KR100986445B1 - Cpu allocation apparatus of a telematics device for communicating to a cdma modem - Google Patents

Abstract

The present invention relates to a CPU allocation apparatus for communication with a CDMA modem, wherein the CPU of the telematics is divided into a plurality of areas, and the CPU unique function and the modem control function can be executed interworking according to the serial and data transmitted through the GPIO. The purpose is to provide a CPU allocation device for communication with a CDMA modem.

The present invention divides a telematics CPU into a serial port area and a GPIO port area, and serially controls the serial port area so that the serial port area and the GPIO port area can be operated at the same time according to the type of input / output data. A control processor; A GPIO control processor for driving control of the GPIO port area; Characterized in that consisting of a communication interlocking processor for switching control by interlocking the serial control processor and the GPIO control processor.

According to the present invention, even if the function of the telematics CPU does not support Full Uart, the CPU port is divided and replaced by the serial function and the remaining signal input / output functions that do not support a part of the GPIO. There is an advantage that communication is easily performed.

Vehicle, Telematics, CDMA, Telematics, CPU

Description

CPU Allocating Device for Communication with CDMA Modem {CPU ALLOCATION APPARATUS OF A TELEMATICS DEVICE FOR COMMUNICATING TO A CDMA MODEM}

1 is a diagram illustrating a CPU allocation apparatus for communication with a CDMA modem according to a conventional embodiment.

2 is a diagram illustrating a CPU allocation apparatus for communication with a CDMA modem according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

20: CDMA modem, 32: serial area,

34: GPIO area, 40: serial control processor,

42: Communication interlocked processor, 44: GPIO control processor.

The present invention relates to a CPU allocation apparatus for communication with a CDMA modem, and more specifically, by dividing a telematics CPU into a plurality of areas, a CPU-specific function and a modem control function interworking according to serial and data transmitted through a GPIO. This relates to a CPU allocation device for communication with a CDMA modem so that it can be executed.

As is well known, a telematics terminal mounted on a vehicle to receive driving information of a vehicle at a predetermined time interval from a GPS satellite has recently been provided with various additional information services such as traffic information, stocks, weather, etc. as a basic specification. Communication with the server that provides it is required. Therefore, a CDMA modem is mounted inside the telematics terminal.

In order for the CPU 10 of the conventional telematics terminal shown in FIG. 1 to communicate with the CDMA modem 20, full Uart (universal asynchronous receiver) needs to be supported, but all CPUs are required to support this Full. It does not support Uart.

Uart is a device that connects the words of the parallel controller or data terminal to the sequential bit network. Uart inserts the desired number of start bits at the beginning of the transmitted word and the end bits at the end to convert the input serial data into parallel data. Output it. Parity bits may also be inserted. Data is transmitted at a baud rate determined by the transmission data clock. The receiver section checks the validity of the start bits of the sequential data and outputs the input data in parallel words. The receiver checks for parity and excessive speed errors.

Therefore, in the case of a CPU that does not support such a full Uart, there is a very serious difficulty in defining a communication method between the two modules which processes data applied to the serial port at regular intervals and data transmitted intermittently at random times. Will occur. In addition, there is a problem in that it is very disadvantageous in terms of cost because it requires a separate additional hardware component to solve this problem.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described state of the art, and the CPU of the telematics is divided into a plurality of areas so that the CPU unique function and the modem control function can be executed interworking according to serial and data transmitted through GPIO. Its purpose is to provide a CPU allocation device for communication with a CDMA modem.

In order to achieve the above object, according to a preferred embodiment of the present invention, the telematics CPU is divided into a serial port area and a GPIO port area, and the serial port area and the GPIO port area interwork at the same time according to the type of input / output data. A serial control processor which drives and controls the serial port region to be operated; A GPIO control processor for driving control of the GPIO port area; Provided is a CPU allocation apparatus for communication with a CDMA modem, comprising a communication interworking processor for switching and controlling the serial control processor and the GPIO control processor.

Preferably, the GPIO port area is provided with a CPU allocation apparatus for communication with a CDMA modem, characterized in that the input and output setting is set to HIGH using a general GPIO of the DTR provided therein.

Preferably, the GPIO port area is provided with a CPU allocation device for communication with a CDMA modem, characterized in that the DSR and DCD is set to an input state by using a GPIO with interrupt support.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail with reference to drawings.

2 is a diagram illustrating a CPU allocation apparatus for communication with a CDMA modem according to an embodiment of the present invention.

Referring to this, a CPU allocation apparatus for communication with a CDMA modem according to an embodiment of the present invention divides a CPU of a telematics into a plurality of regions and interworks CPU unique functions according to serial and data transmitted through GPIO. It is a device to enable the modem control function.

A CPU allocation apparatus for communicating with a CDMA modem according to an embodiment of the present invention divides the telematics CPU 30 into a serial port area 32 and a GPIO port area 34, according to the type of data input and output. Accordingly, the serial port area 32 and the GPIO port area 34 are set to operate simultaneously.

At this time, the serial port area 32 is a port for performing data input / output by giving a time order to each data processing in a plurality of data processing, and is a port area that operates without the need for additional software or additional hardware devices. The serial control processor 40 shown in the figure is a program built to control the serial port area 32. The program is a program of the serial port area 32 to perform input / output of data having different characteristics. This program generates only drive signals.                     

Port signals formed in the serial port area 32 are TXD, RXD, RTS, and CTS. As is well known, TXD is transmit data and RXD is receive data. RST is a request-to-send signal, which is a type of signal used for serial communication between the CPU 30 and the CDMA modem 20. The RST is used by the CPU 30 to indicate that there is data to be transmitted. It is an interface control signal transmitted to the CDMA modem 20, and is a hardware signal transmitted to line 4 in the RS-232C interface.

The CTS is an interface control signal transmitted from the CPU 30 to the CDMA modem 20 to indicate that the CPU 30 indicating clear-to-send may initiate data transfer, and the CTS is RS-232C. This is a hardware signal transmitted to line 5 at the interface.

On the other hand, the GPIO port area (general purpose input / output) (34) is an area for generating a modem control signal, consisting of a plurality of port pins, depending on the special purpose of the application, the input or output signal It is used for the purpose of generating or signaling. Each of the multiple pins can be programmed as an input or output or used as an interrupt source.

First, the GPIO port region 34 is composed of DSR, DCD, and DTR. The DSR is a signal used to indicate data-set-ready, and the CDMA modem 20 can operate. Is an interface control signal from the CDMA modem 20 to the CPU 30 to indicate that it is in a ready state to transmit data, and the DSR is a hardware signal transmitted to line 6 on the RS-232C interface. .                     

The DCD (data carrier detect) is a signal for detecting a carrier of data, the DTR is (data terminal ready: data-terminal-ready), and the CPU 30 is ready to transmit data. It is an interface control signal transmitted from the CPU 30 to the CDMA modem 20 to indicate that it is present, and is a hardware signal transmitted to line 20 in the RS-232C interface.

In this case, in the case of the DTR of the GPIO region 20 included in the CPU allocation apparatus for communication with the CDMA modem according to the embodiment of the present invention, the input / output setting is set to HIGH using a general GPIO, and the DSR and In the case of DCD, it is set as input state by using GPIO with interrupt support. The input / output setting is performed by the GPIO control processor 44, and the GPIO control processor 44 is a program for controlling the operation of the GPIO area 20 through the input / output setting. At this time, the GPIO control processor 44 is a visual representation of a program structure built in the CPU 30, and is not additional hardware.

In addition, a communication interworking processor 42 for switching the serial control processor 40 and the GPIO control processor 44 to control the switching according to the nature of the input / output data, for example, whether it is always data or arbitrary data, is provided. The communication interworking processor 42 also visually represents a program structure built in the CPU 30, and is not additional hardware.

Therefore, the CPU allocating apparatus for communication with the CDMA modem according to the embodiment of the present invention divides the CPU 30 port even though the telematics CPU 30 does not support Full Uart. By replacing the remaining signal input / output function that does not support a part of GPIO, communication is easily performed without attaching additional hardware.

On the other hand, the CPU allocation apparatus for communication with the CDMA modem according to the embodiment of the present invention is not limited only to the above-described embodiment, various modifications are possible without departing from the technical gist of the invention.

As described above, the CPU allocation apparatus for communication with the CDMA modem according to the present invention does not support the serial function and part of the GPIO by dividing the CPU port even if the function of the telematics CPU does not support Full Uart. By replacing the remaining signal input / output function, it is easy to communicate without attaching any additional hardware.

Claims (3)

The Telematics CPU is divided into a serial port area and a general-purpose input / output (GPIO) port area, and the serial port area is operated so that the serial port area and the general-purpose input / output (GPIO) port area can be operated at the same time. A serial control processor for controlling driving; A GPIO control processor for driving control of a general-purpose input / output (GPIO) port region; And a communication interworking processor configured to control switching by interworking with the serial control processor and the general-purpose input / output port control processor. The CPU allocating apparatus for communication with a CDMA modem according to claim 1, wherein the general-purpose input / output port area sets the input / output setting to the output HIGH using a general GPIO. The CPU allocating apparatus for communication with a CDMA modem according to claim 1, wherein the general-purpose input / output port area is set to an input state by using a GPIO with interrupt support in the case of DSR and DCD.

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