EP1387512A2 - Switching device for a satellite receiving installation - Google Patents

Abstract

A satellite receiver switch unit has inputs (10a...10h) and use outputs (18, 20, 52) selective high frequency connections (16, 24, 56) with pre switched configuration and control units (32, 34, 36, 38, 40) to permanently set intermediate frequency, polarization and frequency band.

Description

The present invention relates to a switching device for a satellite reception system according to the generic term of Main claim. Such devices are known as. "Multiswitches" are well known and are used by Einoder Multi-subscriber satellite systems as connection nodes between the input side, the actual satellite radio frequency signal into a satellite intermediate frequency signal converting converters (so-called LNB = Low Noise Block Converter), which are the input signals for the input connections provide a generic switching device, and one or more receivers (for satellite reception specially configured reception systems), which then the satellite IF signal for the user on the output side convert into a suitable television signal.

Satellite reception signals are used to optimize channel usage in two polarization planes (horizontal / vertical) and in two to be controlled separately Frequency bands before, so that, with every possible combination of these two parameters, each satellite typically can be received with four of these so-called IF levels. Corresponding have the multiswitches known from the prior art a number of input ports that are multiples out of four; a typical configuration known Multiswitch offers about eight input connections for connection of two satellite systems (e.g. Astra 1 and Hotbird in Germany) with four ZF levels each.

Recognize the connecting means known in the prior art then from the receiver signal present at the output connection, which of the input ports, corresponding to the IF level assignment, is to be connected. Typically this connection scheme is standardized and is supported by so-called Switching criteria (namely control information of the receiver) selected. So far there are so-called analog switching criteria usual, the selection of the required IF level by a 14/18 volt level has been selected; in addition or alternatively, a low frequency audio signal is typical 22 kHz used. So-called. digital switching criteria according to DISEqC standards use a modulated 22 kHz signal.

In practice, however, it often happens that some Satellites (satellite systems) only in one frequency band and / or with only one receivable polarization plane send, so keeping the four IF levels for this Satellite is not required. However, since conventional Multiswitches according to the prior art based on the described rigid and unambiguous allocation generally per Reserving four entrances to the satellite system will remain numerous Inputs unused, causing the switching device is principally oversized: There must be more (rigid configured) inputs are kept as actual are required for reception operation. So far it was without interfering with the generation of the selection control signals on the receiver side not possible these input connections to use for other satellites.

However, since multiswitch technology is also establishing itself Mass product increasing need for optimization in has the manufacturing costs, it is the task of the present Invention, conventional, generic switching devices for a satellite receiving system in view for a more flexible, universal assignment and configurability of the input connections to one or more Optimize output connections. In particular, the Rigid assignment required by the previous standardization from all four ZF levels to each connectable Satellite system are broken, so that in Ideally, every input connection with one actually required IF satellite signal can be connected.

In addition, it is an object of the present invention such an improved switching device for a Satellite reception system for a flexible majority of To make it accessible to users in a multi-subscriber system, it is in particular the task of the device in any to make many parts expandable.

The task is accomplished by the device with the features of the main claim solved; advantageous further training the invention are described in the subclaims.

In an advantageous manner according to the invention, the means for selective high frequency connection of one of the plurality of input connections with the output connection in the frame Upstream of the invention configuration and storage means, whereby this is configured via an interface and are programmable. The configuration and Storage means provide a non-volatile Storage unit that permanently any of the Input connections (which is one of four possible IF levels an assigned satellite system) receives the Output port can be assigned in response to the associated selection control signal. In other words, it becomes the known, rigid by the present invention Configuration and assignment scheme "four IF levels per Satellite system with four associated input connections, which according to the selection control signals and the associated Switching criteria are selected "and broken it is now possible in more efficient and the hardware effort optimizing any assignment of a particular of the input connections for any IF levels from To make satellite systems. In extreme cases, therefore such as a multiswitch according to the invention with eight input connections address eight different satellite systems, provided there is only one frequency band at a time and requires a receivable polarization plane per satellite. Such a configuration is flexible and simple Can be set or configured via the interface.

According to further training, this programming is carried out by a commercially available PC or another, preferred portable programming unit, which then uses common Data buses, e.g. USB, with the device according to the invention or its configuration and storage means connected becomes. Such a programming interface will then particularly preferably visual or graphic Have tools and control surfaces that it Allow operator (the configurator) in easier and clearly arranged for the system in question set the desired configuration and then - continue preferably - in a non-volatile memory unit of the System permanently.

In a preferred embodiment of the present invention as a multiple subscriber system is a plurality of output connections provided, the configuration according to the invention and storage means for each of the output ports prefers an individual configurability provide (however, realizations are also included uniform configuration conceivable and inexpensive). Especially are suitable for this purpose for each output connection provided configuration units that, ideally realized in the form of assignment tables, for each of those generated by an output user Selection control signals target the input required address and connect high frequency. It is also particularly preferred in this form of implementation as a multi-subscriber system if the user-specific provided allocation units, for example by means of a central data bus from a common, central one Storage unit, provided with configuration data can be.

A prerequisite for the proper implementation of this principle of invention is it typically about the Output connection brought in and from the connected Selection control signal generated, for example after the DISEqC protocol, from the (flowing into the receiver) High-frequency signal separated and then reliable data is interpreted so that the mentioned, according to training provided assignment unit reliably with control data can be provided.

A particularly preferred form of realization of the present Invention in terms of flexible and scalable Multi-user systems are located in the area provided for further training Modularization: First of all, that as the core of each switching device according to the invention So-called basic module is provided, which is independently operational and receives all input connections (and to the expansion modules provided for further training loops) while only a limited number of output ports, typically 4, 6, 8 or none, is present in the basic module. The basic module itself contains then in terms of data with each user-side output connection associated allocation units connected central Storage unit, as well as the (only) central Programming interface, so here, for example, at a more suitable central location within a larger house (or Residential complex or extensive distribution network), the common Setting and configuration can be done. The extension modules that can be connected then enable the flexible assignment of further output connections, each, as described above, in the manner according to the invention through individual configuration selectively with the majority disconnected from input connections from the rigid limits of the conventional four IF level mapping scheme.

According to a preferred development of the invention and as Variant of the previously described common, central non-volatile Storage unit is provided that one Expansion module itself a non-volatile Storage unit is assigned, more preferably by a each assigned controller module controlled. This advantageously achieves that in a non-operating state the expansion module (i.e. it is not one Subscriber unit connected, so there is also no Power supply to the expansion module) nonetheless permanently those belonging to the respective expansion module Configuration information is available locally without then, in the case of a (re) switching on of the Extension module, all ad hoc Configuration information about the basic module in short Time must be made available.

According to a further development it is further provided that by means of the Configuration and control means a complete or partial deactivation of an output connection is adjustable. There is a partial deactivation especially in question, if one Output connection only selectively selected IF levels should be made available (e.g. if a corresponding participants only such a selection wishes or should be assigned). Can be advantageous these are also particularly useful in practical use Variant can be achieved through the central configuration, without manipulation on the part of the subscriber (with Misuse) exists.

As a result, the present invention achieves that without receiver-side or other manipulative Interventions in extremely flexible and hardware-technically efficient Assignment of different satellite IF levels to the input connections of a multiswitch can; in particular it is achieved by the invention that the previous limit of "four input connections per satellite system" can be effectively broken.

Fig. 1:

ein Blockschaltbild einer Grundeinheit mit acht Eingangsanschlüssen und zwei Ausgangsanschlüssen sowie ein Erweiterungsmodul mit einem zusätzlichen Ausgangsanschluss und

Fig. 2:

eine beispielhafte Darstellung einer grafischen Benutzerschnittstelle zur Programmierung der Einheit gemäß Fig. 1.

Further advantages, features and details of the invention result from the following description of preferred exemplary embodiments and from the figures; these show in

Fig. 1:

a block diagram of a basic unit with eight input connections and two output connections and an expansion module with an additional output connection and

Fig. 2:

an exemplary representation of a graphical user interface for programming the unit according to FIG. 1.

As shown in FIG. 1, a multiswitch 10 as a switching device according to a preferred embodiment of the invention has a plurality in the form of eight input connections 10 _a to 10 _h , to each of which a converter unit (LNB) of a satellite module can be connected at any high frequency. Correspondingly, SAT IF signals are present in the ranges 950 - 1,950 MHz or 1,100 to 2,150 MHz.

Each of the connections 10 is followed by a high-frequency amplifier 12, which is primarily intended to compensate for an attenuation caused by a downstream directional coupler field 14. The directional couplers 14 provide the RF signal present on the input connections 10 _a to 10 _{h to} an RF changeover switch (selection switch) 16, via which the signal from one of the eight lines is then selectively selected and an output connection 18 for connection to an otherwise known, external satellite receiver is provided. As can be seen in FIG. 1, the multiswitch unit 10 duplicates the chain of directional couplers 14, selection switches 16 and output connection 18 for a second output connection 20 with a corresponding connection of directional couplers 22 and changeover switch 24 provided in parallel.

In addition, the device according to the invention has the Possibility of flexibly assigning input connections (and corresponding RF signals) to the output side Assign input selection control signals: About the output connections 18 and 20 are one of a connected Selection control signal (not shown) generated by the receiver, usually a DISEqC control signal. Such a low-frequency signal is generated by means of a Low pass 30 shown schematically from the to the selection unit 16 or 24 running high-frequency line decoupled and using a separate one for each output channel the provided decoding unit 32 is detected and interpreted, namely with regard to the necessary switching criteria. This signal is a downstream allocation unit 34 ("mapping table") with the aim of from this table one belonging to the decoded switching criterion Switch configuration of the selection switches 16 or 24 to generate, hence the associated input connection to contact at high frequency.

As can also be seen from FIG. 1, by means of of a data bus 36 all allocation units 34 together in terms of data with a central permanent storage unit 38 (as a central mapping table), which in particular for the non-volatile recording of the configuration data is provided.

This is then also carried out in this permanent storage unit 38 external programming using programming interface 40 or assigned external data bus or input 42, typically a USB port for an externally connectable PC or similar programming unit.

1 additionally illustrates the interaction of the unit 10, which is designed as a basic unit or basic module, with an expansion module 50, which is looped through the eight input connections 10 _a ... 10 _{h in} parallel (and in turn is looped through to possible, subsequent further expansion modules). In addition, the expansion module forms space for one or more output channels for an output connection 52; In parallel to the above-described output channels, an arrangement of directional couplers 54, changeover switches 56, low pass 30 for the selection control signal, decoding unit 32 and assignment unit 34 is again provided. In terms of radio frequency, the radio frequency signal of the respectively selected input line to the output connection 52 then flows again, depending on the switch position of the unit 56. The data bus 36 for the assignment unit (mapping table) 34 is looped through further.

In practical use, the person responsible for the configuration now has the option of connecting several satellite units, in particular more than two, to the eight input connections 10 _a to 10 _h ; in particular, fewer than four IF levels can be connected and freely configured per satellite unit. This is done by means of a visual and graphical user interface of a PC connected to the connection 42, shown as an example in FIG. 2; the associated configuration data are stored in the unit 38 and then individually made available to the mapping tables 34 via the data bus 36. In practical operation, this makes it possible for each of the receivers connected to the output connections 18, 20, 52 to be able to selectively access the input connections simultaneously and freely configured in accordance with the respective mapping table, or else a common central configuration takes place. Ideally, the eight input connections are each fully occupied with active satellite IF levels.

Claims (11)

Switching device for a satellite reception system with
a plurality of input connections (10 _a ... 10 _h ) designed for connection to satellite intermediate frequency converters and
at least one output connection (18, 20, 52) designed for connection to a receiving device on the user side,
wherein means (16, 24, 56) are provided for selectively radio frequency connection of one of the plurality of input connections to the output connection in response to a selection control signal applied in particular via the output connection,
characterized in that
Configuration and control means (32, 34, 36, 38, 40) are connected upstream of the connecting means and can be configured and programmed by means of an interface (42) which is preferably implemented in terms of data such that any one of the satellite intermediate frequencies of a predetermined polarization level is permanently transmitted to a selection control signal and a predetermined satellite frequency band receiving input ports can be assigned. Device according to Claim 1, characterized by a plurality of output connections which are designed independently of one another for connection to one of the input connections by means of the connection means,
the configuration and control means for each of the plurality of output connections having individually configurable assignment units (32, 34) for assigning user-specific selection control signals to input connections. Apparatus according to claim 1 or 2, characterized in that the configuration and control means are designed to cooperate with a common, central and non-volatile memory unit (38). Device according to one of claims 1 to 3, characterized in that the configuration and control means are configurable and programmable by means of an externally connectable data processing device, in particular a PC via a USB or RS232 interface, with further preference being given to assigning selection control signals to Input connections is programmable on the data processing device by means of a graphically supported operator unit. Apparatus according to claim 4, characterized in that the data processing device is designed to be portable. Device according to one of claims 1 to 5, characterized in that the selection control signal is an analog voltage or low frequency signal or a control signal according to the DISEqC standard. Device according to one of claims 1 to 6, characterized in that the device is implemented in a modular manner with a basic module (10) which has the plurality of input connections, preferably at least one output connection and a programming and / or data bus and which is independently operable and which is implemented by at least one Expansion module (50) which is not capable of operating independently can be expanded for at least one additional output connection (52), the expansion module being connectable to the basic module for data purposes. Apparatus according to claim 7, characterized in that the expansion module is assigned its own non-volatile memory unit, preferably cooperating with an assigned controller module, which is designed to store configuration information assigned to the expansion module in a non-operating state of the expansion module. Apparatus according to claim 7 or 8, characterized in that the plurality of input connections is looped through the basic module and at least one expansion module. Device according to one of claims 1 to 9, characterized in that a partial or complete deactivation of an output connection can be set by means of the configuration and control means. Device according to one of claims 1 to 10, characterized in that at least one additional input connection is provided for a terrestrial and / or cable-based high-frequency signal.

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