Keysight D9010MILP/R-B5P-001-A/R-B6P-001-L, Military Protocol Decode/Trigger Software (ARINC 429, MIL-STD 1553, SpaceWire), Node-locked perpetual license with 12 months KeysightCare software support
The S-Series Protocol Applications from Keysight allows you to simplify the debugging of your design with more than 19 protocol decoders available, and quickly move between physical and protocol layer information using the time-correlated tracking marker.
Key Features & Specifications
ARINC 429, MIL-STD-1553, and SpaceWire Protocol Triggering and Decode for Infiniium Oscilloscopes
ARINC 429, MIL-STD-1553, and SpaceWire Protocol Triggering and Decode for Infiniium Oscilloscopes
Description
ARINC 429 and MIL-STD 1553 Protocol Triggering and Decode for Infiniium Oscilloscopes
ARINC 429 and MIL-STD 1553 are serial buses used in both commercial and military equipment. While they are primarily used in avionics, these buses are also found in ground vehicles, weapons systems and other equipment. Because of their importance in both industry and defense, error free operation of both the ARINC 429 bus and MIL-STD 1553 bus is crucial. Easily debug and test these serial buses with the ARINC 429 and MIL-STD 1553 protocol triggering and decode software for Infiniium oscilloscopes. This software application provides an easy-to-use interface; a breadth of protocol decode options to suit your specific needs; pattern and error search options to find errors faster; and much more.
SpaceWire is a spacecraft communication network based in part on the IEEE 1355 standard of communications. It is coordinated by the European Space Agency (ESA) in collaboration with international space agencies including NASA, JAXA and RKA. SpaceWire supports highly fault-tolerant networks and systems, which is one reason for its popularity. SpaceWire is a standard for high-speed links and networks for use onboard spacecraft, easing the interconnection of sensors, massmemories, processing units, and downlink telemetry sub-systems.
Configurations:
MIPI C-PHY and D-PHY Multilane Trigger and Protocol Decod
MIPI D-PHY Multilane Trigger and Protocol Decode
Emerging serial bus standards in the wireless mobile industry have created the need for equipment to debug and test MIPI D-PHY. The MIPI D-PHY protocol application enables faster and better development of wireless mobile products employing CSI and DSI architectures of the MIPI technology. The protocol analysis application enables teams to quickly move from the physical layer to protocol layer measurements and includes software-based triggering.
MIPI D-PHY Multilane Trigger and Protocol Decode
ISI Channels
These ISI Channels can be used to emulate channel losses in receiver test setups. A choice of 8 PC board traces with different lengths can be inserted into the signal path. The 8 trace lengths range from 7.7 inches (196 mm) to 34.4 inches (874 mm). By cascading the traces within one box or with the other box a wide range of channels can be emulated with very fine resolution steps. With their small size, the ISI channels can be located close to the device under test. The cascadable ISI channels are complemented by Keysight’s compliance channels for SATA, DisplayPort, PCI Express, and HDMI
MIPI C-PHY Trigger and Protocol Decode
C-PHY is a MIPI physical layer (PHY) standard that provides high-throughput performance over bandwidth-limited channels to connect displays and cameras to an application processor. The standard provides a PHY for both MIPI Alliance’s Camera Serial Interface (CSI-2) and Display Interface (DSI-2) specifications. This enables engineers to scale their implementations to support a wide range of higher resolution image sensors and displays while keeping power consumption low. However, because the C-PHY supports two application layers, engineers implementing a C-PHY interface must be able to see a device’s signal integrity and protocol data to ensure it conforms to the MIPI specification.
With C-PHY, seven consecutive symbols are used to transmit 16 bits of data over a minimum of 3 wires (one lane), after encoding. Troubleshooting C-PHY-based applications can, therefore, be time-consuming and error-prone because the engineer has to manually scroll through the waveform looking for regions of interest.
Keysight’s D9010MCDP software extends the capability of Infiniium oscilloscopes, minimizing the time required for debugging and testing designs with CSI-2 and DSI-2 interfaces.
