DE2057384A1 - Waveband switching with switch diodes - Google Patents

Description

BLAUPUNKT-VV ERKE GIVIBH> 2 HILOESHEIM, Robert-Bosch-Strafl

200

V ^:

PLI Pr / Fo '· ^v 16.11,1970

R.Nr. H18

Waveband switching with switch diodes

The invention relates to a wave range switching with switch diodes for a device for electrical communications engineering.

The waveband switching with switch diodes usually looks in such a way that a switch is provided for each wave range, via which a switching voltage is applied to the associated switch diode can be laid. In addition, the switches must trigger each other so that two wavebands do not- <· ' can be switched on. I use it in the car radio and in a remote control, however, these switches are less suitable because of their extensive, space-consuming mechanics.

The invention is therefore based on the object of finding a form of switching that requires fewer contacts and is smaller is to be built.

A particularly simple solution is obtained if according to the invention a ring counter known per se is provided, the individual counter stages of which are connected downstream of switching stages, depending on the switching status of the ring counter stage that controls it, a positive or negative voltage compared to a reference point to the switch diodes.

A particularly convenient design is obtained if in further \ of the invention, the ring counter education listed with flip-flop stages, builds. The flip-flop stages are coupled to one another to form a ring that there is always only one stage in the "L" state, ie j

2 0 98.22 / 0422

BLAUPUNKT-WERKE O] VIBH S2 HILDESHEIM, Rob "rt-Bo" ch-Str "B 200

PLI Pr / Fo - 2 - November 16, 1970

R. No. 1118

conductive and all others in the "0" state, ie. are locked. After each input pulse, the "L" status is transferred to the next stage. The fact that in a ring counter there can only ever be one counter stage in the "L" state ensures that only one waveband is switched on at a time; All that is needed to switch the wave range is a simple switch contact, which is used to send voltage pulses to the ring counter input. Each pulse then switches on the next following wave range. This type of 'waveband switching is particularly useful for a remote control, since only a two-wire cable is sufficient to switch the waveband''. Since such a receiver usually also has an electronic tuning and possibly also an electronic volume control, a receiver constructed in this way can be completely remote-controlled via a four-wire cable. A Autosuper can be operated in a similar way, the entire HP input and mixing part in the form of an integrated antenna outside of the driver's operating area. On the dashboard there is only a tip contact for switching the waveband and two adjustable resistors for tuning and volume control. If value is placed on a waveband display, marked fields can be provided that are illuminated according to the activated waveband.

Further details emerge from the subclaims and are shown below with reference to one of the drawings Äus Ausführungsbeispieles described and explained in more detail. ;

The figure shows the schematic structure for such a

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• 20573 tf

BLAUPUNKT-WERKE GMBH «h.ldeshh.m. ** «« ** «*** *»

PLI Pr / Fo -3- November 16, 1970

* R.Nr. 1118

ge switching of the waveband. The flip-flop stages 1 to 3 are connected to a ring via a ring line 4, 5 and 6. The output resistors 7, 8 and 9 or 10, 11 and 12 of the respectively identical flip-flop branches are connected to a voltage source 13. The resistors 10, 11 and 12 have a tap at which the bases of the switching transistors 14, 15 and 16 and their emitters are connected the voltage source 13 are connected. The collectors of these transistors are connected on the one hand to a voltage source 20 via a resistor 17, 18 or 19 and on the other hand to a switch dlpde (not shown) in the receiver 21. The inputs 22, 23 and 24 of the flip-flop stages are connected to one another and are connected to a resistor 25 to ground and via a capacitor - * 26 27 at a Tipkontakt The inputs 2, \ 29 and 30 are also connected to each other and overlie e ^v INEM resistor to ground.

The ring counter should now be constructed in such a way that from the flip-flop branches, at whose outputs the switching stages are, only one is always in the "L" state. Then just is its subsequent switching stage is conductive and the associated switch diode is a.positive voltage that the switch diode switches through, so that the resonant circuit connected to it is switched on in the tuning circuit, while the rest Resonant circuits are separated from the tuning circuit. It should be assumed that flip-flop stage 1 is in the state "L", then a current flows through the resistor 10 which is applied to it causes a voltage drop, part of which reaches the base of the switching transistor 14 and this transistor switches through. This means that the potential of the voltage source 13 of + 6V is present at the collector of this transistor and therefore also applied the connected switch diode in the receiver 21. Since the

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BLAUPUNKT-VVER.KE GMBH JJ HILDESHEIM, Robert-BoiCh-StraÖe 200

PLI Pr / Fo - 4 - November 16, 1970

R. No. 1118

Switch diodes should be polarized in such a way that they switch through when the switching voltage is positive, the resonant circuit, which is coupled to the flip-flop stage 1, is switched on. The remaining flip-flop stages 2 and 3 are in the "0" state, ie their downstream switching stages are blocked so that the negative potential of the voltage source 20 is applied to the collectors and thus also to the associated switch diodes via the resistors 18 and 19, respectively Switch diodes are blocked. If it is now to be switched over to the next wave range ", the switch 27, which is expediently designed as a tip contact, is closed briefly so that a positive pulse reaches the inputs 28, 29 and 30 via the capacitor 26 in such a way that the flip-flop stage, which is currently in state ¹¹ L "- ^; found to be blocked. The resulting voltage jump at its output reaches the next flip-flop stage via the ring line and switches it through, so that the "L" state is advanced by one stage, and with it the switchover of the waveband. With every further pulse, the next following wave range is switched on until the flip-flop stage 1 is again in the "L" state and the associated wave range is switched on, with which the cycle can begin again.

In the case of a receiver with electronic transmitter search, an automatic wave range switchover can be carried out without great effort build up. Every time the tuning voltage has reached its maximum value and thus exceeded the frequency range, it breaks they 'together to slowly rise again. The collapse of the tuning voltage is usually caused by sudden discharge of the capacitor at which the tuning voltage is tapped is achieved. By inserting a suitable resistor

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20p7384

BLAUPUNKT-WERKE GMBH,

PLI Pr / Fo, '- 5 - 11/16/1970

in the discharge circuit can be on this in the case of the discharge; ladling pick up a voltage pulse that is used for switching
the wave ranges can be used. The search "begins;. ' then-each time in a different waveband. In this case, it is advisable to provide a switch that can be used to switch between internal and external waveband switching.

In the event that a Band display is desired, ^s can be parts of the resistors 10, 11 or 1.2 erleuch- by lamp, replace the then correspondingly marked fields!, Th. ''

I) - ι

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Claims (4)

PLI Pr / Fo - 6 - November 16, 1970 . . R. No. 1118 Claims Wave range switching with switch diodes for a device of electrical communications engineering, characterized in that, that a "known ring counter" is provided, ■ the individual counter stages of which are connected downstream of switching stages, depending on the switching status of the ring counter stage controlling it deliver a positive or negative voltage to the switch diodes compared to a reference point. 2. We11enbereichumschalt according to claim 1, characterized by knnr. · shows that_de_r_ring counter is built with flip-flop stages. «..: .. ·, 3. waveband switching according to claim 1 and 2, for one Car radio receiver with electronic tuning, characterized in that the ring counter and the switching stages just like the HE input and mixer stage with the receiving antenna are integrated. 4. waveband switching according to claim 2 or 3, for one Receiver with electronic station search, characterized • by the fact that the wavebands switch automatically, if the tuning voltage collapses after reaching its maximum value. 5 · Wave range switching according to claim 4, characterized in that that according to .the switched on waveband there is a visual display. 209822/0422