Harvard Peristaltic Pump P-1500

SKU 00087
In stock
Product Details

The Harvard Apparatus Peristaltic Pump series offers unparalleled accuracy, reproducibility, and ease of use over a broad range of flow rates.

Other benefits include:

• The ability to separate the motor drive from the controller to facilitate use and save space in incubators and fume hoods
• A library of tubing sizes is stored in the pump's memory minimizing set up time
• Custom tubing can be used allowing complete flexibility
• A full range of interchangeable motor drives to allow for economical ease of use over a broad flow rate range.

The Harvard Peristaltic Pump consists of a control unit, a motor drive, a tubing cassette and some sample tubing. The pump can deliver solutions over a range of flow rates from 0.001 to 1,500 ml/min depending on the motor drive used. Choose from three interchangeable motor drives. The motor drive modules provide flow over the following ranges:

• P-70 drive provides flow rates from 0.001 to 70 ml/min
• P-230 drive provides flow rates from 0.001 to 230 ml/min
• P-1500 drive provides flow rates from 0.01 to 1,500 ml/min

A complete range of programmable functions allow the pump to be easily adapted to a wide range of dispensing applications. The pump has pre-programmed flow profiles for:

• Constant Flow
• Flow Ramps
• Pulsatile Flow
• Concentration Based Fluid Delivery

In addition to the flow profiles, the pump has advanced user options that permit the pump to be controlled by a PC from its USB inputs as well as a range of options such as:
• Remote initiated start/stop times
• Communication with external devices through 15-pin I/O
• Constant pressure through BNC

All settings can easily be saved as user generated methods in the pump's memory. The method can be easily recalled and run very quickly, saving researchers valuable time. Connectivity to a wide range of external input or output devices is easily accomplished. A constant pressure mode may be utilized in conjunction with a pressure transducer. The pump will automatically rotate at the proper RPM for the tube selection and flow rate chosen. To further increase the accuracy, Harvard Peristaltic Pumps offer a rapid calibration routine to further optimize flow accuracy by entering a measured volume of fluid collected.

• LCD color touch screen with intuitive icon interface for unparalleled ease-of-use
• Remote design ideal for work inside incubators and fume hoods
• Interchangeable pump heads
• A library of tubing sizes stored in the pump's memory minimizes setup time
• Custom tubing can be used allowing complete flexibility
• Single channel or combined channel mode for setting flow rate
• Pump mode - runs continuously at a set flow rate
• Timed dispense - dispenses for a fixed time at a set flow rate
• Volume dispense - dispenses a fixed volume
• Footswitch control
• Analog control
• Bidrectional delivery
• CE, ETL (UL, CSA), WEEE, EU RoHS and CB Scheme Approved
• 2 year warranty


Back Pressure30 psi30 psi
Computer InterfaceUSB Type BUSB Type B
Dimensions Control Box H x W x D English8.13 x 5.13 x 3.75 in8.13 x 5.13 x 3.75 in
Dimensions Control Box H x W x D Metric20.7 x 13 x 9.6 cm20.7 x 13 x 9.6 cm
Dimensions Pump Head H x W x D English4.5 x 9.5 x 4.63 in4.5 x 9.5 x 4.63 in
Dimensions Pump Head H x W x D Metric11.5 x 24.1 x 11.8 cm11.5 x 24.1 x 11.8 cm
Max RPM375375
Maximum Flow Rate1500 ml/min1500 ml/min
Minimum Flow Rate0.001 ml/min0.001 ml/min
Number of Channels1 channel1 channel
Number of Rollers4 rollers4 rollers
Power100-250 VAC, 50/60 Hz100-250 VAC, 50/60 Hz
Protection RatingIP 32IP 32
Pump ConfigurationRemoteRemote
Pump Voltage30 VDC, 1.67A30 VDC, 1.67A
Pump to PumpIEEE 1394IEEE 1394
Reversible Flowyesyes
TTL Connector15-pin D-sub15-pin D-sub
Tubing ID English0.03 to 0.314 in0.03 to 0.314 in
Tubing ID Metric0.8 to 8.0 mm0.8 to 8.0 mm
Weight kg2.5 kg2.5 kg
Weight lbs5.5 lbs5.5 lbs

Journal Articles

Prakashbhai R. Bhoia, Raymond L. Huhnkea, Ajay Kumara, Krushna N. Patila & James R. Whiteley (2015) Design and development of a bench scale vegetable oil based wet packed bed scrubbing system for removing producer gas tar compounds Design and development of a bench scale vegetable oil based wet packed bed scrubbing system for removing producer gas tar compounds

Kevin M. Woolfrey, Jennifer L. Sanderson & Mark L. Dell'Acqua (2015) The Palmitoyl Acyltransferase DHHC2 Regulates Recycling Endosome Exocytosis and Synaptic Potentiation through Palmitoylation of AKAP79/150 The Journal of Neuroscience

Silvia Baiguera, Costantino Del Gaudio, Elena Kuevda, Alessandro Gonfiotti, Alessandra Biancob & Paolo Macchiarini (2014) Dynamic decellularization and cross-linking of rat tracheal matrix Biomaterials

Melanie Vincent, Guangping Gao & Lauren Jacobson (2014) Comparison of the efficacy of five adeno-associated virus vectors for transducing dorsal raphé nucleus cells in the mouse Journal of Neuroscience Methods

Cui-Ping Jiang, Xin He, Xiao-Lin Yang, Su-Li Zhang, Hui Li, Zi-Jing Song, Chun-Feng Zhang, Zhong-Lin Yang & Ping Li (2014) Intestinal Absorptive Transport of Genkwanin from Flos genkwa Using a Single-Pass Intestinal Perfusion Rat Model The American Journal of Chinese Medicine

Sara McArdle, Ekaterina Koltsova, Grzegorz Chodaczek & Klaus Ley MD (2015) Acetate and glucose incorporation into subcutaneous, intramuscular, and visceral fat of finishing steers Journal of Animal Science

Piyanuch Wonganan, Kristina Jonsson-Schmunk, Shellie M. Callahan, Jin Huk Choi & Maria A. Croyle (2014) Evaluation of the HC-04 Cell Line as an In Vitro Model for Mechanistic Assessment of Changes in Hepatic Cytochrome P450 3A during Adenovirus Infection Drug Metabolism & Disposition

Save this product for later