ECU Chip Tune - Ignition Timing - Increase Horsepower

I just wanted to thank you for taking the time to explain these things, which probably take many tries to get it all in one take, and the drawings that you put on the board. I know that this is not a significant financial gain for you, rather a little 'favor' you go through to pass the time. Thank you!

Hi man,
I am writing from Argentina.
I just want to congrat for your so good videos. I am also and engineer and this is the best information I have found up to know to learn about tuning my ECU.
Thanks!
Leonardo (civic SI 2008)

Shouldn't this guy have a RUclips award by now? It's been years.

I’ve never seen a better informative explanation about timing than this video. Thank you

One thing I found out when looking into timing experiments for my Miata, the higher octane gas you're running, the less likely you are to have knock at higher timing degrees. For instance, my little 1.6L engine will knock if it's running on 87 with the timing advanced from 10 to 12 degrees BTDC, but if I run 93 octane, I can advance the timing all the way to 18 degrees before it starts to knock. Just thought I'd add that.

Very welcome, glad you enjoy the videos!

The delay for anti-lag isn't to increase horsepower, it's to increase the amount of exhaust gas temporarily in order to maintain boost, allowing for more pressure in the exhaust manifold rather than in the cylinder.

This video does an excellent job of explaining why computer controlled timing made such a difference in engine performance. I'd also say distributors ignition lets the computer control the timing even more precisely, which I'd imagine is better.

Awesome, thanks for watching!

I have a brand new Triumph motorcycle that ran great up until the second service now the engine is knocking during warm-up and smooths out, but doesn’t completely go away if you really listen to it.
I’ve been racking my brains trying to figure out if it was the first fill oil and different oil that they use at the service, but I think it comes down to the ECU programming being faulty.
Awesome video !!!

I removed my headgasket to obtain higher compression ratio. Thanks for all the good tips Jason ✌️

It can be as complex as you desire. You could absolutey change the timing characteristics (as well as others) depending on the position of the gas pedal, as well as other factors like RPM, etc. Older cars are a bit more static, but I would imagine hardly any new cars don't have more dynamic programming.

Why do i have jeff cavaliere vibes with this boy great explaination tho💪

Can't believe I've been watching this channel for years now, and in this old video I realized I was not subscribed. Have another sub young Jason, imagine I've been always here... bc I have.

Oh! I see, so the delay of ignition timing helps the inlet turbocharger intake more air with high pressure and tempt. Thankyou very much!!
I am an international student studying in Virginia Tech for Mechanical engineering this fall, and I love to watch your video with notes taking for each of them. Keep going!! 　Ｉ appreciate you pretty much!

If it's electronically controlled it's not going to change the timing unless something tells it that it needs to. For example, if it knew that the mixture was going to knock, it may alter the timing (or air/fuel) and try to compensate and eliminate the knock. Not sure what to tell you, check for engine codes and see if it spits anything out. Most auto parts stores will read it for free.

You're welcome, thanks for watching!

I learned more about mecanic on your page than the garage I used to work!
thanks a lot!

I have been studying engines for years and you are right on the money on this video

Some of the best content for car guys on youtube.

I'm not sure what you're asking? Make a 1.6L with as little HP as possible? It would likely be more efficient to make a smaller engine that meets the power you want to make, assuming it's small.

I wish your channel had been around when I was 18 I'd have gone to school for engineering not finance lol

Not too often but that will likely change. Just a couple videos now - replacing the distributor, replacing the thermostat, and strut bars installed.

As usual, you've made another great video! I was considering getting an ECU chip tune, but didn't realize how this could affect the engine in the long term. I want horsepower, but I also want my car to last for years and years, decades and decades. Thank you.

That's not what I was intending to say. What I'm saying is detonation occurs at a time when the maximum pressure will be reached before the piston reach TDC (while it's still moving up). "Knock occurs when the peak of the combustion process no longer occurs at the optimum moment for the four-stroke cycle."

I did this (without a dyno) to an VW kombi... just move the distributor and done
Nice video!

Mmmkay. You may wish to check a source or two, and report on what you find. "Igniting the mixture before the piston reaches TDC will allow the mixture to fully burn soon after the piston reaches TDC."

We watched your video today with the entire crew and we think that you will get there in the end! you are on the right track!

Started with a marker and white board. Last week he drove a McLaren 720S. I love you brother ❤️

This is the best explanation of TDC in the world.

In regards to the setting the timing back short of maximum HP/TQ to prevent knock, in most cases there are two ways to deal with it though one is more preferential IMO... Enrich the mixture to slow the burn of the flame front... or the better option of raise the octane rating of the fuel. To make maximum power in an engine you tune the ignition advance curve for HP/TQ then tune for fuel to allow that timing curve. Great video BTW!

It's because you can increase the boost simply with a tune with most modern turbocharged cars. That means you can easily increase the amount of air supplied to the engine, thus can use more fuel and create more power. With NA cars you can't really alter the amount of air that comes in, just the amount of fuel, without actually swapping components.

To prevent pre-ignition, but perhaps not knock. "Knock occurs when the peak of the combustion process no longer occurs at the optimum moment for the four-stroke cycle." What happens when the timing is too advanced, is the maximum pressure occurs before TDC, which pushes down on the piston when it is still coming up. This is what you are attempting to avoid. Wiki calls this knock, though perhaps incorrectly. Regardless, the principle holds true.

where is the link for ignition timing that you talked about in this video ?

Start with the basics if you're new. My channel allows for that. Go to my second list of playlists which says "Learn how cars work" and start with the first playlist, working your way through. I've ordered it so you shouldn't find yourself confused. If you do, simply ask! :)

Ignition may occur before TDC, but you want the maximum force created (by the expansion of the igniting air/fuel mixture) to occur once the piston is moving down.

i cant stop watching your vids... so addicting! do you ever go under the hood or do you only deal with the concepts?

The geometry of the cylinders; what shape they form. Example V6 vs I6.

Mate, your videos are just brilliant. Just wanted to let you know....keep up the awesome videos! I'm a 3rd year aerospace engineering student and i watch your videos quite a lot.

To answer your question, yes, you can have gains by adjusting only the timing, while keeping everything else constant.

Perhaps, based on my chart, though mine is certainly not representative of all engines. If knock is fairly easy with a certain design, they will likely choose to be overly cautious with the timing.

I love your stuff! Combined with the repair guys (Eric, Brian, Chris, Humble, Scotty) it's the perfect marriage of my science geek(former Physics major) and my gearhead!

I don’t usually comment on videos but this video is so good I had too. Cheers for helping me understand pal

Now it's done without distributors, each spark plug has it's own coiled an they can be controlled completely electronically.

It can be variable, especially when you have distributorless engines with individual coils for each plug.

Could you PM a link? I'm curious, thanks.

Dude your videos are awsome, but im a.. well just say im a engine noob. Im trying to learn, but your throwing sooo much information at me that i can barley understand everything, but GOOD information. Keep it up.

Perhaps I used the wrong terminology, but hear me out. "Knock occurs when the peak of the combustion process no longer occurs at the optimum moment for the four-stroke cycle." What happens when the timing is too advanced, is the maximum pressure occurs before TDC, which pushes down on the piston when it is still coming up. This is what you are attempting to avoid. Wiki calls this knock, though perhaps incorrectly. Regardless, the principle holds true. This is NOT pre-ignition.

Hello 2013 Jason! Videos good even back then

Just before, actually. Because it won't instantly get to high pressures, it requires a little time to spread the flame.

Yes that makes sense, I didn't think that the two sparks actually may be delayed to better optimize the combustion. Thanks for your comment man!

Holy sh*t.
This kid’s salt n peppered now. Oh how 9 years can change things

Unlikely, but shoot for 45 degrees (assumes you're a certain height when you jump, forget what) to maximize probability of making a basket!

i watch your video 2 years ago but didnt have a clue what you meant , after i had a mapping course and mapping my own cars , i now understand what you mean , it does depend on fuel you use at the time , air temp , move the timing till it starts to loss hp then back it off one hp , but you have to watch for knock limited engine as they may knock before max hp ,

Most of the time the spark will fire just before the power stroke (or the piston begins to move down).

Yeah, it's on the to-do list. With exhaust systems, and hybrids. And a bunch of other stuff haha. I'll get there!

Nope, check out my other video "ECU chip tune" that goes over other parameters that can be altered.

I will have a video on cams, yep!

I guess the consequences don't outweigh the costs. A failed spark plug means an engine in limp mode, or at worst, dead. But a car isn't going to come crashing down to earth. As far as the higher altitudes that's really not something most cars have to deal with.

Isn't that pre-ignition what you described around 4:25? Hot carbon residue igniting the fuel-air charge too soon or "pre-igniting" it before actual ignition by a spark plug. I thought knock occurred due to high temperatures and pressures (like a diesel) and it self ignites and slams the piston making a knocking sound.

I'm not to sure. I know this has been done in HEMI engines by Chrysler, but I believe it was done simply because they couldn't meet emissions without it.

I guess it depends on what your definition of "beat" is. If it's just a drag race (and has 4wd), then yeah, more horsepower will prevail. If it's a track, driving a truck would be pointless (except for fun, I suppose).

Not a bad video. There are some points you may want to add next time. Such at mbt, not all cars are knock limited and adding to much timing can actually cause a loss of power. And another good point would be to elaborate on how volumetric efficiency can effect timing and the knock threshold of the engine. Props on the vid you seem to have a rather well understanding of basic ignition tuning.

Probably, but it'd likely need to be worked a bit to handle higher RPM.

This could have a great title: How to know if your engine is retarded :D

I agree with you, but the part that is interesting is the actual increase in performance rather than the fail-safe side of the ignition system. Double spark (in a different point of the combustion chamber) helps to ignite the fuel with major efficiency while the flame propagates better. Not a kind of thing you want on your standard fuel-eco Toyota, but what about high performance engines? Alfa Romeo used to fit twin-spark ignition on most of their engines with great results!

This guy is a genius it's ridiculous he's so good at math

This kid is very good at explaining....when all is jumbled up.

Great video - I'm about to upgrade my motorbike igniton advancer to a +4 . I know it improves things and now I understand a bit more about how the bike works - I'm normally a 'hop on and ride ' type of guy but am trying to improve my theoretical mechanical knoweldge with some success. Thanks.

who found this video in 2019.. This guy is awesome..

Hi! I have been watching your videos so I first of all I wanted to congratulate you!
I wanted to ask you if you do know something about Hidrogen generation with cells, and up to which point is it a reliable way of generating extra power. I mean, would not it change the combustion temperature? Does it generate more power that the consumed?
Thank you!

Oh I didn't know that!!! Definitely gonna check it out... Thanks for your time here man... Respect!

you are right, just realize you'll need a little time for the flame to spread. Btw what is the best if you don't have (high compression ratio)?

I see one thing which has been overlooked, and which is a serious problem with the air cooled Honda GROM is the relation between ignition advance and the heat it will generate. We see people running on that motorcycle 30° to 32° advance at 9,500RPM which lift the engine temperature to 135 degrees Celcius where the moment has been reached that it's no longer possible to get your air fuel ratio under control anymore. We see 25° advance as perfect, but then the engine doesn't make any power anymore. We also see that for each rise in engine temperature we need to have another fuel map basically, so the advance and the heat it generate seems to be a huge player and not easy to get it right..

Thanks. This explains simply why RPM doesn't affect timing.

*Idea for a video*
N/A vs Forced induction ignition timing.
Thank you :)

Coming back to the discussion below about prevention of knocking by retarding the ignition timing: For one, Wikipedia says that "Knock occurs when the peak of the combustion process no longer occurs at the optimum moment for the four-stroke cycle", and further, that "one or more pockets of air/fuel mixture explode outside the envelope of the normal combustion front" and that this happens after the spark plug fires (which distinguishes knocking from pre-ignition). It is a mystery to me how retardation of ignition timing would prevent that since said "pockets of air/fuel mixture" would experience higher pressure and heat by compression before the "normal combustion front" can reach it and, hence, INCREASE the occurrence of irregular combustion. I do believe that it works, of course, but I have yet to see a logical explanation for it.
Note that knocking is not a regular combustion that produces peak pressure before the TDC (otherwise I would easily understand that retardation of ignition timing is the cure), it DOES always involve irregular combustion outside the normal combustion front.
Any thoughts?

Hi! It's nice to watch your video! I got a question, could you please help me?
The video mentioned that Ignition timing, advance, may increase horsepower, however, another video which discusses the anti-lag turbocharger system with "Inlet" method mentioned that we need to delay the ignition timing to increase horse power. They are inconsistent.

This is called MBT timing (Minimal for Best Torque). If you are tuning an engine, and you find that if you get more power by retarding the ignition timing this means you are doing something right. If you get more power by having to advance ignition timing, then that means you have a poorly designed engine (case of bad geometry). The goal is to get a greater peak pressure by 15degrees ATDC, and you do that by getting as much fuel as possible burned by that time.

Mate, first of all, I'd like to thank you for your videos. I'm starting MEng Mech Engineering this fall and I would love to do an MSc Automotive Eng. course afterwards. I somewhat know the very basics of car mechanics but your videos cleared out a gray areas and taught me new things.
Can you achieve power gains by ONLY adjusting the timing of an engine, while other ECU-controlled variables (eg A/F ratio) are kept the same? This would also translate into increased efficiency as well, right?

Did you mention that engines auto advance the timing as rpm increases? Motorcycles had a manual adv/ret lever, then flyweight & springs mechanical adjuster & now electronic.

Great videos!
I would suggest you putting something into the room that will attenuate the reverberation.

Can you do a video where you explain different kinds of software tuning? Dyno, ecu flash, remap etc with pros and cons and various scenarious like daily drive, occasional drag and track day

So for a higher mileage engine (200k km or 125k miles) is there an inherent risk with advancing the ignition timing/ECU mapping? I imagine in a NA engine the safety factor engineered into the engine is greater than any potential power gains from ignition timing?
Good videos by the way mate.

Could you explain electronics of car, like main fuse, ECU, ignition and how battery is connected to them

It is used in automotive. Alfa Romeo engines use it in their Twin-Spark engines. Back in the 8V days it made a difference as the 2nd spark would actually fire under different timing and igniting any remaining A/F mixture. Nowadays with 16V systems it's a bit of a gimmick and offers no real power gains.
Feel free to correct me if I'm wrong.

Engineering Explained I love watching these videos! Could you please do an explanation on twin spark systems like what is found on some 2.3l Rangers, Newer Hemi engines, and dodge 4.7l? I'm sure other companies use it as well.

Rare sighting.

I agree with most of video but Knock isnt just the result of detination. Knock is derived from the knock sensor which is just a big microphone attached to the engine block. Sometimes knock can be from various engine components like heat shields being loose and making noise. The ecu just gets feedback from the noise and adjusts the timing usually retarding.
But yes, ignition advance will create more TQ which is what tuners look at, not neccesarily HP because HP is the result of TQ over time.
As an engine builds TQ up to its maximum RPM the ignition should be advanced as much as possible depending on fuel octane,engine temp,IAT,ambient temp,boost, spark efficency,fuel pressure, fuel temp etc....
And as boost increases as also does RPM's usually its better to start pulling timing. The amount is based on how aggressive you want the tune. Its really complicated and aweome at the same time.

thanks for making this so understandable. I'm quite interested about homemade engines. At my beginning i tried making Stirling engine and i succeed only after few weeks or may it took month because of lack of parts so i had to make them on my own. Now i m trying to make i c engine but unfortunately again suffering from lack of parts which here is not avilable in my country so i cant buy it. I dont have lathe too. before watching this i was like let it be, i cant but your presentation gave me hope for expect more. thanks again.

Do you have any videos on how to use SCAN TOOLS?

faster rpm you may want to ignite earlier while the opposite for slower rpm.
so higher compression ratio mean it the piston will reach closer to the tdc than usual therefore it will have a longer stroke right?

Can you make a video of some type of ignition timer distributors which can be adjusted... im a fan of your video here..

Would you say that the safety factor that manufacturers typically use is too conservative and that you can safely extract a modest increase by tuning your car? For example changing the fuel to air ratio or increasing boost pressure (in a non naturally aspirated application).

Did you watch the video? The ignition of the fuel / air mixture isn't instant. This is why you need to factor in all the things he talks about in the video. It's always a compromise, this is not the ideal situation that you see in your physics text-books.

I tuned the timming on my car, first time tuning! Thanks god and the knock sensor I didn't messed the engine.

Tell me how to improve mpg on my 2012 6.0 and You will be my hero! Nobody seems to know anything!

A slight error there: too much advance can place max presssure AT tdc forcing the engine apart. (that is one problem) Auto ignition is another issue where a hot spot ignite the mixture when you don't want creating knock : this phenomenon can occur before or after spark. All of the above is bad of course, but there is no direct relationship between bad ignition timing and knock, insteat those are situation you put the engine into that lead to knock, or lesser quality fuel, or too hot spark plug choice, or piston shape or or or ...

How about explaining how a performance camshaft works?

Would you be able to explain some methods for those of us with points ignition?