SE521254C2 - Interface between mobile phone and different network standards - Google Patents

Description

WO 99/09771 discloses a travel converter for a mobile telephone. With this converter it is possible to connect the mobile telephone to the travel converter, whereby the converter converts and provides access to a communication network which is not supported by the mobile telephone. The communications network could be Advanced Mobile Phone Service, Digital Advanced Mobile Phone Service, Global System for Mobile communications and other global or Asian satellite systems. The travel converter has connectors for the Personal Computer Memory Card International Association connector, a ribbon cable, wireless communication link with radio frequencies such as infrared, and others.

The above-mentioned travel converter uses standard for communication with a telecommunication network, but does not use a widely known supplier-independent interface to the mobile telephone for communication with the travel converter.

An object of the present invention is therefore to provide an exemplary communication device which allows a given small sized mobile telephone to be connected to any telecommunication standard anywhere.

This is achieved when the access point specified in the introduction is characterized by the access point being set up to provide a wireless communication link for the telecommunication network.

Such an access point thus provides wireless communication with a telecommunication network by means of a mobile cellular telephone despite the fact that the mobile telephone does not support the cellular telephone system used in the area in which the cellular telephone is used. The communication via the access point can be completely transparent for a user of a mobile phone who communicates via the access point. For example, the access point can be placed in a bag while the user is walking around. When the access point is portable, it is particularly suitable for use in connection with a mobile telephone or other portable devices.

In a preferred embodiment, the physical dimensions of the access point are less than 13 cm x 5 cm x 3 cm. Such a size is suitable for taking the access point into e.g. a bag.

When the access point is battery-powered, the access point is suitable for use on the go with a mobile cellular telephone.

The first communication means can be set up to operate according to bluetooth standard.

In this way, the access point will be able to communicate with most types of mobile cellular telephones or other consumer electronic products.

In a preferred embodiment, the second communication means is arranged to be operated according to PDC, PHS, GSM, PCS, D-AMPS, PDC / PHS, GSM / PDC or D-AMPS / PCS standard. This supports at least one of the most widespread telecommunications standards.

The communication device may further comprise communication means for providing wired line communication. This increases the flexibility of the communication device, allowing e.g. cheaper communication costs.

The first communication means can be connected to the second communication means for transmitting voice signals and / or data signals.

The first communication means may provide wireless communication with second communication means over a relatively long distance; the other communication means can provide wireless communication with other means of communication over a relatively short distance. This saves battery power. The communication system may further comprise a mobile cellular telephone having a user interface and a third communication means for providing communication with the second communication means.

The invention below will be fully explained in connection with a preferred embodiment and with reference to the drawing, in which: Figs. 1 shows a telecommunication system comprising cellular mobile telephones; Fig. 2 shows a block diagram of a mobile cellular telephone and an access point according to the invention; F ig. 3 shows a state diagram for the operation of the access point; Fig. 4 shows a fate diagram of a preferred control diagram for controlling which communication means is to be used; and Fig. 5 shows a physical embodiment of a portable access point according to the invention.

Fig. 1 shows a telecommunication system comprising cellular mobile telephones.

Area 101 illustrates the coverage provided by a mobile telecommunications provider using a telecommunications standard, e.g. The GSM standard. This standard is used in Europe. A user with access privilege and a GSM cellular telephone 106 can communicate with other users with access privilege and a GSM cellular telephone 107 via equipment 104 provided by the telecommunication provider.

The equipment 104 is connected to a telecommunications network 103 which allows communication with users using other telecommunications providers providing GMS cellular telephony, other types of cellular telephony, satellite telephony, public switched telephony network (PSTN), etc.

Another area 102 illustrates the coverage provided by another mobile telecommunications provider using a different telecommunications standard, e.g. PDC standards. This standard is used in Japan. A user with access privilege and a PDC cellular telephone 108 can communicate with other users, as described above, via the equipment 105 provided by the telecommunication provider and connected to the telecommunication network 103.

Thus, a user having a GSM cellular telephone can use this telephone in the area 101 and communicate with any other user having a telephone and access privilege. Similarly, a user having a PDC cellular telephone can use this telephone in area 102 and communicate with any other user. But a user who lives in area 101, e.g. Europe, and therefore have bought a GSM phone 106 can not use this phone in the area 102, e.g. Japan, because the GSM system is not used in this area.

According to the present invention, there is provided an access point 110 arranged to provide access for e.g. The GSM telephone 107, intended for use in the area 101, for the telecommunication network 103. As a result, the GSM telephone 107 can be used in the area 102 despite the fact that there is no GSM coverage in this area.

A system 109 comprising the telephone 107 and the access point 110 is arranged to communicate via a standard communication link, e.g. a Bluetooth link. However, other communication systems may be used for communication between the access point 110 and the mobile telephone 107.

Fig. 2 shows a block diagram of a mobile cellular telephone and an access point according to the invention. The mobile telephone 201 and the access point 210 correspond to the system 109. The mobile telephone 201 comprises communication means 207 with an antenna 206 for providing access to a telecommunication network. The mobile telephone 201 further includes communication means 204 with an antenna 205 for providing communication via the access point 210.

A so-called user interface (MMI) 202 includes a display, a keypad, a speaker, a microphone, etc. - this is well known to a person skilled in the art. Voice 10 15 20 25 30 521 254 6 / data interface 209 is arranged to allow the mobile telephone to receive voice commands and exchange data information with peripherals, e.g. briefcases, a headphone, etc.

The control unit 203 is arranged to control the switch 208 to select which of the two communication means 205, 206 is to be used for communication of voice / data information. The control unit 203 can determine which of the two communication means 205, 206 is to be used in response to a control scheme. When the GSM communication means 107 is selected, the switch 208 is in a "GSM mode". When the Bluetooth communication means 104 is selected, the switch 208 is in a "Bluetooth mode". A preferred control scheme for controlling the switch 208 is described below.

A portable access point 210 includes communication means 213 with an antenna 214 for providing access to a telecommunication network. The portable access point 210 further includes communication means 216 with an antenna 215 for allowing the mobile telephone 201 to communicate via the access point 210. The operation of the access point is controlled by the control unit 212 and is described in the following. The access point is battery powered by the battery 211.

In addition, in a preferred embodiment, the access point is also arranged to provide wired line communication.

F ig. 3 shows a state diagram for the operation of the access point. To control the operation of the access point, three Boolean variables are used: REQUEST, UPDATE, and EXIT. The variable “REQUEST” is secured via the Bluetooth communication device in response to a request from a mobile phone requesting to use the access point. The variable "UPDATE" is similarly insured by the Bluetooth communication means in response to a request from a mobile phone requesting receipt of status information for the access point. Such status information may include the level with respect to on the battery charge, the level of signals received by the PDC communication means, etc. The variable “EXIT” can be ensured by a mobile telephone terminating its use of the access point or by the end of a time interval which starts when the communication via the Bluetooth link ends.

Initially, and as long as the REQUEST variable is not confirmed, the access point is located in a standby state 301 in which the battery power consumption is low. Once the REQUEST variable is confirmed, the PDC communication means will turn on in state 302 to enable PDC communication. Furthermore, in state 303, the Bluetooth (BT) communication means is turned on to allow Bluetooth communication. In state 305, a mobile telephone is allowed to use the access point for telecommunications. When the UPDATE variable is confirmed, the access point will send status information to the mobile phone. The mobile phone can also send voice and / or identification information to the access point. The access point is set to standby state 301 when the variable EXIT has been confirmed.

Fig. 4 shows a fate plan for a preferred control plan in a mobile telephone for selecting communication means. In step 401 the mobile telephone is switched on and in step 402 the mobile is set to GSM state (by means of the switch 108) as the starting unit. In step 403, it is verified whether GSM operation is possible, e.g. by measuring the signal strength received by the GSM communication means. If the switch 208 is not in the "GSM state", this state is selected. If GSM operation is possible (J a), GSM operation is enabled in step 404, i.e. incoming and outgoing calls including voice, data, and text messages are processed. It is repeatedly verified whether GSM operation is possible by repeatedly returning to step 403.

If GSM operation is not possible, ie. the result of the confirmation in step 403 is No, it is confirmed in step 405 whether there is an access point. This includes setting the switch 208 to "Bluetooth mode". If there is no access point 10 15 20 25 521 254 8 (No), enter step 403 again. Alternatively, if an access point is present, a request to use the access point is sent and the confirmation variable REQUEST is sent in step 406. If this request is successful, an update request is sent, confirming the variable UPDATE. The information received in response to this is used to determine the operating state of the access point. The operating status of the access policy can be presented to a user via the user interface in the mobile phone. In step 408, PDC communication is allowed via the access point if the access point of the access point satisfies a predefined criterion.

One such criterion may be that a pre-determined battery change level is found to have a pre-set signal strength, etc.

Fig. 5 shows a physical embodiment of a portable access point according to the invention.

This physical embodiment includes the communication circuit 110. The portable access point 501 includes an antenna 502, a battery charge level indicator 503, and a signal strength indicator 504. The portable access point has a length L of about 13 cm, a width W of about 5 cm and a height H which is about 3 cm.

This size is suitable for carrying the portable access point in a bag, in a bag, etc. However, a smaller size is possible and will further increase the suitability of such a portable access point. The physical antenna 502 corresponds to the antenna 214 which allows communication with a telecommunication network. The antenna 215 can be incorporated as an antenna integrated on a printed circuit board (PCB) inside the access point 501. Similarly, the antenna 214 can be incorporated on a whimsy circuit board.

This invention is not limited to the above description of a preferred embodiment. For example, communication means 207 and 213 may be arranged to operate in accordance with PDC, PHS, GSM, PCS, D-AMPS, PDC / PDC, GSM / PDC, D-AMPS / PCS standard, or any other standard.

Claims (9)

10 15 20 25 30 521 254 PATENT REQUIREMENTS An access point (110; 210; 501) for connecting a mobile telephone (107; 201) to a telecommunication network (103), comprising first communication means (216) for providing a wireless communication link for the mobile telephone (107; 201). ); and second communication means (213) for providing a communication link for the telecommunication network (103), the access point (110; 210; 501) being arranged to provide a wireless communication link for the telecommunication network (103), characterized in that the first communication means ( 216) is set up to operate in accordance with the Bluetooth standard. Access point (110; 210; 501) according to claim 1, characterized in that the access point is portable. Access point (1 10; 210; 501) according to claims 1-2, characterized in that the physical dimensions of the access point are less than 13 cm x 5 cm x 3 cm. Access point (110, 210; 501) according to claims 1-3, characterized in that the access point is battery-powered. Access point (110; 210; 501) according to claims 1-4, characterized in that the second communication means (213) is arranged to be operated in accordance with PDC, PHS, GSM, PCS, D-AMPS, PDC / PHS, GSM / PDC or D-AMPS / PCS standard. Access point (110; 210; 501) according to claims 1-5, characterized in that the communication device further comprises communication means (212) for providing wired line communication. 10 15 20 25 521 254 10 Access point (110; 210; 501) according to claims 1-6, characterized in that the first communication means (216) is connected to the second communication means (213) for transmitting voice signals and / or data signals. Access point (110; 210; 501) according to claims 1-7, characterized in that the first communication means (216) can provide wireless communication with second communication means over a relatively short distance; and that the second communication means (213) can provide wireless communication with other communication means over a relatively long distance. Communication system (109; 201, 210) according to claims 1-8, characterized in that the communication system further comprises a mobile cellular telephone (107; 201) with a user interface and a third communication means (204) for providing communication with the first communication means. .