Euromex
EYEPIECES
• Extended Wide Field EWF plan 10x
eyepieces with 20 mm field of view and adjustable diopter on the left
eyepiece for finity corrected systems (Ø 23.2 mm tube. Tube length 160
mm)
• Extended Wide Field HWF plan 10x eyepieces with 22 mm field of view and adjustable diopter on both eyepieces for infinity corrected IOS plan and plan phase systems and adjustable diopter on the left tube for EPLi systems (Ø 30 mm tube. Tube length 200 mm)
HEAD
• Binocular and trinocular Siedentopf type heads with 30° inclined tubes. Interpupillary distance from 48 to 76 mm.
•
The trinocular head of the Plan infinity corrected models (IS.1153-PLi)
has an optical path selector (100:0 / 50:50) and ± 5 diopter
adjustments on both Ø 30 mm tubes
• The trinocular head of the
E-Plan infinity corrected models (IS.1153-EPLi) has a fixed built-in
beamsplitter (50:50) and ± 5 diopter adjustment on the Ø 30 mm left tube
• The trinocular head of the E-plan finite models (IS.1153-EPL) has
a fixed built-in 50:50 beamsplitter and one ± 5 diopter adjustment on
the
Ø 23.2 mm left tube
• A unique rotating system allows the ergonomic positioning of both tubes in a high (431 mm) and in a low position (397 mm)
• The trinocular head comes with a Ø 23.2 mm photo port
ERGONOMICAL TILTING HEAD
Optional
ergonomic 5 to 35° tilting head, interpupillary distance 48-75 mm and
optional photo attachment with standard Ø 23.2 mm tube (only infinity
corrected models and not suitable for multi head systems)
OBJECTIVES
*optional
All optics are anti-fungus treated and anti-reflection coated for maximum light throughput
NOSEPIECE
Revolving quintuple reversed nosepiece for max. five objectives
STAGE
The iScope can be equipped with three types of stages (designed for 2 slides):
• 156 x 138 mm stage equipped with integrated 79 x 52 mm X-Y mechanical stage
•
187/230 x 140 mm rackless stage equipped with double slide holder and
integrated 79 x 52 mm X-Y mechanical stage. The iScope rackless stage
has no protruding parts, enables more smooth movements and is safer
•
220 x 157 mm ceramic stage with integrated 75 x 50 mm X-Y mechanical
stage protects with a very tough ceramic surface against marks and
scratches. The surface also ensures stray light not to be reflected from
the stage into the objective
The iScope can be supplied with a heating stage which can be set up to 50° Celsius by a PID temperature controller. Only available with new purchased microscopes. Higher temperatures can be achieved on special request
CONDENSERS WITH PHASE CONTRAST SLIDER
There
is a choice of two optional NA. 1.25 phase contrast condenser sets with
phase contrast sliders and plan phase contrast objectives. The
first version one is comes with plan phase 10x and S40x objectives with
matching slider, the second version comes with plan phase 20x and and
S100x oil immersion objectives. Available for iScope 160mm and IOS infinity versions
All sets are supplied with centering telescope and green opaque filter
(Photo: IS.9162 - Phase contrast set)
CONDENSER FOR BRIGHTFIELD
The
standard height adjustable Abbe N.A. 1.25 condenser for brightfield
accepts sliders with phase annuli suitable for plan phase 10x/20x or
S40x/S100x oil immersion IOS objectives for economical phase contrast.
With magnification indication. A slider with a simple dark stop for
darkfield up to 400x magnification is also available
CONDENSER FOR ZERNIKE PHASE CONTRAST
An optional
height adjustable Zernike NA. 1.25 phase contrast disc condenser with
plan phase 10/20/S40x and S100x oil immersion objectives and darkfield
stop position for darkfield contrast up to 400x magnification. Supplied
with alignment telescope and green filter
CONDENSER FOR DARKFIELD
A state-of-the-art
condenser equipped with reflective cardioid mirrors, a high powered 5 W
LED and a S100x objective with built-in iris diaphragm enable a real
1000x magnification darkfield solution
(Product data sheet iScope models for darkfield, see downloads)
FOCUSING
Coaxial coarse and fine adjustments, 200
graduations, 1 μm per graduation, 200 μm per rotation, total travel
range is approximately 24 mm. Supplied with an adjustable rack stop to
prevent damage to sample and objectives. The coarse adjustments are
equipped with friction control
ILLUMINATION
3 W adjustable NeoLED diascopic illumination with internal 100-240 V power supply for brightfield and phase contrast models
The innovative NeoLED design offer larger apertures, allowing the optical system of the iScope microscope to produce images at higher resolutions, very close to the theoretical diffraction limit of the optics. Other benefits of the NeoLED is the low energy consumption, no heating and a long operating lifetime
The Köhler illumination on models with IOS plan and plan phase infinity corrected system provides high contrast and a maximum achievable resolving power of the optics. Also available for other models as option.
SMART LIGHT CONTROL SYSTEM
• The Smart Light Control (SLC) automatically memorises the last used illumination intensity brightness for each individual objective. When switching from one objective to another the SLC system remembers intensity when you return to that objective. Simply rotate the nosepiece to the next objective and the SLC will instantly adjust the illumination intensity to your desired level:
• Light intensity can be locked to stop intensity changing by simply pressing the control button twice
• The LCD screen at the front of the microscope informs the user of the magnification and light intensity settings of the microscope, as well as the sleep and locking modes when activated
• Push the button once to enter/leave sleep mode and push the button twice to enter/leave lock mode
iCARE SENSOR
The unique iCare Sensor is developed to avoid unnecessary loss of energy. The illumination of the microscope automatically switches off shortly after microscopists step away from their position
CSS - CABLE STORAGE SYSTEM
iScope allows users to easily insert the power cable into the back of the instrument, which enables easy storage. The integrated carrying grip at the back of the microscope ensures safe transportation of the microscope
