Convert Ecm To Bin Ubuntu
File input receiver binary log file -ts y/m/d h:m:s start time all -te y/m/d h:m:s end time all -tr y/m/d h:m:s approximated time for rtcm messages -ti tint observation data interval (s) all -span span time span (h) all -r format log format type rtcm2 = RTCM 2 rtcm3 = RTCM 3 nov = NovAtel OEMV/4/6,OEMStar oem3 = NovAtel OEM3 ubx = ublox. Ecm-uncompress./Gundam Battle Assault 2.bin.ecm I just went to the current directory and ran the command. You do need the backslashes if the title has spaces on a linux-based operating system, otherwise you just get the command help screen.
Some CD Images are packed in the ECM file format. This can only be read by programs explicitly designed to deal with ECM files. Luckily, there are tools available that allow you to convert these files into much more usable formats such as ISO or Cue/Bin files. This guide shows you how to use ECM Tools to accomplish this conversion.
The reason why some files come in ECM format is because this format compresses the CD image substantially in an effort to not only save disc space, but also bandwidth in the process. That is why some of these files come in ECM formats. Decompressing these files is very straight forward once you have the tools needed. For this guide, we will be using ECM Tools.
First, you need to download ECM Tools which can be located here The RAR archive contains all the files needed to decompress ECM files. (Update May 13, 2020: Old link is now dead, try this).
Find a convenient place on your hard drive for your ECM needs. Next, open the archive and drag and drop the files into this folder. Once done, you’ll have a set of files ready to use. To use ECM tools, find the ECM file in question and drag and drop it over the unecm.exe file. Unecm.exe will automatically open up the ECM file, decompress the file, and close after.
That’s it! You now have a useable CD image that has been decompressed!
Happy computing!
(Second) ECM SwapThe ECM that came in 1986-1989 TPI Fbody's and Vettes is a series 1227165 (165). The ECM is located up and behind the dash, on the passenger side of the car. (Behind where a Glove Box would be in a older pre 80s car)
The '85 and '86-'89 TPI cars use a MAF sensor inline of the intake air flow to precisely measure the air flow and adjust A/F, etc. based on that reading. 1990-1992 TPI cars switched over to a MAP system (also referred to as Speed Density) where the ECM gets a estimated air flow based on engine vacuum. The change to MAP is rumored to be based on cost reasons for GM, but for performance engine builders, the limited air flow able to pass thru the MAF is also a consideration of changing to a MAP system.
I wanted to be able to quantitatively compare the MAF-vs-MAP systems on my vehicle to have a better understand the limits of each and how my car would react/benefit from both. To easily switch between the two systems, I set out to build/adapt both ECMs, different sensors, and wiring harness differences in a convenient manner to make switching back and forth between them as simple/easy as possible. After working thru the wiring diagrams and getting much valued help from the GMECM mailing list, I came up with a solution to equip my car with both set of sensors that are different, and build an adaptor cable between my existing ECM harness ('165 wired) and the newer ('730) ECM.
Note that you do not have to build the adaptor to change systems, you caneasily reuse your MAF wiring and existing knock sensor engine wiring to hook thenew MAP and knock sensor to. This is a more permanent solution if you'resold on Speed Density and don't want to switch back-forth between the MAF and MAP systems like I do.
86 ECM pinout diagram92 Sensor/ECM wiring page1, page2, page3, page4, page5, page6, page7,
This is a text file that has the required connector pin changes for theconversion. They are listed in order of the '165 connector pins as wellas in order of the '730 connector pins. (Note that you need an additionalECM connector for the '730 ECM)
The pin naming nomenclature is shown in the above pinout/wiring diagrams.
'165 ECM connector pin changes for 92 ECM
Don BroadusJohn Gwynne
Bruce Plecan
Dave Zug
Parts needed:
A handy tool for repining GM harness connectors is the Lisle Terminal Tool, P/N 14900 and can be found here
Adaptor parts needed:
Total cost for the project is ~ $150 depending on what you can get thrusalvage yards and what you have to purchase new..
Click on any image below for an enlargement (~500K) image.January/February 2000 (Preparation)MAF harness plug -to- MAP sensor engine harness The MAF plug was made by cutting apart an old broken MAF and soldering wires to the pins. The MAP plug is available in most any Auto Store in the 'HELP!' section.
All three (24,32 and 32) connectors modified and slipped onto header
Long taped-off wires in foreground will hook to new MAP and Knock Sensors.
All three (24,32 and 32) connectors modified and slipped onto header
Long taped-off wires in foreground will hook to new MAP and Knock Sensors.
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'730 ECM pluged into harness.
(labeled, but not soldered to pin header)
'730 and '165 MEMCALs.
'730 (lower) from L4 Cav, '165 from v8.
'730 V8 MEMCAL.
Knock Sensor circuit board built onto MEMCAL.
'730 (and '165) modified V8 MEMCAL.
low-profile ZIF into solded socket.
'92 5.7L Knock Sensor from Autozone
'Trailer Hitch'
wiring harness pulled thru firewall for MAP hookup to adaptor cable
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MAP and second knock sensor wired into engine-bay and down/thru firewall
Black plastic conduit used for all wiring for clean look.
I started the car and gathered an initial ALDL scan to check sensors,etc. The car ran very poorly and the data showed it running VERY rich with the stock '92 5.7l calibration. I have enough preliminary data to start zoning in the EPROM. The ALDL data (after warmup) from the RPMs, MAP, O2 from the first start can be seen here
The adaptor was then unhooked and the '165 ECM reattached to prove they can be swapped easily. The ALDL data from the subsequent MAF is shown here .
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A basic EPROM image and road test data will be forthcoming..
3-1/2' aluminum tube replacing MAF sensor
Cut from 3-1/2' diameter aluminum jar, 6' long. Painted 'stealth' black
3-1/2' aluminum tube replacing MAF sensor
Cut from 3-1/2' diameter aluminum jar, 6' long. Painted 'stealth' black
MAF hookup wire can be seen on thermostat housing
1 (MAP) 13.098@105 (let car shift to OD)
2 (MAP) 13.095@105 (let car shift to OD)
3 (MAF) 12.941@105 (kept car in 3rd to 5600rpm)
4 (MAF) 13.071@103 (let car shift to OD)
5 (MAF) 12.927@106 (kept car in 3rd to 5800rpm)
6 (MAP) 13.063@105 (kept car in 3rd to 5800rpm)
7 (MAP) 13.050@105 (kept car in 3rd to 5600rpm)
*note: all the runs had 60' times between 1.812 and 1.860 and so I feel are warranted for comparison..
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The Bins used for the tests are a AUJP (Runs 1,2) , AUJP (Run 6) , AUJP (Run 7) variant used in the '730, and a ARAP variant used in the '165.
Diacom snapshots of the RPM,air flow,O2 for the best MAP and MAF runs..
Diacom snapshots of the RPM,Spark Adv (TDC relative),Knock retard for the best MAP and MAF runs..
00-5-21The MAP system runs very strong now. The above tests were with an early(in tuning) MAP chip that barely had the fueling stable and had no sparkadvance tuning done. I've since tuned it much better and the MAP setup isrunning at and above the level of the MAF setup..
I will soon bebuilding a cold-air intake for it that is much more difficult to do witha MAF system...