DE4239416A1 - Communication terminal handset cord replacement system - uses full duplex radio transmission line and has terminal with base station and independent unit - Google Patents

Abstract

The full duplex transmission line has associated radio channel pairs. Each terminal has a base station (BS) and an independent unit (HA). Each of these has a transmitter (S) and a receiver (E). An accumulator supplies power to the independent unit (HA). In the rest position, the base station (BS) and independent unit (HA) are coupled together via galvanic interfaces (GS). A charge current for the accumulator and data to the independent unit (HA) are transmitted via the interfaces (GS). The base station receiver (E) constantly monitors the channels and allocates a free channel to the independent unit (HA) via the interfaces (GS). After breaking the galvanic connection a radio link is formed between the base station (BS) and unit (HA). When the galvanic connection is restored, the link is made free for other terminals. ADVANTAGE - Reduces cost of monitoring fixed and localised stations by substituting full duplex operation between stations to prepare terminals efficiently.

Description

The invention relates to an arrangement for communication Terminal devices to replace the handset cord with a Full duplex radio transmission path according to the preamble of Claim 1.

Wireless communication terminals are known. The end devices have a fixed connection to the communication network Station with at least one location-independent unit (EP 0 074 940 A1, DE 36 31 068 A1, DE 41 13 596 A1). The The station and the assigned unit each have transmitters and Receiver for a radio link. About a code identification is the assignment between station and location-independent unit guaranteed. The recipients included a station search facility through which occupied and free Transmission channels are recognized (EP 0 074 940 A1). Here fixed channel pairs on the part of the fixed station coming and from the location-independent unit at one outgoing connection establishment seperated from each other working transceiver parts in the station and require location-independent unit. To this transceiver To reduce effort, it was proposed to be independent of location Transceiver part the transmission frequency of the transmitter at the same time to be used as the oscillator frequency of the receiver (DE 36 31 068 A1). Here are also in the search mode from both fixed station as well as from the location-independent unit free channels depending on the incoming or outgoing connection construction determined. This requires monitoring the channels through the fixed station and the location-independent unit.

The invention is based on the object Monitoring effort from a fixed station and location-independent Unit to reduce free radio channels using a Full duplex operation between fixed station and location independent hanging unit to make this type of terminal more economical to be able to manufacture.

This object is achieved by the invention, as in Labeling part of the claim is shown.

The invention is described below on the basis of a block diagram described in more detail.

A communication terminal according to the invention exists from a base station BS with an assigned independent Unit HA. The base station BS and the independent, assigned unit HA each have a transmitter S and a Receiver E on. The base station BS is over a Interface SS to the communication network and one Feed input SQ connected to an energy source. When A power supply unit, accumulators or Solar modules are used. To the independent unit HA is a galvanic interface GS available. Can continue a speakerphone and a conventional one Fast cuts for a corded handset be provided.

The independent unit HA contains the transmitter S and the Receiver E a control circuit, an earpiece, a microphone, an accumulator and also a galvanic one GS interface. Buttons, e.g. Legs  Disconnect button for the radio connection, a microphone switch-off button etc., and an interface for a handset cord intended.

The dial pad can be used both in the base station BS and in the independent unit HA may be arranged.

A telecommunications system, e.g. B. one Private branch exchange, can be a number of end devices be assigned according to the invention. The system can have multiple full-duplex radio channels, each for Connection between a base station BS and the assigned independent unit HA uses a full duplex radio channel becomes. The number of these usable full duplex radio channels can less than the maximum number of to the telecommunications of connectable devices mentioned above, for example, six full duplex Radio channels available.

The base station BS and the independent are in the idle state Unit HA with each other via the galvanic interfaces GS coupled. In addition to the charging current for the battery, the base station BS data to the independent unit HA transfer. The base station BS also monitors in the idle state their receiver E constantly the room in which the terminal is set up with regard to the assignment of assigned usable radio channels. Via the galvanic interface GS the independent unit HA becomes a free radio channel assigned. This assignment becomes permanent when needed updated when e.g. B. another terminal in the same room occupies this free radio channel. Are not free channels exists, the radio link between base station BS and independent unit locked.  

When disconnecting the independent unit HA from the base station BS the last assigned radio channel is occupied, which is then for the duration of the galvanic isolation for other devices in the same room is locked. Only after restoring the galvanic connection between base station BS and independent unit HA becomes the radio channel for other end devices Approved.

To influence each other within several devices Avoiding a room can additionally reduce the transmission power between base station BS and assigned independent unit HA are limited.

Claims (1)

Arrangement for communication terminals to replace the handset cord with a full-duplex radio transmission path, which is formed from respectively assigned radio channel pairs, each terminal being formed from a base station and an independent unit, each having a transmitter and a receiver, with an accumulator for energy supply the independent unit, characterized in that in the idle state the base station (BS) and the independent unit (HA) are coupled to one another via galvanic interfaces (GS), via which a charging current for the accumulator and data are transmitted to the independent unit (HA) and that the receiver (E) of the base station (BS) constantly monitors the occupancy of usable radio channels in the idle state and assigns a free radio channel via the galvanic interfaces (GS) to the independent unit (HA) which, after the galvanic connection has been disconnected, links the radio transmission link between Base station (BS) and independent unit (HA) and is only released for other devices after the galvanic connection has been restored.