array(3) { ["show"]=> bool(true) ["ip"]=> string(13) "162.55.102.88" ["country"]=> string(2) "DE" } desde la funcion de ip obtenemos IP invalida
harvardapparatus.com is a data controller for the purposes of the General Data Protection Regulation ("GDPR"). By proceeding to tick the consent box at right, you consent to harvardbioscience.com processing your personal data, under the GDPR and any other applicable legislation, that we collect from you in accordance with our Privacy Policy. If you wish to withdraw your consent for us to process your personal data please contact our Compliance Team. Please address any questions, comments and requests (including your right to withdraw your consent to process your personal data) regarding our data processing practices to our Compliance Team.
Allow

CMA 402 Microdialysis Syringe Pump

Price on Request
SKU
bbfb2b9d

The CMA 402 Syringe Pump is a compact, flexible, dual syringe pump designed for low pulse-free flow rates suitable for microdialysis experiments and other low flow experiments. Start/Stop and flow rate can be set individually for each syringe.

The pump is precalibrated for 1, 2.5 or 5 mL syringes with flow rates between 0.1 µL/min and 20 µL/min. The flow rates are shown on the LED displays. The CMA 402 Microdialysis Pump is even more flexible when controlled by a computer through the RS-232 interface. For instance, a preset volume can easily be set. A flush feature fills the system at a flow rate of 25 µL/min. The CMA 402 is available in two different versions, one of which includes accessories such as vial holders and probe clips, allowing easier handling of the microdialysis probe.

Please follow this link for microdialysis probes and guides.

 

Grouped product items
Item No. Description Qty
CMA8003100 CMA 402 Microdialysis Syringe Pump with Accessory Kit Please login to add to Quote
CMA8003110 CMA 402 Microdialysis Syringe Pump Please login to add to Quote

The CMA 402 Syringe Pump is a compact, flexible, dual syringe pump designed for low pulse-free flow rates suitable for microdialysis experiments and other low flow experiments.

  • Dual syringes independently controlled 
  • Flow rates from 0.1- 20 µL/min 
  • Independent flow directions to infuse or withdraw 

Start/Stop and flow rate can be set individually for each syringe. The pump is precalibrated for 1, 2.5 or 5 mL syringes with flow rates between 0.1 µL/min and 20 µL/min. The flow rates are shown on the LED displays. The CMA 402 Microdialysis Pump is even more flexible when controlled by a computer through the RS-232 interface. For instance, a preset volume can easily be set. A flush feature fills the system at a flow rate of 25 µL/min. The CMA 402 is available in two different versions, one of which includes accessories such as vial holders and probe clips, allowing easier handling of the microdialysis probe.

Please follow this link for microdialysis probes and guides.

SpecificationsCMA8003100CMA8003110
Accuracy±1.5%±1.5%
CalibrationPrecalibratedPrecalibrated
CertificationsCECE
Computer connectionRS232 and USBRS232 and USB
Dimensions207 x 135 x 48 mm (W x D x H)207 x 135 x 48 mm (W x D x H)
Display2-digit LED display showing flow rate or syringe size2-digit LED display showing flow rate or syringe size
External connectionsVariableVariable
Fast FeedApprox.20 µL/min (with 1 mL syringe)Approx.20 µL/min (with 1 mL syringe)
Flow rate range0.1 µL/min - 20 µL/min0.1 µL/min - 20 µL/min
MotorHigh resolution step motor systemHigh resolution step motor system
Motor Drive Control--
Number of syringes2, Indep. Control2, Indep. Control
Piston carriage speed2.4 µm/min-1.2 mm/min2.4 µm/min-1.2 mm/min
Power consumption10 W max10 W max
Speed variation±1.5%±1.5%
Syringe sizes1, 2.5 and 5 mL, piston stroke 60 mm1, 2.5 and 5 mL, piston stroke 60 mm
Voltage100-240 VAC 50-60 Hz, output 12 VDC (adapter included)100-240 VAC 50-60 Hz, output 12 VDC (adapter included)
Weightapprox. 1.4 kgapprox. 1.4 kg
Working temperature10-35°C10-35°C

Deding Liu, Shuogui Xu, Heping Xiao, Zhuo Wang, Ningfang Mao, Jia Zhou, Rui Liu & Yi Huang (2014) Quantitative determination of unbound levofloxacin by simultaneous microdialysis in rat pancreas after intravenous and oral doses Journal of Pharmacy and Pharmacology

Lisa Amanda Holm Rottbøll, Kerstin Skovgaard, Kristiane Barington, Henrik Elvang Jensen & Christian Friis (2015 ) Intrabronchial Microdialysis: Effects of Probe Localization on Tissue Trauma and Drug Penetration into the Pulmonary Epithelial Lining Fluid Basic & Clinical Pharmacology & Toxicology

Teayoun Kim, John F. Moore, Jon D Sharer, Kevin Yang, Philip A Wood & Qinglin Yang (2014 ) Carnitine Palmitoyltransferase 1b Deficient Mice Develop Severe Insulin Resistance After Prolonged High Fat Feeding Journal of Diabetes & Metabolism

Jingjing Wei, Limei Yao, Lei Yang, Wei Zhao, Si Shia, Qingyan Cai, Dingsheng Chen, Weirong Li & Qi Wang (2015 ) Alteration of glutamate/GABA balance during acute alcohol intoxication in rats: Effect of Xingnaojing injection Journal of Ethnopharmacology

Yanping Cun, Lin Tang, Jie Yan, Chao He, Yang Li, Zhian Hu & Jianxia Xia (2014 ) Orexin A attenuates the sleep-promoting effect of adenosine in the lateral hypothalamus of rats Neuroscience Bulletin