BrandShop by filtering the results with a selected microscope brand(s). See our brand descriptions for further information on each brand.
- Resolution Class
Resolution ClassThis filter allows you to select a camera by the resolution (megapixels) of the camera. Unless you are doing high quality printing, additional resolution over 3 megapixels may be wasted since most computer monitors have maximum resolution of approximately 2 megapixels. Also, higher resolution typically involves slower refresh rates and, therefore, less effective live imaging.
- Camera Interface
Firewire is a brand name for IEEE Serial Business Bus or in plain language, a higher speed alternative to USB. It is more commonly used in professional applications.
RCA Composite Video is an analog output designed for computer monitors and TVs. Look for acronyms such as NTSC or AVi.
USB 2.0 Most microscope cameras output via USB 2.0 - the standard for output to computers, cell phones and other personal devices.
USB 3.0 is a new 'Superspeed' USB connection, currently found on a limited range of products, whether microscopy or other.
VGA is also an analog signal for output to computer monitors or to HDTV rather than computers.
- USB 2.0 (5)
- Head Type
Monocular microscopes have a single eyepiece. Always keep both eyes open when using a monocular microscope.
Binocular heads have two eyepieces.
Trinocular heads have two eyepieces plus an additional port to which a camera can be attached for still and live imaging.
Digital Only are digital microscopes with no eyepieces to view the specimen with the naked eye.
- Monocular (5)
- Illumination Type
Halogen or LED illumination is standard on most good quality microscopes. Only advanced users will see the difference so the choice is a personal one.
Halogen provides a bright white that is suitable for most applications. Since it is a hot light, it is not recommended where heat is an issue, such as live specimens.
LED Illumination is an alternative to halogen with more of a bluish white light. It often includes rechargeable batteries for greater portability.
Tungsten is typically used on microscopes where price is the primary purchasing criteria.
- System Type
Brightfield microscopes use transmitted (illuminated from below) white light that is absorbed by denser (darker) areas of the specimen to create contrast.
Darkfield microscopes improve the contrast in unstained, transparent specimens. They use scattered light that is not collected by the objective lens and so the light will not form part of the image. As a result, the specimen is illuminated against a dark background.
Epi-Fluorescence microscopes use the phenomena of fluorescent and phosphorescent light instead of, or in addition to, reflection and absorption.
Inverted microscopes are used to view specimens that require more working space than a slide. For example, specimens in containers such as petri dishes. They are also used for polished metal specimens where reflected light is required. The objectives are located below the stage while the light source and condenser are above the stage.
Metallurgical microscopes are a form of inverted microscope. They are designed for opaque or polished metal specimens that require high magnifications, but with reflected illumination (more typical in a stereo microscope).
Phase Contrast microscopes enable greater contrast in transparent specimens (protozoa etc) without the use of stains. Invented by Fritz Zernike, they convert small phase shifts in the light passing through the specimen into changes in contrast.
Polarizing microscopes employ polarized light that show changes in internal structure and composition of material not discernible with ordinary light.
Portable microscopes employ rechargeable LED batteries so they can be used outside in the field.
Teaching microscopes employ two or more microscope heads so that teacher and students can view the specimen, simultaneously.
- Camera Mount
C-Mount is a standardized camera lens mount that measures 1" in diameter and 32 threads per inch.
Ocular Mounts enable a microscope camera to be attached to a microscope ocular via an adapter tube. Typically, used on a trinocular port, an ocular mount can also work on monocular and binocular microscopes either by removing an eyepiece or, less commonly, by mounting an adapter over the eyepiece.
- Sensor Type
CMOS (complementary metal oxide semiconductor) and CCD (charge coupled device) image sensors are two different technologies for capturing images digitally. Each has unique strengths and weaknesses, although there are no clear dividing lines.
CCD cameras have traditionally provided the highest image quality at the expense of system size and cost. This is beginning to change with the advent of S-CMOS sensors.
CMOS cameras offer more functions on the chip with lower power dissipation, but they have often required tradeoffs between image quality and cost.
As a result, most standard applications currently employ CMOS sensors with lower prices. More advanced applications, where highest image quality is essential, employ CCD sensors.
- CMOS (5)
Color/MonochromeSelect a microscope camera with either monochrome or color sensor.
- Color (5)
- Supported Operating Systems
Supported Operating SystemsYou can filter the list of products by the type of operating system employed on your computer.
PriceYou can filter the microscopes according to price. Simply click on your desired price range.
These student microscopes are recommended for Grades K-4 with some overlap into Middle School. They are proper microscopes - not toys - with optics designed to engage young children in the wonders of the world's details without straining your budget.
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