JPS638675B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a data signal separation circuit that separates a data signal superimposed on a video signal, and its purpose is to eliminate the need to adjust a threshold for level determination according to the amplitude of an input video signal; It is an object of the present invention to provide something that can perform stable data separation even when the amplitude of an input video signal fluctuates.

FIG. 1 shows an example of a data signal superimposed on a video signal. The data position is inserted into an appropriate horizontal scanning interval, for example, in a vertical blanking interval.
Although there are many signal systems, we will use "NRZ" here for simplicity. As shown in Figure 1, the pedestal section is set to 0 [logic level "L"] and 75IRE is set to 1 [logic level "H"], but the actual signal passes through many filters, etc., so harmonics It does not lose its ingredients and becomes dull. Therefore, the threshold value for determining "0" and "1" needs to be set to the center (37.5 IRE in this case) of the amplitude of the data signal (75 IRE in this case) in order to perform stable data detection. Conventionally, the method shown in FIG. 2 has been used to set this threshold value.

In FIG. 2, reference numeral 1 denotes a clamp circuit that keeps the pedestal level of the input video signal constant. The signal that has passed through this clamp circuit 1 is sent to a voltage comparator 2.
to go into. On the other hand, a reference voltage for voltage comparison is provided to the voltage comparator 2 from the threshold value setting circuit 3. The threshold value setting circuit 3 provides a preset fixed threshold value to the amplitude of the input signal. The voltage comparator 2 detects data by comparing the data in the video signal with a set threshold value. To explain this operation in more detail, first,
The input video signal is clamped by the clamp circuit 1 to a voltage that always serves as a constant reference voltage at the pedestal section. A threshold value is set based on this reference voltage. In the example of the data signal, it is necessary to set the threshold value to a voltage corresponding to 37.5 IRE of the input video signal with respect to the input amplitude of the video signal. If the voltage of the data signal is higher than this threshold voltage, the voltage comparator 2 determines that it is "1". Conversely, if the level is low, “0”
It is determined that

However, such conventional methods have the following two problems. First of all, the set threshold is a fixed value based on the input video signal amplitude, and therefore, once the input signal amplitude is determined, the voltage comparator 2 is adjusted accordingly so that it operates in an optimal state. There is a need. Second, since the threshold set in this way is fixed, if the amplitude of the input signal fluctuates, the threshold will deviate from its optimal value, and in severe cases, data detection may become impossible. , the stability of data signal detection is compromised due to variations in input signal amplitude.

The above two points are that the data detection circuit lacks generality in terms of functionality, and it is a major loss due to misreading or inability to detect.

The present invention provides a sync chip voltage detection circuit for detecting a sync chip voltage of an input video signal, a pedestal voltage detection circuit for detecting a pedestal voltage of the input video signal, a detection voltage of the sync-up voltage detection circuit, and a detection voltage of the pedestal voltage detection circuit. and a voltage comparator that detects a data signal from the input video signal using the threshold of the output of the threshold setting circuit as a reference. It is characterized by detecting the sync chip voltage from the pedestal of the input video signal and setting the threshold value of the data included in the input video signal based on this, so even if the amplitude of the input video signal fluctuates, the data remains stable. The effect of separation can be obtained.

An embodiment of the present invention will be described below with reference to FIGS. 3 and 4.

FIG. 3 shows a block diagram of the present invention. An input video signal 13 containing a data signal enters a sync chip voltage detection circuit 5 and a pedestal voltage detection circuit 6, where the sync chip level and pedestal level are detected. Then, in the threshold value setting circuit 4, a threshold value is set based on these two levels. The threshold value is then input to the voltage comparator 2 together with the input video signal, and a data signal is detected.

As shown in FIG. 1, the input video signal 13 has a horizontal synchronizing signal, the level of the sync chip at the tip thereof is -40 IRE, and the data amplitude is a constant value of 75 IRE. Therefore, even if the amplitude of the video signal changes, the ratio does not change. Additionally, the data signal threshold
Since it is 37.5IRE, the - of the sink chip level
It can be seen that the ratio with 40IRE is constant. Therefore, from the input video signal 13, the voltages of the sync chip and pedestal are detected by the sync chip voltage detection circuit 5 and the pedestal voltage detection circuit 6, respectively, and in addition to the threshold value setting circuit 4, the threshold value is determined based on the voltages of the pedestal and the sync chip. You'll know what to do.

For example, in the case of the example shown in FIG. 1, if the ideal threshold voltage is V _S , the pedestal voltage is V _P , and the sink chip voltage is V _ST , V _S is determined as follows.

V _S =V _P +(V _P -V _ST )×37.5/40... FIG. 4 shows an example of the threshold value setting circuit 4. Terminal 7 is connected to pedestal voltage detection circuit 6, terminal 8 is connected to sink chip voltage detection circuit 5, and terminal 12 is connected to voltage comparator 2. 9 is an operational amplifier circuit, and the inverting input terminal (-) has the following as shown in the figure.
Resistors 10 and 11 are connected. Now terminal 7,
The voltages of 8 and 12 are respectively V ₇ , V ₈ , V ₁₂ , and the resistors 10,
Letting the values of 11 be R ₁₀ and R ₁₁ respectively, V ₁₂ can be found as follows.

V ₁₂ = V ₇ + (V ₈ - V ₇ ) x - R ₁₁ / R ₁₀ = V ₇ + (V ₇ - V ₈ ) x R ₁₁ / R ₁₀ ... From Figure 4, in this second equation, V ₇ is the pedestal voltage V _P , V ₈ is the sink chip voltage V _ST ,
Since V ₁₂ corresponds to the threshold voltage V _S , each
Replace V _P , V _ST , V _S and set the ratio of R ₁₀ and R ₁₁ to 40:
37.5, the second equation is equal to the first equation. That is, it is possible to obtain an ideal threshold value using the circuit shown in FIG.

In the second equation, the voltage V ₁₂ found corresponds to the ideal threshold value, regardless of the amplitude of the input video signal 13, and therefore, according to the embodiment of the invention shown in FIG. There is no need to adjust the threshold value according to the amplitude of the voltage comparator 2, and even if the amplitude of the input video signal changes, the ideal threshold value is always maintained by the voltage comparator 2.
data signals can be stably separated.

In the second equation, the element that causes an error in the threshold is
It is the ratio of R ₁₀ and R ₁₁ , not its absolute value. Therefore, it can be said that the embodiment of the present invention is suitable for an IC circuit in which the relative ratio between resistors can be highly accurate.

As described above, according to the present invention, a data signal can be stably separated even if the amplitude of an input video signal fluctuates with a simple configuration.
It is more practical than the conventional one.

[Brief explanation of the drawing]

Figure 1 is a waveform diagram showing a data signal superimposed on a video signal, Figure 2 is a configuration diagram of a conventional data separation circuit, Figure 3 is a configuration diagram of an embodiment of the present invention, and Figure 4 is a threshold setting. FIG. 2 is a specific configuration diagram of a circuit. 2...Voltage comparator, 4...Threshold value setting circuit, 5...Sync chip voltage detection circuit, 6...Pedestal voltage detection circuit, 9...Operation amplifier, 10, 11...Resistor, 13
...Input video signal.

Claims (1)

[Scope of Claims] 1. A sync-up voltage detection circuit that detects a sync-chip voltage of an input video signal, a pedestal voltage detection circuit that detects a pedestal voltage of the input video signal, and a detection voltage of the sync-chip voltage detection circuit and a pedestal voltage detection circuit. a threshold setting circuit that receives the detection voltage of the sync chip as an input and determines a data separation threshold using the sync chip voltage from the pedestal level as a reference; and a voltage comparator that detects a data signal from the input video signal using the threshold of the output of the threshold setting circuit as a reference. A data signal separation circuit included in a video signal. 2. Claim No. 2 characterized in that the threshold value setting circuit is constituted by an operational amplifier having two inputs, a pedestal voltage and a sync chip voltage, and an external element connected to this operational amplifier to determine the desired threshold value by a ratio. A data signal separation circuit included in the video signal according to item 1.