CMM-Manager 8 Pages. Newsmagazine Vol. MCT 4 Pages. LC60Dx 4 Pages. LC15Dx 8 Pages. NWL 5 Pages. XT V Series 12 Pages. MM-Series 15 Pages. Stereo microscopes 32 Pages. NIS-Elements 20 Pages. Laser Radar General 6 Pages.
Digital sight series 9 Pages. L Laser scanner 8 Pages. Nikon Metrology Solutions 40 Pages. Industrial Instruments General Catalogue 9 Pages. Profile Projectors 12 Pages. XT H Series 12 Pages. Automated CT 8 Pages. Configurable X-ray CT systems 12 Pages. Focus 6 Pages. Further, the system was equipped with a new technology that would reduce Signal to Noise ratios, aptly called the Noise Terminator, which provided a state of the art solution for visual artifact, which had become a considerable issue as digital technology became more advanced.
The Eclipse TE U was the universal microscope which added 4 output ports to give it maximum flexibility to upgrade the system to a large range of techniques from simple microscopy to more advanced digital and fluorescent techniques.
Item Information Condition:. Sign in to check out Check out as guest. The item you've selected was not added to your cart. Best Offer:. Make Offer. Add to Watchlist Unwatch.
Watch list is full. No returns. This amount is subject to change until you make payment. For additional information, see the Global Shipping Program terms and conditions - opens in a new window or tab. Located in:. Wilmington, Delaware, United States. For additional information, see the Global Shipping Program terms and conditions - opens in a new window or tab This amount includes applicable customs duties, taxes, brokerage and other fees.
Estimated between Sat. Delivery times may vary, especially during peak periods. Seller does not accept returns See details. Special financing available. See terms and apply now See terms and apply now for PayPal Credit - opens in a new window or tab.
Any international shipping and import charges are paid in part to Pitney Bowes Inc. Learn More - opens in a new window or tab International shipping and import charges paid to Pitney Bowes Inc.
Learn More - opens in a new window or tab Any international shipping and import charges are paid in part to Pitney Bowes Inc. Learn More - opens in a new window or tab Any international shipping is paid in part to Pitney Bowes Inc. The PFS automatically and continuously maintains focus by means of a built-in linear encoder and high speed feedback mechanism, providing highly reliable images even during long-term, complex imaging tasks.
PFS is compatible with a wide range of applications, from routine experiments involving plastic culture dishes to single-molecule imaging and multi-photon imaging. It is also compatible with a wide range of wavelengths, from ultraviolet to infrared, meaning it can be used for multi-photon and optical tweezer applications.
The performance of long-term imaging using the PFS together with water immersion objectives can be increased by using the new Water Immersion Dispenser. The Water Immersion Dispenser automatically applies the appropriate amount of pure water to the tip of an objective, preventing the immersion liquid from drying out and overflowing during experiments.
It is compatible with all types of water immersion objectives and helps to stably provide high-resolution, high-contrast and aberration-corrected time-lapse images over long periods of time. It is no longer necessary to memorize complex microscope alignment and operation procedures. The Ti2 integrates data from sensors to guide you through these steps, eliminating user error and enabling researchers to concentrate on their data.
A collection of built-in sensors detects and relays status information for a variety of components in the microscope. In addition, a built-in internal camera allows users to view the back aperture, facilitating confirmation of phase ring alignment and extinction cross in DIC. It also provides a laser-safe method for aligning lasers for applications such as TIRF.
Microscope status can be viewed on a tablet and also determined based on status lights on the front of the microscope, enabling status determination in a dark room.
The Ti2's Assist Guide function provides interactive step-by-step guidance for microscope operation. The Assist Guide can be viewed on a tablet or PC, and integrates real time data from built-in sensors and an internal camera. The Assist Guide is designed to help users through alignment procedures for both experiment setup and troubleshooting. The Check Mode allows users to easily confirm, on either a tablet or PC that all the correct microscope components are in place for their chosen observation method.
This capability eliminates time and effort normally required for troubleshooting when the desired observation method is not achieved. This functionality is particularly advantageous when multiple users are involved, each with the potential to make unexpected changes to the microscope settings. Custom check procedures can also be pre-programmed.
The Ti2 has been completely redesigned, from the overall body design to the selection and placement of every button and switch, for the ultimate in user experience. The controls are easy to use even in the dark, where the majority of imaging experiments are conducted. The Ti2 provides an intuitive and effortless user interface so researchers can focus on the data and not on microscope control. The placement of all of the buttons and switches are based on the type of illumination they control.
Buttons that control diascopicobservation are positioned on the left side of the microscope and those that control epi-fluorescence observation are on the right side. Buttons that control common operations are on the front panel. This use of zoning provides an easy-to-remember layout, a desirable feature when operating the microscope in a dark room. Shuttle switches have been incorporated into the design to control devices such as the fluorescence filter turret and objective nosepiece.
These types of switches emulate the feel of manually rotating these devices, for intuitive control. Additional functionality can be incorporated into these shuttle switches so that a single switch can operate multiple related devices. For example, the shuttle switch for the fluorescence filter turret not only rotates the turret but also opens and closes the fluorescence shutter when the user presses the switch.
It is also possible to program these switches to operate a barrier filter wheel and the external phase contrast unit. Conveniently located Function buttons allow customization of the user interface. Mode functions, which enable instant changing of observation methods by storing the settings of each motorized device, can also be assigned to these buttons. A focus acceleration button and a PFS engagement button are provided adjacent to the focusing knobs.
The two buttons are easily identified by touch because of their different shapes.
0コメント