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#11
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X-no-archive: yes
In article , Bill Daniels writes I have an EDS on order and have been reading the manual available from their web site. It says "USE 9V ALKALINE BATTERY ONLY" in caps for emphasis. They then go on to say that you can also use and external battery of any type you choose. OK, so what would be wrong with using a 9V lithium smoke detector battery that lasts 5 times longer than an alkaline? I use one of these as a backup on my Borgelt B40 and I've never had to replace it. Yep, I'm gonna ask Mountain High too. Bill Daniels This seems to me to be more of a warning not to use Zinc Chloride batteries as these have a lower capacity and higher internal resistance. Tim Newport-Peace "Indecision is the Key to Flexibility." |
#12
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"In future if I go above FL180 I will have a spare battery and a
battery inside my clothing (32C degrees is about optimum battery operation body temp is 36C) with wires and connectors coming out to connect to the EDS unit. I will also carry a spare or emergency oxygen system. As simply having the battery in the pocket of the glider exposes the battery to the cold temperatures so its just as useless. Think of another thing its freezing cold you take your hands out of the gloves you then have to fumble with the battery and fly the glider." Point(s) well made. So far my O2 experience has been up to FL180. Certainly going far above that brings forth other serious considerations. I have thought I would install a continuous flow system as a back-up to the EDS if, and when I decide to fly at those altitudes. Then also a spare/emergency? Do you have any special considerations for the glider primary batteries when it gets that cold? |
#13
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Bill Daniels wrote:
__________________________________________________ __________________________ _ Mountain High says this about the Low Battery Warning: The EDS model D-1 unit continuously monitors the condition of the battery during operation. The unit flashes the red LED once every two seconds to warn that the battery has dropped to about 6 volts. The unit will, however, continue to operate properly for about four (4) hours @ 25° C after the indicator starts to flash. It will flash the red LED once per second to warn that the battery has dropped to about 5 volts and should then be replaced ASAP. The EDS model D1 will operate for 60 to 80 hours with a fresh alkaline battery under normal operation. However, because a very small amount of current (»1 µa.) is drawn by the unit while turned off, the battery life is about 4 to 6 months. Therefore, during long term storage the battery should be removed. Once the battery drops below 5 volts the unit will stop operating and the red LED will remain on. __________________________________________________ __________________________ __ Of course this suggests the low-voltage warning will come on with 4 - 5 times as much life remaining in a lithium 9V but that's not necessarily a bad thing. If the warning came on one hour after launching for a 1000k attempt, I might feel comfortable continuing the flight with lithium but not with alkaline. My older model EDS has a battery test switch: steady light and sound, battery OK; pulsing light and sound, only a few hours of life left. How about the D1? If you test it as part of the pre-flight, you'll be able to do that 1000K! The above EDS alkaline battery life data is not especially comforting. A 4 hour margin after the low battery warning could cut short a long flight. (If you even noticed the blinking red LED) I check it when I check the oxygen level (most of the time). If the alkaline battery is cold, the margin could be even less. Lithium batteries are advertised to have greater cold performance compared to alkaline. At $6 for a lithium 9V vs. $2.50 for alkaline, You are paying too much for your 9 V alkalines - they are half that at places like Costco. Haven't seen the lithium units there, unfortunately. lithium seems to be a really good buy for any device that uses a standard 9V battery. Until you forget to turn off the EDS, and a week or so later, it's dead. A good thing for smoke detectors, for sure. I use two alkaline batteries in my glider: one is in the EDS and serves as the backup battery; the other (the primary battery) is velcroed to the side of the unit and is plugged into the external power socket of the EDS. If the primary, externally mounted battery dies, I just pull the plug out of the EDS, and it switches to it's fresh internal battery. It's an idea I got from Pat Martin. -- Change "netto" to "net" to email me directly Eric Greenwell Washington State USA |
#14
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Yep, we had this discussion just the other day and I was starting to think
that I was going to change from my constant flow system to the EDS. This thread has caused me to decide to keep my current system. Oxygen is relatively cheap at my field, my bottle is good sized and the whole battery issue is a non-starter. Thanks to all for all of your infomation, you saved me several hundred dollars. dave r. "Bill Daniels" wrote in message news I have an EDS on order and have been reading the manual available from their web site. It says "USE 9V ALKALINE BATTERY ONLY" in caps for emphasis. They then go on to say that you can also use and external battery of any type you choose. OK, so what would be wrong with using a 9V lithium smoke detector battery that lasts 5 times longer than an alkaline? I use one of these as a backup on my Borgelt B40 and I've never had to replace it. Yep, I'm gonna ask Mountain High too. Bill Daniels |
#15
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"Go" wrote in message oups.com... So far my O2 experience has been up to FL180. Certainly going far above that brings forth other serious considerations. I have thought I would install a continuous flow system as a back-up to the EDS if, and when I decide to fly at those altitudes. Then also a spare/emergency? Do you have any special considerations for the glider primary batteries when it gets that cold? I think it depends on how long exposed as well as how cold. The ship's lead-acid batteries have a fair amount of mass, so internal temperatures will drop more slowly than some other stuff in the glider. Obviously, battery location plays a role too, i.e. it's typically warmer in the cockpit than elsewhere. Since the batteries are discharging and have some internal resistance, the internal power dissipation also adds warmth. That said, battery capacity at freezing will be down some 20% or more, and at -22F, down 50%. I understand Stemme insulated their battery installation for the wave flights in S. America several years ago. bumper ZZ Minden, NV |
#16
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David R. wrote:
Yep, we had this discussion just the other day and I was starting to think that I was going to change from my constant flow system to the EDS. This thread has caused me to decide to keep my current system. Oxygen is relatively cheap at my field, my bottle is good sized and the whole battery issue is a non-starter. There really aren't any battery "issues"; these guys (including me) are just arguing about the right guilding for the lily. Put the battery in, turn it on, and use it. The EDS does provide automatic operation and some audio and visual warnings that a constant flow system doesn't provide, so it might be safer overall. But since oxygen conservation isn't of interest to you, I'd say keep your present system and use the money saved to buy an oximeter so you'll know your system is working for you. -- Change "netto" to "net" to email me directly Eric Greenwell Washington State USA |
#17
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"Eric Greenwell" wrote in message ... David R. wrote: There really aren't any battery "issues"; these guys (including me) are just arguing about the right guilding for the lily. Put the battery in, turn it on, and use it. The EDS does provide automatic operation and some audio and visual warnings that a constant flow system doesn't provide, so it might be safer overall. But since oxygen conservation isn't of interest to you, I'd say keep your present system and use the money saved to buy an oximeter so you'll know your system is working for you. I agree with Eric. I use a standard alkaline battery, changed annually, with never a problem. Besides the automatic features of the EDS (it can be set to turn on above 10K, automatically adjusts O2 amount with altitude, etc), there are a few additional subjective advantages. Unlike the constant flow oximizer system I use in my Mooney, the EDS seems kinder to mucous membranes, tending not to dry them out so much, and thus is more comfortable to use. I haven't done a side-by-side comparison with my oximeter, but I suspect the EDS is also more able to keep O2 saturation levels in the good range without using prodigious amounts of oxygen, especially when in the upper teens and above. My EDS is mounted where I can't see the "idiot lights" but can hear the little "click-hiss" of the O2 pulse, but only when I pay attention to it in order to reassure myself the system is working properly. With the typical limited O2 capacity of most gliders, the EDS is almost indispensable in enabling high altitude flights like Kempton's 1000+ mile wave flight last year, or for flying multi-day safaris with a self-launch and no follow-along ground support. all the best, bumper |
#18
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"David R." wrote in message ... Yep, we had this discussion just the other day and I was starting to think that I was going to change from my constant flow system to the EDS. This thread has caused me to decide to keep my current system. Oxygen is relatively cheap at my field, my bottle is good sized and the whole battery issue is a non-starter. Thanks to all for all of your infomation, you saved me several hundred dollars. dave r. I have the same situation. O2 is cheap but refills take time and I have to do it for each flight. My old system used a demand mask that was uncomfortable and it depleted the 22 Cu. Ft. bottle in about 4 hours. After a season, that got old. The EDS system is simplicity in action. Just put the cannulla on with the control unit set to start O2 flow at 10k feet and go fly. The O2 supply will last 34 hours at 18K feet which means that a refill maybe twice a season. Convenience wise, there's no comparison. There's also good data that says the pulse demand will get the O2 deeper into the lungs for better blood O2 saturation. The EDS D1 system is expensive but it's a damn good system for gliders. Bill Daniels |
#19
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A pilot (a top national competitor) told me that he uses the EDS system
because "I turn on my oxygen at the beginning of the flight and don't think about it again". Now that really has merit, not to need to be checking a flow meter and fiddling with the needle valve (or forgetting to). That said, I am still using the Nelson system, mostly because I can't seem to talk myself into purchasing something that looks like a $5 transistor radio for, what, $800+? It even has the transistor radio 9v battery! Although I have heard nothing but good reports about the EDS, it still looks cheap to me... -Bob Korves "Bill Daniels" wrote in message ... "David R." wrote in message ... Yep, we had this discussion just the other day and I was starting to think that I was going to change from my constant flow system to the EDS. This thread has caused me to decide to keep my current system. Oxygen is relatively cheap at my field, my bottle is good sized and the whole battery issue is a non-starter. Thanks to all for all of your infomation, you saved me several hundred dollars. dave r. I have the same situation. O2 is cheap but refills take time and I have to do it for each flight. My old system used a demand mask that was uncomfortable and it depleted the 22 Cu. Ft. bottle in about 4 hours. After a season, that got old. The EDS system is simplicity in action. Just put the cannulla on with the control unit set to start O2 flow at 10k feet and go fly. The O2 supply will last 34 hours at 18K feet which means that a refill maybe twice a season. Convenience wise, there's no comparison. There's also good data that says the pulse demand will get the O2 deeper into the lungs for better blood O2 saturation. The EDS D1 system is expensive but it's a damn good system for gliders. Bill Daniels |
#20
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They are great! I'm not a competitor, and I don't
do much high-altitude flying, but I can report this: While at altitude it started beeping at me. I checked the air lines and the battery and all was ok. Turned out that, when I twisted around to retrieve a water bottle, I had dislocated the cannula. It slipped sideways just enough that the right outlet had slipped over to my left nostril and the one for the left nostril was hanging in the breeze. I didn't know this. Had it not beeped for me I might have flown on into oblivion because I was not getting any oxygen. At 00:30 16 March 2005, Bob Korves wrote: A pilot (a top national competitor) told me that he uses the EDS system because 'I turn on my oxygen at the beginning of the flight and don't think about it again'. Now that really has merit, not to need to be checking a flow meter and fiddling with the needle valve (or forgetting to). That said, I am still using the Nelson system, mostly because I can't seem to talk myself into purchasing something that looks like a $5 transistor radio for, what, $800+? It even has the transistor radio 9v battery! Although I have heard nothing but good reports about the EDS, it still looks cheap to me... -Bob Korves 'Bill Daniels' wrote in message ... 'David R.' wrote in message ... Yep, we had this discussion just the other day and I was starting to think that I was going to change from my constant flow system to the EDS. This thread has caused me to decide to keep my current system. Oxygen is relatively cheap at my field, my bottle is good sized and the whole battery issue is a non-starter. Thanks to all for all of your infomation, you saved me several hundred dollars. dave r. I have the same situation. O2 is cheap but refills take time and I have to do it for each flight. My old system used a demand mask that was uncomfortable and it depleted the 22 Cu. Ft. bottle in about 4 hours. After a season, that got old. The EDS system is simplicity in action. Just put the cannulla on with the control unit set to start O2 flow at 10k feet and go fly. The O2 supply will last 34 hours at 18K feet which means that a refill maybe twice a season. Convenience wise, there's no comparison. There's also good data that says the pulse demand will get the O2 deeper into the lungs for better blood O2 saturation. The EDS D1 system is expensive but it's a damn good system for gliders. Bill Daniels |
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