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Standard Infuse/Withdraw Pump 11 Pico Plus Elite Programmable Syringe Pump

SKU 00058
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The Pump 11 Pico Plus Elite expands its capabilities to satisfy your experimental requirements. The Pump 11 Pico Plus Elite is the lowest flow, highest accuracy pump with unparalleled ease of use with a high resolution touch screen with intuitive icon interface. It can deliver volumes down to 0.54 pl/min. This infusion/withdrawal dual syringe pump is ideal for applications such as microdialysis. The Pump 11 Elite Series allows you to create, save and run simple to complex methods without a PC.

Item#DescriptionPricingQuantity
70-4506Pump 11 Pico Plus Elite Infusion/Withdrawal Programmable Dual Syringe PumpGet a Quote
70-4511Pump 11 Pico Plus Elite Infusion/Withdrawal Programmable Single SyringeGet a Quote

This syringe pump has a new mechanism that includes a tight gripping, more secure syringe clamp for syringes ranging from 0.5ul to 10 ml (dual channel version) or 0.5 ul to 60 ml (single channel version). The Pump 11 Pico Plus Elite offers enhanced flow performance with high accuracy and smooth flow from 0.54 pl/min to 11.70 ml/min (dual channel version) or 0.54 pl/min to 39.77 ml (single channel version).

The Pump 11 Pico Plus Elite is an Infusion/Withdrawal Programmable Syringe Pump available in single or dual syringe configurations. This pump has advanced connectivity with a footswitch, USB serial port for computer control, RS-485 (or optional RJ-ll) ports for daisy chaining pumps and Digital I/O for remote control.

Description

The Pump 11 Pico Plus Elite expands its capabilities to satisfy your experimental requirements. The Pump 11 Pico Plus Elite expands its capabilities to satisfy your experimental requirements. The Pump 11 Pico Plus Elite is the lowest flow, highest accuracy pump with unparalleled ease of use with a high resolution touch screen with intuitive icon interface. It can deliver volumes down to 0.54 pl/min. This infusion/withdrawal dual syringe pump is ideal for applications such as microdialysis. The Pump 11 Elite Series allows you to create, save and run simple to complex methods without a PC.

Features:

  • New color LCD touch screen
  • Intuitive icon interface
  • Up-front control knobs for ease of operation
  • Quick start methods
  • Program simple to complex methods without a PC
  • Relative time clock
  • Vertical or horizontal orientation
  • 35 lb linear force adjustable across the entire flow range
  • Can daisy chain pumps
  • CE, ETL (UL, CSA), WEEE, EU RoHS & CB Scheme
  • 2-year warranty

Applications:

  • Nanofluidics
  • Microfluidics
  • Microdialysis
  • Accurate delivery of coatings
  • Reactor dosing
  • Cell injections
  • Fluid sampling
  • High presure injection
  • Low pressure chromatography
  • Flow programming
  • Binary gradients
  • % composition step changes
  • I/O interactive experiments

This syringe pump has a new mechanism that includes a tight gripping, more secure syringe clamp for syringes ranging from 0.5ul to 10 ml (dual channel version) or 0.5 ul to 60 ml (single channel version). The Pump 11 Pico Plus Elite offers enhanced flow performance with high accuracy and smooth flow from 0.54 pl/min to 11.70 ml/min (dual channel version) or 0.54 pl/min to 39.77 ml (single channel version).

The Pump 11 Pico Plus Elite is an Infusion/Withdrawal Programmable Syringe Pump available in single or dual syringe configurations. This pump has advanced connectivity with a footswitch, USB serial port for computer control, RS-485 (or optional RJ-ll) ports for daisy chaining pumps and Digital I/O for remote control.

Since 1901 Harvard Apparatus has been supporting bioresearch fluidics requirements with the culmination being the introduction of the first commercial syringe pump for bioresearch in 1956. Since 1956, over 70,000 satisfied syringe pump users around the world have made Harvard Apparatus syringe pumps the worlds #1 choice.

The Pump 11 Pico Plus Elite is a low flow syringe pump designed for use in applications including: microdialysis, microfluidics, cellular injections and fluid sampling.

Advanced Programming Features:

  • Contstant Rate
  • Ramp
  • Gradients
  • % composition (up to two solvents)
  • Autofill
  • I/O — dedicated and user defined I/O

Easy-to-Use Interface
The Pump 11 Pico Plus Elite color LCD touch screen graphic user interface is divided into three basic areas: Operations Display, Message Area, and Navigation. This configuration allows you to easily move through all menu selections and data entry by gently touching the onscreen buttons with a finger or the tip of a soft, non-sharp object such as a pencil eraser.

The Methods Main or Quick Start screens are the primary set up screens for the applications. From those screens you can access all the commands needed to operate the Pump 11 Elite, as well as the main system settings.

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

Program Description
To operate the Pump 11 Pico Plus Elite, the user defines all the required parameters for infusing or withdrawing liquids through a Pump Control Method. The basic operation is a simple 4-step procedure:

1. Select a method
2. Enter operating parameters
3. Preview your method
4. Run your method

Advanced GLP Documentation Features:

  • Download experimental parameter information to PC
  • Alpha/numeric keypad for method naming

Accessories
A full range of accessories are compatible with the Pump 11 Pico Plus Elite including syringe heaters, connectors, tubing, syringes and more.

Specifications70-450670-4511
Pump ConfigurationStandardStandard
Pump FunctionInfusion/Withdrawal/ProgrammableInfusion/Withdrawal/Programmable
Flow Rate Maximum11.70 ml/min using 10 ml syringe39.77 ml/min using 60 ml syringe
Flow Rate Minimum0.54 pl/min using 0.5 µl syringe0.54 pl/min using 0.5 µl syringe
Syringe Size Minimum0.5 µl0.5 µl
Syringe Size Maximum10 ml60 ml
Max Linear Force35 lbs @ 100% Force Selection35 lbs @ 100% Force Selection
I O TTL Connectors15 pin D-Sub Connector15 pin D-Sub Connector
RS 232 Connectorsoptional RJ-11optional RJ-11
USB ConnectorsType BType B
Accuracy±0.35%±0.35%
Non Volatile MemoryStorage of all settingsStorage of all settings
Drive Motor0.9° Stepper Motor0.9° Stepper Motor
Motor Drive ControlMicroprocessor with 1/16 microsteppingMicroprocessor with 1/16 microstepping
Number of Microsteps per one rev of Lead Screw20,48020,480
Step Rate Minimum27.5 sec/µstep27.5 sec/µstep
Step Rate Maximum26 µsec/µstep26 µsec/µstep
Step Resolution0.031 µm/µstep0.031 µm/µstep
Pusher Travel Rate Minimum0.068 µm/min0.068 µm/min
Pusher Travel Rate Maximum71.55 mm/min71.55 mm/min
Display4.3″ WQVGA TFT Color Display with Touchpad4.3″ WQVGA TFT Color Display with Touchpad
Input Power12-30 VDC12-30 VDC
Voltage Range100-240 VAC, 50/60 Hz100-240 VAC, 50/60 Hz
Dimensions Control Box LxDxH in cm9.0 x 7.0 x 6.0 (22.6 x 17.78 x 15.0)9.0 x 7.0 x 6.0 (22.6 x 17.78 x 15.0)
Net Weight Metric2.1 kg2.1 kg
Net Weight English4.6 lb4.6 lb
Environmental Operating Temperature Metric4°C to 40°C4°C to 40°C
Environmental Operating Temperature English40°F to 104°F40°F to 104°F
Environmental Storage Temperatue Metric-10°C to 70°C-10°C to 70°C
Environmental Storage Temperatue English14°F to 158°F14°F to 158°F
Environmental Humidity20% to 80% RH, non condensing20% to 80% RH, non condensing
Mode of OperationContinuousContinuous
ClassificationClass IClass I
Pollution Degree11
Installation CategoryIIII
Regulatory CertificationsCE, UL, CSA, CB Scheme, EU RoHSCE, UL, CSA, CB Scheme, EU RoHS

Journal Articles

Janine Mok, Michael N. Mindrinos, Ronald W. Davis & Mehdi Javanmard (2014 ) Digital microfluidic assay for protein detection PNAS (Proceedings of the National Academy of Sciences)

Ming Li, Xiang Wu, Liying Liu, Xudong Fan Lei & Xu (2013 ) Self-Referencing Optofluidic Ring Resonator Sensor for Highly Sensitive Biomolecular Detection Analytical Chemistry

Tsung-Feng Wu, Zhe Mei, Yu-Hwa Lo (2013 ) Label-free optofluidic cell classifier utilizing support vector machines Sensors & Actuators B: Chemical

Pengfei Song, Weize Zhang, Alexandre Sobolevski, Kristine Bernard, Siegfried Hekimi & Xinyu Liu (2014 ) A Microfluidic Device for Caenorhabditis Elegans Based Chemical Testing Micro and Nano Systems Engineerign and Packaging

Kunqiang Jiang, Annie Xi Lu, Panagiotis Dimitrakopoulos, Don L. DeVoec & Srinivasa R. Raghavan (2015 ) Microfluidic generation of uniform water droplets using gas as the continuous phase Journal of Colloid and Interface Science

Shuqing Gua, Youlan Lu, Yaping Ding, Li Li, Hongsheng Song, Jinhua Wang & Qingsheng Wu (2014 ) A droplet-based microfluidic electrochemical sensor using platinum-black microelectrode and its application in high sensitive glucose sensing Biosensors & Bioelectronics

Malte F. Alf, Matthias T. Wyss, Alfred Buck, Bruno Weber, Roger Schibli & Stefanie D. Krämer (2012 ) Quantification of Brain Glucose Metabolism by 18F-FDG PET with Real-Time Arterial and Image-Derived Input Function in Mice Journal of Nuclear Medicine

Bernhard Unsöld, Nils Teucher, Michael Didié, Samuel Sossalla, Claudius Jacobshagen, Tim Seidler, Wolfgang Schillinger & Gerd Hasenfuß (2015 ) Negative Hemodynamic Effects of Pantoprazole at High Infusion Rates in Mice Cardiovascular Therapeutics

Dong, Shirley (2015 ) The anxiolytic effect of oxytocin is specific to oxytocin receptors in the prelimbic medial prefrontal cortex The Ohio State University: Department of Neuroscience Honors Theses

Timothy M. Alligrant, Elizabeth G. Nettletona & Richard M. Crooks (2012 ) Electrochemical detection of individual DNA hybridization events Lab On A Chip

Klaus Mathwig, Dileep Mampallil, Shuo Kang & Serge G. Lemay (2012 ) Electrical Cross-Correlation Spectroscopy: Measuring Picoliter-per-Minute Flows in Nanochannels Physical Review Letters

Zhe Mei, Sung Hwan Cho, A. Zhang, Jie Dai, Tsung-Feng Wu & Yu-Hwa Lo (2012 ) Counting leukocytes from whole blood using a lab-on-a-chip Coulter counter 2012 Annual International Conference of the IEEE Engineering in Medicine and Biology Society

Eiji Shigetomi, Olan Jackson-Weaver, Robert T. Huckstepp, Thomas J. O’Dell & Baljit S. Khakh (2013 ) TRPA1 Channels Are Regulators of Astrocyte Basal Calcium Levels and Long-Term Potentiation via Constitutive d-Serine Release Journal of Neuroscience

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