What is MadPLL®?
Featured Product from Mad City Labs, Inc.
MadPLL®
The MadPLL® is digital phase lock loop controller designed for use with Mad City Labs nanopositioning systems as part of a DIY resonant probe atomic force microscope (AFM). MadPLL® includes AFMView™2 software, probe boards and sensor amplifier. The supplied software features automated setup, configuration control, auto-Q calculation and automatic parasitic capacitance compensation (PCC) control.
Features:
- Low cost
- Software, sensor amplifier, and probe boards included
- 2 additional ADC connections for instrument versatility
- Low noise, atomic step resolution
- Automated software control
- Auto PCC control
- High resolution Auto Q calculation & resonant frequency detection
- Integrated Z axis PI loop
- Fully compatible with Mad City Labs positioning products
Mad City Labs, Inc
Mad City Labs, Inc has been a leading manufacturer of flexure based piezo nanopositioning systems capable of sub-nanometer positioning resolution since 1998. Our piezo nanopositioning product line covers the entire spectrum of piezo nanopositioning capabilities while maintaining a leadership role in multi-axis stages for high speed optical microscopy imaging. Mad City Labs engineers use 3D CAD and finite element analysis to produce piezo nanopositioners which combine long ranges of motion with exceptional linearity, orthogonality, and stability. Our in-house CNC machining centers and wire EDMs provide complete control of mechanical assembly production and allow Mad City Labs to design and fabricate custom systems with minimal engineering costs and short lead times. We deliver the tools for nanotechnology in 30 to 45 days and provide the highest level of customer service and satisfaction in the industry. We provide innovative and practical solutions for today’s demanding biotechnology and nanotechnology applications. Most Mad City Labs piezo nanopositioners can be controlled by our high speed USB 2.0 interface. Applications for nanopositioners include super resolution microscopy, high speed confocal imaging, AFM, NSOM, scanning probe microscopy, fiber positioning, single molecule spectroscopy, single molecule/particle tracking, high resolution optical alignment, SR optical microscopy, sub-diffraction limit microscopy, nanoscopy and lithography.