Nist researchers report special test of high-speed photoreceiver to 110 GHz. (General Developments).NIST (National Institute of Standards & Technology, Washington, DC, www.nist.gov) The standards-defining agency of the U.S. government, formerly the National Bureau of Standards. It is one of three agencies that fall under the Technology Administration (www.technology. researchers have provided the first special test of the modulation response magnitude and phase of a commercially available photoreceiver to 110 GHz. High-speed photoreceivers are commonly used in fiber optic test equipment and communications systems operating at bit rates up to 40 Gbit/s. Measurement of both the magnitude and phase response of a photoreceiver over a frequency range much larger than the receiver s bandwidth is necessary for accurately modeling its response in the time-domain, thus providing critical information for digital communications systems. Prior to this work, calibration of the magnitude response above 50 GHz was not available, and calibration of the phase response was not available at any frequency. The NIST researchers developed an electro-optic sampling system to perform the measurements. The system uses the electro-optic effect to sample highspeed electrical waveforms on a coplanar co·pla·nar adj. Lying or occurring in the same plane. Used of points, lines, or figures. co  pla·nar waveguide waveguide, device that controls the propagation of an electromagnetic wave so that the wave is forced to follow a path defined by the physical structure of the guide. with ultrashort ul·tra·short adj. 1. Of or relating to radio waves with a wavelength less than 10 meters (33 feet). 2. Of extremely short duration: an ultrashort flash. 3. laser pulses. The researchers used standard microwave techniques to calibrate To adjust or bring into balance. Scanners, CRTs and similar peripherals may require periodic adjustment. Unlike digital devices, the electronic components within these analog devices may change from their original specification. See color calibration and tweak. the response of the photoreceiver at its 1 mm coaxial electrical port, which was physically removed from the sampling plane on the coplanar waveguide where the waveforms were measured. Using knowledge of the fundamental physics of the electro-optic sampling system, the NIST researchers have determined a preliminary uncertainty analysis of the system. The analysis showed typical expanded uncertainties (95 % confidence) less than 30 for phase and 0.4 dB for normalized magnitude. They checked the measurements and uncertainty analysis by comparing the results to the magnitude measured by a heterodyne het·er·o·dyne adj. Having alternating currents of two different frequencies that are combined to produce two new frequencies, the sum and difference of the original frequencies, either of which may be used in radio or television receivers by proper method up to 50 GHz; the agreement was well within the combined uncertainty of the two measurement systems. CONTACT: Paul Hale, (303) 497-5367; hale@boulder.nist.gov or Dylan Williams, (303) 497-3138; dylan@boulder.nist.gov. |
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