因此，英特佩斯推出了产品WaveBPS, 一种用于采集和分析FlexRay, CAN UART(J1708,K-Line, SCI, GM CGI), J1850, SPI, I2C或LIN总线物理层波形的高级分析工具。
WaveBPS captures data directly from a PicoScope USB oscilloscope. Depending on the model, WaveBPS supports up to 4 channels, a 1 GS/s sampling rate, and a memory depth of 128 megasamples. For hardware triggering, the scope offers a CAN error trigger, standard scope analog triggering, and CAN/LIN script-based triggering using an Intrepid ValueCAN3 or neoVI FIRE. WaveBPS can also load waveform files captured from popular oscilloscopes.
WaveBPS Productivity Features
WaveBPS is designed primarily with usability in mind; the software understands the waveforms you are looking at, so you can quickly navigate them to locate events and errors. Full mouse and keyboard support allows you to quickly find the information you need. Powerful cursor measurements allow you to quickly determine time durations, voltage levels and bus utilization rates.
After locating important areas of the waveform being inspected, you can export a waveform subset for other users to view.
Serial Data Decode Support
WaveBPS supports serial decode on FlexRay, CAN, LIN, UART (J1708, K-Line, SCI, RS232, GM CGI), J1850, SPI, and I2C. The baud rate, thresholds and other settings for these protocols are completely configurable by the user. In addition, you can configure voltage ranges as needed for specialty probes or other non-standard voltage requirements. WaveBPS also supports GMLAN 3110 high speed mode switch for Single Wire CAN.
WaveBPS has a TCP/IP software API that allows remote control and analysis from other applications. This includes the ability to control WaveBPS with Vehicle Spy scripting.
WaveBPS can perform statistical node analysis, where each automatic measurement is grouped by node and exported to a spreadsheet file.