JPH0815479B2 - Video signal processing circuit for endoscope - Google Patents

Description

The present invention relates to a video signal processing circuit for an endoscope in which a patient circuit side and a secondary circuit side are insulated from each other.

[Prior Art] Recently, by inserting an elongated insertion part into a body cavity,
BACKGROUND ART An endoscope is widely used which is capable of observing a device with a built-in body cavity or the like and performing various kinds of medical treatments by using a treatment tool inserted in a treatment tool channel as necessary.

In addition, various electronic endoscopes of the type in which a solid-state image pickup device such as a charge-coupled device (CCD) is provided at the tip of the insertion portion as image pickup means and image information is taken out as an electric signal photoelectrically converted have been proposed.

By the way, in the case of a medical electronic endoscope, the circuit section (patient circuit) inserted into the patient's body and the circuit section (secondary circuit) connected to peripheral devices such as a monitor must be insulated. I won't.

FIG. 4 shows an example of a general configuration of a conventional electronic endoscope.

In this figure, an image of a subject 1 is formed on a solid-state imaging device 3 by an imaging optical system 2, and a signal photoelectrically converted by the solid-state imaging device 3 is sent to a video signal processing circuit 5 through a cable 4. . This video signal processing circuit 5
Is connected to a peripheral device such as a monitor, the video signal is transmitted to the isolation circuit 6 inside the video signal processing circuit 5.
Therefore, the patient circuit side and the secondary circuit side need to be insulated from each other.

As such an isolation method, the output of the solid-state imaging device 3 is directly passed through an isolation transformer, or in the case of CCD, for example, a signal obtained by delaying the original signal by half the pixel sampling period and an original signal. There is a method of sampling the effective signal part through the isolation transformer for the signal that takes the difference. In addition, there is a method in which a video signal is AM or FM modulated and is isolated through a transformer, a photo coupler, or the like.

[Problems to be Solved by the Invention] However, when the patient circuit and the secondary circuit are isolated from each other, the output of the solid-state imaging device has a low frequency component in the signal, so that the signal should be directly passed through the isolation transformer. I can't. Therefore, some signal processing means such as modulation must be used to transmit the signal from the patient circuit to the secondary circuit through the isolation element. However, when signal processing such as modulation is performed, the circuit scale becomes large and there is a high possibility that noise will be mixed.

[Object of the Invention] The present invention has been made in view of the above circumstances, and provides a video signal processing circuit for an endoscope that is less likely to mix noise and can perform insulation between a patient circuit side and a secondary circuit side. It is intended to be provided.

[Means for Solving Problems] According to the present invention, an output signal from an image pickup unit serving as a patient circuit for picking up an endoscopic image is input, and a video signal processing circuit for an endoscope that processes the output signal as a video signal. In, A / which converts the output signal of the imaging means into a digital signal
A D conversion circuit, a video signal system isolation circuit to which a signal digitally converted by the A / D conversion circuit, which is insulated from the input side and the output side, is input, and isolation processing is performed by the video signal system isolation circuit. A D / A conversion circuit that converts the digital signal
An analog signal processing circuit that outputs a video signal based on a signal analogized by the D / A conversion circuit, a pulse for driving a patient circuit provided on the input side of the video signal system isolation circuit, and the Timing for transmitting a signal for synchronizing the timing with the pulse for driving the secondary circuit provided on the output side in the video signal system isolation circuit by the isolation process on the patient circuit side and the secondary circuit side And a pulse isolation circuit.

[Operation] In the video signal processing circuit for an endoscope according to the present invention, the signal from the image pickup means is converted into a digital signal by the conversion means, and then transmitted to the secondary circuit system by the isolation means to be connected to the patient circuit side. Insulation from the secondary circuit side is performed.

Embodiments Embodiments of the present invention will be described below with reference to the drawings.

1 and 2 relate to the first embodiment of the present invention.
FIG. 1 is a block diagram showing the structure of an image signal processing circuit for an endoscope, and FIG. 2 is a side view showing the whole electronic endoscope apparatus.

As shown in FIG. 2, the electronic endoscope 11 is provided with an elongated and flexible insertion portion 12, for example, and a large-diameter operation portion 13 is connected to the rear end of the insertion portion 12. From the rear end of the operation portion 13, a flexible universal cord 14 is extended laterally,
A connector 15 is provided at the tip of the universal cord 14. The connector 15 is connected to a connector receiver 18 of a video processor 16 having a light source device and a video signal processing circuit built therein. A color monitor 17 is connected to the video processor 16.

On the distal end side of the insertion portion 12, a hard distal end portion 19 and a curving portion 20 adjacent to the distal end portion 19 and capable of curving backward are sequentially provided. Further, the operation section 13 includes a bending operation knob.
21 is provided, and the bending portion 20 can be bent vertically / horizontally by rotating the bending operation knob 21. Further, the operation portion 13 has an insertion opening communicating with a treatment tool channel provided in the insertion portion 12.
22 are provided.

As shown in FIG. 1, the distal end portion 19 is provided with an image forming optical system 2, and a solid-state image pickup device 3 as an image pickup means is arranged at an image forming position of the image forming optical system 2. . A cable 4 for signal transmission / reception is connected to the solid-state imaging device 3,
The cable 4 is inserted into the insertion portion 12 and the universal cord 14 and connected to the connector 15.
Then, via the connector 15 and the connector receiver 18,
Video signal processing circuit built in the video processor 16
It is designed to be connected to 31. When a simultaneous imaging method is used, a color filter that transmits red (R), green (G), blue (B), or other color light is arranged in a mosaic pattern on the front surface of the solid-state imaging device 3. Are provided. Also, the tip
A light distribution lens 25 is provided at 19, and a light guide 26 is continuously provided at the rear end side of the light distribution lens 25. This light guide 26 includes the insertion portion 12 and the universal cord.
It is inserted into 14 and connected to the connector 15. The illumination light emitted from a light source device (not shown) built in the video processor 16 is emitted from the light guide 26.
The light is incident on the incident end of the
The light is guided to the light source 19, is emitted from the emission end, and is irradiated onto the subject 1 via the light distribution lens 25. When a frame sequential system is used as the color imaging system, a light source device that emits field sequential illumination light such as R, G, B is used as the light source device.

The return light from the subject 1 is imaged on the solid-state imaging device 3 by the imaging optical system 2. This subject image is
It is adapted to be photoelectrically converted by the solid-state image pickup device 3 and sent as a video signal to the video signal processing circuit 31 through the cable 4. In the video signal processing circuit 31, the video signal is first subjected to noise reduction measures such as correlated double sampling in the noise reduction circuit 32. The output of the noise reduction circuit 32 is sampled and held for each pixel. The output of the noise reduction circuit 32 is adapted to be A / D converted by the A / D converter 33 at the pixel read cycle. That is, the information of each pixel of the solid-state image sensor 3 is converted into digital information by this A / D converter 33.
The video signal converted into the digital signal is transmitted from the patient circuit to the secondary circuit through the isolation element 34. This isolation element 34
Examples include photo couplers and pulse transformers. The digital signal transmitted to the secondary circuit by the isolation element 34 is subjected to predetermined signal processing by the digital signal processing circuit 35, and then converted into an analog signal by the D / A converter 36. ing. This analog signal is input to the analog signal processing circuit 37, is subjected to predetermined signal processing in this analog signal processing circuit 37, and the video signal from this analog signal processing circuit 37 is displayed on the color monitor.
It is output to 17 mag. The digital signal processing circuit 35 includes a memory function used, for example, to freeze an image.

Also, a patient circuit pulse generator 38 connected to the noise reduction circuit 32 and the A / D converter 33, and a digital signal processing circuit 35.
The D / A converter 36 and the secondary circuit pulse generator 39 connected to the analog signal processing circuit 37 are connected via a timing pulse isolation element 40. The timing pulse isolation element 40 The timing of the various pulses generated from the patient circuit pulse generator 38 and the secondary circuit pulse generator 39 is adjusted by the signal passed through.

The present embodiment is applicable to both the frame sequential system and the simultaneous system by making the digital signal processing circuit 35, the analog signal processing circuit 37, etc. compatible with the frame sequential system or the simultaneous system. . Further, in the case of the frame sequential method, the digital signal processing circuit 35 may be provided with a frame memory corresponding to each color of R, G and B.

As described above, according to the present embodiment, the video signal from the solid-state image sensor 3 is converted into a digital signal for isolation, so that noise is not mixed in and the image quality is not deteriorated. Insulation can be performed between the circuit side and the secondary circuit side.

Further, since the signal after passing through the noise reduction circuit 32 is A / D converted, noise is further reduced.

FIG. 3 is a block diagram showing the configuration of an endoscope video signal processing circuit according to the second embodiment of the present invention.

The present embodiment is an example of a case where a simultaneous type is used as a color image pickup system, and a color filter array is provided on the front surface of the solid-state image pickup device 3.

In this embodiment, the output of the solid-state image sensor 3 is the cable 4
Through the video signal processing circuit 41. In this video signal processing circuit 41, the output signal of the solid-state image sensor 3 is subjected to noise reduction measures in a noise reduction circuit 42 and is gamma corrected by a gamma correction circuit 43. The output of the γ correction circuit 43 is input to the luminance signal generation circuit 44 and the color difference signal generation circuit 45, and the luminance signal Y is generated by the luminance signal generation circuit 44.
Color difference signals RY, B- which are serialized by the color difference signal generation circuit 45
Y is generated. These luminance signal Y and color difference signal RY,
Each of BY is converted into a digital signal by the A / D converter 46. This digital signal is transmitted from the patient circuit to the secondary circuit through the isolation element 47. The digital signal transmitted to the secondary circuit passes through the digital signal processing circuit 48 and is converted by the D / A converter 49 into the analog luminance signal Y and the color difference signals RY and BY. This analog luminance signal Y and color difference signals RY, B
-Y is input to the analog signal processing circuit 50, subjected to predetermined signal processing, and then output. Further, the patient circuit pulse generator connected to the noise reduction circuit 42, the γ correction circuit 43, the luminance signal generation circuit 44, the color difference signal generation circuit 45, and the A / D converter 46.
51, a secondary signal pulse generator 52 connected to the digital signal processing circuit 48, the D / A converter 49, and the analog signal processing circuit 50.
Is connected through the timing pulse isolation element 53, and is generated from the patient circuit pulse generator 51 and the secondary circuit pulse generator 52 by the signal passing through the timing pulse isolation element 53. The timings of various pulses to be generated are adjusted.

 Other configurations are similar to those of the first embodiment.

According to this embodiment, since the band of the color difference signal is about 0.5 MHz, the sampling frequency of the color signal can be made lower than that of the luminance signal, and the capacity of the memory etc. in the digital signal processing circuit 48 can be made small. You can

 Other functions and effects are similar to those of the first embodiment.

The present invention is not limited to the above-mentioned embodiments, and for example,
In the first and second embodiments, the isolation element 3
4,47 is provided immediately after the A / D converters 33,46,
The isolation elements 34 and 47 may be provided at any position in the digital signal section between the A / D converters 33 and 46 to the D / A converters 36 and 49.

As described above, according to the present invention, the signal from the image pickup means is converted into a digital signal and then transmitted to the secondary circuit system by the isolation means. There is an effect that the patient circuit side and the secondary circuit side can be insulated.

[Brief description of drawings]

1 and 2 relate to a first embodiment of the present invention, and FIG. 1 is a block diagram showing a configuration of a video signal processing circuit for an endoscope,
FIG. 2 is a side view showing the entire electronic endoscope apparatus, FIG. 3 is a block diagram showing the configuration of an image signal processing circuit for an endoscope of a second embodiment of the present invention, and FIG. 4 is a conventional electronic device. It is a block diagram showing composition of an endoscope apparatus. 2 ... Imaging optical system, 3 ... Solid-state image sensor 11 ... Electronic endoscope 31 ... Video signal processing circuit 32 ... Noise reduction circuit, 33 ... A / D converter 34 ... Isolation element 36 ...... D / A converter

Claims (1)

[Claims] 1. A video signal processing circuit for an endoscope, which receives an output signal from an image pickup means as a patient circuit for picking up an endoscopic image, and processes the output signal as a video signal. , Convert to digital signal A /
The D conversion circuit, the input side and the output side are insulated, and the video signal system isolation circuit to which the signal digitally converted by the A / D conversion circuit is input, and the isolation processing by the video signal system isolation circuit A D / A conversion circuit for converting the digital signal converted into an analog signal, an analog signal processing circuit for outputting a video signal based on the signal analogized by the D / A conversion circuit, and the video signal system isolation circuit A signal for matching the timing of the pulse for driving the patient circuit provided on the input side with the pulse for driving the secondary circuit provided on the output side of the video signal system isolation circuit. For timing pulse transmission by transmitting isolation processing between the patient circuit side and the secondary circuit side. The endoscopic video signal processing circuit comprising: the Deployment circuit.