SU1182571A1 - Pulse programmator - Google Patents

Abstract

A PULSE PROGRAMMER containing a series-connected clock pulse generator and a decoder, the outputs of which are connected to the switch inputs, an n-channel diode adder, each channel of which consists of a series-connected diode and a closing contact, and the input of the strobe generator connected to the clock input of the device ,. characterized in that, in order to increase reliability in operation while reducing hardware costs, an I element is introduced into it, the output of which is connected to the input. The pulse counter is reset, and the first and second inputs are respectively with the switch output and the device synchronization input, with the input of each channel of the diode adder connected to the corresponding output of the decoder, the outputs of even and odd channels are combined respectively into two groups, the outputs of each of which are connected respectively, through the first and second resistors with a power supply bus, directly to the inputs of the first and second short pulse drivers, the outputs of which are connected to the inputs of the OR element, Exit is connected to the trigger input of the monostable which is the output device. 00 you ate

Description

The invention relates to electronic music and can be used in particular, and electronic musical instruments for software rhythmic pattern. .

The purpose of the invention is to increase the reliability of the device while reducing hardware costs.

The drawing shows a structural electrical circuit of the pulse programmer,

The pulse programmer contains a series-connected 1-generator oscillator 1, a counter 2 pulses and a decoder 3, the outputs of which are connected to the inputs of the switch 4, n is a channel diode adder 5, each channel of which consists of a series-connected diode 6.1-6-n and make contact 7.1-7-n, and the input of the strobe generator 1 is connected to the synchronization input of the device, the element 8, the output of which is connected to the input Cf.os of the counter 2 pulses, and the first and second inputs - respectively to the output of the switch 4 and the synchronization input of the device va, the input of each channel of the diode adder 5 is connected to the corresponding output of the decoder 3, the outputs of the even and odd channels are combined respectively into two groups, the outputs of each of which are connected respectively through the first 9 and second 10 resistors to the power supply bus, directly to the inputs of the first 11 and the second 12 short pulse drivers, whose codes are connected to the inputs of the OR element 13, the output of which is connected to the trigger input of the one-shot 14, the output of which is the output of the device.

In this case, the one-shot 14 may contain an inverter 15, the output of which is connected to the output of a single-shot &, input - to the single-shot start inputs and through series-connected resistor 16 and transistor 17 with a common bus, the bases of transistor 17 are connected through a resistor 18 to the power supply bus and through the capacitor 19 - with the output of the one-shot 14.

Shapers 11 and 12 short pulses can contain an inverter 19 whose input is the input of a shaper, and a differentiation circuit from a capacitor 20 and a resistor 21,

connected between the output of the inverter 19 and the output of the short pulse generator. Element OR 13 may contain diodes 22.1 and 22.2, the anodes of which are connected to the inputs of the element OR 13, and the cathodes - with its output.

The device works as follows.

The initial state of the counter 2 determines the initial state of the decoder 3, in which the first output of the decoder will have a logic level O, and the remaining outputs will have a logic level 1.

V.

in the initial state at the output of the single vibrator - the level of logic 1 (transistor 17 is open and shunts the input of the inverter 15 through a resistor 16)

Consider the case when all contacts 7.1-7-p are closed.

When the 1st pulse arrives from the clock generator 1, the counter 2 changes its state. In this case, the logical zero passes from the 0th output of the decoder 3 to the 1st. Diode 6.1 closes and diode 6.2 opens. . At the outputs of the formers -11 and 12, short pulses of positive and negative polarities appear, but only a positive pulse from the output of the former 11, which triggers the one-shot 14, which forms the output pulse of the device

When the second counting pulse arrives from the clock generator 1, the logical zero from goes to the 2nd to the 2nd output of the decoder 3. In this case, a positive trigger pulse is obtained at the output of the driver 42, the one-shot 14 is triggered by it, forming the second pulse at the device output.

In general, the lobes of the rhythm pattern are set by closing the necessary contacts 7.1-7-p. In this case, the closure, for example, of contact 7.2 ensures the passage of the 1st pulse, i.e. receiving the output of the device of the 1st beat, and closing contact 7.2 - receiving the output of the device of the 12th beat.

Switch 4 provides the ability to arbitrarily select the number of beats in the cycle (from 2 to d) due to the presence of feedback from the nth output 31 of the decoder 3 to the reset input R of counter 2 through element 8 I. The synchronization input serves to reset the device Do not wait until the end of the cycle, which is necessary when using a pulse programmer as part of automatic music devices. Thus, the proposed pulseMMaTop pulse allows to ensure reliable formation of the output

f5 71 signals of standard duration. The insertion of element 8 eliminates the possibility of a simultaneous arrival of signals at the end of the cycle from the output of switch 4 and the synchronization signal. The difference in the outputs of the even and odd channels of the switch 4 makes it possible to refuse to use the elements AND at the input of each channel, which are present in the prototype device, which reduces the hardware costs.

Claims (1)

A PULSE PROGRAMMER, which contains a serially connected clock pulse generator and a decoder, the outputs of which are connected to the inputs of the switch, an η-channel diode adder, each channel of which consists of a series-connected diode and a make contact, and the input of the strobe generator is connected to the synchronization input of the device. characterized in that, in order to increase reliability in operation while reducing hardware costs, an And element is introduced into it, the output of which is connected to the input. The pulse counter is reset, and the first and second inputs are respectively with the output of the switch and the synchronization input of the device, with the input of each channel of the diode adder connected to the corresponding output of the decoder, the outputs of the even and odd channels are combined into two groups, the outputs of each of which are connected respectively through the first and a second resistor with a power supply bus, directly with the inputs of the first and second short-pulse formers, the outputs of which are connected to the inputs of the OR element, the output of which th connected to the input trigger monostable multivibrator whose output is an output device.