LEDER technology`s bollard light is the perfect landscape lighting solution for both commercial and residential properties. This bollard light allows users to place it just about anywhere and is ideal for illuminating front and back yards, pathways, parking lots and decks.
This bollard solar light is constructed of stainless steel, polished pencil edge glass and incorporates our cutting-edge GS solar LED light bulb technology and provides 360-degree illumination. At dusk, the solar walkway light provides a brightness of 100 lumens in warm white color temperature for up to 12 hours on a full charge. Just place this solar light in a spot with ample direct sunshine and let the sun do the rest.This sleek and modern bollard light is made of cement and boasts a sophisticated gray speckled finish that will give your home that look you've been missing. The solar bollard light is light underneath the circular curved top and will illuminate your outdoor spaces.
Features:
• New Solar Technology
• Fashionable and modern design
• Outdoor Lighting
• Energy saving save electricity
• Contracted design
• Color temperature :3000k-6000K
• Body color can be customized as RAL Code
• Type of protection: IP20 /IP65 (Some models)
• Warranty:3 - 5 years
Our minimalist bollard light illuminates your outdoor areas with style.The bollard light will brighten your garden and shrubbery to look very attractive at night, as well as, light up walkways, pathways, or driveways, making them safer and more beautiful.
We have rich production experience in lighting .Except LED Bollard Light, we also offered other product in outdoor lighting ,such as LED Flood Light , LED street Light , LED Inground Light, LED Spike Light ,LED Wall Washer,Outdoor Wall Light & Step Light as so on .
Bollard Lights,LED Bollard,Solar Bollard Light,Outdoor Bollard Lights JIANGMEN LEDERLIGHT LIGHTING Co.,LTD , https://www.ledpaintlight.com
High-sensitivity materials
The use of high-sensitivity materials, including the use of high-sensitivity photosensitive materials, ultra-high signal to noise ratio signal processing and processing devices, and signal processing to add some special processing techniques, etc., in order to improve the restoration of the image collection under low light conditions, but Due to costs and considerations such as volume, this is the best solution but it is still difficult to be widely used in a short time.
At present, for CCD photosensitive elements, there are mainly two methods for increasing the sensitivity. Due to the physical increase in the photosensitive area, limited by the volume of the device can not be achieved, so one of them is to increase the sensitivity of the device in each device on the photodiode (single pixel) device micro lens to increase the photosensitive area in a way to obtain improved sensitivity. Effective. This design is like putting spectacles on the CCD, but after 35 years of development, the space for this technology has been quite limited. Second, it is through a specific signal enhancement circuit, according to data calculations to obtain a reasonable exposure, but this is usually due to CCD fast exposure caused by uneven pixel sensitization and the formation of noise, then the grain of the shot will be more obvious. At this point, they have to take measures to balance the conflict between high-sensitivity and high image quality, which inevitably leads to higher costs.
Digital slow shutter technology
Digitalslowshuttle, in fact, is not a shutter, but its function is somewhat similar to that of a shutter. Both the shutter and the iris (IRIS) control the light through the lens on the camera. A part of the light capture effect. It can also be understood that the aperture is a hole that the light can enter when the lens passes through the lens. The size of the aperture is the size of the aperture. The larger the aperture, the more light passes in the same situation, and the shutter is the part that controls the aperture switch and controls the aperture. Whether it is always on or it is on and off at regular intervals.
We know that according to the persistence characteristics of human eyes, in order to ensure that the images seen are continuous, the standard for PAL TV signals is 25 frames per second interlaced scanning, that is, the images passing through our eyes in each second are actually With a continuous screen consisting of 25 screens, one point can be scanned once every 1/25 second when shooting a target. Because it is an interlaced scanning, only one frame can be formed for every 2 fields, so every 1 second. PAL system image is 50 fields, 1 field time is the shutter interval, every second, the shutter must work 50 times in order to ensure that the output image is PAL image of 50 fields / second, so the lowest PAL system The shutter speed is 1/50 second (at this time the aperture is actually open), in practical applications, because the light in the environment may be very strong, this time may need to control the amount of light, you need to control the shutter speed, the faster the speed At this point, the less time the light can enter, the less light will enter, and the image will appear darker. On the other hand, the slower the shutter speed, the brighter the image will be. When the light intensity is insufficient, 1/50 sec image is still not bright enough, which requires the use of other technologies.
According to the optical theory, light can be superimposed, although in a very dark environment, each point can be scanned to 1/25 second, the scanned time is very short, and the brightness is very weak. When the brightness of this point is saved and superimposed and then output, this point can be brightened. Therefore, the technical principle of the digital slow shutter is to superimpose multiple images corresponding to a certain period of time and then output them in order to increase the signal strength.
This technology does not require any changes to the external environment, so it can be said to be the ideal solution under the conditions of meeting the monitoring requirements, but the scope of this technology can actually be applied is very narrow, because the realization of the cumulative point by point The premise is that the brightness of the same point is accumulated at different times, and once the shooting object changes or moves, the two pixels together may not be the same pixel. Therefore, moving the object on the whole image will appear. "Smear" phenomenon, if the object moves too fast and the frame accumulation time is too long, the moving object may even become a virtual image. Therefore, the frame accumulation technique is generally applied to monitor a stationary scene in a low-light environment.
When the light is not enough, the image will be switched to a black and white image, remove the color carrier and color synchronization interference, and increase the AGC, to a certain extent, can improve the image quality under low visible light environment, but this program can solve only Some very special environments cannot solve the low-light environment, and the image quality that can be improved is also very limited. Generally, this technology must be used in conjunction with other technologies.
In a certain light source condition, the image is switched from color to black and white using line switching. In the course of the technological evolution of color/black and white line conversion, two sensor elements (one color and one black and white) were used in the early stages to share a set of circuits for switching. At present, such cameras have adopted a single CCD (color) design. When the light source is sufficient during the day or when the light source is sufficient, when the night falls or the light source is insufficient (usually at 1LUX?3LUX), the digital signal is eliminated by using a digital circuit to become a black-and-white image, although this method can achieve "low illumination" at night. The purpose is that during the day there are blurred images and unnatural colors.
Passive infrared imaging technology
The application of passive infrared imaging technology is based on the premise that the light-capturing device must be able to collect infrared signals in addition to the visible light signal, and the signal processing can process the original infrared signal into gray-scale signals (so-called black-and-white signals). Both black and white cameras are capable of this function and have very high sensitivity. All cameras based on digital processing technology are able to complete this work, but because of the color imaging in the visible light environment, contradictions have begun to appear. When dealing with color signals, because the DSP processing needs to separate the video signal into a gray signal and a chroma (or color difference) signal to be processed separately, and the infrared signal itself is invisible to the human eye, but is captured in the light trap. DSP processing has become a gray signal that can be recognized by the human eye. The superimposition of two gray signals (visible light and infrared light) will inevitably make the image unable to follow ideal conditions when performing grayscale and chroma synthesis. To synthesize, this will cause the grayscale and chroma of the image to be distorted. The most typical example is that if the infrared light is too strong, the entire image will be grayed out. At present, there are four main solutions for passive infrared imaging in video surveillance:
1. Pure color cameras, this solution is to prevent passive infrared imaging, which is to avoid the ingress of infrared light, which uses an optical low-pass filter (OPLF: Optical Low Filter, commonly known as low-pass filter, Figure 1 is its optical communication The relation between the rate and the wavelength can be seen that it does not substantially absorb and reflect the visible light, but substantially completely isolates the infrared light. The infrared light is directly blocked, so that the image is substantially unaffected by the infrared signal. The purpose of this is to avoid using infrared imaging.
2, completely regardless of the impact of infrared signals on the color of the image using a large number of infrared filters, which is a low-cost solution, the effect of passive infrared imaging is also relatively good, but it is easy to appear above said Chromaticity and grayscale distortion issues in color mode.
3, only the specific infrared light such as 850nm through, most of the other infrared light can not pass, this is the principle of single filter infrared sensor, its main technical basis is to use a different color camera color filter technology.
Such a solution can solve the problem of color cast to a certain extent, and can also be used where infrared imaging is used without visible light. However, there are also some problems with this solution. When the sunlight is sufficient, the infrared signal is very rich, causing image color and grayscale distortion. When using infrared imaging, imaging is not sensitive because only very narrow frequency infrared light can pass through, so this kind of camera is generally used in indoor areas within 30 meters in diameter.
4, when the visible light is strong when using OPLF, most of the infrared light block, to ensure its color reduction and grayscale signal is true, and when the visible light is weak, do not use OPLF, and can make the vast majority of visible light and infrared Light can pass through the high-pass filter, because it mainly relies on infrared imaging, is a gray signal, so this time will generally remove the color components, only to retain the gray signal, so see just the gray image that we say Black and white image.
This scheme actually combines the advantages of the color camera in the case of visible light and the advantages of the black-and-white camera in low illumination. It can be said that it is the best solution to solve the current monitoring under all-weather, light-changing environments. The true color reproduction under natural light and the high-sensitivity passive infrared imaging without visible light make the static effect even comparable to some integrated machines that use the same technology and incorporate 4x DSS.
Although the use of passive infrared imaging can better solve the contradiction between no visible light and monitoring, but because of the optical difference between infrared and visible light, there are also some problems that need to be solved, the optical main medium glass has different refractive index for two kinds of light waves. It will cause different focal lengths of the optical components, so it is easy to focus problems, but these problems have been solved in the continuous use and improvement. With the constant maturity and wide application of passive infrared imaging technology, the monitoring performance has been greatly improved, and people's lives will be more reliable.
Three commonly used technical analysis of surveillance cameras
At present, there are several technologies commonly used in civil monitoring products: high-sensitivity materials, digital slow shutter technology, color-to-black technology, passive infrared imaging technology, etc., because of the different monitoring requirements and application scenarios, so in practical applications Different application markets have emerged.