- RACERENDER 2 PRO E30 INSTALL
- RACERENDER 2 PRO E30 UPDATE
- RACERENDER 2 PRO E30 SOFTWARE
- RACERENDER 2 PRO E30 PLUS
- RACERENDER 2 PRO E30 PROFESSIONAL
Speed = 6313.13 * TireCircumference / MeasuredPeriod(micros) The sensor is in the rear differential and outputs 9 pulses per revolution. Be sure to scale the 12V appropriately for your devices I/O levels. The Speed signal is also a clean 12V pulse train who’s frequency is proportional to the vehicle’s speed.
So RPM = MeasuredPeriod(micros) / 20000000(micros) It gives one pulse per cylinder fire and there are three pulses per rotation so the equation boils down to: If you setup a rising edge interrupt and a timer, it is easy to measure the signal’s period. The RPM signal is a clean 12V pulse train who’s frequency is proportional to the engine speed. Here is a summary of the connections I made to the factory E36 sensors. and tagged hexapod, robot, ROS on Octoby admin. This entry was posted in Project Hexapod B.E.T.H. One of my goals is to learn more about ROS by creating nodes that support additional gait types. Step 3: Press the start button and you have control via the DS3.
RACERENDER 2 PRO E30 INSTALL
Step 2: Install hexapod-specific nodes using Kevin’s Github instructions Sudo apt-get install ros-kinetic-tf, and joystick, and state publisher
RACERENDER 2 PRO E30 SOFTWARE
I’ll updated it with the bumps in the road as i hit them. This is a quick capture of the steps i used to install ROS on a Raspberry Pi 3 and use it to control my hexapod, B.E.T.H. This entry was posted in Digital Dashboard, Project M3 and tagged racecapture, racerender on Novemby admin. Their platform is growing fast and very receptive to community feedback so what’s not to like? I’ll make a another post with my latest data logging setup.
RACERENDER 2 PRO E30 PLUS
It’s a highly customizable, open source solution, that includes solid hardware PLUS pretty decent software. This led me to eventually abandon my home-brew solution and look into the RaceCapture system from Autosport Labs.
RACERENDER 2 PRO E30 PROFESSIONAL
The problem is that all of the professional analysis software is locked to their proprietary data formats so there’s no way to use my data with their software.
This requires much more advanced displaying and calculation of data to make it easier to pickup the clues and to develop as a driver. A huge part of data analysis is using it to learn where and why you were fast or slow on a given lap. I was able to make GPS plots and certain calculations in Excel, but besides screening for low oil pressures and high temps, it left a lot to be desired. However, I sort of hit a wall once the data was collected. This entry was posted in Project M3 and tagged racecapture on Maby admin. See my latest RaceCapture LUA scripts on my Github. If id=sxCanId+60 and sxOnBut~=nil then sxOnBut(data) endįunction spl(v) return bit.band(v,0xFF) endįunction sph(v) return bit.rshift(bit.band(v,0xFF00),8) end SxSetAlertThresh(1,2,12,0,0,0,0) -above 12, no alertįunction sxSetLinearThresh(id,s,th,r,g,b,f)įunction sxSetAlertThresh(id,tid,th,r,g,b,f) configure second alert (left LED) as oil pressure (PSI) configure first alert (right LED) as engine temperature (F) SxCfgLinearGraph(0,0,0,7000) -left to right graph, linear style, 0 - 7000 RPM range uncomment the below for Direct RPM on input 0
RACERENDER 2 PRO E30 UPDATE
add your code to update ShiftX2 alerts or linear graph during run time. If ((first - ratio)^2) 10 and rpm > 500 then Speed = speed + 0.5 - round because 0 prec. addChannel("name",SR,prec,min,max,"unit") 0=first ShiftX2 on bus, 1=second ShiftX2 (if ADR1 jumper is cut)
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