Effective Range/Throughput - Comparisons and review - (see postings 31-01-06)
in [Wireless Internet]
|
Prev: WiFi setup assistance needed
Next: new to setup
From: nourght on 16 Feb 2006 07:20 In the preceding thread the following link was mentioned http://www.wi-fiplanet.com/tutorials/article.php/1495031 in which as the author writes that one can expect an indoor range of 150m using 802.11b and outdoors a range of greater than 500 meters ! I have read plenty of Faqs on this and some are often quoted such as the Navas Faq http://en.wikibooks.org/wiki/FAQ_for_alt.internet.wireless/Wi-Fi#Link_Calcul ations in which there are interesting comments on this type of concern and links such as that of the Intel Hotspot. ftp://download.intel.com/business/bss/infrastructure/wireless/deployment/hot spot.pdf In fact John Navas justly coments : >The rather optimistic ranges listed are probably with a better than >standard omnidirectional antenna and with unobstructed line of sight. Does anybody know of an updated Field Performance Test Comparison Table ? eg : Card Name/AP Name/Mode/Distance/Signal/Throughput etc and then testing through the various distances until the signal is lost. Then change mode, then change X, change Y etc. One could the compare the Named product couple with others [entered as records] dealing with, for example, the same AP but a different card. The throughput should be tested using an impartial Net Tool not the Product Control Module if it has one. Ixia QCheck is a good Win possibility and in Linux there are plenty of choices. Personally I have never witnessed a fully working efficient Wlan link at 150m indoors going through numerous walls and other obstructions. I have read of several firms who pretend such performance and yet when I went out and tested the stuff the result was disappointing, disastrous would be more appropriate. eg: Table for AP's/Card's expected field performance Conditions : Perfect LOS, Standard Antennae and Original FW. Standard environmental conditions and a non tweaked setup [==> Little interference for optimal initial conditions] On 100+m (not >400m) I have found that the signal was low and the througput was only usable for an Internet connection. Little chance of considering a real Office Client/Server connection. It was down to a variable 1-peaks of 2 Mbs. At 150m the signal/connection dropped too often] Some other experts consider that there is far too much Hype around and that a good connection is only available at around 60m max In fact this is far closer to my findings than that written on the Product Spec Sheets. To have a Signal Connection or Throughput Peak is of little interest here. Take for example the often quoted' standard WAP54 series with a standard setup, no encryption etc. Take a standard Card (eg. WPC54 series) What have you found ? At 10 meters save a 10 MB file to you server,? What was the duration/signal stability/throughput ? Note other ranges up to unusable. Has anybody managed to upload a 10 MB file over a 500 meter link with a fully efficient B connection using standard out of box 2dB antennae? Any comments, suggestions or links would be most appreciated. A table with the conclusions could be published here for benefit of all, including any comments on the efficiency of the Firms Support team to resolve any issues evolving during your experience. Thanks
From: Jeff Liebermann on 17 Feb 2006 13:49 "nourght" <nav0785(a)iperbole.bologna.it> hath wroth: I just hate it when someone posts an interesting question and I don't have enough time for a proper answer. This may come in two or more parts. >http://www.wi-fiplanet.com/tutorials/article.php/1495031 >http://en.wikibooks.org/wiki/FAQ_for_alt.internet.wireless/Wi-Fi#Link_Calculations >ftp://download.intel.com/business/bss/infrastructure/wireless/deployment/hotspot.pdf >In fact John Navas justly coments : >>The rather optimistic ranges listed are probably with a better than >>standard omnidirectional antenna and with unobstructed line of sight. Ummm... I wrote that part. The numbers used by Intel are rather optimistic and assume an ideal location, no interference, no reflections, no obstructions, and radios that actually meet their published specifications. The tests were also performed at fairly low and useless speeds (1 or 2 Mbit/sec association). >Does anybody know of an updated Field Performance Test Comparison Table ? No, but you can make your own quite easily. I'll do it when I have time. Start with your favorite access point and 802.11g laptop. Start in close to the access point and start moving some streaming data. Streaming video or large file copies are good. Watch the connection speed. When it drops from 54Mbits/sec to 48Mbit/sec, stop and measure the distance. Move VERY slowly as it takes a while for the system to react. It's usually about 15ft when I try it. Do it again at different speeds until you run out of walking room. Make the speed transition points on a graph. The points will be all over the graph but a pattern will emerge. Another (better but more tedious) way to do the test is to lock the speed at the access point to some speed (i.e. 54Mbits/sec) and move away until the error rate goes up sufficiently to be useless. Notice I didn't say until it disconnects because that can take quite some time. Using the Windoze performance meter to monitor thruput for a file copy is a good indication of error rate. Repeat at different fixed speeds. You can also extrapolate from a few points by using the receiver sensitivity change versus connection speed. See the first table at: http://en.wikibooks.org/wiki/FAQ_for_alt.internet.wireless/Wi-Fi#Link_Calculations Inverse square law says that -6dB change in power results from a time two change in range. If you get 15ft at 54Mbits/sec, and the receive sensitivity is -68dBm, then at 6dB less, you'll have twice the range. Looking at the chart -74dBm sensitivity is 36Mbits/sec. Therefore, at 30ft, you should slow down to 36Mbits/sec. >eg : Card Name/AP Name/Mode/Distance/Signal/Throughput etc >and then testing through the various distances until the signal >is lost. Then change mode, then change X, change Y etc. I have some results but they belong to the client. However, I can easily run the tests again. Be prepared for huge variations from theoretical. >One could the compare the Named product couple with others >[entered as records] dealing with, for example, the same AP but a >different card. > >The throughput should be tested using an impartial Net Tool not >the Product Control Module if it has one. >Ixia QCheck is a good Win possibility and in Linux there are >plenty of choices. That's fine. Just remember that there needs to be a reference level for BER (bit error rate) or thruput drop at the various distances. You could do something sloppy like "when the file copy thruput drops in half" or something similar. It doesn't matter what reference you use as long as it is consistently applied. >Personally I have never witnessed a fully working efficient >Wlan link at 150m indoors going through numerous walls and >other obstructions. How many indoor buildings are there that are the size of a football field or larger? Obviously, 150meters is not an indoor test. What's a wall worth in dB? I collected a few charts of material attenuation and posted them at: http://www.thirdbreak.org/pipermail/wireless/2005-June/000804.html Let's pretend that a "typical" wall is good for -6dB attenuation. That means for every wall the signal has to go through, the maximum range is cut in half. Actually, the combination of reflections and material attenuation result in far worse range loss. >I have read of several firms who pretend such >performance and yet when I went out and tested the stuff the result >was disappointing, disastrous would be more appropriate. Yep. They probably tested this with a production access point, an insipid antenna, a highly reflective office environment, interfernce coming in through large windows, and a laptop with its worthless antenna. These are far from ideal, but represent the most common wireless arrangement. Let's play with the numbers and see what worst case produces instead of best case. Going to the link calcs at: http://en.wikibooks.org/wiki/FAQ_for_alt.internet.wireless/Wi-Fi#Link_Calculations and plugging in some numbers. A WRT54G dribbles about +15dBm tx power. The antenna is about 2dBi gain, but the coax and connectors eat about -1dB in loss. The laptop uses an marginal receiver with about -88dBm sensitivity at 6Mbits/sec connection speed, the slowest OFDM speed. The ceramic backed antennas in the laptop lid are good for about -2dBi gain and another -2dB in coax and connector losses. I'll aim for 20dB fade margin (just to be consistent). TX power = +15dBm TX coax loss = 1dB TX ant gain = 2dBi Distance = unknown RX ant gain = -2dBi RX coax loss = -2dB RX sens = -88dBm (at 6Mbits/sec) Fade margin = 20dB Plugging into: http://www.terabeam.com/support/calculations/som.php and trying various distances until I get about 20dB fade margin, I get a range of 0.06 miles or 316ft. That's quite good at 6Mbits/sec. Maybe I'm being too optimisitic somewhere. Now, running the same numbers with a receive sensitivity of -68dBm at 54Mbits/sec, I get 0.006 miles or 32ft. So, your range is going to be between those numbers (for OFDM). >eg: Table for AP's/Card's expected field performance >Conditions : Perfect LOS, Standard Antennae and Original FW. >Standard environmental conditions and a non tweaked setup >[==> Little interference for optimal initial conditions] Gaaak. Where am I going to find an interference and reflection free environment the size of a football field? Over water? >On 100+m (not >400m) I have found that the signal was low >and the througput was only usable for an Internet connection. >Little chance of considering a real Office Client/Server connection. Well, what are you standards for an acceptable connection? The 20dB fade margin is 100 times the signal necessary to produce the BER of 1*10^5 reference ( 1 error for every 10^5 bits). That's more than adequate for office communications. As an asside, I have a customer that has some goofy cash register program that absolutly will not tolerate any packet loss. Their database client server program literally hangs or dies if even one packet is lost. It's not a security feature, just old crappy design. If you're having problems maintaining database intergrity over a wireless link, check on how well you application tolerates packet loss before you assume it's a wireless issue. May I suggest DummyNet at: http://info.iet.unipi.it/~luigi/ip_dummynet/ for simulating packet loss. >It was down to a variable 1-peaks of 2 Mbs. >At 150m the signal/connection dropped too often] What were you using for testing? How many walls? >Some other experts consider that there is far too much Hype >around and that a good connection is only available at around >60m max "Good" is how how many dB of fade margin over the receiver sensitivity (at a BER of 1*10^5). Per my first calculation, one should be able to do 300ft at 6Mbit/sec OFDM association. If not, either one of my assumptions is off, my calculations suck, or some part of the puzzle is not meeting published specifications. I really don't know which is the case here. >In fact this is far closer to my findings than that written on the >Product Spec Sheets. > >To have a Signal Connection or Throughput Peak is of little >interest here. > >Take for example the often quoted' standard WAP54 series with >a standard setup, no encryption etc. >Take a standard Card (eg. WPC54 series) >What have you found ? >At 10 meters save a 10 MB file to you server,? >What was the duration/signal stability/throughput ? >Note other ranges up to unusable. >Has anybody managed to upload a 10 MB file over >a 500 meter link with a fully efficient B connection using standard >out of box 2dB antennae? > >Any comments, suggestions or links would be most appreciated. > >A table with the conclusions could be published here for benefit of >all, including any comments on the efficiency of the Firms Support >team to resolve any issues evolving during your experience. > >Thanks > Gotta run... -- Jeff Liebermann jeffl(a)comix.santa-cruz.ca.us 150 Felker St #D http://www.LearnByDestroying.com Santa Cruz CA 95060 http://802.11junk.com Skype: JeffLiebermann AE6KS 831-336-2558
From: Jeff Liebermann on 17 Feb 2006 18:34 On Fri, 17 Feb 2006 10:49:32 -0800, Jeff Liebermann <jeffl(a)comix.santa-cruz.ca.us> wrote: >Let's play with the numbers and see what worst case produces instead >of best case. Going to the link calcs at: >http://en.wikibooks.org/wiki/FAQ_for_alt.internet.wireless/Wi-Fi#Link_Calculations >and plugging in some numbers. A WRT54G dribbles about +15dBm tx >power. The antenna is about 2dBi gain, but the coax and connectors >eat about -1dB in loss. The laptop uses an marginal receiver with >about -88dBm sensitivity at 6Mbits/sec connection speed, the slowest >OFDM speed. The ceramic backed antennas in the laptop lid are good >for about -2dBi gain and another -2dB in coax and connector losses. >I'll aim for 20dB fade margin (just to be consistent). > > TX power = +15dBm > TX coax loss = 1dB > TX ant gain = 2dBi > Distance = unknown > RX ant gain = -2dBi > RX coax loss = -2dB > RX sens = -88dBm (at 6Mbits/sec) > Fade margin = 20dB > >Plugging into: >http://www.terabeam.com/support/calculations/som.php >and trying various distances until I get about 20dB fade margin, I get >a range of 0.06 miles or 316ft. That's quite good at 6Mbits/sec. >Maybe I'm being too optimisitic somewhere. > >Now, running the same numbers with a receive sensitivity of -68dBm at >54Mbits/sec, I get 0.006 miles or 32ft. So, your range is going to >be between those numbers (for OFDM). I suspected that was too good to be true. The range is about twice what I would expect from worst case calcs. Let's try again with better numbers. The RX coax loss and RX sensitivity on the laptop end are the problem. I just ripped apart a Toshiblah A75-S213: http://802.11junk.com/jeffl/pics/A75-S213/ and noticed that the tiny coax cables to the antennas are about 2ft long. I only allowed for -2dB coax and connector loss. The connectors are Hirose u-FL or iPex MHF connectors. The coax appears to be Sumitomo 0.4DS-PBA-H with an attentuation of about 7dB/meter (extrapolated from unreadable graph), or about -5dB loss for the coax and about 0.5dB for the connector. I dug out some tests I made with an Intel 2200BG card at various speeds. The numbers from my chart came from a DLink DI-624 and tend to be somewhat better than those found in the typical MiniPCI client radio. I found that the RX sensitivity at 6Mbits/sec (slowest ODFM speed) was about -84dB at the connector (including compensation for test leads). Therefore, the numbers should look like: TX power = +15dBm TX coax loss = 1dB TX ant gain = 2dBi Distance = unknown RX ant gain = -2dBi RX coax loss = -5.5dB (including connectors) RX sens = -84dBm (at 6Mbits/sec) Fade margin = 20dB http://www.terabeam.com/support/calculations/som.php I now get 0.025 miles or 132ft. That's about right. For 54Mbits/sec, the sensitivity is about -63dBm from my 2200BG tinkering, which yields a range of 0.0022 miles or 11.6ft. Yeah, that's a bit shorter than I expect but in the ballpark. -- # Jeff Liebermann 150 Felker St #D Santa Cruz CA 95060 # 831-336-2558 jeffl(a)comix.santa-cruz.ca.us # http://802.11junk.com jeffl(a)cruzio.com # http://www.LearnByDestroying.com AE6KS
From: navprojects on 17 Feb 2006 20:12 Hello Jeff, How nice of you to participate. Its a little late. Hope this is readable ... "Jeff Liebermann" <jeffl(a)comix.santa-cruz.ca.us> ha scritto nel messaggio news:ai3cv15j5j5sg1cdn8da2omb0grkngbv85(a)4ax.com... > "nourght" <nav0785(a)iperbole.bologna.it> hath wroth: > > I just hate it when someone posts an interesting question and I don't > have enough time for a proper answer. This may come in two or more parts. Glad that at least you find this argument of some interest. > >http://www.wi-fiplanet.com/tutorials/article.php/1495031 > >http://en.wikibooks.org/wiki/FAQ_for_alt.internet.wireless/Wi-Fi#Link_Calcu lations > >ftp://download.intel.com/business/bss/infrastructure/wireless/deployment/ho tspot.pdf > > >In fact John Navas justly coments : > >>The rather optimistic ranges listed are probably with a better than > >>standard omnidirectional antenna and with unobstructed line of sight. > > Ummm... I wrote that part. The numbers used by Intel are rather > optimistic and assume an ideal location, no interference, no > reflections, no obstructions, and radios that actually meet their > published specifications. The tests were also performed at fairly low > and useless speeds (1 or 2 Mbit/sec association). I do beg your pardon, I was under the impression that it was from a text snip from John Navas, but I was working very late and perhaps I mistook the author. > >Does anybody know of an updated Field Performance Test Comparison Table ? > No, but you can make your own quite easily. I'll do it when I have > time. Start with your favorite access point and 802.11g laptop. Start The idea was basically that of a common pool of data. On my own I cannot test all the combinations or even all the models The participation of any interested Wlan technician would be appropriate here > in close to the access point and start moving some streaming data. > Streaming video or large file copies are good. Watch the connection > speed. When it drops from 54Mbits/sec to 48Mbit/sec, stop and measure > the distance. Move VERY slowly as it takes a while for the system to > react. It's usually about 15ft when I try it. Do it again at > different speeds until you run out of walking room. Make the speed > transition points on a graph. The points will be all over the graph > but a pattern will emerge. In fact this was more or less the method I had adopted last weekend going from 0 - 150m ca and using a Net Performance tool to measure the corresponding throughput. Due to lack of time I examined only distance as the pivot factor and noted the measured throughput and corresponding SNR. 5 distances tested over the range each run several times. The result was really rather upsetting. Considering the quotes promised in the Tech Specs of the components employed and the assurances, or should I say 'lack of ', of the so called qualified techicians on a well known Firms Support Desk, I am concerned that something is amiss. I am a little surprised that this type of chart has not been developed by members of this and other similar Forums. It would not be difficult to create a simple Web Form with the necessary fields and relate it to a Database which can be interrogated or which can be downloaded. As a simple base meter it would be simple to read as a reference and I believe very useful for elementary tests. [Of course this supposes a professionally scrupulous and honest behaviour of the colleagues who wish to insert the records.] > Another (better but more tedious) way to do the test is to lock the > speed at the access point to some speed (i.e. 54Mbits/sec) and move > away until the error rate goes up sufficiently to be useless. Notice > I didn't say until it disconnects because that can take quite some > time. Using the Windoze performance meter to monitor thruput for a > file copy is a good indication of error rate. Repeat at different > fixed speeds. This is an interesting point. Sometimes AP's (and cards) when set to a modest fixed mode and speed transfer data with a more stable signal and, in the long run, better throughput than when set to Auto which may start at G/54 Mbs and then drop to a wavering B/11,14,8,12, 17,6 etc. I have read confirmations of this from others also. Comments? > You can also extrapolate from a few points by using the receiver > sensitivity change versus connection speed. See the first table at: > http://en.wikibooks.org/wiki/FAQ_for_alt.internet.wireless/Wi-Fi#Link_Calcul ations > Inverse square law says that -6dB change in power results from a time > two change in range. If you get 15ft at 54Mbits/sec, and the receive > sensitivity is -68dBm, then at 6dB less, you'll have twice the range. > Looking at the chart -74dBm sensitivity is 36Mbits/sec. Therefore, at > 30ft, you should slow down to 36Mbits/sec. > >eg : Card Name/AP Name/Mode/Distance/Signal/Throughput etc > >and then testing through the various distances until the signal > >is lost. Then change mode, then change X, change Y etc. > I have some results but they belong to the client. However, I can > easily run the tests again. Be prepared for huge variations from theoretical. Concerning this theme, I would be very interested to hear from you. > >One could the compare the Named product couple with others > >[entered as records] dealing with, for example, the same AP but a > >different card. > > > >The throughput should be tested using an impartial Net Tool not > >the Product Control Module if it has one. > >Ixia QCheck is a good Win possibility and in Linux there are > >plenty of choices. > > That's fine. Just remember that there needs to be a reference level > for BER (bit error rate) or thruput drop at the various distances. You > could do something sloppy like "when the file copy thruput drops in > half" or something similar. It doesn't matter what reference you use > as long as it is consistently applied. > > >Personally I have never witnessed a fully working efficient Wlan link >> at 150m indoors going through numerous walls and other obstructions. > How many indoor buildings are there that are the size of a football > field or larger? Obviously, 150 meters is not an indoor test. This of course was a rather caustic comment of mine :-) It was based precisely on a couple of Spec Sheets from Linksys in which they state that the cards cover such 'indoor ranges' (B mode.) However it is equally true to say that I have not witnessed a fully fledged Wlan running G Mode over an 80m Warehouse with a constant 24 Mbs. I would be interested to know who has and how many walls etc the signal passed through. [Remember I proposed this query considering standard Antennae and non boosted cards or AP's.] > What's a wall worth in dB? I collected a few charts of material > attenuation and posted them at: > http://www.thirdbreak.org/pipermail/wireless/2005-June/000804.html Thanks for the link, tonight however it seemed dead. Please post an update, I am interested to add your data to another table that I have been assembling recently. > Let's pretend that a "typical" wall is good for -6dB attenuation. That > means for every wall the signal has to go through, the maximum range > is cut in half. Actually, the combination of reflections and material > attenuation result in far worse range loss. > >I have read of several firms who pretend such performance and yet when >>I went out and tested the stuff the result was disappointing, disastrous would >>be more appropriate. > Yep. They probably tested this with a production access point, an > insipid antenna, a highly reflective office environment, interfernce > coming in through large windows, and a laptop with its worthless > antenna. These are far from ideal, but represent the most common > wireless arrangement. > Let's play with the numbers and see what worst case produces instead > of best case. Going to the link calcs at: > http://en.wikibooks.org/wiki/FAQ_for_alt.internet.wireless/Wi-Fi#Link_Calcul ations > and plugging in some numbers. A WRT54G dribbles about +15dBm tx > power. The antenna is about 2dBi gain, but the coax and connectors > eat about -1dB in loss. The laptop uses an marginal receiver with > about -88dBm sensitivity at 6Mbits/sec connection speed, the slowest > OFDM speed. The ceramic backed antennas in the laptop lid are good > for about -2dBi gain and another -2dB in coax and connector losses. > I'll aim for 20dB fade margin (just to be consistent). > > TX power = +15dBm > TX coax loss = 1dB > TX ant gain = 2dBi > Distance = unknown > RX ant gain = -2dBi > RX coax loss = -2dB > RX sens = -88dBm (at 6Mbits/sec) > Fade margin = 20dB > > Plugging into: > http://www.terabeam.com/support/calculations/som.php > and trying various distances until I get about 20dB fade margin, I get > a range of 0.06 miles or 316ft. That's quite good at 6Mbits/sec. > Maybe I'm being too optimisitic somewhere. 100 m at 6 Mbs ? Perhaps the 88dBm sensitivity at 6Mbits/sec is better than the common cards on the market.. I guess much much better than the card I had during one of the tests (WPC54G <--->WAP54G). I have noted that few cards (Orinoco, Cisco, Senao, Denmarc etc) approach or surpass the 90dBm and generally they are already down to a couple of Mbs. Do you agree ? Coincidently I had downloaded the Terabeam SW some weeks ago. > Now, running the same numbers with a receive sensitivity of -68dBm at > 54Mbits/sec, I get 0.006 miles or 32ft. So, your range is going to > be between those numbers (for OFDM). Exactly. > >eg: Table for AP's/Card's expected field performance > >Conditions : Perfect LOS, Standard Antennae and Original FW. > >Standard environmental conditions and a non tweaked setup > >[==> Little interference for optimal initial conditions] > Gaaak. Where am I going to find an interference and reflection free > environment the size of a football field? Over water? :-) As you stated before, one needs a base reference. I was merely considering typical differences in well known conditions. eg: in the city center /in the country (obviously not under a high tension cabling, in a nuclear power station, near industrial motors etc. and of course during the primary tests if possibile without GSM, faulty electrical equipment nearby, nieghbours disturbing stuff on etc Or the difference from in the work office surrounded by offices and all the general 'background noise' to a slightly less EMF polluted area temporarily without the usual interferences (residential or otherwise) Just to enable a slightly simpler interpretation of the primary results from the tests. This does not of course pretend the unattainable silence. > >On 100+m (not >400m) I have found that the signal was low > >and the throughput was only usable for an Internet connection. > >Little chance of considering a real Office Client/Server connection. > Well, what are you standards for an acceptable connection? The 20dB > fade margin is 100 times the signal necessary to produce the BER of > 1*10^5 reference ( 1 error for every 10^5 bits). That's more than > adequate for office communications. I was considering her basically two types of simple 'acceptable connections'.... (for simple client setups that is.) We are yet considering medium or large installations. The aim here is to to be able to obtain a reasonable idea of the working real life potential of the components in recognisable conditions and then extrapolate from there to have an idea on how best to work in less favourable conditions The first is a connection stable and fast enough to support general modest size office work (text files, spread sheets, printing, modest DB client server apps, and of course Internet apps. I believe from experience that people start complaining when they go under 10 Mbs for the first part and nowadays, with DSL around, also if they go under a constant 0,75 Mbs x Internet Apps. This is for point to point, we are not yet considering concurrent users and shared bandwidth. As said, its to test what can be done as a max in basic P2P test. It's pretty clear that for any installation that forsees a large number of users and/or several floors and/or certain apps a survey and a study needs to be planned. However notwithstanding this a simlar impartial table of field results might be very useful to many persons. (Suppliers included !) > As an asside, I have a customer that has some goofy cash register > program that absolutely will not tolerate any packet loss. Their > database client server program literally hangs or dies if even one > packet is lost. It's not a security feature, just old crappy design. > If you're having problems maintaining database intergrity over a > wireless link, check on how well you application tolerates packet loss > before you assume it's a wireless issue. May I suggest DummyNet at: > http://info.iet.unipi.it/~luigi/ip_dummynet/ > for simulating packet loss. Interesting link, thanks. > >It was down to a variable 1-peaks of 2 Mbs. > >At 150m the signal/connection dropped too often] > > What were you using for testing? How many walls? As stated before Outdoors pure LOS = no walls (WPC54G <--->WAP54G). In fact I am concerned that the AP might be faulty in some way. > >Some other experts consider that there is far too much Hype > >around and that a good connection is only available at around > >60m max > "Good" is how how many dB of fade margin over the receiver sensitivity > (at a BER of 1*10^5). Per my first calculation, one should be able to > do 300ft at 6Mbit/sec OFDM association. If not, either one of my > assumptions is off, my calculations suck, or some part of the puzzle > is not meeting published specifications. I really don't know which is > the case here. Interesting. As stated above the Receive Sensitivity you mentioned for that throughput IMHO may be better than some common AP's/Cards offer. Apart from this Linksys does not include this value in their Spec Sheets and after a hopeless series of encounters with their Support desk it seems that they still refuse to give out this technical type of info. [Other firms are far more efficient and mention plenty of values at different frequencies and ranges.] > >In fact this is far closer to my findings than that written on the > >Product Spec Sheets. > > > >To have a Signal Connection or Throughput Peak is of little > >interest here. > > > >Take for example the often quoted' standard WAP54 series with > >a standard setup, no encryption etc. > >Take a standard Card (eg. WPC54 series) > >What have you found ? > >At 10 meters save a 10 MB file to you server,? > >What was the duration/signal stability/throughput ? > >Note other ranges up to unusable. > >Has anybody managed to upload a 10 MB file over > >a 500 meter link with a fully efficient B connection using standard > >out of box 2dB antennae? > >Any comments, suggestions or links would be most appreciated. > >A table with the conclusions could be published here for benefit of > >all, including any comments on the efficiency of the Firms Support > >team to resolve any issues evolving during your experience. > >Thanks > Gotta run... Thanks for the presence. Hope to hear from you. ___________________________________________________________ > Jeff Liebermann jeffl(a)comix.santa-cruz.ca.us > 150 Felker St #D http://www.LearnByDestroying.com > Santa Cruz CA 95060 http://802.11junk.com > Skype: JeffLiebermann AE6KS 831-336-2558
From: navprojects on 17 Feb 2006 20:23
Really interesting. Thanks. Confirms some of my ideas on this. We could build a Spread sheet on this with calculations included. Great Expectations vs. Unforgiving Reality :-() I'll be back later in the day. Thanks __________________________________________________________ "Jeff Liebermann" <jeffl(a)comix.santa-cruz.ca.us> ha scritto nel messaggio news:i4mcv11kpt3p59kqrl7v9qmtrllfjt64ap(a)4ax.com... > On Fri, 17 Feb 2006 10:49:32 -0800, Jeff Liebermann > <jeffl(a)comix.santa-cruz.ca.us> wrote: > > >Let's play with the numbers and see what worst case produces instead > >of best case. Going to the link calcs at: > >http://en.wikibooks.org/wiki/FAQ_for_alt.internet.wireless/Wi-Fi#Link_Calcu lations > >and plugging in some numbers. A WRT54G dribbles about +15dBm tx > >power. The antenna is about 2dBi gain, but the coax and connectors > >eat about -1dB in loss. The laptop uses an marginal receiver with > >about -88dBm sensitivity at 6Mbits/sec connection speed, the slowest > >OFDM speed. The ceramic backed antennas in the laptop lid are good > >for about -2dBi gain and another -2dB in coax and connector losses. > >I'll aim for 20dB fade margin (just to be consistent). > > > > TX power = +15dBm > > TX coax loss = 1dB > > TX ant gain = 2dBi > > Distance = unknown > > RX ant gain = -2dBi > > RX coax loss = -2dB > > RX sens = -88dBm (at 6Mbits/sec) > > Fade margin = 20dB > > > >Plugging into: > >http://www.terabeam.com/support/calculations/som.php > >and trying various distances until I get about 20dB fade margin, I get > >a range of 0.06 miles or 316ft. That's quite good at 6Mbits/sec. > >Maybe I'm being too optimisitic somewhere. > > > >Now, running the same numbers with a receive sensitivity of -68dBm at > >54Mbits/sec, I get 0.006 miles or 32ft. So, your range is going to > >be between those numbers (for OFDM). > > I suspected that was too good to be true. The range is about twice > what I would expect from worst case calcs. Let's try again with > better numbers. > > The RX coax loss and RX sensitivity on the laptop end are the problem. > I just ripped apart a Toshiblah A75-S213: > http://802.11junk.com/jeffl/pics/A75-S213/ > and noticed that the tiny coax cables to the antennas are about 2ft > long. I only allowed for -2dB coax and connector loss. The > connectors are Hirose u-FL or iPex MHF connectors. The coax appears > to be Sumitomo 0.4DS-PBA-H with an attentuation of about 7dB/meter > (extrapolated from unreadable graph), or about -5dB loss for the coax > and about 0.5dB for the connector. > > I dug out some tests I made with an Intel 2200BG card at various > speeds. The numbers from my chart came from a DLink DI-624 and tend to > be somewhat better than those found in the typical MiniPCI client > radio. I found that the RX sensitivity at 6Mbits/sec (slowest ODFM > speed) was about -84dB at the connector (including compensation for > test leads). Therefore, the numbers should look like: > > TX power = +15dBm > TX coax loss = 1dB > TX ant gain = 2dBi > Distance = unknown > RX ant gain = -2dBi > RX coax loss = -5.5dB (including connectors) > RX sens = -84dBm (at 6Mbits/sec) > Fade margin = 20dB > > http://www.terabeam.com/support/calculations/som.php > I now get 0.025 miles or 132ft. That's about right. > > For 54Mbits/sec, the sensitivity is about -63dBm from my 2200BG > tinkering, which yields a range of 0.0022 miles or 11.6ft. Yeah, > that's a bit shorter than I expect but in the ballpark. > > -- > # Jeff Liebermann 150 Felker St #D Santa Cruz CA 95060 > # 831-336-2558 jeffl(a)comix.santa-cruz.ca.us > # http://802.11junk.com jeffl(a)cruzio.com > # http://www.LearnByDestroying.com AE6KS |