Sentences with phrase «different band frequencies»
Equalizer + enables you to control 5 different band frequencies.
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The smartphone will be powered by Android 4.1 Jelly Bean with 4 GB of RAM and it will support five different band frequencies including LTE.
Not exact matches
Also, the four carriers are using LTE in different frequency bands, with some of their phones specced to exclude the other carriers» bands, making it harder to switch carriers.
Static can be an issue, since wireless devices may use the same frequency band, so make sure to choose a monitor with different frequency ranges than those for your telephone or any wireless computing devices.
So we recommend choosing a baby monitor that uses a different frequency band from your cordless phone and other wireless products in your home.
That agency, later re-formed as the Federal Communications Commission (today's FCC), assigned specific frequency bands to different users.
[3] ALMA can observe in different frequency bands.
As a result, public safety agencies have been forced to spread their signals throughout the four different frequency bands available to them — namely, at megahertz frequencies of 150, 400, 700 and 800.
However, when Dayeh looked at the different sound frequency bands, he saw that the images cleared up at higher frequencies.
For instance, two sounds that start at the same instant in time probably come from a single person, even if they involve several different frequency bands.
«It's a wonderful situation,» says Brown, because you can change the frequency of the band gap simply by changing the spacing of the voids and change the width of the gap by choosing a different material.
Having signals of different frequencies in the 7 - 15 years band, the amplitude of the signal in the higher band may correspond roughly to the 11 - year signal by accident, but that doesn't mean that there are no other influences.
For linear systems, different frequency bands may be associated with different forcings having different time scales, but chaotic systems and systems with convoluted response are usually characterised with broad power spectra.
It's called optical SETI, and its instruments are focused on a different band of the light spectrum than radio astronomy, looking instead at the same waves our eyes take in, along with infrared frequencies, which are just a smidge longer.
Frequencies of Lethal Loci in Different Regions of the Drosophila Genome Expressed in Terms of the Number of Polytene Bands in the Mutagenized Interval ------------------------------------------------------------- ------------------------------- ----------------------------------------- Chromosome Number of Bands Analyzed Number of Lethal Loci Ratio of Bands to Lethal Loci Extrapolation of Lethal Loci per Genome X 450 298 0.66 3350 2 415 267 0.64 3260 3 343 235 0.69 3470 4 50 34 0.68 3440 Total 1253 836 0.67 3380
The different parts of the spectrum, or spectral bands, are, in order of decreasing wavelength and increasing frequency: radio waves (including microwaves and (sub) millimetre radiation), infrared, visible, ultraviolet, X-rays and gamma rays.
To cover a wide range of observing frequencies, each of the ALMA antennas is equipped with ten types of receivers dedicated to different frequency bands.
It is designed to capture signals from ten different frequency bands.
Similar to how optical telescopes, X-ray telescopes and radio telescopes all look at different bands of the electromagnetic spectrum and teach us different things about the cosmos, the detection of gravitational waves at different frequency bands also requires different detectors.
If the shape of the hill or valley in BTc has undulations, the band - widening involves positive and negative changes in area on the graph at different points, which are all neatly accounted for by using the BTc0 value at the peak frequency to multiply by the band widening intervals BW1 and BW2.
Otherwise, an approximation can be made by using, in place of BTc0i and ΔBTc0, three corresponding values of upward / downward / net fluxes per unit area, two values for frequencies ν1 and ν2 on either side of the band near the centroids of the areas on the graph for the band - widening effect (works unless there are temporary saturations leaving positive and negative areas, in which case more different values for different frequencies would work better) to multiply by b * BW1 and b * BW2, respectively, to find the band - widenning effect, and one value for the peak frequency ν0, to multiply by something on the order of b * 1/2 * (BW1 + BW2) to find the band center contribution.
This is because there is a band of frequencies present in random, noisy and chaotic data, which brings us back to our initial point: any number or curve can be split into a multitude of different components, most of which will not have any physical meaning.
They use dual - band radar altimeters, two different frequencies which should be slowed down by water vapor by a different amount.
The precise patterns do vary as a function of frequency ranges (i.e. the exponents in the interannual to multi-decadal band are different to those over longer periods), and there are differences between models.
[Response: This is just two bits of speculation on my part, but it is conceivable that a) the influence of ENSO is of a different character than the influence from SST (i.e. there is more happening than a similar increase in hurricane intensity / number), and ii) the different frequency distribution of ENSO events compared to variations in SST (or PDI) mean that the signal is stronger compared to the noise in that frequency band.
An ideal validation procedure would measure skill at different timescales, or in different frequency bands using wavelet or power spectrum calculations.
Upwelling radiance is measured at different frequencies; these different frequency bands sample a different weighted range of the atmosphere.
One major simplification involves treating all the infrared radiation (IR) as if it consisted of one wave length, although the real situation is of course much more complicated with a wave spectrum, selective absorption bands, and radiation with different frequencies and optical depths (Pierrehumbert 2011).
Even though all the major U.S. carriers have adopted what amounts to the same LTE standard as their high - speed mobile internet offering, they all use different wireless spectrum — also known as wireless bands, or frequencies — to deliver calls, text and, most importantly, data, over the air.
Different sets of headphones use different technology to accomplish this, with many offering «channels» optimized for specific bands of freDifferent sets of headphones use different technology to accomplish this, with many offering «channels» optimized for specific bands of fredifferent technology to accomplish this, with many offering «channels» optimized for specific bands of frequencies.
The OnePlus 5 is on the right track as it includes cellular connectivity with support for 34 different frequency bands — meaning it should work on your GSM carrier — the most up - to - date Wi - Fi, and Bluetooth 5.0.
Cell networks operate across dozens of different «bands,» and broadly speaking, the lower the frequency, the better the coverage.
The OnePlus 5 includes Wi - Fi, Bluetooth 5.0, and cellular connectivity with support for 34 different frequency bands.
OnePlus must finally be ready to sell mass quantities as it increases its cellular connectivity with support for 34 different frequency bands — meaning it should work on your carrier.
Dual - band Wi - Fi: Support for wireless networking at two different radio frequencies for improved reliability and performance.