PXIE-6535
- Brand: National Instruments
- Product Code: PXIE-6535
- Part number: pxie6535
$0.00
Ex Tax: $0.00
Available Options
National Instruments PXIe-6535 10 Mhz Digital I/O for PXI Express
Features
The National Instruments PXIe-6535 is a high-speed digital I/O module capable of continuously streaming data up to 40 MB/s over the PXI Express bus.
It features clock rates up to 10 MHz from internal or external sources, selectable voltage levels of 2.5 and 3.3 V (5 V compatible), and per-channel directional control of 32 digital lines. The NI PXIe-6535, based on NI-DAQmx driver software, is compatible with the NI Digital Waveform Editor, so you can interactively create, edit, and import digital waveforms.
The low-cost, high-throughput architecture of the NI PXIe-6535 makes it an ideal solution for interfacing and testing image sensors or display panels. The module is also well-suited for other common digital applications such as pattern I/O, change detection, protocol emulation, or other custom digital interfacing.
Features
- 10 MHz maximum Clock Rate
- 40 MB/S Maximum Throughput
- Selectable Voltage Levels of 2.5 and 3.3 V
- 32 Channels with Per-Channel Directional Control
- Synchronous and Asynchronous Timing Modes
The National Instruments PXIe-6535 is a high-speed digital I/O module capable of continuously streaming data up to 40 MB/s over the PXI Express bus.
It features clock rates up to 10 MHz from internal or external sources, selectable voltage levels of 2.5 and 3.3 V (5 V compatible), and per-channel directional control of 32 digital lines. The NI PXIe-6535, based on NI-DAQmx driver software, is compatible with the NI Digital Waveform Editor, so you can interactively create, edit, and import digital waveforms.
The low-cost, high-throughput architecture of the NI PXIe-6535 makes it an ideal solution for interfacing and testing image sensors or display panels. The module is also well-suited for other common digital applications such as pattern I/O, change detection, protocol emulation, or other custom digital interfacing.