KR20060067250A - Bus control method of mobile apparatus - Google Patents

Abstract

The present invention relates to a bus control method for a portable device, and more particularly, to a bus control method for a portable device for determining the transmission bus state of the data communication line of the PCI Express to control the transmission of data. The present invention determines whether the data communication line of the PCI Express is abnormal, in the case of abnormality, cuts off the power of the data communication line, and adjusts the number and transmission speed of the data communication lines that can be transmitted. Therefore, according to the present invention, when using a system that supports the PCI Express, first determine whether each port has a failure, and supports by setting the appropriate transmission speed. In addition, the present invention does not use all the ports that can be supported, and uses the device only in a state in which the device is normally connected to the data communication line, and cuts the power supply to the data communication line to which the data communication line is not connected. As a result, the present invention can minimize the power consumption.

Portable Devices, Notebook Computers, PCI Express, Transmission Buses

Description

Bus control method of mobile device

1 is an embodiment showing a data communication line connecting a device device of a portable device according to the prior art;

2 is an embodiment of a control arrangement for detecting a state of a data communication line connecting a device apparatus of a portable device according to the present invention.

3 is an operation control flow diagram for controlling the transmission rate of the data communication line by detecting the state of the data communication line between each device of the portable device according to an embodiment of the present invention.

               Explanation of symbols on the main parts of the drawings

100: microcontroller 110, 120: device

L: Data communication line

The present invention relates to a bus control method of a portable device, and more particularly, to a bus control method of a portable device for detecting the state of the data communication line of the PCI Express to control the transmission of data.                         

In general, PCI Express is a new protocol designed to improve the transfer speed limit of PCI. The PCI Express is serial and supports 1x, 2x, 4x, 8x, and 16x based on the current communication line depending on the device, and the speed is 2.5Gbps. One communication line has two directions of a transmitting end (Tx) and a receiving end (Rx). Each direction transmits data between the host and the client with a reference voltage of 0V using the data of D + and D- as differential signals.

An embodiment showing a data communication line connecting a device apparatus of a portable apparatus according to the prior art.

A device that fits into a PCI Express card slot is shown. As shown in the figure, the first device 10 is divided into a transaction 10a, a data link 10b, a logical 10c, and an electrical 10d. The second device 20 is divided into a transaction 20a, a data link 20b, a logical 20c, and an electrical 20d.

The transactions 10a and 20a include updating file contents, notification of a reception acknowledgment, and the like. The data links 10b and 20b are transmissions for information transmission, and refer to a transmission and reception apparatus and a communication control apparatus.

Each of the devices 10 and 20 configured as described above is connected to the transmission and reception terminals Rx and Tx of the electronics 10d and 20d. The transmitting and receiving end is connected to the data communication line (L). The device transmits and receives data between the devices through the data communication line.

However, the prior art of the above method had the following problems.

The data communication lines of the conventional PCI Express each have two pairs of data communication lines. As a result, there is a problem that the data transfer operation does not work even when only one line is defective, such as open or short. For example, in the case of 16x, if any one of the 64 data communication lines fails, each device cannot transmit data as a host and a client, and all 16 data communication lines cannot be used.

Accordingly, an object of the present invention is to provide a bus control method of a portable device that detects a failure of a data bus and controls the use of the bus.

Another object of the present invention is to provide a bus control method of a portable device for determining the number and transmission speed of data buses.

Bus control method of a portable device according to the present invention for achieving the above object, in the portable device connected to each other by a LAN line as a data line in order to perform data communication with each device, the power is applied to boot the system Steps; In the booting step, a data line sensing step of forming a pair of data lines in a loop to grasp information of the data lines; The data line detecting step includes a data line determining step of determining whether the data line is normal.

In the present invention, the detecting of the data line may include inputting a clock signal to an arbitrary device and detecting a signal output by circulating a loop of a data line connected to the arbitrary device.

Hereinafter, a bus control method of a portable device according to the present invention will be described.

2 is an embodiment illustrating a signal flow of a device for detecting a data bus state between devices of a portable device according to the present invention.

A device that fits into a PCI Express card slot is shown. As shown in the figure, the first device 110 is divided into a transaction 110a, a data link 110b, a logical 110c, and an electrical 110d. The second device 120 is divided into a transaction 120a, a data link 120b, a logical 120c, and an electrical 120d.

The transactions 110a and 120a include update of file contents, notification of reception acknowledgment, and the like. The data links 110b and 120b are transmissions for information transmission, and refer to transmission and reception apparatuses and communication control apparatuses.

Each of the devices 110 and 120 configured as described above is connected to the transmission and reception terminals Rx and Tx of the electronics 110d and 120d. The transmitting and receiving end is connected to the data communication line (L). The device transmits and receives data between the devices through the data communication line.                     

The portable device according to the present invention will be described by applying to a notebook system as an embodiment. When the notebook computer initializes all devices by booting, it checks the data communication line (L) of the PCI Express for abnormal circuits, and then determines the transmission speed between the host and the client.

To this end, a pair of data lines is formed in a loop for each transmitting and receiving terminal of the device, and a data line L is checked for the loop. When the loop of the data line is checked and the checked result is transmitted to the microcontroller 100, the microcontroller 100 determines the state of the data communication line (bus) of the corresponding transceiver.

In this case, the microcontroller 100 inputs a clock signal to the first device 120a of a device consisting of a client and a host. The clock signal is again connected to the electrical 120d of the first device 120 through the electrical 110d of the second device 110 connected to the data communication line L. Is transmitted to the trial 120d. If the microcontroller 100 detects this, and the first device 120 and the second device 110 detect a clock signal (Data out) output by circulating the data communication line (L) formed in a loop (loop) It is determined that there is no abnormality in the data communication line L.

According to the detection result, according to the data communication line L state, power is applied only to the available data communication line L so that data communication is performed. In addition, a communication line capable of data communication is selected to determine a transmission speed between devices (host and client).

For example, if each device basically supports 16x as a host and a client, the result is as follows depending on the state of the data busline connecting the host and the client.

If there is no error in the data line, the data communication bus line of each transceiver supports 16x. However, if an error occurs in one to eight data communication lines, 8x is supported. If an error occurs in 9 to 12 data lines, 4x is supported. If an error occurs in 13 to 14 data lines, 2x is supported. If an error occurs in 15 data lines, 1x is supported. If there are errors in the 16 data lines, the client cannot be used.

3 is an operation control flowchart for detecting and controlling a data bus state between devices of a portable device according to an embodiment of the present invention.

Power is applied and booting of the portable device system is started (step 300). During the booting process, in order to detect whether the data communication line L connecting the first device 120 and the second device 110 is in a normal state, the microcontroller 100 uses a clock signal ( Clock in) is output to the first device 120 (step 310).

Accordingly, the clock signal Clock in is input to the first device 120, and is connected to the first device 120 through the data communication line L to the second device 110 forming a loop. The clock signal (Clock in) is transmitted. As such, the clock signal (Clock in) is transmitted, and the microcontroller 100 detects the pulse which is finally output after circulating the loop of the data communication line L (step 320).                     

As a result, the microcontroller 100 determines that the data communication line L is in a normal state (operation 330), and transmits and receives data through the data communication line L (operation 340).

However, in step 320, if the clock signal input to the first device 120 is not cyclically outputted to the first device 120 through the second device 110, the first device 120 and the second device are not output. In operation 350, it is determined that the data communication line L connecting the device 110 is in a bad state (open state or short state).

As a result, the power applied to the data communication line L is cut off, and then data is not transmitted or received (step 360).

As described above, according to the present invention, it is a basic technical idea to be connected between devices, to check a connection state of a data communication line for transmitting and receiving data, and to control a transmission speed of the data communication line.

To this end, the present invention outputs a clock signal to a data communication line formed in a loop form or whether the data communication line is properly connected between devices, and detects whether the output signal is properly circulated and output. This determines the state of the data communication line.

When the data communication line is determined to be in a bad state, the present invention does not use the bad data line, thereby managing the number of available data lines and the transmission speed.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Due to the bus control method of the portable device according to the present invention it can be expected the following effects.

In the present invention, when using a system that supports the PCI Express, first determine whether each port has a failure. In addition, according to the determined result, an appropriate transmission rate is set and supported. As a result, the present invention can make available a system that was not used due to partial failure.

In addition, the present invention uses only an appropriate number of ports instead of using all supported ports, and as a result, power consumption can be minimized.

Claims (2)

A portable apparatus in which each device is connected by LAN line as a data line in order to perform data communication with each other, A booting step of booting the system by applying power; In the booting step, a data line sensing step of forming a pair of data lines in a loop to grasp information of the data lines; And a data line determining step of determining whether the data line is normal through the data line detecting step. The method of claim 1, The data line detection step, And a clock signal is input to an arbitrary device to detect a signal that is output by circulating a loop of a data line connected to the arbitrary device.

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