KR100863305B1 - Data cognition method of jump structure - Google Patents

Abstract

The present invention relates to a data recognition method for a method of selecting a model and a function by a jumper of a hardware circuit, the method comprising: scanning a jumper input a predetermined number of times, whether the jumper input data recognized every time the jumper input is high or Determining whether it is low, checking the high count number by increasing or decreasing the high count number according to whether the jumper input data is high or low, and whether the high count number is more than or less than the preset set count number. And selecting the model. In a jumper structure composed of hardware, a jumper scans a predetermined number of times and recognizes jumper input data, thereby improving the possibility of acquiring accurate data by determining a model according to the count number of jumper input data.

Air conditioner, jumper structure, data recognition, model, noise

Description

Data recognition method of jump structure

1 is a flowchart of a data recognition method in a jumper structure according to an embodiment of the present invention.

The present invention relates to a data recognition method, and more particularly, to a data recognition method for a model selection method by a jumper of a hardware circuit.

In general, a printed circuit board (PCB) used in various electronic devices is a printing method using a conductive material such as copper foil to connect each component to an insulating substrate formed of glass or synthetic resin, etc. by a circuit design. After the formation of the wiring layer, portions other than the wiring layer were removed, and an insulating film was applied on the wiring layer, and then an insulating film was removed in a component mounting area such as an element by a laser or the like to form solder lands with exposed copper foil.

Thereafter, after attaching a component such as an integrated circuit device on a printed circuit board and then connecting the component and the substrate by soldering or the like, electrical connection of the mounted component is achieved.

Such a printed circuit board includes a single-side printed circuit board (SINGLE-SIDE PRINTED CIRCUIT BOARD) having only one side of the conductor circuit, and a double-sided printed circuit board (DOUBLE (BOTH) -SIDE PRINTED CIRCUIT BOARD) having the conductor circuit on both sides thereof. It is roughly divided into a multilayer printed circuit board and the like, which are stacked by connecting a plurality of printed circuit boards.

Single-sided printed circuit boards are easy to manufacture and low in manufacturing cost, but when wiring layers cannot be formed to sequentially connect integrated circuit devices, areas where the wiring layers cross each other are generated.

In the area where the wiring layers cross each other, the wiring layers must be formed without electrical disconnection. Therefore, the printed circuit board may be used on both sides or laminated in multiple layers due to the process problems. As it becomes more and more complicated, the area | region which an interconnecting layer intersects will arise.

The intersecting area of the wiring layer disconnects the other wiring layer across the wiring layer on one side of the wiring layer on both sides, and exposes the copper foil at the front end to form solder lands and to form jumper guide grooves through the insulating substrate on the solder land portions, respectively. do.

Thereafter, a jumper (Jumper) is inserted through the jumper guide groove, and the ends thereof are soldered onto the solder lands to electrically connect the other wiring layer without a short circuit with one wiring layer.

Such jumpers are generally mounted on a printed circuit board by a jumper wire automatic insertion device or the like, which is cut into wires by a predetermined length and bent in a U-shape by a former while fixing the ends of the wires. Then, the bent end is inserted into the guide groove, and formed by soldering to the solder land.

However, a printed circuit board having a jumper may cause a problem in system control by inputting error data instead of data that should be originally selected by external or self noise generated by the hardware structure.

Accordingly, a method of recognizing correct data only when the data is the same by checking the input data three times, for example, has been disclosed.

However, even in such a method, error data or data cannot be received according to a noise pattern.

SUMMARY OF THE INVENTION The present invention has been made to improve the above-described problem, and in a jumper structure composed of hardware, a jumper scans a predetermined number of times and recognizes the jumper input data to determine the model according to the count number of the jumper input data. The purpose is to provide a recognition method.

Another object of the present invention is to improve the possibility of obtaining accurate data in a jumper structure.

The present invention devised to achieve the above object is as follows. In a jumper structure of the present invention, a method of recognizing a data includes scanning a jumper input a predetermined number of times, determining whether the jumper input data recognized each time the key input is high or low, and the jumper input data is Checking the high count number by increasing or decreasing the high count number according to whether it is high or low, and selecting a model of the air conditioner according to whether the high count number is greater than or less than a preset set count number. It features.

The set count number is 70% or more of the predetermined number of times.

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

1 is a flowchart of a data recognition method in a jumper structure according to an embodiment of the present invention.

A data recognition method in a jumper structure according to an embodiment of the present invention is to recognize jumper scan data scanned and input to a MCU (Micro Controller Unit) over a certain number of times in a conventional jumper structure and determine a specific model according to the count number. do.

In the method of recognizing data in the jumper structure according to the embodiment of the present invention, as shown in FIG. 1, a jumper scan is performed to check whether a jumper is input (S10).

At this time, when jumper input data is input by a jumper scan, it is determined whether this jumper input data is high or low (S20-S30).

In this case, if the jumper input data is high, the high count number is increased (S40). If the jumper input data is low, the high count number is decreased (S50).

In other words, it is determined whether the jumper input data is high or low. If the jumper input data is high, the high count number is increased.

In this way, when the high count number is increased or decreased, the high count number is checked (S60), and it is determined whether the high count number is greater than or equal to the preset set count number (S70). (S75).

Here, the set count number is preferably 70% or more of the jumper scan count, that is, the predetermined number of times.

On the other hand, if the high count number is not more than the set count number, it is determined as an arbitrary 'B model' (S80).

These processes S10 to S80 are repeatedly performed according to the number of scans according to the jumper input, and are repeatedly performed until the number of jumper scans reaches a predetermined number of times (S90).

That is, if the predetermined number of times is 30 and the basic count is 100, the value is 101 or 99 depending on whether the jumper input data is high or low in one jumper scan.

For example, when the jumper input data is all high during 30 jumper scans, the high count number is 130, and when the jumper input data is all low, the number of low counts is 70.

Therefore, the jumper scan is repeated a predetermined number of times, and the high count number is repeated, for example, 121 times or more, or the second count number is repeated while repeating the process of increasing or decreasing the high count number according to the jumper input data. For example, depending on whether it is less than 79 times, it is determined as an A model or a B model, respectively.

In addition, each model can be determined according to whether the high count number is equal to or greater than the set count number by scanning the jumper input by the predetermined number of times and scanning the jumper input by the number of times.

For reference, the present embodiment has been described as an example of determining a model of an air conditioner when power is input. However, the present invention is not limited thereto, and the technical concept of the present invention will include selection of a function such as an operation mode of the air conditioner.

The present invention is not limited to the above-described embodiments and can be carried out in various modifications within the scope of the technical idea of the present invention.

According to the present invention configured as described above, it is possible to improve the possibility of acquiring accurate data by judging a jumper at a predetermined number of times in a hardware structured jumper structure and recognizing jumper input data to determine a model according to the count number of jumper input data. You can.

Claims (2)

Scanning a jumper input a predetermined number of times; Determining whether the jumper input data recognized each time the jumper input is high or low; Checking the high count number by increasing or decreasing a high count number depending on whether the jumper input data is high or low; And And selecting a model of the air conditioner according to whether the high count number is more than or less than a preset number of preset counts. The method of claim 1, wherein the set count number is 70% or more of the predetermined number of times.

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