JP2003032265A - Radio transmitting device and radio transmitting method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve versatility with respect to the variety of uses, to conserve energy and to reduce cost. SOLUTION: A base-band control part 2 is formed of one integrated circuit (LSI) and incorporates a CPU for realizing a prescribed transmission profile and at least one application profile (AV profile, for example). Data by the AV profile can be transmitted only by the integrated circuit. For realizing head set profile, the desired profile is loaded on an external CPU 4. The transmission profile is performed in the base-band control part 2 and the AV profile and the head set profile are performed in the external CPU 4. They are switched and used by the HCI interface of the incorporated CPU of the base band control part 2.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless transmission device and a wireless transmission method for realizing wireless transmission at an application level based on a profile such as a Bluetooth device.

[0002]

2. Description of the Related Art In recent years, as a wireless communication technology for transmitting and receiving data between various electronic devices by short-range wireless communication, there are features such as easy connection, simple circuit configuration, and low power consumption. Bluetooth is drawing attention. The current Bluetooth format is mainly for the voice level of a telephone or the like, which uses 8 KHz sampling called CVSD as a voice transmission system. In the future,
It may be used for transmitting audio with high fidelity sound quality of CD (sampling frequency = 44.1 kHz) level in a Bluetooth device. In this case, the Bluetooth audio format (Bluetooth advanced audio profile: hereinafter referred to as AV profile) is used.

In any case, the telephone function,
It is composed of a main body having a function of reading audio data from a medium such as a CD, and a headset separately mounted from the main body for the user to directly perform voice output and voice input and output audio data as a musical sound. To be done. By wirelessly transmitting the audio data from the main body to the headset by Bluetooth, the operability and convenience of the user can be improved.

[0004]

By the way, when a Bluetooth device is used for the above-mentioned application, that is, in order to realize a plurality of functions such as a telephone call and audio appreciation by one hardware, a basic transmission is required. In addition to the profiles, multiple application profiles need to be installed on both the body and the headset in order to realize each application. In the conventional Bluetooth device, all the application level profiles including the basic transmission profile have been realized by mounting them on a general-purpose external CPU for controlling each part of the device.

Therefore, in the conventional Bluetooth device, in addition to an LSI (built-in CPU) for controlling the Bluetooth transmission, especially in the case where miniaturization and cost reduction are desired such as a headset. However, there is a problem that it is difficult to reduce the size and reduce the cost because an external CPU has to be mounted.

Therefore, an object of the present invention is to provide a radio transmission apparatus and a radio transmission method which can improve versatility for various uses, save energy and reduce costs.

[0007]

In order to achieve the above object, a wireless transmission device according to the invention of claim 1 is a wireless transmission device which realizes wireless transmission at an application level based on a profile, at least a predetermined transmission. A profile-based transmission software stack, and
And a first software stack based on the first application profile, and control for performing data transmission according to the first application profile with another device based on the transmission software stack and the first software stack. It is characterized by comprising an integrated circuit comprising means.

As a preferred mode, for example, as described in claim 2, in the wireless transmission device according to claim 1, a second application profile different from the first application profile is provided outside the integrated circuit. A second software stack based on the second software stack mounted on the external control means, in place of the first software stack, Data transmission according to the second application profile may be performed with another device.

As a preferred mode, for example, in the wireless transmission device according to claim 2 as described in claim 3, the control means is at an HCI (Host Control Interface) level included in the transmission software stack.
The first software stack and the second software stack installed in the external control means may be switched.

As a preferred aspect, for example, in the wireless transmission device according to claim 1 as described in claim 4, the first application profile may be a profile for transmitting audio data.

In order to achieve the above object, a wireless transmission method according to a fifth aspect of the invention is a wireless transmission method for realizing wireless transmission at an application level based on a profile, wherein at least transmission based on a predetermined transmission profile is performed. A software stack and a first software stack based on a first application profile are mounted on an integrated circuit, and control means built in the integrated circuit controls the transmission software stack and the first software stack based on the transmission software stack. Then, data transmission according to the first application profile is performed with another device.

[0012] As a preferred aspect, for example, as described in claim 6, in the wireless transmission method according to claim 5, a second software stack based on a second application profile different from the first application profile is provided. It is mounted on external control means arranged outside the integrated circuit, and based on the second software stack mounted on the external control means instead of the first software stack by the control means, Data transmission according to the second application profile may be performed with another device.

As a preferred aspect, for example, as described in claim 7, in the wireless transmission method according to claim 6, the second software mounted on the first software stack and the second control means. Software stack is the HC included in the transmission software stack.
The switching may be performed at the I (Host Control Interface) level.

As a preferred aspect, for example, in the wireless transmission method according to claim 5 as described in claim 8, the first application profile may be a profile for transmitting audio data.

According to the present invention, at least a transmission software stack based on a predetermined transmission profile and a first software stack based on a first application profile are mounted on an integrated circuit for controlling wireless transmission, and the transmission software stack and Data transmission according to the first application profile is performed with another device based on the first software stack. Therefore, it becomes possible to realize a basic application profile without mounting a control means on the outside, so that energy saving and cost reduction can be achieved. Further, by mounting another application profile on the external control means and switching at the application profile level, it is possible to cope with various uses and improve versatility.

[0016]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. A. Configuration of Embodiment FIG. 1 is a block diagram showing a schematic configuration of a Bluetooth device according to an embodiment of the present invention. The RF transmitting / receiving unit 1 transmits / receives a wireless signal according to the Bluetooth standard. The baseband control unit 2 controls various signal processing such as communication link control, frequency hopping management, packet retransmission, error correction, and data codec. The baseband control unit 2 is composed of one integrated circuit (LSI), and has a built-in CPU for realizing a prescribed transmission profile and at least one application profile (for example, AV profile).

Here, FIG. 2 is a block diagram of an LSI constituting the baseband control unit 2. Since the configuration itself of the LSI is known, only the main part according to the present invention will be described here. The baseband control unit 2 includes a built-in CPU 10 and an HCI (Host Control I
nterface) by switching at the external C
It executes another application profile implemented in the PU 4 (for example, a headset profile). That is, the profile software built in the baseband control unit 2 and the profile software on the external CPU 4 are switched and used by the HCI interface of the built-in CPU 10.

As a result, in addition to the profile of the built-in profile stack, the external CPU 4 in which other application profiles (for example, a headset profile etc.) are mounted is mounted on the Bluetooth device, so that data in a plurality of profiles can be obtained. It enables transmission. HCI level API (Applicatio
Communication by the n program interface) is performed with the external CPU 4 via the UART 11.

The DSP 12 reads the transport frame of the audio codec, recognizes the compression method, and decodes the audio codec. Audio codecs include SBC, ATRAC3,
It is possible to format in a plurality of formats such as MP3.

The DAC & ADC 3 digitizes the audio signal and analogizes the digitized audio data. The external CPU 4 controls each part of the Bluetooth device at the application level of the device, and has profile software other than the above-described profile (for example, a profile for a handset) installed.

Next, a protocol stack in Bluetooth will be briefly described. The lowest layer of the transport layer is called a baseband packet, and CRC is added to the header. On top of that, L2CA
An RTP packet for audio transport is carried on the P packet and the L2CAP packet. A transport frame of each codec is placed on the RTP packet, and the header of the transport frame is C
RC is added. The transport frame of the audio codec rides on the RTP packet.

More specifically, the protocol stack is
As shown in FIG. 3, baseband control, LM
There are P, HCI, and L2CAP layers, and an AV transport protocol, which is an audio profile stack, is mounted on L2CAP. The HCI level API is issued via the external CPU 4 and the UART 11, and the external CPU 4
Profile stack on 4 (other applications,
Other stacks) are connected by an HCI level API. The API at the L2CAP level is used as an interface with the AV transport protocol.

Switching between API and L2CAP in HCI is performed by the built-in C of the LSI constituting the baseband control unit 2.
External C is performed by software switch by PU10
Whether or not the PU4 is in the HCI level API mode is set, and switching is performed based on the setting. Immediately after switching, all registers are reset to keep the previous state.

B. Operation of Embodiment Next, the operation of the above-described embodiment will be described. First, a case will be described where a Bluetooth device wirelessly transmits audio data from a medium such as a CD to another Bluetooth device (for example, an audio output device such as headphones equipped with Bluetooth). In this case, the Bluetooth device according to the present embodiment uses the AV profile installed inside the LSI configuring the baseband control unit 2, as shown in FIG. The external CPU 4 performs drive control of the pickup, read control of audio data, and the like.

Next, in the case where the Bluetooth device has a telephone function in addition to an audio reproducing function, in addition to the AV profile, the device body and the headset worn by the user are connected. The case of transmitting and receiving voice data wirelessly will be described below. In this case, in the Bluetooth device according to the present embodiment, as shown in FIG. 5, the baseband control unit 2 executes the software stack related to the basic transmission profile up to the HCI layer, and the external CPU 4 performs the AV of the L2CAP layer and thereafter. Runs the software stack associated with the profile and the software stack associated with the headset profile.

FIG. 6 is a conceptual diagram showing a protocol stack based on the AV profile and the headset profile. In headset profile, L2CAP
RFCOMM rides on top of the ATCOMMAN
d, the headset application gets on. At this time, the HCI level API is the same as the external CPU 4 and the UART.
Issued via 11. The profile stack (another application, another stack) on the external CPU 4 is connected by an HCI level API. Switching between the HCI level API and the L2CAP is performed by a software switch by the built-in CPU 10 of the LSI configuring the baseband control unit 2.

According to the above-described embodiment, in the case of an audio profile, a CPU for profile stack is not required externally, and the function can be realized only by the baseband LSI, so that cost reduction and saving can be achieved. Energy can be realized. In order to realize other profiles, the same baseband control unit (LSI) 2 can be used by stacking the software stack for the profile on the external CPU 4, and the chip has both versatility and speciality. be able to.

[0028]

According to the invention described in claim 1, at least a transmission software stack based on a predetermined transmission profile and a first software stack based on a first application profile are provided in an integrated circuit for controlling wireless transmission. The control means is mounted externally, since the data transmission is performed with the other device based on the transmission software stack and the first software stack according to the first application profile. Without the above, a basic application profile can be realized, and there is an advantage that energy saving and cost reduction can be achieved.

According to a second aspect of the present invention, the control means replaces the first software stack with the second software stack installed in the external control means, and Since the data transmission is performed with the device according to the second application profile, it is possible to cope with various uses and improve the versatility.

According to a third aspect of the present invention, the control means mounts the first software stack and the external control means at an HCI (Host Control Interface) level included in the transmission software stack. Since the second software stack is switched to the existing second software stack, it is possible to deal with various applications and improve versatility.

According to the invention of claim 4, since the first application profile is a profile for transmitting audio data, a basic application profile can be obtained without mounting external control means. Can be realized, and there is an advantage that energy saving and cost reduction can be achieved.

According to a fifth aspect of the present invention, at least a transmission software stack based on a predetermined transmission profile and a first software stack based on a first application profile are mounted on an integrated circuit, and the integrated circuit is integrated. Since the control means built into the circuit is configured to perform data transmission according to the first application profile with another device based on the transmission software stack and the first software stack, Without mounting control means on
The basic application profile can be realized, and the advantages of energy saving and cost reduction can be obtained.

According to a sixth aspect of the present invention, the control means replaces the first software stack with the second software stack installed in the external control means, and Since the data transmission is performed with the device according to the second application profile, it is possible to cope with various uses and improve the versatility.

Further, according to the invention of claim 7, the control means mounts the first software stack and the external control means at an HCI (Host Control Interface) level included in the transmission software stack. Since the second software stack is switched to the existing second software stack, it is possible to deal with various applications and improve versatility.

According to the invention described in claim 8, since the first application profile is a profile for transmitting audio data, a basic application profile can be provided without mounting control means outside. Can be realized, and there is an advantage that energy saving and cost reduction can be achieved.

[Brief description of drawings]

FIG. 1 is a block diagram showing a schematic configuration of a Bluetooth device according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration of an LSI of a baseband control unit 2.

FIG. 3 is a conceptual diagram for explaining a protocol stack including an AV profile and another profile.

FIG. 4 is a conceptual diagram for explaining the operation of the Bluetooth device according to the present embodiment.

FIG. 5 is a conceptual diagram for explaining the operation of the Bluetooth device according to the present embodiment.

FIG. 6 is a conceptual diagram showing a protocol stack based on an AV profile and a headset profile.

[Explanation of symbols]

1 ... RF transceiver section, 2 ... baseband control section (integrated circuit), 3 ... DAC & ADC, 4 ... external CPU (external control means), 10 ... internal CPU (control means), 11
...... UART, 12 ... DSP

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Toru Hayashibara             6-735 Kita-Shinagawa, Shinagawa-ku, Tokyo Soni             -Inside the corporation (72) Inventor Takuya Kakiyama             6-735 Kita-Shinagawa, Shinagawa-ku, Tokyo Soni             -Inside the corporation (72) Inventor Noboru Nakagawa             6-735 Kita-Shinagawa, Shinagawa-ku, Tokyo Soni             -Inside the corporation F term (reference) 5K033 AA04 BA01 BA14 CB00 DA17                       EC01

Claims (8)

[Claims] 1. A wireless transmission device that realizes wireless transmission at an application level based on a profile, wherein at least a transmission software stack based on a predetermined transmission profile and a first software stack based on a first application profile. An integrated circuit is provided, which is mounted and has control means for performing data transmission according to the first application profile with another device based on the transmission software stack and the first software stack. Wireless transmission device. 2. An external control means, which comprises a second software stack based on a second application profile different from the first application profile, is provided outside the integrated circuit, and the control means comprises: Instead of the first software stack, the second software stack installed in the external control means is used to perform data transmission with another device according to the second application profile. The wireless transmission device according to claim 1. 3. The control means is an HCI (Host Control Interface) included in the transmission software stack.
3. The wireless transmission device according to claim 2, wherein the first software stack and the second software stack installed in the external control means are switched at a level. 4. The wireless transmission device according to claim 1, wherein the first application profile is a profile for transmitting audio data. 5. A wireless transmission method for realizing wireless transmission at an application level based on a profile, comprising at least a transmission software stack based on a predetermined transmission profile and a first software stack based on a first application profile. Based on the transmission software stack and the first software stack, the control means mounted on the integrated circuit and the control means built in the integrated circuit transmits data according to the first application profile to another device. A wireless transmission method comprising: 6. A second software stack based on a second application profile different from the first application profile is mounted on an external control means arranged outside the integrated circuit, and the control means causes the second software stack to be installed. In place of the first software stack, the second controller mounted on the external control means is used.
6. The wireless transmission method according to claim 5, wherein data transmission according to the second application profile is performed with another device based on the software stack of. 7. The first software stack and the second software stack mounted on the second control means are switched at an HCI (Host Control Interface) level included in the transmission software stack. 7. The wireless transmission method according to claim 6, wherein: 8. The wireless transmission method according to claim 5, wherein the first application profile is a profile for transmitting audio data.