DE1100086B - Circuit arrangement for the stereophonic reproduction of signals - Google Patents

Description

GERMAN

The invention relates to a circuit arrangement for the stereophonic reproduction of signals which, in the form of the sum signal A + B of the coherent stereophony signals A and B and of a subcarrier wave in amplitude modulated difference signals A-B of these coherent stereophony signals A and B to the input circuit of Circuit arrangement are supplied, wherein the playback device is provided with separate playback channels, which are fed by the coherent stereophony signals A and B. In particular, the circuit arrangement according to the invention can be used in a receiver for stereophonic radio transmissions, the sum signal A + B and that of the subcarrier wave modulating the amplitude of the modulated difference signal A - B of the radio carrier frequency in amplitude or frequency, and furthermore in magnetic recorders, record players and the like

To achieve stereophonic reproduction, it is already known to use separating filters to convert the sum signal A + B to a first channel and the difference signal A-B modulated in amplitude to the subcarrier frequency to a second channel with an amplitude demodulation device provided therein for demodulating the subcarrier frequency modulated difference signal A - B feed, which is fed together with the sum signal A + B via a sum and difference generator to the separate playback devices.

The invention aims at a fundamental modification of the known circuit, which is not only characterized by an improvement in the stereophonic reproduction quality, but also by its simplicity and which further enables existing devices for non-stereophonic reproduction to be supplemented with a minimum of additional elements for stereophonic playback.

The stereophonic reproduction apparatus according to the invention is characterized in that the audio-frequency sum signal A + B and that of the subcarrier frequency in the amplitude modulated difference signal A-B are fed together with two amplitude modulators, which are oppositely poled with respect to the audio-frequency sum signal A + B and the outputs of which are each connected to the input of one of the separate channels.

The invention and its advantages are explained in more detail with reference to the figures.

Fig. 1 shows a stereophonic radio receiver with a circuit according to the invention, while

Fig. 2 one with transistors! equipped stereo receiver shows.

Circuit arrangement

for stereophonic reproduction

of signals

Applicant:

NV Philips' Gloeilampenfabrieken,
Eindhoven (Netherlands)

Representative: Dipl.-Ing. E. Walther, patent attorney,
Hamburg 1, Mönckebergstr. 7th

Claimed priority:
Netherlands 23 March 1959

Rudolf Schutte, Eindhoven (Netherlands),
has been named as the inventor

The specified in Fig. 1 Stereophonieempfänger is to receive on one and set the same carrier frequency as a frequency modulation of the transmitted Stereophoniesignalen which, z from the sum signal A + B of the coherent stereophonic the A + B. B. in the band from 30 to 15,000 Hz, and a subcarrier frequency of 35 kHz modulated in amplitude by the difference signal A - B exist, the modulation signal thus formed, which lies in the band between 30 and 50,000 Hz, the carrier frequency with a Frequency of about 100 MHz modulated in frequency with a deviation of 75 kHz.

The stereo receiver is equipped with a receiving antenna 1 and an intermediate frequency stage 2 with a mixer stage and one connected to it Oscillator 3 provided, whose intermediate frequency oscillations generated by mixing, which are in the band of 10.7 MHz are, after amplification and any limitation, in the intermediate frequency stage 2, an output band filter which consists of two coupled circuits 4 and 5.

The band filter 4,5 forms part of a frequency demodulator of a type known per se for demodulating in normal frequency modulation transmissions and contains two rectifiers 6, T ₁ which are current-permeable in opposite directions and which are connected to the ends of the circuit 5 and which are connected to an output impedance 8, while a center tap of the circle 5 with one end of a coupling coil 9 coupled to the circular coil 4

109 527/384

3 4

is bound, the other end of which is grounded. From- . Amplitude demodulation of the difference signal

input impedance 8 of the frequency demodulator consists of A-B existing enveloping signal results

a resistor ΙΟ, which, through the series connection, is a sum and difference formation of the

two capacitors 11, 12 with grounded connection frequency difference and sum signals AB

is bridged, and a smoothing con- 5 and A + B, so that at the outputs 33, 35 and 34,

capacitor 13, and the output voltage of the frequency 36 of the amplitude demodulators 31, 32 directly

demodulator will tap the center of the output, the coherent stereophony signals A and B occur,

input resistance 10 taken. via the two low frequency amplifiers 17 resp.

At the output impedance of the frequency modulator 18, the two playback devices 19, 20 are assigned

This results in an output voltage that can be derived from the io. With an extremely simple structure of the

Sum signal A - \ - B in the band from 30 to 15 000 Hz stereophonic receiver are due to the lack

and that of the subcarrier frequency in the amplitude of filters frequency-dependent phase shifts

modulated difference signal A-B, which is used in the recovery of the coherent stereo

Frequency band from 20 to 50 kHz, and phonic signals A and B from the output voltage

A separating capacitor 14 of the frequency demodulator below to 15 largely reduced,

explanatory device 16 is supplied for what a stereophonic reproduction of high quality

Recovery of the coherent stereophony signals is particularly advantageous.

A and B, which, after low frequency amplification, are fed to separate low frequency amplifiers 17, 18 between the frequency demodulator 4... 9 and output devices 19, 20. 20 the oppositely polarized amplitude demodula-

The low-frequency amplifiers 17, 18, which have a series resistor 39 attached below 31, 32, and are equally designed, consist of triodes bridged by at least a quarter to a third with grid discharge resistors 21, 22 and non-over- the discharge resistors 33 and 34 of the demadulator Cathode resistors 23, 24 and 25, 26, capacitors 35 and 36, respectively; because a negative coupling of the triodes 17, 18 is established, which leads to the increase in the charging time obtained. The amplified coherent stereophonic constant of the demodulator capacitors 35 and 36 signals A and B are taken from the output resistors 35 and 36 demodulation distortions at 27, 28, which are located in the anode circuits in relation to the discharge time constant of these condensers triodes 17, 18, respectively In the figure, the demodulation is shown schematically in comparison to the frequency, via isolating capacitors 29 and 30, respectively, and their modulating voltage is reduced to a relatively low level with the reproduction devices 19, 20 connected to the subcarrier frequency. Present. · If necessary, can also be used in series for the stated purpose

To get the coherent stereophonic signals A and with the output impedance 33, 35 or 34, 36 B in a simple manner with excellent reproduction of each of the amplitude demodulators 31,32 a series quality from the output voltage of the frequency demodulation 35 resistance can be switched on,
In addition to an excellent reproduction quality and voltage, which is made up of the sum signal A - \ - B and the constant phase curve, it turns out that the subcarrier frequency modulated in amplitude also contains the over-difference signal A - B , the device 16 speak between the two channels, which are supplied, for example, which are provided with two oppositely polarized 40 by mutual couplings or by unequal amplitude modulators 31,32, the level of which lies between the (A Λ-Β) signal and the (A - B) - input circuits connected in parallel to the output signal, over which the entire tone of the frequency modulator 4 ... 9 are connected. Frequency band from 15 kHz to below 30 to 40 ¹ db-each of these amplitude demodulators can be set off with one; because it was found that rectifier cell 31 or 32 and one attached to this 45 that the crosstalk voltages provided a fixed phase-locked output impedance, which from the ratio with respect to the stereophonic signalsed parallel connection of a resistor 33 or 34 and and B have, namely If there is crosstalk of a capacitor 35 or 36, respectively, and the voltages are essentially in phase or in phase opposition with the stereophonic output voltages of the amplitude demodulators 31, signals A and B. On 32, via isolating capacitors 37, 38, 50 are fed in a simple manner in the stereophonic control grid described to the triodes 17, 18, which are connected as low-frequency amplifier receivers, for an effective crosstalk reduction. If the opposite current flow directions are achieved by using a compensation process, which consists in the fact that each of the rectifier cells 31, 32 apart from one point, the Anipli receiving channels are an attenuator with suitable tuddemodulators 31, 32 are connected to each other with the same degree of attenuation that formed by a dem. The signal voltage taken from the other channel is fed

Is at the input of the demodulators described, the opposite of the respective over speech voltage

31,32 the output voltage of the frequency modulator is in phase.

4 ... 9, from the audio-frequency sum signal In particular, it turns out that the voltages

A + B and that of the subcarrier frequency in the ampli- 60 in the two channels through:

tude modulated differential signal A-B exists, so * ₊ β

each of the amplitude demodulators 31, 32 carries a j ~

Amplitude demodulation of the subcarrier frequency B + aA

modulated difference signal A - B through, where ~~

the audio-frequency sum signal A + B for the two 65 can be represented, where aB and aA are the crosstalk

oppositely polarized rectifier cells 31, 32 as voltages and α represent the crosstalk factors,

Threshold voltage acts and thus in opposite directions are equally large and in phase, which is another

set directions enables an operating point shift to simplify the crosstalk compensation,

"two rectifier cells 31, 32 in the rhythm of the process, as can be seen from the above formulas

Sum signal A + B brought about. In addition to a 70 going on, the two crosstalk factors α both

a positive as well as a negative value - the stereophonic receiver is simple and complete point. symmetrical, which significantly reduces costs

If the over speaking factors α a negative PoIa are set, z. B. can have the amplifier tubes 17, rität, so that consequently the signals in the 18 are formed as a single double tube; The additional costs are essentially limited in the two channels by A - aB and B - aA , but in the specified embodiment of the stereophonic receiver the cost of crosstalk is compensated for by the fact that between additional loudspeakers. In addition, this is suitable for the two output impedances 33, 35 and 34, 36 stereophonic receiver due to its symmetrical amplitude demodulators' 31 and 32 a type of construction for use for stereophonic sound a capacitor 15 bridged connection to plate reproduction, it can also be used for normal resistance 40 is attached, whose time constant paint FM reception suitable that with the help of approximately equal to the time constant of the output impulse of a switch 42, the outputs 33, 35 and 34, 36 dances 33, 35 and 34, 36 of the amplitude demodulators of the two amplitude demodulators 31, 32 transmitters 31 and 32, respectively. The network 40,15 forms can be connected to each other,
namely with each of the output impedances 33, 35 15.
frequency-independent voltage divider, such that

A fraction of the output diodes si, 5Δ UA / 9 via the network 40, 15

voltage of the amplitude demodulator 32 to the off resistor 39 47 kOhm

passage 33, 35 of the amplitude demodulator 31 and to 20 resistors 33, 34 ... 100kOhm

at the same time an equal fraction of the output capacitors 35, 36 1000 pF

voltage of the amplitude demodulator 31 to the output capacitor 15. 470 pF

input 34,36 of the amplitude demodulator 32,. "., '.," ", -,

will. If the network 40.15 is set like this, resistor 40 100 kOhm

that the voltage division ratio is exactly equal to the 25 resistors 23, 25 ... 1, 8kOhm

Cross-talk factor is α, this results in full resistances 24, 26 .. 82 kOhm

constant crosstalk compensation, because in this case resistance 41 100 kOhm

is the output (can be changed) supplied via the network 40.15

DC voltage, the counterbalance to the crosstalk voltage - tubes 17, 18 ECC 83

is in phase, exactly as large as this crosstalk voltage 30

tion. Experiments have shown that, finally, it should also be noted that the use of the

if the capacitor 15 is omitted in the balance between the output impedances 33, 35 and 34, 36, respectively Network 40, 15 has already achieved very good results when the connection resistor 40 is switched on. lent advantages, because the connection

If the value of the crosstalk factors α is positive, at 35 resistance 40, each of the output impedances will be a fraction of the signals in the two channels represented by A + a B 33, 35 and 34, 36 that of the other and B + aA Equalization of the output impedance signal voltage in a similar manner, namely by the fact that a signal component 23, 24 and 25, 26 of the Amplifier tubes 17, 18 40 β (A + B) results, which is switched with the amplitude demode. In practice, the grid arresters 31, 32 are audio-frequency sum resistances 21, 22 of the amplifier tubes 17, 18 with signal A + B is in phase, which results in a tapping of the cathode resistors 23, 24 reducing the operating point shift of the diodes or 25, 26 connected, whereby larger cathode 31, 32 results from this sum signal A + B , which resistors 23, 24 and 25, 26 can be used 45 for a further increase in the reproduction quality, which is advantageous for practical reasons. is tig.

With combined use of the network 40, Fig. 2 shows a stereophonic receiver from the ge

15 and the resistor 41 is, as described above, of the type which is equipped with transistors. clarifies, for all occurring values the over- Corresponding elements are with the same discussion factors in a simple way an effective 50 numbered digits are designated.

Crosstalk compensation can be achieved. Instead of a tube amplifier, see the illustration To compensate, however, only one of the stereophonic receivers needs a transistor amplifier Compensating networks 40, 15 or 41 changeable ker use, the with two transistors 44, 45 in to be, because if either the network 40, 15 emitter circuit is provided. Each of the transistors or the resistor 41 on such a fixed 55, 44, 45 contains a collector value in the collector circuit it is set so that the crosstalk factors always resisted 46 or 47, with the one via a separating cone have a certain polarity, the capacitor 48 or 49 can be used as the playback device 19 Crosstalk are always connected by setting the or 20 appropriately, while the collectors are different Compensating network 41 or 40, 15 also discharge electrodes via resistors 50 and 51, respectively same. Preferably, that between the outputs 60 are connected to the base electrodes. In each of the output impedances 33, 35 and 34, 36 lying network emitter circuits of the transistors 44 and 45 is a work 40, 15 fixed and the resistor 41 changeable emitter resistor 52 or 53 switched on, and for formed as shown in FIG. Crosstalk compensation, these resistors are about

In summary, it is found that the stereophonic receivers, which are present with one another, have an adjustable resistor 54 which binds all of the features. In the manner already explained with reference to FIG. 1 for a good stereophonic reproduction, the coherent stereophonic Si and that an excellent reproduction quality, a signal A and B of the reproduction devices 19 fixed phase progression and a crosstalk of a few and 20 are reproduced .

Less than 30 to 40 db, what a good stereophonic. Experiments have shown that the stability of the

Playback more than is sufficient. Stereophonic receiver specified in structure 70 in transistor

Claims (10)

7 8 training for stereophonic radio reception, back modulators (31, 32) are supplied, which are provided and polarized in opposite directions. In the following some data of this stereo 3. circuit arrangement according to claim 1 or 2, phonierundfunkempfänger are given: in which the outputs of the amplitude demodulator transistors 44 45 OC 71 5 ren Jewe ^ s from the parallel connection of an off resistors 40/47. '.' . '.'. '.'. '.'. '.'. '.'. '. 5.6 kOhm output capacitor and an output resistance resistors 52, 53 3.9 kOhm level, characterized in that m resistors 50 51 47 kOhm R «he with the outputs ^ (33, 35 or 34 36) resistor 54 S kOhm Each of the amplitude demodulators (31, 32) em vv understood a * ö Kunm ^ resistor is connected, the value of which is at least a quarter to a third of the value of the parallel sneeze signals A and B is used in the embodiments for the output capacitor (35 1 and 2 together with the auxiliary output resistance (33 or 34), carrier frequency to modulated difference signal AB 4. Circuit arrangement according to Claim 1 or 2, the sum signal A + B polarized in opposite directions 15 in which the outputs of the amplitude demodulator / amplitude demodulators 31, 32 are drawn in phase from the parallel connection of an output circuit; However, it is also possible for the sum signal capacitor and an output resistance to be A + B opposite the two amplitude demodulators, characterized in that they are fed in phase, in which case the amplitude signals have the same polarity as the amplitude demodulators (31, demodulators) For this purpose, 20 32) can be supplied via a series resistor (39). B. be a frequency demodulator with a whose value is at least a quarter to with respect to earth in push-pull output a third of the value of the parallel to the output circuit use, each of the capacitor (35 or 36) switched output clock output voltages one of the resistance of the same polarity (33 or 34). Amplitude demodulators is supplied. A ge 25 5th circuit arrangement according to one of the preceding common feature of all these embodiments, characterized in that the two amplitude demodulators, which for crosstalk compensation, the two separate audio-frequency sum signal A + B and that of the channels are coupled via an attenuator , Subcarrier frequency modulated in amplitude, which is fed jointly to the other channel by a differential signal A — B, signal voltage taken in 30, which is in phase opposition to the relevant cross-talk voltage with respect to the audio-frequency sum signal A + B, is fed in opposite polarity, Attempts have shown will. that the embodiments according to FIGS. 1 and 2 under 6. Circuit arrangement according to claim 5, because of their better reproduction quality and characterized in that simple training deserve preference between the outputs. 35 gene (33, 35 or 34, 36) of the amplitude demodulator Finally, it should also be mentioned that the simplicity lators (31, 32) a connection resistor (40) of the described stereophonic playback is switched on. direction the use for magnetic sound reproduction 7. Circuit arrangement according to claim 6, which makes it particularly suitable, because the audio frequency is characterized in that the connection counter-sum signal A + B and that of the auxiliary carrier frequency 40 stood (40) from a capacitor (15) overmodulated difference signal AB can in one is bridged and the time constant of the connection track is recorded and recorded by a scanning head on the resistor (40) and the capacitor (15), so that no profound changes - practically equal to the time constant of the output stanchions in the existing magnetic sound devices Amplitude demodulators (31,32) need to be taken. 45 is. .p 8. Circuit arrangement according to claim 5, 6 claims: or?> bd der dje the outputs of the amplitude 1. Circuit arrangement for stereophonic demodulators taken from output voltage playback of signals, which are supplied in the form of the sum of two low frequency amplifiers schaltemensignals A + B of the coherent stereophonic 50 th amplifier tubes, characterized by signals A and B and the one subcarrier frequency that the Low frequency amplifier tubes (17, 18) with non-bridged cathode AB of these coherent stereophony signals A resistors (23, 24 or 25, 26) are provided with the amplitude modulated on the differential signal, and B the input circuit of the circuit arrangement between which a connection resistor (41) is arranged are fed and the stereophonic ■ S5 is switched. African reproducing apparatus with separate 9. Circuit arrangement according to claim 5, 6 playback channels is provided, which are demodulators sampled output voltages by the co- or 7, in which the fed the outputs of the Amplitudenhärenten stereophonic signals A and B, characterized in that the audio frequency two as low frequency amplifier connected-frequency sum signal A + B and the Hilfs-- are supplied to 60 transistors, characterized modulated gekennträgerf requency in amplitude is characterized in that the transistors (44, 45) in emitter-difference signal A - B together two amplitude circuit lie with non-bridged emit demodulators (31, 32) are supplied, which are provided in terwiderstands (52 or 53), between two reference to the audio-frequency sum signal A + B see a connection resistor (45) are polarized opposite and whose 'outputs 65 is switched. (33, 35 or 34, 36) each at the input of a 10th circuit arrangement according to claims 6, 7 of the separate channels. and 8 or 9, characterized in that the 2. Circuit arrangement according to claim 1, da- see the two amplitude demodulators (31, characterized in that the incoming Si 32) switched connection resistor (40) signals in parallel the two amplitude * ¹ '^ is set to a fixed value while the 9 10 other connection resistance (41 or 45) between the outputs (33, 35 or 34, 36) of the see the separate channels changeable amplitude demodulators (31, 32) a switch forms is. (42) is appropriate for the non-stereophonic 11. Circuit arrangement after one of the pre-playback the output circuits of the two amplifiers ongoing claims, characterized in that 5 connects tude demodulators with one another. 1 sheet of drawings © 109 527/384 2.61