CS255289B1 - Sine wave shaper - Google Patents

Abstract

Sine Wave Shaping is designed for measurement of analog to digital converters digital television. Shaping Maker Provides On two outputs a dark sine wave on one output bipolar and on the other output unipolar.

Description

The invention solves a sine waveformer suitable especially for the measurement of quantization noise of analog-to-digital converters of digital television.

A number of circuit circuits are known which can shape a sinusoidal signal into radio pulses. Such formers are for example part of functional generators. For the same function, it is possible to use some connections of TV blackout amplifiers. However, these are generally complex devices, but do not allow simultaneous output of two shaped sine signals, one of which is unipolar, ie with a DC component and the other of bipolar, ie without a DC component.

These drawbacks are overcome by the connection of the sine waveformer according to the invention.

It consists in that the input of the first amplifier is connected to the runner of the first potentiometer, the end of which is the first input of the former and is connected to the second end of the second potentiometer, the second end of the first potentiometer is connected to the input of the first switch. the second switch input and the fifth amplifier input and the second switch control input are connected to the fourth switch control input and the second shaping circuit output, the output of which is connected to the first shaping circuit output and the first switch control input and the third switch control input wherein the input of the first forming circuit is coupled to the output of the clamping circuit, the input of which is connected to the output of the fourth amplifier, the input of which is connected to the second input of the former, wherein one end of the third potentiometer is µf. only the voltage source, while the other end of the third potentiometer is connected to ground and the slider of the third potentiometer is connected to the input of a third amplifier whose output is connected to the first end of the second potentiometer whose runner is connected to the input of a second amplifier whose output is connected to the input a third switch, the output of which is coupled to the input of the sixth amplifier and the input of a fourth switch, the output of which is coupled to the ground, the output of the fifth amplifier being the first output of the former and the output of the sixth amplifier being the second output of the former.

The achievable novel effect of the described circuit is that the former allows two sinusoidal signals to be drawn simultaneously from two outputs, the first being unipolar and the second bipolar. Such shaped signals can be used to measure the quantization noise of analog-to-digital converters of digital television. The advantage is also simple wiring, which can be realized with a reserve on a 125 x 266 mm flat board.

The invention will be further explained with reference to the drawing, in which the circuit in FIG. 1 shows the block arrangement of the former and FIG. 2 shows the significant waveforms. In the circuit according to the invention, the input of the first amplifier Z1 is connected to the runner of the first potentiometer R1, the first end of which is the first input 1 of the former and is connected to the second end of the second potentiometer R2. The other end of the first potentiometer R1 is connected to the input 2 of the first switch S1, the output of which is connected both to the input 6 of the second switch S2 and the input of the fifth amplifier Z5 and the control input 7 of the second switch S2 is connected to the control input 9 of the fourth switch S4. and with the output of the second shaping circuit T02.

The shaping circuit input T02 is connected to the output of the first shaping circuit T01 and to the control input 31 of the first switch S1 and the control input 5 of the third switch S3. The input of the first shaping circuit T01 is connected to the output of the clamping circuit U0, the input of which is connected to the output of the fourth amplifier Z4. The input of the fourth amplifier Z4 is connected to the second input 10 of the former.

One end of the third potentiometer R3 is connected to the voltage source U, while the other end of the third potentiometer R3 is connected to the ground and the slider of the third potentiometer R3 is connected to the input of the third amplifier Z3. The output of the third amplifier Z3 is connected to the first end of the second potentiometer R2, the slider of which is connected to the input of the second amplifier Z2, the output of which is connected to the input 4 of the third switch S3. The output of the third switch S3 is connected to the input of the sixth amplifier Z6 and the input 8 of the fourth switch S4, the output of which is connected to the ground, the output of the fifth amplifier Z5 being the first output 11 of the former. shapers.

A sinusoidal signal according to FIG. 2a is connected to input 1. The pulses of FIG. 2b are applied to the second inlet 10 of the former. After amplification in amplifier Z4, the pulses are applied to a clamping circuit U0 which provides a suitable DC pulse foot level such that the shaping circuit TO1 is always sufficiently excited.

The shaping circuit TO1 provides at its output a suitable pulse level for controlling the switches S1 and S3 of Fig. 2c as well as driving the shaping circuit TO2. At the output of the forming circuit TO2, pulses of opposite polarity are shown in FIG. 2d. These control the switches S2 and S4.

At the input of amplifier Z5 there is a bipolar signal according to Fig. 2e and at the input of amplifier Z6 there is a unipolar signal according to Fig. 2f. DC shifting of the blanking section is achieved by DC shifting the sine wave from input 1 by connecting one end of the potentiometer R2 to the output of amplifier z3. At the output of the amplifier Z3 is a DC voltage, the size of which can be controlled by the potentiometer R3. Thus, a sinusoidal DC shift at the input of switch S3 is achieved such that after passing through the switch S3, an unipolar waveform of the signal according to FIG. 2f is obtained at the input of amplifier Z6. By adjusting the R3 potenoiometer, the correct signal shape can always be obtained at different sine wave amplitudes at input J1.

The sine waveformer thus arranged is suitable for use in television measuring technology, in particular for measuring analogue to digital television converters.

Claims (2)

OBJECT OF THE INVENTION A sinusoidal waveformer, characterized in that the input of the first amplifier (Z1) is connected to the runner of the first potenoiometer (R1), the first end of which is the first input of the shaper (1) and is connected to the second end of the second potenoiometer (R2). the potentiometer (R1) is connected to the input (2) of the first switch (S1), the output of which is connected to the input (6) of the second switch (S2), to the input of the fifth amplifier (Z5) and control input (7, second switch (S2) ) is connected to the control input (9) of the fourth switch (S4) and the output of the second forming circuit (TO2), the input of which is connected both to the output of the first forming circuit (TO1) and the control input (3) of the first switch (S1) the control input (5) of the third switch (S3), the input of the first forming circuit (TO1) being connected to the output of the clamping circuit (UO), the input of which is connected to the output of the fourth amplifier (Z4), the input of which is connected to the second input the end of the third potentiometer (R3) is connected to the voltage source (U), while the other end of the third potentiometer (R3) is connected to ground and the slider of the third potentiometer (R3) is connected to the input of the third amplifier (Z3) ), whose output is connected to the first end of the second potentiometer (R2), the slider of which is connected to the input of the second amplifier (Z2), the output of which is connected to the input (4) of the third switch (S3). the input (8) of the fourth switch (S4), the output of which is connected to ground, the output of the fifth amplifier (Z5) being the first output (11) of the former and the output of the sixth amplifier (Z6) being the second output ( 12) Shaping signal. 2 drawings GIANT. 1 L_