CS244383B1 - Tape recorder control circuits connection with electronic selection of functions - Google Patents

Abstract

The solution concerns the control connection circuitry of the electro-magnetic choice functions. With existing wiring electronic Function logic uses complex logic assembled from parallel bars and diodes that converts information from buttons to power outputs. Usually the buttons are controlled by RS tilting circuits on whose outputs it is connected gate logic that provides priority funkoe while pressing more buttons and the diode logic chosen funkoi converts to the needed combination output levels they control magnet power circuits and rewinds motorcycles. The novelty of the solution lies in simplification logic circuits using permanent memory that is addressed by the control with the buttons of the tape recorder over the flip-flops type D and whose programmed output logical levels directly control power levels tape recorder and auxiliary circuits. Changing the permanent memory program allows changing the functions of the tape deck.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention

In tape recorders with electronic function selection, a complex gate and diode logic is usually used to convert information from buttons to power outputs. For example, the control logic can be connected, where the buttons are used to control the KS flip-flops, the outputs of which are connected with the gate logic, which ensures the priority of the function at the same time pressing multiple buttons and diode logic that converts the selected function to the required combination of output levels. control the power circuits of magnets and rewinding motors.

The disadvantage of the prior art is greater complexity and less reliability especially when using diode logic at gate inputs.

These disadvantages are overcome by the present invention, which is based on the fact that the push-button circuit terminals are connected both to the inputs of the D-flip-flop block and the inputs of the clock pulse logic circuit whose outputs are connected to the clock inputs of the D-flip-flop block. one output is connected by β output terminals and the other

- 2 244 383 outputs of the D-type flip-flop block are connected both to the address inputs of the permanent memory and to the inputs of the monostable flip-flop whose output is connected to another address input of the permanent memory, the outputs are connected to output terminals and one output is connected with asynchronous input of D-type flip-flop block

The advantage of the control circuits according to the invention is the simpler connection and the possibility of changing functions by changing the memory program.

Two examples of the invention are schematically illustrated in the accompanying drawings. FIG. 1 shows a block circuit diagram of a tape deck. FIG.

The button block 1 consists of the fast forward function button 8, the fast reverse function button 9, the forward forward function button 10, the pause function button 11, the record function button 12 and the stop function button 13. The D 2 flip-flop block consists of The 4-bit inverter 22 and the flip-flop 23 and the clock pulse logic 3 are composed of diodes 14, 15, 16 and 17, capacitors 18 and 19, a NAND 20 gate, and an inverter 21.

Buttons 8 _f 9 »10» 11 »12 and 13 are connected at one end to a zero potential terminal 7, the other end of button 8 is connected to the input marked D1 of the inverter 22 and the cathode of diode 17, button 9 is connected to the input

3 244 383 labeled D2 of the latch 22 and the cathode of the diode 16, the button 10 is connected to the input labeled D3 of the latch 22 and the cathode of the diode 15 and the button 11 is connected to the input labeled D4 of the latch 22. button 13 is connected to the second gate input of the NAND 20 type and to the input of the inverter 21. The anodes of diodes 14 and 15 are connected to each other via a capacitor 18 to the second gate input of the NAND 20 type and the anodes of diodes 16 and 17 are connected to each other via a capacitor 19 connected to the first NAND 20 gate input. The NAND 20 gate output is coupled to the clock input labeled CL1 and the clock input labeled CL2 to the inverter 22. The output of the inverter 21 is coupled to the clock input labeled CH of the flip-flop 23. connected to the setting input marked S of this flip-flop circuit and to the terminal block 5. The output of the inverter 22 marked Q1 is connected to the permanent memory address input 4 labeled A and the first input of the monostable flip-flop 6 and the inverter output 22 labeled Q2 is connected to the permanent memory address input 4 labeled b and the second monostable flip-flop 6 input; The memory of the memory 4 labeled C and the third input of the monostable flip-flop 6 and the inverter output labeled Q4 is connected to the address input of the permanent memory 4 labeled D. The output of the monostable flip-flop 6 is connected to the address input memory Ϊ2, Ϊ3, Ϊ4, X5, X6 and TI are connected to the block terminals

- 4 244 383 terminals 5, where the power control and indication circuits of the tape recorder are connected · The memory output marked Y8 is connected to the reset input of flip-flop 23 marked R.

When one of the buttons 8, 9, 10 and 11 is pressed, or a combination of these, a clock pulse is generated at the NAND 20 gate output, which switches the logic levels from pushbutton input 22 to output. monostable flip-flop 6 permanent steam 4. The programmed logic levels on the permanent memory outputs 4 then control the power, indication, and auxiliary circuits of the tape recorder and cancel the output labeled ¥ 8 by preventing flip-flop 23 by its reset input R ·

The recording function, that is to say flipping of the flip-flop 23, is conditioned by pressing the button 12 and the button 10 or 11, which generates a clock pulse at the output of the inverter 21 which overwrites the logical level from the button 12 and thus which is connected to its setting input 6 and to the terminal in block 5, to which external circuits are connected which incorporate the recording function.

Pressing button 13 generates clock pulses at the NAND 20 gateway and inverter 21 outputs, which cancels all selected functions. The time delay required to stabilize the tape deck when changing function is performed by activating the monostable flip-flop 6 when changing the logic level at one of the inputs.

5 244 383 the time interval of the permanent memory 4 to its second half, where its outputs are programmed to a logical state corresponding to the stop function.

The circuitry according to the invention can be used for an electronic function selection tape recorder control circuit.

Claims (1)

OBJECT OF THE INVENTION Connection of electronic function selection tape recorder circuits consisting of pushbutton, D flip-flop block, clock pulses, non-volatile memory and monostable flip-flop, characterized in that the push-button assembly terminals (l) are connected to the D flip-flop block inputs (2) and * clock inputs of the clock pulse logic circuit (3), whose outputs ^ 3ομ are connected to the clock inputs of the D-flip-flop block (2), at least one output of which is connected to output terminals (5) and other flip-flop block outputs type D circuits (2) are connected to the address inputs of the permanent memory (4) and to the inputs of the monostable flip-flop (6), the output of which is connected to another address input of the permanent memory (4), 5) and one output is connected to the asynchronous input of the D-type flip-flop block (2).