SU750555A1 - Device for shaping coding signals of magnetic tape portions - Google Patents

Description

The invention relates to instrumentation, and in particular to devices for generating coding signals of sections of a magnetic tape.

A device for encoding portions of the magnetic tape, which for this purpose is ⁵ 50% amplitude modulation, resulting in a 'zero' in amplitude equal to the amplitude of the clock pulse, and 'unit' is double the amplitude of [1]. Due to the fact that the determinant of the beginning of the code group consists of 'two units', separated by a period of signals of the reference frequency, the pulses of the bits of the codes are separated by additional clock pulses, which reduces the recording density of information.

The closest in technical essence is a device for the formation Nia _m signal encoding portions of the magnetic tape, comprising: a clock generator coupled to the input of the distributor, the amplitude modulator having a first input connected to the output of the mixer and an output connected to the input of the recording amplifier, and keys the control inputs of which are connected to the outputs of the information sensors [2j ·

However, in this device, the recording density of information is low.

The purpose of the invention is to increase the recording density of information.

This is achieved by the fact that the device is equipped with a prohibition circuit, an OR circuit, and a one-shot, the input of which is connected to the first output of the distributor, and the output is connected to the mixer and the input of the OR circuit, the other input of which is connected to the clock generator, and the output to the second input of the amplitude modulator through a ban circuit, prohibiting the input connected to the second output of the distributor, each subsequent output of which is connected to the mixer through the keys.

In FIG. 1 shows a structural diagram of a device; in FIG. 2 is a voltage diagram at the input of a recording amplifier.

The device consists of a clock pulse generator 1 connected to one input of the OR circuit 2 and to the input of the distributor 3, the first output of which is connected to a single-shot 4, the second output - to the inhibit input of the inhibit circuit 5, and the subsequent h outputs (η - ₁₀ bits of the record code) are connected through the keys 6 to the mixer 7, the Control inputs of the keys 6 are connected to the output terminals 8 of the code information sensors. The output of the single-vibrator 4 is ₁₅ keys to the mixer 7 and to the input of the OR circuit 2, the output of which is connected through the inhibit circuit 5 to the input of the amplitude modulator 9, the modulating input of which is connected to the output of the mixer 7, and _{20 the} output to the input of the recording amplifier 10.

The device operates as follows.

Pulses of the clock frequency from the generator ₉₅ are fed to the input of the distributor 3 and one of the inputs of the OR circuit 2. The distributor 3 is a one-cycle pulse distributor, made, for example, on the basis of a ring shift. a melting register that uses all outputs.

The pulse from the first output of the distributor 3 is fed to the input of a single-shot 4, which generates a pulse equal in amplitude to the clock pulse with a duration of not less than one period of the clock frequency.

From a single-shot 4, the pulse is fed to the first (modulating) input of the amplitude modulator 9 through the mixer 7 and to the second input through a series-connected OR 2 circuit (where it is logically added to the first clock pulse of the generator 1) and the inhibit circuit 5. When the pulse coincides with the output of the circuit ban 5 and from the output of the mixer 7 amplitude modulator 9 generates a pulse determinant of the beginning of the code group increased (depending on the depth of modulation) amplitude compared to

In this regard, the duration of the pulse at the second input of the amplitude modulator 9 will be equal to the period of the clock pulses even if the duration of the output pulse of the one-shot 4 will vary within the time interval from one to one and a half periods of the clock frequency (with a duty cycle of 2 pulses) . .

As a result, the recording amplifier 10 from the output of the amplitude modulator 9 during the first and second periods of the clock frequency, respectively, is followed by a pulse and a pause of the determinant of the code group equal to each other in duration.

Such coding of the determinant of the beginning of the code group allows the transmission of code information by each clock pulse using each (odd and even) output of the dispenser.

The pulses from the subsequent (odd and even) outputs of the distributor 3 are supplied to the mixer 7 through the keys 6, controlled from the source of code information via external terminals 8, and from the output of the mixer 7 are fed to the first input of the amplitude modulator 9, to the second input of which through a series-connected circuit OR 2 and inhibit circuit 5 clock pulses. When the clock pulses coincide with the pulses of the code group, the amplitude of the clock pulses increases, i.e., the clock pulses are modulated by the pulses of the code group. As a result, at the output of the amplitude modulator 9, the pulses of units of the code group have an amplitude equal to the amplitude of the pulse of the determinant of the beginning of the code group, and the pulses of zeros have an amplitude equal to the amplitude of the clock pulses. In this case, the duration of the pulses of the code group with a duty cycle of two pulses is two times less than the pulse width of the determinant of the beginning of the code group.

From the voltage diagram (see figure 2) it can be seen that in the device the determinant of the beginning of the code group does not consist of two consecutive pulses, with the amplitude of the clock pulses.

The pulse from the second output of the distributor 3, which came to the forbidden input of the inhibit circuit 5, will prohibit the passage of the second pulse from the generator 1 to the second input of the amplitude modulator 9, as well as the further passage of the pulse from the one-shot 4.

clock cycles in duration, and from one pulse (and pause) of duration in one period of the clock frequency. This makes it possible to generate code information by each (and not through one, as in the known device) clock pulse - | Som using pulses of each (odd and even) from the outputs of the distributor 750555 litters, which (starting from the third) are connected to the mixer via keys.

Thus, the use of an OR circuit, a single-shot circuit, a ban circuit and the introduction of new compounds leads to an increase in the recording density of information.

Claims (2)

The invention relates to instruments, namely, devices for generating signals for encoding sections of a magnetic tape. A device is known for coding sections of a magnetic tape, in which for this purpose 5O% amplitudes per modulation are used, as a result of which a zero in amplitude equals the amplitude of a clock pulse and a unit has a double amplitude l. Due to the fact that the determinant of the beginning of the code group consists of two units, separated by a period of signals from this frequency, the pulses of the code bits are separated from each other by additional clock pulses, which reduces the information recording density. The closest in technical essence is a device for generating signals for coding sections of magnetic tape, which contains a clock pulse generator connected to the input of a distributor, an amplitude modulator. the first input of which is connected to the mixer output, and the output is connected to the input of the recording amplifier, and the keys, the control inputs of which are connected to the outputs of information sensors 23. However, in this device, the recording density information is low. The purpose of the invention is to increase the information recording density. This is achieved by the fact that the device is equipped with a prohibition circuit, an OR circuit and a single vibrator, the input of which is connected to the first output of the distributor, and the output is connected to the mixer and to the input of the OR circuit, the other input of which is connected to the clock pulse generator, and the output to the second amplitude input modulator through the prohibition scheme, prohibiting the input connected to the second output of the distributor, each subsequent output of which is connected to the mixer through the keys. 375. FIG. 1 shows a block diagram of the device; in fig. 2 - diagram of the input amplifier recording amplifier / Device consists of a generator of 1 clock pulses connected to one input of the circuit OR 2 and to the input of a distributor 3, the first output of which is connected to the one-oscillator 4, the second output of the circuit to the inhibiting input of the circuit prohibition 5, and the following h g: 1 inputs (g number of bits of the code being written) are connected via keys 6 to mixer 7, the control inputs of keys 6 are connected to the output terminals of 8 code information sensors. The output of the one-shot 4 is connected to the mixer 7 and to the input of the OR 2 circuit, the output is connected through a prohibition circuit 5 to the input of the amplitude modulator 9, the modulating input of which is connected to the output of the mixer 7, and the output to the input of the recording amplifier 10, The device operates as follows. The pulses of the clock frequency from the generator 1 are fed to the input of the distributor 3 and one of the inputs of the OR 2 circuit. The distributor 3 is an ohd pulse distributor made, for example, on the basis of an annular shift register which uses all of the inputs. The impulse from the first output of the distributor 3 is fed to the input of the single-mode 4, which generates a pulse equal in amplitude to the clock pulse with a duration of not less than one clock frequency period. From the one-shot 4 pulse is fed to the first (modulating) input of the amplitude modulator 9 through the mixer 7 and to the second input through the serially connected OR 2 circuit (where it logically adds up to the first clock pulse of the generator 1) and the inhibit circuit 5 from the output of the prohibition scheme 5 and from the output of the mixer 7 by the amplitude modulator 9, a pulse determines the beginning of the code group of the increased amplitude (depending on the modulation depth) amplitude compared to the amplitude of the clock pulses. The impulse from the second output of the distributor 3, which came to the forbidden input of the prohibition circuit 5, will prohibit the passage of the second input of the amplitude modulator 9 of the second pulse from the generator 1, as well as the further passage of the pulse from the single-oscillator 4. 5 V CONNECTION module 9 will be equal to the period of clock pulses, even if the duration of the output pulse of the one-shot changes within a belt interval from one to one and a half periods of the active frequency (with a duty cycle of mpulsov equal to 2). . As a result, in the recording amplifier 10, the output of the amplitude modulator 9 during the first and second periods of such a frequency is followed by, respectively, a pulse and a pause of a code signal determinant equal to each other in duration. Such coding of the determinant of the beginning of the code group allows the transmission of code information by each clock pulse using each (odd and even) output of the distributor. The emuls from the subsequent (odd and even) outputs of the distributor 3 are fed to the mixer 7 via keys 6, driven from the code information source through the external 8, and from the output of the mixer 7 are fed to the first input of the amplitude modulator 9, to the second input of which Through series-connected circuit OR 2 and prohibition circuit 5, clock pulses are applied. When the clocks coincide with the pulses of the code group, the amplitude of the clocks increases, i.e. The clock pulses are modulated by code group pulses; as a result, at the output of the amplitude modulator 9, the pulses of the code group units have an amplitude equal to the amplitude of the pulse of the code group beginning determinant, and zero pulses the amplitude equal to the pulse amplitude. At the same time, the duration of the code group pulses with a clock pulse duty cycle equal to two is two times less than the pulse duration of the code group start detector. From the voltage diagram (see Fig. 2, it can be seen that in the device the determinant of the beginning of the code group consists not of two consecutive pulses equal to a clock pulse in duration, but from a single pulse (and pause) with a duration of one clock frequency period. This gives the ability to generate code information each (and not through one, as in the known device) clock pulse, using the pulses of each (odd and clear) of the outputs of the spreading device, which (starting from the third) are connected to the mixer through the keys. Changing the OR circuit, the prohibition circuit, and the introduction of new connections leads to an increase in the information recording density. Formula of the device for generating signals for encoding magnetic tape sections, containing a pulse pulse generator connected to the distributor input, the amplitude modulator, the first input of which is connected with the mixer output, and the output is connected with the input of the recording amplifier, and the keys, the control inputs of which are connected to the outputs of the code information sensors, characterized in that, in order to increase recording density, it is equipped with a prohibition circuit, an OR circuit and a single vibrator, the input of which is connected to the first output of the distributor, and the output of the mixer and the input of the OR circuit, the other input of which is connected to the clock pulse generator, and the output to the second input of the amplitude modulator via prohibition scheme, prohibiting the entrance of the distributor output connected to BTopbOvi, each subsequent output of which is connected to the mixer via keys. Sources of information taken into account during the examination 1. USSR author's certificate No. 423172, cl. (3 11 V 27 / 2O, 2. USSR author's certificate number 356689, cl. Q 11 B 27 / ZO,