (R) of the input set signal from the maximum value (M) of the measured value, the error compensation value (AD) is calculated, and the calculated error compensation value (AD) is input to the spectrum analyzer. A sixth step of storing; And a seventh step, when the calculation of the error compensation value AD is completed according to the set amplification degree, is terminated, and otherwise returns to the fifth step of changing the amplification degree A and measuring the error compensation value AD again. It is characterized by.

Description

The device and method for compensating error of intermediate frequency filter amplifier

The present invention relates to an amplification stage error compensator and method of the intermediate frequency filter unit, and more particularly, to reliably and stably compensate for errors generated by the characteristics of components or assembly characteristics in the amplification stage of the intermediate frequency filter unit of the spectrum analyzer. Amplifying stage error compensation device and method for operating the intermediate frequency filter unit.

A spectrum analyzer is used as a device for measuring frequencies having a specific level. The spectrum analyzer is a device that receives and measures a frequency signal generated from an electronic circuit and displays the result. Therefore, attention is required in the assembling process because the spectrum analyzer is a precise product requiring accurate measurement results.

In particular, the intermediate frequency filter unit embedded in the spectrum analyzer is a circuit that receives a signal from the receiver of the spectrum analyzer and outputs it to the video signal processor. One of its functions amplifies the signal to be measured and displays an image on the screen of the spectrum analyzer. Output visually to The intermediate frequency filter unit, the receiver unit, the video signal processor, etc., are configured as modules and embedded in the spectrum analyzer in the form of a card.

However, since the amplification degree is not kept constant in the amplification stage included in the conventional intermediate frequency filter unit, the output signal is incorrectly amplified. In other words, measurement errors were generated due to changes in the component characteristics of the amplifier and the assembly characteristics of the spectrum analyzer system. These errors cause uncertainties in measurement and lead to many difficulties in product production and technological development in the industry.

The present invention has been made to solve the above problems, and an object of the present invention is to reliably and stably operate by compensating for errors caused by component characteristics or assembly characteristics in an amplifying stage of an intermediate frequency filter portion of a spectrum analyzer. To provide an error compensation device and amplification stage of the intermediate frequency filter unit.

The amplification stage error compensator of the intermediate frequency filter unit of the present invention for achieving the above object, the control unit with a built-in program for controlling the entire device and calculating the error compensation value; A spectrum analyzer configured to analyze a frequency of an input signal, the intermediate frequency filter unit amplifying and outputting a signal input from a receiver, and storing a compensation value; And a signal generator for generating a predetermined frequency signal and inputting the signal to the intermediate frequency filter unit.

In addition, the method of the present invention includes a first step of initializing a spectrum analyzer and a signal generator after a program is initialized and setting a measurement environment of the spectrum analyzer; A second step of setting an output signal of the signal generator in the controller and outputting the set signal; A third step of setting, by the control unit, an amplification degree of the intermediate frequency filter unit to 0 dBm; Detecting and storing a maximum value R of an input setting signal input to the intermediate frequency filter unit; Resetting the amplification degree (A) of the intermediate frequency filter unit and sensing a maximum value M of the measured value output through the intermediate frequency filter unit from the control unit; The difference value (D) is calculated by subtracting the maximum value (R) of the input set signal from the maximum value (M) of the measured value, the error compensation value (AD) is calculated, and the calculated error compensation value (AD) is input to the spectrum analyzer. A sixth step of storing; And a seventh step, when the calculation of the error compensation value AD is completed according to the set amplification degree, is terminated, and otherwise returns to the fifth step of changing the amplification degree A and measuring the error compensation value AD again. It is characterized by.

1 is a schematic configuration diagram of an error compensation device of the amplifier stage of the intermediate frequency filter unit according to the present invention;

2 is a flowchart illustrating an error compensation method of an amplification stage of an intermediate frequency filter unit according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10: control unit 12: monitor

20: Spectrum Analyzer 22: Screen

30: signal generator 32: output port

40: GPIB cable 50: RF cable

60: intermediate frequency filter unit 70: receiving unit

80: video signal processing unit

Hereinafter, the amplification stage error compensation device and method of the intermediate frequency filter unit of the present invention will be described in detail with reference to the accompanying drawings.

According to the present invention, a computer used as the control unit 10 controls a spectrum analyzer and a signal generator through a GPIB to extract an error compensation value of an amplifying stage of an intermediate frequency filter unit of the spectrum analyzer. The desired signal can be optimally measured by storing the data in the analyzer and compensating for the amplification degree appropriately at the amplifier stage when the spectrum analyzer is used.

1 is a schematic configuration diagram of an amplification stage error compensation device according to the present invention.

As shown, the control unit 10, the spectrum analyzer 20 and the signal generator 30, and the control unit 10 between the spectrum analyzer 20 and the signal generator 30 between the GPIB cable It is connected by 40. The control unit 10 is for controlling the entire stroke and has a program in which the method of the present invention is performed.

In addition, the control unit 10 has a general purpose interface bus (GPIB) card is built in, the data is transmitted to the spectrum analyzer 20 and the signal generator 30. Of course, the spectrum analyzer 20 and the signal generator 30 should also have a built-in GPIB function.

It will be apparent to those skilled in the art that the controller 10 may be configured using a computer with a built-in GPIB card or a one-chip microcomputer to which a GPIB function card is connected. In the case of using a computer, the output state of the signal can be visually confirmed on the monitor 12, which is convenient. Of course, this visual display method is also implemented by a built-in program. Examples of the visually displayed content may include an error compensation value according to an amplification degree, a frequency signal transmitted from the spectrum analyzer 20, and the like.

The output port 32 of the signal generator 30 is connected to the intermediate frequency filter unit 60 installed in the spectrum analyzer 20. As a result, the signal from the signal generator 30 is input to the amplifying stage of the intermediate frequency filter unit 60 and amplified and output. In practice, the present invention measures the error compensation value for each amplification degree by changing the amplification degree of the amplification stage to -1.0dBm, -2.0dBm, -4.0dBm, -8.0dBm, + 10dBm, + 20_1dBm, + 20_2dBm and so on. Of course, such amplification degree can be changed according to the model of the spectrum analyzer. The signal generated by the signal generator 30 is an RF signal, which is accurately transmitted to the intermediate frequency filter unit 60 without loss of gain through the RF cable 50.

After the signal input from the signal generator 30 is processed in the amplifying stage of the intermediate frequency filter unit 60, the error compensation value AD is determined, which is performed by the controller 10, in detail with reference to the method of the present invention. It is explained.

The spectrum analyzer 20 included in the configuration of the error compensator of the present invention is replaced with the spectrum analyzer for measurement when the measurement and storage of the compensation value as the error compensation object are completed. Therefore, it is clear that there is no big problem even if excluded from the configuration of the present invention. However, this is included in that the error compensation values A-D are recorded directly in the memory of the spectrum analyzer 20.

2 is a flowchart illustrating an error compensation method of the present invention implemented in the apparatus of FIG. 1.

As shown, a first step of initializing the spectrum analyzer and the signal generator after the program is initialized and setting the measurement environment of the spectrum analyzer; A second step of setting an output signal of the signal generator in the controller and outputting the set signal; A third step of setting, by the control unit, an amplification degree of the intermediate frequency filter unit to 0 dBm; Detecting and storing a maximum value R of an input setting signal input to the intermediate frequency filter unit; Resetting the amplification degree (A) of the intermediate frequency filter unit and sensing a maximum value M of the measured value output through the intermediate frequency filter unit from the control unit; The difference value (D) is calculated by subtracting the maximum value (R) of the input set signal from the maximum value (M) of the measured value, the error compensation value (AD) is calculated, and the calculated error compensation value (AD) is input to the spectrum analyzer. A sixth step of storing; And a seventh step, when the calculation of the error compensation value AD is completed according to the set amplification degree, is terminated, and otherwise returns to the fifth step of changing the amplification degree A and measuring the error compensation value AD again. It is characterized by.

As the first step of the method of the present invention, when the operation is started, the controller 10 performs internal initialization of the program, initializes the spectrum analyzer and the signal generator, and switches to the operation standby state. After that, the controller 10 sets the measurement environment of the spectrum analyzer 20. The preference can be entered by the user or operated in a preprogrammed state.

As described above, the controller 10 sets the magnitude of the output signal to the signal generator 30 and commands the signal generator 30 to output the set output signal through the output port 32. In the method of the present invention, the magnitude of the output signal of the signal generator 30 is set to -50 dBm. This is the second step in the present invention.

When the signal is set as described above and the signal is output from the signal generator 30, the controller 10 sets the amplification degree of the amplifying stage of the intermediate frequency filter unit 60 to 0.0 dBm. This is the third step. Although the second and third stages are distinguished, they are performed almost simultaneously.

After performing as described above, as a fourth step of the present invention, the controller 10 measures a peak level R of an input signal at an amplification degree of 0 dBm. This highest value R becomes a reference signal for calculating the error compensation values A-D. The measurement of the maximum value of the input signal is actually performed by sensing the output signal of the intermediate frequency filter unit 60 of the spectrum analyzer 20.

As described above, after the highest value R of the input signal is measured, the control unit 10 changes the amplification degree A of the intermediate frequency filter unit 60. This is for calculating the error compensation values A-D for each of the amplification degrees A that can be changed in the amplifying stage of the intermediate frequency filter unit 60. This amplification degree (A) is useful for the case of determining the amplification degree by changing the amplification degree of one amplification stage or by changing the connection with a plurality of amplifiers, each having a different amplification degree.

In the amplifier selection or the amplification degree selection, the present invention is configured to calculate the error compensation value AD according to the seven amplification degrees A, and the amplification degrees A are respectively -1.0 dBm, -2.0 dBm,- It is performed by changing to 4.0dBm, -8.0dBm, + 10dBm, + 20_1dBm, + 20_2dBm and so on. When amplification degree A is selected for the first time, the control part 10 measures the highest value M of a measured value. This is the fifth step of the present invention.

Thereafter, as a sixth step, the difference value D is calculated by subtracting the maximum value R of the input setting signal from the maximum value M of the measured value, the error compensation value AD is calculated, and the calculated error compensation value ( AD) is stored in the spectrum analyzer 20. The error compensation value AD stored in the spectrum analyzer 20 is not changed by a separate read / write operation from the outside, and is a nonvolatile memory such as a memory device (for example, a ROM, an EEP ROM, etc.) built in the spectrum analyzer. ) Is preferable.

When the primary error compensation value A-D is determined as described above, the controller 10 checks whether the predetermined number of times has been performed. The predetermined number of times means the number of times according to the amplification degree A of the intermediate frequency filter unit 60. Here, since the amplification degree A is set to seven, it means seven error compensation values A-D. The error compensation values A-D are calculated over a predetermined number of times (7) and are all stored in the spectrum analyzer 20.

When the storage of the error compensation value A-D is completed as described above, the spectrum analyzer 20 is separated from the error compensation device of the present invention to store the error compensation value A-D of another spectrum analyzer. The newly connected spectrum analyzer is also connected to the control unit 10 and the signal generator 30 as shown in FIG. 1 to store the error compensation values A-D through the same process as described above.

As described above, according to the present invention, there is an advantage of providing a spectrum analyzer that operates reliably and stably by compensating for errors caused by component characteristics or assembly characteristics in an amplifier stage of the intermediate frequency filter unit of the spectrum analyzer.

Although the invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that modifications and variations can be made within the spirit and scope of the invention, and such variations or modifications will belong to the appended claims. .

Claims (6)

A controller in which a program for controlling the entire apparatus and calculating an error compensation value is built-in; A spectrum analyzer configured to analyze a frequency of an input signal, the intermediate frequency filter unit amplifying and outputting a signal input from a receiver, and storing a compensation value; Amplifying stage error compensator of the intermediate frequency filter unit characterized in that it comprises a signal generator for generating a predetermined frequency signal and input the signal to the intermediate frequency filter unit. The method of claim 1, The amplification stage error compensation device of the intermediate frequency filter unit, characterized in that the control unit is a computer with a built-in GPIB card and a central processing unit. The method of claim 1, Amplifying stage error compensation device of the intermediate frequency filter unit, characterized in that the spectrum analyzer and the signal generator has a built-in GPIB function. A first step of initializing the spectrum analyzer and the signal generator after the program is initialized and setting the measurement environment of the spectrum analyzer; A second step of setting an output signal of the signal generator in the controller and outputting the set signal; A third step of setting, by the control unit, an amplification degree of the intermediate frequency filter unit to 0 dBm; Detecting and storing a maximum value R of an input setting signal input to the intermediate frequency filter unit; Resetting the amplification degree (A) of the intermediate frequency filter unit and sensing a maximum value M of the measured value output through the intermediate frequency filter unit from the control unit; The difference value (D) is calculated by subtracting the maximum value (R) of the input set signal from the maximum value (M) of the measured value, the error compensation value (AD) is calculated, and the calculated error compensation value (AD) is input to the spectrum analyzer. A sixth step of storing; And a seventh step, when the calculation of the error compensation value AD is completed according to the set amplification degree, is terminated, and otherwise returns to the fifth step of changing the amplification degree A and measuring the error compensation value AD again. Amplification stage error compensation method of the intermediate frequency filter portion. The method of claim 4, wherein The error compensation method of the amplifier stage of the intermediate frequency filter, characterized in that the output signal of the signal generator in the second step is set to -50.0dBm. The method of claim 4, wherein The amplification degree (A) in the fifth step is sequentially changed to -1.0dBm, -2.0dBm, -4.0dBm, -8.0dBm, + 10dBm, + 20_1dBm, + 20_2dBm, and the error compensation value for each amplification degree Amplification stage error compensation method of the intermediate frequency filter, characterized in that for measuring and storing.