KR100491686B1 - Battery-backup system and method for base unit of wireless telephone system - Google Patents

Abstract

The wireless telephone system includes one or more wireless handsets and a base unit. Each handset has a handset transceiver and a rechargeable handset battery for powering the handset. The base unit includes a base transceiver for communicating with each handset on an RF channel via a handset transceiver of each handset, a charging cradle for physically docking a docking handset battery including one of a detachable handset battery and a handset, and the docking And a recharging unit for charging the handset battery. The base unit is connected to an AC power source and uses the docking handset battery as a backup power source to prevent interruption of communication between the base unit and the handset if AC power from the AC power source is lost or irregular. .

Description

BATTERY-BACKUP SYSTEM AND METHOD FOR BASE UNIT OF WIRELESS TELEPHONE SYSTEM}

TECHNICAL FIELD The present invention relates to multi-line wireless telephone systems, and in particular, to techniques for ensuring communication in spite of power loss and irregularity.

The use of telephones and telephone systems, including wireless telephone systems, has become universal. In a cordless telephone system, one or more cordless or wireless telephone handset units communicate with the base unit via analog or digital radio signals, which are generally external telephones via standard telephone lines. Connected to the network. In this manner, a user can use a wireless handset for phone calls with other users via the base unit and the telephone network.

Multi-line wireless telephone systems are also used in a variety of environments, such as businesses with many telephone users. Such systems typically use handsets that simultaneously communicate with up to N handsets through digital communication structures, such as spread spectrum time division multiple access (TDMA). In a TDMA system, a single RF channel is used and each handset transmits and receives data during a dedicated time slice or slot within an entire period or epoch. Since handsets are generally battery powered, efficient power utilization is important in wireless systems. Since the base unit usually requires more power than operating the handset, it is usually powered by an external AC power source. Irregularities such as power loss or instantaneous power spikes or glitch may occur on the AC power source, which can cause communication to be interrupted. For example, glitches in the power supply may result in TDMA synchronization loss. In British Patent Application No. GB 2 279 827, published January 11, 1995, a cell powered battery is provided through a first current source and a first port. A base unit capable of recharging a battery on a device (e.g. a cordless telephone handset) and simultaneously recharging a spare battery pack for the portable device through a second current source and a second port, charges the battery and normally In the event of failure of an external power source that provides power to the base unit, a back power switch may connect an extra battery to power the base unit.

1 is a block diagram of a TDMA multi-line wireless telephone system, in accordance with an embodiment of the invention.

The wireless telephone system includes one or more wireless handsets and one base unit. Each handset has a handset transceiver and a rechargeable handset battery for powering the handset. The base unit includes a base transceiver for communicating with each handset through a corresponding handset transceiver on an RF channel; A charge cradle for physically docking a docked handset battery comprising one of a detached handset battery and a handset; And a recharging unit for recharging the docking handset battery. The base unit is connected to an AC power source and uses the docking handset battery as a backup power source to prevent interruption of communication between the base unit and the handset if AC power from the AC power source is lost or uneven. .

1, a block diagram of a spread spectrum TDMA multi-line digital wireless telephone system 100, in accordance with an embodiment of the present invention, is shown. The TDMA system 100 includes a base unit 110, which includes a receiver unit 112 and a transmitter unit 111, respectively, and communicates with an external telephone through the telephone line (s) 115. Is connected to the network 116. The base unit 110 is typically powered by the AC power source 130. The base unit 110 also includes a recharging unit 117 and a recharging cradle 118, wherein the recharging cradle 118 is either a wireless handset having a battery 119 or a detachable handset battery 119. It is a port or docking station for receiving it. The recharging unit 117 is driven by an input AC power source and also provides a DC power source, thereby supplying power to the base unit 110 and / or electrical contact with the contacts of the docking handset or docking battery 119 itself. To recharge any battery 119 located within the cradle 118 through the contacts provided in the cradle 118 that couple to each other.

System 100 also includes N wireless handsets 120 ₁ , 120 ₂ ,..., 120 _N. Each handset has a transmitter and receiver unit (transceiver), for example, such as transmitter 121 and receiver 122 of handset 120 ₁ . Each handset also includes a rechargeable battery 123. In one embodiment, the receiver unit 112 includes N logical receivers and the transmitter unit 111 includes N logical transmitters, such that the receiver unit 112 and the transmitter unit 111 are configured to have N radios. N logical transceiver units will be provided, one for each handset. At any given time, M handsets (0 ≦ M ≦ N) are either in operation or in an active state (i.e. during the process of making a phone call).

The telephone system provided by the system 100 preferably operates in the unlicensed band of 900 MHz and also provides features similar to a small PBX, preferably in connection with the PC 140. In one embodiment, system 100 uses a combination of time division multiplexing (TDM) and frequency band selection, such as TDMA, to overcome interference sources and maintain a reliable link between the base station and the handset. In a digital TDMA structure, each handset transmits or receives data only during its "time slice" or slot. In this way, the system 100 provides a wireless network between the base station 110 and each handset 120 _i (1 ≦ _i ≦ N). In one embodiment, N = 4, so the system 100 includes up to four wireless handsets, each handset having its own time slot assigned to it in the TDMA epoch.

As described above, it is not desirable that communication be interrupted if the power provided to the base unit 110 by the AC power supply 130 is lost or if instantaneous glitches or other irregularities occur. Therefore, in the present invention, when the AC power source becomes irregular or lost, the base unit 110 is configured to draw power from the DC power source 119 as a backup power source.

There is often a physical docking battery 119 in the cradle 118, which is fully recharged or in a recharging state. For example, a detachable or single battery may have been previously mounted in the cradle 118 by the user to charge the extra handset battery. The detachable battery can be used by recharging the battery and then taking the spent battery out of a given handset and replacing the spent battery with a recharged handset battery; At this time, the exhausted detachable handset battery can be recharged. Alternatively, one of the handsets 120 _i may be mounted to the cradle 118 while not in use. Whether the detachable handset battery is docked directly in the cradle 118 or the handset with the battery is docked in the cradle 118, the cradle 118 includes a handset battery 119 for docking. do. For this reason, at any given moment, there may be a docking battery 119 in the cradle 118 that is charged enough to power the base unit 110 for some amount of time. Therefore, in one embodiment, if the battery is present and minimally charged, and there is also a loss or irregularity of the AC power provided to the base unit 110, the base unit 110 has its own charging cradle 118 Configured to draw power from a battery 119 within.

For example, handset 120 ₁ is docked in cradle 118 with a fully charged battery 123 (or battery 119) and may not be in use. Handsets 120 ₂ and 120 ₃ may be in TDMA communication via base unit 110. If AC power glitch or power loss is detected by the base unit 110, the base unit 110 draws DC power from the battery 119 (ie, the battery 123 of the docking handset 120 ₁ ). Will pull. As long as the AC power loss is recovered before the battery 119 is exhausted by the base unit 110 using relatively excessive power, this allows communication with the handsets 120 ₂ and 120 ₃ to continue uninterrupted. It also allows you to overcome glitches or losses in AC power. In addition, the backup battery power provided in this way is “free” because no dedicated battery is required to charge only the base unit, and the base unit 110 is not currently in use by the handset and is otherwise This is because there is an available rechargeable battery that would be wasted if not using the power backup technique of the present invention. As can be appreciated, if there is no docking battery 119 in the cradle 118 (or if any battery for docking in the cradle is not charged enough to power the base unit 110) If not}, communication will be interrupted when AC power loss or irregularity. Therefore, the base unit power backup characteristic of the present invention is preferably optional and only operates when a fully charged battery 119 is detected in the cradle 118.

In one embodiment, as soon as base unit 110 detects that AC power has been lost and has begun using DC power from battery 119, notifying the handset that the base unit has been in backup mode due to an AC power failure. Signal is sent to all handsets (or all handsets in off-hook state). This may warn any user to investigate the AC power failure and possibly repair the failure, and also warn the user that communication may be lost shortly after backup power is exhausted before AC power is restored. Can be.

In another embodiment, the base unit includes a locking mechanism designed to make the removal of battery 119 more difficult and impossible whenever the base unit 110 is in backup mode. The mechanism will prevent the user from accidentally removing the operating power from the base unit 110 by accidentally removing the battery 119 in the event of an AC power failure. For example, in normal operation, the user can freely manually insert or manually remove battery 119 or handset with battery 119 into and out of cradle 118. In one embodiment, the cradle 118 includes a solenoid-operated locking mechanism that is activated only when the base unit 110 enters backup mode, in which the user must release an unlocking switch. Manual removal of the battery 119 is possible. The mechanism allows the user to remove the battery 119 if necessary, in order to do so the user must first consider whether to release the open switch.

In a system with only one single handset, if the handset itself is docked in cradle 118, it may not be necessary to use the battery as a backup since there is no communication in progress when the handset is charging. Conversely, when the handset is in communication with the base unit, the handset is not docked in the cradle 118 so that the battery cannot use the purpose for backup. However, if a single battery 119 (eg, a spare battery for the handset) is recharging in the recharging cradle 118, the base unit 110 may back up the battery to prevent communication loss with a single handset. You can count on

In an alternative embodiment, the battery 119 is not one of the handset batteries, but a rechargeable battery dedicated to the base unit to supply backup battery power only to the base unit 110. In this embodiment, as long as there is an AC power source, the battery 119 can be recharged by the same recharging unit 117 as charging the handset battery when the handset is docked in the cradle 118. In this case, the battery 119 may have a larger power storage capacity than the typical battery used for the handset 120 _i , taking into account the fact that the base unit 110 has higher power consumption than the handset.

In an alternative embodiment, base unit 110 includes a number of cradles identical to cradle 118, whereby one or more handsets or single batteries can be recharged at a time.

It is to be understood that various modifications may be made in the details, materials, and arrangements of the parts shown and described above to illustrate features of the invention, without departing from the spirit and scope of the invention as disclosed in the following claims. It will be appreciated by those skilled in the art. The present invention as described above may be used in a multi-line wireless telephone system, in particular in technology to ensure that the communication status continues without interruption despite loss or irregular supply of AC power.

Claims (21)

(a), at least one wireless handset (120) having a rechargeable handset battery 123 for supplying power to said handset, each handset (120 _1); And (b) a base unit 110 in communication with each handset via an RF channel, which base unit is also connected to an AC power source 130 and includes a recharge cradle 118, the recharge cradle for docking. Physically dock a docked handset battery to recharge the docking handset battery 119; 123, and also from the docking handset battery in response to irregularities in an AC power source. To power the base unit 110, In a wireless telephone system 100 comprising: The base unit transmits a notification signal to the at least one wireless handset to notify the at least one wireless handset that an irregularity of AC power is detected when the base unit uses the docking handset battery as a backup power source. Further comprising means for A wireless telephone system, characterized in that. 2. The wireless telephone system of claim 1, wherein the one or more wireless handsets comprise a plurality of wireless handsets (120 _1-N ). 3. The apparatus of claim 2, wherein each handset comprises a handset transceiver (121, 122); The base unit includes a base transceiver (111, 112) for communicating with each handset and the corresponding handset transceiver; The base transceiver then transmits time-division multiple access (TDMA) on one shared RF channel for each handset through the handset transceiver, according to a TDMA epoch that allocates an exclusive audio packet time slot to each handset. and means for establishing a time-division multiple access link. 3. The rechargeable cradle 118 of claim 2, wherein the rechargeable cradle 118 is configured to charge a handset 120 _i of one of the plurality of wireless handsets 120 _{1 -N} and a rechargeable handset battery 123 of the docking handset 120 _i . Wherein the docking handset battery (119) comprises the rechargeable handset battery (123) of the docking handset (120 _i ). 10. The system of claim 1 wherein the one or more wireless handsets (120) comprise a single handset (120 ₁ ) and the docking handset battery (119) comprises a detachable handset battery (119). The wireless telephone system of claim 1 wherein the base unit comprises a plurality of rechargeable cradles. 2. The docking handset battery of claim 1, wherein the base unit is configured to be powered by the docking handset battery from a recharging cradle under conditions in which the user does not activate an unlocking switch when the base unit uses the docking handset battery as a backup power source. Means for activating a locking mechanism in the recharging cradle to prevent removal of the device. In a method for maintaining power for a base unit 110 of a wireless telephone system 100, the wireless telephone system further comprises one or more wireless handsets 120, wherein the base unit includes base transceivers 111, 112. A recharging cradle 118, and a recharging unit 117, each handset including handset transceivers 121 and 122 and a rechargeable handset battery 123 for powering the handset; How to keep: (a) communicating with each handset via the base transceiver and the handset transceiver; (b) physically docking a docking handset battery (119; 123) comprising one of a detachable handset battery (119) and a rechargeable handset battery (123) to the rechargeable cradle; (c) recharging the docking handset battery in a recharging device, wherein the base unit is connectable to an AC power source; (d) detecting irregularities in an AC power source at the base unit; And (e) using the docking handset battery as a backup power source for the base unit in response to detecting an irregularity of the AC power source, the method comprising: (f) if the base unit uses the docking handset battery as a backup power source in step (e), sends the one or more handsets to notify the one or more wireless handsets that irregularities in AC power have been detected. Sending a notification signal. 10. The method of claim 8, wherein the one or more wireless handsets comprise a plurality of wireless handsets (120 _1-N ). 10. The time-division multiple access (TDMA) link for each handset on a shared RF channel, via the handset transceiver, according to the TDMA interval of allocating exclusive audio packet time slots to each handset. To establish power maintenance method. 10. The rechargeable cradle (118) of claim 9, wherein the recharge cradle (118) stores a handset (120 _i ) of one of the plurality of wireless handsets (120 _1-N ) and a rechargeable handset battery (123) of the docking handset (120 _i ). Physically docked, wherein the docking handset battery (119) comprises the rechargeable handset battery (123) of the docking handset (120 _i ). 10. The method of claim 9, wherein the one or more wireless handsets comprise one single handset (120 ₁ ) and the docking handset battery (119) comprises a detachable handset battery (119). 10. The method of claim 9, wherein the base unit includes a plurality of rechargeable cradles. 10. The base unit according to claim 8, wherein when the base unit uses the docking handset battery (119; 123) as a backup power source, the base unit is removed from the recharging cradle 118 under the condition that the user does not activate the open switch. A method of maintaining power, activating a locking mechanism in a recharging cradle to prevent removal of a docking handset battery. A base unit 110 for communicating with one or more wireless handsets 120, each handset _{1 1} includes handset transceivers 121, 122 and a rechargeable handset battery 123 for powering the handset. In a base unit, the base unit is: (a) base transceivers 111 and 112 for communicating on an RF channel through each handset and the corresponding handset transceiver; (b) a rechargeable cradle 118 for physically docking a docking handset battery 119; 123 comprising one of a detachable handset battery 119 and a rechargeable handset battery 123; And (c) a recharging unit 117 for recharging the docking handset battery, wherein the base unit is connectable to an AC power source 130 and, if the AC power from the AC power source is irregular, Recharge unit, using handset battery 119; 123 as backup battery The base unit includes: (d) means for transmitting a notification signal to the at least one wireless handset to notify the at least one wireless handset that an irregularity of AC power is detected when the base unit uses the docking handset battery as a backup power source; Containing more A base unit, characterized in that. 16. The base unit of claim 15, wherein the one or more wireless handsets comprise a plurality of wireless handsets (120 _1-N ). 17. The apparatus of claim 16, wherein the base transceiver comprises means for establishing a time division multiple access (TDMA) link on a shared RF channel via a handset transceiver according to a TDMA interval that allocates an exclusive audio packet time slot to each handset. Base unit. 18. The rechargeable cradle 118 of claim 16, wherein the recharge cradle 118 is adapted to store a handset 120 _i of one of the plurality of wireless handsets 120 _1-N and a rechargeable handset battery 123 of the docking handset 120 _i . Physically docked, the docking handset battery (119) comprises the rechargeable handset battery (123) of the docking handset (120 _i ). 16. The base unit of claim 15, wherein the one or more wireless handsets comprise one single handset (120 ₁ ) and the docking handset battery (119) comprises a detachable handset battery (119). The base unit of claim 15 further comprising a plurality of refill cradles. 16. The docking handset battery of claim 15, wherein when the base unit uses the docking handset battery as a backup power source, the base unit removes the docking handset battery from the charging cradle 118 under a condition that the user does not activate the open switch. And means for activating a locking mechanism in the recharging cradle to prevent the damage.