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Researcher, University of Bristol

Our lab was interested in purchasing a syringe pump from WPI. The company's support was helpful in identifying the required model and even informed us of model-specific limitations (which were of no concern for our intended use). The overall processing and delivery was exceedingly fast – less tha...
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PERIPRO-2HS

PERIPRO-2HS

Peri-Star Pro 2-channel peristaltic pump (0.8-280 mL/min)



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  • Overview
  • Specifications
  • Accessories
  • Citations
  • Related Products

Overview

PERIPRO-2HS Peristar Pro Peristaltic Pump

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Peri Pro Instruction Manual
/ Download as PDF

  • Fluid Flow Range: 0.8-280mL/min: #17 tubing: 3.5-280mL/min
  • Tubing Range: 3.1-6.4mm ID
  • Rotor Speed Range: 1-100rpm
  • Large backlit digital LCD display
  • Display either rotation speed (RPM) or flow rate (mL/min)
  • Accuracy of flow rate: 0.5% using self calibration function

Accurate and precise pumping

Peri-Star Pro peristaltic pumps provide accurate and precise pumping with convenience and versatility. Peri-Star Pro can be run in either flow rate mode (mL/min) or rotation speed mode (rpm). For good laboratory practice, pumps must be calibrated after changing the tubing and solution. Users can easily calibrate Peri-Star Pro to deliver flow as accurate as 0.5% in a wide flow range from 0.01 mL/min to 280 mL/min. Under rotation speed mode, the digitally controlled stepping motor provides accurate and reproducible operation with 0.1% rpm both forward and in reverse.

Easy to use

Large backlit digital LCD display provides readouts of rotation direction, flow rate or rotation speed, tubing ID, drive status and remote control mode simultaneously. Water resistant membrane keypad allows easy programming while protecting LCD display and controls from fluid entry. Built-in Human Machine Interface (HMI) with screen instructions in plain English steps users through initial setup, calibration and operating procedures. The user-friendly interface reduces the need to frequently check the printed manual for instruction and reference.


Rollers

Peri-Star Pro is available in two versions: a 4-roller version for high flow and an 8-roller version for lower volumes while providing high pressure with minimal pulsations. A unique planetary gear design with eight actively driven rollers (four rollers for higher flow rate model), together with independent tubing compression fine adjustment, greatly increases flow accuracy and prolongs tubing life. Snap-on cartridges allow tubing to be changed quickly without cross contamination of solutions.


Specifications

Number of rollers 4
Number of channels 2
Rotor Rotation Clockwise, counter-clockwise
Rotor Speed Range 1-100 rpm
Rotor Speed Resolution 0.1RPM (Remote Only)
Flow Range (All tubing sizes) 0.8-280 mL/min
Tubing ID Range 3.1-6.4 mm ID
Supplied Tubing #17 6.4mm ID, 3.5-280mL/min
Flow Rate Accuracy 0.5%
Self-Calibration Yes
Working Environment 0-45°C, Humidity < 80%
Power 90V - 260VAC, 50 - 60 Hz
Fuse 1A 250V
Dimensions 190 x 162 x 275 mm
Shipping weight 11 lb / 5 kg

Accessories


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503049

503049

Replacement Tubing Cartridge, Large for use with PeriStar Pro H series pumps

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503120

503120

TTL Control Module For use with the MiniStar or PeriStar Pro peristaltic pumps

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Citations

Bonnan, A., Grewe, B., & Frick, A. (2012). Calcium Imaging Techniques In Vitro to Explore the Role of Dendrites in Signaling Physiological Action Potential Patterns. Visualization Techniques. Retrieved from https://link.springer.com/protocol/10.1007/978-1-61779-897-9_8

Cheng, J., Ma, X., Zhang, J., & Su, D. (2012). Diverse modulating effects of estradiol and progesterone on the monophasic action potential duration in Langendorff-perfused female rabbit hearts. Fundamental & clinical  …. Retrieved from https://onlinelibrary.wiley.com/doi/10.1111/j.1472-8206.2010.00911.x/full

Deng, R., Cheng, Y., & Wang, C. (2012). Experiments and simulation on a pulse dampener system for stabilizing liquid flow. Chemical Engineering Journal. Retrieved from https://www.sciencedirect.com/science/article/pii/S1385894712011485

Kurt, A. H., & Buyukafsar, K. (2013). Vasoconstriction induced by G1, a G-protein-coupled oestrogen receptor1 (GPER-1) agonist, in the isolated perfused rat kidney. European journal of pharmacology. Retrieved from https://www.sciencedirect.com/science/article/pii/S0014299913000356

Kurtyka, R., Malkowski, E., & Burdach, Z. (2012). Interactive effects of temperature and heavy metals (Cd, Pb) on the elongation growth in maize coleoptiles. Comptes Rendus  …. Retrieved from https://www.sciencedirect.com/science/article/pii/S1631069112000674

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