LED plant growth lamp knowledge

Color temperature and lumen of biological light source

The color temperature and lumen of the artificial light source are seen by the eyes of the creature, and the plant's demand for light is the photosynthesis. This is determined by the radiation value without looking at the color temperature and lumen.

Effects of spectral range on plant physiology

280 ~ 315nm â€“â€“> This wavelength is already ultraviolet light. It has direct repressive growth for all kinds of animals, plants and even fungi, and has little effect on morphology and physiological processes.

315 ~ 400nm â€“â€“> This kind of light wave is also a far-ultraviolet light. Although there is no UV damage to plants, it has no direct effect on plant growth, and chlorophyll absorption is less, affecting photoperiod effect and preventing stem elongation.

400 ~ 520nm (blue) -> Such wavelengths can directly develop the roots and stems of plants, and have the largest absorption ratio of chlorophyll and carotenoids, and have the greatest impact on photosynthesis.

520 ~ 610nm (green) -> Green plant rejection push, the absorption rate of green pigment is not high.

610 ~ 720nm (red) -> The chlorophyll absorption rate of plants is not high, but this wavelength has a significant effect on photosynthesis and plant growth rate.

720 ~ 1000nm â€“â€“> These wavelengths are mostly infrared wavelengths. The low absorption rate of plants can directly stimulate cell elongation and affect flowering and seed germination.

>1000nm â€“â€“> The wavelength of the near-laser light has been converted to heat.

From the above plant and spectral data, the light of each wavelength has different effects on plant photosynthesis. In the light required for photosynthesis, 400 ~ 520nm (blue) light, and 610 ~ 720nm (red) Photosynthesis contributes the most, while 520 ~ 610 nm (green) light has a low efficacy rate for plants to grow.

According to the above principle, the plant has direct growth effects only for the spectrum of 400 ~ 520nm (blue) and 610 ~ 720nm (red). Therefore, the plant lights under the academic concept are made into a combination of red and blue, all blue, and all. Red three forms to provide red and blue wavelengths of light to cover the wavelength range required for photosynthesis in plants.

In terms of visual effects, the red and blue LED plant growth lights are pink. This kind of mixed light color is extremely uncomfortable for biological lighting, but it can only be used for practical purposes. Sexuality.

Generally, white LED lamp beads , the most common is to use a blue core to stimulate the yellow fluorescent powder to illuminate, thereby producing a visual white light effect. On the energy distribution on the integrating sphere test report, there are two peaks in the blue region of 445 nm and the yellow-green region of 550 nm.

The 610 ~ 720 nm red light required by plants is less able to cover the light efficiency required to supply light and function to plants. This explains why the growth rate and harvesting effect of plants are not as good as those of outdoor plants under the illumination of white LEDs.

Using the above data, the ratio of red and blue light chromatograms of general plant lights is generally between 5:1 and 10:1, and the ratio of 7 to 9:1 is usually selectable. According to the light, the number of non-lighting beads is based on the light mixing.

When the plant growth lamp is used for planting, the height of the blade is generally about 30-50 cm. In the middle, it is necessary to actually give different light intensities depending on the type of planting plant. The height adjustment is generally regarded as the most convenient brightness adjustment method.

Coin/Button Cell-retainers And Contacts

Antenk coin cell battery retainers Designed for memory back-up and stand-by applications, these contacts permit quick and easy coin cell replacement and installation. Eliminating "soldered-in" cells, computer, video, telecommunication and similar PCB based product users now have a reliable, "no tools required" method for changing batteries.

Extremely economical, these retainer contacts are available in surface mount (SMT) or thru hole mount (THM) styles for 4.8mm, 6.8mm, 11.6mm,12mm, 16mm, 20mm, 23mm and 24mm coin cells. The THM version has stable mounting legs for excellent board retention during wave solder. The SMT version includes a unique solder tail "flow-hole" design to bolster reflow and strengthen solder joints. They are manufactured from phosphor bronze, precision stamped and are plated with either a high luster nickel finish or matte tin finish ideal for low temperature soldering enviornments. Both feature dual spring contacts to assure reliable connections and a low contact resistance.

Antenk Coin/Button Cell-retainers And Contacts

Coin cell retainers are simple metal contacts that both electrically connect coin cells and hold them in place, while taking up minimal additional space on the PCB. They feature nickel-plating, and since most coin cells have nickel shells this helps to prevent galvanic corrosion, an electrochemical process that can damage dissimilar metals that are in electrical contact. Our retainers are always designed with automation in mind, and can be easily picked and placed, with both through hole and surface mount retainers available for most coin cell sizes. Combining the ease of automation with the low cost of Antenk's retainers, it is no wonder they are such a popular product.

Coin Cell, Button Cell, Retainers, Contacts

Designed for memory backup and standby applications, Antenk's compact coin cell battery retainers permit quick and easy coin cell replacement and installation. By eliminating soldered-in cells, computer, video, telecommunication, and similar PCB based product users now have a reliable, no tools required method for changing batteries.

These holders and retainers are available in surface-mount (SMT) or through-hole-mount (THM) styles for 4.8 mm to 24 mm coin cells. The THM version has stable mounting legs for excellent board retention during wave soldering. The SMT version includes a unique solder tail flow-holedesign to bolster reflow and strengthen solder joints. Both feature dual spring contacts to assure reliable connections and low contact resistance.

Coin Cell, Button Cell, Retainers, Contacts Features
Available in THM or SMT configurations
SMT solder tail with flow-hole design for increased joint strength
SMT solder tail located outside of retainer body which facilitates visual inspection of the solder joints
THM legs maintain relative position during and after soldering
Reliable spring tension assures low contact resistance
Retains battery securely to withstand shock and vibration
Ideally suited for high-density packaging
Ideal for low-profile space-saving PCB applications
Designed for reflow and all PCB soldering applications
Compatible with all wave and reflow operations
Compatible with most vacuum and mechanical, pick and place assembly systems
Matte-tin plate for lower soldering temperatures ideal where other temperature sensitive components are being used
Tin-nickel plated retainers are ideal for lead-free, high-temperature soldering applications
Retainers available for coin cell batteries from 4.8 mm to 24 mm diameter

Coin Cell Retainers by Size of Cell
191 | 335 | CR1025 | CR1216 | CR1220 | CR1225 | CR1632 | CR2016 | CR2032 | CR2320 | CR2325 | CR2330 | CR2354 | CR2430 | CR2450 | CR2477 | F3 iButton | F5 iButton | LR1120 | LR44 | ML414 | SR512SW | SR60 | V80H or CP1654 | BR1025 | BR1216 | BR1220 | BR1225 | BR1632 | BR2016 | BR2032 | BR2320 | BR2325 | BR2330 | BR2450 | BR2477 | Other Sizes

Button Contacts,Coin Cell Retainers And Contacts,Coin Cell Retainers

ShenZhen Antenk Electronics Co,Ltd , https://www.antenkconn.com