Search Images Maps Play YouTube News Gmail Drive More »
Sign in
Screen reader users: click this link for accessible mode. Accessible mode has the same essential features but works better with your reader.

Patents

  1. Advanced Patent Search
Publication numberUS20030104836 A1
Publication typeApplication
Application numberUS 10/287,853
Publication dateJun 5, 2003
Filing dateNov 1, 2002
Priority dateNov 21, 2001
Also published asCN1420671A, CN100337462C, US7206603, US20050208963
Publication number10287853, 287853, US 2003/0104836 A1, US 2003/104836 A1, US 20030104836 A1, US 20030104836A1, US 2003104836 A1, US 2003104836A1, US-A1-20030104836, US-A1-2003104836, US2003/0104836A1, US2003/104836A1, US20030104836 A1, US20030104836A1, US2003104836 A1, US2003104836A1
InventorsMasahito Shinohara
Original AssigneeNec Corporation
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Cellular radio telephone set
US 20030104836 A1
Abstract
This invention relates to a cellular radio telephone set having a USB peripheral circuit which realizes a USB connection function. When the cellular radio telephone set is connected to an information processing terminal apparatus via a USB cable, a voltage Vbus supplied from the information processing terminal apparatus is regulated and supplied to the USB peripheral circuit. When the cellular radio telephone set is not connected to the information processing terminal apparatus via the USB cable, an application CPU which controls the USB peripheral circuit is shifted to a sleep mode.
Images(3)
Previous page
Next page
Claims(14)
What is claimed is:
1. A cellular radio telephone set having a USB peripheral circuit which realizes a USB connection function, wherein when the cellular radio telephone set is connected to an information processing terminal apparatus via a USB cable, a voltage Vbus supplied from the information processing terminal apparatus is regulated and supplied to the USB peripheral circuit.
2. A cellular radio telephone set having a USB peripheral circuit which realizes a USB connection function, wherein when the cellular radio telephone set is not connected to an information processing terminal apparatus via a USB cable, an application CPU which controls the USB peripheral circuit is shifted to a sleep mode.
3. A cellular radio telephone set having a USB peripheral circuit which realizes a USB connection function, wherein when the cellular radio telephone set is connected to an information processing terminal apparatus via a USB cable, a voltage Vbus supplied from the information processing terminal apparatus is regulated and supplied to the USB peripheral circuit, and when the cellular radio telephone set is not connected to the information processing terminal apparatus via the USB cable, an application CPU which controls the USB peripheral circuit is shifted to a sleep mode.
4. A cellular radio telephone set having a USB peripheral circuit which realizes a USB connection function, wherein when the cellular radio telephone set is not connected to an information processing terminal apparatus via a USB cable, an application CPU which controls the USB peripheral circuit is shifted to a sleep mode, and when the cellular radio telephone set is connected to the information processing terminal apparatus via the USB cable, the application CPU is waked up.
5. A telephone set according to claim 2, wherein the sleep mode includes a low-power consumption operation mode.
6. A telephone set according to claim 3, wherein the sleep mode includes a low-power consumption operation mode.
7. A telephone set according to claim 4, wherein the sleep mode includes a low-power consumption operation mode.
8. A telephone set according to claim 1, wherein whether the cellular radio telephone set is connected to the information processing terminal apparatus via the USB cable is determined by detecting presence/absence of the voltage Vbus supplied from the information processing terminal apparatus.
9. A telephone set according to claim 2, wherein whether the cellular radio telephone set is connected to the information processing terminal apparatus via the USB cable is determined by detecting presence/absence of the voltage Vbus supplied from the information processing terminal apparatus.
10. A telephone set according to claim 3, wherein whether the cellular radio telephone set is connected to the information processing terminal apparatus via the USB cable is determined by detecting presence/absence of the voltage Vbus supplied from the information processing terminal apparatus.
11. A telephone set according to claim 4, wherein whether the cellular radio telephone set is connected to the information processing terminal apparatus via the USB cable is determined by detecting presence/absence of the voltage Vbus supplied from the information processing terminal apparatus.
12. A telephone set according to claim 5, wherein whether the cellular radio telephone set is connected to the information processing terminal apparatus via the USB cable is determined by detecting presence/absence of the voltage Vbus supplied from the information processing terminal apparatus.
13. A cellular radio telephone set having a USB connection function, comprising a USB connector which is connected to a USB cable connected to an information processing terminal apparatus including a personal computer, a USB device controller circuit for communicating with the information processing terminal apparatus via the USB connector connected to the USB cable, an application CPU-which controls the whole USB, a control CPU which controls the whole cellular radio telephone set, a regulator circuit which converts a voltage Vbus supplied from the information processing terminal apparatus via the USB cable into a voltage for the USB device controller circuit, and a Vbus detection circuit which detects presence/absence of the voltage Vbus.
14. A telephone set according to claim 13, wherein said USB device controller circuit comprises a D+ pull-up circuit which pulls up a signal D+ for data communication with the information processing terminal apparatus, a controller which controls said D+ pull-up circuit, and a transmission/reception circuit which performs transmission/reception of USB data communication.
Description
BACKGROUND OF THE INVENTION

[0001] 1. Field of the Invention

[0002] The present invention relates to a cellular radio telephone set and, more particularly, to a cellular radio telephone set having a USB (Universal Serial Bus) peripheral circuit which realizes a USB connection function.

[0003] 2. Description of the Prior Art

[0004] Cellular radio telephone sets are desired to have reduced size and weight for portability, and their internal batteries are also reduced in size and weight. However, a small-size, light-weight internal battery means a short service life. The cellular radio telephone must always be ON to ensure a long standby time because the user does not know when he/she may receive an incoming call. Therefore, the cellular radio telephone set must reduce its power consumption to prolong the standby time.

[0005] Recent cellular radio telephone sets are connected to information processing terminal apparatuses such as a personal computer (to be simply referred to as a PC hereinafter) and a PDA (Personal Digital Assistants), realizing information exchange with the information processing terminal apparatuses and mobile communication using the telephone network of the cellular radio telephone set. At this time, the information processing terminal apparatus and cellular radio telephone set are connected using, e.g., a USB.

[0006] In the use of the USB, the cellular radio telephone set must be newly equipped with a USB peripheral circuit such as a USB device controller circuit. Power for operating the USB peripheral circuit is further required.

[0007] For the USB, a suspend mode is generally prepared. Using the suspend mode can reduce the power consumption of the USB peripheral circuit when the cellular radio telephone set is not connected to the information processing terminal apparatus.

[0008] Even the suspend mode cannot completely eliminate the power consumption of the USB peripheral circuit, and a current of about 500 mA may flow at maximum. Demands have arisen for a further improvement in this respect.

SUMMARY OF THE INVENTION

[0009] The present invention has been made in consideration of the above situation, and has as its object to provide a cellular radio telephone set having a USB connection function capable of minimizing the power consumption of the internal battery of the cellular radio telephone set both when the cellular radio telephone set is connected to an information processing terminal apparatus via a USB cable and when it is not connected to it.

[0010] To achieve the above object, according to the first principal aspect of the present invention, there is provided a cellular radio telephone set having a USB peripheral circuit which realizes a USB connection function, wherein when the cellular radio telephone set is connected to an information processing terminal apparatus via a USB cable, a voltage Vbus supplied from the information processing terminal apparatus is regulated and supplied to the USB peripheral circuit, and when the cellular radio telephone set is not connected to the information processing terminal apparatus via the USB cable, an application CPU which controls the USB peripheral circuit is shifted to a sleep mode.

[0011] In the cellular radio telephone set according to the first principal aspect, the sleep mode includes a low-power consumption operation mode.

[0012] In the cellular radio telephone set according to the first principal aspect, whether the cellular radio telephone set is connected to the information processing terminal apparatus via the USB cable is determined by detecting presence/absence of the voltage Vbus supplied from the information processing terminal apparatus.

[0013] To achieve the above object, according to the second principal aspect of the present invention, there is provided a cellular radio telephone set having a USB connection function, comprising a USB connector which is connected to a USB cable connected to an information processing terminal apparatus including a personal computer, a USB device controller circuit for communicating with the information processing terminal apparatus via the USB connector connected to the USB cable, an application CPU which controls the whole USB, a control CPU which controls the whole cellular radio telephone set, a regulator circuit which converts a voltage Vbus supplied from the information processing terminal apparatus via the USB cable into a voltage for the USB device controller circuit, and a Vbus detection circuit which detects presence/absence of the voltage Vbus.

[0014] In the cellular radio telephone set according to the second principal aspect, the USB device controller circuit comprises a D+ pull-up circuit which pulls up a signal D+ for data communication with the information processing terminal apparatus, a controller which controls the D+ pull-up circuit, and a transmission/reception circuit which performs transmission/reception of USB data communication.

[0015] As is apparent from the above aspects, according to the present invention, the cellular radio telephone set having the USB connection function can minimize the power consumption of the internal battery of the cellular radio telephone set both when the cellular radio telephone set is connected to an information processing terminal apparatus via a USB cable and when it is not connected to it.

[0016] The present invention can reduce the power consumption of the internal battery in the standby state of the cellular radio telephone set and prolong the standby time.

[0017] The above and many other objects, features and advantages of the present invention will become manifest to those skilled in the art upon making reference to the following detailed description and accompanying drawings which a preferred embodiment incorporating the principle of the present invention are shown by way of an illustrative example.

BRIEF DESCRIPTION OF THE DRAWINGS

[0018]FIG. 1 is a block diagram showing the power control arrangement of the USB peripheral circuit of a cellular radio telephone set according to an embodiment of the present invention; and

[0019]FIG. 2 is a flow chart showing the operation of the cellular radio telephone set shown in FIG. 1.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0020] A preferred embodiment of the present invention will be described in detail below with reference to the accompanying drawings.

[0021] In the present invention, a USB peripheral circuit in a cellular radio telephone set is operated by only power supplied from an information processing terminal apparatus such as a PC serving as a host, preventing the consumption of the internal battery of the cellular radio telephone set. When the cellular radio telephone set is not connected to the information processing terminal apparatus such as a PC, the application CPU is also shifted to a sleep mode, i.e., low-power consumption operation mode, reducing the power consumption of the internal battery of the cellular radio telephone set.

[0022] The present invention comprises a circuit which regulates a voltage Vbus supplied from the information processing terminal apparatus and supplies the regulated voltage to the USB peripheral circuit, and a circuit which detects Vbus. Vbus is supplied to a USB device controller circuit to prevent the consumption of the internal battery of the cellular radio telephone set. The application CPU is shifted to the low-power consumption operation mode to reduce the power consumption of the internal battery of the cellular radio telephone set.

[0023]FIG. 1 is a block diagram showing the power control arrangement of the USB peripheral circuit of the cellular radio telephone set according to the embodiment of the present invention.

[0024] The cellular radio telephone set of the embodiment comprises a USB connector 1 which is connected to a USB cable connected to an information processing terminal apparatus such as a PC, a USB device controller circuit 2 for communicating with the information processing terminal apparatus via the USB connector 1 connected to the USB cable, an application CPU 4 which controls the whole USB, a control CPU 5 which controls the entire cellular radio telephone set, a regulator circuit 6 which converts the voltage Vbus supplied from the information processing terminal apparatus via the USB cable into a voltage for the USB device controller circuit 2, and a Vbus detection circuit 7 which detects the presence/absence of the voltage Vbus.

[0025] The USB device controller circuit 2 comprises a D+ pull-up circuit 3 which pulls up a signal D+ for data communication with the information processing terminal apparatus, a controller 8 which controls the D+ pull-up circuit 3, and a transmission/reception circuit 9 which performs transmission/reception of USB data communication.

[0026] As shown in FIG. 1, the cellular radio telephone set of the embodiment comprises the regulator circuit 6 which converts 5V Vbus into 3.3V and supplies 3.3V to the USB device controller circuit 2. This can prevent the power consumption of the cellular radio telephone set.

[0027] The cellular radio telephone set of the embodiment further comprises the Vbus detection circuit 7. When the Vbus detection circuit 7 detects the presence of Vbus, the control CPU 5 shifts the application CPU 4 to the sleep mode, thereby reducing the power consumption. When the Vbus detection circuit 7 detects the presence of Vbus, the control CPU 5 wakes up the application CPU 4. The USB device controller circuit 2 is so controlled as to pull up D+. A sequence of communicating with the information processing terminal apparatus such as a PC is realized.

[0028] The cellular radio telephone set of this embodiment will be explained in more detail with reference to FIG. 1.

[0029] The regulator circuit 6 converts 5V Vbus supplied via the USB connector 1 into 3.3V, and supplies this regulated voltage (3.3V) to the USB device controller circuit 2.

[0030] The USB device controller circuit 2 incorporates the pull-up circuit 3 which pulls up D+ under the control of the controller 8. The cellular radio telephone set comprises the Vbus detection circuit 7. A Vbus detection signal from the Vbus detection circuit 7 is sent to the control CPU 5. The control CPU 5 shifts the application CPU 4 to the sleep mode or wakes it up on the basis of the Vbus detection signal.

[0031] When the cellular radio telephone set is not connected to the information processing terminal apparatus such as a PC, no Vbus, D+, or D− is supplied to the cellular radio telephone set. In this state, no power is supplied to the USB device controller circuit 2. At this time, the Vbus detection circuit 7 detects that no Vbus is supplied. The control CPU 5 shifts the application CPU 4 to the low-power consumption operation mode (e-g-, decreases the operation clock or turns off the power supply of a specific block). Accordingly, the power consumption of the internal battery in the standby state of the cellular radio telephone set can be reduced.

[0032] When the cellular radio telephone set is connected to the information processing terminal apparatus, Vbus is converted into 3.3 V by the regulator circuit 6 and then supplied to the USB device controller circuit 2. The Vbus detection circuit 7 detects Vbus, and a Vbus detection signal is recognized by the control CPU 5.

[0033] The subsequent operation will be explained with reference to the flow chart of FIG. 2.

[0034] If the information processing terminal apparatus and cellular radio telephone set are connected by a USB cable (A-1), the Vbus detection circuit 7 detects Vbus (connection to the host). At the same time, power is supplied to the USB device controller circuit 2 (A-2).

[0035] The control CPU 5 wakes up the application CPU 4 on the basis of a Vbus detection signal from the Vbus detection circuit 7 ((A-3) and (A-4)). After the end of activation, the application CPU 4 initializes the USB device controller circuit 2 (A-5).

[0036] The controller 8 and D+ pull-up circuit 3 of the USB device controller circuit 2 pull up D+(A-6). In response to D+ pull-up operation, USB communication starts (A-7).

[0037] Note that execution of D+ pull-up operation before activation of the application CPU causes a problem in USB connection and should be avoided.

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US7184794 *Sep 9, 2004Feb 27, 2007Motorola, Inc.Electronic apparatus and system with multi-purpose interface
US7898994 *Dec 5, 2006Mar 1, 2011Hewlett-Packard Development Company, L.P.Power saving in multi-processor device
US8442476Jul 20, 2007May 14, 2013Cresta Technology CorporationMobile radio receiver power management systems and methods
US8806094 *Feb 3, 2012Aug 12, 2014Analogix Semiconductor, Inc.Transfer of uncompressed multimedia contents or data communications
US20120178460 *Mar 19, 2012Jul 12, 2012Allan David LewisBypass routing to a mobile device
US20120203937 *Feb 3, 2012Aug 9, 2012Soumendra MohantyTransfer of Uncompressed Multimedia Contents or Data Communications
WO2009014909A2 *Jul 10, 2008Jan 29, 2009Cresta Technology CorpMobile radio receiver power management systems and methods
Classifications
U.S. Classification455/557, 455/559
International ClassificationH04W52/02, H04M1/00, H04M1/725, H04M1/67, H04M1/73, H04B7/26
Cooperative ClassificationH04W52/0267, Y02B60/50, H04M1/72527
European ClassificationH04W52/02T8C, H04M1/725F1B
Legal Events
DateCodeEventDescription
Nov 1, 2002ASAssignment
Owner name: NEC CORPORATION, JAPAN
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:SHINOHARA, MASAHITO;REEL/FRAME:013470/0343
Effective date: 20021029