Compact Design, Save Space
Save up to 50% of space compared to regular workstation
Integrated physical, chemistry and morphology analysis into
one machine
More detecting modes available for users
Urinalysis
U 3600
Urinalysis Hybrid System
An integrated system for upgrading your lab
urinalysis
solution
Advanced Technology,
Accurate Results
Laminar Flow Technology
No need for centrifugation or staining
Particle pass through the imaging area in a
single layer to avoid overlap and aggregation
Sample carry-over less than 0.05%
(Concentration ≤ 100,000 /μL)
≤0.05%
carry-over rate
High-speed Photography Technology
High-speed photography to aviod trailing and blurring
High-resolution images to increase recognition accuracy
Images can be reviewed to minimize the need of manual microscopy
High-speed Photography Technology
High-speed photography to aviod trailing
and blurring, High-resolution images to increase
recognition accuracy, Images can be reviewed to
minimize the need of manual microscopy
Medical Image Recognition (Auto-Particle Recognition)
Accurately extract image feature information for recognition and classification
Powerful clinical database, providing up to 25 automated sediment classification
Combining recognition accuracy with recognition efficiency
Medical Image Recognition (Auto-Particle Recognition)
Accurately extract image feature information for recognition and classification
Powerful clinical database, providing up to 25 automated sediment classification
Combining recognition accuracy with recognition efficiency
Compact Design, Save Space
Save up to 50% of space compared to regular workstation
Integrated physical, chemistry and morphology analysis into
one machine
More detecting modes available for users
>1200 mm
Workstation
512 mm
Hybrid System
User-friendly Operation,
Simple and Efficient
No centrifugation or
staining required
No need for high and
low magnification
conversion
No dilution required
Comprehensive Parameters,
More Detection Choices
5
Physical
Parameters
14+2
Chemistry
Parameters
46
Formed Particle
Parameters