DE4304179A1 - Radio data signal receiver for car radio - uses stored reception signals for supplying reproduction circuit during switching between different signals to maintain reception quality. - Google Patents

Abstract

The receiver incorporates automatic switching from one radio signal to another, to maintain optimum reception, using evaluation of the relative reception strengths of the different radio signals during a test cycle. The received radio signals are entered continuously in a memory (5) housing a storage capacity corresp. to the duration of the test cycle and are read out from the memory for supplying a reproduction circuit (2) during the test cycle, to eliminate a reception gap. Pref. the memory has respective memory locations for the left and right channels (L, R) in the case of a stereo reception circuit. ADVANTAGE - Eliminates need for muting circuit and provides continuous reception during signal switching.

Description

The invention relates to a blanking gap bridging according to the Preamble of the claim. Especially for motor vehicles Radio receivers are increasingly being used, which according to the radio Data system (RDS) work automatically on the respective Pro's best receiving station location of the vehicle toggles. For this purpose, testing processes are carried out automatically Comparison of the reception qualities of those from different broadcasts signals of the program in question. If the Broadcast receiver does not have multiple tuners, they must Test operations carried out with the only existing receiver are so that the forwarding of the approx de received signals to the playback part must be prevented. This interruption, which can also be called a blanking interval, accordingly leads to a disturbing short-term "muting" of the Radio.

EP 00 91 067 B1, H03J 7/18 describes a method for switching over ten the reproduction of a radio signal on another radio signal (i.e. switching from one transmitter station to another) known that deviates from the invention on a round radio with two parallel reception and playback branches be pulls. As soon as a disturbance occurs in a broadcast signal, he the switch to the other radio signal follows. this happens so that when the fault occurs, the round just reproduced radio signal gradually disappears and the other broadcast signal in  same dimensions is displayed, the playback of the radio signals compared to their reception by a predetermined period of time is hesitating at least equal to the duration of the crossfade from one to the other broadcast signal. So this constantly effective delay in the transmission of the received signals from the receiving part to the reproducing part has the consequence that the switching caused by a fault has already occurred before the Disturbance can reach the playback part. Is the fault in If there is a gap, this occurs due to the switchover to the Play the interference-free other broadcast signal and the be written delay of the received signals no longer by Receiving part.

In deviation from this prior art, the invention lies Task based, mute one only a receive and a reproducing part having a radio receiver due to the Occurrence of blanking gaps in the described test procedures to avoid with simple means.

The inventive solution to this problem consists in the drawing features of the claim.

In the case of the invention, therefore, it takes place outside the test procedure described a normal transmission of the received signals from the Receiving part to reproducing part, d. H. without deliberately generated delays wrestled. At the same time or practically in parallel, they will each because signals received are pushed into a memory that is out on the aisle side only during the test processes with the playback part is connected, which is then separated from the receiving part. In short, this is saved in the memory secured signal end to bypass the test itself blanking process used by this signal at the end again fed to the input of the playback part becomes. It also follows that the blanking gaps according to the invention bridging works the better, d. H. the acoustic warning The shorter a test, the more reliably a test process is prevented  the inspection process is.

An embodiment of the invention is described below with reference to the Explanation of the drawing, which is only schematic of those interested here Play blocks of a corresponding radio.

With 1 the receiving part, with 2 the playback part of the radio receiver is designated; there is no need to go into details since they are known on the one hand and are irrelevant to the use of the invention. Due to the presence of only one receiving part 1 , this must be separated from the reproducing part 2 during the described test procedures, for which purpose the switch 4 , which is then drawn into its position, not shown, by switching commands 3 coming from a processor. In this example, it is a stereo broadcast receiver with separate connecting lines for the left (L) and the right (R) channel, so that the switch 4 has two contacts.

So that during the test times, ie during the interruption times of the connecting lines, the playback part 2 is supplied with signals, the signals received and processed outside the test operations from the reception part 1 are fed to the memory 5 , whose storage capacity with regard to the duration of the test operations is dimensioned so that this memory contains a corresponding end region of the signal currently being received. In this embodiment, a single memory level is assigned to both channels L and R; understandably, it is also possible to store the signals of the two channels L and R separately in order to maintain stereo operation even during the test processes.

If one again looks at the presence of a test process, the contacts of the switch 4 now connect the output of the memory 5 via the amplifier 6 for level adjustment to the inputs of the receiving part 2 , so that the memory 5 actuated by clock signals 7 directly in it before the start of the test process, the signal now stored on the playback part 2 , which accordingly repeats an end part of the previously received signal. As a result, the blanking gap caused by the switching of the contacts of the switch 4 into its position, not shown, is bridged.

Various means are available to the person skilled in the art for executing the memory 5 . The memory can be constructed from analog components (bucket chain memories) or from digital components.

With the invention, a blanking gap is accordingly ge create a simple mute of the round radio receiver during RDS-related blanking gaps.

Claims (1)

Blanking gap bridging for a receiving and a reproducing part, working according to the RDS method, radio receiver, in which tests are carried out to determine the optimally receivable transmitting station, which are connected with interruptions in the direct forwarding of received signals to the reproducing part, characterized in that the signals received prior to the test processes are continuously entered into a memory ( 5 ) with a storage capacity which corresponds approximately to the duration of the test processes, and are read out from the latter during the test processes and fed to the playback part ( 2 ).