DE1171651B - Coordinate converter - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Class: G06f

German class: 42 m -14

Number: 1171651

File number: N 21754IX c / 42 m

Filing date: June 26, 1962

Opening day: June 4, 1964

The invention relates to a coordinate converter for converting rectangular coordinates in polar coordinates.

Such converters are z. B. in analog computing machines to carry out navigation and similar calculations are used.

The purpose of the invention is to create a coordinate converter of the type mentioned at the beginning, which apart from his particular simplicity is characterized by its short response time.

The coordinate converter according to the invention is characterized in that it for exciting two 90 ° phase-shifted natural oscillations of the oscillation circuit a group consisting of an inductor and a capacitor tank circuit and means ¹ S, whose amplitudes correspond to the rectangular coordinates, a peak detector for detecting the peak value of the contains the total oscillation of the oscillation circuit composed of the two natural oscillations and a phase ^ao measuring mechanism for measuring the phase of the total oscillation.

The invention is explained in more detail below with reference to the drawing.

Fig. 1 shows a partially in a block diagram Embodiment of a coordinate converter according to the invention,

F i g. 2 shows a coordinate system and FIG. 3 shows some voltage timing diagrams for Explanation of the example shown in FIG. 1.

The example shown in Fig. 1 includes a distribution switch 1 with a switching arm 2 and three with contacts 3, 4 and 5 cooperating with the switching arm. In practice the distribution switch 1 is preferred designed electronically, but the function of the switch is the same. The switch can under the control of a control circuit, not shown, the contacts 3, 4 and 5 one after the other the switching arm 2 and the resistor 6 to the input of a counter-coupled through the resistor 7 Connect DC voltage amplifier 8. The output of the amplifier 8, which has a very low impedance has, is with an oscillating circuit composed of a capacitor 9 and an inductor 10 connected, which in this case is a series resonant circuit.

In the oscillation circuit, two natural oscillations that are shifted in phase by more than 90 ° are generated, Coordinate converter

Applicant:

N.V. Philips' Gloeilampenfabrieken, Eindhoven (Netherlands)

Representative:

Dr. rer. nat. P. Roßbach, patent attorney,

Hamburg 1, Mönckebergstr. 7th

Named as inventor:

Johannes Abraham Brakel, Hilversum

(Netherlands)

Claimed priority:

Netherlands, June 30, 1961 (266 556)

stood at point P, where the coordinates are denoted by X ₁ and Y _1. The guide ray R of the point P to the origin O of the axis cross is through the in F i g. 2 given formula as a function of the coordinates of the point P. The formula indicates that the square of the guide beam is equal to the sum of the squares of the rectangular coordinates. The natural oscillations generated in the oscillation circuit combine a certain oscillation, the amplitude square of which is equal to the sum of the squares of the amplitudes of the two composing natural oscillations. The amplitude or the peak value of the total oscillation is thus proportional to the guide beam. The total oscillation is fed from the connection point 11 between the capacitor 9 and the inductance 10 via an isolating amplifier 12 to a peak value detector formed by a diode 13 and a capacitor 14. The capacitor 14 charges up to the peak value of the total oscillation, so that a voltage proportional to the guide beam is available at the detector output. This information can then be processed in a manner not shown, whereupon the capacitor 14 is discharged via the resistor 15 and the switch 16. The phase of the total oscillation of the oscillation

circle depends on the ratio between the amplitudes

the amplitudes of which are proportional to the rectangular coordinates of 50 hours of the composing natural vibrations from the object. Fig. 2 shows a pending and, apart from one constant, is equal to the right-angled axis XOY with an opposite angle between the guide beam to point P in

409 598/360

Claims (2)

3 4 Fig. 2 and a coordinate axis. The phase of stood 29 of the oscillation circle. The total condensation oscillation is discharged in the following way sator 9 via the inductance 10 and measured. The overall oscillation is fed to a peak limiter 18 via a very low output impedance of the DC voltage amplifier 17, amplifier 8, whereby a natural oscillation of and then diff eren by the differentiating circuit 19 is excited 5 oscillation circuit and decorates the energy of the. The output signal of the circuit 19 consists of pulses periodically from the capacitor to the capacitor, which coincide with the zero crossings of the Ge of the inductance and of the inductance after the total oscillation. The negative Im- capacitor flows. This natural oscillation is in pulses are selected by the pulse selector 20. Fig. 3a indicated by the curve 1 (Y), which The phase measurement is based on the fact that the pulses io indicates the voltage of point 11 of the oscillating circuit of a pulse source between a fixed point in time to earth from the point in time at which the and z. B. the first output pulse of the pulse switching arm 2 is connected to the contact 4. The selektros 20 are counted. For this purpose, an amplitude of the oscillation is equal to Y ₁ . After a bistable flip-flop circuit 21 is provided, which is brought to the state 1 at a quarter of a period of the natural oscillation, at a fixed point in time and the ¹ S at which point in time the voltage on the capacitor closes a switch 22, the pulses are zero and all the energy of the Oscillating circuit in a pulse source 23 of a counting circuit 24 supplies. the inductance is stored, the switching arm 2 The first pulse of the pulse selector 20 brings the connected to the contact 5. As a result, the flip-flop 21 is in position 2, whereupon the voltage switch of the source 26 with opposite polarity 22 is opened. The position of the counting circuit 24 corresponds did ²⁰ in series with the capacitor and the inductance then speaks the phase of the overall vibration, so that effectively, so that a second self-oscillation of the angle is excited Anan the outputs of the counting circuit 24th between the guide beam and a coordinate axis. This oscillation is shown in FIG. 3 a through the can be read. This information may be indicated DAR curve 2 (X) which the voltage at the on not further described manner processed ³ S point 11 of the oscillation circuit to earth for this are, whereupon the counting circuit in the rest position _{indicates natural oscillation from the time i 0} at which is brought by a switch 28 is closed. the switching arm 2 is connected to the contact 5. The rapid phase measurement described has the amplitude of the oscillation is equal to X ₁ . the The advantage is that a very short response time of the coordinate converter, formed by the two natural oscillations, is achieved. ³ ° oscillation is indicated by curve 3. The excitation of two 90 ° phasenverschobe- Fig. 3b shows the output signal of the spigot turkeys natural oscillations of an oscillation circuit limiter 18 and 2> c, the output of Diffekann be performed in various ways, 19. renzierschaltung The pulse selector 20 selects which both a series resonant circuit as well as a from this the negative impulses. The peak value of the Ge ParaUelresonanzkreis can be used and where ³⁵ total oscillation is determined in the way already described, the excitation of the two natural oscillations. The phase can be measured simultaneously and one after the other or over a period in that the pulses of the pulse source 23 can take place between quarters of a period relative to one another, the fixed point in time t ₀ and the next following point in time. Without the ER transition pulse of the Impulsselektors 20 or that the Imfindung to a particular stimulus, the equity ° _pu lse between the to be limited over a period of the natural vibrations, a method is etffcfert to hand vibration over t ₀ shifted time and Example, the practical the next following pulse of the pulse selector 20 has advantages. are counted. To this end the tilting is the contact 3 of the switch 1 is circuit with a DC ₄₅ 21 at the time t are connected in the position 1 gespannungsquelle 25, introduced their terminal voltage. The time difference between the time t _{t is} equal to the coordinate Y _{1 of} the point P in FIG. _and the next following pulse of the pulse selector. The contact 5 of the switch 1 is equal to 20 is zero when X _{1 is} zero, and a quarter of the voltage source 26 is connected, whose clamping period of the natural oscillation when Y _{1 is} zero. The voltage-Z ₁ equal and opposite to the coordinate Z _{1 50} specified time interval thus corresponds to the point P is. Angle α between the guide beam after point P. Under the control of a not shown in FIG. 2 and the Y-axis. A practical advantage of the described coordinate 3 and the switches 16, 27 and 28 data converter is that the two proper are closed. The switch 28 brings the counting ₅₅ oscillations using a single reverse circuit 24 to the rest position and the switch 16 generates corresponds coupled DC amplifier werlädt the capacitor 14. The switch 27 switches the can. a resistor 29 in parallel with the inductance 10, the described coordinate converter enables whereby the oscillation circuit is strongly damped. both the peak value and the phase of the The capacitor 9 is charged by the direct voltage 6o total oscillation within a whole and one voltage amplifier 8, which determines the polarity of the supplied quarter period of the natural oscillation, Signal reverses until voltage - Y ₁ . The point so that the response time is short. At one frequency in the case of the capacitor, the selected positive indicates the natural oscillation of 500Hz is the response Side of the capacitor at a positive voltage time of the order of 2.5 msec, at. After the capacitor 9 has charged, 65 the switches 16, 27 and 28 open, whereupon the claims: Switching arm 2 connected to earth via contact 4 1. Coordinate converter for converting will. The switch 27 switches the damping resistor rectangular coordinates in polar coordinates, characterized in that the converter has an inductance and a capacitor formed oscillation circuit as well as means for exciting two over 90 ° phase shifted Natural oscillations of the oscillation circuit, the amplitudes of which correspond to the rectangular coordinates, a peak value detector for detecting the peak value of the two natural vibrations formed total oscillation of the oscillation circuit and a phase measuring mechanism for Measuring the phase of the total vibration. 2. Coordinate converter according to claim 1, characterized characterized in that means are provided by which the capacitor up to one of the Rectangular coordinates corresponding to the DC voltage charged and the capacitor on it is discharged via the inductance, whereby a natural oscillation is excited, and means through which after a quarter of a period of natural oscillation from the time of excitation the first natural oscillation in series with the capacitor and the inductance one Source is switched with a DC voltage corresponding to the other rectangular coordinate, whereby the second natural oscillation is excited. 3. Coordinate converter according to claim 1 or 2, characterized in that for measuring the Phase of the total oscillation a counting circuit for counting the pulses of a pulse source is provided between a fixed point in time and a zero crossing of the total oscillation. 1 sheet of drawings 409 598/350 5.64 © Bundesdruckerei Berlin