SU907576A2 - Magnetic recording apparatus - Google Patents

Description

(54) DEVICE FOR MAGNETIC RECORDING

one

The invention relates to instrumentation, in particular to magnetic recording apparatus.

According to the main auth. No. 5,738,811, a magnetic recording device is known, comprising a generator, an information source, a recording amplifier, a controlled rectifier, CONSTITUTION from a trigger with separate inputs and two inhibit circuits connected to these inputs, and two inputs of each inhibit circuit are connected to the corresponding outputs of the generator and information source, and the trigger outputs are connected to the inputs of recording amplifiers p1.

This device records non-polar signals in a return-to-zero manner without first demagnetizing the medium.

However, when the device operates in the start-stop mode, the continuous flow of the erase current through

The skill of recording during long interruptions in the recording of information leads to the unjustified expenditure of energy of the power source. Turning off the high-frequency oscillator during pauses leads to the recording of a magnet carrier of single false pulses, which reduces the reliability of the recorded information.

The purpose of the invention is to reduce energy consumption.

Claims (1)

The goal is achieved by introducing a trigger into a known magnetic recording device, a regulating element in the form of a transistor, the emitter-collector circuit of which is connected in series to the power circuit of the recording amplifier, the delay element, the gate, the integrator, the delay element connected to the trigger input, the output the trigger through the gate - with the integrator Input, the output of which is connected to the BA3 of the transistor of the control element. The introduction of the valve together with the trigger and the delay element is necessary to match the moments of switching on and off of the erasures on the magnetic tape with the procedure for moving and stopping it. The introduction of the regulating element together with the integrator ensures a smooth disconnection of the power source from the recording amplifier, leading to a gradual decrease in the amplitude of the high-frequency current through the winding of the recording head and, therefore, the high-frequency magnetic field 6 of the head gap, thereby demagnetizing the section of the media in front of it. This allows you to maintain the accuracy of the recording information in the start-stop mode and reduce the power consumption of the power source. FIG. 1 is a block diagram of the magnetic recording device according to FIG. 2 - timing diagrams illustrating the operation of the device, where O is the signal at the output of the trigger 6, the Start signal, b, 2 are the Stop signals before and after the element 1, the axes are respectively, 5, e 31 forms the voltages at the outputs of the trigger, the integrator, the regulating element, respectively, the shape of the current in the recording head, tb - the change in the speed of movement of the carrier Past the recording head. The magnetic recording device includes a high-frequency generator 1, an information source 2, a recording amplifier 3, a recording head 4 and a controlled rectifier 5 consisting of a trigger 6 with separate inputs and two inhibitor circuits 7 and 8 connected to the ETSH4 inputs. Two inputs of each circuit 7 and 8 of the ban are connected to the corresponding outputs of the generator 1 and the source 2 information, and the outputs of the trigger 6 are connected to the inputs of the amplifier 3 records. A trigger 9 is included in the recorder, which is connected to the power supply circuit of recording amplifier 3, regulating element 10, for example, a transistor, delay element 11, valve 12 and integrator 13 consisting of a storage capacitor and a resistor. Moreover, the trigger inputs 9 are connected to the Start terminal 14 and through the delay element 1I to the Stop terminal 15, respectively, and the output through the valve 12 to the integrator input 13, the output of which is connected to the input of the regulating element 10. The magnetic recording device works as follows . In the absence of signals at the output of the source 2 information of the prohibition circuit 7 and 8, the output signals of the generator 1 are shifted by half of the period to the separate inputs of the trigger 6, resulting in the output signal of the trigger 6 repeating in frequency the signal of the high-frequency generator 1. Because at that time the device is in the wait state, then the trigger 9 is set in the state in which, from its output, the gate 12 receives a high logic potential (Fig. 2,). In this case, the valve 12 is closed and the capacitor of the integrator 13 is charged until the voltage of the power source (Fig.2.6), therefore, the transistor 10 is closed and the recording amplifier 3 is disconnected from the power source (Fig.2,). As a result of this, the ".: -... the frequency signal from the input of amplifier 3 to the recording head 4 is not transmitted, no current flows through the head (Fig. 2), and the energy of the power source to remagnetize the head 4 is not consumed. The transfer mode of the recording mode (at time t) turns on the magnetic carrier movement mechanism and sends a Start signal to terminal 14 (Fig. 2, (J). At this, the trigger 9 goes into a state with a low potential at the output (Fig. 2, 5), the capacitor of the integrator 13 is discharged through the valve 1.2 (Fig. 2.6) and as a result, the transistor 10 opens. The voltage of the power source goes to the recording amplifier 3 (Fig. 2, G), and the high-frequency pulses from the output the trigger 6 (Fig. 2, Q) is amplified and fed to the head 4 (.2,). Since the discharge of the capacitor circuit and Since the low temperature impedance device is low and its discharge time is short, the high-frequency pulses arrive at the head 4 sooner than because of the inertia of the transfer mechanism, the magnetic carrier will start moving (Fig. 2, C). As a result, the entire section of the carrier Sequences of the carrier of the nominal speed of movement (time interval) from the output of the source 2 information signals are recorded on a magnetic medium (Fig. 2, O- in the interval H-r3). After the end of the recording, the carrier movement mechanism is turned off and issues a Stop signal to terminal 15 (Fig. 2c). Due to the delay on the element 11, the trigger 9 is turned off only after the time required to completely stop the magnetic carrier (Figures 2, 2, 9, (X, time period). When the trigger 9 is disconnected, the storage capacity of the integrator 13 is charged (Fig .2, c) through the charging resistor. At the same time, the unlocking potential on the guide input of the regulating element 10 decreases smoothly, causing a gradual decrease in the supply voltage amplifier 3 (Fig. 2, G), and therefore the current in the head 4 write (figure 2, -4), to zero. As a result, the area but The oversize clearance of the head 4 cyclically re-magnifies with a gradual decrease in the amplitude of the intensity of the lowering field. When the amplitude of the current in the head 4 decreases to zero, this section of the carrier becomes fully degraded. switching off the high-frequency erase 66 on a magnetic medium does not remain | Non-demagnetized plots. Consequently, when reading the information the false pulses do not form and the reliability of the recording remains at the level of confidence oystvu. The use of the invention will reduce the consumption of electric energy from the power source to the work. devices in the start-stop mode (F4e, which is especially important when operating the device with autonomous power supply, for example, in information recorders intended for operation in field conditions. Invention Formula for magnetic recording by autor. No. 5738P, characterized in that In order to reduce the consumed energy, a trigger is inserted into it, a regulating element in the form of a transistor, the emitter-collector circuit of which is connected in series to the power circuit of the recording amplifier, the delay element, the gate and the integrator, and the delay element k and is connected to the trigger input, the trigger valve output is the valve to the integrator input, the output of which is connected to the base of the transistor of the regulating element. Sources of information taken into account during the examination 1. USSR author's certificate p15738P, class 6-11 V 5 / 00, and .06.75 .: / 7gMf Stop .., O cP in r i L Fi.1 JD imnnn " n UiS tftt  “B ISHI t one U9 uo 7 , it 6 Phi (1