KR20120065879A - Eliminate apparatus of camera signal deviation - Google Patents

Abstract

PURPOSE: A camera signal deviation removing apparatus with improved producing ability is provided to improve the EMI performance of a camera module. CONSTITUTION: A camera signal deviation removing apparatus comprises the following: a delay unit(22) providing the minor delay to each terminal of output signals outputted from an image signal processor(10), and producing uniformly delayed output signals; and an amplification unit(23) uniformly amplifying the delayed output signals using the terminals, and compensating the delay loss. The amplification unit outputs the compensated output signals.

Description

Eliminate apparatus of camera signal deviation

The present invention relates to an apparatus for removing camera signal deviation.

Recently developed display products such as monitors and LCDs are used to display images on TVs, notebooks, and desktop computers.

These display products have recently been equipped with a camera to enable video communication, such as Voice over Internet Protocol (VoIP).

To this end, cameras for VoIP are being developed to enable high-end video calls by going a step further from video communication between a conventional PC video camera and a mobile terminal.

This camera system is a service technology that converts data and video into internet protocol data packets to enable video calls in a general Internet network.

The camera system can be used simultaneously by several people through the Internet, which is excellent in scalability and cheaper than a conventional phone, and is a technology that is likely to be expanded in the future.

Such a video communication camera system is designed to have a longer distance between a camera and a monitor than a conventional camera system.

Generally, the 8-bit image signal output from the camera has a very small delay variation, but there are cases in which a deviation occurs due to a large design margin, depending on the application.In this case, a deviation occurs due to a large design margin. In this case, the design margin is reduced due to the noise amplification and the increase of the impedance, which lowers the freedom of design and makes the robust design difficult.

In order to solve this problem, a design capable of compensating the signal output is essential, and the design is needed to improve not only the steel construction system but also the EMI performance that has been used previously.

Accordingly, an aspect of the present invention is to provide a camera signal deviation removing apparatus for improving EMI performance of a camera module and correcting a deviation of an output signal in order to solve the above problems.

The present invention for achieving the above object, the delay unit for providing a different delay for each terminal of the output signal output from the image signal processor to form a uniformly delayed output signal; And an amplifier configured to amplify the output signal delayed by the delay unit differently for each terminal, thereby compensating and outputting a delay loss.

The present invention may also include a first data buffer connected to the image signal processor and outputting to the monitor processor after temporarily storing an output signal output from the image signal processor when it is turned on; A second data buffer connected between the image signal processor and the delay unit and temporarily storing an output signal output from the image signal processor and outputting the temporary output signal to the delay unit; And a controller for measuring a deviation of an output signal output from the image signal processor to turn on the first data buffer when the deviation is less than or equal to a certain degree, and to turn on the second data buffer when the deviation is greater than or equal to a certain degree. do.

The delay unit may be a plurality of EMI filters connected to respective terminals of the image signal processor to provide a different delay for each terminal of an output signal output from the image signal processor to form a uniformly delayed output signal. It is done.

In addition, the EMI filter of the present invention includes a resistor connected in series with respect to an input terminal to which the output signal output from the image signal processor and an output terminal to which the signal is output; And a capacitor connected between the output terminal and ground.

The amplifier may include a plurality of operational amplifiers having a non-inverting terminal connected to an output terminal of the delay unit and an inverting terminal connected to ground; And a plurality of resistors connected between the non-inverting terminal and the output terminal.

In addition, the present invention measures the deviation for each bit of the output signal output from the image signal processor to turn off the op amp of the bit when the deviation is less than a certain degree, and if the deviation is more than a certain degree to turn off the op amp of the bit It further includes a control unit for turning on.

Prior to this, the terms or words used in this specification and claims are not to be interpreted in a conventional and dictionary sense, and the inventors may appropriately define the concept of terms in order to best describe their own invention. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention based on the principle that the present invention.

According to the present invention as described above, improve the EMI performance of the camera module and correct the deviation of the output signal to improve the mass production and development in the camera development.

In addition, according to the present invention, it is possible to maximize the durability of the camera module by optimizing the camera module design to minimize the EMI evaluation value and to remove noise due to signal deviation.

In addition, according to the present invention, by optimizing the EMI filter and the OP amplifier, it is possible to minimize the emission amount of the EMI noise, and to improve the safety of the camera module by minimizing the signal deviation.

In addition, according to the present invention, by integrating the EMI filter and the OP amplifier in the camera module, to maximize the margin of the value constituting the EMI filter, maximizing the range that can adjust the signal deviation to compensate in a wider range than the existing camera module By enabling this, performance can be improved and design freedom can be improved.

1 is a configuration diagram of an image processing system to which a camera signal deviation elimination apparatus according to a first embodiment of the present invention is applied.
FIG. 2 is an exemplary view illustrating a signal output from the image signal processor of FIG. 1.
3 is a circuit diagram of a delay unit and an amplifier of the camera signal deviation elimination apparatus according to the first embodiment of the present invention.

The objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments in conjunction with the accompanying drawings. It should be noted that, in the present specification, the reference numerals are added to the constituent elements of the drawings, and the same constituent elements are assigned the same number as much as possible even if they are displayed on different drawings. In addition, in describing the present invention, if it is determined that the detailed description of the related known technology may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of an image processing system to which a camera signal deviation elimination apparatus according to a first embodiment of the present invention is applied.

Referring to FIG. 1, the camera signal deviation elimination apparatus 20 of the present invention is located between the image signal processor 10 of the camera and the monitor processor 30 of the monitor.

In general, the image processing system has a structure in which the image signal processor 10 and the monitor processor 30 are directly connected to each other. Accordingly, the length between the image signal processor 10 and the monitor processor 30 is short, so that delays in data transmission are reduced. Does not occur.

However, a camera used for video communication, which is the subject of the present invention, has a very long distance between the image signal processor 10 of the camera and the monitor processor 30 of the monitor, thereby increasing the impedance and increasing the impedance of the image signal. Non-uniformity in the output signal of the processor 10 causes a delay of the signal. That is, when an 8-bit signal is output from the image signal processor 10, for example, some signals have a large delay and others have a small delay, resulting in an uneven delay.

 Accordingly, the present invention provides a delay in the output signal output from the image signal processor 10 by placing the camera signal deviation removing device 20 between the image signal processor 10 of the camera and the monitor processor 30 of the monitor. Provide an output signal with a uniform delay.

In addition, the present invention amplifies and outputs the delayed signal to eliminate the attenuation of the signal when providing a delay to the signal output from the image signal processor 10 of the camera to eliminate the attenuation due to the signal delay.

To this end, the camera signal deviation elimination apparatus 20 of the present invention includes two data buffers 21a and 21b, a delay unit 22, an amplifier 23 and a controller 24.

The data buffers 21a and 21b temporarily store and output a camera signal output from the image signal processor 10.

At this time, the first data buffer 21a temporarily stores the camera signal output from the image signal processor 10 when the control unit 24 is turned on, and outputs the signal to the monitor processor 30. The buffer 21b temporarily stores the camera signal output from the image signal processor 10 when it is turned on under the control of the controller 24, and then outputs it to the delay unit 22.

The delay unit 22 receives an output signal output from the image signal processor 10 from the second data buffer 21b and provides a different delay for each bit to generate and output a uniformly delayed output signal.

For example, as illustrated in FIG. 2, an 8-bit signal output from the image signal processor 10 does not have the same delay as that of the PCLK signal, and is output with a deviation range of about 4 ns.

As a result, the deviation between the PCLK signal and the data signal input to the monitor processor 30 of the monitor may be further increased, and the hold time is reduced.

This increases the likelihood that this will act as a noise factor in the actual monitor output image, and degrades the monitor's image quality.

To solve this problem, the delay unit 22 of the present invention provides a different delay for each bit of the output signal output from the image signal processor 10.

As an example, it can be seen that the outputs of the terminals D1 and D3 of FIG. 2 are more delayed than D0, D2, and D4 to D7.

Accordingly, the delay unit 22 of the present invention delays the signals of the non-delayed D0, D2, and D4 to D7 terminals so that the output signals of the D1 and D3 terminals which have already been delayed and the delayed output signal are generated uniformly.

The delay unit 22 is implemented as an EMI filter, and since the EMI filter uses an RC circuit, the degree of delay is limited by the capacitance of the capacitor and the capacitance of the resistor, and thus a width for correcting the delay may not be large. In order to overcome the limitations of the delay unit 22, the amplifier 23 is provided at the rear end of the delay unit 22.

The amplifier 23 amplifies and outputs an output signal delayed by the delay unit 22 to correct signal attenuation caused by delay by the delay unit 22.

When the amplifier 23 compensates for the attenuation of the output signal output from the delay unit 22 as described above, the width of the delay correction is corrected by correcting the signal level drop caused by the resistor constituting the EMI filter of the delay unit 22. Will be improved. This improves design freedom by resolving output variations of the image signal processor 10 and provides an advantageous environment in terms of performance.

On the other hand, the control unit 24 receives the camera signal output from the image signal processor 10 and measures the degree of delay (deviation) for each bit (terminal).

As a result of measuring the degree of delay of the camera signal, the controller 24 turns on the first data buffer 21a and turns on the second data buffer 21b when it is unnecessary to generate an output signal uniformly delayed through additional delay. The signal output from the image signal processor 10 is turned off to be transmitted to the monitor processor 30 without passing through the delay unit 22 and the amplifier 23.

On the contrary, when the delay level of the camera signal is measured, the controller 24 turns off the first data buffer 21a and turns off the second data buffer 21b when the output signal needs to be uniformly delayed through additional delay. By turning on, the signal output from the image signal processor 10 is transmitted to the monitor processor 30 via the delay unit 22 and the amplifier 23.

At this time, the controller 24 measures the delay degree bit by bit (by terminal) with respect to the camera signal output from the image signal processor 10, so that the delay time to be delayed by the delay unit 22 is short. In the case where the resistance value of C1) becomes small and the delay loss is not large accordingly, the corresponding amplification element (op amp as described below) of the amplifying unit 23 is turned off and then passed through the amplifying unit 23. Instead, the camera signal of the corresponding bit (terminal) is transmitted to the monitor processor 30.

3 is a circuit diagram of a delay unit and an amplifier of the camera signal deviation elimination apparatus according to the first embodiment of the present invention.

Referring to FIG. 3, the circuits of the delay unit and the amplification unit of the apparatus for canceling camera signal deviation according to the first embodiment of the present invention include a plurality of EMI filters 22-1 to 22-8 constituting the delay unit 22. And a plurality of operational amplifier stages 23-1 to 23-8 constituting the amplifier 23.

The plurality of EMI filters 22-1 to 22-8 include an input terminal through which an output signal output from the image signal processor 10 is received, a plurality of resistors R1 connected in series with respect to an output terminal through which the signal is output, A plurality of capacitors C connected between the output terminal and the ground form an RC resonant circuit.

The plurality of EMI filters 22-1 to 22-8 implemented by such a plurality of resonant circuits have a plurality of resonant frequencies. In addition, the resistance (R1) value can be adjusted (adjustable in the range of approximately 120 ~ 150ohm when the capacitor (C) is 22pF), it is possible to sensitively adjust the delay.

Next, the plurality of operational amplifiers 23-1 to 23-8 may include a plurality of operational amplifiers OP having an inverting terminal connected to an output terminal of the EMI filters 22-1 to 22-8 and a non-inverting terminal connected to ground. AMP) and a plurality of resistors R2 connected between the inverting terminal and the output terminal, and amplify and output the signal input from the inverting terminal.

 As such, the operational amplifier stages 23-1 to 23-8 amplify and output the signals output from the EMI filters 22-1 to 22-8 to be generated by the EMI filters 22-1 to 22-8. Delay loss can be compensated.

Although the above has been illustrated and described with respect to the preferred embodiments of the present invention, the present invention is not limited to the above-described specific embodiments, it is common in the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

10: image signal processor 20: camera signal deviation cancellation device
21a, 21b: data buffer 22: delay unit
22-1 to 22-8: EMI filter 23: Amplifier
23-1 to 23-8: operational amplifier stage 24: control unit
30: monitor processor

Claims (6)

A delay unit for providing a different delay for each terminal of the output signal output from the image signal processor to form a uniformly delayed output signal; And
And amplifying unit amplifying the output signal delayed by the delay unit for each terminal to compensate for the delay loss and outputting the amplification unit.
The method according to claim 1,
A first data buffer connected to the image signal processor and temporarily storing an output signal output from the image signal processor and outputting the output signal to the monitor processor;
A second data buffer connected between the image signal processor and the delay unit and temporarily storing an output signal output from the image signal processor and outputting the temporary output signal to the delay unit; And
And a controller for measuring a deviation of an output signal output from the image signal processor to turn on the first data buffer when the deviation is less than or equal to a certain degree, and to turn on the second data buffer when the deviation is greater than or equal to a certain degree. Camera signal deviation cancellation device.
The method according to claim 1,
The delay unit may be a plurality of EMI filters connected to respective terminals of the image signal processor to provide a different delay for each terminal of the output signal output from the image signal processor to form an evenly delayed output signal. Removal device.
The method according to claim 3,
The EMI filter may include a resistor connected in series to an input terminal to which an output signal output from the image signal processor is input and an output terminal to which the signal is output; And
Camera signal deviation cancellation device consisting of a capacitor connected between the output terminal and the ground.
The method according to claim 1,
The amplifier may include a plurality of operational amplifiers having a non-inverting terminal connected to an output terminal of the delay unit and an inverting terminal connected to ground; And
Camera signal deviation elimination device, characterized in that consisting of a plurality of resistors connected between the non-inverting terminal and the output terminal.
The method according to claim 5,
Measuring a bit-by-bit deviation of the output signal output from the image signal processor to turn off the op amp of the bit when the deviation is less than a certain degree, and if the deviation is more than a certain degree further comprises a control unit for turning on the op amp of the bit Camera signal deviation cancellation device comprising.

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