14:11 <DocScrutinizer05> interesting module/EVB: http://www.globalstar.com/shop/index.php?main_page=product_info&cPath=23&products_id=81

14:12 <whitequark> ooh neat

14:13 <eintopf> the question is, can you put it into the neo900?

14:13 <eintopf> and the other question is, will it blend?

14:13 <eintopf> :-)

14:22 <DocScrutinizer05> http://www.globalstar.com/shop/index.php?main_page=product_info&cPath=22&products_id=108

14:22 <DocScrutinizer05> simplex upstream

14:22 <wpwrak> standby 0.5 W typical. oh dear !

14:27 <DocScrutinizer05> yep, of course

14:28 <DocScrutinizer05> you hardly can find much better for sat communications

14:28 <DocScrutinizer05> well, their phones are allegedly 2 days standby

14:29 <DocScrutinizer05> but then I wonder what "standby" means for a device that requires unfolding and extending the antenna before it can enter active mode

14:30 <DocScrutinizer05> generally sat phones are not really meant to _receive_ calls

14:30 <wpwrak> btw, philae is back ! (article in german) http://www.heise.de/newsticker/meldung/Hallo-vom-Kometen-Lander-Philae-meldet-sich-zurueck-2690194.html

14:30 <DocScrutinizer05> HAH!

14:32 <whitequark> I wonder if the .5W are for something like TCXO

14:36 <DocScrutinizer05> hmm, I don't think they are that pciky about their clock frequency

14:37 <DocScrutinizer05> it's rather simply continuous mode RX, not optimized by any sleep modes or similar

14:41 <DocScrutinizer05> https://totalueberwachung.de/blog/category/openmoko

14:45 <DocScrutinizer05> so you could guess like: battery capacity ~4Wh, 6-8h of standby without proper deep-sleep => 0.5W

14:46 <DocScrutinizer05> no need for a crystal heating to burn power ;-)

14:46 <eintopf> I remember my old smartphone, when I did to turn on the GPS it was extremely hot

14:47 <eintopf> and my current smartphone, when it's hot _or_ cold then touchscreen doesn't work

14:47 <DocScrutinizer05> wl1251 wlan chipset in AP scan mode (which forbids any powersaving (aka deepsleep) mode) also is known to be a terrible power hog

14:47 <eintopf> I think, I need a neo900

14:48 <DocScrutinizer05> hurry, we might have no more available for preorder at end of month ;-)

14:49 <eintopf> :O

14:49 <DocScrutinizer05> kidding aside, we might want to start N900 sourcing next month, and it's highly questionable if we could source further N900 for late customers

14:50 <DocScrutinizer05> when you only want a NeoN board to upgrade your own N900, don't worry

14:51 <eintopf> I don't have a N900

14:51 <DocScrutinizer05> then your deadline is more relaxed

14:51 <eintopf> I have a motorola milestone

14:51 <eintopf> and now one without a keyboard and I want my keyboard back

14:51 <eintopf> 480 eur is a little bit too expensive for me :/

14:52 <DocScrutinizer05> that's even only a down payment

14:52 <eintopf> then wpwrak will kill me, I should buy a frequency spectrum analyzer for that money

14:52 <DocScrutinizer05> o.O spectrum analyzer? what for?

14:53 <eintopf> 802.15.4 stuff

14:53 <DocScrutinizer05> hmmmm

14:53 <DocScrutinizer05> I doubt *I* could properly use a spectrum analyzer for such stuff

14:54 <DocScrutinizer05> also isn't that 2.4GHz?

14:54 <wpwrak> yup, 2.4 GHz

14:54 <DocScrutinizer05> I wonder where you get which spectrum analyzer for 480 bucks that can do 2.4GHz

14:55 <DocScrutinizer05> and provide useful readouts

14:55 <DocScrutinizer05> get a RTL2032 ;-)

14:55 <DocScrutinizer05> 15bucks

14:55 <eintopf> http://www.aaronia.com/products/spectrum-analyzers/HF-2025E-V3-Low-Cost-Spectrum-Analyzer/

14:55 <whitequark> can't you lower it from 2.4GHz to some IF and then use something with a few tens of MHz of bandwidth?

14:55 <eintopf> that's what wpwrak told me

14:55 <wpwrak> a wee bit more expensive: http://www.aaronia.com/products/spectrum-analyzers/HF-2025E-V3-Low-Cost-Spectrum-Analyzer/

14:55 <DocScrutinizer05> prolly just as good for the purpose you faintly mentioned

14:56 <wpwrak> heh :)

14:57 <eintopf> I google RTL2032 and got results for a stick which helps me to put my clothes on

14:58 <DocScrutinizer05> oops 2832 sorry

14:58 <DocScrutinizer05> http://hdsdr.de/RTLSDR_with_HDSDR.pdf

14:59 <DocScrutinizer05> https://www.adafruit.com/products/1497

14:59 <DocScrutinizer05> mmmph, 1850MHz

14:59 <eintopf> mhh, if this device can do 2.4 Ghz spectrum of 802.15.4 then I could put a firmware on which implements 802.15.4 standard and using it as a transceiver?

15:00 <eintopf> or is the modulation differs, or that doesn't matter?

15:00 <DocScrutinizer05> it's RX only

15:00 <eintopf> ah

15:00 <DocScrutinizer05> it provides I/Q digital data via USB

15:01 <eintopf> I thought I could make atusb2

15:01 <eintopf> with open firmware

15:01 <eintopf> and atusb protocol ;-)

15:01 <DocScrutinizer05> I *guess* you could use a cheap analog sat receiver for forntend as well

15:02 <eintopf> you want to tell me now, that when I have some LNB and an analog receiver and I set the frequency to the right. Then I can see some patterns in the "analog snow screen" ?

15:02 <eintopf> from my 802.15.4 transceiver

15:03 <eintopf> I do some transmitting then

15:04 <eintopf> so analog tv is about 950−2150 MHz

15:05 <eintopf> 950 - 2150

15:05 <DocScrutinizer05> http://sdr.osmocom.org/trac/wiki/rtl-sdr

15:05 <eintopf> and my transceivers are 2405 - 2480

15:09 <DocScrutinizer05> http://www.rtl-sdr.com/

15:09 <DocScrutinizer05> yes, I already noticed it's a 300MHz off

15:19 <DocScrutinizer05> awesome: https://www.youtube.com/watch?v=-k2ZuhAz0ac

15:52 <DocScrutinizer05> eintopf: yep, analog sat receivers have a IF of 950−2150 MHz

15:53 <eintopf> ok

15:53 <DocScrutinizer05> anyway I wonder why you need a spectrum analyzer for those 802.15.4

15:54 <eintopf> determine xtal trims, I am not an expert. But the xtal pins of the transceiver has the feature to set the pin capacity

15:55 <eintopf> they doing PLL and then I can set these capacity pins to the right value, when I see the result

15:56 <eintopf> that's I think how it works, this is what wpwrak teach me :/

15:59 <DocScrutinizer05> you need a frequency counter for this, or a very precise receiver, not a spectrum analyser

16:00 <eintopf> but when I see the spectrum I can see the piek

16:00 <eintopf> and the piek should be something like the frequency and around is some gauss curve

16:01 <DocScrutinizer05> huh? no, it should not have any gauss curve

16:01 <eintopf> a gauss curve and a piek in the frequeceny which is set

16:01 <eintopf> mhh

16:01 <eintopf> then only a piek in the middle where the frequency is set the rest is random

16:01 <DocScrutinizer05> a gauss curve or the like would be seen by modulated signals

16:02 <eintopf> it's modulated

16:02 <DocScrutinizer05> which create sideband frequencies

16:02 <eintopf> QPSK or something

16:02 <DocScrutinizer05> the xtal frequency is NOT modulated

16:02 <eintopf> yea, but I cannot touch the pins inside the transceiver

16:03 <eintopf> then I need to listen to the frequency and the real result

16:05 <DocScrutinizer05> even then you're simply not interested in that gauss curve, any arbitrary frequency counter will already pick up the "peek" for you

16:06 <DocScrutinizer05> you say you need a spectrum analyzer to show the sidebands so you can ignore them, that's a tad awkward approach

16:06 <eintopf> Then I could use maybe a atmega32 and use it as frequency counter

16:06 <DocScrutinizer05> for 2.4GHz hardly

16:07 <eintopf> it's PLL

16:07 <eintopf> there is some 16 Mhz crystal

16:07 <eintopf> can I not check this frequency?

16:07 <DocScrutinizer05> but you should be able to touch one of the two XTAL pins of the chip with a high impedance probe

16:08 <DocScrutinizer05> or even couple inductively to the RF emission of the xtal

16:08 <DocScrutinizer05> the XTAL1/2 pins are output and input basically

16:09 <DocScrutinizer05> you probably can touch the output without detuning the xtal oscillator too much, when you use e.g. a 10MOhm scope probe

16:10 <DocScrutinizer05> but honestly why do you worry that much about exact tuning? just tune your one receiver so it works fine with the peer transmitter, so both use same (possibly not totally correct) frequency

16:11 <DocScrutinizer05> you only worry about absolute correct frequency when building a 1000 or a million devices and all should be inter-operable with each other

16:11 <DocScrutinizer05> and possibly even to 2nd source devices not built by you

16:12 <DocScrutinizer05> or you worry when you need to pass approvals my FCC and the likes

16:12 <DocScrutinizer05> s/my/by/

16:12 <qi-bot> DocScrutinizer05 meant: "or you worry when you need to pass approvals by FCC and the likes"

16:15 <DocScrutinizer05> sorry when I'm assuming (e.g. existence of external xtal and XTAL1(2 pins on chip) and your situation looks different. I have no info what you actually do and what's your circuit

16:16 <DocScrutinizer05> but generally for adjusting frequency you don't use a spectrum analyzer

16:16 <DocScrutinizer05> you may, when you already have one

16:17 <DocScrutinizer05> and when the one you have is calibrated and pretty exact

16:18 <DocScrutinizer05> for your average dirt cheap spectrum analyzer (500 bucks) odds are your own DIY circuit is more precisely tuned to the target frequency than the SA's internal reference clock

16:21 <DocScrutinizer05> take a shortwafe radio, tune it to 16MHz and see if you can pick up the XTAL signal

16:24 <DocScrutinizer05> if you're lucky you may create interference with a nearby (in freq) broadcast station, and form the pitch/freq of resulting beat product tone you can know the difference in freq between your xtal signal and the broadcast station. Then you just need to find out which broadcast station this is you hear, and you easily can find their exact frequency they transmit on, which is pretty precise

16:29 <DocScrutinizer05> whatever the chip you use, when it has a xtal oscillator then it also provides a means to tune that, by either providing the 16MHz to a test pin so you could run whatever freq counter you like on it (use a 1/16E6 divider and compare the number of seconds counted in one hour against an arbitrary watch), or the chip has built in freq offset evaluation and all it needs is a correct freq external 2.4MHz signal and the chip tells you in

16:29 <DocScrutinizer05> some diagnostic register how much the internal xtal is offset from the applied external reference signal

16:32 <DocScrutinizer05> and for a last resort you can attach to the crystal mechanically/acoustically, using e.g. a piezo. This shouldn't detune your xtal oscillator frequency and will even work for (never seen yet) chips with integrated crystal

16:33 <DocScrutinizer05> while on this topic: a generally unknown/neglected issue is mechanical-acoustical coupling and interference between different crystals SMT-mounted to same PCB

16:35 <DocScrutinizer05> crystals would make for nice hidden/stealth microphones in an exploited circuit :-)

16:38 <whitequark> oh, cool idea

16:38 <whitequark> you know tantalum caps are piezoelectric, right?

16:38 <whitequark> that also works

16:38 <DocScrutinizer05> err, not known of tantalum, no

16:38 <DocScrutinizer05> X5R yes

16:39 <whitequark> er, yes, ceramic of course

16:39 <whitequark> brain fart

16:39 <DocScrutinizer05> wouldn't feel surprised to see similar effects in generic electrolytic caps though

16:40 <DocScrutinizer05> particularly when they are already a tad aged and dried, so some gas is inside between the electrodes

16:40 <DocScrutinizer05> for gas-free electrolyte I dunno if we could expect much sensitivity to pressure / mechanical interference

16:44 <DocScrutinizer05> (phase modulation of reference clock) wouldn't be any threat in a PLL design, since the PLL has LPFs that filter this out completely

16:55 <DocScrutinizer05> (never seen yet) sorry, incorrect. The legendary DALLAS chip must have had an integrated crystal iirc

16:56 <DocScrutinizer05> http://www.rotteneggs.com/site/stories/7c4efb20-9ca7-11e0-8585-cda61f05aee7/dallas_chip_battery_hack/