Dual Zeiss - branded cameras rock the back, boasting a primary 12MP 1.4 -
micron sensor and f / 1.75 lens, and a 13MP 1 -
micron sensor with f / 2.6 telephoto lens as the secondary.
The 13 - megapixel shooter holds up as I thought it would thanks to the larger 1.3
micron sensor and f2.0 aperture, but the camera app can be slow at times.
There's also a better 1.3
micron sensor inside of it for improved low light performance.
Inside, Honor Tablet is powered by Qualcomm MSM8212 1.2 GHz quad - core processor and comes equipped with 1 GB RAM, 16 GB internal storage with microSD card slot supporting up to 32 GB, 8 - inch 188ppi full - view - angle IPS screen with 1280 x 800 pixels resolution, and 0.3 MP front - facing webcam as well as 5MP rear camera with f / 2.4 aperture and 1.4 -
micron sensor.
OnePlus 2 bears a 13 - megapixel rear camera with a 1.3 -
micron sensor, laser autofocus, dual - LED flash, f / 2.0 aperture, 4K video recording.
Not exact matches
This new healthcare tech could be even more groundbreaking, as scientists are working to shrink the
sensors to
microns wide, about the width of a human hair.
If the Sandia workers make their 1.5 -
micron - frequency mark, the development will pave the way to tinier, cheaper, more effective optical waveguides,
sensors, lasers — and even make optical computers a reality.
The novel
sensor structure combines a strip of seven
micron - thin buckypaper with silver ink electrodes printed from a common, commercially available ink - jet printer.
A separate group at Stanford University based their
sensor technology on transistors incorporating a rubber layer patterned with
micron - scale raised structures such as pyramids or pillars.
Scientists have started shrinking
sensors from millimeters or
microns in size to the nanometer scale, small enough to circulate within living bodies and to mix directly into construction materials.
The researchers shaped this polymer into a 1.5 - millimeter
sensor that could be implanted in tissue during a biopsy; they also created smaller particles (tens of
microns long) that can be injected through a needle.
The Nokia X6 bears a dual rear camera setup with a primary 16 - megapixel
sensor and a secondary 5 - megapixel monochrome
sensor, sporting an f / 2.0 aperture and 1 -
micron pixels.
On the front, it offers a 16 - megapixel camera with the same f / 2.0 aperture and 1 -
micron pixel
sensor.
The biggest highlight of Redmi S2 is its front - facing camera, which sports a 16 - megapixel
sensor with 2 -
micron pixels.
Both of these camera
sensors feature 12.2 - megapixel resolution, 1.4
micron sized pixels and an f / 1.7 lens.
The OnePlus 6 sports a 16 - megapixel front camera with a Sony IMX371
sensor, 1 -
micron pixels, f / 2.0 aperture, and EIS.
There is a Pro mode available, so if you know how to take photos you can squeeze every
micron of goodness out of the
sensor.
The LG K8 2017 (X240i) features a 5MP selfie camera with F / 2.4 Aperture, 1 / 5 - inch
Sensor size and 1.12
micron pixels.
On the front, the Redmi S2 has a 16 - megapixel
sensor that has 2 -
micron pixel size - combining four pixels into one pixel.
The Xiaomi Mi MIX 2 Specs include 12MP primary camera with Sony IMX386
sensor, F / 2.0 Aperture, 1.25
micron pixel size, 4 - axis OIS, dual - tone LED Flash and 4K video recording support.
The Mi Mix 2 specs include a 12MP rear shooter with dual - tone LED Flash, Sony IMX386
Sensor with 1.25
micron large pixel, 5P Lens, F / 2.0 Aperture, PDAF and supports 4 - axis Optical Image stabilization as well.
Notably, the Redmi S2 was originally teased as the «best Redmi selfie phone» - thanks to a bunch of artificial intelligence (AI) powered proprietary features and a new front - facing camera
sensor that comes in a 2 -
micron pixel size.
On the rear is a 13MP primary shooter with LED Flash, F / 2.2 Aperture, 1 / 3 - inch
sensor size, 1.12
micron pixels, Auto Focus and 1080p video recording support.
The Nexus 6P uses a custom 12.3 megapixel 1/2.3» type camera
sensor from Sony with large 1.55
micron pixels.
First is a 12MP shooter with LED flash, Sony IMX362
sensor, 1/2.55 - inch
sensor size, 1.4
micron pixels and F / 1.8 Aperture and 4K recording.
The rear camera is similar to the Nexus 6P, featuring a 12.3 MP resolution
sensor with an f / 2.0 aperture lens and 1.55
micron pixel size.
Fred — I still believe you misunderstood the section in Dr. Pierrehumbert's book which specifically deals with the grey gas model and ignores the fact that a
sensor from space will see the stratosphere at the opaque regions (~ 15
microns).
20
microns down and the
sensors register increased warmth.
The MX6 has a 12 - megapixel Sony IMX386
sensor, which has an f / 2.0 aperture, and a 1.25
micron pixel size with phase detection autofocus.
Had Asus chosen to go with a comparable
sensor that lowered the megapixel count, yet made the
micron pixels larger, the Deluxe would have arguably been a far better shooter.
With a Sony IMX363 12 - megapixel
sensor as the main
sensor, and that has an f / 1.8 aperture, and is 1.4
microns in size.
The secondary camera is a Samsung S5K3M3, which is also a 12 - megapixel
sensor, with a f / 2.4 aperture and is slightly smaller at 1
micron.
You've still got two f / 2.2 Leica Summarit lenses, one housing a 12 - megapixel color
sensor (with optical image stabilization and 1.25 -
micron pixels), another packing a 20 - megapixel monochrome
sensor without OIS.
The 12 - megapixel rear camera uses a top - of - the - line Sony IMX378
sensor with big 1.55
micron pixels and has an f / 2.0 aperture lens.
The 1/3.06 ″
sensor sports 1.12
micron pixels, and is a minor upgrade over the IMX135 found inside LG G3, Galaxy S4 and many others.
The primary 12MP camera is a Sony IMX 363
sensor and offers 1.4 -
micron pixels, whereas the secondary
sensor is made by Samsung and is used as a telephoto lens.
12MP primary RGB camera with 1/2.3 ″
sensor, f / 1.6 aperture, 1.55
micron pixels, OIS, and 4 - way autofocus; 20MP monochrome camera with f / 1.6 aperture
The phone has a 12MP primary RGB camera with a 1/2.3 ″
sensor, 1.55
micron pixels, f / 1.6 aperture, a dual LED flash, and optical image stabilization (OIS).
The first camera features Sony's IMX362
sensor with 1.4 -
micron pixels, OIS and a f / 1.8 lens.
This module holds a 23 - megapixel Sony Exmor IMX318
sensor as the main camera, sporting small 1.0 -
micron sized pixels on a 1/2.6»
sensor.
Internally, the unit has a 12 - megapixel 1/2.3 CMOS image
sensor with 1.55
Micron pixels and optical image stabilization (OIS) in the lens.
The front - facing camera, a 5MP
sensor with 1.4
micron pixels and a wide - angle lens, appears to be identical to last year — the same as on the smaller Moto G5 — and certainly passable.
In hardware terms, you're dealing with two
sensors — a 12 - megapixel RGB
sensor with 1.25 -
micron pixels behind an f / 2.2 aperture, and a 20 - megapixel monochrome
sensor, used for capturing fine detail, with 1.1 -
micron pixels, also behind a f / 2.2 lens.
A 5 - megapixel camera with LED flash, f / 2.2 lens and 1.4 -
micron sized pixels sits above the screen, while the back carries a much larger 21 - megapixel
sensor than the Moto Z.
The Nexus 5X sports a brand new Sony - made 12.3 MP
sensor, laser auto - focus, an f / 2.0 aperture and a large 1.55
microns pixel size.
This
sensor features 1.12 -
micron sized pixels, deep trench isolation between pixels, optical image stabilization (OIS), laser autofocus, phase detection autofocus and an f / 1.8 aperture lens.
The Nexus 5X features a new 12.3 MP
sensor with a pixel size of 1.55
microns, f / 2.0 aperture, and a laser autofocus system.
The camera uses a larger 1.34
micron image
sensor for capturing more light in dimly lit environment.
Both the smartphones have expandable memory options and carry 12 MP rear camera with a 1.25 -
micron pixel
sensor, f / 2.2 aperture, PDAF, and LED flash along with a 5 MP front camera with a soft - light selfie flash module.
The front camera is an 8 - megapixel
sensor, again with 1.4
micron pixels, paired with an f / 2.4 lens.