KR20230116423A - Circuit for checking multiple squibs of dual structure with common signals and operating method thereof - Google Patents

Abstract

An object of the present invention is to check a plurality of redundant structure ignition elements that enable common use of a pin allocated to an inspection command signal and a pin allocated to a status signal used to automatically check ignition elements of a redundant structure composed of two resistors. To provide a common signal circuit and its operating method for
In order to achieve the above object, the common signal circuit for checking a plurality of redundant structure ignition elements according to the present invention includes N ignition elements (where N is a positive integer of 2 or more) redundant with resistance 1 and resistance 2 A common signal circuit for checking a plurality of redundant structure ignition elements, comprising: N resistance 1 checking units for checking resistance 1 provided in each ignition element; N resistance 2 inspection units for inspecting resistance 2 provided in each ignition element; A resistor 1 check command signal is output to the N resistor 1 checkers through a first pin, a resistor 2 check command signal is output to the N resistor 2 checkers through a second pin, and the resistance 2 check command signal is output through the other N pins. It is characterized in that it includes; an input/output communication unit that receives state information from each of the resistance 1 inspection units and the N resistance 2 inspection units.

Description

Common signal circuit for checking multiple redundant structure ignition elements and its operating method

The present invention relates to a common signal circuit for inspecting a plurality of redundant structure ignition elements and a method of operating the same, and more particularly, pins and status signals assigned to inspection command signals used when checking ignition elements of a plurality of redundant structures. It relates to a common signal circuit for checking a plurality of redundant structure ignition elements and a method of operating the same so that the pins allocated to can be shared and used.

In general, a guided weapon is a weapon system that launches an unmanned aerial vehicle equipped with a warhead and induces it to hit a designated target.

These guided weapons are manufactured for one-time missions, and are ignition elements of pyrotechnics that can generate large forces with a small amount of gunpowder for required driving such as main wing deployment / tail wing deployment / valve opening / closing / stage separation during flight. use a lot

If even one of the ignition elements fails to operate, the guided weapon fails to perform its mission due to failure of flight mechanisms such as stage separation, main/tail wing deployment, and engine ignition failure.

Therefore, when inspecting a guided weapon, it is necessary to inspect the ignition element.

The ignition element has two double resistors, which are heat sources for burning gunpowder for reliability.

As a way to check this, measure the resistance between each of the A/B/C/D pins made of a double structure, and if the measured resistance value is usually within 0.8Ω to 1.2Ω, it has a normal or higher resistance value, or a disconnection or In case of a short circuit, it is judged as defective and replaced.

The ignition element is gunpowder, and if a person directly measures the resistance between pins, there is a risk of human injury in the event of an explosion with gunpowder. It is impossible to measure

Conventionally, in order to solve this problem, an automatic inspection method is introduced to measure the resistance of the ignition element or check whether it is disconnected.

The automatic inspection of the ignition element measures the resistance of the ignition element with a low current controlled by the command of the inspection equipment, and displays the result on the screen of the inspector's terminal.

Therefore, automatic inspection of the ignition element is very safe, and there is a great advantage in that continuous inspection is possible even after being mounted on the guided weapon.

Conventionally, when performing automatic inspection of ignition elements, an inspection command signal and a status signal are used for each ignition element. As shown in FIG. 1, one pin for receiving the inspection command signal per ignition element, status from the redundant heat source resistor Two pins are required to receive signals, for a total of three pins.

Accordingly, assuming that the number of ignition elements is N, a total of 3N pins are required, and the number of ignition elements increases in proportion to the increase in the number of pins.

Due to the proportionally increased number of pins, the number of patterns in the ignition device inspection circuit board increases, and the connector for input/output increases.

As such, conventionally, there are problems in that the number of pins increases in proportion to the number of ignition elements, resulting in a large number of board patterns and an increase in the size of equipment due to a large input/output connector, which can increase the price of inspection equipment.

Republic of Korea Registered Patent Publication No. 10-0780807 (Announcement Date 2007.11.30.)

An object of the present invention for solving the conventional problems as described above is to enable common use of a pin assigned to a check command signal and a pin assigned to a status signal used when checking an ignition element of a plurality of redundant structures. It is to provide a common signal circuit and its operating method for checking a plurality of redundant structure ignition elements.

In order to achieve the above object, the common signal circuit for checking a plurality of redundant structure ignition elements according to the present invention includes N ignition elements (where N is a positive integer of 2 or more) redundant with resistance 1 and resistance 2 A common signal circuit for checking a plurality of redundant structure ignition elements, comprising: N resistance 1 checking units for checking resistance 1 provided in each ignition element; N resistance 2 inspection units for inspecting resistance 2 provided in each ignition element; A resistor 1 check command signal is output to the N resistor 1 checkers through a first pin, a resistor 2 check command signal is output to the N resistor 2 checkers through a second pin, and the resistance 2 check command signal is output through the other N pins. It is characterized in that it includes; an input/output communication unit that receives state information from each of the resistance 1 inspection units and the N resistance 2 inspection units.

In addition, in the common signal circuit for inspecting a plurality of redundant structure ignition elements according to the present invention, the input/output communication unit outputs a resistance 1 inspection command signal and a resistance 2 inspection command signal according to an inspection request received from an external inspection device, , It is characterized in that the state information received from each inspection unit is transmitted to the inspection device.

In addition, in the common signal circuit for checking a plurality of redundant structure ignition elements according to the present invention, the N resistance 1 inspection units are connected in parallel to the first pin of the input/output communication unit through a resistance 1 inspection command signal line. do.

In addition, in the common signal circuit for checking a plurality of redundant structure ignition elements according to the present invention, the N resistance 2 inspection units are connected in parallel to the second pin of the input/output communication unit through a resistance 2 inspection command signal line. do.

In addition, in the common signal circuit for inspecting a plurality of redundant structure ignition elements according to the present invention, each of the N resistance 1 inspection units inspects the connected resistance 1 according to the resistance 1 inspection command signal received from the input/output communication unit. and outputting the state information of the resistance 1 to the input/output communication unit by setting a state value according to the inspection result.

In addition, in the common signal circuit for inspecting a plurality of redundant structure ignition elements according to the present invention, each of the N resistance 2 inspection units inspects the resistance 2 connected according to the resistance 2 inspection command signal received from the input/output communication unit. And, it is characterized in that a state value is set according to the inspection result, and state information of the resistance 2 is output to the input/output communication unit.

In addition, in the common signal circuit for checking a plurality of redundant structure ignition elements according to the present invention, the N resistance 1 inspection units and the N resistance 2 inspection units form one pair for each ignition element, and one pair for each ignition element. The resistance 1 inspection unit and the resistance 2 inspection unit constituting are connected in parallel to the N pins provided in the input/output communication unit through state information lines for each ignition element.

In addition, in order to achieve the above object, the common signal circuit for checking a plurality of redundant structure ignition elements according to the present invention includes N (where N is a positive integer of 2 or more) redundant with resistance 1 and resistance 2 In the common signal circuit for checking a plurality of redundant structure ignition elements for checking ignition elements, N resistance 1 inspection units for checking resistance 1 provided in each ignition element; N resistance 2 inspection units for inspecting resistance 2 provided in each ignition element; After outputting a resistance 1 inspection command signal to the N resistance 1 inspection units through a first pin, outputting a resistance 2 inspection command signal to the N resistance 2 inspection units through a second pin at a predetermined time interval, and an input/output communication unit that receives state information from the N resistance 1 inspection units and the N resistance 2 inspection units through the number of pins.

In addition, in the common signal circuit for inspecting a plurality of redundant structure ignition elements according to the present invention, the input/output communication unit outputs a resistance 1 inspection command signal according to an inspection request received from an external inspection device, and then sets a preset time difference. It is characterized in that it outputs a resistance 2 inspection command signal and transmits state information received from each inspection unit to the inspection device.

In addition, in the common signal circuit for checking a plurality of redundant structure ignition elements according to the present invention, the N resistance 1 inspection units are connected in parallel to the first pin of the input/output communication unit through a resistance 1 inspection command signal line. do.

In addition, in the common signal circuit for checking a plurality of redundant structure ignition elements according to the present invention, the N resistance 2 inspection units are connected in parallel to the second pin of the input/output communication unit through a resistance 2 inspection command signal line. do.

In addition, in the common signal circuit for checking a plurality of redundant structure ignition elements according to the present invention, the N resistance 1 inspection units and the N resistance 2 inspection units form one pair for each ignition element, and one pair for each ignition element. The resistance 1 inspection unit and the resistance 2 inspection unit constituting are connected in parallel to the N pins provided in the input/output communication unit through state information lines for each ignition element.

In addition, in order to achieve the above object, a method for operating a common signal circuit for checking a plurality of redundant structure ignition elements according to the present invention is N duplicated with resistance 1 and resistance 2 (where N is a positive integer of 2 or more) ) A common signal circuit operating method for checking a plurality of redundant structure ignition elements for checking ignition elements, comprising the steps of: receiving an inspection request from an external inspection device by an input/output communication unit; outputting a resistance 1 inspection command signal to the N resistance 1 inspection units through a first pin and outputting a resistance 2 inspection command signal to the N resistance 2 inspection units through a second pin, according to the inspection request; Receives status information indicating the state of resistance from N resistance 1 inspection units that inspect resistance 1 according to the resistance 1 inspection command signal and N storage 2 inspection units that inspect resistance 2 according to the resistance 2 inspection command signal step; and transmitting state information received from the N resistance 1 inspection units and the N resistance 2 inspection units, respectively, to the inspection device.

In addition, in the common signal circuit operation method for inspecting a plurality of redundant structure ignition elements according to the present invention, each of the N resistance 1 inspection units is connected according to the resistance 1 inspection command signal received from the input/output communication unit. is inspected, and a state value is set according to the inspection result, and state information of resistance 1 is output to the input/output communication unit, and each of the N resistance 2 inspection units connects the resistance 2 inspection command signal received from the input/output communication unit. It is characterized in that it further comprises: checking the resistor 2, setting a state value according to the check result, and outputting state information of the resistor 2 to the input/output communication unit.

In addition, in order to achieve the above object, a method for operating a common signal circuit for checking a plurality of redundant structure ignition elements according to the present invention is N duplicated with resistance 1 and resistance 2 (where N is a positive integer of 2 or more) ) A common signal circuit operating method for checking a plurality of redundant structure ignition elements for checking ignition elements, comprising the steps of: receiving an inspection request from an external inspection device by an input/output communication unit; outputting a resistance 1 inspection command signal to N resistance 1 inspection units through a first pin according to the inspection request; After outputting the resistance 1 inspection command signal, outputting a resistance 2 inspection command signal to N resistance 2 inspection units through a second pin at a preset time interval; receiving state information indicating a state of the resistance 1 from N resistance 1 inspection units that have inspected the resistance 1 according to the resistance 1 inspection command signal; After receiving state information of resistance 1 from the N resistance 1 inspection units, receiving state information indicating the state of resistance 2 from N storage 2 inspection units that inspect resistance 2 according to a resistance 2 inspection command signal. ; and transmitting state information of resistance 1 received from the N resistance 1 inspection units and resistance 2 status information received from the N resistance 2 inspection units to the inspection device.

In addition, in the common signal circuit operation method for inspecting a plurality of redundant structure ignition elements according to the present invention, each of the N resistance 1 inspection units is connected according to the resistance 1 inspection command signal received from the input/output communication unit. Checking and outputting state information of the resistance 1 to the input/output communication unit by setting a state value according to the check result; Each of the N resistance 2 inspection units inspects the connected resistance 2 according to the resistance 2 inspection command signal received from the input/output communication unit, sets a state value according to the inspection result, and transmits state information of resistance 2 to the input/output communication unit. Step of outputting: characterized in that it further comprises.

Details of other embodiments are included in the "specific details for carrying out the invention" and the accompanying "drawings".

Advantages and/or features of the present invention, and methods of achieving them, will become apparent with reference to the various embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited only to the configuration of each embodiment disclosed below, but may also be implemented in various other forms, and each embodiment disclosed herein only makes the disclosure of the present invention complete, and the present invention It is provided to completely inform those skilled in the art of the scope of the present invention, and it should be noted that the present invention is only defined by the scope of each claim of the claims.

According to the present invention, the number of required pins can be reduced by using a pin assigned to a check command signal and a pin assigned to a status signal used to check a plurality of ignition elements of a dual structure composed of two resistors in common. A processor with a small number of input/output pins can be used, and the number of patterns on the PCB board will also be reduced.

For this reason, it is possible to miniaturize and reduce the cost of the device equipped with the ignition element checking circuit of the present invention, and even when ignition elements are added, since only as many pins allocated to status signals as the number of additional ignition elements need to be added, scalability is also achieved. It's very easy.

1 is a circuit diagram for checking an ignition device of a dual structure according to the prior art.
2 is a common signal circuit diagram for checking a plurality of redundant structure ignition elements according to the present invention.
3 is a diagram showing a signal flow of a common signal circuit for checking a plurality of redundant structure ignition elements according to an exemplary embodiment of the present invention.
4 is a processing diagram illustrating a method of operating a common signal circuit for checking a plurality of redundant structure ignition elements according to an embodiment of the present invention.
5 is a processing diagram illustrating a method of operating a common signal circuit for checking a plurality of redundant structure ignition elements according to another embodiment of the present invention.

Before explaining the present invention in detail, the terms or words used in this specification should not be construed unconditionally in a conventional or dictionary sense, and in order for the inventor of the present invention to explain his/her invention in the best way It should be noted that concepts of various terms may be appropriately defined and used, and furthermore, these terms or words should be interpreted as meanings and concepts corresponding to the technical spirit of the present invention.

That is, the terms used in this specification are only used to describe preferred embodiments of the present invention, and are not intended to specifically limit the contents of the present invention, and these terms represent various possibilities of the present invention. It should be noted that it is a defined term.

In addition, it should be noted that in this specification, singular expressions may include plural expressions unless the context clearly indicates otherwise, and similarly, even if they are expressed in plural numbers, they may include singular meanings. .

Throughout this specification, when a component is described as "including" another component, it does not exclude any other component, but further includes any other component, unless otherwise stated. It can mean you can do it.

Furthermore, when a component is described as “existing inside or connected to and installed” of another component, this component may be directly connected to or installed in contact with the other component, and a certain It may be installed at a distance, and when it is installed at a certain distance, a third component or means for fixing or connecting the corresponding component to another component may exist, and now It should be noted that the description of the components or means of 3 may be omitted.

On the other hand, when it is described that a certain element is "directly connected" to another element, or is "directly connected", it should be understood that no third element or means exists.

Similarly, other expressions describing the relationship between components, such as "between" and "directly between", or "adjacent to" and "directly adjacent to" have the same meaning. should be interpreted as

In addition, in this specification, the terms "one side", "the other side", "one side", "the other side", "first", "second", etc., if used, refer to one component It is used to be clearly distinguished from other components, and it should be noted that the meaning of the corresponding component is not limitedly used by such a term.

In addition, in this specification, terms related to positions such as "top", "bottom", "left", and "right", if used, should be understood as indicating a relative position in the drawing with respect to the corresponding component, Unless an absolute position is specified for these positions, these positional terms should not be understood as referring to an absolute position.

In addition, in this specification, in specifying the reference numerals for each component of each drawing, for the same component, even if the component is displayed in different drawings, it has the same reference numeral, that is, the same reference throughout the specification. Symbols indicate identical components.

In the drawings accompanying this specification, the size, position, coupling relationship, etc. of each component constituting the present invention is partially exaggerated, reduced, or omitted in order to sufficiently clearly convey the spirit of the present invention or for convenience of explanation. may be described, and therefore the proportions or scale may not be exact.

In addition, in the following description of the present invention, a detailed description of a configuration that is determined to unnecessarily obscure the subject matter of the present invention, for example, a known technology including the prior art, may be omitted.

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

2 is a common signal circuit diagram for checking a plurality of redundant structure ignition elements according to an embodiment of the present invention.

As shown in FIG. 2, in the apparatus 100 equipped with a common signal circuit for checking a plurality of redundant structure ignition elements according to an embodiment of the present invention, resistance, which is a heat source for burning gunpowder in the ignition elements, is resistance 1 As a device for checking a plurality of ignition elements (20-1, ..., 20-N) duplicated with resistance 2, the input/output communication unit 110, and N resistance 1 inspection units (120-1, ..., 120-N) ), and N number of resistance 2 checkers 130-1, ..., 130-N.

The input/output communication unit 110 outputs a resistance 1 inspection command signal to the N resistance 1 inspection units 120-1, ..., 120-N according to the inspection request received from the external inspection device 10, a first pin, The second pin outputs a resistance 2 inspection command signal to the N resistance 2 inspection units 130-1, ..., 130-N according to the inspection request received from the inspection device 10, the N resistance 1 inspection unit 120 -1, ..., 120-N) and N input pins (3rd to N+2 pins) that receive the state information of the resistors from the N resistance 2 inspection units 130-1, ..., 130-N, respectively. ) may be provided.

The N resistance 1 inspection units 120-1, ..., 120-N are connected one-to-one with the resistance 1 provided in each ignition element, and are used to check the state of the resistance 1 according to the resistance 1 inspection command signal. Outputs a signal to check the state of resistor 1.

Each of the N resistance 1 inspection units 120-1, ..., 120-N outputs a signal to check the state of the resistance 1 and an input pin that receives the resistance 1 inspection command signal from the input/output communication unit 110, respectively. It may include an inspection pin for receiving a resultant value and an output pin for outputting state information of resistance 1 that has undergone inspection through the input/output communication unit 110 .

The N resistance 2 inspection units 130-1, ..., 130-N are connected one-to-one with the resistance 2 provided in each ignition element, and are used to check the state of the resistance 2 according to the resistance 2 inspection command signal. Output a signal to check the status of resistor 2.

Each of the N resistance 2 inspection units 130-1, ..., 130-N outputs a signal for checking the state of the resistance 2 and an input pin that receives the resistance 2 inspection command signal from the input/output communication unit 110, respectively. It may include an inspection pin for receiving a resultant value and an output pin for outputting state information of resistance 2 that has undergone inspection through the input/output communication unit 110 .

N resistance 1 checkers 120-1, ..., 120-N may be connected in parallel to the first pin provided in the input/output communication unit 110.

That is, the input pin (the pin to which the resistance 1 inspection command signal is input) provided in each of the resistance 1 inspection units 120-1, ..., 120-N is connected to the input/output communication unit 110 through the resistance 1 inspection command signal line. It can be connected in parallel to the provided first pin (the pin from which the resistor 1 check command signal is output).

As such, as the input pins of the N number of resistance 1 checking units 120-1, ..., 120-N are connected in parallel to the first pin of the input/output communication unit 110, through the first pin of the input/output communication unit 110 Even if the resistance 1 inspection command signal is output only once, the resistance 1 inspection command signal can be applied to all N resistance 1 inspection units 120-1, ..., 120-N.

In addition, the second pin provided in the input/output communication unit 110 may be connected in parallel with N number of resistor 2 checking units 130-1, ..., 130-N.

That is, the input pin (the pin to which the resistance 2 inspection command signal is input) provided in each of the resistance 2 inspection units 130-1, ..., 130-N is connected to the input/output communication unit 110 through the resistance 2 inspection command signal line. It can be connected in parallel to the provided second pin (the pin from which the resistor 2 check command signal is output).

As such, as the input pins of the N number of resistor 2 checkers 130-1, ..., 130-N are connected in parallel to the second pin of the input/output communication unit 110, through the second pin of the input/output communication unit 110. Even if the resistance 2 inspection command signal is output only once, the resistance 2 inspection command signal can be applied to all N resistance 2 inspection units 130-1, ..., 130-N.

N resistance 1 checkers 120-1, ..., 120-N provided for each ignition element and N resistance 2 checkers 130-1, ..., 130-N provided for each ignition element are one for each ignition element. make a pair of

In this way, the resistance 1 inspection unit 120-1, ..., 120-N and the resistance 2 inspection unit 130-1, ..., 130-N forming a pair for each ignition element are provided through the state information line for each ignition element. Each of the N input pins provided in the input/output communication unit 110 may be connected in parallel.

For example, an output pin provided in the resistance 1 checking unit 120-1 for checking resistance 1 of ignition element 1 (a pin outputting state information of resistance 1) and resistance 2 checking resistance 2 of ignition element 1 are checked. The output pin provided in the unit 130-1 (the pin through which the state information of the resistor 2 is output) is input through the state information line to the third pin provided in the input/output communication unit 110 (the state information of the resistor 1 and resistor 2 is input). pin) can be connected in parallel.

As such, as the output pin of the resistance 1 checking unit 120-1 and the output pin of the resistance 2 checking unit 130-1 are connected in parallel to the input pin (third pin) of the input/output communication unit 110, resistance 1 The state information of resistance 1 output from the inspection unit 120-1 and the state information of resistance 2 output from the resistance 2 inspection unit 130-1 can be received through one input pin (third pin). .

Upon receiving an inspection request from the external inspection device 10, the input/output communication unit 110 outputs a resistance 1 inspection command signal through a first pin.

The resistance 1 inspection command signal output through the first pin is input to the N resistance 1 inspection units 120-1, ..., 120-N connected in parallel through the resistance 1 inspection command signal line.

Each of the N resistance 1 inspection units 120-1, ..., 120-N receiving the resistance 1 inspection command signal through the resistance 1 inspection command signal line checks the state of the connected resistance 1.

For example, the resistance 1 checking unit 120-1 of the ignition element 1 applies a current to check the resistance 1 to the resistance 1 of the ignition element 1 according to the received resistance 1 inspection command signal, and the resultant resistance 1 By measuring the resistance value, the state of resistance 1 can be checked.

In this way, each of the resistance 1 inspection units 120-1, ..., 120-N inspecting the status of resistance 1 outputs a status signal indicating status information of resistance 1 to the input/output communication unit 110 based on the inspection result do.

At this time, each resistance 1 checking unit 120-1, ..., 120-N checks resistance 1 and if resistance 1 is normal, outputs a state signal as a high level signal of 1.75V or more, and resistance 1 As a result of checking, if resistance 1 is abnormal, the status signal can be output as a low level signal of 0.8V or less.

In addition, the input/output communication unit 110 outputs a resistance 2 inspection command signal through a second pin upon receiving an inspection request from the external inspection device 10 .

The resistor 2 check command signal output through the second pin is input to the N resistor 2 check units 130-1, ..., 130-N connected in parallel through the resistor 2 check command signal line, respectively.

The N resistance 2 inspection units 130-1, ..., 130-N receiving the resistance 2 inspection command signal through the resistance 2 inspection command signal line check the state of the connected resistance 2, respectively.

In this way, each of the resistance 2 inspection units 130-1, ..., 130-N inspecting the status of resistance 2 outputs a status signal indicating status information of resistance 2 to the input/output communication unit 110 based on the inspection result do.

The state signal of resistance 1 for each ignition element output by the N resistance 1 inspection units 120-1, ..., 120-N and the ignition output by the N resistance 2 inspection units 130-1, ..., 130-N The input/output communication unit 110 receiving the state signal of resistance 2 for each element receives N resistance 1 inspection units 120-1, ..., 120-N and N resistance 2 inspection units 130-1, ..., 130-N According to the state signal received from each N), the state information on the corresponding resistance is set as a bit value and transmitted to the external inspection device 10 through SPI (Serial Peripheral Interface) communication.

The state information received from the N resistance 1 inspection units 120-1, ..., 120-N and the N resistance 2 inspection units 130-1, ..., 130-N is transferred to the external inspection device 10. When transmitting, the input/output communication unit 110 provides identification information assigned to the N resistance 1 inspection units 120-1, ..., 120-N and the N resistance 2 inspection units 130-1, ..., 130-N, respectively. It is desirable to transmit together.

Meanwhile, the input/output communication unit 110 transmits the resistance 1 inspection command signal through the first pin when outputting the resistance 1 inspection command signal and the resistance 2 inspection command signal upon receiving an inspection request from the external inspection device 10. After the output, the resistance 2 check command signal may be output through the second pin at a predetermined time interval.

That is, as shown in FIG. 3 , when an inspection request is received from the external inspection device 10, the input/output communication unit 110 outputs a resistance 1 inspection command signal through the first pin according to the inspection request.

And, with a preset time difference, for example, a time difference of 200 ms, the resistance 2 check command signal is output through the second pin.

In this way, after outputting the resistance 1 inspection command signal, when the resistance 2 inspection command signal is output with a time difference, the resistance 1 inspection unit 120-1, ..., 120-N and the resistance 2 inspection unit 130-1 , …, 130-N) receives the inspection command signal with a time difference, so a time difference occurs even in resistance inspection.

That is, the resistance 1 inspection unit (120-1, ..., 120-N) that has received the resistance 1 inspection command signal first performs the inspection of resistance 1 first, and the resistance 2 that has received the resistance 2 inspection command signal with a time difference. The checking unit 130-1, ..., 130-N checks resistance 2 later than the resistance 1 checking unit 120-1, ..., 120-N.

Here, the time for each of the resistance checking units 120-1, ..., 120-N, 130-1, ..., 130-N to check the resistance is approximately 200 ms or less.

As such, as the resistance 1 inspection unit 120-1, ..., 120-N and the resistance 2 inspection unit 130-1, ..., 130-N perform inspection with a time difference, the resistance 1 inspection unit ( 120-1, ..., 120-N) and the resistance 2 checker (130-1, ..., 130-N) transmit the state information as a result of the resistance check to the input/output communication unit 110, a difference also occurs.

That is, after the resistance 1 inspection unit 120-1, ..., 120-N that performed the inspection outputs the state information on resistance 1, the resistance 2 inspection unit 130-1, ..., 130-N The status information for resistor 2 is output.

In this way, since the resistance 1 inspection unit 120-1, ..., 120-N and the resistance 2 inspection unit 130-1, ..., 130-N output state information at different times, the input/output communication unit 110 ) can receive state information on resistor 1 and resistor 2 through one input pin without collision.

In addition, even though the resistance 1 inspection command signal and the resistance 2 inspection command signal are output with a time difference, the dual resistance inspection can be performed within a short time, for example, 1 second.

Hereinafter, a method for operating a common signal circuit for checking a plurality of redundant structure ignition elements according to the present invention will be described.

Since the method of operating a common signal circuit for checking a plurality of redundant structure ignition elements according to the present invention is performed on substantially the same configuration as the common signal circuit for checking a plurality of redundant structure ignition elements shown in FIG. The same reference numerals are given to the same components as the common signal circuit for checking the redundant structure ignition element, and repeated descriptions will be omitted.

4 is a flowchart illustrating a method of operating a common signal circuit for checking a plurality of redundant structure ignition elements according to an embodiment of the present invention.

First, when the input/output communication unit 110 receives an inspection request to inspect the ignition element from the external inspection device 10 (S10), N resistance 1 inspection units 120-1 through the first pin according to the inspection request , …, 120-N) and outputs the resistance 2 inspection command signal to the N resistance 2 inspection units 130-1, …, 130-N through the second pin (S20). ).

The N resistance 1 inspection units 120-1, ..., 120-N receiving the resistance 1 inspection command signal through the above step S20 are connected according to the resistance 1 inspection command signal received from the input/output communication unit 110. Resistance 1 is checked, and if it is normal according to the inspection result, the state signal output to the input/output communication unit 110 is set as a high level signal and output, and if it is abnormal, it is set as a low level signal and output.

Meanwhile, the N resistance 2 inspection units 130-1, ..., 130-N receiving the resistance 2 inspection command signal through the step S20 described above, according to the resistance 2 inspection command signal received from the input/output communication unit 110, The connected resistance 2 is checked, and if normal according to the check result, the state signal output to the input/output communication unit 110 is set as a high level signal and outputted, and if it is abnormal, a low level signal is set and output.

Thereafter, the input/output communication unit 110 inspects the N resistances 1 according to the resistance 1 inspection command signal output to the N resistance 1 checkers 120-1, ..., 120-N through the first pin. According to the resistance 2 inspection command signal output to the inspection unit 120-1, ..., 120-N and the N number of resistor 2 inspection units 130-1, ..., 130-N through the second pin, resistance 2 A state signal representing the state of each resistor is received from the N number of resistor 2 checkers 130-1, ..., 130-N that have inspected (S30).

Through the above-described step S30, a state signal indicating the state of the resistance from the N resistance 1 inspection units 120-1, ..., 120-N and the N resistance 2 inspection units 130-1, ..., 130-N, respectively. The input/output communication unit 110 receiving the input sets the state information on resistance 1 and resistance 2 for each ignition element as bit values according to the received state signal and transmits them to the external inspection device 10 through SPI communication (S40). .

The external inspection device 10 that has received the status information of resistance 1 and resistance 2 duplicated for each ignition element from the input/output communication unit 110 through the above step S40 displays the received status information on the screen so that the inspector can check it. make it possible

5 is a flowchart illustrating a method of operating a common signal circuit for checking a plurality of redundant structure ignition elements according to another embodiment of the present invention.

First, when the input/output communication unit 110 receives an inspection request to inspect the ignition element from the external inspection device 10 (S110), N resistance 1 inspection units 120-1 through the first pin according to the inspection request , …, 120-N) to output the resistance 1 inspection command signal (S120).

The N resistance 1 inspection units 120-1, ..., 120-N receiving the resistance 1 inspection command signal through the above step S120 are connected according to the resistance 1 inspection command signal received from the input/output communication unit 110. Resistance 1 is checked, and if it is normal according to the inspection result, the state signal output to the input/output communication unit 110 is set as a high level signal and output, and if it is abnormal, it is set as a low level signal and output.

After outputting the resistor 1 check command signal through the step S120 described above, the input/output communication unit 110 outputs the resistor 1 check command signal, and then, at a predetermined time difference, for example, 200 ms, through the second pin, N resistors. A resistance 2 inspection command signal is output to the second inspection unit 130-1, ..., 130-N (S130).

The N resistance 2 inspection units 130-1, ..., 130-N receiving the resistance 2 inspection command signal through the above step S130 are connected according to the resistance 2 inspection command signal received from the input/output communication unit 110. Resistance 2 is checked, and if it is normal according to the inspection result, the state signal output to the input/output communication unit 110 is set as a high level signal and output, and if it is abnormal, it is set as a low level signal and output.

Thereafter, the input/output communication unit 110 checks the N resistors 1 by checking the resistors 1 according to the resistor 1 check command signal output to the N resistor 1 checkers 120-1, ..., 120-N through the first pin. State signals indicating the state of resistance 1 are received from the units 120-1, ..., 120-N (S140).

After receiving all the state information of resistor 1 from the N resistor 1 checking units 120-1, ..., 120-N through the above-described step S140, check resistor 2 according to the resistor 2 check command signal at a time difference. A state signal representing the state of the resistor 2 is received from one of the N resistor 2 checking units 130-1, ..., 130-N (S150).

Thereafter, state signals indicating the state of the resistor 1 are received from the N resistor 1 inspection units 120-1, ..., 120-N through the above-described step S140, and the N resistor 2 is input through the above-described step S150. The input/output communication unit 110, which has received state signals representing the state of resistor 2 from the inspection units 130-1, ..., 130-N, respectively, receives state information on resistor 1 and resistor 2 for each ignition element according to the received state signal. is set as a bit value and transmitted to the external inspection device 10 through SPI communication (S160).

The external inspection device 10 that has received the status information of resistance 1 and resistance 2 duplicated for each ignition element from the input/output communication unit 110 through the above step S160 displays the received status information on the screen so that the inspector can check it. make it possible

In the embodiment of the present invention, for convenience of description, after the input/output communication unit 110 outputs both the resistance 1 inspection command signal and the resistance 2 inspection command signal with a time difference, the N resistance 1 inspection units 120-1, ..., 120-N) has been described as receiving the state information of resistance 1, but the step of receiving state information of resistance 1 from the N resistance 1 inspection units 120-1, ..., 120-N is the resistance 1 check command signal. After outputting , it does not matter at what stage.

That is, the step of receiving the state information of resistance 1 from the N resistance 1 inspection units 120-1, ..., 120-N may be performed while the resistance 1 inspection command signal and the resistance 2 inspection command signal have a time difference. It may be performed while the resistor 2 check command signal is output, or may be made during the time difference between the resistor 1 check command signal and the resistor 2 check command signal and while the resistor 2 check command signal is output.

As described above, according to the present invention, the number of required pins can be reduced by using the pins assigned to the inspection command signal and the pins assigned to the status signal used when inspecting the ignition element of the dual structure having a plurality of pieces in common.

For example, when 7 ignition elements are to be inspected, 21 pins (3×7) are conventionally required, whereas according to the present invention, the number of required pins can be reduced to 9 (2+7).

In addition, as the number of required pins can be reduced, a processor with a small number of input/output interfaces can be used, and the number of patterns in the PCB board can be reduced.

For this reason, it is possible to miniaturize and reduce the cost of a device equipped with a common signal circuit for checking a plurality of redundant structure ignition devices of the present invention, and even when ignition devices are added, only the number of added ignition devices is allocated to the status signal It is also very easy to expand because you just need to add pins.

In the above, various preferred embodiments of the present invention have been described with some examples, but the description of various embodiments described in the "Specific Contents for Carrying Out the Invention" section is only exemplary, and the present invention Those skilled in the art will understand from the above description that the present invention can be practiced with various modifications or equivalent implementations of the present invention can be performed.

In addition, since the present invention can be implemented in various other forms, the present invention is not limited by the above description, and the above description is intended to complete the disclosure of the present invention and is common in the technical field to which the present invention belongs. It is only provided to completely inform those skilled in the art of the scope of the present invention, and it should be noted that the present invention is only defined by each claim of the claims.

10. Check device;
20-1, … , 20-n. ignition element,
100. Devices equipped with common signal circuits;
110. I/O communication unit,
120-1, … , 120-N. resistance 1 inspection part,
130-1, … , 130-N. resistance 2 inspection part

Claims (16)

In the common signal circuit for checking a plurality of redundant structure ignition elements for checking N ignition elements (where N is a positive integer greater than or equal to 2) dualized with resistance 1 and resistance 2,
N resistance 1 inspection units for inspecting resistance 1 provided in each ignition element;
N resistance 2 inspection units for inspecting resistance 2 provided in each ignition element;
A resistor 1 check command signal is output to the N resistor 1 checkers through a first pin, a resistor 2 check command signal is output to the N resistor 2 checkers through a second pin, and the resistance 2 check command signal is output through the other N pins. Characterized in that it includes; an input/output communication unit that receives state information from the resistance 1 inspection units and the N resistance 2 inspection units, respectively.
A common signal circuit for checking multiple redundant structure ignition elements.
According to claim 1,
The input/output communication unit,
Characterized in that the resistance 1 inspection command signal and the resistance 2 inspection command signal are output according to the inspection request received from the external inspection device, and the state information received from each inspection unit is transmitted to the inspection device.
A common signal circuit for checking multiple redundant structure ignition elements.
According to claim 1,
The N resistance 1 inspection units,
Characterized in that it is connected in parallel to the first pin of the input/output communication unit through the resistance 1 check command signal line.
A common signal circuit for checking multiple redundant structure ignition elements.
According to claim 1,
The N resistance 2 checking unit,
Characterized in that it is connected in parallel to the second pin of the input/output communication unit through the resistor 2 check command signal line.
A common signal circuit for checking multiple redundant structure ignition elements.
According to claim 1,
Each of the N resistance 1 checking units,
In accordance with the resistance 1 inspection command signal received from the input/output communication unit, the connected resistance 1 is checked, and a state value is set according to the inspection result, and state information of resistance 1 is output to the input/output communication unit. Characterized in that,
A common signal circuit for checking multiple redundant structure ignition elements.
According to claim 1,
Each of the N resistance 2 checking units,
In accordance with the resistance 2 inspection command signal received from the input/output communication unit, the connected resistance 2 is checked, and a state value is set according to the inspection result, and state information of the resistance 2 is output to the input/output communication unit. Characterized in that,
A common signal circuit for checking multiple redundant structure ignition elements.
According to claim 1,
The N resistance 1 inspection units and the N resistance 2 inspection units form one pair for each ignition element,
Resistance 1 inspection unit and resistance 2 inspection unit forming a pair for each ignition element,
Characterized in that they are connected in parallel to the N pins provided in the input/output communication unit through state information lines for each ignition element, respectively.
A common signal circuit for checking multiple redundant structure ignition elements.
In the common signal circuit for checking a plurality of redundant structure ignition elements for checking N ignition elements (where N is a positive integer greater than or equal to 2) dualized with resistance 1 and resistance 2,
N resistance 1 inspection units for inspecting resistance 1 provided in each ignition element;
N resistance 2 inspection units for inspecting resistance 2 provided in each ignition element;
After outputting a resistance 1 inspection command signal to the N resistance 1 inspection units through a first pin, outputting a resistance 2 inspection command signal to the N resistance 2 inspection units through a second pin at a predetermined time interval, An input/output communication unit that receives state information from the N resistance 1 inspection units and the N resistance 2 inspection units through the number of pins.
A common signal circuit for checking multiple redundant structure ignition elements.
According to claim 8,
The input/output communication unit,
After outputting the resistance 1 inspection command signal according to the inspection request received from the external inspection device, outputting the resistance 2 inspection command signal at a predetermined time interval, and transmitting the status information received from each inspection unit to the inspection device. characterized in that,
A common signal circuit for checking multiple redundant structure ignition elements.
According to claim 8,
The N resistance 1 inspection units,
Characterized in that it is connected in parallel to the first pin of the input/output communication unit through the resistance 1 check command signal line.
A common signal circuit for checking multiple redundant structure ignition elements.
According to claim 8,
The N resistance 2 checking unit,
Characterized in that it is connected in parallel to the second pin of the input/output communication unit through the resistor 2 check command signal line.
A common signal circuit for checking multiple redundant structure ignition elements.
According to claim 8,
The N resistance 1 inspection units and the N resistance 2 inspection units form one pair for each ignition element,
Resistance 1 inspection unit and resistance 2 inspection unit forming a pair for each ignition element,
Characterized in that they are connected in parallel to the N pins provided in the input/output communication unit through state information lines for each ignition element, respectively.
A common signal circuit for checking multiple redundant structure ignition elements.
In the common signal circuit operation method for checking a plurality of redundant structure ignition elements for checking N ignition elements (where N is a positive integer of 2 or more) dualized with resistance 1 and resistance 2,
Receiving an inspection request from an external inspection device by an input/output communication unit;
outputting a resistance 1 inspection command signal to the N resistance 1 inspection units through a first pin and outputting a resistance 2 inspection command signal to the N resistance 2 inspection units through a second pin, according to the inspection request;
Receives status information indicating the state of resistance from N resistance 1 inspection units that inspect resistance 1 according to the resistance 1 inspection command signal and N storage 2 inspection units that inspect resistance 2 according to the resistance 2 inspection command signal step;
Transmitting the state information received from the N resistance 1 inspection units and the N resistance 2 inspection units, respectively, to the inspection device;
A common signal circuit operating method for checking multiple redundant structure ignition elements.
According to claim 13,
Each of the N resistance 1 inspection units inspects the connected resistance 1 according to the resistance 1 inspection command signal received from the input/output communication unit, sets a state value according to the inspection result, and transmits the state information of resistance 1 to the input/output communication unit. outputs,
Each of the N resistance 2 inspection units inspects the connected resistance 2 according to the resistance 2 inspection command signal received from the input/output communication unit, sets a state value according to the inspection result, and transmits state information of resistance 2 to the input/output communication unit. Step of outputting: characterized in that it further comprises,
A common signal circuit operating method for checking multiple redundant structure ignition elements.
In the common signal circuit operation method for checking a plurality of redundant structure ignition elements for checking N ignition elements (where N is a positive integer of 2 or more) dualized with resistance 1 and resistance 2,
Receiving an inspection request from an external inspection device by an input/output communication unit;
outputting a resistance 1 inspection command signal to N resistance 1 inspection units through a first pin according to the inspection request;
After outputting the resistance 1 inspection command signal, outputting a resistance 2 inspection command signal to N resistance 2 inspection units through a second pin at a preset time interval;
receiving state information indicating a state of the resistance 1 from N resistance 1 inspection units that have inspected the resistance 1 according to the resistance 1 inspection command signal;
After receiving state information of resistance 1 from the N resistance 1 inspection units, receiving state information indicating the state of resistance 2 from N storage 2 inspection units that inspect resistance 2 according to a resistance 2 inspection command signal. ;
Transmitting the state information of resistance 1 received from the N resistance 1 inspection units and the state information of resistance 2 input from the N resistance 2 inspection units to the inspection device;
A common signal circuit operating method for checking multiple redundant structure ignition elements.
According to claim 15,
Each of the N resistance 1 inspection units inspects the connected resistance 1 according to the resistance 1 inspection command signal received from the input/output communication unit, sets a state value according to the inspection result, and transmits the state information of resistance 1 to the input/output communication unit. outputting;
Each of the N resistance 2 inspection units inspects the connected resistance 2 according to the resistance 2 inspection command signal received from the input/output communication unit, sets a state value according to the inspection result, and transmits state information of resistance 2 to the input/output communication unit. Step of outputting: characterized in that it further comprises,
A common signal circuit operating method for checking multiple redundant structure ignition elements.

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