NRT-96083X

Tthe NRT-96083X programmable PMD Source uses patented Coherent-PMD technology to generate repeatable 1st, 2nd and higher-order PMD states. It employs a totally new optical architecture to increase the DGD range while maintaining a wide PMD spectrum. Dual polarization and advanced modulation format from 40 Gb/s to 400 Gb/s DSP equalizers, transponders and systems can be comprehensively characterized in a matter of hours with rapid, repeatable, quantitative and reliable PMD tolerance testing

NRT-96083X

Tthe NRT-96083X programmable PMD Source uses patented Coherent-PMD technology to generate repeatable 1st, 2nd and higher-order PMD states. It employs a totally new optical architecture to increase the DGD range while maintaining a wide PMD spectrum. Dual polarization and advanced modulation format from 40 Gb/s to 400 Gb/s DSP equalizers, transponders and systems can be comprehensively characterized in a matter of hours with rapid, repeatable, quantitative and reliable PMD tolerance testing

Tthe NRT-96083X programmable PMD Source uses patented Coherent-PMD technology to generate repeatable 1st, 2nd and higher-order PMD states. It employs a totally new optical architecture to increase the DGD range while maintaining a wide PMD spectrum. Dual polarization and advanced modulation format from 40 Gb/s to 400 Gb/s DSP equalizers, transponders and systems can be comprehensively characterized in a matter of hours with rapid, repeatable, quantitative and reliable PMD tolerance testing

NRT-12033X

Using patented Coherent-PMD technology, the NRT-12033X programmable PMD Source generates deterministic, stable and repeatable 1st, 2nd and higher-order PMD. The NRT-12033X employs a totally new optical architecture to increase the DGD range while maintaining a wide PMD spectrum. 10Gb/s transponders and 40 Gb/s DP-QPSK DSP equalizers, transponders and systems can be comprehensively characterized in a matter of hours with rapid, repeatable, quantitative and reliable PMD tolerance testing.

NRT-12033X

Using patented Coherent-PMD technology, the NRT-12033X programmable PMD Source generates deterministic, stable and repeatable 1st, 2nd and higher-order PMD. The NRT-12033X employs a totally new optical architecture to increase the DGD range while maintaining a wide PMD spectrum. 10Gb/s transponders and 40 Gb/s DP-QPSK DSP equalizers, transponders and systems can be comprehensively characterized in a matter of hours with rapid, repeatable, quantitative and reliable PMD tolerance testing.

Using patented Coherent-PMD technology, the NRT-12033X programmable PMD Source generates deterministic, stable and repeatable 1st, 2nd and higher-order PMD. The NRT-12033X employs a totally new optical architecture to increase the DGD range while maintaining a wide PMD spectrum. 10Gb/s transponders and 40 Gb/s DP-QPSK DSP equalizers, transponders and systems can be comprehensively characterized in a matter of hours with rapid, repeatable, quantitative and reliable PMD tolerance testing.

NRT-PMDA

PMD Artifacts are compact and modular alternatives to the tunable PMD sources such as the NRT-96083X and NRT-12033X. As calibrated lab standards, the NRT-PMDAs are outstanding for fast and reliable comparisons between various and separate test stations and facilities. Artifacts are custom made and calibrated according to customers’ DGD and Depolarization request. Each NRT-PMDA manufactured by New Ridge Technologies is fully tested across the C-Band for both DGD and Second-order PMD (SOPMD)

NRT-PMDA

PMD Artifacts are compact and modular alternatives to the tunable PMD sources such as the NRT-96083X and NRT-12033X. As calibrated lab standards, the NRT-PMDAs are outstanding for fast and reliable comparisons between various and separate test stations and facilities. Artifacts are custom made and calibrated according to customers’ DGD and Depolarization request. Each NRT-PMDA manufactured by New Ridge Technologies is fully tested across the C-Band for both DGD and Second-order PMD (SOPMD)

PMD Artifacts are compact and modular alternatives to the tunable PMD sources such as the NRT-96083X and NRT-12033X. As calibrated lab standards, the NRT-PMDAs are outstanding for fast and reliable comparisons between various and separate test stations and facilities. Artifacts are custom made and calibrated according to customers’ DGD and Depolarization request. Each NRT-PMDA manufactured by New Ridge Technologies is fully tested across the C-Band for both DGD and Second-order PMD (SOPMD)

NRT-PMDR

NRT-PMDR, is a new software application that turns your New Ridge Technologies’ PMD source into a PMD emulator unlike any other. The NRT-PMDR is the first deterministic emulator. It is different from other emulators as the NRT-PMDR calculates a random walk of 1st and 2nd-order PMD states according to the Joint Probability Density Function statistics before updating the generated PMD outputs. With the NRT-PMDR, direct paths connect consecutive PMD states in the (DGD, SOPMD) plane.

NRT-PMDR

NRT-PMDR, is a new software application that turns your New Ridge Technologies’ PMD source into a PMD emulator unlike any other. The NRT-PMDR is the first deterministic emulator. It is different from other emulators as the NRT-PMDR calculates a random walk of 1st and 2nd-order PMD states according to the Joint Probability Density Function statistics before updating the generated PMD outputs. With the NRT-PMDR, direct paths connect consecutive PMD states in the (DGD, SOPMD) plane.

NRT-PMDR, is a new software application that turns your New Ridge Technologies’ PMD source into a PMD emulator unlike any other. The NRT-PMDR is the first deterministic emulator. It is different from other emulators as the NRT-PMDR calculates a random walk of 1st and 2nd-order PMD states according to the Joint Probability Density Function statistics before updating the generated PMD outputs. With the NRT-PMDR, direct paths connect consecutive PMD states in the (DGD, SOPMD) plane.

NRT-OPC

NRT’s Outage Probability Calculator (NRT-OPC) eliminates the complicated statistical confusion associated with interpreting PMD test results; reducing all the information to straightforward quantities understandable by engineers, technicians and managers.

NRT-OPC

NRT’s Outage Probability Calculator (NRT-OPC) eliminates the complicated statistical confusion associated with interpreting PMD test results; reducing all the information to straightforward quantities understandable by engineers, technicians and managers.

NRT’s Outage Probability Calculator (NRT-OPC) eliminates the complicated statistical confusion associated with interpreting PMD test results; reducing all the information to straightforward quantities understandable by engineers, technicians and managers.

NRT-JPDFC

NRT’s Joint Probability Density Function Calculator (NRT-JPDFC) generates a topographical contour map of the PMD probability in 2-D PMD space, namely SOPMD vs. DGD. Each generated contour on the graph shows the probability of the PMD state to be found within the contour. Hence the 50% contour (black innermost contour) shows the PMD states where the fiber will be half of the time. The red outermost contour designates the PMD region 99.997% of the time. Using the cursor, the time spent at any PMD state can be determined.

NRT-JPDFC

NRT’s Joint Probability Density Function Calculator (NRT-JPDFC) generates a topographical contour map of the PMD probability in 2-D PMD space, namely SOPMD vs. DGD. Each generated contour on the graph shows the probability of the PMD state to be found within the contour. Hence the 50% contour (black innermost contour) shows the PMD states where the fiber will be half of the time. The red outermost contour designates the PMD region 99.997% of the time. Using the cursor, the time spent at any PMD state can be determined.

NRT’s Joint Probability Density Function Calculator (NRT-JPDFC) generates a topographical contour map of the PMD probability in 2-D PMD space, namely SOPMD vs. DGD. Each generated contour on the graph shows the probability of the PMD state to be found within the contour. Hence the 50% contour (black innermost contour) shows the PMD states where the fiber will be half of the time. The red outermost contour designates the PMD region 99.997% of the time. Using the cursor, the time spent at any PMD state can be determined.

NRT-SPA

The NRT-SPA combines the three Most Popular Software in One Package (Bundled with Outage Probability Calculator, NRT-LVD and JPDFC: Best Value for Customers)

NRT-SPA

The NRT-SPA combines the three Most Popular Software in One Package (Bundled with Outage Probability Calculator, NRT-LVD and JPDFC: Best Value for Customers)

The NRT-SPA combines the three Most Popular Software in One Package (Bundled with Outage Probability Calculator, NRT-LVD and JPDFC: Best Value for Customers)

NRT-LVD: LabView™ Drivers

NRT offers drivers (and DLLs) to control all the functions of the NRT-PMDSs via LabView™ or any major lab automation software tool.

NRT-LVD: LabView™ Drivers

NRT offers drivers (and DLLs) to control all the functions of the NRT-PMDSs via LabView™ or any major lab automation software tool.

NRT offers drivers (and DLLs) to control all the functions of the NRT-PMDSs via LabView™ or any major lab automation software tool.