DE1019703B - Device for comparing the instantaneous values of two mutually independent voltages - Google Patents

Description

Device for comparing the instantaneous values of two from each other independent voltages The invention relates to means for comparing the Instantaneous values of. two independent voltages, these bodies from a comparison device for deriving a control voltage to each Time of the difference between the instantaneous values of the two to be compared Voltage depends, and consist of devices that respond to the control voltage, whose value is beyond a predetermined value.

In a known device of the type mentioned, a differentiating Circuit a voltage equal to the difference between that of a sampling circuit: supplied voltage and the voltage supplied by a demodulator. There the arrangement operates in such a way that that supplied by the demodulator The voltage seeks to follow the voltage supplied by the extraction circuit The differential voltage supplied by the differentiating circuit is only relatively small Amplitude. The derived control voltage is not limited because the the two voltages to be compared are in such a dependency relationship, that they can differ only a little. In cases where for voltage comparisons the same sensitivity is required for all values of the voltages to be compared is, the accuracy of the known arrangement is sufficient for satisfactory operation not from.

The object of the invention is to provide a device of the type mentioned Way with which the instantaneous values of two independent voltages with the accuracy can be compared with a coding device of a pulse code modulation system is required and which can be used to generate a pulse code character.

This is achieved according to the invention in that the comparison device the control voltage so: limited that the possible range of values of the control voltage small against the possible range of values of the difference between the two to be compared Voltages and that the device responsive to the control voltage is two grid-controlled electron tubes with a common cathode resistance ;, a Way of supplying the control voltage to a control grid of one of these tubes and comprises a device to apply a uniform bias to the control grid of the other tube, the arrangement of these two tubes being made in this way is that they form a circle with two stable operating states, the one or other of these states, in each of which one tube is conductive and the other Tube is locked, depending on the value of the control voltage at the time of the comparison and thereby at its output one of the size ratio of the Value of the control voltage and the uniform preload: g der. other tube delivers a dependent binary statement. The control voltage of the responding device is supplied via a cathode amplifier stage. One supplied by a device Negatively directed voltage pulse, which is used to periodically superimpose the control voltage applied to the device responsive to the control voltage acts in such a way that the tube to which the control voltage is applied is blocked when it occurs becomes, while at the cessation of this impulse the circle with two operating states either remains in this state or in the other state depending on the value the control voltage changes. Preferably the tube to which the control voltage is applied is applied, by means of resistance and capacitance in such a way to the control grid of the other Tube coupled that the change from the state in which the tube to which the control voltage is applied, is blocked, is in the state supported, in which it is leading. The resistance-capacitance coupling path between the two Tubing of the device, responsive to the control voltage, preferably has a cathode amplifier stage. An arrangement of the facility according to the invention will now be described as an example in connection with the drawing.

Fig. 1 shows the circuit diagram of the device, while Fig. 2 shows two waveforms represents.

The device according to Fig.l works as a dividing part of a pulse code modulation system, wherein the voltages across the two capacitors 1 and 2 a number of times are compared during the coding period of each sample of the input character and it is determined whether the voltage across the capacitor 1 is greater than the voltage on the capacitor 2, or vice versa. One electrode of each capacitor 1 and 2 is directly grounded, while capacitors 1 and 2 are connected to tubes 3 and 4 Electricity can be supplied.

The live electrodes of the two capacitors 1 and 2 are via grid damping resistors 5 and 6 with the control grids 7 and 8 one Doppeltriodeel-ektronenröhre 9 connected by two single triodes 11 and 12, which have a common cathode 13. A pentodiene electron tube 14 is provided in the common cathode circuit of the triodes 11 and 12. Of course the tube can be replaced by two separate triodes that share a common Have cathode circle.

The tube 9 is set up so that each of the individual triodes 11 and 12 has a relatively small starting grid voltage range. With others Words, each of these tubes 11 and 12 is under normal operating conditions the application of a relatively small negative bias to their control grid 7 or 8 required to get into the locked state. When the two single tubes 11 and 12 are conductive, any relative voltage change causes the grid 7 or 8 a voltage change of the cathode 13. any change in the instantaneous anode voltage the tube 11 generates a control character that is derived from the difference between the instantaneous voltages depends on capacitors 1 and 2, this tube having an anode load resistor 15 has.

If now the voltages parallel to capacitors 1 and 2 are the same are, the anode voltage of the tube 11 has a certain value, and if the two If voltages are changed in the same way, there is practically no change in the Anode voltage, since the common cathode resistance 10 of the tubes 11 and 12 has a comparatively great value. However, if z. B. the voltage across the capacitor 1 rises or the voltage across capacitor 2 falls, is an increase in the Voltage drop across resistor 15 with a resulting voltage drop the anode 16 is present.

A capacitor 17 is connected between the anode 16 of the tube 11 and the control grid 18 of a triode electron tube 19 which operates as a cathode amplifier stage. Any change in the anode voltage of the tube 11, ie the control voltage, is thus fed to the control grid 18 via the capacitor 17. Due to its small grid area characteristics, the tube 9 seeks to limit the possible range of values of the anode voltage of the tube 11 with the result that the control voltage can only change over a much smaller range than the voltages on the capacitors 1 and 2. The control voltage thus depends on the Difference between the voltages across capacitors 1 and 2, although it is essentially independent of the actual values of these voltages. In the example described, the voltages on capacitors 1 and 2 can vary over ranges of 40 and 20 volts, respectively, while the control voltage can vary over a range of only 2 volts. As already mentioned, it is necessary that the resistance 10 in the cathode circuit of the tube 9 is relatively large. This condition is satisfied by providing the pentode electron tube 14 which is connected to operate as a constant power source. The terminal 22, which is connected to the brake grid 23 of the tube 14, is normally on the voltage of the negative feed line 23 a. but in order for the coding device to operate accurately under all conditions, the tube 14 is rendered non-conductive by the application of a negative bias to the terminal 22 at the end of each coding period.

As mentioned earlier, the control voltage is given to the control grid 18 is fed to a triode 19, and a diode electron tube 24 is for restoration the DC voltage level of the output from the cathode amplifier stage is provided, which is formed by the tube 19. The voltage developed across a resistor 25 is added to the voltage across the resistor 26 in the cathode circuit of the Tube 19 arises, and the resulting voltage is applied to the control grid 27 of a Pentode electron tube 28 applied. The resistor 25 is parallel to a diode electron tube 29 and is fed by the secondary winding 31 of a pulse transformer 32. The tube 28 and a further pentode electron tube 33 are connected to a common Cathode resistor 34 is provided.

A permanent bias is applied to the control grid 35 of the tube 33 of a potentiometer 36 is applied, and the anode 37 of the tube 28 is set by resistance and capacitance effectively coupled to grid 35. In fact, a cathode amplifier stage, formed by a triode electron tube 38 and a resistor 39 in FIG provided this path between the anode 37 and the control grid 35, wherein a Diode electron tube 41 operating in a manner similar to that of tube 24 is arranged in this way is that the more positive level of the voltage waveform applied to control grid 35 is determined by the potentiometer 36.

The circle formed by the tubes 28 and 33 has two operating states, wherein in each of these operating states one of the tubes 28 or 33 conducts and the other locks. This circuit is set up so that he one or the assumes the other of its two states depending on whether the control voltage, which runs through the cathode amplifier stage formed by the tube 19 is larger or not greater than the bias applied to the grid 35. Every time if a comparison of the voltages on capacitors 1 and 2 is to be effected, an interrogation pulse is applied to the primary winding 42 of the pulse transformer 32. In fact, a sign that the waveform of Fig. 2, a) has, becomes between the terminals 43 and 44 are applied with the result that that shown in Fig. 2, b) Voltage waveform across resistor 25 is produced.

any negative going pulse 45 causes tube 28 to be blocked is, so that the circuit formed by the tubes 28 and 33 the operating state assumes in which the tube 33 is conductive. At the cessation of each pulse 45 remains this circuit either in this state or changes to his other state depending on the relative value of the resistor 26 developed control voltage and the bias voltage applied to the grid 35. the Switching from the state in which the tube 28 is blocked to the state in which it is conductive is supported by means of the coupling via the tube 38.

To prevent the circle formed by the tubes 28 and 33 with two operating states from one state to the other between successive: en Pulses 45 changes, the waveform of Fig. 2, b), is formed so that a small positive-going tip or prong 46 at the end of each pulse 45 as a result of the leakage inductance ring in the transformer 42 is present.

The bias voltage applied to the control grid 35 is controlled by the potentiometer 36 adjusted so that when the voltages on the capacitors 1 and 2 there is an equal possibility that that formed by the tubes 28 and 33 Circuit assumes one of its two operating states after a pulse 45.

The device described has a balanced output to the Terminals 47 and 48 and it is noted that the voltage at each of terminals 47 or 48 only depends on one of the two values between successive pulses 45 of the relative instantaneous voltages on capacitors 1 and 2 to the last one Comparison time may have. The pulse code output of the coding device, from which the facility described above forms the: dividing part, is controlled by the Terminal 49 removed, and the cathode amplifier stage, which encloses the tube 38, serves as a buffer stage between output terminal 49 and tube 28.

The device described above has a practically infinite input impedance, so that they do not have the voltages on capacitors 1 and 2 during coding noticeably affected.

Claims (6)

hATL.NTANSPI:,. i.11, '. 1. Device for comparing the instantaneous values of two independent voltages, consisting of a comparison device to derive a control voltage, which at each point in time from the difference between the instantaneous values of the two voltages to be compared: depends, and from devices, which respond to the control voltage whose value is beyond a predetermined one Value is, characterized in that the comparison device the control voltage limited so that the possible range of values of the control voltage is small compared to the possible The value range of the difference between the two voltages to be compared is and that the device responsive to the control voltage has two grid controlled Electron tubes with a common cathode resistance, one way of feeding the control voltage to a control grid of one of these tubes and a device has to provide an even bias to the control grid of the other tube to deliver, the arrangement of these two tubes is made so that they one Form a circle with two stable operating states, one or the other of these States in each of which one tube is conductive and the other tube is blocked, in. Assumes depending on the value of the control voltage at the time of the comparison and thereby at its output one of the size ratio of the value of the control voltage and the uniform bias of the other tube provides a dependent binary statement. 2. Device according to claim 1, characterized in that the control voltage of the fed to this responsive device via a cathode amplifier stage will. 3. Device according to claim 1 or 2, characterized by a one negative Directional voltage pulse supplying device that is used for periodic superposition the control voltage, the device is applied to the control voltage responds, and which acts such that the tube to which the control voltage is applied is at its occurrence. is locked while upon cessation of this pulse the circle with two operating states either remains in this state or in the other state changes depending on the value of the control voltage. 4. Establishment according to claim 3, characterized in that the tube to which the control voltage is applied, by means of resistance and capacitance in such a way to the control grid of the other Tube is coupled that the change from the state in which the tube to which the control voltage is applied, is blocked, is in the state supported, in which it is leading. 5. Device according to claim 4, characterized in that that the resistance-capacitance coupling path between the two tubes of the Control voltage responsive device has a cathode amplifier stage. 6. Device for comparing the instantaneous values of two voltages after one or more of the preceding. Claims characterized by their use to generate: a pulse code character. Publications Considered: British U.S. Patent No. 662,611; B. Chance et al., Waveforms, McGran Hill Book Comp., New York 1949, pp. 348, 349, 360, 361.