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3 Scientists have reviewed this product
5 out of 5
Ease of use
5 out of 5
After sales service
5 out of 5
Value for money
"The Axoclamp amplifier is easy to use and to collect data from. Molecular Devices provide a good after sales service."
Review date: 04 Dec 2012 |
Axon™ Axoclamp 900A Microelectrode Amplifier Rating: 5.0
"This product, including software, is the best and easiest to use in laboratory. Durability is outstanding. Scientific choice will always be AxoClamp."
Review date: 20 Jul 2012 |
Axon™ Axoclamp 900A Microelectrode Amplifier Rating: 4.7
"This is the best product for a professional researcher to use."
Review date: 02 Feb 2010 |
Axon™ Axoclamp 900A Microelectrode Amplifier Following the Axoclamp tradition, this amplifier model is a complete microelectrode current clamp and voltage clamp amplifier, useful for a wide range of intracellular microelectrode recording techniques. The Axoclamp™ 900A Microelectrode Amplifier represents the latest generation of our Axoclamp amplifier family. This model features many enhancements that improve its recording capability, make the amplifier easier to use, and help your experiments last longer. The Axoclamp 900A Microelectrode Amplifier provides the following modes of operation: I-Clamp: Current clamp using two independent bridge amplifiers for voltage measurements DCC: Discontinuous current clamp for accurate voltage measurements, even when the electrode resistance changes TEVC: High-compliance two-electrode voltage clamp for Xenopus oocytes and mammalian cells dSEVC: Discontinuous single-electrode voltage clamp for small cells with large currents HVIC: High-voltage current clamp for extracellular applications such as iontophoresis Excellent amplifier performance The ±180 V output compliance used for TEVC and HVIC modes makes it possible to pass larger currents and ensures faster clamp speeds. TEVC and dSEVC modes both have wide AC voltage clamp gain ranges for excellent voltage control. When DC Restore is enabled, the DC voltage clamp gain is greater than 1,000,000, ensuring optimal voltage control for constant-voltage measurements. The new dSEVC design is more stable and twice as fast as before, providing an excellent alternative to standard continuous single-electrode voltage clamping.