Olympus Ix50 Manual



  1. Created Date: 3511Z.
  2. Olympus IX50 - ULisboa Olympus IX50 manual fluorescence microscope with mercury fluorescence illuminator, Nomarski/DIC Prism, cool CCD for fast low-light imaging, motorized filter wheels and micromanipulation / microinjection.

Brochures & Manuals The IX50 is an inverted system microscope that addresses the observation and imaging needs of high-level laboratory and clinical applications. Modular design and the excellence of its optical system serve tasks from cell culture observation to fluorescencemicroscopy and in-vitro fertilization. Arcturus PixCell II Laser Microdissection With Olympus IX50-S8F2 Microscope Includes UPlanFl 4x/0.13, UPlanFl 10x/0.30, LCPlanFl 20x/0.40, LCPlanFl 40x/0.60 Objective lens Eyepieces are WH10X/22 Olympus Optical LampHouse U-LH100L-3 w/ Power Supply TH4-200 Lamp House Sony CCD-IRIS/RGB Hyper HAD camera with sony camera adaptor CMA-D2.

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Wireless Digital Imaging

Convert each microscope into a wireless imaging system and enhance collaboration in the classroom.

Inspiring Enthusiasm

Breaking away from static microscope labs, the EP50 camera and WLAN adaptor can transform the classroom into a dynamic, interactive space.

  • Flexible camera control and viewing options: connect using mobile devices or WLAN-enabled PCs/laptops via wireless or wired LAN connection
  • High-quality, crisp, 5-megapixel images
  • Fast frame rates enable students to navigate quickly through the specimen

Interactive Learning

The flexible camera control and viewing options offered by the complimentary EPview app software expand interaction and collaboration possibilities:

  • Control the EP50 camera using the EPview app for mobile devices or software for PCs/laptops (see specs for version compatibility)
  • Up to 6 users can connect their devices to the same WLAN-enabled EP50 camera
  • Access the images of other EP50 cameras in the classroom
  • Capture, process, store, and share the EP50 camera's images through the easy-to-use software interface
  • Simultaneous live image output via WLAN and HDMI

The EPview app is free-of-charge and can be downloaded at the following links:


EPview Android Application

Engaging Lectures

Lecturers and students can both benefit from the image sharing, viewing, and storage options of the EP50 WLAN-enabled camera:

  • Live stream images to a group of students on their mobile devices or WLAN-enabled PCs/laptops
  • Display specimen images on a high-resolution monitor, projector, or interactive white board connected to the camera’s HDMI port
  • Present Full HD videos
  • Connect an SD card and save captured image data for further analysis

Improved Learning Process

Students can experience a digital-image-supported learning process:

  • Students can work comfortably, on their own or in collaboration, using the camera’s On-Screen Display (OSD) imaging software
  • The OSD software is simple and intuitive
  • Easily capture, view, and process specimen images and movies
  • Save observation data for further investigation on an SD card

Need assistance?

The EP50 is not for clinical diagnostic use.

Digital Classroom

A WLAN-enabled Olympus EP50 camera is capable of creating its own wireless network or it can be integrated into LAN networks using its USB-to-Ethernet adaptor, providing flexible classroom configuration options:

  • Through a WLAN connection, students can control the camera using the EPview software and observe and present digital images from their microscopes
  • Teachers and students can directly access live microscope images, making the classroom a truly interactive space
  • Through a LAN network with a router and using the EPview app software, entire classrooms can view a camera’s images on their mobile devices or WLAN-enabled PCs/laptops

PC/Laptop-Powered Learning

Users with WLAN-enabled PCs and laptops with Windows operating systems can download and install the free EPview software.

The EPview software for PCs/laptops offers the same camera-control and functionalities as EPview for mobile devices, including viewing, capturing, processing, saving, and sharing the acquired images and movies.

Share Images on Monitors or Projectors

Use the HDMI port to connect the camera to monitors and projectors to display and share live or previously captured images. Sharing 60 fps Full-HD live images or videos can transform the microscopy classroom from an individual experience into an engaging group activity. Simultaneous output through both WLAN connection and HDMI is available.

Stand-Alone Mode

With only a monitor and a USB mouse, users can control the EP50 camera using its On-Screen Display (OSD) software.

This setup has several advantages:

  • Easy-to-use user interface for classroom learning
  • No PC required, reducing equipment costs and space requirements in a classroom
  • Increased flexibility as less bench space is needed
  • Students can observe the live image, record images on an SD card, or measure images with variety of annotations

Need assistance?

Image Sensor
    1/1.8 inch Color CMOS
Resolution (max.)-
A/D Converter

Brightfield image of an ash tree taken with the EP50 camera, a CX23 microscope, and 0.5X C-mount adaptor, 10X

Brightfield image of a colon taken with the EP50 camera, a CX23 microscope, and 0.5X C-mount adaptor, 10X

Brightfield image of oliander taken with the EP50 camera, a CX23 microscope, and 0.5X C-mount adaptor, 10X

Brightfield image of a wheat stem taken with the EP50 camera, a CX23 microscope, and 0.5X C-mount adaptor, 10X

Brightfield image of a willow leaf – with rust taken with the EP50 camera, a CX23 microscope, and 0.5X C-mount adaptor, 10X

Brightfield image of maize taken with the EP50 camera, a CX23 microscope, and 0.5X C-mount adaptor, 10X

Overview of the Course (Report on years 1 to 5; 0.5Mb PDF)

This laboratory course consists of 'table-top' experiments in biological physics, biophotonics, nuclear magnetic resonance, optics, and soft condensed matter physics.

The experiments in this course have been funded through internal UCSD sources, donations from the UCSD research laboratories of the late Theodore Bullock, Harvey Karten, David Kleinfeld, Mu-ming Poo and Douglas Smith, grants from the NSF (PHY to David Kleinfeld and IGERT to Terrance Sejnowski), and HHMI/NIBIB and NIBIB training grants (to Andrew McCulloch). This course was initiated by Prof. David Kleinfeld in 2001 and offered in 2001-06 (David Kleinfeld), 2008-12 (David Kleinfeld), 2013-14 (Philbert S. Tsai), and 2015 (Jeremie A. Palacci); Prof. Palacci will transform the class with projects in soft condenced matter physics.

Course Schedule through 2012 (0.1Mb PDF)

Manual

The class meets Tuesday and Thursday from 2:00 PM to 6:00 PM during the Spring Quarter in Mayer Hall. Tutorials and presentations are in room 2623 and the laboratory is in room 3722, with an annex in room 3129. There are typicaly seven tutorials, each of which lasts about one hour. One tutorial is an introduction to Matlab, three are on optics and microscopy, one is on electrical measurement, and two are on spectral analysis. The tutorials are associated with formal exercises. On all non-tutorial days, the period from 2:00 PM to 2:40 PM consists of student presentations andround-table discussions.

Exercises

Olympus
Optics and Optical Bench Design
Matrix Methods Lecture Handout: (3.0Mb PDF)
Lab Manual - Basics: (0.1Mb PDF)
Lab Manual - Laser Scanning Microscopy: (0.1Mb PDF)
Lab Manual - Brightfield Microscopy: (0.5Mb PDF)
Electronics
Primer on OpAmp Basics: (1.2Mb PDF)
Primer on Filters and Modularity: (2.1Mb PDF)
Primer on Nonlinear OpAmp Circuits: (0.2Mb PDF)
Spectral Methods in Data Analysis
Basics:(1.1Mb PDF)
Applications:(3.2Mb PDF)

Experiments (reprints and a subset of past reports through 2014)

Olympus Ix50 Manual Free

Belousov-Zhabotinskii Reaction
Reprint: (0.7Mb PDF)
Past Reports:
2003(0.3Mb PDF)
2006(0.3Mb PDF)
2014(5.8Mb PDF)
Bioluminescence
Publications:(2.7Mb PDF)
(0.4Mb PDF)
Past Report:
2009(0.7Mb PDF)
Chaotic Circuits
Past Reports:
2003(0.7Mb PDF)
2006(1.0Mb PDF)
2012(0.8Mb PDF)
Coherent Light Scattering
A study of Brownian motion using light scattering, by Clark, Lunacek & Webb.PDF (1.6 Mb)
Canonical data.PDF (0.1 Mb)
Past Reports:
2002(0.3Mb PDF)
2003(1.0Mb PDF)
2010a(1.3Mb PDF)
2010b(0.5Mb PDF)
Software:(0.1Mb G code)
Continuous Nuclear Magnetic Resonance Spectroscopy (discontinued)
Past Reports
2002(2.0Mb PDF)
Electroencephalography
Past Report:
2012(0.8Mb PDF)
Electromyography
Past Reports:
2013(0.8Mb PDF)
2014(1.2Mb PDF)
Electrophysiology with Leech Neurons
Past Reports:
2004(1.9Mb PDF)
2006(0.3Mb PDF)
2010(1.8Mb PDF)
2014(1.84Mb PDF)
Electrophysiology with Oocytes
Manual (preliminary):(1.6 Mb PDF)
Past Reports:
2002(0.1 Mb PDF)
2003(0.5 Mb PDF)
Endoscopy
Past Report:
2014(0.6Mb PDF)
Fluorescent Imaging of Structure and Function
Past Reports:
2009(1.8Mb PDF)
2010(3.7Mb PDF)
2013(15.7Mb PDF)
Holography
Manual;(0.3Mb PDF)
Red Star Holography Film(0.1Mb PDF)
Introduction to Holography, by Givens(0.3Mb PDF)
Image Location & Magnification by Givens(0.9Mb PDF)
Point Source Holography(0.7Mb PDF)
Holography of Pennies(0.7Mb PDF)
Holography for Modal Analysis(0.5Mb PDF)
Past Reports:
2002(0.1Mb PDF)
2008(4.2Mb PPT)
2011(1.9Mb PDF)
2012(2.5Mb PDF)
2013(12.2Mb PDF)
Laser Doppler Flowometry
Past Reports:
2006(2.5Mb PDF)
2009(0.7Mb PDF)
2010(0.4Mb PDF)
2014(1.0Mb PDF)
Mossbauer Spectroscopy (discontinued)
Past Reports:
2001(0.4Mb PDF)
mRNA Synthesis and Expression in Oocytes
mRNA Synthesis and Expression in Oocytes(1.3Mb PDF)
Past Report:
2001(0.4Mb PDF)
Microfluidics
Past Reports:
2013(1.6Mb PDF)
2014(3.4Mb PDF)
Neuromorphic Circuits
Past Reports:
2008(1.0Mb PDF)
2009(0.5Mb PDF)
2010(0.1Mb PDF)
2011(3.1Mb PDF)
Optical Sectioning
Past Report:
2002(0.5Mb PDF)
Optical Tweezers
Manual (preliminary):(0.7Mb PDF)
Polysciences Microspheres Data Sheet(0.3Mb PDF)
Past Reports:
2002(0.2Mb PDF)
2003(0.2Mb PDF)
2008(3.0Mb PDF)
2009(1.1Mb PDF)
2010(3.2Mb PDF)
2012(1.2Mb PDF)
2014(1.7Mb PDF)
Pulsed Nuclear Magnetic Resonance Spectroscopy
Past Reports:
2004(1.2Mb PDF)
2006(0.2Mb PDF)
2008(2.1Mb PDF)
2012(0.4Mb PDF)
2014(0.6Mb PDF)
Second Harmonic Generation
In vivo two-photon laser scanning microscopy with concurrent plasma-mediated ablation: Principles and hardware realization, by Tsai & Kleinfeld.(6.2 Mb PDF)
Past Reports:
2006(0.4Mb PDF)
2008(0.6Mb PDF)
2009(1.6Mb PDF)
Two Photon Microscopy
In vivo two-photon laser scanning microscopy with concurrent plasma-mediated ablation: Principles and hardware realization, by Tsai & Kleinfeld.PDF (6.2 Mb)
Past Reports:
2006(0.4Mb PDF)
2010(6.2Mb PDF)
2012(0.4Mb PDF)
2013(8.2Mb PDF)
2014(3.1Mb PDF)
Visual Coding in the Fly
Past Reports:
2001(0.4Mb PDF)
2002(1.4Mb PDF)
2004(0.8 Mb PDF)
2006(9.7Mb HTML)
2008(0.7Mb PDF)
2009(0.7Mb DOCX)
2011(0.4Mb PDF)
2012(0.3Mb PDF)
2013(0.3Mb PDF)
2014(0.7Mb PDF)
Zeeman Effect in Mercury
Handout: (1.6Mb PDF)
Past Reports:
<1980(1.4Mb PDF)
2002(0.1Mb PDF)
2003(0.5Mb PDF)

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