KR20050122423A - Reset apparatus in test system - Google Patents

Abstract

The present invention is to automatically reset when the power supply of the inspection system, to this end, the present invention, unlike the conventional system for applying a reset signal by controlling the operation of the mechanical switch, the inspection system including a DAQ (Data Acquisition System) At the same time the power is applied, the reset signal is compared with the reference voltage and output through the comparator, and the impedance of the signal output through the transistor is reduced and provided to the logic operation unit. By providing it to the inspection system, when the power of the inspection system is supplied, a reset signal is transmitted to each circuit to automatically initialize and perform stable inspection effectively.

Description

Reset device of inspection system {RESET APPARATUS IN TEST SYSTEM}

The present invention relates to an inspection system, and more particularly, to a reset device of an inspection system suitable for performing a stable inspection by providing a reset signal for automatically initializing each circuit through the reset device in the inspection system.

As is well known, a data acquisition system (hereinafter referred to as DAQ) refers to a system that receives an analog signal from a computer, converts it into a digital signal, and analyzes the converted data according to a user's needs. It is mostly used for analyzing analog signals received through various sensors (for example, temperature, pressure, etc.), but it is also used in applications that receive and analyze voltage signals (10 V or less) output from measuring instruments or analysis equipment. It is used.

On the other hand, the DAQ system is also used in the inspection system for checking the RPM, temperature rise, power consumption of the boiler air supply fan, for example, Figure 4 is conventionally the RPM, temperature rise, power consumption of the boiler air supply fan, etc. This is a block diagram illustrating an inspection system that includes a DAQ to examine the system.

Referring to FIG. 4, the conventional inspection system includes a DAQ 402, a DAQ I / O (Input / Output) 404, a motor driver 406, a boiler air supply fan 408, a temperature sensor 410, and a resistor. It includes a measuring unit 412, RPM measuring unit 414 and the current measuring unit 416.

In addition, the inspection system for inspecting the boiler air supply fan 408 transmits a control signal to the motor driver 406 through the DAQ I / O 404 that performs input and output of the control signal to drive the boiler air supply fan. . Accordingly, when the boiler air supply fan 408 is driven, the temperature is measured through the temperature sensor unit 410 and the measured temperature data is transmitted to the DAQ 402 through the DAQ I / O 404. Here, the data provided to the DAQ 402, the resistance value measured through the resistance measuring unit 412, the RPM measured through the RPM measuring unit 414, the current value measured through the current measuring unit 416 Etc. Accordingly, the inspection system including the DAQ determines whether the boiler supply fan is good by determining the motor RPM, temperature rise, and power consumption required to drive the boiler supply fan.

Here, after performing the inspection of the boiler air supply fan, initializing each circuit of the inspection system, for example, the temperature sensor unit 110, the resistance measurement unit 112, the RPM measurement unit 114, the current measurement unit 116, and the like. The process is necessary. Initialization resets each circuit in the inspection system by operating a mechanical switch (ie, a reset switch). Here, in the event of an error in the input power supply, in order to initialize each circuit, a mechanical switch is operated to reset each circuit in the system and re-inspect the boiler supply fan.

Therefore, conventionally, after performing the inspection of the supply fan in the boiler supply fan inspection system including the DAQ, or in the event of an error in the input power supply, a mechanical switch is operated to control the operation of each circuit of the inspection system. After resetting, the inspection is re-executed, so that the user is inconvenient to control the operation of the reset switch every time the inspection is re-executed.

Accordingly, the present invention is to solve the above problems of the prior art, by providing a stable reset signal through a reset device when the power supply in the test system including the DAQ automatically initializes each circuit in the system, and the stable test It is an object of the present invention to provide a reset device of the inspection system capable of performing.

In order to achieve the above object, the present invention is a device for automatically resetting each circuit for measuring test data in a DAQ test system, a comparison unit for comparing the power supply voltage and the reference voltage and outputs the difference, and the comparison unit A reset device for an inspection system includes a transistor unit providing a signal set according to a difference, and a logic operation unit providing a reset signal for initializing the inspection system by performing a logic operation on a signal and an input signal of the transistor unit.

The above and other objects and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention described below with reference to the accompanying drawings by those skilled in the art.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Unlike the conventional method of applying a reset signal by operating a mechanical switch, the present invention compares a power supply voltage with a reference voltage through a comparator in a test system including a DAQ, and outputs a difference, according to the difference of the comparator. By providing a signal set through the transistor unit and initializing a test system by performing a logic operation on a signal and an input signal of the transistor unit through the logic operation unit, the object of the present invention can be easily achieved through such technical means.

1 is a block diagram of a test system including a reset device for automatically initializing each circuit in a system according to the present invention. The test system of the present invention includes a DAQ 102, a DAQ I / O 104, and a motor. The driving unit 106, the boiler air supply fan 108, the temperature sensor unit 110, the resistance measuring unit 112, the RPM measuring unit 114, the current measuring unit 116, and the reset device 200 are included.

Referring to FIG. 1, the DAQ 102 performs overall control of an inspection system, and includes a motor driver for inspecting a boiler supply fan 108 through a DAQ I / O 104 that performs input and output of a control signal. The control signal is transmitted to the 106 to drive the boiler air supply fan, and accordingly, the temperature data is transmitted to the DAQ I / O 104 through the temperature sensor unit 110 when the boiler air supply fan 108 is driven. Deliver and provide to DAQ (102). Here, the data provided to the DAQ 102, the resistance value measured through the resistance measuring unit 112, the RPM measured through the RPM measuring unit 114, the current value measured through the current measuring unit 116 As a result, the inspection system including the DAQ determines the quality of the boiler supply fan by determining the RPM, temperature rise, and power consumption of the boiler supply fan.

2 is a detailed circuit diagram of the reset device in the inspection system according to an embodiment of the present invention.

Referring to FIG. 2, the reset device 200 according to the present invention may include each circuit (eg, a temperature sensor part and a resistance measuring part) in a test system when a power source is input or an error of the input power source occurs according to the present invention. And a reset signal for initializing the RPM measurement unit, the current measurement unit, etc.) to the DAQ 102. The comparison unit 202 and the comparison unit 202 for comparing the power supply voltage with the reference voltage and outputting the difference. A transistor unit 204 for providing a signal set according to a difference between the transistor unit 204, a logic operation unit 208 for providing a reset signal for initializing the DAQ 102 by performing a logic operation on a signal and an input signal of the transistor unit 204, and a logic operation unit And a switch unit 206 for supplying input power to 208.

Here, the comparison unit 202 is bypassed via the capacitor C when the power supply Vcc (for example, 5V) is applied, and the power supply voltage is increased by the resistor R and the zener diode ZD. It is fixed at a constant voltage and applied to the non-inverting terminal (+) of the comparator 202a. The voltage charged in the capacitor C through the resistor R connected to the inverting terminal (-) of the comparator 202a is a reference voltage. The comparator 202a compares the voltage difference of the non-inverting terminal (+) with the voltage of the inverting terminal (-) and maintains a high level until the reference voltage charged in the capacitor C becomes a voltage of 0 to 3.8 V for the first time. Output the signal. However, when the voltage exceeds 3.8V and reaches 5V, the comparator 202a outputs a low level signal.

The transistor unit 204 prevents back EMF via the diode D connected in the forward direction to the signal output from the comparator 202, and the transistor 204a (for example, a bipolar transistor) through the rectified resistor R. Is applied to the base to turn on the transistor 204a. The output impedance is reduced by the value of the resistor R connected to the emitter of the transistor 204a to provide a stable signal to the logic calculator 208.

In addition, the switch unit 206 is also turned on to provide an input signal to the logic operation unit 208 when the inspection system is powered on.

On the other hand, the logic operation unit 208 performs a logic operation (for example, OR operation of the OR circuit) on the signal provided from the transistor unit 204 and the signal provided from the switch unit 206 to the reset terminal of the DAQ in the system. Provide a reset signal. For example, when the signal of the transistor unit 204 is high level and the signal of the switch unit 206 is low level, the OR circuit, which is the logic operation unit 208, outputs a high level reset signal.

Accordingly, the DAQ automatically initializes each circuit (eg, temperature sensor unit, resistance measurer, RPM measurer, current measurer, etc.) in the test system through a reset signal provided from the logic operator 208. can do.

Next, a stable reset signal is provided to the DAQ through a reset device of the inspection system including the DAQ having the above-described configuration to automatically initialize each circuit in the inspection system and determine whether the boiler supply fan is good. Explain the process.

3 is a flowchart illustrating a process of automatically initializing each circuit using a reset device in a test system including a DAQ according to the present invention.

Referring to Figure 3, the inspection system for determining the good quality by checking the RPM, temperature rise, power consumption, etc. of the boiler air supply fan using the DAQ in the standby mode (step 302), the boiler air supply in the DAQ 102 In order to check the fan, it is checked whether the power is turned on using input means not shown, for example, a specific key (ie, a power key) of the inspection system (step 304).

As a result of the check in the step 304, when the power of the test system is turned on, the reset device 200 includes the respective circuits (eg, temperature sensor unit, resistance measuring unit, RPM measuring unit) in the test system including the DAQ. A reset signal for initializing the current measuring unit) is provided to the DAQ 102 (step 306).

In detail, the comparison unit 202 compares the power supply voltage with the reference voltage, outputs the difference, and provides the logic operation unit 208 with the signal set by the transistor unit 204 according to the difference of the comparison unit 202. do. The logic operation unit 208 performs a logic operation on the signal of the transistor unit 204 and the input signal of the switch unit 206 to provide a reset signal for initializing the DAQ 102.

In addition, the DAQ 102 generates a control signal for initializing the respective circuits according to the reset signal provided through the temperature sensor unit 110, the resistance measurement unit 112, and the RPM measurement unit 114 through the DAQ I / O 104. In step 308, each circuit is initialized by passing it to the current measuring unit 116.

Next, the DAQ 102 transmits a motor drive control signal to the motor driver 106 through the DAQ I / O 104, and accordingly drives the motor of the boiler air supply fan 108, thereby supplying the boiler air supply. When measuring data such as temperature, RPM, resistance, current for determining the quality of the fan and providing it to the DAQ 102 through the DAQ I / O 104, the DAQ 102 determines the quality judgment of the supply fan for the boiler. Collect each data provided for the step (step 310).

Meanwhile, the DAQ 102 continuously checks whether an error occurs in the input power while collecting data (step 312), and provides a reset signal using the reset device 200 when an error occurs in the input power. After initializing the individual circuits in the system, the process of collecting data to determine whether the boiler supply fan is good or not is performed again. If no error occurs in the input power, the DAQ 102 determines whether the boiler supply fan is good or not according to the collected data (step 314).

Therefore, according to the present invention, when supplying power in a system for checking RPM, temperature, power, resistance, etc. of a boiler air supply fan, or when a power supply error occurs, a stable reset signal is provided by using a reset device. You can initialize each of the circuits in your device and make an accurate determination of the quality of the object under test.

As described above, according to the present invention, unlike the conventional method of applying a reset signal by operating a mechanical switch, the present invention automatically provides a stable reset signal using a reset device, so that the user controls the reset switch every time a test is performed again. This can prevent the inconvenience, and since the reset device automatically initializes the DAQ of the inspection system and collects data for the determination of the quality of the inspection target, it is possible to accurately determine whether the inspection target.

1 is a block diagram of an inspection system including a reset device for automatically initializing each circuit in a system in accordance with the present invention;

2 is a detailed circuit diagram of a reset device in an inspection system according to an embodiment of the present disclosure;

3 is a flowchart illustrating a process of automatically initializing each circuit using a reset device in a test system including a DAQ according to the present invention;

Figure 4 is a block diagram illustrating a test system including a DAQ to check the RPM, temperature rise, power consumption, etc. of a conventional feed fan for the boiler.

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

102: DAQ 104: DAQ I / O

106: motor drive unit 108: air supply fan for boiler

110: temperature sensor unit 112: resistance measurement unit

114: RPM measuring unit 116: current measuring unit

200: reset device 202: comparison unit

202a: comparator 204: transistor section

204a: transistor 206: switch section

208: logic operation unit

Claims (5)

The Data Acquisition System (DAQ) test system automatically resets each circuit measuring test data. A comparison unit comparing the power supply voltage with the reference voltage and outputting the difference; A transistor unit providing a signal set according to the difference of the comparison unit; A logic operation unit providing a reset signal for initializing the inspection system by performing a logic operation on the signal of the transistor unit and an input signal Reset device of the inspection system comprising a. The method of claim 1, And the comparator comprises a comparator for inputting the power supply voltage to a non-inverting terminal and inputting the reference voltage to a non-inverting terminal. The method of claim 1, And the transistor unit includes a bipolar transistor having a base connected to an output terminal of the comparator, a collector connected to the power supply voltage terminal, and an emitter connected to a ground terminal. The method of claim 3, wherein And a forward diode between the output of the comparator and the base of the transistor. The method of claim 1, And said logic calculating section is an OR circuit.