Ghid sisteme de supraveghere - Camere de supraveghere (EN)
Some theory
A typical CCTV camera consists of:
  • lens that collects the light coming from the scene (emitted or reflected from the objects),
  • image sensor, which converts the light into electrical signal,
  • signal processor that processes and optimizes the signal,
  • power control circuit that adapts supply voltage to the requirements of the camera circuitry.
Main components of a CCTV camera

View of the rear panel of a Sunell camera
1. Control buttons (OSD menu)
2. I/O connector
3. Power connector
4. BNC connector (VIDEO output)

Image sensors
An example of the circuitry of a CCD camera
(front view, the sensor in the middle)
Rear view (the CCD in the middle, the neighboring,
largest chip is DSP - Digital Signal Processor)
Image sensor is the heart of each camera. The array, composed of pixels, converts the incident light to an electric signal. Each pixel generates an electric charge proportional to the light intensity. The electric charge is collected and processed into an electrical signal that can be used for imaging purposes.
An image sensor is a flat matrix (array) consisting of small photosensitive elements (pixels).
The resolution of the image captured by the sensor is proportional to the number of the elements.
The original array provides no information on the color of the light, only about the light intensity. To obtain a color image, it is necessary to use special color filters placed on the array. Each pixel is covered with red, green, or blue filter, so it is effectively illuminated only by the light of the corresponding wavelengths. The camera electronics interpolates the resulting color of each pixel based on information from several neighboring pixels.
Bayer arrangement of color filters on the pixel array, with visible larger number of green fields
which is related to the perception of the human eye, most sensitive to this wavelength.
The main factor for good image quality is technology - the type, precision and features of the image sensor. Digital image processors and automatic control systems, although important, can adjust the signal only within certain limits.
CCTV cameras are currently equipped with image sensors using one of the following technologies:
  • CCD (Charged Coupled Device),
  • CMOS (Complementary Metal Oxide Semiconductor)
CCD sensors and CMOS sensors differ in the way they provide the data from the arrays. A CCD circuitry uses only one amplifier and A/D converter, whereas in a CMOS chip each pixel includes individual amplifier and A/D converter. This means more electronics near the photo diodes, resulting in lower efficiency i.e. less sensitive image sensor. However, CMOS technology is much cheaper and widely used, so there is a continuous development in this field.

Image signal processing

Currently, most image processing systems are based on digital signal processors (DSPs). The image sensor and signal processor can be compared to the eye and brain of the camera. The signal processor collects and modifies the signal generated by the sensor. The algorithms are stored in its memory, and can be activated by the user as selectable settings or functions of the camera, intended for various environmental conditions.
Sony Effio DSPs
Sony Effio is a modern platform providing images with high quality and resolution. It consists of a series of Super HAD CCD and EXview CCD sensors and Effio processors (Enhanced Features and Fine Image Processor).

There are three versions of Effio DSPs: Effio-E , Effio-S and Effio-P.
Effio-E (Entry level version) can cooperate with CCD image sensors having (horizontally) from 510 to as much as 960 pixels (the horizontal video resolution of some cameras with this DSP can exceed 650 TV lines). The DSP performs advanced operations including image analysis and image modifications, depending on the selected functions (e.g. motion detection, privacy masking, noise reduction, HLC, ATR).
Effio-S DSP has been enriched with:
  • 3D noise reduction - comparison of consecutive frames with separation of color and B/W information - more precise noise reduction with less motion blurring artifacts,
  • E-Zoom - digital zoom without losing image quality,
  • Sense-Up function (digital slow shutter speed multiplying sensitivity in extremely low-light),
  • Digital Image Stabilization (DIS),
  • more advanced ATR (Adaptive Tone Reproduction) which digitally improves image quality of scenes with very strong differences in light intensity
Effio-P is the most professional signal processor of the series. In relation to Effio-S, it supports the most advanced image sensors that scan the image twice (with different exposure parameters). This feature is called "true" WDR (Wide Dynamic Range) and effectively reduces overexposure.
Each specific Effio System consists of image sensor and two chips, AFE (Analog Front End) and DSP
The table below shows the differences between digital signal processors of Effio series:
Model"Effio-P""Effio-S""Effio-E"
IC marking
CXD4129GGCXD4130GGCXD4127GG
Supported image sensors
960H. 760H WDR/Normal CCDs960H. 760H Normal CCDs960H. 760H. 510H Normal CCDs
Image resolution
> 650 TVL> 650 TVL> 650 TVL
WDRYesNoNo
ATRATR-EXATR-EXATR
Noise reduction
2D&3D-NR2D&3D-NR2D-NR
Privacy masks
20208
E-zoomYesYesNo
Sens-upYesYesNo
Digital image stabilization
YesYesNo
HLCYesYesYes
Video motion detection
YesYesYes
OSDYes
editable
Yes
editable
Yes
Basic parameters of CCTV cameras
Image sensor size
Geometric size of the sensor, measured in inches. There are cameras with 1", 2/3", 1/2", 1/3", 1/4" and 1/6" sensors. The most popular size is 1/3". Generally, the larger sensor the higher sensitivity (within the same category).

The size of the image sensor determines the minimum size of the lens. In general, larger sensors can provide higher image quality. This is due to the possibility of implementing more pixels. At the same time, many applications require miniaturization of the camera. Currently, even 1/4" sensors can provide satisfactory results.
A miniature camera and a small coin
Sensitivity
This parameter determines the ability of a camera to generate an image in low light and is usually given in lux (lx).
The sensitivity of a camera is the minimum value of the light intensity that is necessary to produce a specified amplitude of the composite video signal with a defined value of the signal to noise ratio.
This parameter of cameras is often unreliable. Most manufacturers do not specify the conditions under which they have measured it. It is important whether the sensitivity of a camera has been measured with switched-off automatic gain control (AGC). The necessary information should include the place of measurement of the light intensity - at the image sensor or on the object (in the latter case the necessary details are also the F-number of the lens and reflectance of the object's surface).
Image resolution
The resolution of a camera specifies the ability to distinguish fine detail on the screen. It is given in TV lines (TVL) for analog cameras and in pixels for IP cameras.In terms of resolution analog cameras can be divided into:
  • low-resolution cameras: below 480 TVL,
  • standard resolution cameras: 480 ... 600 TVL,
  • cameras with increased resolution: over 600 TVL.
Signal-to-noise ratio (S/N)
This parameter informs how many times the power of the signal is higher than the power of the noise generated as a background by the camera electronics.
The measurement of the S/N value has to be preformed without any functions modifying the output signal (AGC, BLC, HLC, etc).
The noise generated by a camera cannot be totally eliminated, only minimized. Its level depends on the quality of the sensor and electronics, particularly on the amount of heat generated by the components. A lower operating temperature means less noise. For example, some cameras used in astronomy operate below -50oC.
Image detail depends not only on the resolution, but also on S/N ratio.
The quality of the image on the right is compromised by higher noise level, compared to the one on the left side .
S/N ratio higher by 3 dB means a reduction of noise by half. So, comparing cameras with S/N ratios of 48 dB and 51 dB, one can notice a marked difference in image quality, especially visible in low light conditions.
Wide Dynamic Range (WDR)
The dynamic range refers to the ability of the sensor to simultaneously capture details in the brightest and darkest areas of the scene. It is defined as the ratio of voltage corresponding to the brightest point to the lowest voltage corresponding to the darkest point. "Standard" CCD sensors can reach the ratio of 1000:1, which corresponds to 60 dB.
Image sensors with a wide dynamic range can have much higher ratios, up to 120 dB, which is 1000 times more than in the case of conventional sensors. It significantly improves the visibility of details in difficult lighting conditions, especially in the brightest and darkest areas of the image.
Such sensors are most useful when the light comes from the back of a scene (e.g. against a window), is very variable (e.g. by a door) or very different across a scene.
WDR is implemented in two ways:
One of them is used in Pixim sensors - each pixel is in fact a separate A/D converter capable of adjustment to the actual lighting conditions in this point.
In DPS™ image sensor (on the right) each pixel can be considered as a separate camera
with individual exposure parameters
The second one consists in double scanning of the sensor with diametrically different exposure parameters. The resultant image is a combination of the two frames. This is the principle of WDR system in cameras based on Effio-P DSP.
To get the resultant imaging (on the left), Effio-P processor scans the image twice
Operating temperature
For each camera the manufacturer determines the maximum range of temperature changes within which it can properly operate with the rated parameters. In the case of compact cameras the operating temperature range is usually -20oC to 45oC. Various cameras may employ special means for maintaining permissible operating conditions, such as sealed enclosures, heaters, fans, cooling systems.
Power supply
Each camera requires its rated supplying voltage, with given tolerance, and consumes the rated current.
NOTICE: At the startup of a CCTV system it is necessary to measure voltage a each camera, with full load of the system (switched-on heaters and IR illuminators), which is very important due to the fact that the auxiliary equipment can consume 2/3 of the total power supply.
The symptoms of low voltage include loss of color, a broad horizontal bar moving vertically on the screen, sync problems, or even no operation of the camera at all. Unstable power supply may significantly reduce the lifetime of cameras. Excessive load of the power source may also trigger overload protection (switch-off of the system after some time).
More on power supply for CCTV systems
Connections between cameras and DVRs/monitors
Analog cameras have BNC video outputs with 75 ohm impedance to be matched with the same impedance of the transmission medium (coaxial cables). The maximum transmission distance depends on the parameters of the cable (100-800 meters). In the case of copper cable TRISET-113 E1015_500 the maximum distance is about 600 meters.
More on video transmission in CCTV systems
AUTOMATICS IN CCTV CAMERAS
Electronic shutter
EAI or EI is, simply saying, automatic adjustment of sensitivity of the camera to illumination conditions. EAI is useful in environments with little illumination change (e.g. rooms). The advantage of electronic iris is opportunity of using simple lenses with fixed or manually set iris.
Automatic iris
AUTO IRIS (AI) is the function of a camera which can control special type of lenses in order to stabilize the amount of the light falling on the image sensor, no matter the lighting conditions are. Electronic shutter is set to 1/50 s, and the lens with AI is being closed or opened adequately to illumination intensity. Cameras with AI lenses are able to work properly even in environments with large illumination changes, where simple cameras are useless.
Cameras with AI function are equipped with special output for control of AI lens. Depending on the output signal, the lens will close or open the iris, adjusting the intensity of the light coming to the sensor. It also ensures good contrast in the whole observation area.
The control of lens with AI can be performed in two ways:
  • Video Auto Iris (Video-AI): the control signal is proportional to illumination. The camera provides signal that controls lens motor amplifier, which opens or closes the iris.
  • Lens with Video-AI has two potentiometers:
    • Level: used to set brightness level that should be kept,
    • ALC: enabling to set the reaction time to illumination changes.
  • The reaction mode can be changed from the option marked as PK or P (Peak) to A or AV (Average); in the first case the reaction is adequate to the brightest pixel in the scene, in second case - to the average level brightness of the whole image. The brightness rightness level can be changed from the value marked H (High) to L (Low).
  • DC IRIS: the lens is controlled by a DC signal from the camera. The signal directly drives the motor of the DC-IRIS lens, which opens and closes the iris.
  • In the case of DC-AI lens, both potentiometers are inside the camera. As DC lenses are cheaper, it is worth to check in advance whether the anticipated camera can control them.
AES (Automatic Electronic Shutter)
The opening time depends on the intensity of the light falling on the image sensor, within the range from 1.5 s to 1/100000 s. Some more technologically advanced cameras can have manual shutter adjustment. It should be remembered that longer exposition time increases the sensitivity of a camera, but decreases the frame rate of the image - a time lapse effect appears.
Some other functions of modern CCTV cameras:
2D-DNR (2-Dimensional Digital Noise Reduction)
Reduction of the noise resulting from a low light level, useful in the case of static scenes.
2D noise reduction improves the clarity of the image (on the right), and reduces the amount of data to save.
The lower parts show magnified fragments of the images.
3D DNR (3-Dimensional Digital Noise Reduction)
3D DNR is an innovative development of the popular DNR function. 3D filter cuts the noise caused by low light, which improves S/N ratio and effective resolution of the image. This provides a fairly clear picture in very low light conditions.
3D DNR compares subsequent image frames. If, as a result of this analysis, it finds a difference between the images resulting from noise, it removes the very small grains, replacing them with average values.
Additionally, the function can significantly reduce the amount of the data that is recorded on the hard disk of the DVR. This reduction can reach up to 70%.
AGC (Automatic Gain Control)
Automatic Gain Control is implemented in many CCTV cameras but only more advanced models enable the user to adjust its level. This adjustment allows to set optimum sensitivity in difficult light conditions. The user should realize that higher gain increases noise as well. Optimum AGC level is usually determined by trial and error approach.
AGC at 10/255
AGC at 100/255
WB (White Balance)
This is a function that influences representation by the camera all the colors, in reference to "white" color. In automatic mode, the reference point for white is the brightest point in the image. Because the camera often monitors an area where the brightest point isn't really "white", the colors in the image can be far from those the human eye considers "real". The solution to the problem is to preset colors corresponding to natural or artificial lighting, as well as to save camera settings for a "white" pattern.
Correct white balance
Incorrect white balance
BLC (Back Light Compensation)
This function is the ability of a camera to compensate the brightness of the subjects with a large amount of background light that would make it practically impossible to see any details of the subjects. Backlight compensation consists in adjusting the gain of the camera to improve exposure of the subjects that are in front of a bright light source. It allows to identify the foreground. Unfortunately, the background also becomes even brighter.
BLC off
BLC on
DIS (Digital Image Stabilization)
This function is very useful in locations exposed to vibrations (for example from passing cars or wind), especially in the case of using lenses with long focal length. The image stabilization is the result of suitable processing of consecutive frames. The algorithm detects the "global" movement that is caused by the motion of the camera and significantly reduces the blur in the image.
Sense-Up
The sensitivity of a CCTV camera can be significantly enhanced by slow shutter speed. Cameras with Sense-Up (or Digital Slow Shutter - DSS) function can be used in very low light, which is especially useful when operating at night, for example, at 0.25 lx (light intensity of the full moon in a cloudless sky).
The proper performance of that function depends on the kind of environment and the slow-down factor - e.g. x4 will allow for four times more light than normally gets into the camera. However, with fast moving objects close to the camera, it is not recommended to set this parameter above x8 - it would effect in a blurred image. The highest values (there are cameras with the maximum factor of x512) can be used only for static scenes.
So the Sense-Up function cannot eliminate the need for cameras operating with infrared illuminators. In total darkness or in the case of fast-moving objects they are indispensable.
The effect of Sense-Up function (on the right)
Sensitivity in infrared range.
A typical B/W camera is sensitive to radiation in the range visible to human eye (400 - 770 nm) and also radiation from IR (infrared) range (770 - 850 nm). However, the sensitivity in IR scope is lower, therefore the use of cameras for IR observation is limited.
More on lighting for video surveillance
Use of color cameras at night
Conventional color cameras are not capable of operation with IR illumination, due to the fact that they are normally equipped with IR-cut filters necessary for good color reproduction in daylight.
There are color cameras that automatically switch to B/W mode after the dusk. The switching to the monochromatic mode doesn't mean that they will properly work in IR spectrum (they also are equipped with built-in IR filters).
Color cameras suitable for night observation in infrared spectrum are marked as day/night. The basic category of these cameras doesn't have IR filter cutting this range of light, as standard color cameras. So, they can work at night (in total darkness, without visible light), usually with the use of built-in IR illuminators. This construction of a camera (lack of IR-cut filter) has some disadvantages, though. In normal light (visible light range) such camera can have problems with white balance - it may not be able to capture true colors, e.g. black color may look a bit navy blue etc. The effect is more visible outdoors, where the natural sunlight includes IR spectrum. This behavior of a camera may be treated by some installers as improper work of the device. Indoors, where other kinds of light are used (bulbs, fluorescent lamps), this effect is not so visible.
An ideal solution is provided by day/night cameras with mechanically switching IR filters (ICR). The cameras are more expensive, but there are no problems with color rendition during the day. They have to operate with high quality IR-corrected lenses ensuring good focus in IR spectrum.
Some manufacturers offer dual cameras, with color and B/W modules and appropriate controller switching on one of the camera modules depending on the ambient light level.
Wireless or wired camera
Wireless cameras have built-in transmitters usually working in 2.4 GHz or 5.8 GHz bands, or sometimes at different frequencies (900 MHz, 1200 MHz). Generally, the use of wireless cameras is limited only to non-professional applications. The basic disadvantage of this solution is sensitivity to environmental conditions, mainly electromagnetic noise and interference. It should also be remembered that for the reason of restricted bandwidth available for wireless cameras, the number of such cameras in one system is also limited. In some countries this kind of operation may require adequate license or authorization. Wireless transmission is more popular in the case of IP cameras.

More information in the chapter: Video transmission
Grounding problems
Improper grounding of CCTV system components may cause significant quality loss, e.g. a moving horizontal bars on the screen (power network interference). The grounding path shouldn't be connected only via the cameras. It is also very important to use separate neutral power rail and signal ground.
Different types of problems connected with power supplying can be eliminated by employing the SV-1000 M1711 video isolator. It is meant to be additional security device in CCTV installations - for cameras and other devices, protecting them from atmospheric discharges, however it also solves problems with potential difference between devices and eliminates ground loops.
An example of application of the SV-1000 M1711 isolator
Power network interference visible on the screen as a result of improper grounding or inadequate power supply
Another subject is grounding of metal housings, which is obligatory if camera is powered with AC 230V. For the reason of differences in potential, it is not acceptable to connect zero signal lead with camera housing, therefore it is suggested to use housings allowing galvanic separation of zero signal conductor (including camera's own chassis) from external housing.
Lens mounts
The most popular types used are C and CS. Basic difference between them is different distance from lens to sensor surface. Most of cameras and lenses are equipped with CS mount which is more universal - using additional adapter ring it is possible to mount C-type devices as well. Reverse adaptation is not possible.
Day/Night Box Camera: u-cam 595 (550TVL, Sony EXView CCD, 0.01 lx)
Day/Night Box Camera: u-cam 595 (550TVL, Sony EXView CCD, 0.01 lx)
To unscrew or adjust inner ring the user should slacken mounting screw with special key first
Typical camera accessories: mounting screw washer, lens adapter ring, iris control plug for iris lens
Having problems with setting focus in the lens, the user should adjust the position of the ring to set the distance between the image sensor and the lens (the picture on the left).
Ingress protection ratings
IPxy codes rate the resistance of camera housings to outer environmental conditions. The first digit (x) indicates mechanical integrity, the second (y) - protection against harmful ingress of water. Camera housings well protected against dust and humidity have IP65 or IP66 ratings. Totally water-resistant housings have IP67 or IP68 labels. Most compact cameras are not waterproof.
More on IP ratings
Analog cameras

IP cameras

Megapixel cameras

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