DE2030902A1 - Circuit for generating binary signal elements with constant amplitude from a distorted binary signal, the signal elements of which are represented by different amplitudes - Google Patents

Description

203Q902

T 1070

PATENT ADVOCATE

Diving. HANS RUSCHKE Oipl.-lnß. KcINZ AQULAR

BERLIN 33 Aufuste-Viktoria-Stral · If

Ielefonaktiebolaget I M Ericsson, Stockholm 32 (Sweden)

Circuit for generating binary signal elements with

constant amplitude from a distorted binary signal,

its signal elements by different high amplitudes

being represented.

The subject of the invention is a circuit with which a signal consisting of external signal elements with constant amplitude can be generated from a signal which consists of a number of successive signal elements which are represented by two different amplitudes and which are so distorted that both the amplitude heights and the difference between these are fluctuating

When transmitting binary signals, which are represented by two different amplitudes, often occurs as the consequence of inadequacies in the transmitting system, the transmission medium or in the receiving system, a distortion to The effect of this change is that there are individual amplitude levels

009886/1971

as well as the difference between these fluctuate. Such a distortion can occur, for example, when transmitting the image content of text pages by means of image telegraphy, which works with line scanning. If the side shows eg "B. black text on a white background, the information to be transmitted consists of binary information, with an amplitude with a certain height representing the black values and an amplitude with a different height representing the white values. The signal obtained at the row scanning is however significantly distorted u _o a · in that up to 50 $ and more may occur in the center of the screen than at the edges on the optics a Mchtverlust. If this distortion is not compensated for in the receiver, the contrast of the image must be reduced so "that the contrast range includes the amplitude range of the distorted signal. In this way, however, an image of poor quality is obtained and the text can be difficult to read. The The invention therefore aims to provide a circuit with which the above-mentioned distortion of a binary signal can be eliminated in various ways The features of the invention are set out in the appended claims.

The invention will now be described in detail with reference to attached drawing in which the

1 shows a representation of a binary signal with a distortion, which is to be eliminated with the circuit according to the invention, and the

Pig.2 is a circuit diagram for the circuit according to the invention.

FIG. 1 shows a distorted binary signal which could be generated when a page of text is scanned by means of a picture telegraph device, with t ₁ denoting the line scanning time. The image signal itself is shown in the left part of FIG. 1 with a solid line, while the envelope curves of the image signals _{are shown with the broken lines V WVl} and V _1n

Wn J ⁸¹ & L

roce _{WVl 1n} g

are shown, ie aääf amplitude level, between "& ae signal fluctuates when the picture content changes from white to black. According to the representation in Pig. 1, the highest value of the black level should be greater than the lowest value of the white level,

009886/1971

so that the distortion cannot be eliminated by means of a bistable ^ eßelabjSia ^} 3a ^! ^^ Xel§, _f eg by means of a Schmitt trigger circuit. A high-pass filter is also unsuitable for maintaining the steep slopes of the binary signal, since a complicated and expensive filter must be used and, moreover, since a filter cannot eliminate the fluctuating amplitude differences between the white and black levels however, the circuit according to the invention according to FIG. 2 can be used for this purpose.

* In Fig "2, the input of the circuit is labeled I, which is supplied with a signal according to FIG. The entrance I is connected to the via a capacitor C1 and a resistor R1 positive pole of a voltage source E in connection, the The connection point between the resistor and the capacitor represents the output TJ of the circuit. The voltage source E is connected to a ground via a voltage divider network with the three resistors R2, R3 and R4-. The output U has a connection to the connection point V1 between the resistors R2 und.R3 via a first diode D1 and via a second diode D2 with the connection points V2 between the Resistors R3 and R4. The two connection points V1 and V2 of the voltage divider are connected to earth via the two capacitors 02 and 03. The capacitor 01 and the Resistance R1 act in principle as an Ableij ^ uggsgjLied, so that Rapid amplitude changes when the image content changes between black and white, resulting in corresponding amplitude changes lead at exit U. Those corresponding to the white and black levels Amplitude levels of the output signal are determined by the DC potentials at the connection points V1 and V2 of the voltage divider network R2, R3, R4. To at the exit To get amplitudes of constant height, the difference must be between these DC voltage potentials are dimensioned somewhat smaller than the smallest difference between the white and Black level of the signal fed to the input of the circuit. To change the amplitude of the output signal if necessary A variable resistor is preferably used as resistor R3. The capacitors 02 and 03 are to be used from the

009886/1971 '

Voltage divider network obtained limiting DC voltage potentials stabilize so that these capacitors should have large capacitance values · The capacitance value of the capacitor However, G1 must be dimensioned much smaller so that whose charge is changed when the mentioned limiting potentials are passed on. On the other hand, however, the capacity value must be so large that the charge during the time intervals corresponding to the black image content remains despite the ümstandes that the capacitor across the resistor R1 is charged as well as via a load connected to the output. However, the time span between two binary changes are too large, an output signal corresponding to the white image content is obtained at the output, since the output the potential V1 receives. The circuit shown in Pig. 2, in which the resistor RI to the voltage source E is suitably used when a black Text is present on a white background. In the opposite case, the resistor R1 should be grounded so that the black Make the corresponding output signal (the potential V2) if there are no binary signals at the input.

With the aid of the circuit described above, distorted binary signals can therefore be converted into signals with constant amplitude will.

£ §ί §35 ί §insp.üch. e.

0098 86/1971

Claims (1)

P a t e η t a η s ρ r il c h β AJ Circuit for generating an output signal consisting of signal elements with constant amplitude from an input signal which consists of a number of successive signal elements, which are represented by two different amplitudes and are so distorted that both the heights of the amplitudes and the difference between these fluctuate, characterized in that a λ JJqI ^ tifflprggliefl with a capacitor (01) and a resistor (E1) connected downstream is provided, which is connected between one of the poles of a DC voltage source and the input of the circuit, that the connection point between the capacitor and the resistor represents the output of the circuit, that said connection point is connected to the anode of a first rectifier (D1), the cathode of which is connected to a first stabilized DC voltage source (Yt), that said connection point is also connected to the cathode of a second The rectifier (D2) is connected, the anode of which is connected to a second stabilized direct voltage source (V2), so that the binary amplitude changes of the ^ - ^ Hl input signals generate a signal at the output whose voltage values change between the voltages dgr called oil-containing voltage sources »=="" Circuit according to Claim 1, characterized in that the said two stabilized floating voltage sources consist of two connection points of a voltage divider ζΗ2 »E3, B4), which is held between the poles of the voltage source, and that between the relevant aneolus points and the black pole of the Voltage source a first waä an 8W "i ^ er Stabililerungalcondtneator (03 beaw 02) switched irfe / i 009Θ8Ι / 1971 Blank page