KR101451675B1 - Point-to-multipoint Connectable Slave Keyboard Combined With Wired USB And Wireless Bluetooth And Automatically Charged - Google Patents

Abstract

A USB combined Bluetooth slave keyboard including an EEPROM or a flash memory, a RAM, a control unit, a Bluetooth communication unit, and a USB communication unit is disclosed. The USB Bluetooth keyboard of the present invention can perform a pairing procedure only once for a plurality of Bluetooth master devices, and then, without performing complicated procedures for pairing, the USB Bluetooth keyboard maintains a state of being connected to a Bluetooth master device by a simple operation It is possible to perform switching to connection with another Bluetooth master device. That is, it is convenient that the user can select and connect the desired Bluetooth master device among a plurality of, for example, 255 Bluetooth master devices, simply and conveniently. It can also be selectively connected to a USB master device connected via USB. Therefore, since one keyboard can be used for one computer connected by USB and 255 Bluetooth devices of each model, it is economical for the user because there is no need to purchase several keyboards.

Description

[0001] The present invention relates to a multi-connection USB and Bluetooth wired and wireless automatic rechargeable slave keyboard,

[0001] The present invention relates to a Bluetooth-compatible Bluetooth slave keyboard capable of multiple connections, and more specifically, when a plurality of, for example, 255 Bluetooth master devices are first subjected to a pairing procedure only once, It is possible to switch to a connection with another Bluetooth master device in a state of being connected to one Bluetooth master device by a simple operation without complicated procedures and to selectively connect to a USB master device connected via a wired USB communication The present invention relates to a UBS and a Bluetooth wireless / wired auto-charging slave keyboard that can be connected in multiple ways, which can easily and conveniently select and connect a desired master device among 255 Bluetooth master devices and one USB master device.

Recently, a Bluetooth keyboard that is connected to a computer by Bluetooth wireless communication has been utilized. The Bluetooth keyboard can be connected to various electronic devices such as a smart phone, a tablet PC, a smart TV, and the like, as well as wirelessly connecting to a general computer. At this time, the computer, the smartphone, etc. operate as a master device and the keyboard operates as a slave device.

However, in the Bluetooth protocol, one master device can be connected to up to seven slave devices, but one slave device is normally connected to one master device, and a slave device is already connected to another master device The master-slave connection must be disconnected and a new master-slave connection established. To disconnect a master-slave connection already established, the power of the slave should normally be turned off. There has never been a method for disconnecting an already formed master-slave connection and forming a new connection in addition to a method of turning off the power for a slave device using one profile, particularly a computer keyboard using an HID profile.

Korean Utility Model Registration No. 0462025 (Registered on 08., 2012) will launch a keyboard that supports multiple connections. Such a keyboard performs a switching operation in which a Bluetooth module and an RF module are configured on a keyboard and are connected to two host devices through Bluetooth communication and RF communication, respectively. The keyboard has a limitation that it can not be connected to more host devices and multiple communication modules must be used for multiple connections.

Korean Patent Laid-Open Publication No. 2009-0081136 (published on 07. 28, 2009) discloses a Bluetooth headset and its multipoint pairing method. The proposed Bluetooth headset is capable of multiple connections to two host devices at the same time. Here, the two host devices are an audio output device and a communication device, and the Bluetooth profiles used are A2DP (Advanced Audio Distribution Profile) and HFP (Hands Free Profile). That is, the proposed Bluetooth headset uses different types of profiles and multiple connections with the same number of profiles, that is, two host devices, and multiple connections with a plurality of host devices using one profile no.

Accordingly, it is an object of the present invention to provide a method and apparatus for performing a pairing procedure only for a plurality of Bluetooth master devices of USB and Bluetooth-enabled devices at first, and then, without complicated procedures for pairing, It is possible to switch from one Bluetooth master device to another Bluetooth master device while being connected to the Bluetooth master device, and to selectively connect to the battery automatic charging function and the USB master device while being connected via USB communication, The present invention provides a UBS and a Bluetooth wireless / wired automatic charging slave keyboard which can be connected to a plurality of master devices of a user by simply and conveniently selecting and connecting the desired master device.

According to an aspect of the present invention, there is provided a Bluetooth slave keyboard capable of being connected to a Bluetooth master device through Bluetooth communication. The Bluetooth master device includes an EEPROM, a flash memory, a RAM, a controller, a Bluetooth communication unit, Wherein the EEPROM or the flash memory stores the pairing information necessary for performing the pairing between the slave keyboard and the plurality of Bluetooth master devices by the control unit, If the pairing information is resident in the RAM and the Bluetooth communication mode is preset by the program or selected by the user, the pairing information between the Bluetooth master device and the slave keyboard is set or selected. The slave keyboard enters a forced hold mode regardless of the state of the Bluetooth master device, and if the Bluetooth master device is not so selected or selected, the slave keyboard enters a forced hold mode, In addition, when the controller is preset by a program or selected by a user, the control unit enters a connection mode with one USB master device so selected or selected, while for the Bluetooth master device, the slave keyboard The Bluetooth communication unit converts the data or signal transmitted by the control unit in accordance with the Bluetooth communication protocol, And the USB communication unit converts the data or signal transmitted by the control unit in the USB communication mode according to the USB communication protocol and transmits the converted data or signal to the USB master device, Or receives a signal from the USB master device and transmits the signal to the control unit.

The pairing information is stored in the EEPROM or the flash memory when the first pairing is established between the slave keyboard and a Bluetooth master device in the Bluetooth communication mode. The pairing information includes a Bluetooth device address of the Bluetooth master device, An active member address assigned to the keyboard by the Bluetooth master device, an arbitrary connection number transmitted from the Bluetooth master device at the time of connection, and a keyboard- Quot; user "

The slave keyboard has 255 pieces of pairing information having a user-designated number from 1 to 255, and the user inputs the user-designated number corresponding to the Bluetooth master device desired by the slave keyboard in the Bluetooth communication mode, And the Bluetooth master device connected to the slave keyboard is disconnected from the slave keyboard and enters the forced hold mode.

The keyboard further includes a function key (Fn), and the communication mode of the keyboard is changed from the USB communication mode to the Bluetooth communication mode by pressing the communication mode setting key while the function key is pressed on the slave keyboard If the communication mode of the slave keyboard is the Bluetooth communication mode, the function key is depressed and corresponding to the user specified number corresponding to the Bluetooth master device desired to be connected by the user It is preferable that a connection between the keyboard and the Bluetooth master device is formed when the numeric key and Enter key are sequentially inputted.

In order to pair with the user, the slave keyboard and any Bluetooth master device are brought in proximity to each other in the Bluetooth communication mode, and the pairing setting key, the numeric key corresponding to a user-designated number, and the enter key are sequentially input , It is preferable that a pairing procedure between the slave keyboard and the corresponding Bluetooth master device is performed and that the pairing information is stored in the EEPROM or the flash memory.

When receiving an acknowledgment signal from the Bluetooth master device paired with the keyboard and in a Bluetooth communicable area, transmits a response signal to the Bluetooth master device in response to the confirmation signal even when the device is in the forced hold mode.

Preferably, the keyboard has a function of automatically charging a battery with an overcharged car terminal function regardless of a communication mode when a USB cable is connected.

The UBS and Bluetooth wired and wireless auto-charging slave keyboard according to the present invention can perform a simple operation without performing complicated procedures for pairing when a pairing procedure is performed only once at the beginning for a plurality of Bluetooth master devices It is possible to switch to a connection with another Bluetooth master device while maintaining the state connected to the Bluetooth master device. That is, it is convenient that the user can select and connect the desired Bluetooth master device among a plurality of, for example, 255 Bluetooth master devices, simply and conveniently. It can also be selectively connected to a USB master device connected via USB. Therefore, it is possible to use one keyboard for wired and wireless for one computer and 255 units of each type of Bluetooth device while charging the battery by the automatic charging and protection function of the battery while connected by USB, so it is necessary to purchase several keyboards It is not economical for users.

FIG. 1 is a block diagram showing a schematic configuration of a USB-combined Bluetooth slave keyboard according to the present invention.
FIG. 2 is a schematic block diagram of a processing and communication module applied to a USB-compatible Bluetooth slave keyboard according to the present invention.
FIG. 3 is a part of a flowchart illustrating an operation in which a USB-combined Bluetooth slave keyboard according to the present invention is multiplexed with a plurality of master devices.
4 is a remaining flowchart following the flow chart of Fig.
FIG. 5 is a diagram illustrating an example of a keyboard keyboard unit of a USB-combined Bluetooth slave keyboard according to the present invention.

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

The Bluetooth slave keyboard of the present invention is connected to a Bluetooth master device such as a computer, a smart phone, a tablet PC, a smart TV, etc. by Bluetooth communication and is connected to a USB master device such as a computer by USB communication . Such a USB Bluetooth keyboard is typically comprised of a keyboard keyboard 10, a logic circuit 20, and a processing and communication module 30, as shown in FIG.

The keyboard control unit 10 generates an electric signal by a stroke operation of a key switch, and is classified into a mechanical type, a pentagonal type, a membrane type, and the like according to the switching method. The logic circuit 20 converts the electrical signal generated by the stroke operation of the key switch into a scan code. The processing and communication module 30 selectively converts the scan code into either a Bluetooth wireless signal or a USB wire signal. The processing and communication module 30 performs the pairing with the Bluetooth master device using the Bluetooth protocol and transmits and receives the Bluetooth wireless signal according to the operation of the controller and the Bluetooth communication unit as described below. Although this Bluetooth communication function is common to Bluetooth keyboards, the USB Bluetooth keyboard of the present invention is similar to the conventional Bluetooth keyboard in terms of the configuration of the processing and communication module of Fig. 2 and the operation for multiple connections illustrated in Figs. 3 and 4 And a simple method of selecting a master device to be connected by a user among a plurality of Bluetooth master devices, for example, 255 Bluetooth master devices and one USB master device, is implemented by the keyboard exemplified in FIG. 5 different.

2, the processing and communication module 30 of the USB Bluetooth keyboard according to the present invention includes an EEPROM 100 or a flash memory, a control unit 200, a RAM 300, a Bluetooth communication unit 400, and a USB And a communication unit 500.

Electrically Erasable Programmable Read-Only Memory (EEPROM) is a nonvolatile memory that can be written and erased by an electrical method. Flash memory is a nonvolatile memory and has properties similar to EEPROM. The nature of such EEPROM and flash memory is useful in the implementation of the USB Bluetooth keyboard of the present invention. Hereinafter, only the EEPROM will be described as an example of the EEPROM and the flash memory. The EEPROM 100 stores the pairing information necessary for performing the pairing between the keyboard and the plurality of Bluetooth master devices by the control unit 200, as will be described in detail below. EEPROM 100 has a capacity of 256K, of which 1K stores application programs. Of course, as described below, the application program may be stored in a ROM in the MCU IC itself. Typical application programs currently being applied are stored in the EEPROM 100 at a size of 1K or less. The embeded application program used in the present invention performs USB communication and Bluetooth communication at the same time, and its size is approximately 1K or less.

The control unit 200 resets the pairing information between the plurality of Bluetooth master devices and the keyboard stored in the EEPROM 100 in the RAM 300 when the keyboard is powered on.

RAM (Random Access Memory) is a volatile memory. When the power is turned off, the stored information is lost. However, since the data is read and written at a very high speed, it is used for temporary storage of the main memory of the computer, temporary loading of application programs, and temporary storage of data. Accordingly, the RAM 300 is used as a place where application programs and data necessary for USB communication and Bluetooth communication are loaded from the USB Bluetooth keyboard of the present invention. The application program and data loaded in the RAM 300 can be quickly accessed by the control unit 200. [

In the present invention, the RAM applied to the processing and communication module 30 typically has a size of 256 kilobytes. The size of an application program used for USB communication and Bluetooth communication is approximately 1 kilobyte, It can be utilized as a storage space. In the present invention, the pairing information between the plurality of Bluetooth master devices and the keyboard includes at least one of a Bluetooth device address of the Bluetooth master device, an active member address assigned to the keyboard by the Bluetooth master device at the time of pairing, A random number, and a user-specified number that allows the user to select a keyboard-Bluetooth master device pairing. This pairing information does not exceed 1 kilobyte for one Bluetooth master device. Therefore, at least 255 pieces of pairing information may reside in the RAM. If memory management of RAM is made more precise, more pairing information can be resident than that, but since storing 255 pieces of pairing information is sufficient, it is not necessary to perform more precise programming in order to reside a larger number of pieces of pairing information.

The Bluetooth communication unit 400 converts the data or signal transmitted by the control unit 200 according to the Bluetooth communication protocol and transmits the converted data or signal to the Bluetooth master device or receives the signal from the Bluetooth master device and transmits the signal to the control unit 200, The controller 500 converts the data or signal transmitted by the controller 200 in the USB communication mode according to the USB communication protocol and transmits the converted data or signal to the USB master device or receives the signal from the USB master device and transmits the signal to the controller 200. The control unit 200 transmits the scan code generated by the logic circuit 20 to the Bluetooth communication unit 400 when the Bluetooth communication mode is selected and to the USB communication unit 500 when the USB communication mode is selected, And transmits the input data to the terminal. The application program for USB communication and Bluetooth communication may be stored in the EEPROM 100 if the application program is updated later. However, since the application program is not required to be updated, it is preferable to store the application program in the ROM Do. Therefore, it is preferable that the USB Bluetooth keyboard of the present invention includes a ROM 600 separately from the EEPROM 100 to store an application program.

Referring to FIGS. 3 and 4, the manner in which the USB Bluetooth keyboard of the present invention operates is defined by an embedded application program stored in the ROM 500, which will be described as follows. First, when power is supplied to the USB Bluetooth keyboard of the present invention, the pairing information stored in the EEPROM 100 is stored in the RAM 300 (step S100). The pairing information residing in the RAM 300 is stored in the RAM 300 and used by the control unit 200 as long as power is supplied, unless the user deletes or changes the information. When the Bluetooth keyboard is used for the first time, there is no pairing information stored in the EEPROM 100. Here, it is assumed that the pairing information is stored in the EEPROM 100 in advance.

The control unit 200 requests the user to select a communication mode (step S110). The USB Bluetooth keyboard of the present invention is provided with a USB communication connection status indicator and a Bluetooth communication connection status indicator to recognize that the user should select a communication mode, and when the USB communication mode is set, the USB communication connection status indicator is continuously turned on, When the Bluetooth communication mode is selected, the Bluetooth communication connection status indicator is continuously turned on. When the user selects the communication mode, both the USB communication connection status indicator and the Bluetooth communication connection status indicator can be blinked. Then, the user can see that both connection status indicators are blinking, and the user can input the desired communication mode into the keyboard layout illustrated in FIG. One example of such an input is that the communication mode of the keyboard is changed from the USB communication mode to the Bluetooth communication mode by pressing the communication mode setting key once while holding the function Fn key separately provided to the USB Bluetooth keyboard, The communication mode of the keyboard may be changed from the Bluetooth communication mode to the USB communication mode. The communication mode setting key may be provided as a separate input key. However, there is a limitation in additionally installing the input key of the keyboard. For example, when the Fn key is pressed and the right shift key is pressed, .

On the other hand, this step may be omitted and a communication mode preset by an application program, for example, a USB communication mode, may be basically selected. As another example, the communication mode that was set when the USB Bluetooth keyboard of the present invention is turned off is stored in the EEPROM 100 and loaded into the RAM 300 when it is turned on again, And may be used in a preset communication mode. That is, the communication mode that was set when the power is turned off may be basically selected.

If the user selects the communication mode, the control unit 200 determines whether the selection is a Bluetooth communication mode (step S120). If the user selects the Bluetooth communication mode, the control unit 200 determines whether or not the Bluetooth master device to be paired and connected with the plurality of Bluetooth master devices corresponding to the plurality of pairing information residing in the RAM 300 (Step S130). The USB Bluetooth keyboard of the present invention can blink the Bluetooth communication connection status indicator to recognize that the user should select the desired Bluetooth master device. At this time, the USB communication connection status indicator turns off. Then, the user can see the blinking of the Bluetooth communication connection status indicator and input a user-designated number corresponding to the Bluetooth master device to be connected to the keyboard shown in Fig. One example of such an input is sequentially inputting a user-specified number and an Enter key corresponding to the Bluetooth master device to which the user wants to connect while pressing a function (Fn) key separately provided to the Bluetooth keyboard. For example, when the user wants to connect the corresponding Bluetooth master device with the keyboard using the pairing information defined by the user-specified number 123, press the numeric keys 1, 2, 3 and enter key sequentially .

Meanwhile, this step may be omitted and the connection may be performed using the pairing information preset by the application program, for example, the pairing information corresponding to the user-specified number 1 or the pairing information for the master device connected when the power is shut off . In particular, it is preferable to automatically connect to a Bluetooth master device that was in use before the power is turned off.

Since no pairing information is included in the EEPROM 100 at the time of first use, automatic connection by the application program can not be performed and step S130 must be performed. Also, when the wireless master device can not establish a wireless connection with the Bluetooth master device corresponding to the pairing information preset by the application program, the step S130 must be performed together with the transmission of the error message.

Next, the control unit 200 determines whether or not the user has the pairing information for the Bluetooth master device corresponding to the user-specified number, that is, whether the information can be found in the RAM (step S140). When confirming the pairing information, the connection procedure with the selected Bluetooth master device is performed (step S150), and if the data is not transmitted or the data is not transmitted in the connected state, it may enter the Hold mode to reduce battery power consumption S160). The connection procedure normally follows the connection procedure between the Bluetooth master device and the slave device. On the other hand, although not shown in the drawing, the RAM may have pairing information, but the control unit may not be able to perform pairing. In such a case, the Bluetooth master device may be outside the Bluetooth communication area or the power may not be turned on. In this case, the USB Bluetooth keyboard can not be connected because it can not receive any signal for connection from the Bluetooth master device. In this case, the Bluetooth keyboard sends an error message and returns to step 130 to select another master device. The error message may be that the keyboard has an error status indicator, for example, and the error status indicator is blinking.

In step S140, the controller 200 determines whether the Bluetooth master device has pairing information for the Bluetooth master device corresponding to the user-specified number input by the user (step S140). In this case, Apart from doing so, the other Bluetooth master devices enter the forced hold mode (step S170).

Here, the forced hold mode is a term used herein to distinguish it from the hold mode defined in the Bluetooth protocol in general. A commonly defined hold mode is taken to reduce power consumption when there is no data transmission for a set period of time with the Bluetooth devices connected.

On the other hand, the park mode is possible to maintain synchronization with the channel without participating in the channel. In this state, AM_ADDR (Active Member Address) is lost, and instead, PM_ADDR (Parked Member Address) and AR_ADDR (Access Request Address) are given. PM_ADDR is used when the Bluetooth master device changes the slave device of the park mode into the active mode, and AR_ADDR is used when the slave device intends to enter the active mode by itself.

On the other hand, the forced hold mode applied in the present invention is similar to the hold mode in that the USB Bluetooth keyboard responds to a page signal and an acknowledgment signal transmitted from the corresponding Bluetooth master device even though it is not in the connection mode with the Bluetooth master devices , The hold mode is defined by the Bluetooth communication protocol and is simultaneously applied to the Bluetooth master device and the slave device. In the forced hold mode, however, by the application program embeded in the USB combined Bluetooth slave keyboard of the present invention, And is applied only to the USB Bluetooth slave keyboard according to the present invention irrespective of the state of the corresponding Bluetooth master device.

When the USB Bluetooth slave keyboard of the present invention is in the forced hold mode with respect to any Bluetooth master device, the corresponding Bluetooth master device is in a power-off state, a state where power is on but outside the Bluetooth communication area, But may be in various states such as being connected to another Bluetooth slave keyboard, being powered on and being in a Bluetooth communication area and not being connected to another Bluetooth slave keyboard. Whatever state the Bluetooth master device is in, the USB-compatible Bluetooth slave keyboard of the present invention operates in the hold mode, which is referred to as the forced hold mode to distinguish it from the hold mode defined in the Bluetooth communication protocol. On the other hand, if the Bluetooth master device is in the Bluetooth communication area and is connected to another Bluetooth slave keyboard, the Bluetooth master slave keyboard of the present invention will be in the hold mode. If the Bluetooth slave keyboard is not connected to another Bluetooth slave keyboard, It is recognized that it is in a state of being connected to the USB-combined Bluetooth slave keyboard of the present invention.

On the other hand, the connection mode is different from the hold mode and the forced hold mode in that it can transmit data as well as respond to the confirmation signal of the Bluetooth master device.

In the forced hold mode, the PM_ADDR signal of the master device not selected by the user, that is, the signal that is used to change the Bluetooth master device into the active mode of the slave device in the park mode, is changed to the active mode only by user selection It is possible.

Normally, the Bluetooth master devices check whether there are other Bluetooth devices, especially slave devices, in their communication area every predetermined cycle. At this time, the user must turn on the power or press the pairing button in order to connect the slave device with the Bluetooth master device, so that the slave device can respond to the inquiry of the Bluetooth master device and the page signal or the page signal. Since only one connection is allowed for one Bluetooth profile for communication security, using one Bluetooth keyboard for a plurality of Bluetooth master devices requires a plurality of pairing operations including power off It was troublesome and it was not easy to connect with the Bluetooth master device desired by the user even by such operation. It is not user-determinable which Bluetooth master device to pair with when two or more Bluetooth master devices simultaneously perform the pairing procedure. So, you have to select one Bluetooth master device and turn off the power of the other Bluetooth master device or operate only the Bluetooth master device you want to select. For this reason, there has not yet been a case in which a Bluetooth slave device using one Bluetooth profile is connected to a plurality of Bluetooth master devices.

The USB Bluetooth keyboard of the present invention is connected to a plurality of Bluetooth master devices, for example, 255 Bluetooth master devices, while using one profile, i.e., an HID profile. In order to enable such multiple connection, the controller 200 responds to a page signal for pairing with the Bluetooth master device selected by the user, and establishes a connection with the Bluetooth master device selected by the user. In this connection mode, the USB-combined Bluetooth slave keyboard of the present invention transmits data such as characters input by the user to the corresponding Bluetooth master device. On the other hand, the other Bluetooth master devices respond to the page signal for pairing and enter the forced hold mode, and then respond only to the confirmation signal to the corresponding Bluetooth master device and do not transmit data. Of course, in the Bluetooth communication mode, no data is transmitted to the USB master device. Accordingly, the USB Bluetooth keyboard of the present invention transmits data input to the keyboard only to the selected Bluetooth master device, does not transmit data input to the keyboard to other Bluetooth master devices, and simultaneously transmits data input to the keyboard to the USB master device Do not transmit.

On the other hand, if the communication mode selected by the user is the USB communication mode, it is not the Bluetooth communication mode (step S120), and the controller 200 enters the keyboard into the connection mode with the USB master device (step S250). The USB Bluetooth keyboard of the present invention is in the connection mode with the USB master device in the USB communication mode and thus the data input to the keyboard can be transmitted to the USB master device. On the other hand, the USB Bluetooth keyboard of the present invention does not transmit data inputted to the keyboard to the Bluetooth master devices, but when the user selects the Bluetooth communication mode or selects the Bluetooth communication mode again, The Bluetooth master devices having the pairing information residing in the RAM 300 enter the forced hold mode in order to restore the quick connection with the previously selected Bluetooth master device. In the state that the USB communication mode is set, the control unit 200 transfers the data input to the keyboard to the USB communication unit 500, and the USB communication unit 500 converts the data according to the USB protocol and transmits the converted data to the USB master device. This process is omitted in the drawings.

Next, the control unit 200 determines whether the user has changed the communication mode (step S270). If the user changes the communication mode from the USB communication mode to the Bluetooth communication mode, the control unit 200 returns to step S130 to select the Bluetooth master device request. Instead of requesting selection of such a Bluetooth master device, as mentioned above, the previously connected Bluetooth master device may be treated as a user selected. On the other hand, if the user has not changed the communication mode in the USB communication mode, the control unit 200 maintains the previous state (step S290). That is, in the USB communication mode, data input to the keyboard is transmitted to the USB master device, and reception of the signal from the USB master device is continued. Then, the user frequently checks whether the communication mode has been changed.

When the control unit 200 returns to step S160, the control unit 200 determines whether the user has requested to change the blue pitcher master device (step S180) while transmitting data in the connection mode or entering the hold mode. For example, if the user connects to a Bluetooth master device with a custom number 1, for example, and wants to use the Bluetooth master device with a custom number 2, for example, while holding down the Fn key, input the number 2 and enter key can do. Then, the control unit returns to step S140 and confirms that it has the pairing information for the user specified number 2. If the pairing information is found, the control unit performs the connection procedure with the Bluetooth master unit of the user designated number 2 (step S150). At this time, other Bluetooth master devices including the Bluetooth master device of the user number 1 are in the forced hold mode (step S170). In this process, the USB Bluetooth keyboard of the present invention changes from the forced hold mode to the connection mode for the Bluetooth master device of the user designation number 2 and changes from the connection mode to the forced hold mode for the Bluetooth master device of the user designation number 1, For this, the control unit does not transmit any input data to the Bluetooth master device of the user designated number 1, but enters the connection mode and transmits the input data to the Bluetooth master device of the user designated number 2.

Therefore, the USB slave Bluetooth slave keyboard of the present invention transmits data such as characters inputted by the user to only one Bluetooth master device selected by the user, and the user selects the desired Bluetooth master device by simply inputting the key Which is very convenient for the user. If input data of a Bluetooth slave keyboard to which one profile is applied is simultaneously transmitted to a plurality of Bluetooth master devices, that is, if inputted, it interferes with the operation of other Bluetooth master devices except for one selected Bluetooth master device It is not preferable. Also, if a third party receives it, communication security problems may arise and there is a risk of hacking important data such as bank accounts and passwords, which is undesirable.

In step S180, the control unit 200 determines whether there is a change in the communication mode. If there is no change in the communication mode, the control unit 200 determines whether there is a change in the communication mode. If the user has requested the communication mode change, the process returns to step S250 (step S310). On the other hand, if there is no communication mode change, the control unit retains the previous state (step S320), and the process returns to step S180 (step S330).

Meanwhile, the controller 200 determines whether the user has the pairing information for the Bluetooth master device corresponding to the user-specified number input by the user (step S140). If the pairing information is not received, The pairing may be attempted (step S210). If the pairing is successful due to such an attempt (step S220), the corresponding pairing information is stored in the EEPROM (step S230). The newly obtained pairing information naturally resides in the RAM. Then, the connection procedure with the paired Bluetooth master device is performed (step S150), and the data can be transferred in the connection mode or enter the hold mode (step S160).

If the pairing is unsuccessful (step S220), the control unit sends out an error message (step S340) and returns to step S130.

On the other hand, if the user does not have the pairing information for the Bluetooth master device corresponding to the user-specified number input by the user (step S140), the control unit determines that the Bluetooth master device selected by the user has not been previously paired An error message may be sent informing the user of the meaning. The error message can be indicated by the blinking of the error indicator. After confirming the error message, the user can proceed to pair the desired Bluetooth master device with the keyboard. This pairing procedure can be performed by sequentially pressing the user-specified number and the enter key while holding down the Fn key, as in the case of selecting the Bluetooth master device already registered with the pairing information or changing to the registered Bluetooth master device have. In this case, if the corresponding user-designated number is already designated, it is recognized that the Bluetooth master device is selected or changed. If the corresponding user-designated number is not previously specified, the Bluetooth master device is recognized as the first pairing for the Bluetooth master device The connection procedure is performed together with the registration of the pairing information.

Alternatively, hold down the Fn key and type the left shift key, the custom number, and the Enter key in sequence. Here, the left shift key is used as the pairing setting key when used with the Fn key. This method deletes the pairing information if the corresponding user-designated number is already registered, processes it by newly registering the pairing information to be set, and if the corresponding user-designated number is not registered, it is the same as the first pairing information registration . The left shift key is preferably labeled 'Pairing' or a LED flashing signal to visually indicate that it is performing the pairing procedure when it is pressed with the Fn key.

Meanwhile, it is preferable that the keyboard according to the present invention has a function of automatically charging a battery having an overcharged automobile terminal function regardless of a communication mode when a USB cable is connected. According to this function, it is convenient because the built-in battery is automatically charged when using the wired connection with the USB master device, and it is possible to carry out Bluetooth communication while charging by the USB cable automatically even when using wireless connection with the Bluetooth master device. .

As described above, the USB Bluetooth keyboard of the present invention stores a plurality of pairing information in the EEPROM, resides the same in the RAM, and implements a specific application program as described above, so that a single profile Thereby enabling point-to-multipoint Bluetooth communication. In addition to the multiple connection by the Bluetooth communication, the USB communication enables selective connection by the USB communication, that is, the connection by the Bluetooth communication and the USB communication by the user. Therefore, the user can conveniently use one USB Bluetooth keyboard in a simple manner by connecting with a master device selected by a user among a plurality of master devices such as a desktop computer, a notebook computer, a smart phone, a tablet PC, and a smart TV, . This method is a remarkable thing that can not be expected until now because the slave device which is dependent on the master device freely selects the master device.

10: keyboard board part 20: logic circuit
30: Processing and communication module 100: EEPROM
200: control unit 300: RAM
400: Bluetooth communication unit 500: USB communication unit
600: ROM

Claims (8)

A Bluetooth slave keyboard connected to a Bluetooth master device by Bluetooth communication,
The EEPROM or the flash memory stores the pairing information necessary for performing the pairing between the slave keyboard and the plurality of Bluetooth master devices by the control unit. Wherein the controller resides the pairing information in the RAM when the keyboard is powered on and if the Bluetooth communication mode is preset by the program or selected by the user, The slave keyboard enters the connection mode by performing the pairing using the pairing information between the Bluetooth master device and the slave keyboard, and for other Bluetooth master devices that are not so selected or selected, The control unit is set in advance by the program or when the USB communication mode is selected by the user, the control unit selects one of the selected USB master device and the selected USB master device, The slave keyboard enters the forced hold mode regardless of the state of the Bluetooth master device, and the Bluetooth communication unit transmits the data or signal transmitted by the control unit to the Bluetooth master unit And transmits the converted signal to the Bluetooth master device or receives a signal from the Bluetooth master device and transmits the signal to the control unit. The USB communication unit, in the USB communication mode, The conversion according to the month - old data or signals to the USB communication protocol to transmit said master USB device, or receive a signal from the master USB device is to transfer to the controller,
Wherein the Bluetooth master device transmits a response signal to the Bluetooth master device when the confirmation signal is received from the Bluetooth master device paired with the keyboard and in the area capable of Bluetooth communication even when the device is in the forced hold mode. Connectable USB combined Bluetooth slave keyboard. The method according to claim 1,
The pairing information is stored in the EEPROM or the flash memory when the first pairing is established between the slave keyboard and a Bluetooth master device in the Bluetooth communication mode. The pairing information includes a Bluetooth device address of the Bluetooth master device, An active member address assigned to the keyboard by the Bluetooth master device, an arbitrary connection number transmitted from the Bluetooth master device at the time of connection, and a keyboard- And a user-specific number that allows the user to select a Bluetooth-enabled Bluetooth slave keyboard. 3. The method of claim 2,
The slave keyboard has 255 pieces of pairing information having a user-designated number from 1 to 255, and the user inputs the user-designated number corresponding to the Bluetooth master device desired by the slave keyboard in the Bluetooth communication mode, And the Bluetooth master device connected to the slave keyboard disconnects from the slave keyboard and enters into a forced hold mode. In the Bluetooth master device connected to the slave keyboard, Bluetooth slave keyboard. 4. The method according to any one of claims 1 to 3,
The keyboard further includes a function key (Fn), and the communication mode of the keyboard is changed from the USB communication mode to the Bluetooth communication mode by pressing the communication mode setting key while the function key is pressed on the slave keyboard If the communication mode of the slave keyboard is the Bluetooth communication mode, the function key is depressed and corresponding to the user specified number corresponding to the Bluetooth master device desired to be connected by the user Wherein the keyboard and the Bluetooth master device are connected to each other when a numeric key and an Enter key are sequentially inputted to the Bluetooth slave keyboard. 5. The method of claim 4,
In order to pair with the user, the slave keyboard and any Bluetooth master device are brought in proximity to each other in the Bluetooth communication mode, and the pairing setting key, the numeric key corresponding to a user-designated number, and the enter key are sequentially input A pairing procedure is performed between the slave keyboard and the corresponding Bluetooth master device, and the pairing information is stored in the EEPROM or the flash memory. delete The method according to claim 1,
Wherein the keyboard has a function of automatically charging a battery with an overcharged car terminal function regardless of a communication mode when the USB cable is connected. The method according to claim 1,
In the forced hold mode, the PM_ADDR signal of the Bluetooth master device that is not selected by the user, that is, the signal used by the Bluetooth master device to turn the slave device of the park mode into the active mode, is ignored, And the Bluetooth slave keyboard can be connected to the USB.

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