|Display Type||LCD, 2 x 16 signs|
|Orbit Mm||20 mm|
|Temperature Setting Range||25-80 Deg C|
|Speed Control Range||Speed control range|
|Temperature Stability||+-0.5 Deg C|
|Temperature setting resolution||0.1 Deg C|
|Digital time setting||1 min-96 hrs / non-stop (1 min increment)|
|Maximum load||8 kg|
|Maximum continuous operation time||30 days|
|Power consumption||450 W (2 A) / 450 W (4.5 A)|
|Nominal operating voltage||230 V, 50/60 Hz or 120 V, 50/60 Hz|
|Dimensions of the Inner Chamber||460 X 400 X 310 Mm|
|Overall Dimensions||590 X 525 X 510 Mm|
Preferred Buyer From
|Location||India, Benin, Egypt, South Africa, Argentina, Brazil, Canada, Mexico, United States, Afghanistan, Bahrain, Bangladesh, China, Hong Kong, India, Indonesia, Iran (Islamic Republic of), Iraq, Israel, Japan, Jordan, Kuwait, Malaysia, Nepal, Oman, Pakistan, Philippines, Saudi Arabia, Singapore, Korea, Republic of, Sri Lanka, Syrian Arab Republic, Taiwan, Thailand, Turkey, United Arab Emirates, Viet Nam, Yemen, France, Germany, Greece, Italy, Netherlands, Poland, Romania, Russian Federation, Spain, Ukraine, United Kingdom, Australia, New Zealand|
Orbital Shaker–Incubator ES-20/60 for biotechnological and pharmaceutical laboratories is a professional category equipment designed for cultivation of microorganisms and eukaryotic cells including animal, plant and insect cells. It is also possible to cultivate thermofilic bacteria in ES-20/60 shaker-incubator.
Shaker is equipped with a direct-drive mechanism for platform motion. It provides reliable and stable operation for the long term experiments needed for cell growth.
Shaker–Incubator ES-20/60 provides smooth or intensive mixing in flasks installed on the platform.
Built-in noiseless thermoresistant brushless fan provides precise temperature distribution inside the chamber (adjustable for up to +80°C). The inner chamber is made of stainless steel. State–of–the–art motor, newest thermal insulation materials, soft-start of the platform motion and temperature PID–control decrease the energy consumption and make the Shaker–Incubator highly energy efficient despite its relatively large size.