DE1614586C - Circuit for the step-by-step electro-magnetic positioning of the electron beam on the screen of a cathode ray tube - Google Patents

Description

The invention relates to a circuit for the step-by-step electromagnetic positioning of the electron beam on the screen of a cathode ray tube with two amplifiers, one of which has an output each one end of a push-pull deflection coil is connected.

U.S. Patent No. 3,210,599 discloses an electron beam deflection coil system Cathode ray tube known, on the neck of both main and auxiliary deflection coils in a certain way Are spaced from each other. The main deflection coils are connected to a main amplifier Slow sawtooth signals of sufficient amplitude are fed to the electron beam during of a sawtooth signal at a slow, constant speed along a line across the screen to lead. With the end edge of the sawtooth signal, the electron beam jumps back to the starting point back, which is shifted by one * line if necessary, so that the beam during the next Sawtooth signal along an adjacent line. As detailed in the magazine: "Electronics", issue of November 29, 1963, p. 29 is shown. becomes that at the input of the main amplifier occurring sawtooth signal is fed to two sub-amplifiers operating with the same phase, which are each connected to one end of a push-pull deflection coil, the center tap of which is connected to one DC power source is located. The auxiliary deflection coils are generated by a sawtooth generator via an auxiliary deflection amplifier fed, the output signals of which occur in rapid succession and have a polarity, which is opposite to that of the slow sawtooth signals. The duration of such a short sawtooth signal corresponds to the time span in which a character is in the relevant position of the electron beam should be written. For this purpose there is a character generator on the auxiliary deflection amplifier connected. Since the short sawtooth signals have the opposite polarity to the long ones, the electron beam is subject to the combined action of the main and auxiliary deflection coils, the one is equivalent to applying a staircase signal to a single deflection coil would. The horizontal section of each step determines the duration during which the beam remains in the set position, whereas the vertical section of the stairs is one Caused jump of the electron beam to the next position on the tube screen.

A major disadvantage of this known circuit for positioning the electron beam lies in that two separate deflection coils must be provided on the neck of the cathode ray tube, which are excited by two clocks with different pulse sequences via two completely separate drive circuits. Such an outlay on equipment is undesirable in many cases.

From French patent 1 380 937 is a different kind of forwarding of the electron beam from one position of the tube screen to next known for writing alphanumeric characters. In the individual levels of an image repetition memory is both the respective beam position and the shape of the in this position to be written character stored in the form of data. These storage levels are sequential cyclically queried so that the electron beam in the consecutive positions straight out can record the characters queried at the level.

Although the electron beam with the help of electromagnetic deflection coils or electrostatic Deflector plates can be positioned, this known circuit has the special feature that the cyclical polling of memory levels in which the data just saved corresponds to the respective position of the Define electron beam, can also be used to relay the electron beam can. The advantage of this known circuit is that a single clock generator for cyclical polling of the storage stages and, accordingly, only one deflection coil on the neck of the cathode ray tube seem sufficient.

Cathode ray tubes have been developed in recent years to represent alphanumeric characters been, in which an electromagnetic deflection coil and for beam positioning Writing each character in the set position to apply electrostatic deflector come (German patent specification 1171 656).

When using such a cathode ray tube the writing process of the alphanumeric character runs over the electrostatic deflector plates completely separate from the positioning of the electron beam with the aid of the electromagnetic deflection coils away. With this prerequisite, the problem arises, such as the cyclically queried memory levels according to the French patent 1 380 937 assigned a deflection coil operating in push-pull mode can be so that the additional auxiliary deflection coil according to US Pat. No. 3,210,599, to which also the character generator is connected, can be omitted.

To solve this problem there is a separate, older proposal, that of the French patent specification 1 470 179 or the German Offenlegungsschrift 1524 512. Even with this one The proposed circuit is each position of the electron beam in row and column on the tube screen determined by a binary sequence of digits temporarily held in the levels of the register will. As long as this binary sequence of digits remains in the register, the electron beam takes the a position determined by this sequence on the tube screen, in which via electrostatic deflection plates the alphanumeric character is written. Then the contents of the register are changed One enlarges or decreases, causing the electron beam to the adjacent position within the line is advanced. The positioning of the beam is done by a two-part push-pull deflection coil made, at each end of which a transistor amplifier is located, and the middle with a DC voltage source is connected. This embodiment of the drive circuit of the push-pull deflection coil is in Fig. 6b on p. 29 of the magazine: "Electronics", issue of November 29th 1963, illustrated.

In accordance with this proprietary, older proposal, one is an amplifier via a set of digital-to-analog converter circuits connected to the extinguishing output terminals of the register stages, while the other Amplifier via a complementary set of digital-to-analog converter circuits from the set output terminals the same register stages is fed. So there are two separate parallel ones

3 4

Circuit sections between the one type of misfires 20 to 26 can be supplied. the

output terminals of several register levels and those connected to these converters in sizes

DC-rated resistors connected to the middle of the push-pull coil form a geometrical one

Voltage source, as well as between the other type series; since all levels have been deleted, one appears

Output terminals of the same stages and the maximum current strength at a point 40. With this

called DC voltage source. This expenditure of current through the deflection amplifier 2 and the

two parallel circuit sections brings the coil 6 of the push-pull yoke flows, the beam should

Advantage of the circuit linearity with itself, however, on the extreme left side of the tube face

the disadvantage of double the number of circuits to be set. This is done by using

components and an enlarged Stromver- io help of the output signal from the η-th stage of the

needs facing. X register in line 18 is a transistor 42

The invention is based on the object is made conductive. As soon as this leads, appears

Maintaining the circuit linearity the effort at the base of the transistor 4 practically the earth

of the second parallel set of digital-to-analog potentials, from which the latter is blocked. The

To avoid converter circuits and thus the 15 complementary signal from the η-th stage of the Z-Re-

To keep power consumption low. gisters of 0 V is via a line 44 to the

According to the invention, this object is introduced and blocked by the fact that the base of a transistor 46 leads to a register, in the stages of which each of these. As a result, the full voltage + E temporary beam position is held as a binary sequence of digits' a source 48 is applied to the base of transistor 2, a control stage is connected in parallel, of 20 which conducts through it and the current from point 40 to its one output signal which leads to the extinguishing coil 6. Thus, the current flows through the output terminals of the register stages occurring the deflection amplifier 2 and the coil 6, which brings the signals via AND gates and from their other beam to the left side of the visible surface. If the output signal is the signals appearing at the set output terminals of the register stages set one after the other, or if the content of the ΑΓ register stages is increased to a single set of digital, that of the coil 6 is available -Analog converter circuits are passable, current is connected in separate amounts, which depend on which their common output terminal with the two sizes of the rated resistances, amplifiers, and that one decreases, whereby the beam gradually towards the center of the stronger of the one Output signal of the control stage 30 is switched to the viewing area. As soon as the number of output signals of the control stage stored in and the other amplifier from the other out of the n-1 stages of the Z register can be blocked. reaches its maximum, the n - l levels are set,

An embodiment of the invention is in and the current carried to the yoke winding 6 has

Drawing shown and is in the following in more detail its minimum value, so that the beam in the middle of the

explained. The details of the only one that appears electrically.

magnetic deflection system showing the figure give the if the next number to the content of the stages of the

features to be patented again. ΑΓ register is added, the nth stage is set,

In the demonstration of the electron beam it is important during the preceding stages that the deflection supplying the current is generated, which is independent of the fluctuations and a signal is applied via line 44 to the base of the transistor 46, which has a load current between 0 and 6 A. The latter makes the tranlinear supposed to be. Under these conditions, the sistor46 should be conductive, so that at the base of the deflection the single-ended deflection circuit a push-pull yoke at amplifier 2 appears and drives practically the ground potential, which precisely adjusts the electron beam. To 45 this blocks, which is why the coil 6 does not have this purpose regardless of the straight further current passes through it. Simultaneously with the rising or falling course of the current coming from the suppression of the signal in line 18, digital-to-analog converters get the full voltage + E of a source 50 to the base voltage in the emitter branch of the current amplifier on transistor 4, which conducts it and held at a fixed value. Since the X and Y down 50 brings current from point 40 to coil 8. Thus, the steering system work identically, only one thing is the deflection amplifier 2 and the deflection needs to be explained. amplifier 4 switched on. The number in the n - l levels

As can be seen from the figure, two coils 6 of the X register is now continuously enlarged, the

and 8 of a push-pull yoke, one deflection amplifier each 2 n-1 stages are thus set in sequence, where-

or 4 assigned. Now it is assumed that 55 is replaced by the available at point 40,

n— 1 steps of the ΛΓ register, which increases the beam coordinate current by a separate step

naten stores in digital form, and the n-th. Tax will. As this current flows through the coil 8 of the

stage are deleted and their signal flows via a deflection yoke line, the electron beam is

10 to 18 submit. The signals run from the conductor step by step from the center of the visible surface to the

Lines 10 to 16 are switched on via a logic circuit 28 in 60 on the right-hand side. If the through

a digital-to-analog converter 20 to 26, the deflection amplifier 4 and the coil 8 of the deflection

whose current going through a rated resistor 30 yokes will eventually reach its maximum

until 36 drains. The output signal reaches the η-th level strength, the beam is to the extreme, right

reaches one input side of the visible surface via a line 18; at the same time are all

terminal of AND gates 60, 62, 64 and 66 of the 65 η steps of the ΛΓ register are set. The next impulse

logic circuit 28 so that the signals from the then clears the η stages. This means that

Lines 10 to 16 each have an OR gate 68 to 74 signal from the η-th stage from line 44 to the

enter and from here the digital-to-analog conversion line 18 is laid. This in turn comes to

Base of transistor 42, which begins to conduct and to the base of transistor 4 practically the earth potential brings up, whereby the latter is blocked. Since there is no signal at the base of transistor 46, this is blocked, and the voltage of the source 48 is fed back to the base of the deflection amplifier 2, whereby this leads. As you can see, the deflection amplifier 4 is then off and the deflection amplifier 2 switched on; because all η levels of the AT register are in the deleted state, a maximum current occurs again at point 40, which is via the Deflection amplifier 2 is brought to coil 6, causing the electron beam to the left side of the The visible surface jumps back.

When the η steps in the figure store the binary value of 11110, the electron beam is, as can be seen from the preceding description, in the center of the cathode ray tube. If the next number is added to the content of these levels, the binary value 00001 is obtained, at which the beam is again in the middle. Thus, two binary values indicate the position in the middle. To avoid this, is between the point 40 and the earth a resistor 38 is used, which supplies a fixed current to the deflection coils, the magnitude of which is such that the beam moves away from the center to the left by half a step when the amplifier 2 applies the current to the coil 6 If, conversely, the amplifier 2 is blocked and the amplifier 4 conducts, so much current flows through the coil 8 that the beam is brought out of the center by half a step to the right. Register steps is increased by the value 1, the beam is constantly moved on over the tube face, whereby the two 0-positions are excluded.

The advantage of circuit linearity in this deflection method is obtained by the fact that the voltage at point 40 in the emitter branches of deflection amplifiers 2 and 4 are independent from the rising and falling course of the current emerging from the digital-to-analog converter is held at a fixed value. This means that the reference voltage is not directly connected to the Base of the deflection amplifier may be connected. Because the collector-emitter current with The base-emitter current would otherwise increase as the current from the digital-to-analog converter increases also apply. The voltage drop from the base to the emitter would also get bigger, which would actually change the reference voltage; thus the non-linearity would increase as soon as the Current from the digital-to-analog converters increases. To prevent this and the desired linearity To obtain, transistors 52 and 54 are inserted into the circuit, at whose emitters the reference voltage located.

Let the current flow from point 40 through deflection amplifier 2 and coil 6. As soon as he becomes larger, the voltage drop from the base to the emitter also seeks to increase, thereby increasing the voltage seeks to become smaller at the base of transistor 52. This causes transistor 52 to to start the shutdown. As a result, the voltage of the source 48 increases Base of transistor 2 closes and therefore keeps the voltage at the emitter of transistor 2 constant. There one Reference voltage 56 and a Zener diode 58 are also at the emitter of transistor 54, the Deflection amplifier 4 is also controlled in the same way, so that the voltage in the emitter branch of the transistor 4 regardless of the course of the current emerging from the digital-to-analog converter on a is held at a fixed value.

When all levels of the .X register are cleared, generate The digital to analog converter has a maximum current that passes through one half of the deflection coil

ίο flows and adjusts the jet to the one outermost edge of the visible surface. As soon as the steps of the Z-register are set one after the other, the beam moves gradually towards the center of the visible surface. When a position is reached in which it is half a step away from the center of the visible surface, all n-1 levels of the X register are set. If the next pulse comes register stages AT in which the n-1 stages are cleared, and the n-th stage is set, the effect influences the logic circuit that the current passing through the first half of the deflection coil current is interrupted and the output signals The digital-to-analog converter can get to the other half of the deflection coil, from which the beam is shifted from the center by half a step to the right side of the tube. While the n-1 levels of the ^ register are now set one after the other, the beam moves step by step from the position half a step away from the center to the right to the rightmost edge of the viewing area. As soon as the n - l levels of the Z register are deleted, the beam has reached the rightmost edge of the visible surface; if the last stage η is deleted, the ray jumps back directly to the opposite side of the visible surface, where the work sequence begins again.

Claims (8)

Patent claims: 1. A circuit for the step-by-step electromagnetic positioning of the electron beam on the screen of a cathode ray tube with two amplifiers, one output of which is connected to each end of a push-pull deflection coil, characterized in that a (Af-) register, in its stages (FF-I, FF-I, FF-3, FF-4) the respective beam position can be recorded as a binary sequence of digits, a control stage (FF-n) is connected in parallel, of which one output signal (0) is sent to the erase output terminals (0) of the register stages (FF -I, FF-2, FF-3, FF-4) occurring signals via AND gates (60, 62, 64, 66) and from their other output signal (1) to the set output terminals (1) of the register levels (FF- I, FF-2, FF-3, FF-4) occurring signals can be passed through further AND gates to a single set of digital-to-analog converter circuits whose common output terminal (40) is connected to the two amplifiers (2, 4) is, and that one amplifier (4) of which one output signal (0) of the control stage (FF-n) and the other amplifier (2) of the other output signal (1) of the control stage (FF-n) can be blocked. 2. Circuit according to claim 1, characterized in that the digital-to-analog conversion setter circuit a register (^ register) with n stages, of which n - l stages store the desired beam position in digital form, while The «th stage emits control signals, n-1 digital-to-analog converters (20 to 26), n-1 rated resistors (30 to 36), the sizes of which form a geometric series, and one end of which is connected to an associated digital-to-analog unit Converter (20 to 26) is connected, while the other ends of which are in common with a point (40) which supplies the analog output signal, and a switching network (28) belongs to which the output terminals of the n-1 stages are connected to the digital Analog converters (20 to 26) can be connected. 3. A circuit according to claim 2, characterized in that the switching network (28) n-l OR gates (68 to 74), the output terminal of which is connected to a digital-to-analog converter (20 to 26), a group of n- 1 AND gates (60 to 66), which feed the one digital signal of the n-1 stages to the relevant OR gate (68 to 74) when the th stage emits the one digital signal, and another group of n-1 AND gates which feed the other digital signal of the n-1 stages to the corresponding OR gate (68 to 74) when the th stage outputs the other digital signal. 4. A circuit according to claim 1, characterized in that the logic circuit has two gates (2, 4) which are connected in series with one or the other coil (6, 8) of the yoke, and two control devices (46 and 42 ), which lie between the «th stage and the two gates (2, 4) which are opened or closed depending on the state of the« th stage. 5. A circuit according to claim 4, characterized in that the two gates (2, 4) from There are transistors whose output electrode is connected to the relevant coil (6, 8) of the yoke and their input electrode at the jointly connected end (40) of the resistors (30 to 36) is connected, and its control electrode with the two control devices (46, 42) in connection stands. 6. A circuit according to claim 4, characterized in that the two control devices (46, 42) two further transistors (52, 54) belong, whose first electrodes are on the control electrode of the relevant transistor (2, 4) representing the gate, the second electrodes of which at a fixed potential source (56) and the third electrodes of which are at the / zth stage, and that these further transistors (52, 54) the first gate (2), only if the «th stage is in their is in a stable state, and the second gate (4) only when the nth stage is in their in another stable state, initiate the line. • 7. Circuit according to claims 5 and 6, characterized in that with the two Transistors (2, 4) a voltage regulator (52, 54, 56, 58) is connected to the voltage at the commonly connected end (40) of the resistors (30 to 36) regardless of the Keeps the size of the analog output signal constant. 8. Circuit according to claims 2 and 4, characterized in that a resistor (38) between a potential source and the commonly connected end (40) of the design resistors (30 to 36) so that a bias current occurs when the Digital-to-analog converters (20 to 26) do not emit a signal, and the beam on half a step on one side from the center of the tube, if one gate (2) is open, and adjusts to half a step on the other side from the center of the tube, if that other gate (4) is open. 1 sheet of drawings