DE2946894A1 - Electronic music PAM control circuit - has VCO driven by mixed DC-VLF signal to clock stored analogue values through bucket-type shift register stages - Google Patents

Abstract

The circuit uses bucket type shift register (6) whose individual stages store analogue values applied at a terminal (6-5) which are passed on from stage to stage by application of two clock phases at terminals (6-4,6-1). The clock pulse generator (12) is a voltage controlled oscillator responsive to a mixed d.c. and variable very low frequency voltage applied to the phase control input (12-5). Two different phase control input voltages (13,14) may be applied to two channels. The shift register clock frequency may vary between 30 to 110KhZ and the delays produced thereby cover an adequate phase range. The output from the analogue shift registers (5,6) is combined at the common output (23), amplified to loudspeakers. The phase change rhythm for one channel may for example be 1-2 Hz, whereas the rhythm for the other channel may be 7-10 Hz. A third channel may be provided which contains slowly changing d.c. level changes to control the average phase delay, or the changes may be applied to the channels on an individual basis.

Description

PAM circuitry

for music electronics PAM circuit arrangement for music electronics The invention relates to a circuit arrangement according to the preamble of the claim 1.

Phase modulation devices based on the principle of the iodulated Runtime delay by means of a larger number of reactance elements with controllable ones Amplifier stages or phase shifts that are low-frequency in the individual links be changed have long been known; see e.g. the DE-AS 19 25 946, whereby the type of vibrato effect realized there already in several channels in applied in different ways.

In the publication 'The MOS Delay Line ...., How It Works and their application to create special effects in electronic organs', Company publication "Information o23" from ITT Freiburg, and in the essay 'Delay of LF signals with MOS-Eilerketten' by J.Holliann and R.-D.Burth in the magazine "Funkschau", 1973, pages 967-970 and 1oo9-1o1o, is described that the so-called "iron chains" are advantageously used instead of the reactance chains in which the delay time is changed by changing the clock frequency can be. These bis chains are known to be shift registers for analog signals the design of the alternately arranged in pairs in a chain and by a Taktschtinger Reloadable charge carrier elements, with the frequency of the clock oscillator more or is less periodically modulated by low-frequency signals.

A mixed frequency, phase and caplitude modulation of the to achieve the desired musically effective type, have so far been (cf. References) as modulation signals those used from different Frequency usually two signals are put together, the components of which are put together before they are combined on the modulation input of the clock oscillator for several transmission channels and the shift registers contained in them are the same in pairs, but different for each channel are out of phase. The possibility of changing this type of PAM circuitry is relatively limited, apart from the defiant necessary circuitry effort.

The present invention is based on the object of the known Circuit arrangements of the type in question here with regard to the possible variations to improve and also to reduce the circuitry effort. These The object is achieved according to the invention in that in the PAU circuit arrangement of the type mentioned in the preamble of claim 1, the clock oscillator of the shift register at least two transmission channels of oscillators different, above the Frequency range lying frequency applied and designed as a switching oscillator are, the frequency-determining circles of the respective oscillators on means the phase shifter device against each other phase-shifted outputs of a low frequency AC voltage source are connected.

The trained according to the invention or solution described above Circuit arrangement has the advantage over the prior art that one for the desired musical-acoustic effect instead of three only two channels and instead two low-frequency generators with three phase-shifted output signals only one such and possibly a low frequency generator with only one output signal needed. This alone conveys the advantage of eliminating assemblies, which are replaced by simple different DC voltage dividers.

Another technical advance is that in simpler Way by changing only DC voltages to shift the quiescent frequency one or more oscillators for the or the clock oscillator the phase and Frequency swings can be changed to a large extent. Also affect it the low-frequency modulations in each case in very different ways the Tone color character, especially in the different transmission channels Way out; the result of the new PAM circuitry is thus that further strong sound changes - in vibrato or Tremulant area - in the style of tone color registers are made available to the user or player can.

The refinements of the invention are the subject of the subclaims.

The following are exemplary embodiments or variants of an exemplary embodiment the invention explained with reference to the drawing; it shows: Fig.l: a) in schematic form Representation of the structure of a shift register for the used in the invention Delay time delay device; b) the output signals switched in pairs of the associated clock oscillator; FIG. 2: an expanded block diagram of the transit time delay device with two transmission channels for the audio frequency signals; Fig. 3: a block diagram for a further development of the embodiment of Figure 2 with three transmission channels, where the clock oscillator frequency is set differently for two channels, but with Low frequency signals of the same frequency, but different phase position modulated is, and the clock oscillator frequency of the third channel with a low frequency signal modulated is a component of the same frequency, but still another phase as in the other two channels and its other component has a higher frequency below the listening area; Fig. 4: an expanded block diagram for the low-frequency generator with three phase-shifted outputs and partially various superimposed DC voltage components Fig. 5: an expanded block diagram for an additional low-frequency generator part with one output and overlaid DC voltage component In Fig.la it can be seen that the odd-numbered YOS chain links are semiconductor elements T1, T3 etc. of a shift register for analog signals of the type used here with the even-numbered T2, T4 etc. alternating with the charge content of each previous to be reloaded by the signals of Fig. 1b, so that the input Vi of the shift register is present during a half period of the clock oscillator signal Instantaneous value of the audio frequency signal with each clock change by one chain link is transported further; since such a chain contains between 50 and 200 links, which are reloaded with a frequency of 30 kHz to llo kHz (according to literature reference "Funkschau" loc. Cit.), The mentioned instantaneous value is delayed by about 0.5 ms to a maximum of 6 ms at the end Vu of the shift register ans. This runtime delay corresponds to how one can easily see a relatively large phase shift that increases with Frequency of the input signal is greater.

In Figure 2, the two transmission channels 1, 2 are between the on a toggle frequency generator connected to input 3 and to the input of the Sound reproduction device leading output 4 with the shift registers 5, 6, the Switching oscillators 7, 8 each with an intermediate stage 7, 8 and the oscillators 11, 12 equipped, the frequency of which is determined by the DC voltage signal at the relevant entry 13, 14 can be changed within wide limits; units 5 to 8 and 11, 12 are available as highly integrated semiconductor components for their internal structure in addition to the specification of the type designation and the straightforward from the designation as the following basic circuit is known, no further explanations are required are; Additional information about this can be found in the ITT company publication wIniorsation o23 "and the article in the" Funkschau "(see above) the use of this circuit arrangement according to the invention is at the inputs 13, 14 low-frequency signals (below the Görboreich) possibly different Frequency or, if necessary, several components of different frequencies, above all but with a component different phase position and also different DC voltage parts.

In Figure 3, the delay time delay device 51 consists of three Transmission channels 52, 53, 54, which are connected to the shift registers 55, 56, 57, the low-pass filters 58, 59, 60 and amplifier stages 61, 62, 63 connected in series are equipped; at the inputs 64, 65, 66 are the audio frequency signals, the - as indicated by the dashed line 67 - from an electronic Musical instrument 67a or its Tonirequenzeoneratoren may be supplied.

Each of the shift registers 55, 56, 57 is connected to the one intended for this purpose Inputs 68, 69 or 70, 71 or 72, 73 the output pair of the associated switching oscillator 74, 75, 76 connected with anti-phase square-wave signals, to its associated with the Oscillator with a frequency-determining circuit - which is determined by the size of a direct voltage is pinned - via line 77, 78 or 79 the affected mixer 80, 81, 82 is connected; this is both from the associated low frequency generator stage 83, 84, 85 and also via the input line 86, 87 respectively. 88 with a DC voltage signal component for the output signal on the line 77, 78 and 79 superimposed.

The low frequency generator stage 85 is different from the others 83, 84 in that they are not shown separately in all cases except for AC voltage source of low frequency, the signals of which via lines 89 and 9o are forwarded out of phase, also via the line 91 to the other AC power source 92 is connected, the frequency by a factor of about 3 to 8 higher than that of the low-frequency generator stages 83, 84, but always is still below the audibility range.

In this exemplary embodiment, then, if of the input lines 86. 87, 88 applied DC voltages are at least two different, one pronounced Further development of the basic training of the invention - for example according to the Embodiment of Figure 2 -realized, especially when the DC voltages the input lines 86, 87, 88 additionally at least partially through switches or controllers can be set or selected by the user or player.

The output signals of the amplifier stages 61, 62 and 63 are in in a manner known per se - optionally selectable by switches - summarized and partly through various sound filters or similar assemblies for playing aids a power amplifier group 93 and a loudspeaker group 94 fed, which form the sound reproduction device.

In FIG. 4 the AC voltage source supplies lol via the lines 102, 103, 104 three low-frequency output signals out of phase with each other, those via lines 105, 106, 107 with operational amplifier semiconductor components occupied Mixing stages 108, 1o9, 11o at one input each, while at the other Inputs 111, 112 and 113 different DC voltage signals are present. On the Output lines 114, 115, 116 are the control signals for the frequency-determining ones Circles of the oscillators of the switching transducers - with different signals regarding the frequency components, the phase position of a frequency component and the DC voltage component from how this switching oscillator (74, 75 or 76 in Fig.3) on the lines (77, 78 or 79 in Fig. 3).

In Fig. 5 is a low-frequency AC voltage source 151 with a Signal output 152 for one input 153 of the operational amplifier of the mixer 154 reproduced, at the other input 155 of which a DC voltage is applied, so that here on the output line 156 again a low-frequency signal - one single phase - occurs with a superimposed DC voltage component, as shown in Fig. 3 on line 91 is assumed when the frequency of this AC voltage source is in the frequency range from 3 Hz to 12 Hz.

Claims (5)

Claims 1. PAM circuit arrangement for music electronics, the in the line between the generator outputs of an electronic musical instrument and / or other Tonfrequonzsignalen on the one hand and amplifier sound reproduction device on the other hand, possibly better known per se with the interposition of sound filters Type (a) a transit time delay device with at least two parallel Transmission channels with a shift register for analog signals, in particular the design of the alternately arranged in pairs in a chain and by a clock oscillator Reloadable charge carrier elements and a downstream low-pass filter with pass band for the audio frequency signals are fitted, (b) and a low frequency generator device with frequencies below the audible frequency range contains at least a phase shifter device between the output of a low-frequency one assigned to it AC voltage source and an input of the transit time delay device, through this characterized that (c) the clock oscillator (e.g. 11.74) of the shift register (e.g. 5, 55) at least two transmission channels eB.1, 64) of oscillators (e.g. 11, 74) different frequencies above the audio frequency range are applied and are designed as switching oscillators (e.g. 7), (d) where the frequency-determining Circles of the respective oscillators (zu.11,74) by means of the phase shifter device (e.g.? ° + phase-shifted outputs of a low-frequency AC voltage source (lol) are connected. 2. PAM circuit arrangement according to claim 1, characterized in that that the frequency-determining circuit of at least one oscillator (e.g. 11, 74) is voltage-dependent is designed and in combination with a DC voltage (e.g. 112,113) to the low-frequency AC voltage source is connected. 3. PAli circuit arrangement according to claim 1, characterized in that that the frequency-determining circles of the oscillators (e.g. 11, 74) of at least two transmission channels (e.g. 1, 2) at different equal voltages in combination with several of the outputs belonging to the low-frequency generator device (e.g. 102-104) a first AC voltage source with different, preferably around 900 to 1200 shifted phase position of their basic frequency and possibly one second low-frequency AC voltage source (e.g. 92) higher frequency than the above, but the same for the oscillators (e.g. in 76) of the transmission channels Phases of their base frequency are connected. 4. PAS circuit arrangement according to one of claims 2 and 3, characterized characterized in that the fundamental frequency of a first AC voltage source (e.g. 83) in the range between 0.5 Hz and 2 Hz, preferably at least approximately 1 Hz, and, if necessary, the fundamental frequency of a second AC voltage source (e.g. 92) is in the range between 3 Hz and 12 Hz, preferably at least approximately 7 Hz. 5. PÄM circuit arrangement according to one of claims 1 to 4, characterized characterized that in at least one but carrying channel (e.g. 1) an additional another shift register (whn§ 'with associated low-pass filter (nacb 5, 6) inserted in series is whose clock oscillator (similar? '§ of at least one of the total planned Oscillators (e.g. similar 1) 2 is controlled.