Here is a Leica DMIL Inverted Phase Contrast Microscope
Currently setup for Brightfield and Phase Contrast
Predecessor to:
This is a predecessor to Leica DMIL LED - only difference is the brightfield bulb is halogen vs LED. It will arrive to you with a new halogen bulb.
Condition:
This Leica DMIL Microscope is in good working order with all aspects of this unit tested to be working fully.
Microscope optics have been cleaned professionally by our technician under a Class 10,000 clean room hood.
Testing we performed:
This Leica DMIL Microscope passed all tests and was found to be fully functional:
Tested the Z-axis Focus.
Tested Halogen lamp and Intensity adjustment Fully.
Tested Trinocular head 50/50 Eye/Camera split.
Tested Live feed to the Computer from the Camera.
Tested Objective turret rotation.
Tested Phase Contrast slide.
System consists of: Base:
Leica DMIL Inverted Microscope. Head:
Trinocular head 501500
(2) 10x/20 Eyepieces 527002 Prisms and Condensers:
Built in Condenser 0.23 S90 521229
Slider 520805 with Ph1 prism. Brightfield Path / Illumination:
Built in 6V 35W Halogen bulb. Stage:
Leica DMIL Fixed Stage Objectives:
4x/0.10 C Plan 506074
10x/0.22 C Plan Ph1 506078
20x/0.30 C Plan Ph1 506152 Camera:
AmScope MU300 3.1 MP CMOS Digital Camera. Computer and Software:
Dell Latitude i5 running Windows 10 Pro w/ AmScope software.
All communication and power cables.
Configuration and Setup:
Orientation: Inverted
Illumination Type: Brightfield, Phase Contrast
Objectives: C PLAN 4x/0.10 506074, C PLAN 10x/0.22 PH1 506078, C PLAN 20x/0.30 PH1 506152
Light Sources: 6V 35W Halogen
Stage Type: Fixed Stage
This Leica DMIL Inverted Microscope is currently set up for Brightfield with Phase Contrast studies.
The MU300 AmScope CMOS Digital Camera is capable of taking detailed digital images.
The Leica System includes a Dell Latitude i5 Laptop to control the AmScope software.
The included objectives range from 4x to 20x with the 10x eyepieces the maximum magnification is 200x.
Video Description:
The video starts with a full view of the Leica DMIL Inverted Microscope. The camera zooms into the live feed on the computer.
The camera then pans around the DMIL microscope bringing into focus all aspects that are easily viewed.
The live feed is shown as the sample is moved around to show communication.
The halogen lamp intensity is shown being changed. Finally the camera shows the view via the eyepieces.
Please do not hesitate to contact us if you have any questions.
All equipment warranty request must have a support case opened within the 60-day Domestic USA and 30-day International warranty period.
To open a support case, please send an email to support@microscopeguru.com or call (617) 397-3486.
Please provide your name, contact information, quotation/invoice number and a brief description of the issue that you are experiencing.
Phone and/or Email support will be provided prior to scheduling a return.
Please see the link below for our detailed warranty statement.
Customers must retain all original shipping materials during the warranty period.
Here we are showing you our standard packing process
1. All items are different, but they all follow the same principle when packaging.
2. Start with a well-constructed crate
A well-constructed crate would consist of 1/2” to 5/8” Plywood with framing. We generally purchase our crates from a third party who specializes in custom crates.
3. You always want the Instrument to not be directly on the wood deck of the crate. This is done by placing it on foam, inside of the crate. We use 2” 1.7 lb. density foam which works great. It provides cushioning and enough firmness to support the Instrument.
4. The next step is to make sure there is nothing on the deck of the Instrument and the Head/ Arm is secured. In some cases there will be multiple arms to secure but for this example there is only one. The reason for this is so there is no free movement during transit which could cause serious damage to the Instrument.
5. The next step is to make sure your Instrument is covered in either a pallet bag or shrink wrap so no dust or foreign object will get into the crate.
6. The next step is to secure the instrument inside the crate by bracing. We use a method of 2x4’s which have 1” foam shrink wrapped to them so no piece of wood touches the actual instrument.
7. Final step is to photograph everything inside the crate and then seal it with screws.