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v3narrowbandsim [2009/07/25 20:44]
twdorris
v3narrowbandsim [2024/03/15 11:16] (current)
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 With ECMLink'​s narrowband simulation function, you can simply run the 0-5v output to the ECU and then configure the ECU to produce the 0-1v simulation internally, thus freeing up an additional input on the ECU for some other aftermarket sensor. With ECMLink'​s narrowband simulation function, you can simply run the 0-5v output to the ECU and then configure the ECU to produce the 0-1v simulation internally, thus freeing up an additional input on the ECU for some other aftermarket sensor.
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 ^Wideband kit^Switch point (volts)^ ^Wideband kit^Switch point (volts)^
-|AEMWB ​ |  4.07|+|AEMWB ​30-2301 ​ ​| ​ 4.07|
 |AEMWBGauge ​ |  2.34| |AEMWBGauge ​ |  2.34|
 |AEMWBGaugeR1 ​ |  2.53| |AEMWBGaugeR1 ​ |  2.53|
 +|AEMInlineWB 30-2310 ​ |  3.12|
 +|AEMAnalogWB 30-5130 ​ |  3.12|
 |AFXWB ​ |  4.07| |AFXWB ​ |  4.07|
 |DynoJetWB ​ |  2.94| |DynoJetWB ​ |  2.94|
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 ===== Startup options ===== ===== Startup options =====
 Each WB kit "warms up" a little differently. ​ You will need to adjust the startup options in the NBO2 sim tab to match your own configuration. ​ To do that, fire up the engine while cold and monitor the WB kit's behavior as it warms up.  It probably locks the value and probably takes a decent bit of time to warm up and start working. ​ Watch this behavior and adjust the startup options in ECMLink accordingly to match your kit. Each WB kit "warms up" a little differently. ​ You will need to adjust the startup options in the NBO2 sim tab to match your own configuration. ​ To do that, fire up the engine while cold and monitor the WB kit's behavior as it warms up.  It probably locks the value and probably takes a decent bit of time to warm up and start working. ​ Watch this behavior and adjust the startup options in ECMLink accordingly to match your kit.
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 ===== WBO2 sensor location ===== ===== WBO2 sensor location =====
-The best place to install the WBO2 sensor for accurate narrowband simulation is in the front O2 sensor location. ​ [[innovatelc1orlm1install|This page]] outlines how one user installed his WBO2 in the front O2 location. ​ When installed there, the WBO2 sensor can respond very quickly to the changes made by the ECU to A/F mixture. ​ This is inline with assumptions in the ECU on how quickly it can expect to see a "​response"​ as it adjusts short term fuel trim.  ​+By FAR, the **best** place to install the WBO2 sensor for accurate narrowband simulation is in the front O2 sensor location. ​ [[innovatelc1orlm1install|This page]] outlines how one user installed his WBO2 in the front O2 location. ​ When installed there, the WBO2 sensor can respond very quickly to the changes made by the ECU to A/F mixture. ​ This is inline with assumptions in the ECU on how quickly it can expect to see a "​response"​ as it adjusts short term fuel trim
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 +**NOTE ABOUT HEAT:** There'​s a rumor running around that WB sensors are not designed to take the heat that close to the engine.  ​I honestly don't know if there'​s some truth to that or not, but it seems strange to me and doesn'​t jive with our empirical results. ​ I've run the WB sensor in the front O2 location on my own car for years and have had no problems, even after putting it through a LOT of hard (and HOT) road course miles.
  
 However, there are a number of situations where you may find it easier to install the WBO2 further downstream (in the rearO2 location on a 2G, for example). ​ The problem is that the sensor responds more slowly to ECU mixture changes the further away from the engine it's placed. ​ As a result, the ECU makes adjustments to the A/F mixture too quickly and "​overshoots",​ running really lean for a few seconds, then really rich, then lean, etc.  ​ However, there are a number of situations where you may find it easier to install the WBO2 further downstream (in the rearO2 location on a 2G, for example). ​ The problem is that the sensor responds more slowly to ECU mixture changes the further away from the engine it's placed. ​ As a result, the ECU makes adjustments to the A/F mixture too quickly and "​overshoots",​ running really lean for a few seconds, then really rich, then lean, etc.  ​
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 To correct for this, you need to change how the ECU adjusts the short term fuel trim.  You do that in the STFTAndO2Feedback panel in Direct Access. ​ The following illustrates a stock 2G DSM configuration. To correct for this, you need to change how the ECU adjusts the short term fuel trim.  You do that in the STFTAndO2Feedback panel in Direct Access. ​ The following illustrates a stock 2G DSM configuration.
  
-{{http://​www.ecmtuning.com/​images/​forums/​stftrate-stock2g.gif}}+{{https://​www.ecmtuning.com/​images/​forums/​stftrate-stock2g.gif}} 
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 +You can try slowing the adjustment rates down (there are a lot of them) if you want.  But your best bang-for-buck change will be to the **O2FeedbackAdjRate** table. ​ Try values like 10 and 16 or 14 and 18 instead of the stock values (4 & 10 shown in the 2G example above).
  
-You can try slowing the adjustment rates down (there are a lot of them) if you want.  But your best bang-for-buck change will be to the O2FeedbackAdjRate table. ​ Try values like 10 and 16 or 14 and 18 instead of the default values (4 & 10 shown above). 
v3narrowbandsim.1248569084.txt.gz · Last modified: 2009/07/25 20:44 by twdorris