DE10054943A1 - communicator - Google Patents

Abstract

The invention relates to a communication device comprising a mobile communication terminal (12) with at least one rechargeable energy store and a charging base (14) assigned to the mobile communication terminal (12), the charging base comprising at least two external electrical charging contacts (16 , 18) and wherein the mobile communication terminal (12) has at least two corresponding electrical complementary contacts (20, 22) for transmitting a charging current from the charging base (14) to the communication terminal (12), in which communication device the Charging base (12) is coupled or can be coupled via an interface (34) to a peripheral device (36), in particular a PC, an organizer or the like, for the exchange of data and in which the data is transmitted via the at least two electrical charging contacts (16, 18) and the associated complementary contacts (20, 22) between the charging base (14) and the communication terminal are possible.

Description

The present invention relates to communication direction, comprising a mobile communication terminal at least one rechargeable energy store and one of the mo bilen communication terminal assigned charging base, where the charging base has at least two external electrical charging contacts has clocks and wherein the mobile communication terminal at least two corresponding electrical complementaries has contacts for transferring a charging current from the Base for charging to the communication terminal.

Such communication devices are from the prior art Technology known. The communication terminal is as Cordless phone or mobile device running, which is provided with a battery. This can be used to charge the battery Communication terminal on the charging base in a prep position in which the elec trical contacts of the charging base electrically with the Komple mentary contacts of the communication terminal are coupled, so that from the charging base to the communication terminal Charging current can flow.

It is also known to have data between the communication end device and a peripheral device, for example a PC or the like to exchange. Such data can be telephone book entry records that are only on the commu nication terminal device or on the peripheral device in a corresponding database have been entered and sent to the correspondie database in the other communica device tion terminal and peripheral device for synchronization of the transferred to the databases. Furthermore, such Data can also be remote control data, which enables via the mobile communication terminal or the periphery advises to activate the other device in a certain way  or to control. In order to exchange such data are made possible in the prior art in a conventional manner different ways committed: So it is known, a separate the transmission path between the peripheral and the mo to provide cheap communication terminal, for example in the form of an infrared interface via which the data sets can be exchanged. It is also known to the charging base and on the mobile communication terminal additional contacts for an interface for data transfer supply. However, both alternatives require one significant additional design effort both the mobile communication terminal as well as on the periphery device or at the charging base, which corresponds to the manufacture Corresponding communication facilities considerably more expensive.

In contrast, it is an object of the present invention a communication device of the type mentioned to provide, in which a data exchange between the mobile communication terminal and the peripheral under simple constructive design of the communication device tion is possible.

This task is carried out by a communication device solves, comprehensively a mobile communication terminal with we at least one rechargeable energy storage and one for the mobi len communication terminal assigned charging base, the Base charging at least two external electrical charging contacts and the mobile communication terminal little at least two corresponding electrical complementary contacts has to transmit a charging current from the charging base to the communication terminal. According to the invention solution to the above task in this communication direction further provided that the charging base over a Interface with a peripheral device, in particular a PC, an organizer or the like, for exchanging data couples or can be coupled and that the data on the little at least two electrical charging contacts and the associated  Complementary contacts between the charging base and the Communication terminal are interchangeable. For data exchange between the peripheral device and the communication terminal device according to the invention, they are already involved in communication direction provided charging contacts and complementary contacts used. So it is not necessary to add additional con to take structural measures, such as providing a Infrared interface or additional contacts that the Making the communication device more expensive and wel may be susceptible to defects.

For data exchange via the charging contacts and the correspon Denden complementary contacts can be provided that the Charging base has charging current modulation means to the modula tion of the charging current, such that the data in the charging current are encoded. In the state of charge flows from the charging base to the mobile communication terminal a charge-dependent Charging current. According to the invention, this charging current can be Base modulated. To detect the charging current "on modulated "data in the mobile communication terminal can be further provided according to the invention that the mobile Communication terminal device has charging current detection means, which are encoded in the charging current, from the charging base to data transmitted to the mobile communication terminal deco explosion. The data exchange towards from the charging base too the mobile communication terminal is therefore solely via the modulation of the charging current. Additional measures to Data transfer is not necessary.

With regard to the data exchange in the direction of the mobile Communication terminal to the charging base can in accordance with the invention according to be further provided that the mobile communication Terminal device has charging current modulation means for modulation from the charging base to the mobile communication terminal flowing charging current and that the charging base state of charge Detection means for detecting the currently the charging current emitted by the mobile communication terminal,  whereby from the mobile communication terminal to the charging Base transmitted data through the modulated charging current co are dated. The coding of the mobile communication Data transferred to the charging base is done accordingly follow by temporarily interrupting the charging current or by intermittent changes in the amount of charging current. the intermittent interruptions or intermittent changes tion of the La by the mobile communication terminal de-based charging current is recorded by the charging base and decoded. The loading base can then be the one used for decoding tion acquired data via the interface to the periphery advises forward.

It should be noted that the data acquisition in the mo bile communication terminal and in the charging base technical circuit and software-based resources can be achieved without major structural intervention one of the components of the communication device, mobile Communication terminal and charging base. before the measures are added with the help of a mobile comm Communication terminal already provided microprocessor realized, which in loading mode, d. H. then when that mobile communication terminal is located on the charging base and draws a charging current from this, the charging current amount igly grasped. The microprocessor can use a charging current Short-term changes in the coding due to coding Charging current are signaled. It can then be software-based decode the data encoded in the charging current. equally Eating is data acquisition via a corresponding microphone processor in the charging base possible.

Regarding the coding of the transmitted data in the La destrom can be provided by the loading base too data transmitted to the mobile communication terminal a modulation method, in particular by an ampli student modulation method, a pulse code modulation method or a frequency modulation method in which charging current is encoded  are. It should be noted that - as above already hinted - that of the charging base to the mobile Communication terminal device flowing charging current from the charger status of the rechargeable energy storage (battery) of the mobile Communication terminal is dependent. This means that the Charge current in its amount with increasing charge of the Ak kus of the communication terminal decreases. This change the charging current extends over a behavior long period, so that the charging current modulated data cannot be falsified. The modulati Frequency for coding the data is many times higher forth than the "frequency" of the charge-dependent change of the charging current.

In one embodiment of the invention can be provided be that the modulation method is an NRZ modulation ver is driving. An NRZ modulation process (NRZ = Non Return to Zero) is a coding method for pulse code modulated data. Binary signals are mapped directly here: A 1-bit Signal is characterized by a high level (high) and a 0 bit Signal represented by a low level (low). At on consecutive bits of the same logical value remain Signal level unchanged. The process is not self-sufficient tend. The NRZ modulation method simply offers one Realizing coding of the exchanged data in the drawer electricity.

As an alternative to the NRZ modulation method can be provided be that the modulation method an NRZI modulation ver driving is (NRZ = Non Return to Zero Invert on ones). The NRZI modulation process is a further training of the NRZI Modulation method, in which the state with a 1- Bit signal is changed. For example, if two 1- Coded bit signals in sequence, so the second 1-bit signal represented by a 1-bit signal. The NRZI Modulation process is self-clocking.  

In addition, it can be provided that the modulation method includes a CRC method to measure the error rate in the transmission to minimize data creation. In the CRC process (CRC = Cyclic Redundancy Checksum) are based on binary prepay test marks by adding up the data groups whose transmission is formed in the transmission component. The emp Trap component checks the CRC value and removes the test radio tion before further processing of the transferred data. provides So one of the components of the communication device the CRC procedure determines a transmission error, so this component can retransmit data from the request each other component and thus faulty Correct transfers.

In a development of the invention it can be provided that the data transfer between the charging base and the mo bilen communication terminal or / and between the periphery device and the charging base automatically when producing a electrical connection between the charging contacts and the Complementary contacts are made. In this training he automated data transmission occurs between the charging base and the mobile communication endge advises immediately if the mobile communication terminal on the charging base in its target position for charging a rechargeable energy storage device has been positioned. It is therefore no activation by a user is required.

Alternatively, however, it can also be provided that the data transfer between the charging base and the mobile communication cation terminal device and / or between the peripheral device and the Charging base initiated by the peripheral device or by the Communication terminal after manufacturing an electrical Connection between the charging contacts and the general partner contacts. This means that the data transfer between the charging base and the mobile communication Terminal device and / or between the peripheral device and the charging First to initiate base, d. H. usually only through  active user intervention is started. This is practical, for example, if the Peri phergerät is a PC, which is only in the switched and booted state for data exchange is ready with the communication terminal.

Furthermore, the invention can be provided in a further development be that the charging base and / or the mobile communication Terminal includes means that the production of an electri connection between the charging contacts and the comple Signal the mental contacts to the peripheral device. Based on the signaling can then be in the peripheral device certain processes are started, for example in the form a synchronization routine, which ver a user different options regarding data synchronization between between the mobile communication terminal and the periphery advises enable.

Basically, data of any kind between the mobi len communication terminal and the peripheral device be exchanged. It is preferably provided that the transmission Activation data for activating the mobile comm Communication terminal device and / or the peripheral device or / and storage data for storage or / and further processing processing by the communication terminal and / or by the Include peripheral. In the case of activation dates, it is possible that the communication terminal via the periphery advises and vice versa to control. You pull again as Peri example a PC that is equipped with a CTI Software (CTI = Computer Telephony Integration) equipped is software that enables telephone communications tion via the PC, it is possible via the PC via the data exchange described above on the charging To control the base communication device and so on For example, a specific phone number manually from the PC or to select from a phone book with a mouse click, or via appropriate additional equipment (head set) immediately  make calls from the PC without the mobile communication To use the terminal itself. Likewise, it can the activation data is data which is via the mobile communication terminal with interposition the charging base is transferred to the peripheral device and so enable with a certain control of the peripheral device. This makes telematics applications such as the Remote query of certain operating parameters from an external Communication terminal, possible from which on the Mobile communication terminal positioned in the charging base will call. In the same way, peripheral devices such as for example a washing machine, a heating control, or the like can be activated externally.

Regarding the interface between the charging base and the peripheral device can be provided that this stan standardized interface, for example a V.24 Interface. The use of a standardized cut place ensures that the Communicati invention onseinrichtung compatible with conventional technical systems is like PCs or the like.

The invention further relates to a method for exchanging data between a mobile communication terminal with at least one rechargeable energy store and a charging base assigned to the mobile communication terminal of a communication device, in particular of the type described above, wherein the charging base has at least two external has electrical charging contacts and the mobile communication terminal has at least two corresponding electrical complementary contacts for transmitting a charging current from the charging base to the communication terminal and wherein the charging base via an interface with a peripheral device, in particular a PC, one Organizer or the like, is coupled or can be coupled to exchange data. The method according to the invention comprises the steps:

• A) modulation of the charging current by one of the components, Charging base and mobile communication terminal,
• B) transmission of the modulated charging current from the charging Basis for the mobile communication terminal and
• C) Demodulation of the transmitted data by the respective other component, charging base and mobile comm munikations terminal.

The following is an embodiment of the present Invention explained with reference to the accompanying figures. It stel len represent:

Fig. 1 is a schematic view of a communication device according to the invention,

Fig. 2a is a diagram showing the course of the charging current over time

Fig. 2b is a diagram showing the course of the charging current modulated for data encoding over time.

In Fig. 1, a communication device according to the invention is generally designated 10. The Kommunikationeinrich device 10 includes a mobile communication terminal 12 in the form of a cordless phone or mobile phone and a charging base 14th On the charging base 14 charging contacts 16 , 18 are seen before, which can be brought into engagement with corresponding complementary contacts 20 , 22 . The mobile communication transmitter 12 is, as shown by an arrow P, rela tively relocated to the charging base 14 . When positioned within a receptacle 24 of the charging base 14 , the communication terminal 12 reaches a desired position in which the charging contact 16 contacts the complementary contact 20 and the charging contact 18 contacts the complementary contact 22 , thereby providing an electrical connection between the individual contacts for transmission of a charging current arises.

The mobile communication terminal 12 comprises a rechargeable energy storage device in the form of a battery (not shown), which is electrically connected to the complementary contacts 20 , 22 for charging.

The charging base 14 includes a schematically shown in Fig. 1 Darge charging circuit 26 with a voltage supply 28 and a voltage converter 30th Furthermore, a modulator / demodulator unit 32 is provided in the charging circuit 26, the mode of operation of which will be explained in more detail below with reference to FIGS. 2a and 2b.

The modulator / demodulator unit 32 communicates with an peripheral device 36 via an interface 34 symbolized by arrows 34 a, 34 b. Via the interface 34 , as shown by arrow 34 a, data can be transmitted from the modulator / demodulator unit 32 to the peripheral device 36 . Similarly, as shown by arrow 34 b, data transmission from the peripheral device 36 to the modulator / demodulator unit 32 can take place.

As a peripheral device 36 basically all externally activable and / or suitable for the utilization of data suitable electronic devices are conceivable, for example telecommunication devices such as PCs, fax machines etc., but also household appliances such as washing machines or the like, or home-based installations such as heating systems or like.

Thus it is possible, via the transmission path 34 b of the Peri phergerät 36, the mobile communication terminal 12 to activa ren. If one imagines the peripheral device 36 is a PC before, this can through the interface 34 onsendgerät the Telecommunicati activate 12 so that from the PC 36 a call can be made using the mobile communication terminal 12 . Likewise, it is possible to transfer data sets, for example in the form of telephone book entries of a telephone book stored in the mobile communication terminal 12 , via the interface 34 to the peripheral device 36 in order to have the same in both components, mobile communication terminal 12 and peripheral device 36 To have records available.

With regard to the data transmission, reference is also made below to FIGS . 2a and 2b. Fig. 2a shows the variation of the charging current I during the charging operation _charging the battery of the mobile communication terminal. At time t = 0 the battery is almost empty. A charging current I _{charging a} relatively large amount flows from the charging base 14 via the contact pairs 16 , 20 and 18 , 22 to the mobile communication terminal 12 . With increasing charging amount of the current flowing charging current falls I _loading from more and more until it finally surfaces at a time in wesentli fully charging the battery of the mobile communica tions terminal 12 substantially equal to zero (as at time t ₁ is shown). The time t ₁ required to charge the batteries in the mobile communication terminal 12 is of the order of hours.

If one considers the time window designated Δt in FIG. 2a and shows this enlarged, one arrives at the position shown in FIG. 2b. This shows again charging current I _{charging is modulated} by the modulator / demodulator unit 32 according to FIG. 1. It can be assumed that the amount of the charging current I _charging changes only slightly in the time window Δt due to the change in the charging state of the battery of the mobile communication terminal 12 . The time window Δt shown in FIG. 2b is a period of the order of 0.1 seconds, seconds or 10 seconds. By means of the modulator / demodulator unit 32, a binary signal is applied to the charging current I _charge is modulated, in the wel chem between the mobile communication terminal 12 and the peripheral device 36 data to be exchanged are coded. The code sequence of a transmitted data block shown in FIG. 2b can comprise a binary number sequence which represents a start code 38 . This start code 38 can be followed by a binary number sequence 40 comprising the actual data to be transmitted, which is designated in FIG. 2b with CTI data (CTI = Computer Telephony Integration). The binary number sequence 40 can be followed by a CRC binary number sequence 42 in order to verify the transmitted data (CRC = Cyclic Redundancy Checksum). Finally, the data block transmitted in the period Δt can then be concluded with a binary number sequence 44 representing a stop code.

Such a transfer is possible if the charging current flows from the charging base 14 to the mobile communication terminal 12 , the charging current I _{charging being} modulated via the modulator / demodulator unit 32 shown in FIG. 2b. Similarly, such a data exchange during egg ner transmission of data from the mobile communications end device 12 are possible to the charging base 14, wherein the mobile communication terminal 12 the charge current I _charge according to the coding of Fig. 2b intermittently turned on in this case and switches off or changed its amount and thus encoded with data.

The invention shows a possibility of how data can be exchanged on the charging current flowing anyway between the two components on the mobile communication terminal 12 and / or on the charging base 14 without any additional design effort.

LIST OF REFERENCE NUMBERS

10

communicator

12

mobile communication terminal

14

charging base

16

.

18

charging contacts

20

.

22

complementary contacts

24

admission

26

Charge current circuit

28

power supply

30

DC converter

32

Modulator / demodulator unit

34

interface

34

a,

34

b directions of transmission

36

peripheral device

38

start code

40

CTI Data

42

CRC data

44

stop code
P arrow
I _charge

charging current

Claims (14)

1. Communication device ( 10 ) comprising:
a mobile communication terminal ( 12 ) with at least a rechargeable energy storage and
a charging base ( 14 ) assigned to the mobile communication terminal ( 12 ),
wherein the charging base ( 14 ) has at least two external electrical charging contacts ( 16 , 18 ) and wherein the mobile communication terminal ( 12 ) has at least two corresponding electrical complementary contacts ( 20 , 22 ) for transmitting a charging current from the charging - Basis ( 14 ) to the communication terminal ( 12 ),
characterized by
that the charging base ( 12 ) via an interface ( 34 ) with a peripheral device ( 36 ), in particular a PC, an organizer or the like, is coupled or can be coupled for the exchange of data and that the data on the we at least two electrical charging contacts ( 16 , 18 ) and the associated complementary contacts ( 20 , 22 ) between the charging base ( 14 ) and the communication terminal ( 12 ) are interchangeable. 2. Communication device ( 10 ) according to claim 1, characterized in that the charging base ( 14 ) has charging current modulation means ( 32 ) for modulating the charging current, such that the data are encoded in the charging current. 3. Communication device ( 10 ) according to claim 1 or 2, characterized in that the mobile communication terminal ( 12 ) comprises charging current detection means, which encodes the charging current, from the charging base ( 14 ) to the mobile communica- Terminal ( 12 ) decoded transmitted data. 4. Communication device ( 10 ) according to one of the preceding claims, characterized in that the mobile communication terminal ( 12 ) has charging current modulation means for modulation, in particular for temporary interruption, of the charging base ( 14 ) to the mobile communication -The terminal device ( 12 ) flows the charging current and that the charging base ( 14 ) has the charging state detection means ( 32 ) for detecting the charging current currently given to the mobile communication terminal device ( 12 ), whereby the mobile communication terminal device ( 12 ) data transmitted to the charging base ( 14 ) are coded by modulation, in particular by temporary interruption, of the charging current. 5. Communication device ( 10 ) according to one of the preceding claims, characterized in that the data transmitted from the charging base ( 14 ) to the mobile communication terminal ( 12 ) by a modulation method, in particular by an amplitude modulation method , a pulse code modulation method or a frequency modulation method in which charging current is coded. 6. Communication device ( 10 ) according to one of the preceding claims, characterized in that the modulation method is an NRZ modulation method. 7. Communication device ( 10 ) according to any one of claims 1 -5, characterized in that the modulation method is an NRZI modulation method. 8. Communication device ( 10 ) according to one of the preceding claims, characterized in that the modulation method comprises a CRC method (at 42). 9. Communication device ( 10 ) according to one of the preceding claims, characterized in that the data transmission between the charging base ( 14 ) and the mobile communication terminal ( 12 ) and / or between the peripheral device ( 36 ) and the charging base ( 14 ) takes place automatically when establishing an electrical connection between the charging contacts ( 16 , 18 ) and the complementary contacts ( 20 , 22 ). 10. Communication device ( 10 ) according to any one of claims 1-8, characterized in that the data transmission between the charging base ( 14 ) and the mobile communication terminal ( 12 ) and / or between the peripheral device ( 36 ) and the charging Base ( 14 ) initiated by the peripheral device ( 36 ) or by the communication terminal ( 12 ) after establishing an electrical connection between the charging contacts ( 16 , 18 ) and the complementary contacts ( 20 , 22 ). 11. Communication device ( 10 ) according to any one of the preceding claims, characterized in that means are provided on the charging base ( 14 ) and / or on the mobile communication terminal ( 12 ) which establish an electrical connection between the Signal charging contacts ( 16 , 18 ) and the complementary contacts ( 20 , 22 ) to the peripheral device ( 36 ). 12. Communication device according to one of the preceding claims, characterized in that the transmitted data include activation data for activating the mobile communication terminal ( 12 ) and / or the peripheral device ( 36 ) or / and storage data for storage and / or further processing by the Communication terminal device ( 12 ) and / or by the peripheral device ( 36 ). 13. Communication device ( 10 ) according to one of the preceding claims, characterized in that the interface ( 34 ) between the charging base ( 14 ) and the peripheral device ( 36 ) is a standardized interface, for example a V.24 interface. 14. A method for exchanging data between a mobile communication terminal ( 12 ) with at least one rechargeable energy store and a mobile communication terminal ( 12 ) associated charging base ( 14 ) egg ner communication device ( 10 ), in particular according to egg nem of the preceding claims, wherein the charging base ( 14 ) has at least two external electrical charging contacts ( 20 , 22 ) and the mobile communication terminal ( 12 ) has at least two corresponding electrical complementary contacts ( 20 , 22 ) for transmitting a charging current of the charging base ( 14 ) to the communication terminal ( 12 ) and wherein the charging base ( 14 ) via an interface ( 34 ) with a peripheral device ( 36 ), in particular a PC, an organizer or the like, for the exchange of Data is coupled or can be coupled, comprises the following steps:

• A) modulation of the charging current by one of the components, charging base ( 14 ) and mobile communication terminal ( 12 ),
• B) transmission of the modulated charging current from the La de base ( 14 ) to the mobile communication end device ( 12 ) and
• C) Demodulation of the transmitted data by the respective other component, charging base ( 14 ) and mobile communication terminal ( 12 ).