CS218833B1 - Connection of the copying machine by electronic masking - Google Patents

Description

The present invention relates to an electronic masking copier, in which the widening of the masking range of copied negative densities is solved. The term copier is understood to mean both a contact copying device and a device having optical projectors enabling the scaling of the copied image.

For copiers with speed modulation, the speed of the light path is proportional to the density of the copied negative.

Due to the very low negative densities, the decomposition frequency increases considerably and thus the demands on the power and properties of the end deflection stages increase, because their load has a significantly inductive character. Another very serious limiting factor is the degradation of the masking effect due to the after-illumination of the screen luminophore, the effect of which increases with increasing scanning frequency. The lower limit of the scanning frequency is limited by the minimum allowable speed of the light track shift due to the local thermal overload of the screen phosphor.

Previously, electronic masking copiers utilize either speed modulation with the above-mentioned disadvantages or intensity modulation with constant scanning frequency, optimized with respect to the deflection system and the after-illumination of the screen luminophore, but with significantly lower light output. For normal images with an average density of D = 1, they work with approximately one-tenth of the maximum screen brightness that is used for rate modulation.

The above-mentioned drawbacks are largely overcome by the device according to the invention. The invention relates to an electronic masking copier comprising a screen, scanning generators, a photoreceptor and optionally optical projectors, wherein the output of the photoreceptor is connected to the input of a comparator whose output is connected to the control input of the analog switching element and its analog input. One output of the analog switching element is connected to the input of the decay generators supplying the deflection coils and the other output is connected to the input of the modulation amplifier. Its output is routed to the modulation electrode of the screen.

These wiring suitably take advantage of both speed and intensity modulation of the light copy track. For high negative densities, high modulation speed modulation is used, and for low densities, when the masking effect degradation due to the lumlnofoir effect begins to occur and the desired high decay frequency is a serious design problem when dealing with the output stages of decomposition generators, intensity modulation is used. whereas the reduction in light output is insignificant because the brightness of the screen is controlled only at low negative densities.

The drawings show block diagrams of those parts of the electronic masking copier to which the invention relates.

Fig. 1 shows a circuit that switches from intensity to speed modulation at a certain preset negative density level; and Fig. 2 is a circuit where, for low negative densities, both intensity and speed modulation are involved, and for higher densities. only speed modulation.

The output of the photoreceptor 1 sensing the amount of light passed through the negative point being copied is connected both to the comparator input 2 and to the analog input of the analog switching element 3, Fig. 1. For high negative densities when output voltage from photoreceptor 1 possibly connected in amplifier cascade it is lower than the flipping level of the comparator 2 of the analog switching element 3 controlled by the comparator 2 output, applying voltage to the input of the disintegrating generators 4 comprising an integrator with a current output supplying the deflection coils 5.

The copier quickly modulates the movement of the light track on the screen. For, low negative densities, the output voltage from photoreceptor 1 exceeds the flip level of comparator 2, and analog switch 3 switches the voltage to the input of the modulation amplifier B whose output is connected to the modulation electrode of screen 7. The copier intensively modulates the brightness of the light trace.

In the second solution of the copier with combined modulation, Fig. 2, the analog switching element 3 is realized by a switch between the input and output connected to the input of the modulation amplifier 6, the output connected to the input of the decomposition generators 4 is permanently connected to the input. Due to the high densities of the negative, the analog switching element 3 controlled by the output of the comparator 2 is disconnected and the voltage proportional to the amount of light passed through the negative spot is only applied to the input of the decomposition generators 4 supplying the deflection coils 5.

The copier works with speed modulation. For low negative densities, when the output voltage from photoreceptor 1 flips the comparator 2 and closes the analog switch 3 controlled by the comparator output 2, this voltage is connected to the input of the modulation amplifier 6. The output of the modulation amplifier 6 is connected to the modulation electrode of screen 7. with speed and intensity modulation. As a result of the intensity modulation, the effect of the rate modulation is suppressed approximately as many times as the gain of the open intensity modulation control loop is obtained.

In practical cases, about 50 to 100 times. Adjusting the flip level of the comparator 2 relative to the sensitivity of the photoreceptor 1 selects the amount of negative density at which the copier moves from one modulation type to the other, utilizing the maximum total rate modulation range expanded by the range of densities processed by intensity modulation without significantly reducing light output copiers.

Claims (3)

An electronic masking copier connection characterized in that the output of the photoreceptor (1) is connected to the input of the comparator (2); the output of which is connected to the control input of the analog switching element (3 J) and to the analog input of the analog switching element (3), the first output of the analog switching element (3) being connected to the input of the disintegrating generators (4) feeding the deflection coils (5) and a second output of an analog switching element (3) with an input of a modulation amplifier (6), the output of which is connected to a modulation electrode of the display (7j). OF THE INVENTION 2. An electronic masking copier according to claim 1, characterized in that the analog switching element (3) is a switch. 3. The electronic masking copier as set forth in claim 1, wherein the analog switching element (3) comprises a first output switch connected to the input of the modulation amplifier (6), connecting the analog input of the analog switching element (3j) to the second output connected to the input of decomposition generators (4).