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Molecular Devices

    Microfuge 20 Series

    Height, door closed: 29.1 cm (11.5 in.) 
    Temperature Display: chamber temperature in 1°C increments 
    Width: 31.0 cm (12.2 in.) 
    Depth: 66.0 cm (26.0 in.) 
    Weight: 32 kg (70.5 lb) 
    Electrical Requirements: 220–240 VAC, 2.4 A, 50 Hz 
    Maximum Heat Dissipation into Room under Steady-State Conditions: 1433 BTU/h (420 W) 
    Noise Level 0.91 meters (3 feet) in Front of Centrifuge: < 58 dB 
    Set Speed: 15,000 rpm (in 100-rpm increments) min: 200 rpm 
    Set Temperature: –10 to +40°C (in 1°C increments) 
    Set Time: 99 min, 59 sec in one second increments or continuous (∞) 
    Speed Control: actual rotor speed, ± 50 rpm of set speed 
    Temperature Control: ± 2.5°C of set temperature 
    Ambient Temperature Range: 5 to 35°C 
    Clearances Required: 30 cm (11.8 in.) (sides) 
    Humidity Restrictions: <80% (noncondensing) 
    Pollution Degree: 2 
    Time -- Actual Display: time remaining in run (timed run ±1 min accuracy) or ∞ and elapsed 
    Installation Category: II 
    Speed Display: actual rotor speed in 100-rpm increments or in RCF (when selected) 
    Temperature Display: chamber temperature in 1°C increments  ​

     

     

    Microfuge 20 Series - Versatility to meet your application needs 

    Versatility to meet your application needs

    • Available in both refrigerated (Microfuge 20R) and non-refrigerated (Microfuge 20) versions
    • Four different rotor options from which to choose
    • Safely process hazardous samples with an optional BioCertified rotor
    Microfuge 20 Series - Increased speed and capacity 

    Increased speed and capacity

    • Quickly process samples at maximum speeds of up to 15,000 rpm (20,627 x g)
    • Spin more samples per run with a maximum capacity of 36 x 1.5/2.0 mL tubes
    Microfuge 20 Series - Easy to use and incorporate into your lab 

    Easy to use and incorporate into your lab

    • Intuitive user interface displays both speed (rpm) and RCF (xg)
    • Decrease setup time with user-defined programs for common protocols
    • Lower utility costs with increased energy efficiency