KR920007147B1 - Telemetering circuit and method - Google Patents

Abstract

The telemetering data transmitted from meters are multiplexed and processed by an interrupt signal. The circuit includes a second a n-th buffer (STL2-STLn) for buffering the telemetering data and for multiplexing the telemetering data to generate interrupt signal when the telemetering data occurs, a first buffer (STL1) for sending the interrupt signal to a CPU, and a decoder (DEC) for decoding address signal transmitted from a CPU to generate output enable signal to be transmitted to buffers.

Description

Metering Data Processing Circuit and Method by Multiple Interrupts

1 is a circuit diagram according to the present invention.

2 is a flow chart in accordance with the present invention.

The present invention relates to a meter reading data processing circuit by an interrupt generated in a predetermined meter reading unit in a telemetering system, and in particular, multiplexes data generated from a plurality of input sources to generate a single interrupt signal and generates an interrupt signal. The present invention relates to a reading data processing circuit and method by multiple interrupts which can be driven in a normal state to read reading data.

In general, the telemetering system is designed to read the usage of water, gas, electricity, and the like in each home at a center supplying remote water, gas, and electricity without a meter reader.

In the telemetering system, one meter interface unit is provided to control each meter indicating usage of water, gas, electricity, etc. in each household. If several households live in rent, rent, etc., or if they are collective houses such as apartments, the number of meter interface units will be installed in proportion to this. In fact, the processing power of the processor (central processing unit) or memory device (ROM, RAM) inside the M interface unit can be processed more than that. However, since it does not use all of them as above, the cost of telemetering system and service per household is high. There was an increasing defect.

Accordingly, an object of the present invention is to provide a method for efficiently processing multiple meter reading data by generating one interrupt signal after multiplexing input data of a predetermined meter reading unit from each meter input source.

Another object of the present invention is to provide a circuit that can reduce the meter interface unit in the group-type furniture and the multi-family assembly by addressing and processing the interrupt signal generated by multiplexing the multiple inputs at a predetermined ratio.

It is still another object of the present invention to provide a circuit which can reduce power consumption by leaving the meter interface unit idle when there is no data for meter reading.

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

으로 1가옥 또는 소정의 집합 가옥의 검침용 데이타 발생에 따른 인터럽트신호를 발생하는 제1버퍼(STL1)와, 상기 중앙처리장치(CPU)의 어드레스 버스(ADD)와 연결되어 입력되는 어드레스 신호를 디코딩하여 상기 제1-n버퍼 (STL1-STLn)의 출력 인에이블

을 발생하는 디코더 (DEC)로 구성된다.FIG. 1 is a circuit diagram according to the present invention, and includes a central processing unit (CPU) for storing data generated by meter reading at an meter interface unit from time to time and outputting the stored meter reading data when a meter reading value is requested at each center. And a reading data generator (DSC) connected to an output terminal for sharing an address / data bus (ADD / DATA) from the central processing unit (CPU) and inputting reading data in a predetermined unit. And a second buffer (STL2-STLn) for generating the interrupt signal according to the data generation of each household by buffering the metering data and multiplexing, and the second buffer-n buffer (STL2-). STLn) buffers the interrupts generated at the same time and multiplexes them, thereby interrupting the CPU

A first buffer STL1 for generating an interrupt signal according to generation of meter reading data of a single house or a predetermined set of houses, and an address signal connected to an address bus ADD of the CPU. Enable output of the first-n buffers STL1-STLn

It consists of a decoder (DEC) that generates the.

2 is a flow chart according to the present invention, the first process of returning to the normal state with the interrupt signal from the interrupt data in accordance with the generation of the metering data, and reading the interrupt data in the normal state of the first process for the meter reading unit A second step of checking whether or not a plurality of interrupts are generated according to the occurrence of the plurality of data, and when the plurality of interrupts are not generated in the second process, the corresponding reading data is inputted and stored and serviced, and the interrupt data is interrupted according to the reading data generation A third step of checking generation, a fourth step of storing a plurality of interrupt generation data at a time in the second step, and sequentially reading and processing data from the low-measure house reading data, and the fourth step stored in the fourth step After reading all meter reading data by interrupt occurrence data, The fifth step is to read the data and complete the processing if there is no occurrence and return to the idle state.

Predetermined usage data for meter reading in water, gas, and electricity meta is stored in the 2nd-n buffers (STL1-STLn) by pulses when generated.

으로 인터럽트 신호가 발생되어 제1버퍼(STL1)에 저장된다. 또한 상기한 바와같이 제1버퍼 (STL1)에서도 인터럽트단

으로 인터럽트신호가 발생되어 중앙처리장치(CPU)에 인터럽트를 걸시 중앙처리장치(CPU)는 제2도의 (2a)과정에서와 같이 휴지 상태 (IDLE MODE)에서 정상 상태로 환원된다. 상기 중앙처리장지(CPU)가 상기(2a)에서와 같이 정상상태로 되면 어드레스단(ADD)으로 소정의 어드레스 신호를 발생시키고 이를 디코더(DEC)에서 디코딩 시켜 제1버퍼(STL1)의 출력 인에이블단

의 신호를 발생하여 상기 제1버퍼(STL1)를 인에이블하고, 어드레스 버스와 데이타 버스를 공유하는(버스 ADD/DATA)로 제1버퍼(STL1)의 기저장된 인터럽트 데이타를 중앙처리장치(CPU)의 연결된 버스(ADD/DATA)의 데이타 버스를 통해(2b)과정에서 읽어 들인다.Interrupt stage simultaneously with storing in the second-n buffer STL2-STLn

An interrupt signal is generated and stored in the first buffer STL1. In addition, as described above, the interrupt stage in the first buffer STL1.

When the interrupt signal is generated to interrupt the CPU, the CPU is reduced from the idle mode to the normal state as in the process (2a) of FIG. When the CPU goes to the normal state as in (2a), a predetermined address signal is generated to the address terminal ADD and decoded by the decoder DEC to enable the output of the first buffer STL1. only

Generates a signal to enable the first buffer (STL1), share the address bus and the data bus (bus ADD / DATA) to the pre-stored interrupt data of the first buffer (STL1) CPU (CPU) Read in the process (2b) through the data bus of the connected bus (ADD / DATA).

The CPU analyzes the interrupt data and checks whether a plurality of interrupt data have been input in step 2c.

의 출력 인에이블신호를 인가하고 버스(ADD/DATA)로 상기 제2버퍼(STL2)에 저장된 검침용 데이타를 중앙처리장치(CPU)로 읽어간다.In the case of (2c), the interrupt data temporary central processing unit (CPU) generated through the second buffer (STL2), for example, applies a predetermined address signal to the decoder DEC to decode. Output Enable Stage of Second Buffer (STL2)

The output enable signal is applied to read the reading data stored in the second buffer (STL2) to the central processing unit (CPU) by the bus (ADD / DATA).

The central processing unit (CPU) stores the meter reading data in a memory device (not shown) after processing the program data. In addition, the central processing unit (CPU) outputs 9000H as an address signal to the first buffer STLI through the bus ADD / DATA in the same manner as above, and checks again in step 2f whether an interrupt has occurred.

When the interrupt data does not exist in step (2f), the CPU is placed in the idle state in step (2e), and the process (2c) is executed again when the interrupt data exists.

의 출력 인에이블 신호를 발생하여 인에이블하고 버스(ADD/DATA)로 (2i)과정에서 어드레스신호로 1000H를 출력하여 제1버퍼(STLI)에 입력하면 제1버퍼 (STL1)의 상기 저장된 검침용 데이타 값을 중앙처리장치(CPU)로 읽어 들이어 (2j)과정에서 메모리 장치에 저장한다. 그리고 (2k)과정에서 다른 버퍼의 디코딩이 없는가를 체킹한다. 상기 (2k)과정에서 다른 버퍼의 디코딩이 있을때 어드레스 버스(ADD)를 통해 디코더(DEC)에 (2h)과정에서 소정 어드레스 신호를 출력하여 디코딩되면 제n버퍼 (STLn)를 출력 인에이블한다. 그리고 중앙처리장치(CPU)의 버스(ADD/DATA)를 (2j)과정과 같이 제n버퍼 (STLn)의 기저장된 검침데이타를 읽어 들이어 처리한다.When the plurality of interrupt data exist in the process (2c), for example, when the CPU detects that the interrupt signal is generated in the second and n buffers (STL2 and STLn), the central processing unit (CPU) Stores an address corresponding to each bit for interrupt setting generated in a predetermined register of the CPU in step (2g). In operation 2h, the CPU outputs the low address through the address bus ADD and decodes the input signal of the decoder DEC to enable the output of the second buffer STL2.

When the output enable signal is generated and enabled and outputs 1000H as an address signal in the process (2i) to the bus ADD / DATA and inputs it to the first buffer STLI, the stored reading of the first buffer STL1 The data value is read into the CPU and stored in the memory device (2j). In step (2k), it is checked whether or not there is decoding of another buffer. When the other buffer is decoded in step (2k), a predetermined address signal is output to the decoder DEC through the address bus ADD in step (2h), and when the decoding is performed, the n-th buffer STLn is output enabled. Then, the bus ADD / DATA of the central processing unit CPU is read and processed as previously stored metering data of the n-th buffer STLn as in step (2j).

As described above, by processing the data by generating an addressed interrupt of the data by multiple inputs and processing the data by the CPU, the reliability of the data can be improved and the data processing speed can be reduced. This reduces the burden on the CPU and reduces power consumption since it is normally idle.

Claims (2)

In the meter interface unit of the telemetering system, a central processing unit (CPU) for storing data generated by the meter reading at the meter interface unit from time to time and outputting the stored meter reading data when a meter reading value is requested at each center. And a reading data generation unit (DSC) connected to an output terminal for sharing an address / data bus (ADD / DATA) from the central processing unit (CPU) and inputting reading data in a predetermined unit. A second buffer-n-buffer (STL2-STLn) for generating an interrupt signal according to the generation of the metering data of each household by multiplexing and buffering the reading data, and the second buffer-n buffer An interrupt terminal of the CPU is buffered and multiplexed at the same time as the interrupt generated by the STL2-STLn.

A first buffer STL1 for generating an interrupt signal according to generation of meter reading data of a single house or a predetermined set of houses, and an address signal connected to an address bus ADD of the CPU. Enable output of the first-n buffers STL1-STLn

The meter reading data processing circuit according to the multiple interrupts, characterized in that consisting of a decoder (DEC) for generating a. In the data processing method of the meter interface unit, the first process of returning to the normal state by the interrupt signal from the interrupt data according to the generation of the meter reading data, and reading the interrupt data in the normal state of the first process to read the house unit A second step of checking whether or not a plurality of interrupts are generated according to the generation of a plurality of data, and if the plurality of interrupts are not generated in the second process, input the corresponding meter reading data to store and service the interrupt data, A third step of checking for interrupt generation; a fourth step of storing a plurality of interrupt occurrence data at a second interruption time in the second step, and sequentially reading and processing the data for meter reading at a low address; and storing in the fourth step Read all meter reading data for each interrupt occurrence data And a fifth process of reading the interrupt data again to complete processing and returning to an idle state when no interruption occurs.

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