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Life expectancy
What's probably the life expectancy of my A7V333 motherboard if I take good
care of it? It has 2 years on it right now. I run the computer for the most part constantly except when I leave town or do something with the inside of the computer. Current MB temperature is at 30 C. |
#2
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In article URjEd.32449$3m6.5163@attbi_s51, "Travis King"
wrote: What's probably the life expectancy of my A7V333 motherboard if I take good care of it? It has 2 years on it right now. I run the computer for the most part constantly except when I leave town or do something with the inside of the computer. Current MB temperature is at 30 C. If the case temp is not excessive, the electrolytic caps should be good for 10 years. Solder joints under stress, could be anyone's guess (more likely to happen with a P4 retail heatsink and its high clamping forces). In ten years, you can expect several PSU failures, and any one of those PSU failures could damage the motherboard. If you have a lot of lightning storms, or bad quality power, that could influence how long the mobo lasts. Look carefully at any modem, cable modem, ADSL wires etc, to see if there are any protection devices to take a (nearby) lightning hit, before it gets to the motherboard. For example, on a phone line, there may be a carbon block at the entry point, and you could enhance that by using a second protection device nearer the computer. For the really paranoid, a wireless network would reduce the wiring exposure to just the power lines. A real ($1K purchase price) UPS would reduce the risk of an AC power event from getting you, and would help protect the PSU from getting damaged. Cheap UPSes offer no protection at all, as they are actually SPS (standby power supplies) - they are a "straight wire" to power spikes, and the unit only cuts over to batteries if the AC power dies for enough milliseconds. On the motherboard itself, the Vcore circuit is the circuit under the most stress. If the MOSFETs are cool to the touch, that is a good sign. I've never read any MTBF estimates for switching regulators on motherboards, so don't know whether they are good for a 1 million hour MTBF or not. Large BGA packages also have a rating, for solder joint reliability. For example, a BGA with 750 pins, will last for about 10 years, with a certain daily temperature variation. From the Via web page: * 552-pin BGA VT8366A North Bridge * 376-pin BGA VT8233 South Bridge so you have little risk of a failure there (caps will fail first). Handling the processor a lot (removal, regrease, reposition heatsink) will cut into the life expectancy, if say the processor gets cracked, and it happens to overload the Vcore circuit. If the processor has the rubber bumpers on the top of the chip, that will cut that risk a bit. I would say your biggest exposure, is to external factors. Paul |
#3
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Paul wrote: In article URjEd.32449$3m6.5163@attbi_s51, "Travis King" wrote: What's probably the life expectancy of my A7V333 motherboard if I take good care of it? It has 2 years on it right now. I run the computer for the most part constantly except when I leave town or do something with the inside of the computer. Current MB temperature is at 30 C. If the case temp is not excessive, the electrolytic caps should be good for 10 years. Solder joints under stress, could be anyone's guess (more likely to happen with a P4 retail heatsink and its high clamping forces). In ten years, you can expect several PSU failures, and any one of those PSU failures could damage the motherboard. If you have a lot of lightning storms, or bad quality power, that could influence how long the mobo lasts. Look carefully at any modem, cable modem, ADSL wires etc, to see if there are any protection devices to take a (nearby) lightning hit, before it gets to the motherboard. For example, on a phone line, there may be a carbon block at the entry point, and you could enhance that by using a second protection device nearer the computer. For the really paranoid, a wireless network would reduce the wiring exposure to just the power lines. A real ($1K purchase price) UPS would reduce the risk of an AC power event from getting you, and would help protect the PSU from getting damaged. Cheap UPSes offer no protection at all, as they are actually SPS (standby power supplies) - they are a "straight wire" to power spikes, and the unit only cuts over to batteries if the AC power dies for enough milliseconds. On the motherboard itself, the Vcore circuit is the circuit under the most stress. If the MOSFETs are cool to the touch, that is a good sign. I've never read any MTBF estimates for switching regulators on motherboards, so don't know whether they are good for a 1 million hour MTBF or not. Large BGA packages also have a rating, for solder joint reliability. For example, a BGA with 750 pins, will last for about 10 years, with a certain daily temperature variation. From the Via web page: * 552-pin BGA VT8366A North Bridge * 376-pin BGA VT8233 South Bridge so you have little risk of a failure there (caps will fail first). Handling the processor a lot (removal, regrease, reposition heatsink) will cut into the life expectancy, if say the processor gets cracked, and it happens to overload the Vcore circuit. If the processor has the rubber bumpers on the top of the chip, that will cut that risk a bit. I would say your biggest exposure, is to external factors. Paul I would agree, and add that IME motherboards are far more tolerant of external factors than one has any right to expect ;-) Our Cottage PC runs an Asus P2B-S, manufactured in 1998 and in service for almost 6 years. We use it on weekends in winter, but the cottage is not heated while we are away, so the system experiences repeated thermal stress cycles - it's common for the inside temperature to be -20C or lower when we arrive. I discourage the kids from powering up the PC until the place has warmed up, with limited success :-) Power is unreliable at the Cottage, and we experience frequent thunderstorms, however despite a lack of protective measures the only PC failure which has occurred there to date was a sound card that stopped working after lightning struck a tree behind the building - no doubt due to a spike induced in the 40' cable running from the sound card to a stereo system on the other side of the room. Hardly surprising, but damage was limited to the sound card. I expect the Cottage P2B-S to be the first of my numerous P2B series boards to eventually fail, but perhaps not since I use several in my lab and subject them to frequent CPU swaps and other hardware changes. My primary system runs a P2B-DS and has been in service 7x24 since October 1997 except for occasional shutdowns for hardware upgrades or fan service. The power supply refused to restart after a shutdown in 2002 and was replaced, but no other failures have occurred. I have a total of 11 P2B series boards in regular use, with zero motherboard failures to date. I'd better start saving my pennies since replacing all my systems when the electrolytic caps fail in 2008 will be expensive ;-) P2B |
#4
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I have a relative that I had to replace her ECS board at 6 years old. Not
even 6 months before that, she gave me her computer and it wouldn't turn on because the PSU went out. None of the card devices were no longer being detected properly including the video card, modem, etc., but they all used to be detected just fine. I reinstalled XP on it with no luck. By the way, I did have a chipped AMD Athlon XP 1800+ running on it for a year. The temperatures were a little higher on it than my 2400+, which is what I have now. I have a 400w PSU. WD 80GB HD and WD 120GB HD. Lite On DVD drive. Memorex 52x CD RW drive. NVIDIA GeForce3 Ti200. Do you think 4 years is a good amount of time for getting a new computer for someone who edits pictures frequently, does some gaming, lots of music, and some multi-tasking? Thanks. "Leythos" wrote in message ... In article URjEd.32449$3m6.5163@attbi_s51, says... What's probably the life expectancy of my A7V333 motherboard if I take good care of it? It has 2 years on it right now. I run the computer for the most part constantly except when I leave town or do something with the inside of the computer. Current MB temperature is at 30 C. I have a number of computers that date back to 1977 that still run just fine. I also have a couple Dual Celeron 500Mhz machines that run well that are almost 5 years old (or older I think). As long as you change the PSU when it gets old (fan starts slowing and not cooling properly) and protect the system with a good UPS, and keep the vents clean (and CPU fan) it will last a long time - there are no moving parts on a motherboard - you may need a new floppy, CD-ROM, or hard drive. -- -- (Remove 999 to reply to me) |
#5
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The fans, disks and power supplies will most likely wear out before
the mobo components themselves. If you're not overclocking, IMO the only thing that would normally prematurely kill a mobo would be dirty power, a dusty environment (which can cause fans to fail or not work properly, overheating the mobo), or high humidity. We have a two of Pentium (I) servers at work that have been running pretty much 24/7 (give or take a week or so) since '95/'96. I've had to relace HD's, fans and power supplies (and one PCI video card), but zero mobo components. --- Bob |
#7
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YOu want to worry about something? Worry about your data. Your MB is
obsolete, Your OS is obselescent and going obsolete and the only thing that's of any value is your data. All the stuff about UPS's is theory. Are you running NASA and a lunar lander mission? If you are you should be shot for having only a single system. Given enough time EVERY piece of equipment will fail including $1000 UPS's. I power my system on and off all the time. I don't shut down when lightening storms are overhead and I never worry about the telephone lines or cable. But I live where the power wiring is fairly new ~15 years and its above ground. If lightening is going to get you its going to get you. I have heard claims that buried power and phone cables are susceptable to problems but I've never seen proof. "Paul" wrote in message ... In article URjEd.32449$3m6.5163@attbi_s51, "Travis King" wrote: What's probably the life expectancy of my A7V333 motherboard if I take good care of it? It has 2 years on it right now. I run the computer for the most part constantly except when I leave town or do something with the inside of the computer. Current MB temperature is at 30 C. If the case temp is not excessive, the electrolytic caps should be good for 10 years. Solder joints under stress, could be anyone's guess (more likely to happen with a P4 retail heatsink and its high clamping forces). In ten years, you can expect several PSU failures, and any one of those PSU failures could damage the motherboard. If you have a lot of lightning storms, or bad quality power, that could influence how long the mobo lasts. Look carefully at any modem, cable modem, ADSL wires etc, to see if there are any protection devices to take a (nearby) lightning hit, before it gets to the motherboard. For example, on a phone line, there may be a carbon block at the entry point, and you could enhance that by using a second protection device nearer the computer. For the really paranoid, a wireless network would reduce the wiring exposure to just the power lines. A real ($1K purchase price) UPS would reduce the risk of an AC power event from getting you, and would help protect the PSU from getting damaged. Cheap UPSes offer no protection at all, as they are actually SPS (standby power supplies) - they are a "straight wire" to power spikes, and the unit only cuts over to batteries if the AC power dies for enough milliseconds. On the motherboard itself, the Vcore circuit is the circuit under the most stress. If the MOSFETs are cool to the touch, that is a good sign. I've never read any MTBF estimates for switching regulators on motherboards, so don't know whether they are good for a 1 million hour MTBF or not. Large BGA packages also have a rating, for solder joint reliability. For example, a BGA with 750 pins, will last for about 10 years, with a certain daily temperature variation. From the Via web page: * 552-pin BGA VT8366A North Bridge * 376-pin BGA VT8233 South Bridge so you have little risk of a failure there (caps will fail first). Handling the processor a lot (removal, regrease, reposition heatsink) will cut into the life expectancy, if say the processor gets cracked, and it happens to overload the Vcore circuit. If the processor has the rubber bumpers on the top of the chip, that will cut that risk a bit. I would say your biggest exposure, is to external factors. Paul |
#8
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Everything man makes turns to dust right?
I don't believe in tempting fate. There are plenty of low quality UPS and surge protectors out there. I will generalise and say most low cost consumer stuff is complete rubbish until I am proven otherwise.You can have a *good* surge protector for as little as $US30. Many surge protectors are only good for 1 surge!A good true online UPS for an average power computer can cost $US250 or less. RAID 1 costs 1 extra disc drive and a controller capable. It will protect you from drive failures. There is no replacement for quality proven backups kept off-site. This is most important. My sisters house got blown by lightning - oven, fax, x computers, TV's etc. The only thing that worked afterwards was the traction engine. Prevention is better than cure. "notritenoteri" wrote in message ... YOu want to worry about something? Worry about your data. Your MB is obsolete, Your OS is obselescent and going obsolete and the only thing that's of any value is your data. All the stuff about UPS's is theory. Are you running NASA and a lunar lander mission? If you are you should be shot for having only a single system. Given enough time EVERY piece of equipment will fail including $1000 UPS's. I power my system on and off all the time. I don't shut down when lightening storms are overhead and I never worry about the telephone lines or cable. But I live where the power wiring is fairly new ~15 years and its above ground. If lightening is going to get you its going to get you. I have heard claims that buried power and phone cables are susceptable to problems but I've never seen proof. "Paul" wrote in message ... In article URjEd.32449$3m6.5163@attbi_s51, "Travis King" wrote: What's probably the life expectancy of my A7V333 motherboard if I take good care of it? It has 2 years on it right now. I run the computer for the most part constantly except when I leave town or do something with the inside of the computer. Current MB temperature is at 30 C. If the case temp is not excessive, the electrolytic caps should be good for 10 years. Solder joints under stress, could be anyone's guess (more likely to happen with a P4 retail heatsink and its high clamping forces). In ten years, you can expect several PSU failures, and any one of those PSU failures could damage the motherboard. If you have a lot of lightning storms, or bad quality power, that could influence how long the mobo lasts. Look carefully at any modem, cable modem, ADSL wires etc, to see if there are any protection devices to take a (nearby) lightning hit, before it gets to the motherboard. For example, on a phone line, there may be a carbon block at the entry point, and you could enhance that by using a second protection device nearer the computer. For the really paranoid, a wireless network would reduce the wiring exposure to just the power lines. A real ($1K purchase price) UPS would reduce the risk of an AC power event from getting you, and would help protect the PSU from getting damaged. Cheap UPSes offer no protection at all, as they are actually SPS (standby power supplies) - they are a "straight wire" to power spikes, and the unit only cuts over to batteries if the AC power dies for enough milliseconds. On the motherboard itself, the Vcore circuit is the circuit under the most stress. If the MOSFETs are cool to the touch, that is a good sign. I've never read any MTBF estimates for switching regulators on motherboards, so don't know whether they are good for a 1 million hour MTBF or not. Large BGA packages also have a rating, for solder joint reliability. For example, a BGA with 750 pins, will last for about 10 years, with a certain daily temperature variation. From the Via web page: * 552-pin BGA VT8366A North Bridge * 376-pin BGA VT8233 South Bridge so you have little risk of a failure there (caps will fail first). Handling the processor a lot (removal, regrease, reposition heatsink) will cut into the life expectancy, if say the processor gets cracked, and it happens to overload the Vcore circuit. If the processor has the rubber bumpers on the top of the chip, that will cut that risk a bit. I would say your biggest exposure, is to external factors. Paul |
#9
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MOst surge protectors aren't much good they just don't operate fast enough.
If U insist on protection a good UPS which convers AC to DC charges a battery pack then provides AC out the other side with an inverter is the best bet for my money. You can buy these in Canada where I am for about $200. They have to be maintained and the batteries do go after about 5 years. As to RAID 1 I think you really need 4 drives, controller that is smart and the software but maybe your definition is different than mine. "Mercury" wrote in message ... Everything man makes turns to dust right? I don't believe in tempting fate. There are plenty of low quality UPS and surge protectors out there. I will generalise and say most low cost consumer stuff is complete rubbish until I am proven otherwise.You can have a *good* surge protector for as little as $US30. Many surge protectors are only good for 1 surge!A good true online UPS for an average power computer can cost $US250 or less. RAID 1 costs 1 extra disc drive and a controller capable. It will protect you from drive failures. There is no replacement for quality proven backups kept off-site. This is most important. My sisters house got blown by lightning - oven, fax, x computers, TV's etc. The only thing that worked afterwards was the traction engine. Prevention is better than cure. "notritenoteri" wrote in message ... YOu want to worry about something? Worry about your data. Your MB is obsolete, Your OS is obselescent and going obsolete and the only thing that's of any value is your data. All the stuff about UPS's is theory. Are you running NASA and a lunar lander mission? If you are you should be shot for having only a single system. Given enough time EVERY piece of equipment will fail including $1000 UPS's. I power my system on and off all the time. I don't shut down when lightening storms are overhead and I never worry about the telephone lines or cable. But I live where the power wiring is fairly new ~15 years and its above ground. If lightening is going to get you its going to get you. I have heard claims that buried power and phone cables are susceptable to problems but I've never seen proof. "Paul" wrote in message ... In article URjEd.32449$3m6.5163@attbi_s51, "Travis King" wrote: What's probably the life expectancy of my A7V333 motherboard if I take good care of it? It has 2 years on it right now. I run the computer for the most part constantly except when I leave town or do something with the inside of the computer. Current MB temperature is at 30 C. If the case temp is not excessive, the electrolytic caps should be good for 10 years. Solder joints under stress, could be anyone's guess (more likely to happen with a P4 retail heatsink and its high clamping forces). In ten years, you can expect several PSU failures, and any one of those PSU failures could damage the motherboard. If you have a lot of lightning storms, or bad quality power, that could influence how long the mobo lasts. Look carefully at any modem, cable modem, ADSL wires etc, to see if there are any protection devices to take a (nearby) lightning hit, before it gets to the motherboard. For example, on a phone line, there may be a carbon block at the entry point, and you could enhance that by using a second protection device nearer the computer. For the really paranoid, a wireless network would reduce the wiring exposure to just the power lines. A real ($1K purchase price) UPS would reduce the risk of an AC power event from getting you, and would help protect the PSU from getting damaged. Cheap UPSes offer no protection at all, as they are actually SPS (standby power supplies) - they are a "straight wire" to power spikes, and the unit only cuts over to batteries if the AC power dies for enough milliseconds. On the motherboard itself, the Vcore circuit is the circuit under the most stress. If the MOSFETs are cool to the touch, that is a good sign. I've never read any MTBF estimates for switching regulators on motherboards, so don't know whether they are good for a 1 million hour MTBF or not. Large BGA packages also have a rating, for solder joint reliability. For example, a BGA with 750 pins, will last for about 10 years, with a certain daily temperature variation. From the Via web page: * 552-pin BGA VT8366A North Bridge * 376-pin BGA VT8233 South Bridge so you have little risk of a failure there (caps will fail first). Handling the processor a lot (removal, regrease, reposition heatsink) will cut into the life expectancy, if say the processor gets cracked, and it happens to overload the Vcore circuit. If the processor has the rubber bumpers on the top of the chip, that will cut that risk a bit. I would say your biggest exposure, is to external factors. Paul |
#10
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In article , "notritenoteri"
wrote: MOst surge protectors aren't much good they just don't operate fast enough. If U insist on protection a good UPS which convers AC to DC charges a battery pack then provides AC out the other side with an inverter is the best bet for my money. You can buy these in Canada where I am for about $200. They have to be maintained and the batteries do go after about 5 years. As to RAID 1 I think you really need 4 drives, controller that is smart and the software but maybe your definition is different than mine. At the risk of starting one of those whiny surge protector threads, the devices used can actually react fast enough. Some of them conduct in nanoseconds. The problem is with the physics - it is hard to get the dumped energy into the ground fast enough. Ground wiring is a secondary consideration in building construction, and even adding an extra extension cord to a surge protector can render it useless, due to the inductance of the cord preventing the dumped energy from getting to ground in time. (The Tripplite ISObar outlet has an insurance policy, that in invalidated if another extension cord is used with the product.) As for the UPS, the UPS acronym is used rather carelessly by the marketing people. Your typical cheap home UPS is actually an SPS. An SPS has no filtering capability to speak of, and uses a relay to switch operating modes. It looks like this: SPS - Normal operation SPS - Battery operation AC ---X---X----AC AC ---X X----AC / DC DC You can tell an SPS, because it remains stone cold to the touch while operating. After all, in normal operation, AC is just being passed through the device, via a relay. A real UPS looks like this, and the path stays the same all the time: AC -----DC------AC Such a UPS gets warm/hot, because the inverter on the output making the AC, dissipates energy just like the switcher inside your ATX power supply. A real UPS typical costs $1K (for no good reason that I can see). Paul "Mercury" wrote in message ... Everything man makes turns to dust right? I don't believe in tempting fate. There are plenty of low quality UPS and surge protectors out there. I will generalise and say most low cost consumer stuff is complete rubbish until I am proven otherwise.You can have a *good* surge protector for as little as $US30. Many surge protectors are only good for 1 surge!A good true online UPS for an average power computer can cost $US250 or less. RAID 1 costs 1 extra disc drive and a controller capable. It will protect you from drive failures. There is no replacement for quality proven backups kept off-site. This is most important. My sisters house got blown by lightning - oven, fax, x computers, TV's etc. The only thing that worked afterwards was the traction engine. Prevention is better than cure. "notritenoteri" wrote in message ... YOu want to worry about something? Worry about your data. Your MB is obsolete, Your OS is obselescent and going obsolete and the only thing that's of any value is your data. All the stuff about UPS's is theory. Are you running NASA and a lunar lander mission? If you are you should be shot for having only a single system. Given enough time EVERY piece of equipment will fail including $1000 UPS's. I power my system on and off all the time. I don't shut down when lightening storms are overhead and I never worry about the telephone lines or cable. But I live where the power wiring is fairly new ~15 years and its above ground. If lightening is going to get you its going to get you. I have heard claims that buried power and phone cables are susceptable to problems but I've never seen proof. "Paul" wrote in message ... In article URjEd.32449$3m6.5163@attbi_s51, "Travis King" wrote: What's probably the life expectancy of my A7V333 motherboard if I take good care of it? It has 2 years on it right now. I run the computer for the most part constantly except when I leave town or do something with the inside of the computer. Current MB temperature is at 30 C. If the case temp is not excessive, the electrolytic caps should be good for 10 years. Solder joints under stress, could be anyone's guess (more likely to happen with a P4 retail heatsink and its high clamping forces). In ten years, you can expect several PSU failures, and any one of those PSU failures could damage the motherboard. If you have a lot of lightning storms, or bad quality power, that could influence how long the mobo lasts. Look carefully at any modem, cable modem, ADSL wires etc, to see if there are any protection devices to take a (nearby) lightning hit, before it gets to the motherboard. For example, on a phone line, there may be a carbon block at the entry point, and you could enhance that by using a second protection device nearer the computer. For the really paranoid, a wireless network would reduce the wiring exposure to just the power lines. A real ($1K purchase price) UPS would reduce the risk of an AC power event from getting you, and would help protect the PSU from getting damaged. Cheap UPSes offer no protection at all, as they are actually SPS (standby power supplies) - they are a "straight wire" to power spikes, and the unit only cuts over to batteries if the AC power dies for enough milliseconds. On the motherboard itself, the Vcore circuit is the circuit under the most stress. If the MOSFETs are cool to the touch, that is a good sign. I've never read any MTBF estimates for switching regulators on motherboards, so don't know whether they are good for a 1 million hour MTBF or not. Large BGA packages also have a rating, for solder joint reliability. For example, a BGA with 750 pins, will last for about 10 years, with a certain daily temperature variation. From the Via web page: * 552-pin BGA VT8366A North Bridge * 376-pin BGA VT8233 South Bridge so you have little risk of a failure there (caps will fail first). Handling the processor a lot (removal, regrease, reposition heatsink) will cut into the life expectancy, if say the processor gets cracked, and it happens to overload the Vcore circuit. If the processor has the rubber bumpers on the top of the chip, that will cut that risk a bit. I would say your biggest exposure, is to external factors. Paul |
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