CS243190B1 - Function generators control connection - Google Patents

Abstract

The function generator is essentially made up amplifier and capacitor they create integration circuit. DIP switch the capacitor is connected to the current load in one position while in the second position it is connected to a power source. From the generator output can be removed in addition to the oscillation beam also video frequencies with an exact number oscillation periods. The output signal is characterized negligible DC component and is particularly suited for measurement in television technology.

Description

BACKGROUND OF THE INVENTION The present invention relates to a wiring for controlling a function generator, from whose output it is possible to extract vibration beams with an exactly integral number of vibration periods. As a result, the output signal contains a negligible DC component and is particularly useful for measurements in television technology.

Commonly used function generators are blocked directly without additional auxiliary circuits, if necessary, or utilize auxiliary circuits for blocking functions that operate flawlessly only within the 180 ° period of the output generated waveform.

In known wiring, the blocking sequence is fed directly to the switch input, most commonly a transistor. The blocking curve has such a logic level for the blocking state of the function generator that the switch closes exactly at zero crossing in the desired direction, for example positive, but only within 180 °. If the blocking waveform acquires a blocking level in the opposite half-period, the generated waveform will terminate immediately, rather than at zero crossing. These drawbacks are overcome by the circuitry according to the invention.

The object of the invention is a circuit for controlling a generator function, characterized in that a flip-flop output is connected to the first input of the generator, the output input of which is connected to a derivation circuit output, the input of which is connected to the blocking circuit output. the input is connected to the second output of the generator, to the second input of which the control source is connected, the first output having a triangular voltage.

The higher effect of the circuitry according to the invention compared to the prior art is to provide a faultless function blocking function of the functional generator over the full 360 ° period of the output signal. If the blocking pulse arrives at any time during the last period before the positive zero pass, the function generator stops operating exactly when the output signal passes zero in the positive direction.

The circuit according to the invention will be further explained with reference to the accompanying drawings, in which Fig. 1 is a block diagram of the circuit according to the invention and Fig. 2 shows an exemplary connection of a function generator.

The generator G in the circuit according to the invention in FIG. 1 is provided with two inputs 8, 4 and two outputs 2, 6. Its first input 8 is connected to the output Q of the flip-flop circuit K with three inputs T, D, P. The control input Z is connected to the second input 4 of the generator G. The second output 2 of the generator G is connected to the clock input T of the flip-flop K, whose setting input P is connected via the derivative circuit R to the output of the latch circuit B. The output of the latch circuit B is also connected directly to the routing input D of the flip-flop.

For example, the generator G in FIG. 2 is formed by an integration circuit represented by an amplifier A with a parallel capacitor C by a switch S and a comparator M. The output of the amplifier A is connected via a comparator M to the second output £ of the generator G to its first output £. The setting input switch P is two-position and is controlled by the output voltage of comparators M.

In the discharge position, the capacitor C is connected to the load current lj, while in the charging position N is connected to a current source £ _second

If the setting input switch P is in the discharge position v, the capacitor C is discharged by a current., Which flows into the current load ^. In the charging position n, the capacitor C is charged with a current +,, which flows from the current source _{2 2} , which supplies twice the current before it draws the current load ^. The second input £ is connected to the inputs of the controlled current sources lj, £ ₂ ·

The output voltage of the integration circuit is controlled by a comparator M with hysteresis, the output voltage of which controls the setting input switch P so that when the output voltage of the integrator reaches the positive limit, the setting input switch P switches to a position that causes a sign change. slope of the generated triangular waveform.

Claims (1)

SUBJECT OF THE INVENTION A circuit for control of a function generator, characterized in that the output of the flip-flop (připojen) is connected to the first input (1) of the generator (G), to whose setting input (P) the output of the derivative circuit (R) is connected. output of the blocking circuit (B) together with the routing input (D) of the flip-flop (Κ), to whose clock input (T) the second output (2) of the generator (G) is connected, OF).