KR20220114841A - Apparatus for measuring response time - Google Patents

Abstract

The present invention relates to a response time measuring device and operating method. The response time measuring device includes: an input command detection unit for generating a command detection signal when a change in an input command for operating a target device is detected; a response output detection unit for detecting the output of the target device and generating a response detection signal when the output of the target device reaches a target level; and a response time calculation unit for storing the time when the command detection signal is received as a first time, storing the time when the response detection signal is received as a second time, and outputting the response time information based on the stored first time and second time.

Description

Response time measuring device {APPARATUS FOR MEASURING RESPONSE TIME}

The present invention relates to a response time measuring apparatus capable of measuring the response time of a target device.

In general, devices and circuits are designed to obtain an output of a target level when a target time elapses after a specific command is input. In this case, a time from when a command is input until an output of a target level can be obtained may be defined as a response time.

That is, after a specific command is input to the target device or target circuit for which the response time is to be measured, until the output of the target device reaches the target level, that is, measuring the response time is to measure the product (device or circuit). It is a very important and frequent task for design and mass production.

The simple iterative task of measuring the response time is difficult to increase the development and test period in developing a device or circuit. Therefore, it is urgent to develop a device capable of automatically measuring the response time of a target device.

An embodiment of the present invention is to provide a response time measuring apparatus capable of automatically calculating the response time of a target device.

The technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

The response time measuring apparatus according to an embodiment of the present invention includes an input command detecting unit generating a command detection signal when a change in an input command for operating a target device is detected, detecting an output of the target device, and the target device A response output detection unit that generates a response detection signal when the output of reaches the target level, and stores the time when the command detection signal is received as the first time, and the time when the response detection signal is received and a response time calculator configured to store the second time and output response time information based on the stored first time and the second time.

In an embodiment, the response time measuring apparatus includes an input command generator for generating the input command, an input command transmitter for transmitting the input command to the target device, and a response output receiver for receiving an output of the target device may further include.

In an embodiment, the input command detection unit may generate the command detection signal when the input command is higher than a preset level or when the input command is lower than a preset level.

In an embodiment, the response output detection unit may generate the response detection signal when the output of the target device reaches a target level after the input command is received.

In one embodiment, the response time calculation unit stores a time when the command detection signal is received as a first time, and stores a time when the response detection signal is received as a second time, The first time and the second time are subtracted, and if the result of the subtraction operation is within the allowable range, the subtraction operation result is output as the response time information. If the subtraction operation result exceeds the allowable range, the subtraction operation result and may output irrelevant error values.

In one embodiment, the response time calculation unit, a timer that starts a timer operation when the command detection signal is received, stops the timer operation when the response detection signal is received, and outputs from the timer when the command detection signal is received A first storage unit for receiving the time information and storing the time information as the first time, a second storage unit for receiving the time information output from the timer when the response detection signal is received and storing the time information as the second time; A calculation unit for subtracting the first and second times, a comparison unit generating comparison result information by comparing the subtraction calculation result of the calculation unit with the allowable range, and calculating the subtraction calculation result based on the comparison result information to the response time information It may include a response time output unit for outputting as or outputting the error value.

In an embodiment, the response time output unit outputs the subtraction operation result as the response time information when the comparison result information compared that the subtraction operation result is within the allowable range is received, and the subtraction operation result is the response time information. When the comparison result compared as exceeding the allowable range is received, the error value may be output.

A method of operating an apparatus for measuring response time according to another embodiment of the present invention includes: determining whether an input command is changed by detecting a change in an input command for operating a target device; A first time storage step of storing a time when it is determined that a change has occurred in the input command as a first time, a response output determination step of determining whether the output of the target device reaches a target level, the output of the target device A second time storage step of storing the time determined to have reached the target level as a second time, a response time calculation step of subtracting the first time and the second time, and a subtraction operation in the response time calculation step In the response time determining step of determining whether the result is within the allowable range or exceeding the allowable range, and in the response time determining step, if the subtraction operation result is determined to be within the allowable range, a response of outputting the subtraction operation result as the response time information It may include a time output step.

In another embodiment, in the method of operating the response time measuring apparatus, when it is determined in the response time determining step that the subtraction calculation result exceeds the allowable range, an error value is output that is irrelevant to the subtraction calculation result. It may further include an output step.

The present technology has the advantage of being able to measure the accurate response time by simply automating the repetitive task of measuring the response time of the target device, as well as shortening the development and test period.

In addition, various effects directly or indirectly identified through this document may be provided.

1 is a diagram schematically illustrating an apparatus for measuring a response time according to an embodiment of the present invention.
2 is a diagram showing the configuration of a response time measuring apparatus according to an embodiment of the present invention.
FIG. 3 is a diagram showing the configuration of a response time calculation unit of FIG. 2 .
4 is a flowchart illustrating a method of operating a response time measuring apparatus according to an embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same components are given the same reference numerals as much as possible even though they are indicated on different drawings. In addition, in describing the embodiment of the present invention, if it is determined that a detailed description of a related known configuration or function interferes with the understanding of the embodiment of the present invention, the detailed description thereof will be omitted.

In describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the elements from other elements, and the essence, order, or order of the elements are not limited by the terms. In addition, unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present application. does not

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 1 to 4 .

1 is a diagram schematically illustrating an apparatus for measuring a response time according to an embodiment of the present invention.

Referring to FIG. 1 , the response time measuring apparatus 100 according to an embodiment of the present invention transmits an input command CMD_in to the target device 200 and outputs the target device 200 according to the input command CMD_in. (RES_out) may be received.

In this case, the response time measuring apparatus 100 stores the time when the input command CMD_in is transmitted to the target device 200 as the first time, and the output RES_out received from the target device 200 is at the target level. The time when (value) is reached can be stored as the second time.

Also, the response time measuring apparatus 100 may measure the response time of the target device 200 by calculating a difference between the first time and the second time.

For example, the response time measuring apparatus 100 may include a timer, store the output of the timer as the first time when the input command CMD_in is transmitted to the target device, and operate the timer.

When the output RES_out received from the target device 200 reaches the target level, the response time measuring apparatus 100 may store the output of the timer as a second time and stop the operation of the timer. In this case, the target level may be set by a user (developer) of the response time measuring apparatus.

Thereafter, the response time measuring apparatus 100 may subtract the stored first and second times and output the calculation result as response time information.

The configuration and detailed operation description of the response time measuring apparatus 100 according to the embodiment of the present invention operating in this way are as follows.

2 is a diagram showing the configuration of a response time measuring apparatus according to an embodiment of the present invention.

As shown in FIG. 2 , the response time measuring apparatus 100 according to an embodiment of the present invention includes an input command generating unit 110 , an input command transmitting unit 120 , an input command detecting unit 130 , and a response output receiving unit ( 140 ), a response output detection unit 150 , and a response time calculation unit 160 .

The input command generator 110 may generate an input command CMD_in for requesting a specific operation from the target device 200 according to a user's setting.

The input command transmitter 120 may transmit the input command CMD_in generated from the input command generator 110 to the target device 200 .

The input command detection unit 130 may detect the input command CMD_in generated from the input command generation unit 110 to generate a command detection signal C_d.

For example, when the input command CMD_in is an analog type, the input command detection unit 130 generates a command detection signal ( C_d) may be generated and provided to the response output sensing unit 150 and the response time calculating unit 160 .

In addition, when the input command CMD_in is a digital type, the input command detection unit 130 generates a command when the input command CMD_in transitions from the high level to the low level or when the input command CMD_in transitions from the low level to the high level. The detection signal C_d may be generated and provided to the response output detection unit 150 and the response time calculation unit 160 .

That is, the input command detection unit 130 detects a change in the input command CMD_in determined to be capable of operating the target device 200 to generate a command detection signal C_d, and the generated command detection signal C_d. may be provided to the response output detecting unit 150 and the response time calculating unit 160 .

The response output receiving unit 130 may receive the output RES_out of the target device 200 according to the input command CMD_in.

The response output detection unit 150 may generate the response detection signal R_d based on the command detection signal C_d and the output RES_out of the target device 200 .

For example, the response output detection unit 150 generates a response detection signal R_d when the output RES_out of the target device 200 reaches a target level set by the user after the command detection signal C_d is received. can do.

In this case, the target level set by the user may include a tolerance. For example, assuming that the tolerance for a device or circuit designed to output a voltage of 10 volts is 5 percent (%), the response output detection unit 150 detects the command detection signal C_d after receiving the target device ( When the output RES_out of 20) reaches 9.5 volts, a response detection signal R_d may be generated.

The response time calculator 160 may calculate the response time of the target device 200 based on the command detection signal C_d and the response detection signal R_d and output it as response time information Res_t.

For example, the response time calculator 160 stores the time when the command detection signal C_d is received as the first time, and stores the time when the response detection signal R_d is received as the second time. And, the response time information Res_t may be generated by subtracting the first time and the second time.

The configuration of the response time calculator 160 will be described with reference to FIG. 3 as follows.

FIG. 3 is a diagram showing the configuration of a response time calculation unit of FIG. 2 .

Referring to FIG. 3 , the response time calculation unit 160 includes a timer 161 , a first storage unit 162 , a second storage unit 163 , an operation unit 164 , a response time output unit 165 , and a comparison unit. (166).

The timer 161 may start a timer operation when the command detection signal C_d is received, and stop the timer operation when the response detection signal R_d is received.

For example, the timer 161 may be implemented as a counter, and when the command detection signal C_d is received, it counts a signal that periodically transitions, that is, the clock, and when the response detection signal R_d is frequent, the counting operation is stopped. can In this case, the timer 161 may output the counted result as time information T_inf in the form of a code.

The first storage unit 162 stores the time information T_inf when the command detection signal C_d is received, and provides the stored time information T_inf as the command input time information C_int to the operation unit 164. can

The second storage unit 163 stores the time information T_inf when the response detection signal R_d is received, and provides the stored time information T_inf as the output time information R_outt to the operation unit 164. have.

The operation unit 164 subtracts the command input time information C_int and the output time information R_outt provided from the first and second storage units 162 and 163 , and outputs the operation result information C_R to the response time output unit 165 and the comparison unit 166 may be provided.

The response time output unit 165 outputs the operation result information C_R as the response time information Res_t based on the comparison result information Com provided from the comparison unit 166 or is independent of the operation result information C_R. The error value set by the user can be output as response time information (Res_t).

For example, when the response time output unit 165 receives the comparison result information Com indicating that the calculation result information C_R is within the allowable range, the response time output unit 165 outputs the calculation result information C_R as the response time information Res_t, and the operation When the comparison result information Com indicating that the result information C_R exceeds the allowable range is received, an error value may be output as response time information Res_t.

The comparison unit 166 may generate comparison result information Com by comparing the operation result information C_R with the allowable range set by the user.

For example, the comparison unit 166 compares whether the operation result information C_R is within the allowable range or the operation result information C_R exceeds the allowable range, and outputs the comparison result as the comparison result information Com. have.

An operation of the apparatus for measuring response time according to an embodiment of the present invention configured as described above will be described as follows.

The input command CMD_in generated from the input command generator 110 may be transmitted to the target device 200 through the input command transmitter 120 .

At this time, the input command detection unit 130 detects an input command CMD_in for the target device 200 to perform a specific operation, that is, changes the input command CMD_in that is determined to be able to operate the target device 200 . can detect

The input command detection unit 130 may generate a command detection signal C_d when a change in the input command CMD_in capable of operating the target device is detected.

The response time calculator 160 may store the time when the command detection signal C_d is received as the first time, that is, the command input time information C_int.

After the input command CMD_in is transmitted to the target device 200 , the output RES_out of the target device 200 may be received by the response output receiving unit 140 .

The response output detection unit 150 may generate a response detection signal R_d when the output RES_out of the target device 200 reaches a target level including a tolerance after the command detection signal C_d is received. .

That is, the response output detection unit 150 may generate the response detection signal R_d when it is detected that the output RES_out of the target device 200 is equal to or greater than the target level after the command detection signal C_d is received.

The response time calculator 160 may store the time when the response detection signal R_d is received as the second time, that is, the output time information R_outt.

The response time calculator 160 may generate response time information Res_t by subtracting the stored command input time information C_int and output time information R_outt.

For example, the stored input time information (C_int) and the output time information (R_outt) are information in a code form, the stored input time information (C_int) has a code value of (0,0,0,1), and the stored output Assuming that the time information R_outt has a code value of (1,1,0,1), the response time calculation unit 160 calculates the response time information (1,1,0,0) having a code value of (1,1,0,0) Res_t) can be created.

Also, referring to FIG. 3 showing the configuration of the response time calculator 160, if it is assumed that the timer 161 counts based on a clock that transitions 10 times per second, every time the clock transitions once Since the time of 0.1 second has elapsed, the target device 200 having the response time information Res_t of (1,1,0,0) has a clock transition 12 times (12*0.1 seconds) after receiving the input command CMD_in. = 1.2 sec), it can be judged that the output reaches the target level.

In addition, the response time calculation unit 160 outputs the calculated response time information Res_t when the response time information Res_t is within the allowable range, and when it is determined that the response time information Res_t exceeds the allowable range, an error value can be printed out.

As such, the response time measuring apparatus 100 according to an embodiment of the present invention may automatically calculate a response time from when an input command is received to the target device until the output of the target device reaches a target level.

An operation method of the apparatus for measuring response time according to an embodiment of the present invention configured as described above will be described with reference to FIG. 4 .

4 is a diagram illustrating a flowchart for explaining a method of operating an apparatus for measuring response time according to an embodiment of the present invention.

Referring to FIG. 4 , the operation method of the apparatus for measuring response time according to an embodiment of the present invention includes determining whether an input command has changed (S1), a first time storing step (S2), a response output determining step (S3), and a second It may include a time storage step (S4), a response time calculation step (S5), a response time determination step (S6), a response time output step (S7), and an error value output step (S8).

The step of determining whether the input command has changed ( S1 ) may include determining a change of the input command CMD_in capable of operating the target device 200 .

If it is determined that the input command (CMD_in) capable of operating the target device 200 is transmitted to the target device 200 in the determination of whether the input command has changed (S1), the first time storage step (S2) is performed. can be performed

On the other hand, if it is determined that the input command CMD_in capable of operating the target device 200 is not transmitted to the target device 200 in the determination of whether the input command is changed (S1), the input command CMD_in is changed. Until the input command change determination step (S1) may be continuously performed.

In the first time storage step S2, a time when a change in the input command CMD_in for operating the target device 200 occurs in the input command change determination step S1 may be stored as the first time. .

The response output determination step S3 may include determining an output change of the target device 200 after the input command CMD_in is transmitted to the target device 200 .

For example, the response output determining step S3 may include determining whether the output RES_out of the target device 200 has reached a target level (value) including a tolerance ( S3 ).

If the output RES_out of the target device 200 reaches the target level in the response output determination step S3 , that is, the target level is higher than the target level (Yes), the second time storage step S4 may be performed.

On the other hand, if the output RES_out of the target device 200 in the response output determination step S3 reaches the target level, that is, if it is less than the target level (No), the response output determination step S3 may be continuously performed. have.

The second time storage step S4 may include storing a time when the output RES_out of the target device 200 reaches the target level as the second time in the response output determination step S3 .

The response time calculation step S5 is a step performed after the second time storage step S4 , and may include subtracting the stored first time and the second time.

That is, in the response time calculation step S5 , the time when the input command CMD_in for operating the target device 200 is transmitted to the target device 200 and the output RES_out of the target device 200 are the targets. It may include performing a subtraction operation with respect to the time when the level is reached.

The response time determination step S6 may include determining whether the response time of the target device 200 is within an allowable range or exceeds the allowable range as a result of the subtraction operation in the response time calculation step S5 .

If it is assumed that the allowable range is 10, if the result of the subtraction operation in the response time determination step S6 is 9, that is, if the response time of the target device 200 is within the allowable range (Yes), the response time output step S7 ) can be performed.

On the other hand, if it is assumed that the allowable range is 10, when the result of the subtraction operation in the response time determination step S6 is 11, that is, when the response time of the target device 200 exceeds the allowable range (No), the error value output step (S8) may be output.

In the response time output step S7, when it is determined that the result of the subtraction operation in the response time calculation step S5 is within the allowable range in the response time determination step S6, the result of the subtraction operation is output as response time information Res_t. may include steps.

In the error value output step S8, when it is determined that the result of the subtraction operation in the response time calculation step S5 exceeds the allowable range in the response time determination step S6, an error value independent of the result of the subtraction operation is output. may include steps.

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains.

Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed by the following claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

Claims (9)

an input command detection unit configured to generate a command detection signal when a change in an input command for operating a target device is detected;
a response output detection unit sensing an output of the target device and generating a response detection signal when the output of the target device reaches a target level; and
store a time when the command detection signal is received as a first time, store a time when the response detection signal is received as a second time, and respond based on the stored first time and the second time a response time calculator for outputting time information;
A response time measurement device comprising a.
The method according to claim 1,
an input command generator for generating the input command;
an input command transmitting unit for transmitting the input command to the target device; and
Response time measuring apparatus, characterized in that it further comprises a response output receiving unit for receiving the output of the target device.
The method according to claim 1,
The input command detection unit,
Response time measuring apparatus, characterized in that generating the command detection signal when the input command is higher than a preset level or when the input command is lower than a preset level.
The method according to claim 1,
The response output detection unit,
and generating the response detection signal when the output of the target device reaches a target level after the input command is received.
The method according to claim 1,
The response time calculation unit,
The time when the command detection signal is received is stored as a first time, the time when the response detection signal is received is stored as a second time, and the stored first time and the second time are subtracted. ,
If the result of the subtraction operation is within the allowable range, the result of the subtraction operation is output as the response time information,
If the result of the subtraction operation exceeds the allowable range, an error value irrelevant to the result of the subtraction operation is output.
6. The method of claim 5,
The response time calculation unit,
A timer that starts a timer operation when the command detection signal is received and stops the timer operation when the response detection signal is received;
a first storage unit for receiving the time information output from the timer when the command detection signal is received and storing the time information as the first time;
a second storage unit for receiving the time information output from the timer when the response detection signal is received and storing the time information as the second time;
a calculating unit for subtracting the first and second times;
a comparison unit that compares the subtraction operation result of the operation unit with the allowable range to generate comparison result information; and
and a response time output unit for outputting the subtraction operation result as the response time information or outputting the error value based on the comparison result information.
7. The method of claim 6,
The response time output unit,
When the comparison result information compared that the subtraction operation result is within the allowable range is received, the subtraction operation result is output as the response time information,
and outputting the error value when the comparison result compared that the subtraction operation result exceeds the allowable range is received.
determining whether an input command has changed for detecting a change in an input command for operating a target device;
a first time storage step of storing a time when it is determined that a change has occurred in the input command as a first time;
a response output determination step of determining whether the output of the target device has reached a target level;
a second time storage step of storing a time when it is determined that the output of the target device reaches the target level as a second time;
a response time calculation step of subtracting the first time and the second time;
a response time determination step of determining whether a result of the subtraction operation in the response time calculation step is within an allowable range or exceeds the allowable range; and
and a response time output step of outputting the subtraction calculation result as the response time information when it is determined in the response time determination step that the subtraction calculation result is within the allowable range.
9. The method of claim 8,
The operation of the response time measuring apparatus according to claim 1, further comprising an error value output step of outputting an error value irrelevant to the subtraction calculation result when it is determined in the response time determination step that the subtraction calculation result exceeds the allowable range Way.

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