The AmScope IN480TC-FL inverted epifluorescence trinocular microscope has interchangeable pairs of 10x22mm and WH25x10mm plan high-eyepoint super-widefield eyepieces, an under-mounted quintuple nosepiece, eight DIN long working-distance infinity plan objectives, fluorescence 100W mercury lamp and Brightfield 30W halogen illumination, a 0.3 NA Kohler condenser with iris diaphragm, and a double-layer mechanical stage with a stage stop to protect slides and objectives from damage. The microscope has a color-corrected infinity optical system (CCIS) that provides color correction and improved focus of the intermediate image across the entire focal plane. The trinocular head has a Siedentopf binocular mount with 50 to 76mm interpupillary adjustment and a fixed 45-degree vertical inclination to reduce eye and neck strain. A Siedentopf binocular head enables the viewer to change the interpupillary distance without changing the tube length, eliminating the need to refocus the image. Anti-mold coatings protect the microscope in high-humidity environments. The microscope includes interchangeable pairs of high-eyepoint super-widefield WH10x22mm plan and WH25x10mm eyepieces. Plan eyepieces provide improved focus over the entire field of view (FOV). High-eyepoint eyepieces ease viewing for viewers who wear glasses. Dioptric adjustment accommodates individual eye-strength differences. The vertical trinocular port accepts a 23mm or C-Mount camera (camera sold separately). The under-mounted quintuple nosepiece accepts up to five 20mm objectives at a time. The microscope includes five Brightfield long working-distance infinity plan objectives (4x, 10x, 20x, 40x, and 60x) and three phase-contrast long working-distance infinity plan objectives (10x, 20x, and 40x). Long working-distance plan objectives provide improved focus over the entire range of the viewing field and a longer working distance that is required when viewing specimens in dishes and large containers. Phase-contrast provides high contrast and visibility without the use of stains, allowing specimens to be observed in their natural state without being killed or fixed. An inverted microscope has its light source above the stage pointing downward and the objectives and turret below the stage pointing upward. It is most often used for observing organisms in a large container, such as a well plate or petri dish. It can also be used when specimens require manipulation, or in metallurgical applications. Fluorescence microscopes are used in biological and metallurgical research and in industrial inspection applications to observe details illuminated by ultraviolet light.
The microscope has Brightfield, phase-contrast, and fluorescence illumination. Brightfield and phase-contrast illumination is mounted above the stage and has transmitted 30W halogen illumination. Brightfield (BF) illumination allows the specimen to absorb light, resulting in a dark image on a light background. The phase-contrast element aligns the light source with the phase-contrast objectives to optimize high contrast and visibility without the use of stains. Halogen illumination provides bright light in a concentrated path, and a rheostat controls the amount of light emanating from the lamp. The objectives are mounted on a turret to ease magnification changes. Often used in biological and metallurgical research, fluorescence microscopy uses a xenon or mercury lamp to create ultraviolet light and excitation filters to filter unwanted wavelengths, allowing users to see details undetectable to other light sources. The Kohler condenser has a 0.3 NA to provide a long working-distance of 72mm and 28mm, respectively. Kohler illumination focuses and centers the light path using two iris diaphragms, providing optimum contrast and resolution. The horizon can be rotated 0 to 300 degrees. The double-layer mechanical stage with 1mm stage divisions and 0.1mm vernier resolution locks the slide into place and provides precise slide manipulation along the X- and Y-axis to allow coordinates to be recorded, enabling the viewer to return to a specific location on the slide. The oversize stage is 6.3 x 10 inches (160 x 250mm) (W x D, where W is width, the horizontal distance from left to right; D is depth, the horizontal distance from front to back). It has a traveling range of 4-3/4 x 3-1/8 inches (X- direction x Y-direction). A petri dish holder secures specimens in place. Nested coaxial coarse and fine focus has tension-adjustable coarse focusing and an adjustable lock ring stopper that limits stage range to protect slides and objectives from damage. The focus system has a 38mm working distance, 2mm fine focus, and 0.002mm precision. The total working distance is 6.5mm upward and 2.5mm downward from focus. All-metal mechanical parts, solid-metal frame construction, and a stain-resistant enamel finish provide durability.
|Trinocular port||23mm or C-Mount|
|Eyepieces (30mm)||WH10x22mm plan and WH25x10mm plan|
|Objectives, Brightfield (20mm)||4x, 10x, 20x, 40x, and 60x DIN long working-distance infinity plan objectives|
|Objectives, Phase-contrast (20mm)||10x, 20x, 40x DIN long working-distance infinity plan objectives|
|Stage||Oversize mechanical, with removable stage plate|
|Condenser||Movable 0.3 NA Kohler condenser|
|Light source||Halogen with rheostat, 12V/30W|
|Illumination type||Brightfield, phase-contrast|
|Power||90V to 240V, GS and CE-certified|
Microscopes are instruments used to enhance the resolution of an object or image. Types include compound, stereo, or digital. Compound microscopes use a compound optical system with an objective lens and an eyepiece. Stereo microscopes show object depth in a three-dimensional image. Digital microscopes are used to display an image on a monitor, rather than looking through a lens. Microscopes can have monocular (one), binocular (two), or trinocular (three) eyepieces, with varying magnification abilities. Magnification ability refers to the size of an image. Resolution, also known as resolvant power, refers to the clarity of the image. The interaction between field of view (FOV), numerical aperture (NA), and working distance (WD) determines resolution. Microscopes can control magnification through a fixed focus, or through a range of adjustments. They can also utilize LED, fluorescent, and mirror light sources to help control viewing capabilities. Microscopes are widely used in education, lab research, biology, metallurgy, engineering, chemistry, manufacturing, and in the medical, forensic science, and veterinary industries.
United Scope manufactures microscopy equipment and accessories under the brand name AmScope. The company, founded in 1996, is headquartered in Irvine, CA.
What’s in the Box?
- AmScope IN480TC-FL microscope
- WH10x22mm plan eyepieces, 30mm, one pair
- WH25x10mm plan eyepieces, 30mm, one pair
- 4x DIN long working-distance infinity plan objective, 20mm
- 10x DIN long working-distance infinity plan objective, 20mm
- 20x DIN long working-distance infinity plan objective, 20mm
- 40x DIN long working-distance infinity plan objective, 20mm
- 60x DIN long working-distance infinity plan objective, 20mm
- 10xPH DIN long working-distance infinity plan phase-contrast objective, 20mm
- 20xPH DIN long working-distance infinity plan phase-contrast objective, 20mm
- 40xPH DIN long working-distance infinity plan phase-contrast objective, 20mm
- Color filters
- Reflected fluorescence illumination system
- Reflected illuminations system with top light housing and electrical cord
- Episcopic light box and tube
- Power cord
- Dust cover
Inverted epifluorescence microscope with mercury lamp light source for performing sample analysis of biological specimens, sedimentary rock, and semiconductor impurities
Trinocular head with Siedentopf binocular mount, pairs of 10x22mm and WH25x10mm plan high-eyepoint super-widefield eyepieces, 50 to 76mm interpupillary adjustment, and fixed 45-degree vertical inclination; vertical port accepts C-Mount or 23mm camera (sold separately)
Color-corrected infinity optical system (CCIS) with under-mounted quadruple nosepiece, five long working-distance infinity plan objectives and three long working-distance phase-contrast infinity plan objectives that provide a longer working distance and improved focus over the entire viewing field,
Under-mounted 100W ultra-high voltage spherical mercury lamp and upper-mounted rheostat-controlled 30W halogen illumination provides clear examination and light control and movable 0.3 NA Kohler condenser provides long working distance
Oversize mechanical stage with petri dish holder and tension-adjustable coaxial coarse and fine focus