DE1944974C - Pulse amplitude demodulator circuit for a single-pole pulse voltage - Google Patents

Description

In radio equipment in which the transistor 2 is connected to the pulse voltage source 4. Fer ratio of the pulse repetition frequency to the frequency of the ner, the circuit has a memory cell 5, the envelope is sufficiently large, prepares the Ausson, for example, a trigger, and a Modification of the envelope with such circuits connected to the input of the memory cell 5 no difficulties. In contrast, the frequency circuit 6 can be equal to the transistor 2, a 1 sequence of the envelope in signal conversion circuits sistor 7, a diode 8 and two resistors 9 and, for example, automatic control systems only 10. The other input of the memory cell 5 is insignificant from the Pulse repetition frequency differentiates a clock pulse source 11 connected, the clocks of which follow, so that the separation of the envelope curve under timpulse with the frequency of the pulse voltage, the use of which of the known circuits with errors 45 envelope curve has to separate the circuit, follow,
is afflicted. While, for example, the envelope curve increases, the pulse amplitude demodulator circuit works

begins to fall, the capacitor retains its urge as follows: If the pulse suddenly occurs at the output Value at, or the original value voltage source 4 is a pulse voltage, opens increases slowly (according to the discharge time, the transistor 2 and the capacitor 1 begins constant of the capacitor). Such a time delay 50 to recharge. Due to the collector current of the tion leads to dynamic errors, while with transistor 2 transistor 7 is opened, the one in the combiner Increase of the signal evaluation speed equal to transistor 2 by opposite leikeit a condition may occur in the control system that is device type. The collector current of transistor 7 in which the error exceeds the subsequent zone and this blocks the spoke cell 5 and keeps it in this way System becomes incapacitated. 55 in their initial state. This means that the doorway is also

One in the German patent specification 1 073 034 besistor 3 des Ei .: adekreises locked,
Written arrangement for generating one of άζτ If the pulse voltage at the output of the pulse

Amplitude of the input pulse dependent DC voltage source 4 compared to the charging voltage voltage drops for the purpose of regulating or dividing the capacitor 1, the transistor 2 blocks of pulses works with a multivibrator, the 60 and thus also the transistor 7, in its transmitter an applied pulse in the astable additional circuit a bias voltage appears via diode 8, The cell 5 retains its initial state via its output Charging of a storage capacitor on one.

The right tension causes the potential of the Git- When the tension amplitude increases

ters of the output tube of the multivibrator determines 65 next voltage pulse or when it is reached again ; in this after charging the capacitor in the area of the previous value, the capacitor becomes stable state. The stable state keeps an additional charge, so that it is its original state for a long time until the state is maintained due to a changed amplitude.

With a decrease in the amplitude of the pulse span up to to a value at which the voltage at the base of the transistor! is less than the voltage on Capacitor, the transistors 2 and 7 remain blocked, while the memory cell 5 through the clock pulse source 11 is opened and the transistor 3 opens. The latter bridges the capacitor 1, which discharges quickly.

As soon as the emitter potential of the transistor 2 increases during the discharge of the capacitor 1 has become than the base potential, transistor 2 is opened and opens the through its collector current Transistor 7, which puts the memory cell 5 in the initial state brings back the latter blocks the transistor 3 of the discharge circuit, so that the discharge of the Capacitor 1 suspends and the voltage at this approximately the new amplitude value of the pulsating Voltage is the same

If the voltage at the output of the full voltage source 4 equals zero, then d, r capacitor discharges in the manner described above.

The circuit under consideration allows a comparison to known circuits more precise separation of the envelope curve with decreasing pulse voltage amplitude, if the pulse repetition frequency is only comparable to the frequency of the envelope curve

Sheet drawings

Claims (1)

applied pulses a new tilting process occurs Claim · and the charging capacitor has been modified accordingly assumes the potential, which can be used as a regulating or Pulse amplitude demodulator circuit used for a tensioning. The arrangement is then single-pole pulse voltage whose pulse repetition rate is 5 unsuitable when the frequency of changes is close to the envelope frequency, with the amplitude of the applied pulses of the pulse train Storage capacitor of constant capacitance, frequency approaches, since the storage capacitor has a potential Discharge circuit and a charge circuit, over tial only gradually information'ge of a leakage current take the pulse voltage from the storage capacitor and feed the pulse to a more rapid decrease, characterized in that io amplitude cannot follow. a memory cell (S) in a manner known per se. The object of the invention is to provide a is provided and that this is used to control the pulse amplitude demodulator circuit of the input Specify the discharge circuit of the storage capacitor (1) with the type mentioned, which is used in automatic Sieudem Discharge circuit as well as on the input side can be used on the one hand, without their with a comparison circuit (6) to compare 15 accuracy and speed of action reduce the pulse voltage with the storage capacitor. Satorladespaanung and on the other hand with an invention, this task is thereby achieved Clock pulse source (11) for clock pulses that releases a memory sequence in a manner known per se the unipolar pulse voltage connected cell is provided and that this is used to control the is. ao discharge circuit drs storage capacitor with the Discharge circuit as well as on the input side on the one hand with a Comparison circuit for comparing the pulse voltage with the storage capacitor voltage and other The invention relates to a pulse amplitude on the other hand with a clock pulse source for clock pulse demodulator circuit for a single-pole pulse base the frequency of the single-pole pulse voltage, whose pulse rate is close to that of the bound. Envelope frequency is, with a storage capacitor Sator of constant capacitance, a discharge circuit and exemplary embodiment with reference to the c nem charging circuit, over which the storage capacitor drawing, which is a basic circuit diagram of the invention Pulse voltage is supplied. 30 according to the circuit, explained in more detail. There are pulse amplitude demodulator circuits The pulse amplitude demodulator circuit for known, the eir.cn unchangeable storage con- a single-pole pulse voltage contains a storage capacitor with a charging and a discharging circuit capacitor 1 of constant capacity with a charging included, over the charging circuit, the pulse voltage circuit in which a transistor 2 is located, and with is fed. 35 a discharge circuit with a.- «transistor 3. The