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Car jump start
- Thread starter lukin1977
- Start date
Compositepro
Chemical
It does not have to be done that way, but the purpose of running the engine is so that the alternator can be charging the dead battery as well as getting a boost from the second battery. One battery cannot charge another battery. A 12volt car battery will not charge unless about 13.4 volts is applied. A second battery can still be used for a start assist without any charger. With cheap jumper cables, which cannot carry a lot of current, you may not be able to crank the engine without some charge on the dead battery first. So you charge with the engine running for a few minutes before you can successfully crank.
"One battery cannot charge another battery."
Not totally true; cell phone power packs are just that, one battery charging another. A more accurate statement would be that one battery cannot FULLY charge another; any battery that is at a higher voltage will charge one at a lower voltage, TO SOME DEGREE. Effectiveness of charge is what requires the higher voltage.
TTFN
I can do absolutely anything. I'm an expert!
faq731-376 forum1529
Not totally true; cell phone power packs are just that, one battery charging another. A more accurate statement would be that one battery cannot FULLY charge another; any battery that is at a higher voltage will charge one at a lower voltage, TO SOME DEGREE. Effectiveness of charge is what requires the higher voltage.
TTFN
I can do absolutely anything. I'm an expert!
faq731-376 forum1529
Compositepro
Chemical
The charger packs are battery powered power supplies, not just a battery. Always a nitpick. But that is what we engineers do.
MikeHalloran
Mechanical
Apparently there is a lot of highly erroneous 'lore' circulating about safe use of jumper cables.
( Long ago, my wife managed to blow up two batteries by jumping 'red to red' and 'black to black', using a borrowed car that had a red ground cable and a black hot cable. She was just barely uninjured, and doesn't jump cars anymore. )
Probably for related reasons, the owners manual for my 2013 Navigator expressly forbids use of jumper cables and another vehicle. The only recommended tool is a battery in a box, whatever you care to call it.
Mike Halloran
Pembroke Pines, FL, USA
( Long ago, my wife managed to blow up two batteries by jumping 'red to red' and 'black to black', using a borrowed car that had a red ground cable and a black hot cable. She was just barely uninjured, and doesn't jump cars anymore. )
Probably for related reasons, the owners manual for my 2013 Navigator expressly forbids use of jumper cables and another vehicle. The only recommended tool is a battery in a box, whatever you care to call it.
Mike Halloran
Pembroke Pines, FL, USA
Sure, but if wiring is incorrect, even a battery in a box is going to be unhappy. We had an error of similar sorts during an EMI test. The technician wired up the mains power cable with a different color scheme than typical, and the system wound up with a hot ground and blew about a dozen boards into oblivion. It took 3 weeks to rebuild the system into operating condition.
TTFN
I can do absolutely anything. I'm an expert!
faq731-376 forum1529
TTFN
I can do absolutely anything. I'm an expert!
faq731-376 forum1529
GregLocock
Automotive
SOP with prototype cars is to use a sack trolley (unimportant detail) with a freshly charged battery on it, and seriously big jumper leads. All sorts of reasons.
Cheers
Greg Locock
New here? Try reading these, they might help FAQ731-376
Cheers
Greg Locock
New here? Try reading these, they might help FAQ731-376
If the dead automobile battery is still in good condition, the weather is not below zero, and the battery cables are in good condition; starting of the 2nd vehicle is probably not necessary.
On a vehicle that is idling, the alternator is not putting out enough energy to charge a battery.
(Technical review provided by Society of Automotive Engineers (SAE). Copyright 2012
Dewey, Cheetham & Howe)
On a vehicle that is idling, the alternator is not putting out enough energy to charge a battery.
(Technical review provided by Society of Automotive Engineers (SAE). Copyright 2012
Dewey, Cheetham & Howe)
Compositepro
Chemical
"On a vehicle that is idling, the alternator is not putting out enough energy to charge a battery."
That is not generally true. That is what voltage regulators are for, to control the alternative output voltage as engine speed varies. Sure, there is a minimum speed where the alternative will not function, but on all the cars I have owned you can see the head lights brighten after the car has started, and the brightness does not vary from idle. Brightness is a direct indication of alternative voltage.
That is not generally true. That is what voltage regulators are for, to control the alternative output voltage as engine speed varies. Sure, there is a minimum speed where the alternative will not function, but on all the cars I have owned you can see the head lights brighten after the car has started, and the brightness does not vary from idle. Brightness is a direct indication of alternative voltage.
My car jumping philosophy is this.
Definition:
Rescue Vehicle (RV)- has the able battery
Distressed Vehicle (DV) - unstartable
Investigate:
Try a start as-is in your presence. Is there anything? Or is the battery flat?
If there is some life in the battery risk is low, a quick-start is likely.
If it's flat, risk of explosion is high and any start will require co-charging for some significant time.
1) To jump place the two vehicles as far apart as to not clothes-line the jumper cables but to 'use them fully'.
2) Assure the vehicles are not touching to prevent and inadvertent conductive path.
3) The first jumper clamp goes to the DV positive battery terminal. You want as low a resistance path to the DV battery as possible hence direct terminal clamping.
4) The other side of that jumper goes to the positive side of the RV.
5) One side of the negative jumper goes to the negative terminal on the DV battery.
6) Get everyone away ~10 feet from the battery of the DV.
7) You do not want to complete the jump circuit near the RV's actively charged battery which will have hydrogen gas in the top of its cells. Survey the RV engine compartment for a spot on the engine that is bare metal, will likely receive and retain the clamp well, and is approachable from not near the RV's battery. Common spots are manifold bosses, thermostat housing bosses/bolts, and A/C brackets.
8) With face away from the DV battery, aggressively clamp the remaining negative clamp on the chosen point. The resulting arc will, to some degree, demonstrate the rate of charge in effect.
If a large arc was noted or the DV battery was known to be flat then with the RV running wait the same 10 feet from the DV battery for 5 minutes before attempting a start. If the battery was known to be not flat or the DV almost starts go for an immediate start of the DV.
Once the DV is started remove the negative clamp from the RV.
Turn on the headlights of the DV and see if the engine continues running. If it does then speed up the engine from idle to a very high idle and check for the headlights getting slightly brighter. If they do likely the DV will carry on with no issues.
If a fast idle shows no headlight brightening then likely a failed charging system stands before you and the DV is running total loss. Re-connect the negative ground to the RV and proceed with 15 minutes of charging. Headlights definitely off on the DV. While waiting the parties involved need to consider whether it's day or night(headlights needed) how far the DV destination is and whether it can be reached with limited electrical energy available. With electric radiator fans and other loads being considered, because a random stall somewhere could be disastrous to people or the budget.
Once the 'jump' is completed remove the cables in the reverse order (only to reinforce the order) decline any payment (increasing good karma) revert to staid living.
Keith Cress
kcress -
Definition:
Rescue Vehicle (RV)- has the able battery
Distressed Vehicle (DV) - unstartable
Investigate:
Try a start as-is in your presence. Is there anything? Or is the battery flat?
If there is some life in the battery risk is low, a quick-start is likely.
If it's flat, risk of explosion is high and any start will require co-charging for some significant time.
1) To jump place the two vehicles as far apart as to not clothes-line the jumper cables but to 'use them fully'.
2) Assure the vehicles are not touching to prevent and inadvertent conductive path.
3) The first jumper clamp goes to the DV positive battery terminal. You want as low a resistance path to the DV battery as possible hence direct terminal clamping.
4) The other side of that jumper goes to the positive side of the RV.
5) One side of the negative jumper goes to the negative terminal on the DV battery.
6) Get everyone away ~10 feet from the battery of the DV.
7) You do not want to complete the jump circuit near the RV's actively charged battery which will have hydrogen gas in the top of its cells. Survey the RV engine compartment for a spot on the engine that is bare metal, will likely receive and retain the clamp well, and is approachable from not near the RV's battery. Common spots are manifold bosses, thermostat housing bosses/bolts, and A/C brackets.
8) With face away from the DV battery, aggressively clamp the remaining negative clamp on the chosen point. The resulting arc will, to some degree, demonstrate the rate of charge in effect.
If a large arc was noted or the DV battery was known to be flat then with the RV running wait the same 10 feet from the DV battery for 5 minutes before attempting a start. If the battery was known to be not flat or the DV almost starts go for an immediate start of the DV.
Once the DV is started remove the negative clamp from the RV.
Turn on the headlights of the DV and see if the engine continues running. If it does then speed up the engine from idle to a very high idle and check for the headlights getting slightly brighter. If they do likely the DV will carry on with no issues.
If a fast idle shows no headlight brightening then likely a failed charging system stands before you and the DV is running total loss. Re-connect the negative ground to the RV and proceed with 15 minutes of charging. Headlights definitely off on the DV. While waiting the parties involved need to consider whether it's day or night(headlights needed) how far the DV destination is and whether it can be reached with limited electrical energy available. With electric radiator fans and other loads being considered, because a random stall somewhere could be disastrous to people or the budget.
Once the 'jump' is completed remove the cables in the reverse order (only to reinforce the order) decline any payment (increasing good karma) revert to staid living.
Keith Cress
kcress -
- Thread starter
- #12
I once read credible reasoned guidance very similar to itsmoked's except the hookup is in a circle (DV+ -> RV+, RV- -> DV grounding point) and unhook in reverse. It seems to me that the DV has lower risk of hydrogen buildup, so that's better to complete the circuit, but I'm no EE. This may be a matter of style- the point that 99% of users don't know is not to hook both batteries directly.
In easy cases you don't even need to start the RV (the RV(car) should NOT be running if jumping a motorcycle); usually it's necessary to start it and hold at a fast idle to get full power from the alternator. If that doesn't work after about a minute, in tough cases I have shut everything down and then hooked the batteries direct and repeated, although that's risky as the problem may NOT be the battery and if it isn't discharged it could more likely have H2 present. Giving a longer charge time seems prudent, but I'm usually eager to let the random Good Samaritan be on their own way.
Of course with all the electronics on today's cars, voltage chaos resulting from cross-connecting could cause other component damage, and may be a factor in more owner's manuals recommending against giving or receiving jump starts at all.
In easy cases you don't even need to start the RV (the RV(car) should NOT be running if jumping a motorcycle); usually it's necessary to start it and hold at a fast idle to get full power from the alternator. If that doesn't work after about a minute, in tough cases I have shut everything down and then hooked the batteries direct and repeated, although that's risky as the problem may NOT be the battery and if it isn't discharged it could more likely have H2 present. Giving a longer charge time seems prudent, but I'm usually eager to let the random Good Samaritan be on their own way.
Of course with all the electronics on today's cars, voltage chaos resulting from cross-connecting could cause other component damage, and may be a factor in more owner's manuals recommending against giving or receiving jump starts at all.
Regarding: "On a vehicle that is idling, the alternator is not putting out enough energy to charge a battery."
That is not generally true. That is what voltage regulators are for, to control the alternative output voltage as engine speed varies. Sure, there is a minimum speed where the alternative will not function, but on all the cars I have owned you can see the head lights brighten after the car has started, and the brightness does not vary from idle. Brightness is a direct indication of alternative voltage.
Numerous automotive battery experts disagree with your opinion:
See the comment from Interstate Battery:
"Generally, running the engine at idle or short stop-and-go trips, during bad weather at night, will not recharge the battery effectively."
Or from AGCO:
"The average alternator is capable of producing around 100 amps at 2,000 RPM. This supplies energy consumed by the vehicle and some to recharge the battery. The problem is the alternator has to rotate around 2,000 RPM to achieve its potential. At idle a 100 amp alternator may only produce 50 amps. With a load of 75 amps, there is a shortage of 25 amps. This is a draw on the system, and the battery discharges to make up the difference. This causes chemical changes in the battery."
"Problems develop when vehicles are not driven enough. This is because the alternator on an engine at idle may actually discharge. Driving short distances and idling long periods in traffic will not allow the battery to charge. Each time the vehicle is driven, the battery gets weaker, due to sulfating of the plates."
Or from NAPA:
"Most alternators on late model vehicles are capable of producing up to 70 amps or more at idle, and up to 160 to 180 or more amps at 2,000 to 2,500 RPM."
Or from DENSO:
"A low idle can cause the charge lamp to illuminate dimly."
Or from Alternator 101
"At idle, a vehicle's electrical loads may exceed the low-speed current (amperage) output of the alternator and when this happens the shortfall comes from the battery. This will result in a drop in the electrical system voltage as the battery delivers the additional electrical current to meet the demand."
That is not generally true. That is what voltage regulators are for, to control the alternative output voltage as engine speed varies. Sure, there is a minimum speed where the alternative will not function, but on all the cars I have owned you can see the head lights brighten after the car has started, and the brightness does not vary from idle. Brightness is a direct indication of alternative voltage.
Numerous automotive battery experts disagree with your opinion:
See the comment from Interstate Battery:
"Generally, running the engine at idle or short stop-and-go trips, during bad weather at night, will not recharge the battery effectively."
Or from AGCO:
"The average alternator is capable of producing around 100 amps at 2,000 RPM. This supplies energy consumed by the vehicle and some to recharge the battery. The problem is the alternator has to rotate around 2,000 RPM to achieve its potential. At idle a 100 amp alternator may only produce 50 amps. With a load of 75 amps, there is a shortage of 25 amps. This is a draw on the system, and the battery discharges to make up the difference. This causes chemical changes in the battery."
"Problems develop when vehicles are not driven enough. This is because the alternator on an engine at idle may actually discharge. Driving short distances and idling long periods in traffic will not allow the battery to charge. Each time the vehicle is driven, the battery gets weaker, due to sulfating of the plates."
Or from NAPA:
"Most alternators on late model vehicles are capable of producing up to 70 amps or more at idle, and up to 160 to 180 or more amps at 2,000 to 2,500 RPM."
Or from DENSO:
"A low idle can cause the charge lamp to illuminate dimly."
Or from Alternator 101
"At idle, a vehicle's electrical loads may exceed the low-speed current (amperage) output of the alternator and when this happens the shortfall comes from the battery. This will result in a drop in the electrical system voltage as the battery delivers the additional electrical current to meet the demand."
Compositepro
Chemical
There is no dispute about "may". How many of the readers here have experienced such a problem? I never have. Note that a dimly lit red indicator light would be proof of such a problem, so no guessing required.
I had a second car that I only used about once a month. I would jump it off to get started and assumed that the alternator would charge up the battery in an hour or two of running. I replaced the alternator 3 times, learned the hard way that at least some alternators are not built to fully charge dead batteries and run all the other electrical loads. Did not have a dimly lit red indicator light.
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The Help for this program was created in Windows Help format, which depends on a feature that isn't included in this version of Windows.
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The Help for this program was created in Windows Help format, which depends on a feature that isn't included in this version of Windows.
LionelHutz
Electrical
It's a sad modern vehicle when the alternator supplied can't support the current demands of the supplied on-board electrical equipment under all operating conditions while keeping the battery charged....
NormPeterson
Structural
If it's sad, it's sad because people keep demanding ever more electrical usage in their cars under all of those operating conditions. Including things like continuous memories and time-delay shutoff of interior and even headlights that are all drawing power even when the engine is shut off and no charging whatsoever is taking place.
Pressures to improve mpg include declutching or otherwise turning off the alternator under some conditions, which could make a difference if the margin of overall charging capacity vs overall charging needs is scraped thin enough.
Norm
Pressures to improve mpg include declutching or otherwise turning off the alternator under some conditions, which could make a difference if the margin of overall charging capacity vs overall charging needs is scraped thin enough.
Norm
Compositepro
Chemical
Dgallup, your story indicates that your alternator was charging your batteries just fine until it would burn out. So its voltage output was adequate but it could not handle the peak current for long enough to charge a dead battery while handling the other loads as well. Float chargers work well for cars that are not used much. However, I found that with the float chargers that I have tried, that the charger will drain the battery if left connected but not plugged into AC.
LionelHutz
Electrical
It's also sad when someone comments about the alternator charging ability but goes on about drains on a battery when the engine is off which OBVIOUSLY means the alternator isn't doing a damn thing to charge the battery....
An alternator that is purposely cycled off must have a quite good ability to charge the battery when it is called to operate because it has to re-charge the battery that has been discharged while it wasn't working.
An alternator that is purposely cycled off must have a quite good ability to charge the battery when it is called to operate because it has to re-charge the battery that has been discharged while it wasn't working.
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