Time Stretch Enhanced Recording Scope (TiSER Scope)
- 技术优势
- Improved acquisition times over current sampling oscilloscopes, by 3-4 orders of magnitude Ability to record ultra-fast non-repetitive dynamics that occur within the segment period
- 技术应用
- High bandwidth digitizers, for radar applications and EMP detection Oscilloscopes with high bandwidth and real-time capability
- 详细技术说明
- Researchers at UCLA have identified a method for sampling entire segments of the incoming signal for reconstruction, which combines the high frequency capability of sampling oscilloscopes with the real time non-repetitive signal detection of real time digitizers. The Time Stretch Enhanced Recording (TiSER) Scope Method is based on time stretching of the incoming signal and subsequent pulse sampling.
- *Abstract
-
Scientists at UCLA have developed new type of oscilloscope that combines advantages of both real-time digitizers and sampling scopes.
- *IP Issue Date
- Apr 30, 2013
- *Principal Investigation
-
Name: Shalabh Gupta
Department:
Name: Bahram Jalali
Department:
Name: Ali Fard
Department:
- 申请号码
- 8432153
- 其他
-
Background
Digitizers are broadly categorized into two classes; equivalent-time digitizers (or sampling oscilloscopes) and real-time digitizers. Sampling oscilloscopes sample the incoming signal and then reconstruct it digitally, which requires a long time to obtain the original signal with high fidelity. They have high bandwidth, although not in real-time, and are also not capable of capturing non-repetitive waveforms. Real-time digitizers continually sample the signals as they change, and therefore have real time reporting capability, but have limited input bandwidths, currently only available up to 18-GHz.
Additional Technologies by these Inventors
- Stimulated Raman Spectroscopy and Microscopy with an All-Electronic Spectrometer
- Apparatus And Method For Dispersive Fourier-transform Imaging
- A Method for Analog-to-Digital Conversion
- Apparatus And Method For Optically Amplified Multi-Dimensional Spectrally Encoded Imaging
- Apparatus And Method For Multiple-Pulse Impulsive Stimulated Raman Spectroscopy
- Global Training Of Neural Networks For Phenomic Classification
- A Single-Shot Network Analysis Method For The Characterization Of Opto-Electronic And Electrical Devices And Systems
- Apparatus and Signal Processing Technique for Real-Time Label-Free High-Throughput Cell Screening
Tech ID/UC Case
20439/2009-337-0
Related Cases
2009-337-0
- 国家/地区
- 美国
