KR20110019016A - Zero point and span compensationg apparatus - Google Patents

Abstract

PURPOSE: An analog signal compensating apparatus for adjusting zero point and span is provided to facilitate the setting for zero point and span correction by being applied to any types of sensing units. CONSTITUTION: An analog signal compensating apparatus for adjusting zero point and span comprises an analog signal input part(110), a zero point adjusting part(120), a span adjusting part(130), an analog signal output part(140), and a digital signal processing part(200). The analog signal input part is input with an analog detection signal from a sensing unit(1). The zero point adjusting part divides a reference voltage(Vref) to create a zero point voltage signal and obtains a zero point correction analog signal by subtracting the zero point voltage signal from the analog detection signal. The span adjusting part divides a reference resistance part(RY) into two resistance values(RYa,RYb) and amplifies the zero point correction analog signal with the ratio of the divided resistance values to obtain a span-adjusted span correction analog signal. The analog signal output part outputs the span correction analog signal to an external device(2). The digital signal processing part controls so that the zero point and span adjusted analog signal is outputted through the analog signal output part to the external device.

Description

ZERO POINT AND SPAN COMPENSATIONG APPARATUS}

The present invention relates to an analog signal correction device for adjusting the zero point and span, and more particularly, to the external device (2) by adjusting the zero and span of the analog detection signal received from the sensing means (1) in an analog circuit configuration. The zero and span adjustment data are transmitted to the sensing means (1), and then obtained by one operation key input, respectively, and the analog circuit configuration is controlled by the obtained data to control the analog signal in the range required by the external device (2). It relates to an analog signal compensator for adjusting the zero and span that can be corrected by.

In general, the measuring device detects a sensing signal of a weighing target with a sensing means 1 such as various sensors, load cells, strain gauge bridge circuits, and the like, and transmits the detected sensing signal to the external device 1, thereby providing an external device 1. ) Makes a predetermined operation corresponding to the detection signal.

In addition, the measuring device is configured to be able to adjust the zero point to correct the deformation of the detection signal according to the zero detection error of the sensing means (1).

In addition, the measuring device is configured to adjust the level of the detection signal detected by the sensing means 1 to the level of the signal required by the external device 2. That is, the fluctuation range of the detection signal detected by the detection means 1 is adjusted to a span of the range required by the external device 2. Specifically, after the zero point is adjusted, the detection means 1 detects it. The maximum value of the detected signal to be matched with the maximum value of the signal to be transmitted to the external device (2).

The conventional general measuring device has a balance resistor for zero adjustment and span adjustment, and is configured to correct the detection signal by varying the balance resistor, and the variable value of the balance resistor can be adjusted while the user rotates the volume knob. It is supposed to be.

However, such a conventional measuring device has a difficulty in assembling the circuit configuration for adjusting the zero point and span according to the characteristics according to the type of the sensing means 1, and furthermore, when the same circuit configuration is assembled to the other sensing means 1, There was also the difficulty of repeating cumbersome setting and zero and span settings.

In addition, the conventional measuring device has the inconvenience of having to turn the volume knob gradually while checking the output signal of the measuring device, there is a problem that the balance resistor is incorrectly adjusted to accurately match the output signal.

In addition, the conventional measuring device adjusts the zero point and the span depending on the detection result value of the signal measuring means provided separately or the signal measuring means provided inside the external device 2 to detect the output signal of the measuring device, Even if the zero and span were adjusted, there was a problem that the output signal of the measuring device was inaccurate due to the error of the adjusting circuit itself.

Conventional measuring apparatus for solving the inconvenience of manual operation and inaccuracy of zero and span adjustment converts the detection signal detected by the sensing means 1 into digital data, and converts the converted digital data according to a programmed method. The zero- and span-adjusted data are obtained, and the zero- and span-adjusted data is converted into an analog signal and transmitted to the external device 2.

However, such a measuring device has a problem in that time is delayed in converting the digital data into the analog signal according to the input signal of the external device 2 by converting the data into arithmetic processing. Such a delay of the digital processing time is limited in that the external device 2 cannot be operated quickly in response to the detection signal of the detection means 1, and when used in connection with the external device 2 requiring quick response. There was a problem in that the hunting phenomenon (hunting phenomenon) occurs as the external device (2) is operated by the delayed corrected detection signal. For example, if a thickness is detected in a production line that makes a product of a certain thickness and an error occurs in the product thickness, the external device 2 for adjusting the thickness needs to be adjusted. There was a problem that a hunting phenomenon (hunting phenomenon) occurs that the thickness of the product is not constant.

Therefore, an object of the present invention can be used universally regardless of the type of the sensing means 1, zero point and span that can simplify the setting process for correcting the zero and span after connecting to the sensing means (1) It is to provide an analog signal correction device that adjusts.

Another object of the present invention is to solve the problems of manual operation, to correct the problem of inaccurate correction caused by manual operation, and also corrected by the output signal transmitted to the external device (2) It is to provide an analog signal correction device that adjusts the zero point and span that can more accurately compensate the zero point and span.

Still another object of the present invention is to perform a zero point and span that can quickly perform a correction process by performing an analog signal processing with an analog circuit configuration and outputting an analog detection signal without performing a digital data processing process. It is to provide an analog signal correction device that adjusts.

In order to achieve the above object, the present invention, by receiving an analog detection signal from the sensing means (1) to adjust the zero point and span to an analog signal correction device for adjusting the zero point and span output to the external device (2) as an analog signal An analog signal input unit 110 for receiving an analog detection signal from the sensing means 1; A zero point adjusting unit for generating a zero voltage signal by dividing the reference voltage Vref according to the received zero voltage division ratio value, and subtracting the zero voltage signal from the analog detection signal to obtain a zero-adjusted zero correction analog signal; 120); The reference resistor unit RY is divided into two resistance values RYa and RYb according to the received span control amplification value, and the zero correction analog signal obtained by the zero controller 120 is divided into two parts. A span adjustment unit 130 for amplifying at a ratio of RYb to obtain a span adjusted analog signal; An analog signal output unit 140 for outputting the span correction analog signal to an external device; And a setting key input unit 220 for selecting a zero setting mode, a span setting mode and a signal correction mode, and receiving a key input of a maximum output value to be output through the analog signal output unit 140. By detecting the analog detection signal received through the analog signal input unit 110, and stores the ratio of the analog detection signal to the reference voltage (Vref) as the voltage-division ratio for the zero control, and also stores the detected analog detection signal When the span setting mode is selected and the output maximum value to be output through the analog signal output unit 140 is keyed, the analog detection signal detected through the analog signal input unit 110 is detected and the detected analog detection signal is detected. Acquisition of a zero-controlled analog detection signal by subtracting the analog detection signal stored in the zero setting mode Stores the ratio of the maximum output value for the analogue-controlled analog detected signal as a span control amplification value, and when the signal correction mode is selected, the stored zero control partial pressure ratio value is transmitted to the zero point adjusting unit 120. The digital signal processing unit transmits the stored span control amplification value to the span control unit 130 to output an analog signal having zero and span adjustments to the external device 2 through the analog signal output unit 140. 200, characterized in that configured to include.

Therefore, the present invention configured as described above, even if applied to various kinds of sensing means (1) can set the zero point and span by a simple operation, and only need to input the range of the signal transmitted to the external device (2) various kinds of external It is easy to apply to the apparatus 2, too.

In addition, the present invention, because it is performed by the digital signal processing unit 200 instead of manual operation to solve the problem of inaccurate setting that occurred in the manual operation can not only correct the zero point and span correctly, but also detects instead of the output signal Since the zero and span are set by the sensing signal transmitted from the means 1, the zero and the span can be more accurately corrected.

In addition, the present invention does not convert the analog sensing signal sensed by the sensing means 1 into digital data, but instead adjusts the zero point and span by analog signal processing, so that it is possible to quickly correct the problem due to the delay of processing time. Can be solved.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described to be easily carried out by those of ordinary skill in the art. In the following description of the present invention, if it is determined that a detailed description of a related known function or known configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a block diagram of an analog signal correction apparatus for adjusting a zero point and a span according to an embodiment of the present invention.

In the embodiment of the present invention shown in FIG. 1, the analog signal input unit 110 for receiving an analog detection signal, a zero adjustment unit 120 for adjusting the zero point of the analog detection signal, and amplifying the zero-adjusted analog signal span Span control unit 130 to adjust the zero, and zero and span the analog signal output unit 140 for outputting the adjusted analog signal, and the configuration (120, 130, 140) by controlling the zero and span adjusted analog It is configured to include a digital signal processing unit 200 for outputting a detection signal through the analog signal output unit 140.

The analog signal input unit 110 is connected to a general signal detecting means 1 such as a sensor, a load cell, a strain gauge bridge circuit, etc. to receive an analog detection signal, an input terminal 111, and an analog input through the input terminal 111. It is provided with an input buffer 112 to stabilize and output the detection signal. The input buffer 112 may be configured as an operational amplifier (OP AMP, operational amplifier) having a large input impedance and a small output impedance, as shown in FIG. 1, and the input analog sense signal is distorted by an output circuit. It functions to stabilize and output without this.

)를 입력받고 입력받은 아날로그 감지신호(

)에서 영점 전압신호(Vv)를 차감하여 영점이 조절된 영점 보정 아날로그 신호(

)를 획득하는 제1 증폭기(121)와, 상기 제1 증폭기(121)에 입력할 영점 전압신호(Vv)를 생성하여 상기 제1 증폭기(121)에 공급하는 제1 디지털 포텐셔미터(122) 를 구비한다. The zero adjustment unit 120, the analog detection signal (110) from the analog signal input unit 110

) Received analog input signal (

) Zero point analog signal (Vv) is subtracted from

And a first digital potentiometer (122) for generating a zero voltage signal (Vv) to be input to the first amplifier (121) and supplying it to the first amplifier (121). do.

The first digital potentiometer 122 includes a reference resistor portion RX having input and output terminals at both ends thereof, and has a variable resistor stage 122a drawn out in the middle of the reference resistor portion RX. Therefore, the resistance value between the input terminal and the variable resistor terminal 122a is set to RXb, and the resistance value between the output terminal and the variable resistor stage 122a is set to RX-RXb = RXa. The first digital potentiometer 122 may change the resistance value RXa between the variable resistor stage 122a and the output terminal according to a change in the position of the variable resistor stage 122a. The position is configured to be selected according to the value of the partial pressure ratio for the zero control received from the digital signal processing unit 200. In addition, in the embodiment of the present invention, the reference voltage Vref is applied to the input terminal of the reference resistor portion RX and the output terminal of the reference resistor portion RX is grounded to the reference level. Accordingly, the first digital potentiometer 122 changes the position of the variable resistor terminal 122a according to the zero voltage division ratio value received from the digital signal processor 200 to change the zero voltage signal Vv which is a variable voltage. Through the resistor stage 122a, the first amplifier 121 may be supplied to the first amplifier 121. That is, the zero voltage signal Vv is expressed by the following equation.

)와 상기 제1 증폭기(121)로부터 전달받는 영점 전압신호(Vv)를 입력신호로 하는 차동증폭기로 동작한다. 이를 위해 상기 제1 증폭기(121)는 아날로그 감지신호가 입력되는 입력단측에 저항 R11과 R12를 구비하고, 영점 전압신호가 입력되는 입력단측에 저항 R13과 R14를 구비하며, 상기 도 1의 구성에 따른 출력전압은

의 조건을 만족하게 회로를 구성하면, 다음 식의 값으로 이루어진다.The first amplifier 121, it can be seen that in the embodiment of the present invention shown in Figure 1 composed of an operational amplifier (OP AMP: operational amplifier), the analog sensing received from the analog signal input unit 110 signal(

) And a zero voltage signal Vv received from the first amplifier 121 as an input signal. To this end, the first amplifier 121 includes resistors R11 and R12 at the input terminal side to which the analog sensing signal is input, and resistors R13 and R14 at the input terminal side to which the zero voltage signal is input. According to the output voltage

When the circuit is configured to satisfy the condition of, the value is obtained from the following equation.

In addition, when R13 = R14, the output voltage consists of a value of the following formula.

Therefore, the first amplifier 121 is a zero voltage signal (Vv) output from the first digital potentiometer 122 by the divided voltage ratio value of the zero point of the digital signal processor 200, the analog signal input unit 110 It is possible to adjust the zero point of the analog detection signal input from the system.

If R13 is designed to have a different value from R14, the ratio of R14 of R13 should be taken into consideration when setting the amplification degree of the span adjusting unit 130 to be described later. Specifically, the digital signal processing unit 200 includes the span adjusting unit 130. When calculating the amplification degree (i.e., the span control amplification value), the signal obtained by amplifying the analog detection signal at the ratio of R14 and R13 is calculated instead of calculating the amplification degree of the analog detection signal of the analog signal input unit 110. The amplification degree is calculated.

The same buffer circuit as the input buffer 112 may be added to an output terminal of the variable resistor terminal 122a of the first digital potentiometer 122, and the added buffer circuit outputs a zero voltage signal Vv. It can be stabilized.

The span adjusting unit 130 receives a zero correction analog signal output from the zero adjusting unit 120 and amplifies the second amplifier 131 to obtain a span correction analog signal having a span adjusted; In order to adjust the amplification degree of the second amplifier 131, a second resistor RYa connected to the input side of the second amplifier 131 and a resistor RYb inserted into the path returned from the output side to the input side are set. And a digital potentiometer 132.

The second digital potentiometer 132 includes a reference resistor portion RY having an input / output terminal at both ends, and a variable resistor stage 132a drawn out in the middle of the reference resistor portion RY, and is variable with an input terminal. The resistance value between the resistor terminals 132a is set to RYa, and the resistance value between the output stage and the variable resistor stage 133a is set to RYb = RY-RYa. The second digital potentiometer 132 is configured to change the position of the variable resistor terminal 133a in accordance with the span control amplification value received from the digital signal processor 200 so as to vary RYa and RYb. In addition, an input terminal of the reference resistor unit RY of the second digital potentiometer 132 is connected to an output side of the first amplifier 121, and an output terminal of the reference resistor unit RY of the second digital potentiometer 132. Is connected to the output side of the second amplifier 131 which will be described later, and the variable resistor terminal 132a of the second digital potentiometer 132 is any one of two input terminals of the second amplifier 131 (for example, In case of designing to operate as inverting amplifier, it is connected to (-) input terminal among (+) input terminal and (-) input terminal.

The second amplifier 131 is configured as an operational amplifier (OP AMP) in the embodiment of the present invention shown in FIG. 1, and is connected to the second digital potentiometer 132 as described above. The other one of the input terminals, which is not connected to the variable resistance terminal 132a of the second digital potentiometer 132, is configured to be grounded via R2, and the nutrient is divided by the variable resistance terminal 132a. According to the size of the resistors (RYa, RYb), the analog signal is output as shown in the following equation. In this case, the second amplifier 131 is a relational expression when it is designed as an inverting amplifier.

으로 스팬(span)이 조절되어 출력된다.Therefore, the zero-correction analog signal whose zero point is adjusted by the zero point adjuster 120 is amplified by the span adjuster 130.

The span is adjusted and output.

The analog signal output unit 140 is a configuration for supplying a span correction analog signal output from the span control unit 130 to an external device, and externally outputs the span correction analog signal output from the span control unit 130. An output signal stabilization unit 141 for stably supplying the device, a switch moving unit 142b and a switch 142a to selectively control the output of the span correction analog signal, and the digital Control unit operation monitoring unit 144 for monitoring the operation state of the signal processing unit 200 to control the opening and closing operation of the opening and closing unit 142, and in the form of a terminal connected to the opening and closing unit 142 to be connected to an external device It has an output stage 143 that can be.

The output signal stabilizer 141 may have the same function as the input buffer 112 of the analog signal input unit 110 and may have the same configuration.

The controller operation monitoring unit 144 may control the zero control unit 120 and the span control unit 130 after the digital signal processing unit 200 receives power and starts to operate by booting. Monitors whether it can That is, the controller operation monitoring unit 144, the digital signal processing unit 200 and the control signal for adjusting the zero point and the span (partial voltage ratio value for zero control and the span control amplification value) and the zero point adjusting unit 120 and If the control unit 130 does not transmit the control signal, the switch operating unit 142b of the opening and closing unit 142 is not operated and the switch 142a is turned off. When the control signal is normally transmitted, the switch moving part 142b of the opening and closing part 142 is operated to bring the switch 142a into the closed state so that the analog output signal of the output signal stabilizing part 141 is output to the output terminal. 143 to be supplied.

The output terminal 143 is configured to be electrically connected to the external device 2 so as to supply an analog signal to the connected external device 2, for example, a terminal block.

In this case, the external device 2 connected to the output terminal 143 is a device that performs a specific operation according to a detection signal of a sensing means such as a sensor, a load cell, or a strain gauge bridge circuit connected to the analog signal input unit 110. .

For example, in the production line of the sheet material when the thickness sensing sensor for detecting the thickness of the sheet as the sensing means, and means for adjusting the thickness of the sheet in accordance with the detection signal of the sensing means as an external device, The analog signal correcting device receives the sensing signal of the sensing means and adjusts the zero point and span to the external device so that the external device can accurately adjust the thickness.

The digital signal processor 200 may include a setting key input unit 220 and a display unit 230 for a user interface, a memory 240 for storing data for zero and span setting, and an analog signal. The zero A / D converter 250 for converting the signal into a signal, and the zero resistance calculation unit 260 for setting a voltage-dividing ratio value for zero control indicating the position information of the variable resistor stage 122a of the first digital potentiometer 122. And a span resistance calculation unit 270 for setting an amplification value for span control indicating position information of the variable resistance terminal 132a of the second digital potentiometer 132 and the digital signal obtained by the first A / D converter 250. A unit conversion unit 280 for converting the unit value to a preset unit value according to the control unit, and each of the components 220, 230, 240, 250, 250, 260, 270, and 280 to obtain a zero point partial pressure ratio value and a span control amplification value. And the obtained partial pressure ratio value for zero control and amplification value for span control. It is configured to include a control unit 210 to control the zero point adjusting unit 120 and span adjustment 130 to thereby adjust the zero point detection signal, and the analog span adjust the output.

The setting key input unit 220 is a key having a maximum value to be output from the analog signal output unit 140 when a selection input of a setting mode including a zero setting mode, a span setting mode and a signal correction mode is executed, and a span setting mode is executed. An input and a key input of the maximum measurement data corresponding to the maximum output value of the analog signal output unit 140 are received. Here, the zero point setting mode is a mode for obtaining a zero voltage partial pressure ratio value to be transmitted to the zero point adjusting unit 120, the span setting mode is a mode for obtaining a span control amplification value to be transmitted to the span adjustment unit 130, the signal correction mode The zero point and the span of the analog detection signal of the sensing means 1 are controlled by controlling the zero adjusting part 120 and the span adjusting part 130 with the obtained zero control partial pressure ratio value and span control amplification value. 2) The mode to pass on. The measurement data indicates data obtained by converting the value of the analog detection signal of the sensing means 1 into a unit and a numerical range in a form desired by the user, and the maximum measurement data indicates the maximum value of the measurement data. 140 corresponds to the maximum output value to be output.

The display unit 230 outputs data or situation information that can be recognized by the user during the operation of the digital signal processor 200. That is, the output for confirming the user's input in the setting mode, the output of the input data, the output for notifying the operation status of the digital signal processing unit 200, or the output of the measurement data value converted to the value of the analog detection signal Etc.

The memory 240 may include a reference voltage value (Vref) applied to the first digital potentiometer 122, a partial pressure ratio value for zero control obtained in the zero setting mode, an amplification value for span control obtained in the span setting mode, and zero setting. It stores the value of the analog detection signal acquired in the mode, the value of the analog detection signal obtained in the span setting mode, the maximum output value of the analog signal output unit 140, and the maximum measurement data.

The first A / D converter 250 is connected to an output terminal of the analog signal input unit 110 to receive an analog sensing signal and convert the received analog sensing signal into digital data.

When the zero resistance calculation unit 260 operates in the zero setting mode, the zero resistance calculation unit 260 receives the value of the analog detection signal acquired by the first A / D converter 250 to convert the analog detection signal to the reference voltage Vref. The ratio of the values is calculated, and the calculated ratio is set to the value of the partial pressure ratio for zero control. The calculated zero-pressure partial pressure ratio value is a ratio of the resistance RXa to the reference resistor portion RX, and indicates position information of the variable resistance stage 122a of the first digital potentiometer 122.

The span resistance calculation unit 270 receives the value of the analog sensing signal acquired by the first A / D converter 250 when operating in the span setting mode, and the span resistance calculation unit 270 receives the value of the analog sensing signal. Subtract the value of the analog detection signal acquired in the zero setting mode to obtain the value of the analog detection signal with the zero adjustment, input the obtained analog detection signal with the zero adjustment and input the maximum output of the analog signal output unit 140 The amplification degree whose value is an output value is calculated, and the calculated amplification degree is set to the span control amplification value. The span control amplification value indicates position information of the variable resistor terminal 132a in the second digital potentiometer 122. That is, a variable for dividing the reference resistor unit RY according to the amplification degree by receiving a key input of the output maximum value to be output through the analog signal output unit 140 and amplifying the ratio of the output maximum value for the zero-adjusted analog sensing signal as an amplification degree. The position information of the resistance stage 132a is obtained.

The unit converting unit 280 is configured to convert the value of the analog sensing signal sensed by the sensing means 1 into measurement data values of a user's desired form. The analog converting unit 280 operates in the span setting mode. As the maximum measurement data value corresponding to the maximum output value of 140 is input through the setting key input unit 220, the span correction analog signal acquired within the range of "0" to the maximum output value when operating in the measurement mode. Is converted into measurement data values within a range from "0" to a maximum measurement data value, and is output to the display unit 230 under the control of the control unit 210. That is, the unit conversion unit 280 corresponds to a relational expression that corresponds the maximum measurement data corresponding to the maximum output value of the analog signal output unit 140 to the value of the maximum analog signal (the value of the analog signal obtained in the span setting mode). On the basis of this, the value of the minimum analog detection signal (the value of the analog signal obtained in the zero setting mode) and the value of the maximum analog detection signal (the value of the analog signal obtained in the span setting mode) acquired during operation in the zero and span adjustment modes. ) Convert the value of analog sensing signal that is transmitted within the range between) and convert it into measurement data value. That is, in the XY coordinate plane, the value of the analog sensing signal is the X axis and the measurement data is the Y axis. When X = (minimum analog sensing signal), the value of the Y axis is 0 and X = (maximum analog sensing signal). Value of the Y axis as the maximum measurement data value, the slope between the two endpoints is calculated so that the measured data value on the Y axis with respect to the value of the analog detection signal in the signal compensation mode is measured with the value of the analog detection signal. It can be calculated using the proportional relation of the data values.

The controller 210 controls the components 230, 240, 250, 260, 270, and 280 according to the mode or data received from the setting key input unit 220 to obtain zero point and span adjustment data. The zero control unit 120 and the span control unit 130 are controlled according to the acquired data to adjust the zero point and span of the analog detection signal.

An operation of the digital signal processor 200 under the control of the controller 210 will be described in detail with reference to the embodiment of FIG. 2.

2 is a flowchart illustrating an operation flow of a zero setting mode and a span setting mode in an operation mode of an analog signal correction apparatus for adjusting zero and span according to an exemplary embodiment of the present invention.

First, the operation in the zero setting mode is performed as follows.

In order to set the zero point, the user selects the zero point setting mode with the setting key input unit 220 (S11), and inputs the analog detection signal corresponding to the zero point to the analog signal input unit 110 (S12).

Then, the control unit 210 acquires the value of the analog detection signal received through the analog signal input unit 110 through the first A / D converter 250 (S13), and the value of the obtained analog detection signal. To the zero-resistance calculation unit 260 to obtain the divided voltage ratio value for the zero point control (S14) and store the obtained divided voltage ratio value in the memory 240, but also stores the value of the grounded analog detection signal in the memory 240. (S15).

In this way, the user who set the zero point sets the span next. For this, the user selects the span setting mode with the setting key input unit 220 (S21), and the analog signal output unit 140 to be transmitted to the external device 2. The maximum value of the output is input to the setting key input unit 220 (S22), and the analog detection signal corresponding to the maximum value is input to the analog signal input unit 110 (S23). In this case, the user may input a maximum measurement data value for the maximum output value of the analog signal output unit 140.

Then, the controller 210 starts to operate in the span setting mode, and stores the maximum output value of the analog signal output unit 140 received in the memory 240 and outputs the analog signal output unit 140. The maximum measurement data value corresponding to the maximum value is stored in the memory 240. In addition, the value of the analog detection signal received through the analog signal input unit 110 is obtained through the first A / D converter 250 (S24). Next, the control unit 210 amplifies the span control by the span resistance calculation unit 270 based on the obtained value of the analog detection signal, the value of the analog detection signal stored in the zero setting mode, and the output maximum value. Obtain a value (S25). The controller 210 stores the obtained span control amplification value and the analog sense signal in the memory 240.

3 is a flowchart illustrating the operation of the signal correction mode during the operation mode of the analog signal correction apparatus for adjusting the zero and span according to an embodiment of the present invention.

When the control unit 210 of the digital signal processing unit 200 receives the setting key input unit 220 to select the signal correction mode (S31), the zero voltage division ratio value and the span control amplification value are read from the memory 240 (S32). ).

Then, the control unit 210 transmits the read zero control partial pressure ratio value to the zero adjustment unit 120 to correct the zero point of the analog detection signal (S33), and the span control amplification value 130 for the read span control amplification value. It transmits to to correct the span of the analog detection signal (S34).

Next, the control unit 210 monitors the operation of the control unit, such as a predetermined clock signal indicating that the zero control unit 120 and the span control unit 130 are controlled in accordance with the zero control partial pressure ratio value and the span control amplification value. The control unit 144 transmits the switch 142a of the opening / closing unit 142 to an ON state (S35). Accordingly, the analog signal output unit 140 may transmit the analog signal having the zero and span adjusted to the external device 2 through the output terminal 143.

In addition, when the controller 210 reads the zero voltage division ratio value and the span control amplification value from the memory 240 (S32), the analog sense signal obtained in the zero setting mode and the analog obtained in the span setting mode. The detection signal value and the maximum measurement data value are also read and transmitted to the unit conversion unit 280. The control unit 210 converts the value of the analog detection signal acquired by the first A / D converter 250 when the switch 142a of the open / close unit 142 is turned on (S35). In operation 280, the measurement data value corresponding to the value of the analog sensing signal is obtained and output to the display unit 230. Therefore, the value of the analog detection signal can be output as the measurement data value in a unit that can be recognized by the user.

In addition, referring to FIG. 1, the digital signal processor 200 may further include a second A / D converter 251 for acquiring a value of an analog signal whose zero point and span are adjusted. Preferably, the second A / D converter 251 may be connected to the output terminal of the output signal stabilizer 141 to obtain a stabilized analog signal value.

In addition, the control unit 210 outputs the output signal of the span adjusting unit 130 when operating in the zero setting mode, that is, the signal stabilized by the output signal stabilizing unit 141 in the embodiment of the present invention. It is preferable to be configured to detect again through the / D conversion unit 251 and to modify the partial pressure ratio value for the zero point control again. That is, the control unit 210 transmits the zero pressure partial pressure ratio value calculated as described above to the zero point adjusting unit 120 so that an analog signal with zero adjustment is transmitted to the span adjusting unit 130. In the state where the amplification degree in the span control unit 130 is set to "0", it is checked whether the value of the analog signal output from the span control unit 130 becomes "0" and does not become "0". It is to estimate the zero pressure partial pressure ratio value to be "0" while changing the zero pressure partial pressure ratio value according to the deviation from 0 ", and to correct and store the estimated zero voltage ratio.

In addition, the controller 210 may output an output signal of the span adjusting unit 130 even when operating in the span setting mode, that is, a signal stabilized by the output signal stabilizing unit 141 in the embodiment of the present invention. It is preferably configured to modify the span control amplification value again by sensing through the / D conversion unit 251. That is, the control unit 210 transmits the span control amplification value calculated as described above to the span adjustment unit 130 and transmits the partial pressure ratio value estimated in the zero setting mode to the zero adjustment unit 120. After transmitting, the zero- and span-adjusted signal is transmitted to the analog signal output unit 140, and if the signal stabilized by the output signal stabilization unit 141 becomes the maximum output value and does not become the maximum output value. By estimating the span control amplification value to the maximum output value while changing the span control amplification value transmitted to the span control unit 130 according to the deviation from the maximum output value, the estimated span control amplification value is corrected and stored. .

By modifying the zero-pressure partial pressure ratio value and the span control amplification value as described above, even if an error occurs in the manufacturing stage or parts of the components constituting the zero point adjusting unit 120 and the span adjusting unit 130 or long-term use, It is possible to accurately correct the zero point and span of the analog sense signal detected by the sensing means (1).

Although illustrated and described in the specific embodiments to illustrate the technical spirit of the present invention, the present invention is not limited to the same configuration and operation as the specific embodiment as described above, within the limits that various modifications do not depart from the scope of the invention It can be carried out in. Therefore, such modifications should also be regarded as belonging to the scope of the present invention, and the scope of the present invention should be determined by the claims below.

1 is a block diagram of an analog signal correction apparatus for adjusting zero and span according to an embodiment of the present invention.

Figure 2 is a flow chart showing the operation flow of the zero setting mode and the span setting mode of the operation mode of the analog signal correction apparatus for adjusting the zero and span according to an embodiment of the present invention.

Figure 3 is a flow chart showing the operation of the signal correction mode of the operation mode of the analog signal correction apparatus for adjusting the zero and span according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

110: analog signal input section 111: input stage 112: input buffer

120: zero point adjusting unit 121: first amplifier

122: first digital potentiometer 130: span adjustment unit 131: second amplifier

132: second digital potentiometer 140: analog signal output unit

141: output signal stabilizer 142: switch 142a: switch

142b: switch actuator 143: output terminal

144 control unit operation monitoring unit

200: digital signal processing unit 210: control unit 220: setting key input unit

230: display unit 240: memory 250: first A / D conversion unit

251: second A / D conversion unit

260: zero resistance calculation unit 270: span resistance calculation unit 280: unit conversion unit

Claims (5)

In the analog signal correction device for adjusting the zero point and the span that receives the analog detection signal from the sensing means (1) and adjusts the zero point and span to output to the external device (2) as an analog signal, An analog signal input unit 110 which receives an analog sense signal from the sensing means 1; A zero point adjusting unit for generating a zero voltage signal by dividing the reference voltage Vref according to the received zero voltage division ratio value, and subtracting the zero voltage signal from the analog detection signal to obtain a zero-adjusted zero correction analog signal; 120); The reference resistor unit RY is divided into two resistance values RYa and RYb according to the received span control amplification value, and the zero correction analog signal obtained by the zero controller 120 is divided into two parts. A span adjustment unit 130 for amplifying at a ratio of RYb to obtain a span adjusted analog signal; An analog signal output unit 140 for outputting the span correction analog signal to an external device; And a setting key input unit 220 for selecting a zero setting mode, a span setting mode and a signal correction mode, and receiving a key input of a maximum output value to be output through the analog signal output unit 140. By detecting the analog detection signal received through the analog signal input unit 110, and stores the ratio of the analog detection signal to the reference voltage (Vref) as a divided voltage ratio value for the zero control, and also stores the detected analog detection signal In addition, when the span setting mode is selected and the output maximum value to be outputted through the analog signal output unit 140 is keyed in, the analog sense signal received through the analog signal input unit 110 is detected to detect the detected analog signal. Acquiring an analogue detection signal with a zero adjustment by subtracting the analogue detection signal stored in the zero point setting mode Afterwards, the ratio of the maximum output value to the zero-adjusted analog sensing signal is stored as the span control amplification value, and when the signal correction mode is selected, the stored zero control partial pressure ratio value is transmitted to the zero point adjusting unit 120. The digital signal processing unit 200 transmits the stored span control amplification value to the span control unit 130 to output an analog signal having zero and span adjustments to the external device 2 through the analog signal output unit 140. ); Analog signal correction apparatus for adjusting the zero and span, characterized in that configured to include. The method of claim 1, The zero point adjustment unit 120, The reference resistor section RX to which the reference voltage Vref is applied is positioned, and the position of the variable resistor stage 122a drawn out in the middle of the reference resistor section RX in accordance with the input voltage divider ratio value. A first digital potentiometer 122 which selects and outputs a zero voltage signal through the selected variable resistance stage 122a; A first amplifier 121 that differentially amplifies the analog detection signal received from the analog signal input unit 110 and the zero voltage signal of the first digital potentiometer 122; And, The span adjustment unit 130, A second digital having a variable resistance stage 132a drawn out in the middle of the reference resistance section RY and the reference resistance section RY, and setting the position of the variable resistance stage 132a according to the input span control amplification value. Potentiometer 132; The second digital potentiometer (A) to amplify the output signal of the zero point adjusting unit 120 by amplifying the ratio of the resistors RYa and RYb divided by the variable resistor stage 132a in the second digital potentiometer 132 ( A second amplifier 131 electrically connected to the 132; Analog signal correction apparatus for adjusting the zero and span, characterized in that configured to include. 3. The method of claim 2, The digital signal processing unit 200, When operating in the zero point setting mode, the calculated zero-pressure partial pressure ratio value is transmitted to the zero point adjusting unit 120 and the amplification value of the span adjusting unit 130 is set to "0". Check if the span correction analog signal value of 130) becomes "0", and if it does not become "0", change the value of the partial pressure ratio for zero control and estimate the zero voltage partial ratio for estimating to "0". Save the control partial pressure ratio value, When operating in the span setting mode, the zero pressure control partial pressure ratio value stored in the zero setting mode is transmitted to the zero point adjusting unit 120, and the calculated span control amplification value is transmitted to the span adjusting unit 130. Check whether the value of the span correction analog signal of the unit 130 becomes the input maximum output value, and if it is not the maximum output value, change the span control amplification value transmitted to the span control unit 130 to obtain the maximum output value. An analog signal correction device for adjusting the zero point and span, characterized in that for storing the estimated span control amplification value by estimating the span control amplification value. The method according to any one of claims 1 to 3, The analog signal output unit 140, An opening / closing unit 142 for selectively outputting a span correction analog signal output from the span adjusting unit 130 at an output terminal 143; The digital signal processor 200 detects whether the position of the variable resistor terminal of the first digital potentiometer 122 and the variable resistor terminal of the second digital potentiometer 132 are set, and if not, the open / close unit 142. Control unit operation monitoring unit (144) for operating the opening and closing unit (142) in the closed state when the operation is set to open; Analog signal correction apparatus for adjusting the zero and span, characterized in that configured to include. The method of claim 4, wherein The digital signal processing unit 200, The maximum measurement data value corresponding to the maximum output value of the analog signal output unit 140 is input through the setting key input unit 220 when operating in the span setting mode, and the maximum output value from "0" when operating in the signal correction mode. Analog signal for adjusting the zero and span, characterized in that configured to convert the span correction analog signal obtained in the range up to "0" to the measurement data value within the range from the maximum measurement data value to the display unit Compensator.

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