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    • 2. 发明申请
    • Polarization Mode Dispersion Analyzer
    • 极化模式色散分析仪
    • US20080297768A1
    • 2008-12-04
    • US11756942
    • 2007-06-01
    • Bogdan SzafraniecCalvin Bruce Ward
    • Bogdan SzafraniecCalvin Bruce Ward
    • G01N21/00
    • G01M11/336
    • A polarization mode dispersion analyzer having a light source, a sensor, an output phase signal analyzer, and a controller. The light source generates a probe light signal that is intensity modulated and also polarization modulated, the light source being adapted to apply the light signal to a device under test. The sensor generates an output phase signal related to the phase of the intensity modulation of an output optical signal leaving the device under test. The output phase signal analyzer measures an amplitude and phase of at least one frequency component of the output phase signal at a frequency related to the polarization modulation. The controller generates a signal indicative of a differential group delay of the device under test utilizing the measured amplitude and phase. The controller also measures a group delay associated with the device under test.
    • 具有光源,传感器,输出相位信号分析器和控制器的偏振模色散分析仪。 光源产生强度调制并且也被偏振调制的探测光信号,光源适于将光信号施加到被测器件。 传感器产生与离开被测器件的输出光信号的强度调制相位相关的输出相位信号。 输出相位信号分析器以与偏振调制相关的频率测量输出相位信号的至少一个频率分量的振幅和相位。 控制器利用测量的幅度和相位产生指示被测器件的差分组延迟的信号。 控制器还测量与被测设备相关的组延迟。
    • 4. 发明申请
    • Optical analyzer and method for measuring spectral amplitude and phase of input optical signals using heterodyne architecture
    • 光学分析仪和使用外差架构测量输入光信号的光谱幅度和相位的方法
    • US20050012934A1
    • 2005-01-20
    • US10623403
    • 2003-07-18
    • Bogdan Szafraniec
    • Bogdan Szafraniec
    • G01J9/00G01J9/04H04B10/02H04B10/08G01B9/02
    • G01J9/04H04B10/0795
    • An optical analyzer and method for measuring optical properties of optical signals utilizes a heterodyne architecture to measure spectral amplitude and phase of a periodically modulated input optical signal, such as an optical signal from a periodically modulated distributed feedback (DFB) laser. The spectral amplitude and phase measurements are derived from a heterodyne signal, which is produced by combining and mixing the input optical signal and a local oscillator (LO) signal. The optical spectrum that is reconstructed from the heterodyne signal includes “inner” spectral peaks that contain phase information of the input optical signal. The inner spectral peaks may be produced by an optical or electrical mixing technique. The spectral phase of the input optical signal is recovered from the inner spectral peaks of the reconstructed optical spectrum.
    • 用于测量光信号的光学特性的光学分析仪和方法利用外差架构来测量周期性调制的输入光信号(例如来自周期性调制分布反馈(DFB)激光器的光信号)的频谱幅度和相位。 通过组合和混合输入光信号和本地振荡器(LO)信号产生的外差信号导出频谱幅度和相位测量。 从外差信号重构的光谱包括包含输入光信号的相位信息的“内”谱峰。 内部光谱峰可以通过光学或电气混合技术产生。 从重构光谱的内部光谱峰恢复输入光信号的光谱相位。
    • 8. 发明授权
    • Heterodyne optical network analysis that utilizes signal modulation
    • 利用信号调制的异步光网络分析
    • US07075659B2
    • 2006-07-11
    • US10772808
    • 2004-02-05
    • Bogdan Szafraniec
    • Bogdan Szafraniec
    • G01B9/02G01N21/00
    • G01M11/337G01M11/331G01M11/333G01M11/336
    • The group delay of a DUT is measured by modulating test and reference portions of a local oscillator signal at different frequencies to create modulation sidebands, applying the modulated test portion of the local oscillator signal to the DUT, and then optically mixing the two modulated signals. Optically mixing the two modulated signals translates the optical frequencies down to electrical frequencies. Phase changes that are caused by the DUT are determined by measuring the phase differences between modulation sidebands of the test portion of the local oscillator signal. Frequency translation can be achieved by electrical mixing instead of optical mixing.
    • DUT的组延迟通过调制不同频率的本地振荡器信号的测试和参考部分来测量,以产生调制边带,将本地振荡器信号的调制测试部分应用于DUT,然后光混合两个调制信号。 将两个调制信号进行光学混合将光频率转换为电频率。 由DUT引起的相位变化通过测量本地振荡器信号的测试部分的调制边带之间的相位差来确定。 频率转换可以通过电气混合而不是光学混合来实现。
    • 9. 发明授权
    • Multiport optical component testing using a single optical receiver
    • 使用单个光接收机进行多端口光学元件测试
    • US06766115B1
    • 2004-07-20
    • US09643374
    • 2000-08-22
    • Wayne V. SorinDouglas M. BaneyBogdan Szafraniec
    • Wayne V. SorinDouglas M. BaneyBogdan Szafraniec
    • H04B1000
    • H04B10/00
    • A system for measuring optical characteristics of a multiport optical device uses optical heterodyne detection and known port-specific transmission delays to simultaneously monitor multiple ports of the multiport optical device with a single receiver. An embodiment of a system includes a splitter configured to split a swept optical signal into a reference signal and a test signal and a test system input, connectable to the multiport optical device, for transmitting the test signal to the multiport optical device. The test system also includes an optical combiner and a receiver. The optical combiner is connectable to the multiport optical device to receive a first portion of the test signal having a first port-specific transmission delay and to receive a second portion of the test signal having a second port-specific transmission delay. The optical combiner combines the first portion of the test signal having the first transmission delay and the second portion of the test signal having the second transmission delay with the reference signal. The receiver is connected to the optical combiner to detect a first optical heterodyne signal that is generated from the combined first portion of the test signal and the reference signal and to detect a second optical heterodyne signal that is generated from the combined second portion of the test signal and the reference signal. The system includes port-specific transmission delay units connected to ports of the multiport device and each of the port-specific transmission delay units imparts a different transmission delay on an optical signal.
    • 用于测量多端口光学器件的光学特性的系统使用光学外差检测和已知的端口特定传输延迟来同时用单个接收器监视多端口光学器件的多个端口。 系统的实施例包括分配器,其被配置为将扫描光信号分割为参考信号,以及可连接到多端口光学设备的测试信号和测试系统输入,用于将测试信号发送到多端口光学设备。 测试系统还包括光学组合器和接收器。 光合并器可连接到多端口光学设备以接收具有第一端口特定传输延迟的测试信号的第一部分,并且接收具有第二端口特定传输延迟的测试信号的第二部分。 光组合器将具有第一传输延迟的测试信号的第一部分和具有第二传输延迟的测试信号的第二部分与参考信号组合。 接收机连接到光组合器以检测从测试信号和参考信号的组合的第一部分产生的第一光学外差信号,并且检测从测试的组合的第二部分产生的第二光学外差信号 信号和参考信号。 该系统包括连接到多端口设备的端口的端口特定传输延迟单元,并且每个端口专用传输延迟单元在光信号上施加不同的传输延迟。