Remote Infuse/Withdraw Pump 11 Elite Nanomite Programmable Syringe Pump

SKU 70-4507
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Remote Infuse/Withdraw Pump 11 Elite Nanomite Programmable Syringe Pump
Product Details

The Pump 11 Elite Nanomite is a single syringe infusion/withdrawal programmable syringe pump with a flow rate range of 3.66 pl/min to 3.818 ml/min with 11 lbs of adjustable force across the entire flow rate range. It can accommodate syringes from 0.5 µl to 1 ml.

The Pump 11 Elite Nanomite Syringe Pump is very easy to use with an LCD color touch screen and icon interface. This pump allows you to create, save and run simple to complex Methods without a PC. The Method profiles available on this pump are Constant Rate, Ramp, Gradient (binary) and Autofill. Delays can be set using the relative time clock.

The Message Area of the touch screen is used to display helpful instructions for the currently displayed screen. It is also used to display error or warning messages to indicate problem conditions in a Method or error conditions during pump operation. The Run Screen shows all of the pump parameters on one screen for easy review.

Pump 11 Elite Nanomite Infusion/Withdrawal Programmable Syringe Pump

The Pump 11 Elite Nanomite is a single syringe infusion/withdrawal programmable syringe pump with a flow rate range of 3.66 pl/min to 3.818 ml/min with 11 lbs of adjustable force across the entire flow rate range. It can accommodate syringes from 0.5 µl to 1 ml.

Features:

  • Easy-to-use LCD color touch screen with GUI interface
  • Light weight makes it ideal for hand-held or stereotaxic injection
  • Up-front control knobs for ease of operation
  • Quick start methods
  • Easily Program simple to complex methods without a PC
  • Relative time clock
  • Vertical or horizontal orientation
  • 11 lb linear force adjustable across the entire flow range
  • Can daisy chain pumps
  • CE, ETL (CSA, UL), WEEE, EU RoHS, CB Scheme Approved
  • 2 -year warranty

Applications:

  • Cellular Injections
  • Drug Delivery
  • Microinjections
  • Hand-held Automated Delivery
  • Stereotaxic Injections
  • Feeding Cells
  • Regenerative Medicine

The Pump 11 Elite Nanomite Syringe Pump is very easy to use with an LCD color touch screen and icon interface. This pump allows you to create, save and run simple to complex Methods without a PC. The Method profiles available on this pump are Constant Rate, Ramp, Gradient (binary) and Autofill. Delays can be set using the relative time clock.

The Message Area of the touch screen is used to display helpful instructions for the currently displayed screen. It is also used to display error or warning messages to indicate problem conditions in a Method or error conditions during pump operation. The Run Screen shows all of the pump parameters on one screen for easy review.

The software is organized into three main navigational branches, the quick start Methods, user-defined Methods, and system settings. You can control operations directly through the touch screen or remotely from an independent computer or device via the external I/O interface.

The Pump 11 Elite Nanomite has a footswitch input, USB serial port for computer control, RS-485 ports for daisy chaining pumps and Digital I/O for external control via an independent computer or device. There is also an option for daisy chaining pumps through the RS-232 (RJ-11) ports. This option must be ordered at the time the pump is ordered.

This pump consists of a control unit, an injection unit, a 6 foot cable to connect the two units and a footswitch.

Specifications 70-4507
Accuracy ±0.5%
Classification Class I
Dimensions Control Box LxDxH in cm 9.0 x 7.0 x 3.67 (22.6 x 17.78 x 9.32)
Dimensions Mechanism LxDxH in cm 2.5 x 2.0 x 7.5 (6.35 x 5.08 x 19.05)
Display 4.3" WQVGA TFT Color Display with Touchpad
Drive Motor 1.8° Stepper Motor
Environmental Humidity 20% to 80% RH, non condensing
Environmental Operating Temperature English 40°F to 104°F
Environmental Operating Temperature Metric 4°C to 40°C
Environmental Storage Temperatue English 14°F to 158°F
Environmental Storage Temperatue Metric -10°C to 70°C
Flow Rate Maximum 3.818 ml/min using 1 ml syringe
Flow Rate Minimum 3.66 pl/min using 0.5 µl syringe
I O TTL Connectors 15 pin D-Sub Connector
Input Power 12-30 VDC
Installation Category II
Max Linear Force 11 lbs @ 100% Force Selection
Mode of Operation Continuous
Motor Drive Control Microprocessor with 1/16 microstepping
Net Weight Control Box English 4.32 lb
Net Weight Control Box Metric 1.96 kg
Net Weight Remote Mechanism English 1.01 lb
Net Weight Remote Mechanism Metric 0.458 kg
No of Syringes 1
Non Volatile Memory Storage of all settings
Number of Microsteps per one rev of Lead Screw 3,200
Pollution Degree 1
Pump Configuration Remote
Pump Function Infuse/Withdraw, Programmable
Pusher Travel Rate Maximum 228.97 mm/min
Pusher Travel Rate Minimum 0.433 µm/min
RS 232 Connectors optional RJ-11
Regulatory Certifications CE, ETL (UL, CSA), WEEE, EU RoHS & CB Scheme
Step Rate Maximum 52 µsec/µstep
Step Rate Minimum 27.5 sec/µstep
Syringe Rack Type Standard Rack
Syringe Size Maximum 1 ml
Syringe Size Minimum 0.5 µl
USB Connectors Type B
Voltage Range 100-240 VAC, 50/60 Hz

Journal Articles

Morris, Susan H. PhD, Howard, Jason J. MD; Rasmusson, Douglas D. PhD & El-Hawary, Ron MD (2015) Validity of Transcranial Motor Evoked Potentials as Early Indicators of Neural Compromise in Rat Model of Spinal Cord Compression Spine: An International Journal for the study of the spine

Laura C. Manella, Samuel Alperin & Christiane Linster (2013) Stressors impair odor recognition memory via an olfactory bulb-dependent noradrenergic mechanism Frontiers in Integrative Neuroscience

Antonio Riccio, Yan Li, Evgeny Tsvetkov,Svetlana Gapon, Gui Lan Yao, Kiersten S. Smith, Elif Engin, Uwe Rudolph, Vadim Y. Bolshakov & David E. Clapham (2014) Decreased Anxiety-Like Behavior and Gαq/11-Dependent Responses in the Amygdala of Mice Lacking TRPC4 Channels The Journal of Neuroscience

Jeong Ha Yoo, Deok Ha Woo, Mi-Sook Chang & Myung-Suk Chun (2014) Microfluidic based biosensing for Escherichia coli detection by embedding antimicrobial peptide-labeled beads Sensors & Actuators B: Chemical

Zhidan Liang, Claire M. Schmerberg & Lingjun Li (2014) Mass spectrometric measurement of neuropeptide secretion in the crab, Cancer borealis, by in vivo microdialysis Analyst