Regarding the detailed parameters, specifications, dimensions, weight, series, features and functions of NI PXI-6683, the following are some key information:
Parameters and specifications:
The PXI-6683 is a PXI synchronization module that can synchronize PXI and PXI Express systems via GPS, IEEE 1588, IRIG-B, or PPS. In addition, it can be synced to external instruments or chassis for precise synchronization between multiple PXI chassis.
Onboard clock: The module has an onboard TCXO (temperature compensated crystal oscillator) that can be tamed with GPS, IEEE 1588, IRIG-B, or PPS for long-term stability.
Clock and trigger signals: The PXI-6683 can generate event and clock signals at some future synchronized point in time and time stamp input events based on the synchronized system time. It also has low-offset routing clock signals and triggering capabilities that enable high-precision synchronization within a PXI chassis or between multiple chassis.
Size and weight:
Size: The module weighs 7.2 ounces and measures 6.3 x 3.9 inches.
Series:
PXI Module: NI PXI-6683 is a PXI module from National Instruments (NI) for automated test systems, specifically PXI-based devices.
Features:
High precision synchronization: With standards such as GPS, IEEE 1588, IRIG-B or PPS, high precision time synchronization is possible.
Multi-device synchronization: The PXI-6683 can synchronize multiple PXI modules, making it easier to operate multiple devices in multiple PXI enclosures or systems.
Flexibility: Supports a variety of synchronization protocols and standards, providing great flexibility for a variety of application scenarios.
Functions:
Improved measurement accuracy: By using the PXI-6683, measurement accuracy can be significantly improved, especially in applications requiring extremely high number of channels.
Implementing Advanced trigger schemes: This module supports advanced trigger schemes that help achieve accurate data acquisition and control in complex systems.
Overall synchronization: By synchronizing multiple devices to work as a whole, the overall system performance and reliability can be improved.
