The Bridge12 X-Band IF system is a compact EPR bridge pulsed EPR spectroscopy. At a compact size of 13.4 in. x 12.5 in. x 4.5 in. the system is highly modular and can extended with user defined capabilities. The X-Band IF is at the heart of the EPR spectrometer and controls all other components. The system uses an external digitizer and Arbitrary Waveform Generator (AWG, optional) for maximum flexibility.
The Bridge12 X-Band IF system can be operated as a single frequency X-Band (10 GHz) EPR spectrometer. The system does not have an integrated circulator and is therefore ideally suited when operating probes with integrated cryogenic low-noise amplifiers. An external circulator circuit with protection switch is available to operate regular probes. Different amplifier options are available to generate high-power microwave pulses.
The internal pulse forming unit has two channel to generate discreet microwave pulses with arbitrary amplitudes. The relative phase between these two channels can be controlled arbitrarily. In addition, the pulse forming unit has an integrated I/Q Mixer to connect an Arbitrary Waveform Generator (AWG). In addition, the system has two external frequency inputs.
The system is highly modular and new capabilities can be added at any time. The Bridge12 X-Band IF system is the basis for all Bridge12 multi-frequency EPR spectrometers. Using frequency extensions (e.g. Q-Band, W-Band, 140/350 GHz) multi-frequency EPR spectroscopy can be performed on the same spectrometer. The signal path is automatically configured through the software. An additional pulse programmer can be added when more channels are required.
The Bridge12 X-Band IF is powered by SpecMan4EPR (Prof. Boris Epel, University of Chicago). The software is flexible and allows integration of many different devices. The interface is designed to satisfy most advanced experimental needs but hides the underlying complexity. SpecMan4EPR’s powerful pulse engine translates a command-based description of pulse sequences into digital pulses or arbitrary waveforms. The software can perform real-time FFT and baseline correction and has a built-in job queue. Even inexperienced users can run complicated experiments. The software allows multiple configurations to provide a unified interface for different spectrometers.
The Bridge12 X-Band IF was developed partly under a Small Business Innovation Research (SBIR) Grant by the National Institute of General Medical Sciencies (NIGMS) of the National Institutes of Health (NIH).