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Sony-hd - Provides SONY FCB camera modules and secondary development, 17g, Xinhai Building, Nanshan Avenue, Shenzhen, Guangdong (2025)

20/10/2023

SONY integrated camera zoom focus difference

Fixed as the name implies, prime focus is a lens with a fixed focal length, a single focus segment, or a single field of view, and no zoom function.

The design of the prime lens is much simpler than that of the zoom lens, but the general zoom lens in the zoom process will have an impact on the imaging, and the biggest advantage of the prime lens relative to the zoom machine is that the focus speed is fast, the imaging quality is stable. Many digital cameras with a prime lens shoot clear and stable images of moving objects, very accurate focus, delicate picture, very slight sense of grain, metering is also more accurate. This is also the case with SONY’s all-in-one movement.

Zoom lenses can change the shooting range by changing the focal length without changing the shooting distance, so it is very conducive to picture composition. Zoom lens actually includes prime focus lens, most of which are zoom lenses in SONY integrated movement. For example, the famous SONY FCB-EV7520 are widely used, like this one is 12 times digital zoom (360 times after using optical zoom).

Both depend on the environment and the situation, if the remote environment zoom is the best, close-range environment requirements on focus, it depends on the use of the user’s friends environment and requirements.

20/10/2023

SONY FCB-EW9500H How to effectively restore color for camera images?

In nature, according to the human naked eye can feel the light band range, divided into visible light and invisible light. The wavelength range of visible light is 400nm~780nm, the wavelength range of invisible light is 10nm~400nm, 780nm~0.1mm.

01 Color of visible light

In nature, the white light (sunlight) perceived by the human eye is actually made up of many different colors of light, and each color of light has a different frequency.

Since human eyes have cone cells that perceive RGB three different colors, color in optics can be divided into “three primary colors” : Red, Green, and Blue. The wavelength range of each primary color is also different (approximate range) :

● R: 620-780 nm

● G: 500-560 nm

● B: 430-470 nm

02 Restore the color of the image

On the research and application of light and image, the camera industry emerges at the moment. However, camera Sensor (CCD and CMOS) can only accept the intensity of light, but cannot perceive the color of light, that is, cannot identify the frequency or band of light. Therefore, if CCD and CMOS are directly used, the output can only be gray image, as shown in the figure below:

In order to get the color image that our eyes are used to as much as possible, and output color to restore more real image as much as possible, people put forward two solutions:

Scheme 1: Bayer array scheme

This relatively low cost is proposed by foreign expert bayer:

By adding an RGB filter array like the one below in front of the sensor, each filter point can only transmit one color, and make each color filter point correspond to the lower pixel point one by one.

Through the above method, the above colorless gray image can be processed into the red, green and blue intensity map as shown in the following figure. It can be seen that the initial image is slightly green, which is not what people want.

Next is to guess color, that is, according to the gray values of a pixel and its surrounding red, green and blue, calculate the RGB of the pixel by interpolation. There are many interpolation algorithms. The simplest is to assign the color value of the adjacent pixel to the pixel, or assign the gray value of the color in the neighborhood to the pixel after averaging. There are many algorithms (refer to Bayer filter interpolation for specific algorithms).

According to the ideal situation, each pixel has 3 values, but in fact, R and B only have 1/4 respectively, and G has 1/2. Therefore, in the images obtained by bayer pattern, only 1/3 of the contents are actually true, and the rest are obtained according to the prior knowledge interpolation. This also shows that there is a lot of redundant information in natural images.

Scheme 2: Three filter schemes

This cost is relatively high, can ensure the degree of color restoration to a greater extent.

The principle is to use a splitter or prism to divide the light passing through the lens into three beams and then reach three sensors. Each sensor has a different filter corresponding to the RGB three colors, so as to ensure the accuracy of the colors collected by the camera.

01 Application camera

SONY FCB-EW9500H uses a 1/1.8 Starvis™ CMOS 4.17 megapixel image sensor with an effective pixel of about 4.17 million. It uses 7 petal aperture to reduce glare/halo and has excellent optical axis consistency to effectively restore the color of the image.

20/10/2023

FCB – EV7520 | SONY camera zoom and autofocus

SONY FCB-EV7520, autofocus camera movement, equipped with 30x optical zoom and Fl.6 aperture bright lens (optical zoom + digital zoom = 360x), and has autofocus, which is also the SONY camera movement more excellent two features, as SONY’s official authorized distributor Xuanzhong technology, Have the obligation to explain in detail for SONY movement users.

First, the zoom of FCB-EV7520

The SONY FCB-EV7520 uses a 30x optical zoom lens and has a digital zoom function that can zoom up to 360x.

1. FCB-EV7520 optical zoom

The optical zoom is 30x,f= 4.3 mm to 129 mm(f 1.6 to f 4.7), and the horizontal viewing Angle is approximately 63.7 degrees (wide end) to 2.3 degrees (distal end).

2. FCB-EV7520 digital zoom

Digital zoom magnifies the center of the subject by expanding each image in both vertical and horizontal directions. When using a 360x zoom. The number of effective image elements in each direction is reduced to 1/12, and the overall resolution decreases.

3. FCB-EV7520 zoom mode

Using standard mode using variable mode, there are 8 levels of zoom speed.

In these standard and variable modes, the scaling operation must be stopped.

(1) Direct mode

Set the zoom location to enable “Fast” to move to the specified location. Digital zoom supports zoom mode, combination mode off, and individual mode.

(2) Combination mode

This is the scaling method that existed before. After the optical zoom has reached its highest level the camera switches to digital zoom mode.

(3) Separation mode

In this mode, optical and digital zoom can be operated separately. You can use digital zoom magnification at any time from any level of optical magnification. About the continuous zoom position reply ZoomDirect mode, or according to the preset zoom, when the continuous zoom position reply is set to On through the command, the FCB-EV7520 outputs zoom position data. Continue to zoom position Reply :y0 07 04 69 0p 0p 0q 0q 0q 0q FF.

Pp: D- Zoom position

Qqqq: Zoom position

Two. FCB-EV7520 auto focus

The focus of the FCB-EV7520 has the following modes:

1. FCB-EV7520 auto focus mode

In autofocus mode, FCB-EV7520 has a minimum focus distance of 10mm at the wide end and 1200mm at the distal end, independent of the digital zoom. The Autofocus (AF) function automatically adjusts the focus position to maximize the high-frequency content of the image in the center measurement, taking into account the components of high brightness and strong contrast.

(1) Normal autofocus mode, which is the normal mode of autofocus operation.

(2) Interval autofocus mode A mode used for autofocus movement at a specific time interval. Using the Set time command, the time interval between the autofocus motion and the time interval between stops can be set in increments of one second. The initial setting for both is set to 5 seconds.

(3) Zoom Trigger mode When the zoom position is changed, it becomes AFmode during the preset value (the initial setting is 5 seconds). Then it stopped.

2. FCB-EV7520 autofocus sensitivity

You can set the switch of FCB-EV7520 autofocus sensitivity.

(1) Normal sensitivity

Achieve maximum focus speed quickly. Use this mode when photographing a frequently moving object. Often this is the most appropriate model.

(2) Low sensitivity

It can improve the stability of the focus. When the lighting level is low, the autofocus function does not work even if the brightness changes, helping to output a stable image.

3. FCB-EV7520 manual focus mode

Manual focus has two modes: standard mode and variable mode. Standard mode focus is fixed rate. The variable mode has eight speed levels. In these standard and variable modes, you need to send StopComirrtarid to stop the zoorii operation.

4. FCB-EV7520 One-click trigger mode

When a trigger command is sent, the lens is moved to adjust the focus of the subject. The focus lens then remains in position until the next trigger command is entered.

The near limit can be set in the range of 1000 (infinity) to F000(10 mm), initial setting: D000h (30 cm).

20/10/2023

Why do most SONY autofocus cameras use LVDS display interfaces?

Since the beginning of the HD digital series, SONY autofocus cameras have uniformly used LVDS display interface, why all switch to LVDS display interface? What are the advantages of LVDS interface for SONY autofocus cameras?

1. What is LVDS?

LVDS, namely Low Voltage Differential Signaling, is mainly a differential signal technology with low power consumption, low bit error rate, low crosstalk and low radiation. The core technology of LVDS mainly adopts a very low voltage swing high-speed difference to transmit data, and realizes point-to-point or point-to-many connection. The transmission medium is generally pcb connection or balance cable.

The LVDS output interface uses a very low voltage swing (about 350mV) to transmit data by differential on two PCB traces or a pair of balanced cables, that is, low-voltage differential signal transmission. Using LVDS output interface, the signal can be transmitted at the rate of several hundred Mbit/s on the differential PCB line or balanced cable. Due to the use of low voltage and low current drive mode, low noise and low power consumption are achieved.

Because LVDS differential signal technology reduces the concern for noise, a lower signal voltage amplitude can be used. This feature is very important and makes it possible to improve data transfer rates and reduce power consumption. Low driving amplitude means that the data can be reversed more quickly.

Since the driver is in constant current source mode, the power consumption almost does not change with frequency, and the power consumption of a single channel is very low. Therefore, this technology can provide very high data transmission rates as long as the length of a pair of parallel transmission lines is consistent enough and a good matching terminal impedance technology is provided at the receiving end to reduce the generation of reflected signals.

2. Working principle of LVDS

The source driver consists of a constant current source (usually about 3.5mA, the maximum is not more than 4mA) driving a pair of differential signal lines. The receiver itself at the receiver has a high DC input impedance, so almost all of the drive current flows through the 100Ω terminal matching resistor and generates a voltage of about 350mV at the receiver input. When the source drive state reverses, the direction of the current flowing through the matching resistor changes, resulting in a change of high and low logic state at the receiver.

In order to adapt to the common mode voltage changes in a wide range, generally, the LVDS receiver input stage also includes an automatic level adjustment circuit, which adjusts the common mode voltage to a fixed value, followed by a Schmitt trigger, and in order to prevent the Scdhmitt trigger instability, the design has certain hysteresis characteristics, The Schmitt post stage is the differential amplifier.

3. Technical advantages of LVDS

(1) High-speed transmission capacity: the transmission capacity of LVDS can reach up to 2Gbps;

(2) Low power consumption: LVDS is realized by a CMOS technology, which can effectively provide a low static power consumption state. In short, the power consumption of LVDS is a constant state, which is convenient to reduce the power consumption of the system.

(3) Strong anti-noise ability: the noise of LVDS is coupled to a pair of differential lines in a common mode, and subtracted from them at the same time. Then it can eliminate the noise very well;

(4) Strong anti-interference ability: differential transmission mode has strong anti-interference ability;

Why SONY autofocus camera to use LVDS display interface, its advantages are visible, using LVDS interface, SONY autofocus camera has high-speed transmission ability, low power consumption, strong anti-noise ability, anti-interference ability and other advantages. It is widely used in security monitoring, medical treatment, UAV, video conference, robot, intelligent transportation and other fields.

07/10/2023

What is the optical zoom of a SONY autofocus camera?

In fact, not only SONY autofocus cameras have optical magnification, the vast majority of cameras have, so what is optical magnification? How is it different from digital zoom? Today, Shenzhen Xuan Exhibition technology will discuss with you.

Optical zoom is generated by changing the position of the lens, the object and the focus. When the image plane moves in the horizontal direction, the Angle of view and focal length will change, and the further scene will become clearer, which makes people feel like the feeling of object progression. It zooms in the same way as a 35mm camera, by moving the lens of the camera to zoom in and out of the scene. The larger the optical zoom, the further away the scene can be photographed. Most of today’s digital cameras have optical zoom between 2x and 5x, with some having 10x optical zoom effects. Digital zoom is actually the electronic magnification of the picture, the original CCD image sensor on part of the pixels using “interpolation” processing means to enlarge, the CCD sensor pixels using interpolation algorithm to enlarge the picture to the whole picture. However, through this zoom method, the scene is enlarged, but its clarity will be reduced to a certain extent, which is a bit like the touch screen on some cameras to enlarge the local function, so it seems that digital zoom is not very practical significance.

In SONY autofocus camera, the optical zoom multiple has 10 times, 20 times, 30 times three, three presented the effect is also different, for example, FCB-EV7100 uses 10 times optical zoom lens, FCB-ER8530 uses 20 times optical zoom lens, FCB-EV7520,FCB-EW9500H and FCB-EV9520L are all 30x optical zoom lenses. If it is used for aerial UAV, it needs to be accurate. A suitable magnification of 20 times is enough, in fact, 10 times or 30 times is also OK. Optical zoom is an important part of the movement, high quality video captured by it, it is an indispensable part of the camera.

07/10/2023

SONY FCB-ER8530 with HDMI 4K interface board, Digital electronic vaginoscope Solution solution (III)

Electronic colposcopy is the fourth generation of high-tech digital imaging system integrating modern digital electronic technology and computer technology. Through the high-definition camera to enlarge the examination site, the computer real-time clear image of the examination site displayed on the computer monitor, its high quality light source and high magnification of the clear image can identify very small lesions. The doctor can observe the lesion on the computer monitor, which is easy to operate and can be used for both diagnosis and treatment.

What practical solutions will Xuanzhan Technology, as the official authorized agent of SONY, and 15 years (by March 2023) of video product secondary development experience, bring to the electronic colposcopy industry? I hope you can find the ideal electronic colposcopy solution here.

Electronic colposcopy solution (III) : SONY FCB-ER8530 with HDMI 4K interface board

The development of electronic vaginoscope is becoming more and more mature, and many users have adopted 4K ultra HD cameras, which not only have clear and delicate pictures, but also make it easier to identify smaller lesions, but also are the future development direction.

1. Main components

(1) SONY FCB-ER8530

(2) HDMI 4K interface board

(3) LVDS line

(4) 4K ultra HD video capture card

(5) Computer (PCI/E slot)

(6) HDMI cable

2. Plan implementation

SONY FCB-ER8530 autofocus camera movement, using 1/2.5 TYPE Exmor R CMOS sensor, equipped with 20x optical zoom lens, 2160p/30fps 4K ultra HD output, advanced electronic fog through and high dynamic wide dynamic can greatly improve the picture definition, at the same time, Image stabilization, high highlight suppression and low light to achieve clear images, can also effectively improve the picture quality, SONY 4K ultra HD camera movement FCB-ER8530, is the future development direction of electronic colposcopy solutions.

FCB-ER8530 automatic focus camera movement is connected to the HDMI 4K interface board independently developed by Xuanzhang Technology through LVDS cable, and then connected to the HDMI 4K interface board and computer through HDMI cable, which can automatically identify the 4K ultra HD video format of the movement. The images captured by the FCB-ER8530 camera are instantly displayed on the computer screen, supporting 720P, 1080I, 1080P and 2160P frame rates.

After the FCB-ER8530 autofocus camera movement is connected to the HDMI 4K interface board, it can realize the functions of zoom, focus, gain and white balance through its own five-way keys or RS-485 and other control devices.

According to the user needs, the development of wired or wireless external remote control, remote control button number is not limited, can control the FCB-ER8530 camera zoom in and out of a variety of functions, in addition, can also be connected to the external foot switch, mainly to achieve the camera freeze photo and other functions.

For the secondary development of video products, Xuanzhan Technology has rich practical experience, and can assist you to formulate the electronic vaginoscope solution you want. If you think it is not perfect enough, you can first read the following two solutions before making a decision.

28/09/2023

Will CMOS sensors completely replace CCD sensors?
Sony Camera Information 101 Views
According to the statistics of Xuan Zhan technology, SONY auto focus camera from the earlier series has been used CMOS sensor, then, the use of CMOS sensor camera compared to CCD sensor camera what are the advantages? What are the differences and connections between them? Will CMOS sensors completely replace CCD sensors? Here’s one for you.

First, the connection between CCD and CMOS

There has been much discussion about the relative advantages of CMOS over CCD. The debate went on for a long time, but there was no clear conclusion. This is not surprising since the problem is not set in stone.

Technology and markets evolve, affecting not only what is technically feasible but also what is commercially viable. The applications of imaging devices are diverse, and the requirements and technologies are constantly changing.

First, both CCD and CMOS imaging rely on the photoelectric effect to generate electrical signals from light. Both types of imaging components work by converting light into charge and processing it into electronic signals.

In a CCD sensor, the charge of each pixel is transmitted through a very limited number of output nodes (usually only one), then converted to voltage, buffered and sent off-chip as an analog signal. All pixels are available for light capture, and the uniformity of the output, a key factor in image quality, is high.

In CMOS sensors, each pixel has its own charge-to-voltage conversion, and the sensor usually includes an amplifier, noise correction, and digitization circuit so that the chip outputs a digital signal. These other features increase the design complexity (compared to a CCD) and reduce the area available to capture light. As each pixel is transformed, the uniformity decreases.

Two, the difference between CCD and CMOS sensor

1. Imaging process

CCD and CMOS image sensor photoelectric conversion principle is the same, their main difference lies in the signal readout process is different; Because CCD has only one (or a few) output nodes unified readout, its signal output consistency is very good; However, in CMOS chip, each pixel has its own signal amplifier, which carries out charge-voltage conversion respectively, so the consistency of its signal output is poor. However, in order to read out the whole image signal, CCD requires the signal bandwidth of the output amplifier to be wide, while in CMOS chip, the bandwidth of the amplifier in each pixel is low, which greatly reduces the power consumption of the chip. This is the main reason why the power consumption of CMOS chip is lower than that of CCD. CMOS consumes only 1/8 to 1/10 of the power of CCD.

2. Cost

Since CMOS sensors adopt the most commonly used CMOS process of general semiconductor circuits, peripheral circuits (such as AGC, CDS, Timing generator or DSP, etc.) can be easily integrated into the sensor chip, so the cost of peripheral chips can be saved. CCD uses charge transfer to transmit data, as long as one pixel cannot run, it will lead to a whole row of data cannot be transmitted, so it is much more difficult to control the yield rate of CCD sensor than CMOS sensor, even experienced manufacturers are difficult to break through the 50% level within half a year of product release, therefore, CCD sensors will be more expensive to manufacture than CMOS sensors.

3. Integration

From the perspective of manufacturing process, the circuits and devices in CCD are integrated on the semiconductor single crystal material, and the process is complex. Only a few manufacturers in the world can produce CCD chips, such as DALSA, SONY, Panasonic and so on. CCD can only output analog electrical signals, which need subsequent address decoder, analog converter, image signal processor processing, and also need to provide three groups of different voltage power synchronization clock control circuits, integration is very low. CMOS, on the other hand, is built on individual pieces of material called metal oxides, the same process used to make tens of thousands of semiconductor integrated circuits such as computer chips and memory devices, making it much cheaper to produce than CCDS. At the same time, CMOS chip can image signal amplifier, signal reading circuit, A/D conversion circuit, image signal processor and controller integrated into a chip, only a chip can realize all the basic functions of the camera, high integration, chip level camera concept is generated from this. With the continuous development of CMOS imaging technology, more and more companies can provide high-quality CMOS imaging chips.

4. Speed

CCD adopts one by one photosensitive output, can only be output according to the prescribed program, the speed is slow. CMOS has multiple charge-voltage converters and row switch control, readout speed is much faster, most of the 500fps above the high-speed camera is CMOS camera. In addition, CMOS address gating switch can be randomly sampled to achieve sub-window output, and higher speed can be obtained when only sub-window image is output.

5. Noise

For CMOS sensors, it is based on the consideration of reducing power consumption, increasing integration and reducing manufacturing costs by reusing mainstream logic and memory devices. CMOS meets the above expectations in actual production, thus becoming a mature mainstream technology.

In the case of coexistence of the two, CCD sensor is superior to CMOS sensor in sensitivity, resolution, noise control and other aspects, while CMOS sensor has the characteristics of low cost, low power consumption, and high integration. By comparing different situations, we can understand the technical tradeoffs and some cost considerations, which can be selected according to our own actual needs.

FCB-EV9520L, as a new generation of SONY autofocus camera movement, will be available for sale in the first half of 2023. It is revealed that FCB-EV9520L uses STARVIS 2 CMOS sensor. What breakthroughs will it make in technology and performance in the future? We’ll see.

28/09/2023

SONY FCB-EV9500M,can not meet the strict requirements of industrial robot camera?

Industrial robot camera is not like ordinary camera can output high-definition picture, its requirements are relatively strict, industrial robot camera requirements can be used in a complex environment, and has higher image stability, high transmission capacity, high anti-interference ability and long continuous working time and other performance, Can SONY FCB-EV9500M meet the strict requirements of industrial robot cameras? Below we first analyze the specific requirements of industrial robot cameras.

1. Image stability

For industrial robots, in many cases, either the robot is running, or the detected product is running. In this process, jitter or even intense jitter is inevitable. In this case, we can only put our hope in the camera of industrial robots, requiring that the camera must have a higher image image stabilization function. In order to better help industrial robots to complete the detection task on demand.

2. Aperture

Industrial robot camera is divided into manual aperture lens and automatic aperture lens according to the aperture, the selection is mainly based on whether the ambient light is stable, the environment is stable generally choose manual aperture, a debugging OK, otherwise choose automatic aperture lens, so as to realize the automatic adjustment of picture brightness.

3. Focal length

When the focal length can be fixed, the prime lens is selected. When the prime lens shoots the object, the image on the monitor screen is also very clear. With the development of technology, zoom lens has advantages, SONY FCB-EV9500M is a zoom camera, with fast automatic zoom, no matter in any occasion can output stable, high definition picture, make up for the prime lens can not take into account the situation.

4. Chip

Industrial camera from the chip points, there are CCD and CMOS two. If the object is required to be photographed in motion, the object to be processed is also a real-time motion object, then of course the choice of CCD chip camera is appropriate. However, the production of CCD chip has been stopped at this stage, and all the new production cameras use CMOS, and CMOS chip is divided into two kinds of shutter shutter and global shutter. In the industrial camera industry, most of them use global shutter, which is also called global exposure. There will be no trailing phenomenon and no jelly effect in the shooting of fast moving objects.

5. Signal type

There are two kinds of signal types of industrial robot camera: analog signal and digital signal. Analog camera must have image acquisition card, standard analog camera resolution is very low, the acquisition is analog signal, digital acquisition card into digital signal for transmission and storage. Industrial digital cameras collect digital signals, digital signals are not affected by electrical noise, therefore, the dynamic range of digital cameras is higher, can transmit more accurate signals to the computer.

6. Frame rate of the camera

Depending on the speed to be detected, the frame rate of the camera must be greater than or equal to the detection speed, which is equal to the case that you must process the image quickly, must be completed within the exposure and transmission time of the camera.

SONY FCB-EV9500M has been on the market since 2021, known for high definition, high sensitivity and super image stabilization. It adopts 1/1.8 inch STARVIS CMOS sensor with an effective pixel of about 4.17 million. It is equipped with MIPI network control board of Xuanzhan Technology, which has low power consumption. Can effectively output 1080P50 HD digital model, more suitable for use in security monitoring, industrial robots, intelligent transportation, snapshot kiosk, police cars and video conferencing and other industries.

28/09/2023

SONY FCB-EV9500M,can not meet the strict requirements of industrial robot camera?

Industrial robot camera is not like ordinary camera can output high-definition picture, its requirements are relatively strict, industrial robot camera requirements can be used in a complex environment, and has higher image stability, high transmission capacity, high anti-interference ability and long continuous working time and other performance, Can SONY FCB-EV9500M meet the strict requirements of industrial robot cameras? Below we first analyze the specific requirements of industrial robot cameras.

1. Image stability

For industrial robots, in many cases, either the robot is running, or the detected product is running. In this process, jitter or even intense jitter is inevitable. In this case, we can only put our hope in the camera of industrial robots, requiring that the camera must have a higher image image stabilization function. In order to better help industrial robots to complete the detection task on demand.

2. Aperture

Industrial robot camera is divided into manual aperture lens and automatic aperture lens according to the aperture, the selection is mainly based on whether the ambient light is stable, the environment is stable generally choose manual aperture, a debugging OK, otherwise choose automatic aperture lens, so as to realize the automatic adjustment of picture brightness.

3. Focal length

When the focal length can be fixed, the prime lens is selected. When the prime lens shoots the object, the image on the monitor screen is also very clear. With the development of technology, zoom lens has advantages, SONY FCB-EV9500M is a zoom camera, with fast automatic zoom, no matter in any occasion can output stable, high definition picture, make up for the prime lens can not take into account the situation.

4. Chip

Industrial camera from the chip points, there are CCD and CMOS two. If the object is required to be photographed in motion, the object to be processed is also a real-time motion object, then of course the choice of CCD chip camera is appropriate. However, the production of CCD chip has been stopped at this stage, and all the new production cameras use CMOS, and CMOS chip is divided into two kinds of shutter shutter and global shutter. In the industrial camera industry, most of them use global shutter, which is also called global exposure. There will be no trailing phenomenon and no jelly effect in the shooting of fast moving objects.

5. Signal type

There are two kinds of signal types of industrial robot camera: analog signal and digital signal. Analog camera must have image acquisition card, standard analog camera resolution is very low, the acquisition is analog signal, digital acquisition card into digital signal for transmission and storage. Industrial digital cameras collect digital signals, digital signals are not affected by electrical noise, therefore, the dynamic range of digital cameras is higher, can transmit more accurate signals to the computer.

6. Frame rate of the camera

Depending on the speed to be detected, the frame rate of the camera must be greater than or equal to the detection speed, which is equal to the case that you must process the image quickly, must be completed within the exposure and transmission time of the camera.

SONY FCB-EV9500M has been on the market since 2021, known for high definition, high sensitivity and super image stabilization. It adopts 1/1.8 inch STARVIS CMOS sensor with an effective pixel of about 4.17 million. It is equipped with MIPI network control board of Xuanzhan Technology, which has low power consumption. Can effectively output 1080P50 HD digital model, more suitable for use in security monitoring, industrial robots, intelligent transportation, snapshot kiosk, police cars and video conferencing and other industries.

Sony-hd - Provides SONY FCB camera modules and secondary development

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