DE1114219B - Circuit arrangement for keeping constant the difference between white and black voltage in photoelectrically controlled facsimile transmitters - Google Patents

Description

Circuit arrangement for keeping constant the difference between white and black voltage in photoelectrically controlled facsimile transmitters The Invention relates to a circuit arrangement for keeping the difference between white and white constant Black voltage in photoelectrically controlled facsimile transmitters.

When transmitting messages with the help of picture telegraph devices, Especially for facsimile senders, there is a need to use templates with different colors Background and different colored content, e.g. B. Font, line drawing, etc., to use. Because the recipient is only able to choose between black and white differ, it is necessary to take measures on the sending side that allow a constant voltage of the brightness of the background, the so-called White voltage, and independent of the brightness of the different characters also to achieve a constant voltage, the so-called black voltage.

Circuit arrangements that generate these voltages are used for this purpose, hereinafter referred to as background control, the voltage difference of which is independent the contrast must always be constant.

Arrangements are known in which this underground regulation of Hand happens what requires special attention on the one hand and contributes to the other Changes to the templates make a new setting necessary.

Known circuit arrangements provide an automatic background regulation in such a way that the respective white value is stored for a certain time, transformed and used as a comparison variable for a reference voltage. As a memory z. B. capacitors with diodes. Tube modulators are used as converters and DC amplifiers are used as amplifiers. The memory requires that the necessary reference voltage must be extremely constant, otherwise an impermissible deviation from the constant voltage difference between white and black voltage occurs. Mechanical contact arrangements are necessary to initiate this process.

Another known circuit arrangement is based on the task of despite the finite dimensions of the scanning and recording light spot, an ideal one To obtain or generate sampling and recording signal. This is achieved by multi-channel sampling from the naturally resulting trapezoidal signal at the output of the photocell. Through appropriate impulse attitudes controlled by the information, z. B. one multivibrator per channel, the signal to be received can be the ideal signal can be approximated, overcompensation is also possible.

The effort involved is considerable. In contrast, there is the The object of the invention is to keep the difference between white and black voltage constant and to create a way of using AC amplifiers To make use of transistors, since correspondingly necessary DC amplifiers can be realized with transistors relatively difficult.

This object is achieved in that the photoelectric Control, e.g. B. photocell, delivered and due to the black and white jumps subsequently increased information change in a differentiating circuit so transformed is that the pulses appearing at the output of the differentiating circuit an electronic Switch, e.g. B. multivibrator, so control that its square wave voltage is the original Represents information necessary for the purpose of transmission in a modulator in a known manner modulates the carrier frequency.

The invention advantageously allows the use of Transistors, whereby special storage elements can be dispensed with. It will Furthermore, no mechanical contacts are required. The invention is based on the figure explained in more detail.

The figure shows a block diagram for background control in facsimile machines. The individual circuit groups are labeled Z, V, D, Mv and M. Each circuit group has an idealized curve shown below, which is assigned to the respective output voltage.

The photoelectric control element Z, z. B. a photocell, supplies a voltage when exposed, which is at the terminals 1, l ' and is amplified and limited in the amplifier Y.

The lying at terminals 2, Y trapezoidal signal is converted in the differentiating circuit D so that two pulses are derived from the flanks of which, via the terminals 3 'passed 3, a subsequent electronic switches such. B. a multivibrator Mv, control.

A square pulse occurs at the output 4, 4 'of the multivibrator Mv, which modulates a voltage at the terminals 5, 5' in a modulator M, the frequency of which corresponds to the carrier frequency fT. The signal S appearing at the output 6, 6 'of the modulator M is put on the line. The vibrations enclosed by the envelope correspond to the brightness of the background.

The invention also offers the possibility of transmitting messages, where the recording is brighter than the message carrier. Furthermore, from Advantage that as a result of the decomposition and subsequent composition of the input signal Transistor AC amplifiers can be used, their implementation without Difficulty is possible.

Claims (1)

CLAIM: Circuit arrangement for keeping constant the difference between white and black voltage in photoelectrically controlled facsimile transmitters, characterized in that the photoelectric control element, e.g. B. photocell, supplied due to the black and white cracks and then amplified information change in a differentiating circuit is so transformed that the pulses occurring at the output of the differentiating circuit an electronic switch, z. B. multivibrator, so control that its square wave voltage represents the original information that modulates the carrier frequency for the purpose of transmission in a modulator in a known manner. Documents considered. German Auslegeschriften No. 1063 201, 1 045 447; "Philips' Technische Rundschau", Volume 10 , No. 10, April 1949, pp. 289 to 298.