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| Electronics Repair (sci.electronics.repair) Discussion of repairing electronic equipment. Topics include requests for assistance, where to obtain servicing information and parts, techniques for diagnosis and repair, and annecdotes about success, failures and problems. |
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Wanted: A Very Accurate Timer
Can I get recomendations for the most accurate electronic timer that I
can buy? It must to be accurate to within 1/60th of a second over the course of 6 hours. Is something like this commercially available, or will I have to build it, or have someone build it? Any advice would be appreciated. Thanks a lot. Darren Harris Staten Island, New York. |
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On 24 Jun 2005 17:19:09 GMT, Ian Stirling
wrote: In sci.electronics.design wrote: Can I get recomendations for the most accurate electronic timer that I can buy? It must to be accurate to within 1/60th of a second over the course of 6 hours. Is something like this commercially available, or will I have to build it, or have someone build it? GPS recievers. I've seen some with an alarm function. However, 1/60th of a second in 6 hours isn't impossible to do otherwise. An ordinary digital clock powered from the AC line is more accurate than that. ...Jim Thompson -- | James E.Thompson, P.E. | mens | | Analog Innovations, Inc. | et | | Analog/Mixed-Signal ASIC's and Discrete Systems | manus | | Phoenix, Arizona Voice  480)460-2350 | || E-mail Address at Website Fax 480)460-2142 | Brass Rat || http://www.analog-innovations.com | 1962 | I love to cook with wine. Sometimes I even put it in the food. |
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"Jim Thompson" wrote in message ... On 24 Jun 2005 17:19:09 GMT, Ian Stirling wrote: In sci.electronics.design wrote: Can I get recomendations for the most accurate electronic timer that I can buy? It must to be accurate to within 1/60th of a second over the course of 6 hours. Is something like this commercially available, or will I have to build it, or have someone build it? GPS recievers. I've seen some with an alarm function. However, 1/60th of a second in 6 hours isn't impossible to do otherwise. An ordinary digital clock powered from the AC line is more accurate than that. On the surface, shouldn't that be "as accurate as that"? In North America and other 60-Hz realms, at least. I have heard horror stories about short-term inaccuracies in the power system 60 Hz timing, that it is only guaranteed to be accurate within 1 cycle per day, for instance. And I found this tidbit googling around for accurate clocks: "GPS time was zero at 0h 6-Jan-1980 and since it is not perturbed by leap seconds GPS is now ahead of UTC by 13 seconds." |
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On Fri, 24 Jun 2005 10:50:57 -0700, "Richard Henry"
wrote: "Jim Thompson" wrote in message .. . On 24 Jun 2005 17:19:09 GMT, Ian Stirling wrote: In sci.electronics.design wrote: Can I get recomendations for the most accurate electronic timer that I can buy? It must to be accurate to within 1/60th of a second over the course of 6 hours. Is something like this commercially available, or will I have to build it, or have someone build it? GPS recievers. I've seen some with an alarm function. However, 1/60th of a second in 6 hours isn't impossible to do otherwise. An ordinary digital clock powered from the AC line is more accurate than that. On the surface, shouldn't that be "as accurate as that"? In North America and other 60-Hz realms, at least. As I understand it, for grid-power-hopping to work, the accuracy is _much_ better than that. I have heard horror stories about short-term inaccuracies in the power system 60 Hz timing, that it is only guaranteed to be accurate within 1 cycle per day, for instance. I think that's nonsense. And I found this tidbit googling around for accurate clocks: "GPS time was zero at 0h 6-Jan-1980 and since it is not perturbed by leap seconds GPS is now ahead of UTC by 13 seconds." ...Jim Thompson -- | James E.Thompson, P.E. | mens | | Analog Innovations, Inc. | et | | Analog/Mixed-Signal ASIC's and Discrete Systems | manus | | Phoenix, Arizona Voice 480)460-2350 | || E-mail Address at Website Fax 480)460-2142 | Brass Rat || http://www.analog-innovations.com | 1962 | I love to cook with wine. Sometimes I even put it in the food. |
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"Richard Henry" wrote in message ...
"Jim Thompson" wrote in message ... On 24 Jun 2005 17:19:09 GMT, Ian Stirling wrote: In sci.electronics.design wrote: Can I get recomendations for the most accurate electronic timer that I can buy? It must to be accurate to within 1/60th of a second over the course of 6 hours. Is something like this commercially available, or will I have to build it, or have someone build it? GPS recievers. I've seen some with an alarm function. However, 1/60th of a second in 6 hours isn't impossible to do otherwise. An ordinary digital clock powered from the AC line is more accurate than that. On the surface, shouldn't that be "as accurate as that"? In North America and other 60-Hz realms, at least. I have heard horror stories about short-term inaccuracies in the power system 60 Hz timing, that it is only guaranteed to be accurate within 1 cycle per day, for instance. *** GASP!!!!!! *** An error of one part in 5,184,000??!?!?!?!?! How could anyone possibly tolerate that???!?!?!?!?! ;^) |
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"EL" wrote in message ... "Richard Henry" wrote in message ... "Jim Thompson" wrote in message ... On 24 Jun 2005 17:19:09 GMT, Ian Stirling wrote: In sci.electronics.design wrote: Can I get recomendations for the most accurate electronic timer that I can buy? It must to be accurate to within 1/60th of a second over the course of 6 hours. Is something like this commercially available, or will I have to build it, or have someone build it? GPS recievers. I've seen some with an alarm function. However, 1/60th of a second in 6 hours isn't impossible to do otherwise. An ordinary digital clock powered from the AC line is more accurate than that. On the surface, shouldn't that be "as accurate as that"? In North America and other 60-Hz realms, at least. I have heard horror stories about short-term inaccuracies in the power system 60 Hz timing, that it is only guaranteed to be accurate within 1 cycle per day, for instance. *** GASP!!!!!! *** An error of one part in 5,184,000??!?!?!?!?! How could anyone possibly tolerate that???!?!?!?!?! ;^) I recall working with a marketing guy a few years back who had a customer interested in a ruggedized PC that had timing accurate to 1 second/month, even when turned off. He thought the PC's real-time clock chip would be ok, because it has its own battery. |
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wrote in message
oups.com... Can I get recomendations for the most accurate electronic timer that I can buy? It must to be accurate to within 1/60th of a second over the course of 6 hours. Is something like this commercially available, or will I have to build it, or have someone build it? Any advice would be appreciated. Thanks a lot. Darren Harris Staten Island, New York. Dan, Sadly enough, there have been a number of replies to your question, but none have attempted to answer it directly. But, you didn't state the intended use or desired method of operation of the timer. Assuming that you are looking for a handheld timer suitable for tasks such as cooking or sunbathing, almost any of the common timers available at outlets such as Radio Shack, Target, Walmart, etc. should fill your bill. They are all crystal controlled, and although their accuracy isn't usually stated in the specs, they should easily meet your requirements. If you're looking for an industrial timer that can control other devices, then you need to specify what kind of equipment or the power requirements of the equipment. -- Dave M MasonDG44 at comcast dot net (Just subsitute the appropriate characters in the address) Never take a laxative and a sleeping pill at the same time!! |
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wrote in message oups.com... Can I get recomendations for the most accurate electronic timer that I can buy? It must to be accurate to within 1/60th of a second over the course of 6 hours. Is something like this commercially available, or will I have to build it, or have someone build it? Any advice would be appreciated. Thanks a lot. Darren Harris Staten Island, New York. You really need to say more about the enviroment. Crystals, can relatively easily get to 1ppm. (you need just slightly better than this), and with a crystal oven to control the temperature, accuracies better that 0.1ppm, are relatively easy. Omega offer off the shelf timing systems warranted to better than this. Some radio transmitters in most countries have warranted accuracies (usually on the long-wave), and a receiver, with a PLL locked onto this can give superb accuracies (some warrant 0.01ppm, and some go even further - in the UK, the 60KHz used for this, is maintained to better that 2 parts in 10^12). In the US, WWVB, broadcasts a similar signal. These same transmitters are usually the ones carrying MSF time and date information, and the master source is usually now an atomic clock. Some of the receiver systems for these, have inputs for the distance to the transmitter, and give 'real time', compensated for this to mSec or better accuracies. The master clock for the GPS system, provides similar accuracies. A receiver, with local PLL, can be used again to get access to this clock. Mains provides good 'long term' accuracy, but in the short term is poor, and would not meet your requirements in this regard. So, if you have access to radio reception, look at using a local oscillator locked to the WWVB transmissions. Otherwise you will need to consider a high accuracy crystal, in a suitable oven. If internet connectivity is available, you could use a time server, and a local clock slaved to this (units to do this are off the sheld items). In the UK, one of th companies doing a range of products using these technologies, a http://www.steatite.co.uk/downloads/...q_linecard.pdf Best Wishes |
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Hello Darren,
Can I get recomendations for the most accurate electronic timer that I can buy? It must to be accurate to within 1/60th of a second over the course of 6 hours. This lets me assume that you need some kind of electronic triggering. 1/60th of a second is to precise for a finger to push a button. Is something like this commercially available, or will I have to build it, or have someone build it? Check out the sports markets. The devices for swimming relay contests may not quite offer 6 hours but equipment for marathons or triathlons should. It has been a while since I did competition swimming but I vaguely remember that the stuff mostly came from the major watch companies, usually from Switzerland. Regards, Joerg http://www.analogconsultants.com |
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On Fri, 24 Jun 2005 16:36:09 -0400, "DaveM"
wrote: wrote in message roups.com... Can I get recomendations for the most accurate electronic timer that I can buy? It must to be accurate to within 1/60th of a second over the course of 6 hours. Is something like this commercially available, or will I have to build it, or have someone build it? Any advice would be appreciated. Thanks a lot. Darren Harris Staten Island, New York. Dan, Sadly enough, there have been a number of replies to your question, but none have attempted to answer it directly. But, you didn't state the intended use or desired method of operation of the timer. Assuming that you are looking for a handheld timer suitable for tasks such as cooking or sunbathing, almost any of the common timers available at outlets such as Radio Shack, Target, Walmart, etc. should fill your bill. They are all crystal controlled, and although their accuracy isn't usually stated in the specs, they should easily meet your requirements. If you're looking for an industrial timer that can control other devices, then you need to specify what kind of equipment or the power requirements of the equipment. I had thought that maintaining an accumulated deviation of no greater than 1/60 sec in 6 hours is about like 24 seconds/year or 2 seconds a month. This is 1ppm drift. Without being temperature stable, this is not so easy, is it? Jon |
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Jonathan Kirwan wrote:
On Fri, 24 Jun 2005 16:36:09 -0400, "DaveM" wrote: wrote Can I get recomendations for the most accurate electronic timer that I can buy? It must to be accurate to within 1/60th of a second over the course of 6 hours. Is something like this commercially available, or will I have to build it, or have someone build it? Any advice would be appreciated. Thanks a lot. Darren Harris Staten Island, New York. [...] I had thought that maintaining an accumulated deviation of no greater than 1/60 sec in 6 hours is about like 24 seconds/year or 2 seconds a month. This is 1ppm drift. Without being temperature stable, this is not so easy, is it? Jon Just checking the math: 1/(6*3600*60)=7.716E-7 You are right. That may be difficult without an oven. Darren's spec may be a little tight. Normally, people who need to measure to that precision already know the methods and where to get the needed equipment. The next question : what is he measuring that is that stable? I don't know of anything that is expressed in seconds with 1ppm stability, except perhaps gps. But if it involved gps, he'd already have the answer to his question. Mike Monett |
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In order to be sure of the accuracy that you are seeking, I presume the
timer woul dhave to have a readout in the order of 1/100's of a second. Since this sort of accuracy is common in timing many sporting events (eg swimming, motor racing, running etc) a chat with the local swimming club etc might give you some leads to sources David wrote: Can I get recomendations for the most accurate electronic timer that I can buy? It must to be accurate to within 1/60th of a second over the course of 6 hours. Is something like this commercially available, or will I have to build it, or have someone build it? Any advice would be appreciated. Thanks a lot. Darren Harris Staten Island, New York. |
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wrote in message oups.com... Can I get recomendations for the most accurate electronic timer that I can buy? It must to be accurate to within 1/60th of a second over the course of 6 hours. You can pick up a Radio Shack Model 100 from $5 and up on eBay. There is free software that will give you 8 separate accurate lap timers on that, one for each function key. It runs off 4 AA cells. N |
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NSM wrote:
wrote in message oups.com... Can I get recomendations for the most accurate electronic timer that I can buy? It must to be accurate to within 1/60th of a second over the course of 6 hours. You can pick up a Radio Shack Model 100 from $5 and up on eBay. There is free software that will give you 8 separate accurate lap timers on that, one for each function key. It runs off 4 AA cells. N 6 hours would be 6 x 3600 x60 units = 1,296,000 or better than one part in 10^6. That is heading into TCXO crystal oven country. Or possibly locking to a NIST radio source such as WWV or WWVB. Or, at the very least, a calibration from a traceable source. Loosen your spec. -- Many thanks, Don Lancaster Synergetics 3860 West First Street Box 809 Thatcher, AZ 85552 voice: (928)428-4073 email: Please visit my GURU's LAIR web site at http://www.tinaja.com |
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On Fri, 24 Jun 2005 20:59:10 GMT Jonathan Kirwan
wrote: I had thought that maintaining an accumulated deviation of no greater than 1/60 sec in 6 hours is about like 24 seconds/year or 2 seconds a month. This is 1ppm drift. Without being temperature stable, this is not so easy, is it? It's about one part in 13 million, so, yes, this is pretty difficult. You won't do this with a straight crystal oscillator, and I don't know if any of the GPS units actually give out a clock signal that's fast enough to measure 1/60 of a second. HP makes a 10 MHz ovenized crystal oscillator which is much more stable than this, however. There is one on ebay now for about $85. That's about as cheap as you are likely to find for this level of precision. Do you really need this much precision? - ----------------------------------------------- Jim Adney Madison, WI 53711 USA ----------------------------------------------- |
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wrote:
Can I get recomendations for the most accurate electronic timer that I can buy? It must to be accurate to within 1/60th of a second over the course of 6 hours. Is something like this commercially available, or will I have to build it, or have someone build it? You will certainly find what you need here, though whether it is within your budget may be another matter. They have units that are far better than 1ppm accurate. http://www.symmttm.com/ Or, have you considered a simple PC application that syncs its time from NIST via the Internet using an NTP client? Virtually free and accurate to 10ms, as long as you can tolerate a net-connected PC. Or, perhaps a PC / system connected to a GPS receiver via the serial port (though I understand the time via the serial port may only have 1-second resolution for many units, so homework is in order). Richard |
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Jim Adney wrote:
On Fri, 24 Jun 2005 20:59:10 GMT Jonathan Kirwan wrote: I had thought that maintaining an accumulated deviation of no greater than 1/60 sec in 6 hours is about like 24 seconds/year or 2 seconds a month. This is 1ppm drift. Without being temperature stable, this is not so easy, is it? It's about one part in 13 million, so, yes, this is pretty difficult. You won't do this with a straight crystal oscillator, and I don't know if any of the GPS units actually give out a clock signal that's fast enough to measure 1/60 of a second. HP makes a 10 MHz ovenized crystal oscillator which is much more stable than this, however. There is one on ebay now for about $85. That's about as cheap as you are likely to find for this level of precision. Do you really need this much precision? - ----------------------------------------------- Jim Adney Madison, WI 53711 USA ----------------------------------------------- Once you have this precision, you need some way to reliably use it. I always get a chuckle out of "Star Trek". They've got massive computers calculating precise timing, trajectories etc. but they always initiate it with an imprecise verbal command, "ENGAGE". mike -- Return address is VALID but some sites block emails with links. Delete this sig when replying. .. Wanted, PCMCIA SCSI Card for HP m820 CDRW. FS 500MHz Tek DSOscilloscope TDS540 Make Offer Wanted 12" LCD for Compaq Armada 7770MT. Bunch of stuff For Sale and Wanted at the link below. MAKE THE OBVIOUS CHANGES TO THE LINK htremovethistp://www.geocities.com/SiliconValley/Monitor/4710/ |
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In article .com,
Glenn Gundlach wrote: I'm sitting here looking at my homebuilt digital clock that is counting 120 zero crosses of the AC line as its 1 second time base. Motorola processor. Do you need the absolute accuracy or would counting 2,592,000 AC zero crosses do the trick? In the UK, the mains frequency might well average out at 50 Hz over 24 hours, but that's not the same as being absolutely accurate over any 6 hour period. Can't see the US being any different. -- *The man who fell into an upholstery machine is fully recovered.* Dave Plowman London SW To e-mail, change noise into sound. |
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"mike" wrote in message ... Once you have this precision, you need some way to reliably use it. I always get a chuckle out of "Star Trek". They've got massive computers calculating precise timing, trajectories etc. but they always initiate it with an imprecise verbal command, "ENGAGE". Hard to take a show seriously where spacecraft make banking turns in space and go "Whoosh" as they pass you. "Blake's 7" at least got that part right. N |
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In message
"Dave Plowman (News)" wrote: ... would counting 2,592,000 AC zero crosses do the trick? In the UK, the mains frequency might well average out at 50 Hz over 24 hours, but that's not the same as being absolutely accurate over any 6 hour period. I've a radio-controlled clock and a nominally-50Hz-driven one in the same room. There's only any point in synchronising them early in the morning: that way, they'll agree again every morning, i.e. the 50HZ is carefully kept to be *on average* true, but by evening, especially in winter, the difference can be as much as 20 seconds. Can't see the US being any different. Nor can I ... -- Peter Duck |
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Thanks for all the responses.
I originally entertained something like this 2-1/2 years ago, but the timer I needed, which was basically a racing watch, but with a large bright red display, was not commercially available and proved too complicated to build. So I have to settle on just a simple timer for now, and worry about getting something more complex later. It is way too complicated to go into the details as far as why I need this, but basically this will involve conducting experiments/tests on the accuracy of human timing, and also the confirmation of certain conclusions drawn from studying the code contained within the hardware I'll be testing against. 1/60th of a second is important because it is specific to that hardware and how it functions. It uses registers that change every 1/60th of a second to make certain occurances "random". If one could react with an accuracy of 1/60th of a second, then these occurances would follow a predictable pattern. But of course that kind of timing is not humanly possible with any kind of consistency. Anyway, to simplify what I'm doing, this involves a huge number of timed inputs(by a person) over the course of several hours. The timer will be the reference. If it is easier for me to get a set-up that involves frequent resets/corrections to get the needed accuracy at any 60th of a second over the course of several hours, then that is what I'll have to do. P.S: The hardware itself is a videogame. Darren Harris Staten Island, New York. |
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Richard H. wrote: wrote: 1/60th of a second is important because it is specific to that hardware and how it functions. It uses registers that change every 1/60th of a second to make certain occurances "random". If one could react with an accuracy of 1/60th of a second, then these occurances would follow a predictable pattern. But of course that kind of timing is not humanly possible with any kind of consistency. Anyway, to simplify what I'm doing, this involves a huge number of timed inputs(by a person) over the course of several hours. The timer will be the reference. If it is easier for me to get a set-up that involves frequent resets/corrections to get the needed accuracy at any 60th of a second over the course of several hours, then that is what I'll have to do. P.S: The hardware itself is a videogame. This strikes me as a very different definition of the problem from your original post... How? In my original post I said the following: "It must to be accurate to within 1/60th of a second over the course of 6 hours." If your goal is to have an event 60 times per second with good accuracy, that is trivial with most microcontrollers. Even a basic design could get you 100,000 events per second with good accuracy. But that is not my goal. But what you described in your original post was a requirement to finish after 6 hours with a clock drift of no more than 1/60 second. That problem is 21,600 times harder, and requires elaborate solutions. i.e., it sounds like your requirement is for a timer that can: a) trigger 60 times per second with "good" accuracy b) count for 6 hours or more Still wrong. The timer will trigger nothing. All it needs is a display so that I can see the seconds.(Though showing 1/60th of a second intervals would be great, it's just not required for this project, which I have had to simplify greatly). In defining "good" accuracy, 1% equates to +/- 0.00017 secs margin per 60/sec event (between 0.01649 and 0.01683 seconds per event). These timings aren't likely to vary much on one board (barring temerature changes), but would vary in this range from one board to the next. So, what degree of accuracy are you really needing? 1/60th of a second... (ie: When the 2 hour, 53 minute, and 37 second point is reached, the display should show it at exactly that time at an accuracy of 1/60th of a second from when the clock started running). Darren Harris Staten Island, New York. |
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Mike Monett wrote: wrote: [...] So, what degree of accuracy are you really needing? 1/60th of a second... (ie: When the 2 hour, 53 minute, and 37 second point is reached, the display should show it at exactly that time at an accuracy of 1/60th of a second from when the clock started running). Darren Harris Staten Island, New York. You have no idea what your requirements mean. A drift of 1ppm in 6 hrs is meaningless in a marathon or other race, when the wind can easily cause 1% change in performance. So in Brooklanese -Fahgettaboutit! There is no wind involved here. I've been trying not to get into the details, because details lead to the request for more details, and this is just way to complex to get into here. Not just as far as what I'm doing, but the timer I am seeking is actually inadequate for all of the experiments I want to do. Now if this is so difficult to understand, then the more complex timer will be near impossible to explain. For this project there will be 1,296,000 increments over the course of 6 hours. I just need the option of *visually* seeing on the timer's display when each second increments beginning with the press of a start button, and the accuracy must be 1/60th of a second at worst for any of those 21,600 seconds after zero.(I'm assuming that the timer will have to be plugged in an AC outlet). Darren Harris Staten Island, New York. |
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Actually, since your application is only a video game, then perhaps it is not accuracy that you need - rather precision, which is a very different concept to accuracy. Have a think about it and perhaps that will simplify your problem David Darren Harris Staten Island, New York. |
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NSM wrote: "mike" wrote in message ... Once you have this precision, you need some way to reliably use it. I always get a chuckle out of "Star Trek". They've got massive computers calculating precise timing, trajectories etc. but they always initiate it with an imprecise verbal command, "ENGAGE". Hard to take a show seriously where spacecraft make banking turns in space and go "Whoosh" as they pass you. "Blake's 7" at least got that part right. N Well compensating for centrifugal force is plausible, and space is not a complete vacuum. :-) Darren Harris Staten Island, New York. |
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quietguy wrote: Actually, since your application is only a video game, then perhaps it is not accuracy that you need - rather precision, which is a very different concept to accuracy. No. I'm sure that accuracy is definitely what is needed. Have a think about it and perhaps that will simplify your problem The problem is what it is. There is nothing that can be changed. Obviously, even this simple version of a timer is not commercially available, and not something that can be easily built. Thanks. Darren Harris Staten Island, New York. |
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On Fri, 24 Jun 2005 22:19:33 -0500 Jim Adney
wrote: On Fri, 24 Jun 2005 20:59:10 GMT Jonathan Kirwan wrote: I had thought that maintaining an accumulated deviation of no greater than 1/60 sec in 6 hours is about like 24 seconds/year or 2 seconds a month. This is 1ppm drift. Without being temperature stable, this is not so easy, is it? It's about one part in 13 million, so, yes, this is pretty difficult. Oops, I'm off by one decimal place; it's more like one part in 1.3 million. This can be done with a good crystal oscillator, but it's got to be a pretty good one, and it has to be calibrated against a real standard. The question remains of why one would need this degree of accuracy in a timing function. - ----------------------------------------------- Jim Adney Madison, WI 53711 USA ----------------------------------------------- |
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wrote:
Mike Monett wrote: wrote: .... and someone wrote So, what degree of accuracy are you really needing? 1/60th of a second... (ie: When the 2 hour, 53 minute, and 37 second point is reached, the display should show it at exactly that time at an accuracy of 1/60th of a second from when the clock started running). .... You have no idea what your requirements mean. A drift of 1ppm in 6 hrs is meaningless in a marathon or other race, when the wind can easily cause 1% change in performance. .... I've been trying not to get into the details, because details lead to the request for more details, and this is just way to complex to get into here. Not just as far as what I'm doing, but the timer I am seeking is actually inadequate for all of the experiments I want to do. You will waste a lot less of everyone's time if you just go ahead and explain what you want. If you happen to know. Of course if you don't know what you want, you are less likely to get it. Anyhow, AIUI you have a video game and you want to use a timer for doing something related to this game ... perhaps you want to reverse engineer it, perhaps crack some protection, perhaps set up a computer- aided play device. Whatever. And you think that having a timer with 1/60 second accuracy displaying the current time throughout a six hour period will help you do so. (It may be silly for you to think so, because if you are just reading the time off the running display or pushing buttons to record the time when stuff happens, you won't be able to do either one with 1/60 second reaction times anyway.) Note that the clock in the video game almost certainly will drift around in a range at least 10 parts per million wide, which makes your 1 ppm requirement superfluous. Instead, snoop the video game clock and use a buffered copy of it to drive the counters in your timer. This way your displayed time always is in sync with the video game time. Now if this is so difficult to understand, then the more complex timer will be near impossible to explain. Perhaps your problem is that you don't know what you are doing. Feel free to convince us otherwise. For this project there will be 1,296,000 increments over the course of 6 hours. I just need the option of *visually* seeing on the timer's display when each second increments beginning with the press of a start button, and the accuracy must be 1/60th of a second at worst for any of those 21,600 seconds after zero. As several people have noted, you could use a TXCO (temperature compensated crystal oscillator) or a crystal oven for adequate performance. See eg $4 and $18 items http://cgi.ebay.com/ws/eBayISAPI.dll...tem=7526666127 http://cgi.ebay.com/ws/eBayISAPI.dll...tem=7526612301 Note that you can get an inexpensive counter/timer on ebay, like http://cgi.ebay.com/ws/eBayISAPI.dll...tem=7526025102 http://cgi.ebay.com/ws/eBayISAPI.dll...tem=7526108906 http://cgi.ebay.com/ws/eBayISAPI.dll...tem=7526165454 http://cgi.ebay.com/ws/eBayISAPI.dll...tem=7526085126 http://cgi.ebay.com/ws/eBayISAPI.dll...tem=7526393893 http://cgi.ebay.com/ws/eBayISAPI.dll...tem=7525744632 The bench instruments probably have 7 to 10 digit stability when warmed up and similar accuracy when in cal. Some of them might make their timebases externally available and/or have totalizer functions that would do the job for you. In any case, if you build a TXCO you'll need a counter/timer to check it. -jiw |
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You will waste a lot less of everyone's time if you just go ahead
and explain what you want. If you happen to know. Of course if you don't know what you want, you are less likely to get it. I said in my very first post that I was looking for an electronic timer that is accurate to within 1/60th of a second over the course of 6 hours. Then the thread turned into questions concerning my project and assumptions as to why what I ask for wasn't logical. Anyhow, AIUI you have a video game and you want to use a timer for doing something related to this game ... perhaps you want to reverse engineer it, perhaps crack some protection, perhaps set up a computer- aided play device. Whatever. And you think that having a timer with 1/60 second accuracy displaying the current time throughout a six hour period will help you do so. (It may be silly for you to think so, because if you are just reading the time off the running display or pushing buttons to record the time when stuff happens, you won't be able to do either one with 1/60 second reaction times anyway.) I did previously say: "But of course that kind of timing is not humanly possible with any kind of consistency." Note that the clock in the video game almost certainly will drift around in a range at least 10 parts per million wide, which makes your 1 ppm requirement superfluous. Instead, snoop the video game clock and use a buffered copy of it to drive the counters in your timer. This way your displayed time always is in sync with the video game time. I'm aware of the consistency of the game hardware. And this project can't involve tapping into the games clock. Now if this is so difficult to understand, then the more complex timer will be near impossible to explain. Perhaps your problem is that you don't know what you are doing. Feel free to convince us otherwise. The problem is the criticizing of my needs and the suggestion of alternatives by those unfamiliar with the project. The initial question was simple, and I thank those who gave me their best answers. For this project there will be 1,296,000 increments over the course of 6 hours. I just need the option of *visually* seeing on the timer's display when each second increments beginning with the press of a start button, and the accuracy must be 1/60th of a second at worst for any of those 21,600 seconds after zero. As several people have noted, you could use a TXCO (temperature compensated crystal oscillator) or a crystal oven for adequate performance. See eg $4 and $18 items http://cgi.ebay.com/ws/eBayISAPI.dll...tem=7526666127 http://cgi.ebay.com/ws/eBayISAPI.dll...tem=7526612301 Note that you can get an inexpensive counter/timer on ebay, like http://cgi.ebay.com/ws/eBayISAPI.dll...tem=7526025102 http://cgi.ebay.com/ws/eBayISAPI.dll...tem=7526108906 http://cgi.ebay.com/ws/eBayISAPI.dll...tem=7526165454 http://cgi.ebay.com/ws/eBayISAPI.dll...tem=7526085126 http://cgi.ebay.com/ws/eBayISAPI.dll...tem=7526393893 http://cgi.ebay.com/ws/eBayISAPI.dll...tem=7525744632 The bench instruments probably have 7 to 10 digit stability when warmed up and similar accuracy when in cal. Some of them might make their timebases externally available and/or have totalizer functions that would do the job for you. In any case, if you build a TXCO you'll need a counter/timer to check it. -jiw I'm just looking for a timer to click off every second on it's display, and with the accuracy I mentioned. I know nothing about how to build anything, or about the features of the devices in those links. Darren Harris Staten Island, New York. |
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Richard H. wrote: wrote: I've been trying not to get into the details, because details lead to the request for more details, and this is just way to complex to get into here. Darren, You are correct that it takes details to provide a useful answer. Based on the broad question originally asked, the URL I provided should have met your needs. Perhaps if we understood why you didn't find what you needed there, more accurate responses might be possible. If you work with engineers much, you'll appreciate that people very often ask for the wrong thing - by challenging questionable requirements the true specs become known, often hugely affecting the complexity involved. Here, you are asking for a degree of accuracy that is difficult to achieve, but you say you won't actually be using it, which sounds flawed. (Irrespective of the event frequency in the DUT, if you are only capturing one-second granularity, more accuracy is wasted.) I'm not asking for the wrong thing. The requirements are only "questionable to someone not familiar to with what I am trying to do. I never said that I will not be using the accuracy I am searching for. And I think it has already been established that the kind of accurate timer I need doesn't exist(or no one here knows of one). ... the timer I am seeking is actually inadequate for all of the experiments I want to do. Now if this is so difficult to understand, then the more complex timer will be near impossible to explain. So, you're wasting everyone's time (including yours) looking for a solution that won't meet your needs? If you really want nanosecond accuracy, we can guide you to a solution that'd give you that, but not if you don't ask. Who said that I'm looking for a solution that won't meet my needs?(And I only need 1/60th of a second acccuracy). If you would be less defensive about the requirements and share more about your desired goal, you might get help in meeting it - the volume of responses here demonstrates folks' willingness to help. We don't need you to divulge your experiment, but significant requirements would be nice (budget, size, weight, power, connectivity, inputs, outputs, skillset), along with some tolerance for validating the potentially difficult specs. All this is unecessary info for a timer with a simple read-out. There are no other rquirements than what I stated. All that said, have you considered the overly simple solution of software on a PC? It may be difficult to get better than 18.2ms resolution from the system clock, but that is very close to your stated requirement, and an RTC clock card would be easy enough to add. Again, I need only 1/60th of a second accuracy, and the reference point will be from "start". Then, use SNTP to frequently check an atomic source and factor the drift into the local clock's readings. (Or ditch the local clock entirely and just make an SNTP/Daytime query of an atomic clock at the time you want a reading - the accuracy can be calc'd as good as 1/250 sec.) Plus, this is easily extensible to integrate with an event log, rather than using a manual process. Of course, there's no knowing if this will meet your other unstated requirements, so perhaps it was a waste of time to share this idea? Yeah. I guess I'll have to look elsewhere. Thanks. Darren Harris Staten Island, New York. |
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quietguy wrote: Actually, since your application is only a video game, then perhaps it is not accuracy that you need - rather precision, which is a very different concept to accuracy. Have a think about it and perhaps that will simplify your problem The problem is getting a timer. Darren Harris Staten Island, New York. |
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