ARINC 429 Interface for PC/104+
The PM429-2 is a PC/104-Plus compliant interface card for communicating over ARINC 429 and ARINC 717 avionics databuses for both simulation and embedded applications. This interface provides current value registers and 32MB of SDRAM for list and monitor buffering. PM429-2 models offer up to 16 ARINC 429 channels, 4 ARINC 717 channels, IRIG time synchronization and 16 input /output avionics discretes. The discrete I/O can be used as general purpose I/O or for trigger or sync activities in coordination with protocol functions. Several error detection and injection features along with label/ SDI filtering enable this interface to support numerous application requirements.
The PM429-2 product line supports maximum data throughput and simultaneous operations of all ARINC 429 and ARINC 717 channels. Notification of databus activity is handled through the on-board Event Log, which can be processed by polling or via a PCI interrupt. To dramatically reduce the host CPU processing, the sequential monitor has a DMA mode that automatically moves records to host memory through PCI bus mastering.
- PC/104-Plus compliant
- Up to 16 ARINC 429 channels
- Up to 4 ARINC 717 channels
- Large 32MB memory for Tx/Rx/Mon buffering
- 16 Avionics discrete I/O signals
- 48 bit, 1 usec hardware time-tagging
- IRIG A/B PWM and AM synchronization
- Rugged extended temperature design
- Easy to use software interface
- Large channel count and multiple protocols
- Larger number of discretes for additional flexibility
- Unified BTIDriver™ API compatible with many other Ballard Products
- A wide variety of configurations
- RoHS compliant design
The PM429-2 offers two transmit and two receive ARINC 717 channels. Each ARINC 717 channel is independently configurable through software for Harvard biphase or bipolar return-to-zero operation. Sub-frame data structures are used to transmit and receive from the ARINC 717 databus. In addition, super-frames can be enabled with configurable counter location and number of frames per super-frame.