The Vacuum Advance Debate!

TIMING AND VACUUM ADVANCE 101 by GM Engineer.
The most important concept to understand is that lean mixtures, such as at idle and steady highway cruise, take longer to burn than rich mixtures; idle in particular, as idle mixture is affected by exhaust gas dilution. This requires that lean mixtures have "the fire lit" earlier in the compression cycle (spark timing advanced), allowing more burn time so that peak cylinder pressure is reached just after TDC for peak efficiency and reduced exhaust gas temperature (wasted combustion energy). Rich mixtures, on the other hand, burn faster than lean mixtures, so they need to have "the fire lit" later in the compression cycle (spark timing retarded slightly) so maximum cylinder pressure is still achieved at the same point after TDC as with the lean mixture, for maximum efficiency.
The centrifugal advance system in a distributor advances spark timing purely as a function of engine rpm (irrespective of engine load or operating conditions), with the amount of advance and the rate at which it comes in determined by the weights and springs on top of the autocam mechanism. The amount of advance added by the distributor, combined with initial static timing, is "total timing" (i.e., the 34-36 degrees at high rpm that most SBC's like). Vacuum advance has absolutely nothing to do with total timing or performance, as when the throttle is opened, manifold vacuum drops essentially to zero, and the vacuum advance drops out entirely; it has no part in the "total timing" equation.
At idle, the engine needs additional spark advance in order to fire that lean, diluted mixture earlier in order to develop maximum cylinder pressure at the proper point, so the vacuum advance can (connected to manifold vacuum, not "ported" vacuum - more on that aberration later) is activated by the high manifold vacuum, and adds about 15 degrees of spark advance, on top of the initial static timing setting (i.e., if your static timing is at 10 degrees, at idle it's actually around 25 degrees with the vacuum advance connected). The same thing occurs at steady-state highway cruise; the mixture is lean, takes longer to burn, the load on the engine is low, the manifold vacuum is high, so the vacuum advance is again deployed, and if you had a timing light set up so you could see the balancer as you were going down the highway, you'd see about 50 degrees advance (10 degrees initial, 20-25 degrees from the centrifugal advance, and 15 degrees from the vacuum advance) at steady-state cruise (it only takes about 40 horsepower to cruise at 50mph).
When you accelerate, the mixture is instantly enriched (by the accelerator pump, power valve, etc.), burns faster, doesn't need the additional spark advance, and when the throttle plates open, manifold vacuum drops, and the vacuum advance can returns to zero, retarding the spark timing back to what is provided by the initial static timing plus the centrifugal advance provided by the distributor at that engine rpm; the vacuum advance doesn't come back into play until you back off the gas and manifold vacuum increases again as you return to steady-state cruise, when the mixture again becomes lean.
The key difference is that centrifugal advance (in the distributor autocam via weights and springs) is purely rpm-sensitive; nothing changes it except changes in rpm. Vacuum advance, on the other hand, responds to engine load and rapidly-changing operating conditions, providing the correct degree of spark advance at any point in time based on engine load, to deal with both lean and rich mixture conditions. By today's terms, this was a relatively crude mechanical system, but it did a good job of optimizing engine efficiency, throttle response, fuel economy, and idle cooling, with absolutely ZERO effect on wide-open throttle performance, as vacuum advance is inoperative under wide-open throttle conditions. In modern cars with computerized engine controllers, all those sensors and the controller change both mixture and spark timing 50 to 100 times per second, and we don't even HAVE a distributor any more - it's all electronic.
Now, to the widely-misunderstood manifold-vs.-ported vacuum aberration. After 30-40 years of controlling vacuum advance with full manifold vacuum, along came emissions requirements, years before catalytic converter technology had been developed, and all manner of crude band-aid systems were developed to try and reduce hydrocarbons and oxides of nitrogen in the exhaust stream. One of these band-aids was "ported spark", which moved the vacuum pickup orifice in the carburetor venturi from below the throttle plate (where it was exposed to full manifold vacuum at idle) to above the throttle plate, where it saw no manifold vacuum at all at idle. This meant the vacuum advance was inoperative at idle (retarding spark timing from its optimum value), and these applications also had VERY low initial static timing (usually 4 degrees or less, and some actually were set at 2 degrees AFTER TDC). This was done in order to increase exhaust gas temperature (due to "lighting the fire late") to improve the effectiveness of the "afterburning" of hydrocarbons by the air injected into the exhaust manifolds by the A.I.R. system; as a result, these engines ran like crap, and an enormous amount of wasted heat energy was transferred through the exhaust port walls into the coolant, causing them to run hot at idle - cylinder pressure fell off, engine temperatures went up, combustion efficiency went down the drain, and fuel economy went down with it.
If you look at the centrifugal advance calibrations for these "ported spark, late-timed" engines, you'll see that instead of having 20 degrees of advance, they had up to 34 degrees of advance in the distributor, in order to get back to the 34-36 degrees "total timing" at high rpm wide-open throttle to get some of the performance back. The vacuum advance still worked at steady-state highway cruise (lean mixture = low emissions), but it was inoperative at idle, which caused all manner of problems - "ported vacuum" was strictly an early, pre-converter crude emissions strategy, and nothing more.
What about the Harry high-school non-vacuum advance polished billet "whizbang" distributors you see in the Summit and Jeg's catalogs? They're JUNK on a street-driven car, but some people keep buying them because they're "race car" parts, so they must be "good for my car" - they're NOT. "Race cars" run at wide-open throttle, rich mixture, full load, and high rpm all the time, so they don't need a system (vacuum advance) to deal with the full range of driving conditions encountered in street operation. Anyone driving a street-driven car without manifold-connected vacuum advance is sacrificing idle cooling, throttle response, engine efficiency, and fuel economy, probably because they don't understand what vacuum advance is, how it works, and what it's for - there are lots of long-time experienced "mechanics" who don't understand the principles and operation of vacuum advance either, so they're not alone.
Vacuum advance calibrations are different between stock engines and modified engines, especially if you have a lot of cam and have relatively low manifold vacuum at idle. Most stock vacuum advance cans aren’t fully-deployed until they see about 15” Hg. Manifold vacuum, so those cans don’t work very well on a modified engine; with less than 15” Hg. at a rough idle, the stock can will “dither” in and out in response to the rapidly-changing manifold vacuum, constantly varying the amount of vacuum advance, which creates an unstable idle. Modified engines with more cam that generate less than 15” Hg. of vacuum at idle need a vacuum advance can that’s fully-deployed at least 1”, preferably 2” of vacuum less than idle vacuum level so idle advance is solid and stable; the Echlin #VC-1810 advance can (about $10 at NAPA) provides the same amount of advance as the stock can (15 degrees), but is fully-deployed at only 8” of vacuum, so there is no variation in idle timing even with a stout cam.
For peak engine performance, driveability, idle cooling and efficiency in a street-driven car, you need vacuum advance, connected to full manifold vacuum. Absolutely. Positively.

this guy is the best classic engine teacher on the internet. I've learned so much here

This is the first time I’ve ever seen this explained well

it’s all the same except at idle and WOT (wot has no vacuum anyways so it’s a moot point). Manifold has higher timing advance at idle, lower EGT’s and not as good emissions, then pulls timing as the throttle blades are opened. Ported vacuum has no advance at idle, because it sees no vacuum at idle. As the throttle blades are opened, the vacuum rises and it adds timing advance. The way that you determine which is best is the way your distributor curve is set up, and your application. Some guys will swear by ported only, others by manifold only. If you have the ability to use a dyno I’m sure there’s a negligible difference in part throttle power, because in the middle of the part throttle operation, with the manifold vacuum advance dropping and the ported rising, they intersect at the same amount of advance. So, to sum it up, they achieve the same effect, just one adding timing and one taking timing out. The engine will run differently on each due to the way they add or remove timing. Remember, this is only idle and vacuum cruising, wide open throttle doesn’t matter for vacuum advance.

Switching to manifold vacuum cured almost all my problems. New rebuilt 350 stock except for an RV cam. New holley 600. new MSD distributor the list goes on and on.. Never could get it to idle correctly no matter what I did. 14 degrees btdc. Finally read that article, switched to manifold vacuum and its like a new car. It runs and drives so much better its unbelievable.

Love the sounds of an old Dodge...the door latching, the hood groaning...I can almost smell the OEM musty smell..👍😂

I read an article by one of the engineers involved with designing these systems, he knows what he is talking about and says you always want to use full manifold vacuum. It keeps your engine cooler at idle due to the added advance, and has other benefits as well. Ported was something that was used later on to attempt to help emissions.

Uncle Tony's Garage: Great video Tony. Retired licence mechanic here. I used two vacuum gauges, one on manifold and other on ported to teach apprentices the difference of the two. Very useful when adjusting the spring pressure and max vacuum advance. Cheers.

I thought the only difference between full vac and ported was having extra advance at idle. Ported timing waits until throttle is just off idle to work. So it makes no difference either way. The power and fuel economy is the same. The only change from the exta timing at idle is smoother idle, cooler temp, better vacuum assist to power brakes, ect. depending on your engine combo, it may run better at idle. The higher vacuum signal lets you lower the throttle plates even more to gain better results from your idle mixture screws. Remember, we always set our base timing and and check max timing with the vacuum advance disconnected anyway. WOT doesn't use vacuum advance, so there should never be a change in performance. Anyone who disagrees must be setting their base timing with vacuum advance connected. This is wrong and will affect many things negatively. Love your videos, Tony!

Vacuum Advance plays a huge part in Fuel mileage... I have found on my tunnel ram setup I get better driveability from Manifold vacuum.. you can use adjustable vacuum pots so you can dial in your vacuum advance and have your cake and eat it too....

My new MSD distributor instruction book said to connect the vacuum advance to the ported vacuum of the carburetor, not manifold vacuum. So, this is what I did, and it works just fine. 😊
Also there are thermal switches that when the coolant temperature reaches 225 deg F the distributor vacuum advance is switched from ported vacuum to manifold vacuum to increase the timing for lower engine temperatures at idle. This was common back before electronic engine controls. These switches can still be found for sale.
Or you can do the same thing with a 12 volt three way solenoid valve and a switch. So if you get stuck in traffic in your hot rod you can just flip a switch to help prevent over heating on hot days.

I love how you make the explanations so very simple by just physically showing it actually doing what it does.

IMO, vacuum advance was originally hooked up to manifold vacuum. Later, the manufacturers hooked it up to ported vacuum for emissions purposes. The big downside of ported vacuum is the engine tends to overheat on hot days in traffic. Ported vacuum will cause the engine to idle with less advance than what it wants. Idle loves advance. It runs cooler and more efficient.
From what i've heard, never seen one myself, In the late 60's, in California, they started to install a second vacuum advance that was activated by a temp sensor. I think this was an attempt at fixing the overheating problem. So, when the engine started to overheat it would add additional advance from the second canister and cool the engine. Could be wrong. Just a theory.

Well, we know the canister works. The distributor has to be curved to work on whichever port you use. If you take a stock distributor that was curved to run on ported and you put it on manifold you will have way too much timing. Likewise, if you plug a distributor into ported that was set up for manifold you won’t have enough. So there is truth in both camps on which is “better”. Best to know what you have for mechanical advance in your distributor and how many degrees at what vacuum your canister delivers to determine what will work for you. Excellent real world practical demonstration from Tony. You won’t get that anywhere else! 👍

I always learn something when I watch Uncle Tony. Hard learned knowledge that he's willing to share. Thank you for taking the time to teach and entertain.

Absolutely correct. The biggest problem is that the off-the-shelf distributors have too much mechanical advance for ported vacuum. I had DUI build me a distributor with 12 degrees mechanical advance and a 14 degree vacuum canister. I start with 24 degrees initial timing which using ported vacuum is your idle timing. But I vary that from about 22-26 degrees as needed. So this gives me 24 degrees at idle, 36 degrees total timing and 50 degrees light load cruise which is exactly what a first generation SBC wants. My engines all run perfect.
For Ported Vacuum
Idle 24
> 12 mechanical advance
Total 36
> 14 vacuum advance
Cruise 50

I’ve been always using ported vacuum. I’ve had to listen to so many people telling me to run manifold vacuum, but I read something long ago about which port to use, and I’ve stuck with it! The only thing that I’ve done is try to limit the amount of advance, and keep my initial timing up. It’s worked so far, so good! 😉

Great video! I agree, ported, only, ever! I had a great Vocational Auto instructor. We had a Sun distributor machine. He taught me how to use it and to set up and recurve distributors. Must have done 100 over the years. I loved using that and a Sun engine scope, he also trained me on. Fun stuff. A lost art these days.

Again, late to this video viewing.
Lovin you classroom venue. Was a little worried, bout you being along side the highway with the kind of drivers out there these days.
Appreciate the effort, and you managed to show this very “thick headed” guy how this system works.
Thank you sir.

Class is in session, pay attention.Thanks UTG. Stay safe, God Bless

When I was a kid, my mother was being shown a vacuum gauge. She then sucked on it and seemed very proud. I had no idea why....

I guess I'm a younger guy, mid 30's. Grew up in the age of distributorless ignition and electronic fuel injection. But the more I watch these videos, the greater respect I have for the engineers of the past for all the clever ways they thought of ways to improve performance, economy, and drivability on an....analog level{?}. The things they did before modern computer power are really quite impressive.

For stock type stuff ported is great, cars form the factory did it that way for a reason.... I had a car with a bigger cam and found it worked best hooked to manifold. The reason why is to get it to idle in gear, I needed the throttle blades open too far causing the idle mixture screws to have no effect. So, hooked to maniflod I got some extra timing that raised the idle allowing me to close the throttle and allowed idle mixture adjustment. This would not have worked if I did not have an adjustable vacuum can the stock cans have too much advance. In full disclosure the stall convertor was too tight for the cam, when I put it into drive the car learched pretty bad. So, yes when modifying engines the combo is very important.
This issue is always a debate, IMO the most important thing is to understand timing and the advance mechanisms. Then use a vacuum gage and timing light to actually know how much timing your engine is actually seeing under different conditions. Too many will want to argue about this and they never drove a car around with a vacuum gage or checked their mechanical advance curve.
Keep up the good work Tony!! Dont worry about the know it alls, they are just fine. Your are giving a great education to the younger/newer guys!! Its weird to think that there are a lot of 50 year old professional mechanics who never worked with carbs and distributors.

Tony you are giving me flashbacks, its the mid 1960's auto shop at Martin VanBuren HS Queens. The vacuum gauge was our #1 go to diagnostic tool. Electronic test equipment was years away. I remember buying my first dwell meter and thinking how advanced things had gotten.

Hey Tony, I've been dealing with old British cars that not only have vacuum advance but also vacuum retard using a double diaphram distributor. I plug both of them and do what I call a "road tuning". I set it up with the light in the shop and then drive and get the best responsive advance I can on the road, reset idle and call it a day. It's worked for years.

Man, this is why you're a genius instructor! Who else would think to take a real distributor in the car to show what's happening?

Love it!! First you held class, then when heads started shaking, you took everyone into the lab. "A video is worth a thousand words"...😁
This is basic stuff, dont know how there is debate on it, but you had a great way of clearing the air on the subject Uncle!!👍👍

This channel is a gold mine. I learn something every video. I always thought vacuum advance's were always connected to manifold until the early 70's when they switched it to ported because it allowed for better emissions. My understanding was that if I want better emissions I should do ported, but if I want better drive-ability I should do manifold.

You got balls standing on the side of the road like that lol

Sweet demo rig. I've never thought to try that. Really interesting to see a real world experiment. cheers Unc. My spare sbf points dizzy recently got rigged with a battery, coil and a plug, held to the workbench in the shed by a chunk of railroad track and spun up with a skateboard wheel with a silicone hose tyre mounted in the drill. Mission was to calibrate the new old been in bits custom tach. Works a treat. Dead nuts on to the digi timing light tach after tweaking it. Some people would have rigged up a signal generator circuit but analogue with dangerous fizzing taser sparks way more fun. Even the wife was impressed.

Uncle Tony, Thanks for tuning me up! It’s been a while since I’ve been in this deep. I’m doing a major rebuild on my ‘79 F100 (bought it new at age 19). Since most emissions parts are obsolete I’ve had to reimagine as best I can. OE vacuum diagrams showed the vacuum advance working off manifold vac, trying to set timing, adjust idle; and it wasn’t making any sense. I think I’ve got it now.
I owe you one, or more.

In other words, light load and substantial vacuum implies a less dense charge in the cylinder, and the flame front is moving slower, so the vacuum advance bumps it up so the flame front hits the piston at TDC, which gives more power for that part throttle setting, which in turn enables you to let your foot off the gas even further for better gas mileage.

Why not let the weights do the advancing and keep the manifold vacuum advance for the best idle and light throttle cruising?

As I recall, vacuum advance is always useful when you have high vacuum because you also have stratified lean conditions. Could be at idle, could be descending a hill, could be light throttle freeway cruise. That vacuum advance is there to help light the very starved almost closed throttle poor mixture, light it early so the weak flame front has time to progress to peak burn.
If you watch your own video here as you just presented it, you see that when you accelerated, you were on mechanical advance only, both times. Once because vacuum advance fell back to mechanical only, and once because you ported it. Same result.
The vacuum advance can't "remove" mechanical advance. They are separate systems ...

Great work as always Tony, clear and concise answers and demonstrations that clear the air and give actual information that is physical and tangible for everyone to see and more easily understand the concept. Nicely done sir

My car seems to idle better with the extra timing from manifold advance. It comes off when I hit the gas. So what? It goes back to where I set it in the first place. What am I missing here

I wish there were some sort of marks to be able to see it move. Maybe it’s by old eyes not being able to see anything move

68 440 magnum. Original Carter 4429 only had one port available (other than the choke pulloff) and that was for ported vac advance.

I thought I understood port vs manifold for distributors, but this made is so clear I won't ever forget

This is very good. The vacuum system is overlooked by many and understand by a few people. Remember, your knowledge is not the same that other people have or think they know.. People start off wrong and the stay wrong. It takes some person like you ( Has credibility) to head people in the right direction. Thanks again

I think its something that will be debated endlessly. The only way around it is to dyno two cars, one with a factory engine and the other with performance mods. Test both running both ported and manifold and see the power band differences. Love your videos. All the best from Oz

Excellent explanation. Most people overcomplicate these things because they don't understand fully what they are talking about. The simplicity of this demo speaks for itself

on a stock distributor....you are not wrong, sir. really appreciate the demonstration and posted content! explained very well, and clearly.

1960s car were always ported vacuum to the distributor. Late 70s 80s cars use manifold vacuum with the thermo switch between vacuum port and distributor. I believe some use both to the thermo vacuum tree and delay valves/check valves as this was to delay vacuum advance untell engine was at operating temperature and converter was hot for better emissions.Less timing equals more complete combustion and less oxides of nitrogen. I did state Emissions testing, tuning,rebuilding the computer control carburetors. Adjusing with old Catalytic converters on the vehicle or a cylinder with low compression in one cylinder this was challenging stuff at the time.

I have not run across an engine yet that performs better with ported vacuum than manifold vacuum. Ported was an emissions era crutch from the early 70s. All the 60s engines used manifold vacuum.

Thanks Tony Best explanation. I am a visual type of leaner not reading a book or explaining the function and not showing how this function actually works while in use.

Thank you for all the great info and breaking everything down step by step, and for free to everyone who wants to learn the right way and understand how and why for every video you make. Thank you

Uncle tony I love your videos. Hi from Australia. I feel if people are not up to speed with basic things like vacuum advance, Mabey they should choose a new hobby. But then I remembered we all have to start somewhere. So. For the young blokes who watched this I thank you. You will teach them

That’s the best example of how it works I’ve seen! Thanks for the video I’ve been hooking it up wrong for years now!

Wow, I finally understand the difference between ported and manifold vaccuum. I've been so confused for so long. This one simple video explains it perfectly. UTG is the best❤

So doing a lot of reading on this subject. With leaner mixtures you want more advance for a full burn. And as the mixture richness increases you want the timing retarded since the higher cylinder pressure doesn't require as much time to burn as a lean mixture. So wouldn't that mean the most efficient burn is happening with manifold as ported is making for a less efficient burn and higher exhaust temps? Which is putting more stress on the motor with more heat?

You explain everything so well but there's always someone who wants to disagree with what you have to say, which is from many years of experience. Most of them probably never even turned a wrench!
Thank you Professor Tony! 😎

I'm a huge fan of manifold vacuum and I can see many benefits on my 41 Chevy inline 6, since I swapped it over to manifold. Especially mileage and temperature. What a lot of folks saying : ported came with emission in the 60s is a myth though - my 41 had ported from the factory, some cars even earlier - why? I don't know, since the engineers back than must had have something in mind - but that would be an other interesting discussion.

sometimes i like to use manifold vaccum with a cammed engine. it tends to keep the fenders from shaking off it but usually i just end up not useing the vac advance.

Something that helped me as a kid was to think of it as "negative pressure" instead of vacuum, then sea level pressure after opening the throttle.

Great demonstration. You do a great job of explaining stuff in a way anyone can understand. Good teacher.

Hello Uncle Tony,
Thank you very much for all the information you have given us. 1st Oct, 2019 I bought a 65 Mustang that needed everything so I could learn about these things we drive every day. UA-cam and manuals have taught me much but there are things that slip through the cracks here and there that I have to catch as aside note in some video about something completely unrelated.
Then I found your channel. Your so direct and actually bother to put into video format your advice and knowledge. I understand how actually bothering to set up, film, edit, and post is a time-consuming process. So again, I thank you for taking the time to put your experience into UA-cam so green mechanics like myself can learn.
I have a small request and if a video has already been made then please if anyone could point me in the right direction I would be most gracious. You had spoken briefly about how your lifestyle is in your cars. Specifically, you don't keep cars with really high-end paint jobs because of the upkeep a super high close finish requires. I have been trying to discern what you do to paint your cars by looking at your cars in your videos. What do you recommend as a paint job for a daily driver classic?
So far I have done all the prep work, then primer, blocked it, then base coat, and blocked, then matte clear with hardener. What would be the simpler way for daily driver upkeep?
Thank you again for everything.

Nice demo Tony!!! I too had questions and that makes it pretty clear.

This confuses me. Wouldn’t you want timing advance at high vacuum/low throttle situations? There is almost no port vacuum when the throttle is at or near idle.

There will be spring or weight differences on a stock distributor, depending on whether they want to emphasize street performance, track performance, economy, or emissions. You can alter those goals by changing total vacuum (different can or link), and/or by changing the centrifugal springs or limiting the travel of the weights (more difficult).
Just remember if you limit vacuum advance or weight travel, you may need to alter idle timing to ensure higher rpm advance while cruising is not way off.
You might also find a deceleration solenoid (or vacuum device) that prevents the throttle from slamming shut and sending manifold vac to over 25, causing timing to advance when it would drive emissions highest (you're not interested in performance when decelerating anyway but Uncle Sam is particularly interested in emissions at that moment). Salute that solenoid, it's a good soldier.
But when you are part-throttle accelerating your 70's Dodge and interested in performance for a few seconds, there's a traitor called the OSAC Valve (usually hanging off the air cleaner body) interrupting the vacuum hose from the carb to the distributor. That thing prevents vacuum advance for several seconds while accelerating, and since you just left the stop sign, your revs are not high enough to give centrifugal advance, so with timing delayed you end up pushing the pedal way down to keep up with the 60's car beside you (no OSAC delay). Sound familiar? Bypass that OSAC, plumb the vacuum direct to the distributor.

I've was taught to do my timing with the vacuum advanced off and then attach the line to the port on the base of the carburetor, never thought that much of which side to have the distributor to get its vacuum from, I've always put the line to the carburetor ports, if on the manifold vacuum tree then cap it and place it to the carburetor.

professor Tony's classroom! You really do love teaching!

Sorry Tom, I couldn't see ANYTHING moving in the distributor at all. As a side note, I love your channel & your old school style & have learned a great many things from you in the past. Thank you Tom. Len from Canada.

Perfect explanation with a demonstration to help us visual learners!

I'm confused. You demonstrated what happens when you get ON the throttle on manifold, but then demonstrated when you get OFF the throttle on ported. what does ported do when you get ON the throttle that makes it better?

Thanks Uncle Tony! There are still a few us gearheads around that remember switching to ported vacuum after "desmogging" a 70s GM product. Power timing with a buddy!

Which vacuum port does Edelbrock say to use on non-emission-controlled cars? (I'll wait while you look in their manual; it's there.)

Excellent demonstration Tony. Just to clarify, not to troll... In a nutshell, vacuum advance systems will advance the timing at lower rpm before the mechanical advance begins to operate, so you can have the best of both worlds. Your base timing gives you a good idle quality, vacuum advance gives good low rpm acceleration and good part throttle/cruise economy, and mechanical advance gives good high rpm performance. You're better off with no vac advance instead of running it on manifold vacuum.

Tony give those hood hinges a little wd40 🤣🤣

I remember the old Autolite dual point distributors on hi performance Chrysler products did not have a vacuum advance.
Thanks Tony.

Holy shit, what a great demo! I’m glad you didn’t throw the dizzy like it was just a carb

I've played the ported / manifold vac game before. In the end both of my cars are still on ported. With a properly set up dist., initial and total dialed in, ported is where it's at. Much smoother part throttle acceleration.

I thought I understood everything about vacuum advance. I never took a distributor in the cabin with me though. Once again UTG blows my mind. 🤯

first time ive seen a demonstration like this.... even though I already knew how it worked it was awesome to actually see it in the real word with an engine and real vacuum... fascinating stuff tony!!!! great video!!!

Hi uncle tony, very good video I’am learning how to set up a engine your way . I’m self taught working on cars for along time I don’t know everything I wish I did at 71 years old just keeping at it I like working on cars thank you for all your help 👍🚘🔧

An hei or gm distributor would have been a bit easier to actually see what's happening there but you sir are 100%spot on

I guess this depends on your set up and what you're trying to accomplish. I've got my initial timing at 22° BTDC and total timing of 36° (mechanical advance limited to 14°). My adjustable vacuum advance is adjusted to 15° max and comes in completely at 15" of vacuum. I NEED the extra advance when I'm stopped in gear. My manifold vacuum is 5"with the vacuum advance connected to manifold vacuum where it's 2.5 connected to ported vacuum. As I start moving, the centrifugal advance slowly (or quickly) moves in. At part throttle cruise I'm between 15-20 " of manifold vacuum and total timing is around 50° BTDC. When I open her up, the vacuum advance falls away and we're now running strictly on initial+ mechanical advance (36° total). With ported and manifold, we have advance at part throttle cruise. In my case, I also have it at idle in gear which bumps me up to 32° or so which allows her to idle much better. I've got a solid roller, btw with 630 lift intake and exhaust on a 108° centerline. Duration at .050 is 260° and 266° and it's 13.5:1 compression. Not a street engine, but man, it's a blast!
I suppose that I could lock out the distributor and run ported vacuum, too. There's more than one way to skin a cat but this is what hot rodding is all about❤

Good simple explanation. Using manifold vacuum you are defeating the whole purpose. I could do a whole video on this myself. I've read many of the comments here and many have no clue. Back in the day (maybe they still do) they had those Sun machines that you could fine tune a distributor. Change centrifigal springs if need be for certain RPM advance so no vacuum needed. A lot of people don't know that some vacuum advance cannisters are adjustable through the vacuum port with an allen wrench.

Thought experiment. With the vaccuum line temporarily disconnected, you set your idle advance and dial in your mechanical advance so that you get total advance with no vaccuum exactly where and when you want it. If you THEN connect ported vac to the vac advance, aren't you getting the best of both worlds with the vaccuum essentially inactive except during highway cruising?

Isn’t the demonstration missing the fact that you’d have to adjust the initial and mechanical timing after switching from one to the other?

Great job focusing on the fundamentals and great demo

This guy humility and knowledge is insane!

Great Video on vacuum advance . I'm dealing with that issue right now.

Tony, love your channel. I’ve got a 70 GTX with a 440. The bottom end is stock, the top end, I added trick flow power port 240 heads, and Edelbrock performer RPM intake, an Edelbrock performer 800 CFM carb, a Comp cams 491 lift hydrologic flat tappet cam, 236 duration @50, Howard’s lifters, TTI 1 7/8 headers and 3 inch exhaust. I built it to be a fun dependable cruiser. The car had points ignition before I pulled the top end apart. The engine was completely rebuilt 2,000 miles ago btw.... I bought a summit electronic conversion ignition kit. I started the car and I couldn’t get it to idle, it’s an automatic and when I put it in gear, it died, or was terrible. I bought a JEGS distributor and their ignition box, better but not good. I sent in the summit distributor to have it put on a sub machine by a guy in Ohio. He asked for my cam and gears and compression (10.5:1) ratio. He promised the world, well, it made it worse. Wouldn’t rev over 3,000 rpm. Oh, on the manifold side, it’s pulling 13 inches of vacuum at idle but on the port side, it’s pulling 5 inches. That doesn’t seem right. I heard about FBO ignition. Don said his system runs off the manifold side. I installed his system, it’s much better but but when I connect the vacuum to the carb, it starts popping through the exhaust like crazy. When I run it without the advance hooked up, it’s pretty good but still not perfect. I’ve been watching your channel for awhile now. You’ve forgotten more than I know and I’m pretty good with mopars. I would really love your take on this. Thanks Uncle Tony!!!!!

So at light cruise in hunts for the highest manifold vacuum and allows for the best fuel economy. At high-altitude we add a few degrees of base timing and move the vacuum advance to ported. This allows for a smoother idle and leams the carburetor out by raising manifold vacuum and allowing the power valve to pull slower. There is also a third vacuum source called the venatori vacuum. This vacuum source is used only to control EGR through Chrysler's famous EGR amplifier mounted on the firewall.

Of course now I'm contemplating hooking up some kind of valve to both ported and manifold vacuum with some sort of cable or solenoid to switch between the two. :)

You should cover recurved and mechanical advance limited distributors vacuum affects them a bit different.

Ive been looking at my old auto manuals, so far all of mine show them using ported. A 1955 GM car, 1960 Ford truck, (except the Load a matic which uses venturi vacuum and ported). Should be noted that venturi vacuum is the only one that goes up as engine rpm increases. Although a very weak signal. My Motor manual which has nearly every US manufacturer from the late 40s to the mid 50s also has ported for all makes. In fact the only two manuals i have that use manifold is a Contenenital industrial engine and my emissions era AMC which use both with a coolant temp switch, manifold when cold and then switch to ported later. The manifold vacuum in that case apparently gives great advance to help fully burn the rich mixture when the choke is on. Although apparently some do the opposite to cool the engine because idle speed will raise to help the mechanical fan.

Awesome , nice to see you put all those negative nellys in their place . Good job . It’s always been manifold vacuum always .

Man wish I had know this some 30 years ago. Completely understand the difference between ported and manifold vacuum. Now that explains why it never ran as good as it should have.

Nice job, great real world practical demonstration. Thanks for posting this.

Thanks for showing that..I notice the importance of that specifically when using a 34 pict 3 carb and svda distributor on an aircooled vw engine..with the vacuum advance drivability is better

The difference is absolutely not opposite. The only difference is you have no vac advance at idle. Off of idle it is the same. The question is what do you want at idle. And the answer is not the same and every condition.

I've been watching your videos and f* me... I've been doing wrong for years now! And you teached me lots of distribuitors, I can't even thank you enough Uncle Tony! Much love from brazil! Keep it up!!!

Is this backward for just me or a bunch of people? I thought manifold vac was better for big cam engines to help smooth out idle. To date everything I have read has always said manifold vac advance is the way and that ported was only good for some mopars and later used as a crutch for the gas crunch smog era emissions. Great video as always demo is excellent. Maybe I need to go flip some hoses around and save some at the pump due to more mpg. Thanks for the knowledge!!

Not totally correct there sir. When base timing is set properly, you need to have the vacuum line disconnected and plugged. Then once it's set, you can plug back in the vacuum line to your distributor. With it connected to full manifold vacuum, You will have a lot more advance at idle. Some motors like this setup. The motor will run cooler and not as lean. You will have to adjust your idle screws down which is a benifit in some cases as now your motor is less likely to diesel when shut off. Also your idle mixture screws will be more functional if they weren't before. Once you began accelerating the amount vaccum advance will drop some as in your video due to less vaccum in the intake manifold from throttle plates opening. Except it will still be the same actual amount of advance as if you had it connected to ported vacuum. The ported provides no advance at idle so the motor runs hot, and lean. It will make cleaner emissions this way. When you accelerate the ported timing port then applies vacuum to the distributor and advances the timing at that time, but it's to the same amount it would be if it was connected to straight manifold vacuum. The amount of vacuum advance does not change depending on rather it's hooked up to full manifold vacuum, or ported. The only difference is full manifold vaccum will give you more of that advance while at idle, where ported waits until part throttle. Both will have the same timing at part throttle cruising and WOT.

It really takes a really knowledgeable and has some common sense mechanic to dumb this stuff down to this level. I admire your patience with the keyboard warriors.

Should be added that some advance canisters can be adjusted with a tiny hex wrench up the vac tube to adjust how much timing the canister gives. Aftermarket "performance" canisters typically have this feature.

Friends 350 Nova, when he changed manifold and carb ran tired. After talking he showed me how the install info said to use manifold. I switched it to Venturi and after having to replace the vacuum advance unit car ran great. Manifold vacuum had separated the diaphragm. Never did use manifold on anything but the wipers and heater switch