SU391579A1 - DEVICE FOR READING INFORMATION FROM THE PERSPHERE - Google Patents

Description

one

The invention relates to electronic computing and automation and can be used as a device for inputting information from a non-carrier, operating: In start-up or static mode.

The known devices for photoelectric reading of information from a perforant have readout channels by the number of perforated tracks on the non-carrier, each of which contains a photoelectric sensor, which is shunted by a capacitor and connected through a resistor with a source of nitrating voltage. the purpose of which is the formation and amplification of photoelectric signals. As a rule, the shaping amplifiers contain several amplification stages performed on the active elements.

In the proposed device for its assembly, each readout channel contains a gating circuit, one input of which is connected via a diode to a photoelectric sensor and the other to a source of gating pulses.

The drawing shows the principle of the electrical circuit of one reading channel of the proposed device.

The read channel consists of a photoelectric sensor 1, a capacitor 2, a resistor 3, a diode 4, a gating circuit 5.

The photoelectric sensor 1, which in the particular case of the photo-one, is triggered by a capacitor 2, is connected to a source of supply voltage through a resistor 3 and through a diode 4 to the input of a gating circuit 5, which in a particular case is a diode valve. The second input of the gating circuit is connected to the source of gating pulses.

The read channel of the device works as follows.

The logical zero is the presence of la

the output of the low voltage gating circuit, for a logical unit, the presence of a zero voltage level over the time of operation at the input of the gating circuit of the gating impulse.

In the initial state, with a darkened photoelectric sensor, its resistance is much greater than the resistance of the resistor and the diode is locked with potential — u, as a result of which the strobe signal passes to

the output of the gating circuit, which corresponds to a logical zero.

When the photoelectric sensor is illuminated, which corresponds to the presence of the information hole on the perforant, the resistance of the photoelectric sensor becomes

3

significantly less resistor resistance. The capacitor discharges to a potential close to zero. For the duration of the input to the gate strobe circuit, the diode is switched in the forward direction, and the gate pulse energy is expended to charge the capacitor. But since the action time of the gating pulse is chosen to be much shorter than the constant charge time of the capacitor, there is practically no change in the potential of the capacitor, and at the output of the gating circuit the gating pulse is not allocated, which corresponds to a logical unit.

Subject invention

A device for reading information from a perforater, consisting of reading channels according to the number of perforated tracks on a perforating medium, each of which contains a photoelectric sensor, which is shunted by a capacitor and connected through a resistor to a voltage source characterized in

that, in order to simplify the device, each reading channel contains a gating circuit, one input through which the diode is connected to the photoelectric sensor, and the other to the source of the gating of their pulses.