DEP0034593DA - Circuit arrangement for generating sawtooth-shaped current curves - Google Patents

Description

The invention relates to a circuit arrangement for generating currents which have a sawtooth shape as a function of time, in particular in the deflection coils of cathode ray tubes, in which the time constant L / R is short compared to the period.

For this purpose it is known to apply a voltage to the deflection coils supplied by a tube with a small internal resistance, which voltage consists of the sum of a rectangular and a sawtooth-shaped voltage that changes over time.

Such a voltage curve allows currents of the desired curve shape to arise in the deflection coils, which can be thought of as consisting of the series connection of an inductance and a resistor.

The sawtooth-shaped variable voltage, which is used as one of the summands mentioned, is known to be produced in a circuit arrangement in which a capacitor is periodically charged via a resistor and discharged via a tube. The charging speed is proportional to the difference between the charging voltage and the voltage across the capacitor; this difference decreases with increasing charge of the capacitor, so that the inclined rise of the resulting voltage curve is curved. To avoid this curvature, it is known to add an additional voltage to the charging voltage, which is equal to the voltage on the capacitor, so that the voltage difference and thus the charging speed remain constant. It is also known to generate the additional voltage required for this from the charging voltage by a cathode amplifier which transfers the charging voltage to the cathode resistor in the same phase and practically in a ratio of 1: 1. The cathode resistor is connected in series with the charging resistor. This requires at least three tubes, one to discharge the capacitor, one to generate the additional voltage required for the linear voltage increase across the capacitor and a third as a power source for the current in the deflection coils.

In the circuit arrangement of the invention, a tube is saved in that the deflection coil is switched into the cathode line of an amplifier tube and the voltage generated across it is capacitively transferred to a resistor which is in series with the charging resistor. The resulting sawtooth-shaped voltage is added to a voltage with a rectangular curve shape generated in a known manner, so that the deflection coil is now traversed by sawtooth-shaped currents with a linear increase, as required.

The drawing shows, for example, schematically in

Figure 1) the known arrangement and in

Figure 2) the arrangement of the invention.

Figure 3) is the waveform of the voltage across the deflection coils.

In this drawing, 2 is the discharge tube circuit that discharges the capacitance 3, respectively. 4 is the charging resistor with which the resistor 5 in the cathode amplifier circuit is connected in series. 10 is a resistor at which the discharge current generates a pulse that is added to the charge voltage. This creates a voltage curve, which is shown in Figure 3). This voltage curve is applied to the tube 7, in the anode circuit of which the deflection coil 8 is located, so that a pure sawtooth current flows in it. The anode and grid circuit of the tube 7 are fed back, so that the tube has a small internal resistance. In Figure 2), instead of the tubes 6 and 7, there is only one tube 9, in the cathode lead of which the deflection coil 8 is located. The remaining circuit elements of the circuit arrangement are designated corresponding to the circuit elements of the circuit arrangement according to FIG. 1). 11 is a capacitor with which the coil 8 therefore capacitively transfers the voltage generated across it to the resistor 4.

Claims (1)

Circuit arrangement for generating sawtooth-shaped current curves, in which the buzzer applies a rectangular and a sawtooth-shaped voltage that changes over time to deflection coils, in particular of cathode ray tubes, and the sawtooth-shaped summand of these voltages is generated in a circuit arrangement in which the difference between the charging voltage and the voltage on the capacitor increases synchronously with the capacitor charge, characterized in that the deflection coils are in the cathode amplifier circuit and the voltages that arise across them are capacitively applied to a resistor which is in series with the charging resistor.