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sdsetup [2012/12/26 15:49]
twdorris
sdsetup [2024/03/15 11:16] (current)
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 For additional wiring and/or pinout information,​ please refer to our [[ecuwiringinformation|ECU Wiring Information]] page. For additional wiring and/or pinout information,​ please refer to our [[ecuwiringinformation|ECU Wiring Information]] page.
  
-**NOTE:** Keep in mind that we do have the compatible [[http://​www.ecmtuning.com/​product_info.php?​cPath=28&​products_id=47|Omni 4-bar MAP sensor]] and [[http://​www.ecmtuning.com/​product_info.php?​cPath=28&​products_id=49|GM IAT sensors]] available directly off our website. ​ You can order them individually or you can get a [[http://​www.ecmtuning.com/​product_info.php?​cPath=28&​products_id=50|bundled discount]]. ​ We also have a plug and play [[http://​www.ecmtuning.com/​product_info.php?​cPath=26&​products_id=52|SD harness]] too.+**NOTE:** Keep in mind that we do have the compatible [[https://​www.ecmtuning.com/​product_info.php?​cPath=28&​products_id=47|Omni 4-bar MAP sensor]] and [[https://​www.ecmtuning.com/​product_info.php?​cPath=28&​products_id=49|GM IAT sensors]] available directly off our website. ​ You can order them individually or you can get a [[https://​www.ecmtuning.com/​product_info.php?​cPath=28&​products_id=50|bundled discount]]. ​ We also have a plug and play [[https://​www.ecmtuning.com/​product_info.php?​cPath=26&​products_id=52|SD harness]] too.
  
  
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 ===== Absolute Pressure ===== ===== Absolute Pressure =====
-^ Sensor ​  ^ Desc/part number ​ ^ 
-| GM 3-bar | GM 3-bar P/N 12223861, pig tail 15305891 ​ | 
-| GM 3.3-bar ​  | GM 3.3-bar P/N 9373269, pig tail 88987997 ​ | 
-| AEM 3.5-bar ​ | AEM 30-2130-50 (50 PSIA / 3.5 Bar)  | 
-| AEM 5-bar  | AEM 30-2130-75 (75 PSIA / 5 Bar)  | 
-| Omnipower 3-bar  | MAP-MITS-3BR or MAP-GM-3BR (3 bar) | 
-| Omnipower 4-bar  | MAP-MITS-4BR or MAP-GM-4BR (4 bar) | 
  
-You wire up a pressure sensor much like you wire up any other aftermarket sensor for logging. ​ The details of which can get complicated because there are several different inputs you can use and several different sensors. ​ So it's hard to write up a COMPLETE how-to on this. 
  
-Our [[installnewsensor|Aftermarket Sensor Install]] page is a good starting point. ​ That page links to several other useful pages, including this example install of a [[gm3barinstall|GM 3-bar sensor on the 2G MDP]] input.+^Sensor ^Desc/part number | 
 +|GM 3-bar |GM 3-bar P/N 12223861, pig tail 15305891 | 
 +|GM 3.3-bar |GM 3.3-bar P/N 9373269, pig tail 88987997 | 
 +|AEM 3.5-bar |AEM 30-2130-50 (50 PSIA / 3.5 Bar) | 
 +|AEM 5-bar |AEM 30-2130-75 (75 PSIA / 5 Bar) | 
 +|Omnipower 3-bar |MAP-MITS-3BR or MAP-GM-3BR (3 bar) | 
 +|Omnipower 4-bar |MAP-MITS-4BR or MAP-GM-4BR (4 bar) | 
 + 
 + 
 +You wire up a pressure sensor much like you wire up any other aftermarket sensor for logging. The details of which can get complicated because there are several different inputs you can use and several different sensors. So it's hard to write up a COMPLETE how-to on this. 
 + 
 + 
 +Our [[:installnewsensor|Aftermarket Sensor Install]] page is a good starting point. That page links to several other useful pages, including this example install of a [[:gm3barinstall|GM 3-bar sensor on the 2G MDP]] input. 
  
 The basic process involves the following steps: The basic process involves the following steps:
  
-  ​- Select an [[ExternalSensorInput|available ECU input]] you want to use+ 
 +  ​- Select an [[:​externalsensorinput|available ECU input]] you want to use
   - Remove any existing sensor connected to that input   - Remove any existing sensor connected to that input
   - Install the new sensor, providing any necessary power and ground connections to it   - Install the new sensor, providing any necessary power and ground connections to it
   - Connect the sensor'​s output signal to the ECU's input wire you selected in step 1   - Connect the sensor'​s output signal to the ECU's input wire you selected in step 1
-  - [[sdhose|Connect the sensor'​s air fitting as intimately as practial ​to the intake manifold.]] ​ Avoid long, narrow hoses, tees and small-diameter fittings that slow the sensor'​s response.+  - [[:sdhose|Connect the sensor'​s air fitting as intimately as practical ​to the intake manifold.]] Avoid long, narrow hoses, tees and small-diameter fittings that slow the sensor'​s response. 
 + 
 + 
 +==== GM-style Omni power 4-bar connection to the baro input ==== 
 + 
 + 
 +Although we can't possibly document all the different combinations of MAP sensors going to all the different ECU inputs, we will at least document the "​typical"​ case of installing our GM-style Omni power 4-bar sensor to the car's baro input. ​ If you have our [[https://​www.ecmtuning.com/​product_info.php?​cPath=26&​products_id=52|SD cable]] then, of course, you can just plug it straight up; no wiring or soldering required. ​ But if you do not, then you'll have the green pigtail shown in [[https://​www.ecmtuning.com/​images/​gmbundle.jpg|this image]]. 
 + 
 + 
 +The **red wire** ​ needs to be connected to the ECU's +5v line.  That would be <font 13px/​arial;;#​000000;;#​ffffff>​pin 81 (green w/yellow stripe) on a</​font>​ 2G<font 13px/​arial;;#​000000;;#​ffffff>​ECU harness or</​font>​ pin 23 (green w/red stripe) on a 1G ECU harness or pin 61 (green w/red stripe) on an EVO1-3 ECU harness. ​ This can also be pulled from the MAF connector under the hood.  The wire colors are the same on the MAF connector as on the ECU harness. 
 + 
 + 
 +The **black wire** ​ needs to be connected to the ECU's sensor ground. ​ That would be pin 92 (black) on a 2G ECU harness or pin 24 (green w/black stripe) on a 1G ECU harness or pin 72 (black) on an EVO1-3 ECU harness. This can also be pulled from the MAF connector under the hood. The wire colors are the same on the MAF connector as on the ECU harness. 
 + 
 + 
 +The **blue wire** ​ needs to be connected to the ECU's baro input. ​ <font 13px/​arial;;#​000000;;#​ffffff>​That would be pin 85 (orange) on a</​font>​ 2G<font 13px/​arial;;#​000000;;#​ffffff>​ECU harness or pin 16 (green w/yellow stripe) on a</​font>​ 1G<font 13px/​arial;;#​000000;;#​ffffff>​ECU harness or pin 65 (pink) on an</​font>​ EVO1-3<​font 13px/​arial;;#​000000;;#​ffffff>​ECU harness. This can also be pulled from the</​font>​ MAF<font 13px/​arial;;#​000000;;#​ffffff>​connector under the hood. The wire colors are the same on the</​font>​ MAF<font 13px/​arial;;#​000000;;#​ffffff>​connector as on the ECU harness.</​font>​  
  
 +\\
  
 ===== Using our GM MAF Cable ===== ===== Using our GM MAF Cable =====
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 ====== Configuring the Software ====== ====== Configuring the Software ======
-First, make sure you have installed the latest version of our application off our [[http://​www.ecmtuning.com/​downloads.php|downloads page]]. ​ You'll want at least v3.18.182. ​ Anything older than that may not even connect with your ECU.+First, make sure you have installed the latest version of our application off our [[https://​www.ecmtuning.com/​downloads.php|downloads page]]. ​ You'll want at least v3.18.182. ​ Anything older than that may not even connect with your ECU.
  
 Once you have installed the latest software, you can enable speed density operation by defining three things: \\ Once you have installed the latest software, you can enable speed density operation by defining three things: \\
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 ===== MAP Sensor Location and Type ===== ===== MAP Sensor Location and Type =====
-{{  ​http://​www.ecmtuning.com/​images/​forums/​sddata/​sdmaploc.png}}+{{  ​https://​www.ecmtuning.com/​images/​forums/​sddata/​sdmaploc.png}}
 Because you can connect your MAP sensor to any number of ECU inputs, you have to tell the ECU where it can find this sensor in order to use it for SD operation. ​ You do this on the ECU Inputs tab in the "Pin Assignments for ECMLink Functions (ECU-side)"​ area. Because you can connect your MAP sensor to any number of ECU inputs, you have to tell the ECU where it can find this sensor in order to use it for SD operation. ​ You do this on the ECU Inputs tab in the "Pin Assignments for ECMLink Functions (ECU-side)"​ area.
  
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 ===== BaseMAF Type ===== ===== BaseMAF Type =====
-{{  ​http://​www.ecmtuning.com/​images/​forums/​sddata/​sdbasemaf.png}}+{{  ​https://​www.ecmtuning.com/​images/​forums/​sddata/​sdbasemaf.png}}
 Tell the ECU to ignore incoming MAF data and calculate it from speed density data instead. ​ You do that on the MAFComp tab by selecting "Speed Density"​ as your Base MAF type. Tell the ECU to ignore incoming MAF data and calculate it from speed density data instead. ​ You do that on the MAFComp tab by selecting "Speed Density"​ as your Base MAF type.
  
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 ===== Engine Displacement ===== ===== Engine Displacement =====
-{{  ​http://​www.ecmtuning.com/​images/​forums/​sddata/​sddisplacement.png}}+{{  ​https://​www.ecmtuning.com/​images/​forums/​sddata/​sddisplacement.png}}
 The final step is to set the engine displacement. ​ On the Speed Density tab, there'​s a text box where you need to enter your engine displacement. ​ The ECU uses this information to correctly calculate airflow. ​ More information on this process is outlined in the [[sd101|SD101 page]]. The final step is to set the engine displacement. ​ On the Speed Density tab, there'​s a text box where you need to enter your engine displacement. ​ The ECU uses this information to correctly calculate airflow. ​ More information on this process is outlined in the [[sd101|SD101 page]].
  
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 ===== Airflow Smoothing ===== ===== Airflow Smoothing =====
-{{  ​http://​www.ecmtuning.com/​images/​forums/​sddata/​sdsmoothcb.png}}+{{  ​https://​www.ecmtuning.com/​images/​forums/​sddata/​sdsmoothcb.png}}
 Mass airflow sensors used by the DSM ECU tend to require some "​smoothing"​ or "​averaging"​ inside the ECU of their output signal. ​ This type of averaging actually delays the signal used by the ECU (since it's averaged out, a real change in airflow takes a little longer to register inside the ECU).  Fortunately,​ mass airflow sensors respond very quickly to changes in airflow rate, so this delay isn't a problem. Mass airflow sensors used by the DSM ECU tend to require some "​smoothing"​ or "​averaging"​ inside the ECU of their output signal. ​ This type of averaging actually delays the signal used by the ECU (since it's averaged out, a real change in airflow takes a little longer to register inside the ECU).  Fortunately,​ mass airflow sensors respond very quickly to changes in airflow rate, so this delay isn't a problem.
  
sdsetup.txt · Last modified: 2024/03/15 11:16 (external edit)