World Precision Instruments

Search the site by KEYWORD


Quick Finder


Testimonials

Dr Andy MacKenzie, University of the West of Scotland

I have had dealings with WPI for several years and have consistently found their customer service to be second-to-none. They have always provided fast and insightful responses to any technical query and such support has been of enormous help to my laboratory.
read more

SP200iZ

SP200iZ

DISCONTINUED - Two-Syringe Infusion Pump



Choose Quantity
  • Overview
  • Specifications
  • Accessories
  • Citations
  • Related Products

Overview

SP200iZ

There are 1 images available to view - click to enlarge and scroll through the product gallery.

  • Accepts syringe sizes: 10uL - 140mL (two)
  • Minimum Flow Rate: 0.001 uL/hr (10µl syringe)
  • Maximum Flow Rate: 145 mL/min (140 mL syringe)
  • 220-240 V, 50 Hz

Sturdy, reliable, and easy to use

Sturdy and reliable, extremely simple to set up and use - and surprisingly affordable. Liquid crystal displays (LCDs) prompt you through set­up: First, select syringe from table stored in the pump's memory and displayed on the LCD. Next, enter the volume to be dispensed. Finally, enter the flow rate, press "start." It's fast and simple. Your settings are permanently stored in memory - there's no need to re-enter them each day. SP pumps feature preset rate and volume control. Just set the volume you want dispensed. Volume is tracked continuously on the LCD display. Then, when the preset volume has been dispensed, the pump shuts off automatically. The easy-to-read digital display provides realtime readings using both parameters and values for clearer, mistake-free readings. The SP200 Series pumps offer TTL and RS-232C interfaces and automatic shutoff under stall conditions.

Features

This feature-laden two-syringe infusion pump combines a broad speed range and holds a wide range of syringe sizes to meet the requirements of virtually any laboratory application. Features include: holds two syringes, 10 to 140 mL, backlit LCD display, knob locks/unlocks drive block for effortless, drag-free adjustment, simple menu-driven setup: Syringe diameter (selected from displayed table), Dispense volume, Dispense flow rate, continuous dispense volume display, preset volume control and automatic shutoff, settings can be reviewed or changed during operation, optical encoder stall detection, choice of unit selection, last settings stored in permanent memory, built-in RS-232C interface for computer linking or "daisy chaining" up to 100 pumps, and TTL interface for foot switch, timer, relay control; outputs for run indicator, valve control.

Syringe Diameter Minimum Maximum
10 µl 0.46 mm 0.001 µl/hr 21.1 µl/min
25 µl 0.73 mm 0.003 µl/hr 53.15 µl/min
50 µl 1.03 mm 0.005 µl/hr 105.8 µl/min
100 µl 1.46 mm 0.009 µl/hr 212.6 µl/min
250 µl 2.3 mm 0.021 µl/hr 527.6 µl/min
500 µl 3.26 mm 0.042 µl/hr 1060 µl/min
1 ml 4.61 mm 0.083 µl/hr 2119 µl/min
2.5 ml 7.28 mm 0.207 µl/hr 5286 µl/min
3 ml 8.59 mm 0.288 µl/hr 7360 µl/min
5 ml 10.3 mm 0.414 µl/hr 634 ml/hr
10 ml 14.57 mm 0.828 µl/hr 1270 ml/hr
20 ml 19.05 mm 1.414 µl/hr 2171 ml/hr
30 ml 21.59 mm 1.817 µl/hr 2789 ml/hr
50 ml 28.9 mm 3.277 µl/hr 4998 ml/hr
60 ml 26.6 mm 2.757 µl/hr 4234 ml/hr
100 ml 34.9 mm 4.746 µl/hr 7289 ml/hr
140 ml 38.4 mm 5.746 µl/hr 8824 ml/hr

Specifications

Mode Infusion
Syringe Size 10µL to 140mL (two)
Maximum Flow Rate (140 mL syringe 145 mL/min
Minimum Flow Rate 0.001µL/hr
Linear Force 40 Ib (18 kg)
Advance Per Microstep 0.165 micron
Maximum Step Rate 1600 steps/sec
Minimum Step Rate 1 step/100 sec
Accuracy < 1% error
Reproducibility ± 0.1%
Dimensions 11 x 9 x 5.5 in., 28 x 23 x 14 cm
Shipping Weight 12 Ib (5.4 kg)
Notes: Available 95-135 V or 220-240 V, 50/60 Hz

Accessories

Citations

Bett, D., & Stevenson, C. (2013). The postsubiculum and spatial learning: the role of postsubicular synaptic activity and synaptic plasticity in hippocampal place cell, object, and object-location. The Journal of  …. Retrieved from https://www.jneurosci.org/content/33/16/6928.full

Chiew, K., & Braver, T. (2016). Reward favors the prepared: Incentive and task-informative cues interact to enhance attentional control. Journal of Experimental Psychology: Human  …. Retrieved from https://psycnet.apa.org/journals/xhp/42/1/52/

Folbergrová, J., & Ješina, P. (2013). Antioxidant enzymes in cerebral cortex of immature rats following experimentally-induced seizures: upregulation of mitochondrial MnSOD (SOD2). International Journal of  …. Retrieved from https://www.sciencedirect.com/science/article/pii/S0736574812006028

Folbergrová, J., Otáhal, J., & Druga, R. (2012). Brain superoxide anion formation in immature rats during seizures: protection by selected compounds. Experimental Neurology. Retrieved from https://www.sciencedirect.com/science/article/pii/S0014488611004134

Ouyang, Z., & Chen, T. (2015). Systems and methods for analyzing a sample. US Patent 9,129,786. Retrieved from https://www.google.com/patents/US9129786

Vu, H., Quinn, R., & Nguyen, N. (2015). Bioaffinity Mass Spectrometry Screening using Droplet-Based Microfluidics. Micro and Nanosystems. Retrieved from https://www.ingentaconnect.com/content/ben/mns/2015/00000007/00000002/art00005

Zhang, Z., Lyon, T., & Kadow, B. (2016). Conduction Block of Mammalian Myelinated Nerve by Local Cooling to 15-30° C after a Brief Heating. Journal of  …. Retrieved from https://jn.physiology.org/content/early/2016/01/04/jn.00954.2015.abstract

RelatedItems

Our Clients Include:

GlaxoSmithKline
University College London
Novartis
Imperial College
University of Cambridge
University of Oxford

Keep in Touch

We promise NEVER to share your details with anyone. You can opt out at any time.