KR101638245B1 - Camera having function of adaptive output signal adjustment and signal adjustment method therefor - Google Patents

Abstract

According to a preferred embodiment of the present invention, there is provided a camera capable of adjusting an adaptive output signal, comprising: a signal processing unit for processing an image signal output from an image sensor; A serializer for serializing a signal output from the signal processor; A driving unit for driving a signal output from the serialization unit; A detector for detecting an electrical signal of a cable connected to the driving unit; And a control unit for controlling an operation of the signal processing unit or the driving unit using the electric signal detected by the detection unit, thereby adjusting an electric signal output from the driving unit.
According to a preferred embodiment of the present invention, there is provided a camera capable of adjusting an adaptive output signal, and a method of adjusting the output signal of the camera, including adjusting an output of a driving unit in accordance with an electrical signal detected by a cable connected to a driving unit Signal transmission is possible by using cables of various lengths.

Description

[0001] CAMERA HAVING FUNCTION OF ADAPTIVE OUTPUT SIGNAL ADJUSTMENT AND SIGNAL ADJUSTMENT [0002] METHOD THEREFOR [0003]

The present invention relates to a camera capable of adjusting an adaptive output signal and a method of adjusting the signal. More particularly, the present invention relates to a camera that processes an image signal output from an image sensor and serializes the signal, To an adaptive output signal adjustment enabling a signal transmission and a signal adjustment method thereof.

1 is a configuration diagram of a general moving image camera 100. As shown in FIG.

1, a general moving image camera 100 includes an image sensor 110 for capturing an image, a signal processing unit 120 for processing a video signal output from the image sensor 110, a signal processing unit 120 A serializer 130 for serializing a signal output from the serializer 130 and a driver 140 driving a signal output from the serializer 130.

The output signal of the driving unit 140 may be transmitted using a cable to another device such as a DVR.

It is necessary to transmit a signal at a bit rate of 2.97 Gb / s when transmitting according to the Full HD specification using a cable for HD-SDI and at a bit rate of 1.485 Gb / s when transmitting according to the HD specification. However, if the length of the cable becomes longer, the amplitude of the signal becomes lower, and the transmission of the correct signal can not be performed.

An object of the present invention is to solve the technical problems as described above, and it is an object of the present invention to provide a method of detecting an electric signal of a cable connected to a driving unit and adjusting an output of a driving unit according to the detected electric signal, And to provide an adaptive output signal adjustment capable of signal transmission using the camera and its signal adjustment method.

According to an aspect of the present invention, there is provided a camera including: a signal processing unit for processing an image signal output from an image sensor; A serializer for serializing a signal output from the signal processor; A driving unit for driving a signal output from the serialization unit; A detector for detecting an electrical signal of a cable connected to the driving unit; And a control unit for controlling an operation of the signal processing unit or the driving unit using the electric signal detected by the detection unit, thereby adjusting an electric signal output from the driving unit.

Specifically, the control unit may include: a first controller for controlling an operation of the driving unit to pre-emphasize a voltage output from the driving unit using the electric signal detected by the detecting unit; A second controller for controlling a swing level of a voltage output from the driving unit using the electric signal detected by the detecting unit; A third controller for controlling a bit rate of a signal output from the signal processing unit using the electrical signal detected by the detection unit; Or more.

That is, the control unit may control the driving unit to pre-emphasize the voltage output from the driving unit when the voltage level of the electric signal detected by the detecting unit falls within the first range. The controller may control the driving unit to increase the swing level of the voltage output from the driving unit when the voltage level of the electric signal detected by the detecting unit falls within the second range. The control unit controls the signal processing unit so that the bit rate of the signal output from the signal processing unit decreases when the voltage level of the electric signal detected by the detection unit falls within the third range.

In summary, the control unit controls the driving unit to pre-emphasize a voltage output from the driving unit when the voltage level of the electric signal detected by the detecting unit is equal to or less than a first predetermined value and exceeds a second predetermined value, Controls the driving unit to increase the swing level of the voltage output from the driving unit when the voltage level of the electric signal detected by the detection unit is equal to or less than a second predetermined value and exceeds a third predetermined value, And controls the signal processing unit so that the bit rate of the signal output from the signal processing unit decreases when the voltage level of the electric signal is equal to or less than the third predetermined value.

According to a preferred embodiment of the present invention, there is provided a signal adjustment method comprising the steps of: (a) processing an image signal output from an image sensor; (b) serializing the signal output from the step (a); (c) driving a signal output from the step (b); (d) detecting an electric signal of a cable connected to the signal output from the step (c); And (e) adjusting the output signal from step (c) using the signal detected from step (d).

Specifically, the step (e) includes: pre-emphasizing a voltage of a signal output from the step (c) using a signal detected from the step (d); Controlling the voltage swing level of the signal output from the step (c) using the signal detected from the step (d); Or controlling the bit rate of the signal output from the step (b) using the signal detected from step (d); Or more.

That is, in the step (e), when the voltage level of the electric signal detected in the step (d) falls within the first range, the voltage output from the step (c) may be controlled to be pre-emphasized. In the step (e), when the voltage level of the electric signal detected in the step (d) falls within the second range, it is preferable to control the swing level of the voltage output from the step (c) to increase . The step (e) may further include controlling the bit rate of the signal output from the step (b) to decrease when the voltage level of the electric signal detected in the step (d) falls within the third range do.

If the voltage level of the electric signal detected in step (d) is equal to or less than the first predetermined value and exceeds the second predetermined value, the voltage output from step (c) The control is performed so that the swing level of the voltage output from the step (c) increases when the voltage level of the electric signal detected in the step (d) is equal to or less than the second predetermined value and exceeds the third predetermined value And controlling the bit rate of the signal output from the step (b) to decrease when the voltage level of the electric signal detected in the step (d) is equal to or less than a third predetermined value.

According to a preferred embodiment of the present invention, there is provided a camera capable of adjusting an adaptive output signal, and a method of adjusting the output signal of the camera, including adjusting an output of a driving unit in accordance with an electrical signal detected by a cable connected to a driving unit Signal transmission is possible by using cables of various lengths.

FIG. 1 is a block diagram of a general moving image camera 100. FIG.
2 is a configuration diagram of a camera 200 capable of adjusting an adaptive output signal according to a preferred embodiment of the present invention.
3 is an output waveform after pre-emphasis according to a preferred embodiment of the present invention;
4 is an explanatory diagram of an operation range of the first controller 261, the second controller 262 and the third controller 263 according to a preferred embodiment of the present invention.
5 is a flowchart of a signal adjustment method using a camera 200 capable of adaptive output signal adjustment according to a preferred embodiment of the present invention.

Hereinafter, a camera capable of adjusting an adaptive output signal according to embodiments of the present invention and a signal adjustment method thereof will be described in detail with reference to the accompanying drawings.

It should be understood that the following embodiments of the present invention are only for embodying the present invention and do not limit or limit the scope of the present invention. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

2 is a configuration diagram of a camera 200 capable of adjusting an adaptive output signal according to a preferred embodiment of the present invention.

2, the camera 200 capable of adjusting the adaptive output signal according to the preferred embodiment of the present invention includes an image sensor 210, a signal processing unit 220, a driving unit 240, a detection unit (not shown) 250 and a control unit 260. As shown in FIG.

The image sensor 210 serves to capture an image, and may be a CMOS image sensor 210 or a CCD sensor. Next, the signal processing unit 220 is generally called an image signal processor (ISP). The image signal from the image sensor 210 may be corrected to improve the image quality. In recent years, It also serves to correct the video signal to suit the purpose.

The serialization unit 230 serializes or serializes a signal output from the signal processing unit 220. The driving unit 240 serves to drive a signal output from the serialization unit 230. Initially, the output of the driving unit 240 outputs a signal in accordance with a predetermined initial condition.

The detecting unit 250 detects the electrical signal of the cable connected to the driving unit 240. Detection of the electric signal of the cable by the detection unit 250 may be performed at any time or may be performed at the power-on of the camera 200 or according to predetermined conditions periodically. The detection of the electrical signal of the cable by the detecting unit 250 can be realized by directly measuring the impedance of the actual cable or indirectly measuring the impedance by measuring the voltage signal. When the detected voltage signal is small, it means that the impedance is large, which means that the transmission environment is poor such as the length of the connected cable is long. In addition, the detection of the electric signal of the cable by the detecting unit 250 may be directly measured from the actual cable or indirectly measured using the output signal of the driving unit 240 while the cable is connected.

The control unit 260 controls the operation of the signal processing unit 220 or the driving unit 240 using the electrical signal detected by the detecting unit 250 so as to finally adjust the electrical signal output from the driving unit 240 It plays a role. The operation of the control unit 260 may be performed at any time, or may be performed according to predetermined conditions at the time of turning on the power of the camera 200 or periodically.

The configuration and operation of the control unit 260 of the present invention will now be described in detail.

The controller 260 controls the operation of the driving unit 240 so as to pre-emphasize the voltage output from the driving unit 240 using the electric signal detected by the detecting unit 250. [ A second controller 262 for controlling the swing level of the voltage output from the driving unit 240 using the electric signal detected by the first detecting unit 250 or the second controller 262, And a third controller 263 for controlling a bit rate of a signal output from the signal processing unit 220 using the electrical signal detected by the signal processor 220.

Although the first controller 261, the second controller 262 and the third controller 263 are all for finally adjusting the output signal of the driving unit 240, the first controller 261 and the second controller 262 Can control the operation of the driving unit 240 while the third controller 263 controls the operation of the signal processing unit 220. [

3 is an output waveform after pre-emphasis according to a preferred embodiment of the present invention. Although the differential signal is illustrated in FIG. 3, the differential signal may be output as a single signal. The pre-emphasis means that the SN (Signal to Noise) ratio is deteriorated at a high frequency. To improve this, pre-emphasis means that modulation is strongly applied to a high frequency in advance at the transmission side.

The control unit 260 of the present invention may achieve the purpose of the signal transmission of the present invention under the control of one of the first controller 261, the second controller 262 and the third controller 263, The second controller 262 and the third controller 263 may be selectively used according to the detection voltage level of the cable connected to the driving unit 240 in order to transmit the signal by the longer cable under the condition that the first controller 261, So that the output signal of the driving unit 240 can be adjusted. That is, the control by the second controller 262 and the control by the third controller 263 are changed from the control by the first controller 261 to the control by the third controller 263 in accordance with the detection voltage level of the cable, It is possible to move to the control with a stronger level to achieve the object.

4 is an explanatory diagram of the operation range of the first controller 261, the second controller 262 and the third controller 263 according to a preferred embodiment of the present invention.

4, when the voltage level of the electric signal detected by the detector 250 falls within the first range, the camera 200 according to the preferred embodiment of the present invention controls the first controller 261 And controls the driving unit 240 to pre-emphasize the voltage output from the driving unit 240. [

When the voltage level of the electric signal detected by the detector 250 falls within the second range, the camera 200 according to the preferred embodiment of the present invention controls the driving unit 240 by the second controller 262, It is preferable to control the driving unit 240 so that the swing level of the voltage output from the driving unit 240 increases.

When the voltage level of the electric signal detected by the detector 250 falls within the third range, the third controller 263 controls the camera 200 according to the preferred embodiment of the present invention. The signal processing unit 220 is controlled so that the bit rate of the video signal, specifically the video signal, is reduced. As the bit rate of the video signal decreases, the video signal is compressed. In addition, the decrease of the bit rate of the video signal by the third controller 263 may be implemented by changing the bit rate of the video signal from the current operation bit rate to one or more set bit rates.

The first controller 261 of the control unit 260 of the present invention controls the drive unit 240 when the voltage level of the electric signal detected by the detection unit 250 is less than or equal to the first predetermined value, And controls the driving unit 240 so as to pre-emphasize the voltage output from the driving unit 240. The second controller 262 of the control unit 260 of the present invention controls the drive unit 240 when the voltage level of the electric signal detected by the detection unit 250 is equal to or less than the second predetermined value and exceeds the third predetermined value. And controls the driving unit 240 so that the swing level of the voltage output from the driving unit 240 increases. The third controller 263 of the controller 260 of the present invention determines whether the voltage level of the electric signal detected by the detector 250 is lower than a third predetermined value, And controls the signal processing unit 220 to decrease the rate.

After the bit rate is reduced by the third controller 263 of the control unit 260 of the present invention, the detection unit 250 detects the electric signal of the cable connected to the driving unit 240, The first controller 261, the second controller 262 and the third controller 263 according to the level of the signal. That is, the output signal of the driving unit 240, which was initially 2.97 Gb / s of the Full HD class, is reduced to 1.485 Gb / s, which is the HD level, by the third controller 263, The second controller 262 and the third controller 263 to adjust the output signal of the driving unit 240. The first controller 262, the second controller 262, For example, after the output signal of the driving unit 240, which was initially 2.97 Gb / s of the Full HD class, is reduced to 1.485 Gb / s, which is the HD level, by the third controller 263 and then the EX- The bit rate may be adjusted to 270 Mb / s.

5 is a flowchart of a signal adjustment method using a camera 200 capable of adjusting an adaptive output signal according to a preferred embodiment of the present invention.

5, the signal adjustment method of the present invention includes a step S10 of processing a video signal output from the image sensor 210, a step S20 of serializing a signal output from step S10, a step S20 A step S30 of detecting an electric signal of a cable connected to the signal outputted from the step S30, and a step S40 of detecting an electric signal from the step S30 using the signal detected in the step S40. (S50). Initially, the output of step S30 preferably outputs the signal in accordance with a predetermined initial condition.

More specifically, in operation S50, the signal detected in operation S40 is used to pre-emphasize the voltage of the signal output from operation S30. In operation S51, a signal detected in operation S40 is used to perform a pre-emphasis operation (S52) of controlling the voltage swing level of the output signal, or (S53) controlling the bit rate of the signal output from step S20 using the signal detected in step S40 .

The step S50 of the present invention may accomplish the purpose of the signal transmission of the present invention by the control of one of steps S51, S52 and S53. However, in order to transmit a signal over a longer cable under various environmental conditions, , S52, and S53 may be selectively used according to the voltage level to adjust the output signal of step S30. In other words, by moving from the control in step S51 to the control in step S52 and the control in step S53 in accordance with the detection voltage level of the cable, the control is shifted from the control of the weak level to the control of the stronger level to achieve the object .

Specifically, when the voltage level of the electric signal detected in step S40 is within the first range, step S51 is performed so as to pre-emphasize the voltage output from step S30. If it is determined that the voltage level of the electric signal detected in step S40 is within the second range, it is preferable that the swing level of the voltage output from step S30 is increased. The step S53 is characterized in that when the voltage level of the electric signal detected in the step S40 belongs to the third range, the bit rate of the signal outputted from the step S20 is controlled to decrease. Specifically, the decrease of the bit rate of the video signal in step S53 may be implemented by changing the bit rate of the video signal from the current operation bit rate to one or more set bit rates.

If the voltage level of the electric signal detected in step S40 is equal to or less than the first predetermined value and exceeds the second predetermined value, step S51 is performed to pre-emphasize the voltage output from step S30. In step S52, if the voltage level of the electric signal detected in step S40 is equal to or less than the second predetermined value and exceeds the third predetermined value, control is performed such that the swing level of the voltage output from step S30 is increased. If the voltage level of the electric signal detected in step S40 is equal to or less than the third predetermined value, step S53 is performed so that the bit rate of the signal output from step S20 is decreased.

In step S50 of the present invention, after the bit rate is decreased in step S51, step S40 is performed, and one of steps S51, S52, and S53 is operated according to the level of the detected electric signal. That is, the output signal of the driving unit 240, which was initially 2.97 Gb / s of the Full HD class, is reduced to 1.485 Gb / s, which is the HD level by the step S53, and then the step S40 is performed again. The output signal of step S30 may be adjusted by one of steps S30 and S30.

As described above, according to the camera 200 and the signal adjusting method capable of adjusting the adaptive output signal according to the preferred embodiment of the present invention, the electric signal of the cable connected to the driving unit 240 is detected, By controlling the output of the driving unit 240 according to the signal, it is possible to transmit signals using cables of various lengths.

100: General video camera
200: Adaptive output signal adjustable camera
110, 210: image sensor 120, 220: signal processor
130, 230: serialization unit 140, 240:
250: Detection unit 260:
261: first controller 262: second controller
263: third controller

Claims (12)

A signal processor for processing a video signal output from the image sensor;
A serializer for serializing a signal output from the signal processor;
A driving unit for driving a signal output from the serialization unit;
A detector for detecting an electrical signal of a cable connected to the driving unit; And
And a controller for controlling an operation of the signal processing unit or the driving unit using the electrical signal detected by the detecting unit to adjust an electrical signal output from the driving unit,
Wherein,
Controls the driving unit to pre-emphasize a voltage output from the driving unit when a voltage level of the electric signal detected by the detecting unit is equal to or less than a first predetermined value and exceeds a second predetermined value,
Controls the driving unit to increase the swing level of the voltage output from the driving unit when the voltage level of the electric signal detected by the detecting unit is equal to or less than a second predetermined value and exceeds a third predetermined value,
Wherein the control unit controls the signal processing unit so that the bit rate of the signal output from the signal processing unit decreases when the voltage level of the electric signal detected by the detection unit is equal to or less than a third predetermined value. delete delete delete delete delete delete delete delete delete delete delete

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