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AL-1050

AL-1050

Aladdin SyringeONE:80 High Flow Programmable Syringe Pump



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  • Overview
  • Specifications
  • Accessories
  • Citations
  • Related Products

Overview

Aladdin-220 Syringe Pump

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AL-1050 Instruction Manual
/ Download as PDF

 

  • Automatic dispensing of small volumes

  • Very precise, reproducible flow rate control

  • Displays total volume dispensed in mL or µL units

  • Selectable infusion/withdrawal rate units (mL/hr, µL/hr, mL/min, µL/min)

  • Infusion rate can be changed while pumping

  • Program pump via keypad or from a computer

  • Highly controllable – program sequences without a computer (holds up to 41 programming phases)

  • Network, control, and monitor up to 100 pumps with one computer

  • Hands-free operation with optional foot switch ADPT2

  • Motor stall detection

Channels 1
Type Infusion / Withdrawal
Flow Range 0.004 µL/hr (0.5 µL syringe) to 907 mL/min (140 mL syringe)
Dispensing Accuracy ±1%
Syringe Sizes Accepted 0.5 µL to 60 mL or 140 mL partially filled
Linear Force 20 lb at low speed; 10 lb at maximum speed

 

To meet the demands of a busy lab Aladdin Pumps offer exceptional value providing versatility and reliability for accurately dispensing media down into the nanoliter range.

The Aladdin AL-1050 is a programmable single channel infusion / withdrawal syringe pump. It has a metal casing to provide stability, ensuring less vibration is transferred to the syringes. Setup is easy using the pumps keypad or via a computer with optional PC to pump cable (GN-PC7 or GN-PC25).

The Aladdin AL-1050 can run complex programs with up to 41 pumping phases can be set to change pumping rates; set dispensing volumes; insert pauses; control and respond to external signals; sound the buzzer. (For Linear/Gradient programs use AL-1050X)

Example flow rates

Syringe Size Maximum Rate Minimum Rate
0.5 µL 4434 µL/hr 0.004 µL/hr
1 mL 13.87 mL/min 6.35 µL/hr
3 mL  46.3 mL/min  21.2 µL/hr
5 mL  90.31 mL/min 41.35 µL/hr
10 mL  1308.8 mL/min 59.89 µL/hr
20 mL  227.9 mL/min 104.4 µL/hr
30 mL  292.8 mL/min 134.1 µL/hr
60 mL  444.1 mL/min 203.4 µL/hr
140 mL  907.1 mL/min  415.0 µL/hr

 

Specifications

SYRINGE SIZES up to 60 mL (140 mL partially filled)
NUMBER OF SYRINGES 1
MOTOR TYPE Step Motor, 1/8 to 1/2 step modes
STEPS PER REVOLUTIONS 200
STEPPING (max. min.) 1.8520833 µm to 7.4083333 µm depending on motor speed
MOTOR TO DRIVE SCREW RATIO 28/15
SPEED(max./min.) 80.01 cm/min / 0.0366 cm/hr
PUMPING RATES 444.1 mL/min with 60mL syringe, to 6.35 µL/hr with 1mL syringe
MAXIMUM FORCE 20 lb at min. speed, 10 lb at max. speed
NUMBER OF PROGRAM PHASES 41
RS-232 PUMP NETWORK 100 pumps maximum
POWER SUPPLY Wall adapter 12V DC @ 1000mA
DIMENSIONS 22.9 x 14.6 x 11.4 cm (8.75 x 5.75 x 4.5 in.)
WEIGHT 1.6 kg (3.6 lb)

 
 

Accessories


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ADPT2

ADPT2

Footswitch for Aladdin programmable syringe pumps

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GN-NET25

GN-NET25

Pump-to-pump Network Cable, 25 ft for Aladdin series pumps

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GN-NET7

GN-NET7

Pump-to-pump Network Cable, 7 ft for Aladdin series pumps

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GN-PC25

GN-PC25

PC to pump cable, 25 ft for Aladdin series pumps

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GN-PC7

GN-PC7

PC to pump cable, 7 ft for Aladdin series pumps

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Citations

Birngruber, T., & Ghosh, A. (2013). Cerebral open flow microperfusion: A new in vivo technique for continuous measurement of substance transport across the intact blood–brain barrier. Clinical and  …. Retrieved from https://onlinelibrary.wiley.com/doi/10.1111/1440-1681.12174/full

Ferreira, D., Reis, R., & Azevedo, H. (2013). Peptide-based microcapsules obtained by self-assembly and microfluidics as controlled environments for cell culture. Soft Matter. Retrieved from https://pubs.rsc.org/EN/content/articlehtml/2013/sm/c3sm51189h

Herricks, T., Avril, M., Janes, J., Smith, J., & Rathod, P. (2013). Clonal Variants of Plasmodium falciparum Exhibit a Narrow Range of Rolling Velocities to Host Receptor CD36 under Dynamic Flow Conditions. Eukaryotic cell. Retrieved from https://ec.asm.org/content/12/11/1490.short

Maya, H., Vincent, M., & Nötzli, S. (2013). Increased porosity of electrospun hybrid scaffolds improved bladder tissue regeneration. …  Research Part A. Retrieved from https://onlinelibrary.wiley.com/doi/10.1002/jbm.a.34889/full

Tõnurist, K., Thomberg, T., & Jänes, A. (2013). Polymorphic Behavior and Morphology of Electrospun Poly (Vinylidene Fluoride) Separator Materials for Non-Aqueous Electrolyte Based Electric Double Layer. ECS  …. Retrieved from https://ecst.ecsdl.org/content/50/45/49.short

Tõnurist, K., Thomberg, T., Jänes, A., & Lust, E. (2013). Specific Performance of Electrical Double–Layer Capacitors Based on Different Separator Materials and Non–Aqueous Electrolytes. ECS Transactions. Retrieved from https://ecst.ecsdl.org/content/50/43/181.short

Zander, N., & Orlicki, J. (2013). Electrospun polycaprolactone scaffolds with tailored porosity using two approaches for enhanced cellular infiltration. Journal of Materials  …. Retrieved from https://link.springer.com/article/10.1007/s10856-012-4771-7

Zhang, J., Jiang, D., & Peng, H. (2014). A pressurized filtration technique for fabricating carbon nanotube buckypaper: Structure, mechanical and conductive properties. Microporous and Mesoporous Materials. Retrieved from https://www.sciencedirect.com/science/article/pii/S1387181113005192

Zhang, J., Jiang, D., Peng, H., & Qin, F. (2013). Enhanced mechanical and electrical properties of carbon nanotube buckypaper by in situ cross-linking. Carbon. Retrieved from https://www.sciencedirect.com/science/article/pii/S000862231300568X

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