JPS63187778A - Image transmitter - Google Patents

Abstract

PURPOSE:To normalize the level of a picture signal by detecting the size of a synchronizing signal in an input or output picture signal so as to generate an error signal and controlling a gain for the input picture signal to keep the level of the output picture signal constant. CONSTITUTION:When a synchronizing signal detecting means 21 detects the size of a synchronizing signal in the input or output picture signal of an image transmitter, and error detecting means 22 compares the size of the detected synchronizing signal with a fixed reference value and generates the error signal. Then, a gain control means 23 controls the gain of the image transmitter according to the error signal and keeps the level of the output picture signal constant. Even if the level of the input picture signal varies, the level of the picture signal in the input of a transmitter is compensated, so that the picture signal in a normal level can be equivalently obtained in a subsequent circuit.

Description

[Detailed Description of the Invention] [Summary] The magnitude of a synchronization signal in an input or output image signal is detected to generate an error signal, and the gain for the input image signal is controlled thereby to keep the level of the output image signal constant. The level of the image signal at the output of the image transmission device is equalized so as to maintain the level of the image signal at the output of the image transmission device.

[Industrial application field]

The present invention relates to an image signal transmission device, and more particularly to an image transmission device that can automatically adjust and equalize the level of a transmitted image signal.

When transmitting an image signal through a transmitting device such as a signal processing device, if the human power level of the transmitting device does not fall within the standard value range, normal operation of the transmitting device cannot be guaranteed, so the input image signal level must be adjusted to the same level. It is necessary to perform automatic adjustment so that the

The automatic adjustment of the input image signal level in this case is required to operate reliably with a simple circuit configuration.

[Conventional technology]

Conventionally, the level of the input image signal in such cases has been adjusted by manually adjusting the level of the input image signal to a predetermined value, or by semi-fixedly adjusting the gain at the input stage of the image transmission device. I was worried.

[Problem that the invention seeks to solve]

However, this method of manually adjusting the input image signal level requires adjustment work when installing the equipment, which is complicated and requires additional labor.

[Means for solving problems]

The present invention is intended to solve the problems of the prior art, and has the basic configuration shown in FIG. , and the gain control means 23.

The synchronization signal detection means 21 detects the magnitude of the synchronization signal in the input or output image signal of the image transmission device. The error detection means 22 detects the magnitude of the detected synchronization signal as a constant reference value. A comparison is made to generate an error signal.

The gain control means 23 controls the gain of the image transmission device according to this error signal to keep the output image signal level constant.

[For production]

The magnitude of the synchronization signal in the image signal is 1V compared to the all-white signal.
In the case of pp, it is set to be approximately 0.3V. In the image transmission device of the present invention, the magnitude of the synchronization signal in the input or output image signal is detected and compared with a reference value to generate an error signal, and the gain for the input image signal is controlled according to this error signal. Since the level of the output image signal is kept constant, even if the level of the input image signal fluctuates, the level of the image signal at the output of the image transmission device can be equalized to the normal level. .

〔Example〕

FIG. 2 shows an embodiment of the present invention, in which 1 is a variable attenuator for analog signals, 2 is a clamp circuit (
CLP), 3 is an analog-digital converter (A/D)
, 4 is a digital processing circuit, 5 is a pedestal level detection section, 6 is a synchronization signal base level detection section, 7.8 is a subtracter, 9 is a quantization section, 10 is a protection circuit, 1) is a flip
Flop 12 is an adder.

In FIG. 2, the input image signal passes through a variable gain adjuster 1, whose level is adjusted, and then is input to a clamp circuit 2, where the DC component of the input image signal is reproduced.
The synchronization signal is extracted. The analog-to-digital converter 3 converts the DC-regenerated image signal into a digital signal. The digital processing circuit 4 performs processing such as band compression on the digitized image signal and sends the output signal to the transmission path.

On the other hand, the pedestal level detection section 5 is composed of a flip-flop, and latches the pedestal level from the digitalized image signal in accordance with the extracted synchronization signal.

The synchronization signal base level detection unit 6 also includes a flip-flop, and the subtracter 7 latches the base level of the horizontal synchronization signal from the digitalized image signal according to the extracted synchronization signal. The base level of the horizontal synchronizing signal detected by the synchronizing signal base level detecting unit 6 is subtracted from the pedestal level detected by the detecting unit 5 to generate an output. This output value represents the magnitude of the synchronization signal of the input image signal. The subtracter 8 is the subtracter 7
The output is generated by subtracting a certain reference value, for example 50/256, from the output value.

This output value is the magnitude of the synchronization signal in the input image signal and the normal magnitude of the synchronization signal, which is 50/256 (
This is a signal indicating an error with respect to the voltage (approximately 0.3V). The quantization unit 9 quantizes the output value of the subtracter 8, for example, every 1 dB.

The protection circuit 10 performs processing to remove short-term changes in the output of the quantizer 9. For example, by providing protection for 100 m5, fluctuations in the output signal that occur within a short period of time within 100 m5 are ignored.

Flip-flop 1) and adder 12 form an integrating circuit, and the output of protection circuit 10 is integrated and held in flip-flop 1). The output of the flip-flop 1) is applied to a variable attenuator 1 to control its attenuation amount. As a result, the level of the input image signal to the clamp circuit 2 changes. In this way, the variable attenuator 1 based on the error signal
The level of the input image signal to the digital processing circuit 4 is kept constant by performing feedback control through the control.

FIG. 3 shows another embodiment of the invention, in which the same parts as in FIG. 2 are designated by the same numbers, 13 is a fixed attenuator, and I4 is a gain setting circuit.

In FIG. 3, the input image signal is given a constant attenuation through a fixed attenuator 13, and then input to the clamp circuit 2, where the DC component of the input image signal is reproduced, and a synchronization signal is extracted. The signal is digitized in an analog-to-digital converter 3.

As a result, in the same manner as in the case of FIG. Normal value of signal 50/2
56 is detected and quantized by a quantizer 9,
Furthermore, the protection circuit 10 allows the
Generates protected output.

The gain setting circuit 14 is provided on the output side of the analog-to-digital converter 3, and receives the output of the protection circuit 10 as a control signal to control its gain by feedforward control and converts the output into a digitized image signal. change the level of The gain setting circuit 14 is constituted by, for example, a read-only memory (ROM), and holds in advance an output level that changes according to a control signal with respect to an input level, and controls the output level of the analog-to-digital converter 3 to that of the protection circuit 10. It is changed according to the output and outputted to the digital processing circuit 4. As a result, the level of the input image signal to the digital processing circuit 4 is kept constant.

As described above, in the image transmission device of the present invention, the level of the image signal at the output of the image transmission device can be kept constant by detecting the magnitude of the synchronization signal in the input image signal and performing control based on this.

Furthermore, when the level of the input image signal changes beyond the controllable range and the level of the detected synchronization signal increases or decreases beyond a certain dark value,
It is also possible to notify of an abnormality by detecting this and generating an alarm.

〔Effect of the invention〕

As explained above, according to the present invention, even if the level of the input image signal changes in the image transmission device, the level of the image signal at the input of the transmission device is compensated and made constant, so that in subsequent circuits, , the same processing is performed as if the image signal were input isometrically at a normal level.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing the basic configuration of the present invention, and FIGS. 2 and 3 are diagrams each showing an embodiment of the present invention. 1--Variable attenuator 2-Clamp circuit (CLP) 3-Analog-digital converter (A/D) 4-Digital processing circuit 5-Pedestal level detection section 6...Synchronization signal base level detection section 7.8 - Subtracter 9 - Quantization unit IO... - Protection circuit 1) - Flip-flop 12 - Adder 13 - Fixed attenuation switch 14 - Gain setting circuit

Claims (4)

[Claims] (1) In an image transmission device, a synchronization signal detection means (21) for detecting the magnitude of a synchronization signal in an input or output image signal of the image transmission device, and comparing the magnitude of the detected synchronization signal with a reference value. and a gain control means (23) for controlling the gain of the image transmission device according to the error signal to keep the output image signal level constant. Features of the image transmission device. (2) The synchronization signal detection means (21) detects the magnitude of the synchronization signal based on the difference between the pedestal level of the synchronization signal and the base level of the synchronization signal. The image transmission device according to item 1. (3) The gain control means (23) is a
3. The image transmission apparatus according to claim 1, further comprising gain adjustment means on the input side of the /D converter, and feedback control is performed using the error signal. (4) The gain control means (23) is a
3. The image transmission apparatus according to claim 1, further comprising a gain adjustment means on the output side of the /D converter, and performs feedforward control using the error signal.