Speleonics #29 (2013) - National Speleological Society
Contents
1. 390 262 58 EO bes 3 er al 9G6EN2 Za Bide ae Abe yop VIN apa ry 27 17 Sushil Lip N T IW dW TiNd HSN pales d g 83113 31 2 2 33131749 AIMO TINd HSNd dwy 51 01 DOAG 12 soul pE J rki SH Update on Field Telephones and Accessories for Cave Rescue Communication By Jansen Cardy NSS 50665 July 1 2013 In Speleonics 27 2011 I detailed some communi cation devices being used by cave rescue teams and training organizations around the country My main arti cle covered the NATO TP 6N field telephone which was designed in the 1970s and remained in military service in Europe until recently These phones were first intro duced to the US cave rescue community almost 5 years ago and are continuing to be integrated with existing US made field phone equipment and wire Their size weight reliability voice clarity and cost have made the TP 6N a popular item Even with at least two hundred of these phones in the hands of cave rescuers no more than a few equip ment failures have occurred per year as far as I am aware Problems are mostly due to damaged or deterio rating handset cords a weak point with most field tele phones I have accumulated many spare parts and en courage anybody with a defective phone to contact me for repairs or advice The TP 6N supply lin2. Volume VIII 1 Editor Norm Berg July 2013 NSS 18567 SPELEONICS is published irregularly by the Communications and Electronics Section of the National Speleological Society NSS Primary topics include cave radio underground communication cave lighting and data collection Contents of SPELEONICS 29 Volume VIII 1 About Spe eonics Editor s Notes Executive Board Meetings Membership and Website Communications and Electronics Section Session Minutes June 25 2012 Communications and Electronics Section Annual Meeting Minutes June 25 2012 Communications and Electronics Section Field Day Minutes June 28 2012 Cave Link Radio Communications Test by Bob Bruninga An Inexpensive LED Upgrade for the Mini Maglite by Rick Bennett Websites and Groups of Interest Low Frequency Radio Experiments with an Experimental License from the FCC by Brian Pease Update on Field Telephones and Accessories for Cave Rescue Communication by Jansen Cardy Photos of Communications and Electronics Section Meetings and Field Trips during the NSS 2012 Convention All issues of SPELEONICS are available online at http www caves org section commelect spelonic html SPELEONICS 29 July 2013 1 About Spe eonics SPELEONICS is the official newsletter of the Communi cations and Electronics Section CES of the National Speleological Society NSS In each issue we strive to present a variety of articles relating to electronics as ap plied to
3. so you can see how impossible it would be to test the radios topside when they can all hear each other over large distances The best we could do was put dummy load antennas on them and try to simulate the test indoors but trying to de tune radios capable of 100 mile links down to 100 feet is problematic The slightest leakage can drastically extend the range and the digipeaters get bypassed with out knowing it Anyway the detail settings are beyond the scope of this paper but are summarized in detail on the project s web page http aprs org cave link html Test Results The initial test was conducted in the Cleveland Avenue area of the cave as shown in Figure 5 entering from the Elevator and Snowball Room on the right The light blue station numbers show where the digipeaters were placed During the initial test we made it as far as 10 from the elevator entrance before we ran out of radios The next morning just to complete the original 14 hop goal 3 of the radios re numbered as 13 12 and 11 were set starting at the Carmichael entrance on the left below to get to the same spot as 10 the day before The placement from 1 to 11 were driven by range limits from 1 and working west For this UHF test we began with 1 at the base of the elevator instead of the top to make sure we had enough radios Another radio 0 would be needed to link topside WE4APR SPELEONICS 29 July 2013 Page 7 Grid Reporting Notice the gri
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5. I read the Secretary and Treasurer s reports which were accepted As of 5 31 12 we have 1417 66 in the treasury after paying 120 00 for 10 years of NSS web hosting I mentioned SPELEONICS 29 July 2013 that at David s request I had advised members who had not renewed within the past 5 years that they could now do so by email and 16 did so I then purged the membership list of those who did not reply or was unable to contact We had 124 active members before this meeting 46 signed in at this meeting in cluding 15 new members After this meeting there are 140 active members including 56 Hams Communications Chair Aaron Birenboim gave a report on our website He has converted our site to Drupal but will try to update it to a newer development program The NSS is changing their website and we will coordinate with them to be one of the first to convert ours Norm Berg gave his report on the status of Speleonics and gave an appeal for articles His Speleonics 28 published online just before convention is outstanding There was no Old Business There was some new business David asked about the usefulness of a Facebook page or Twitter One concern was that members who are not signed up for Facebook would not have access Apparently it 1s possible to set security low enough that a non Facebook user can read but not post There would be security and virus issues In a show of hands only about half of the members present have
6. The ITU recently authorized ham use of 472 479kHz world wide subject to local approval so the XSH operations have moved there A number of hams have independently obtained Experi mental Licenses to operate in this proposed ham band and also in the possible 2200 meter ham band on 135 7 137 8kHz which is of great potential interest to cave radio nerds SPELEONICS 29 July 2013 Page 13 How I Obtained My Ex perimental License Title 47 Telecommunication PART S EXPERIMENTAL RADIO SERVICE Subpart 4 General I decided that I was probably qualified enough to obtain my own license so I visited the Electronic Code of Federal Regulations at http www ecfr gov to read about the experimental radio ser vice which is Part 5 of Title 47 The Scope of Service Figure 2 pretty much covers anything one might wish to do Another nice find was that one could change equip ment antennas and emission types within the scope of the 85 3 Scope of service Stations operating in the Experimental Radio Service will be permitted to conduct the following type of operations a Experimentations in scientific or technical radio research b Experimentations in the broadcast services c Experimentations under contractual agreement with the United States Government or for export purposes d Communications essential to a research project Technical demonstrations of equipment or techniques f Field strength surveys g D
7. caving and the study of caves Submissions to SPELEONICS can be contributed by both CES members and non members NSS membership is not required to be a contributor We welcome original or reprinted articles photographs and letters to the editor Submissions in digital format should be sent to the editor The CES cannot publish copyrighted material without written permission of the copyright holder Contributors are responsible for determining whether material is copyrighted as well as for securing appropriate permis sion Articles do not necessarily reflect the official position of the CES NSS newsletter editor or the CES officers or members Unless independently copyrighted material pub lished in SPELEONICS may be reprinted in any NSS affiliated publication provided appropriate credit is given and either a hard copy or digital file made available to the author Editor s Notes Welcome to issue 29 of Spe eonics which is my second issue as editor like to thank those that have taken the time and effort to write up their projects so that we may all share in those efforts and benefit from them Thanks go to our proofreaders Danny Brass and Jansen Cardy As a reader of Spe eonics you may be working on cave related electronics projects that would benefit the caving community as a whole Please take the time to write up your project and have it published so that the caving community can share in your finding
8. difficult to design because the ampli fier wants to see a load of 25 Ohms while presenting The LP filter is 25 Ohms IN 50 Ohms OUT Rolloff 1dB at 600kHz Qs 200 T 106 2 cores 0 0 o 2 568 C2L6 C3 R1 Su Output 1 146 041543 0138 081 06pf 02 06pf 7 100k 1N914 IPA105N15N3 PULSE 0 10 1 05263E 6 1E 8 1E 8 1 05263E 6 2 10526E 6 V2 PULSE 0 10 0 1E 8 1E 8 1 05263E 6 2 10526E 6 The keyer turns the full Amp current on and off while rounding on off edges by 1 2 ms It will work over the full 0 14V Amp supply range to allow output power from lt 1W to gt 100W MOSFETs are correct Infineon 150V parts SPELEONICS 29 July 2013 Page 18 an output impedance close to zero Ohms I ended up with a Chebychev design using the free ELSIE filter de sign program Keying the drive signal will cause serious key clicks and could damage the MOSFETs so I ended up keying the full amplifier current which can be made to turn on and off slowly to avoid the clicks This was another difficult design Figure 12 is a photo of the 100 Watt amplifier The actual schematic is shown in Figure 14 at end of arti cle I had sine wave drive available so I converted it to a square wave with an exact 50 duty cycle Other duty cycles will cause high MOSFET currents reduced efficiency and high second harmonic output The MOSFET driver IC improves the rise times fur ther and provides up to 4 Amps peak cu
9. e A De db A o EO Students at the 2013 NCRC regional Texas test equipment before going underground from left Pocket Field Telephone TA 312 PT Field Telephone and TP 6N Field Telephone Photo by Rhonda Gail Wright nails style test clips to pierce wire insulation A small ringer generator can alert multiple TP 6N phones and also indicate to the user if the line is connected to an other phone or is an open or short circuit The Pocket Field Telephone is powered by a 9 Volt lithium cell with a Shelf life of 10 years It has an expected operational life of several years with proper storage and occasional use without excessive ringer operation The time and effort to build these and the high cost of parts make it a sig nificant investment Another device I wrote about in Spe eonics 27 was the modified phone patch compatible with many modern handheld radios I have now developed a new version to interface with smartphones Assuming you have cellular coverage outside the cave or further up the hill this allows you to call a hospital specialist and patch him di rectly through the field telephone system to the medic deep inside the cave Another option is connecting your injured patient with family anywhere in the world Com munication through the smartphone patch is normal full duplex and the improved clarity of our newer TP 6N phones is a definite advantage here You could also use certain apps on your s
10. jo ters feedline choke and transformer to be able to monitor the antenna for tuning variations throughout the year So far little change has been noticed from very dry to very wet soil conditions It appears to be a good receiving antenna so far picking up little man made noise My next step was to design and build a 100 Watt Class E power amplifier I chose a push pull design simi lar to an audio frequency amplifier built for another pro ject Push pull amplifiers cancel out even harmonics 475kHz 100W push pull Class E amplifier The 2 xfmrs each use two T 106 2 iron cores with heavy trifilar windings Class E operation is near perfect in simulation Q of inductors is 200 resistance not visibl amp 1 L1 L3 93 tran 0 15 0 V3 Keyer test circuit Connect to V3 negative R7 QIR 14V 243906 C7 gt Logic level gate 2V threshold AL 22k 0 V4 PULSE 5V OV 10us 1E 8 1E 8 8ms 5V IPA105N15N3 WY Fig 9 especially the 2 harmonic which would appear near 950kHz in the AM broadcast band I added a low pass filter to the 475kHz design and matched the output to 50 Ohms for direct connection to my feedline A sche matic of the final LT Spice simulation is shown in Figure 10 along with some waveforms in Figure 11 MOSFETS from the LT Spice collection can be substituted for the Infineon model The 0 93 coupling coefficient of the transformers is the actual measured value The 50 Ohm low pass filter was
11. maximum Effective Radiated Power ERP which uses a dipole pattern as a reference First I used Google Earth to locate points roughly 1 km away in dif ferent directions where I could park next to a road while making each measurement I noted angle and distance from the antenna in each case I used my Battery oper ated Rycom 3121B Selective Level Meter with a Fairchild calibrated shielded loop antenna to measure the electric field strength Figure 13 A transformer matched the 50 Ohm loop to the 5000 Ohm input of the Rycom pro viding a big boost in sensitivity I operated the transmit ter at 100 Watts At d 5244 meters range directly off end of the dipole I measured a vertical field strength of Ez 1 45 mV mtr ERP Ez d squared 49 2 Watts 1 17 Watts ERP very close to my 1 Watt License limit and far more accurate than most hams who only estimate it DRAIN TO DRAIN VOLTAGE SPELEONICS 29 July 2013 Page 19 The low Dipole is not an efficient radiator 1Watt ERP for 100 Watts in keeping the earthworms warm and happy but it is broadband cheap and does not require a tower or a tuner It works best over poorly con ducting ground The traditional verti cal antenna works best over good conducting ground Verticals require an extensive ground radial system a large inductive tuner plus a capaci tive top hat to have better efficiency and are extremely narrow band re quiring frequent re tuning In one daytime
12. of its kind Its aims are to encourage the development and use of radio communication and other electronic and computer equipment in caving and related activities CREG s main role is one of infor mation gathering and dissemination CREG The NSS Online Forum Cavechat www cavechat org Technical discussions relating to communi cations and electronics can be found in several forum sections including the equipment forum cave rescue forum sur vey and cartography forum and photogre phy and videography forum CaveSim crawl through electronic cave simulator www cavesim com CaveSim 15 electronic caving experience for begin ning and experienced cavers of all ages In Cave Data Logger Project www caves org grotto ccg datalogger index htm A project of the Central Connecticut Grotto to develop a data logger to log caver traffic and environmental condi tions in caves SPELEONICS 29 July 2013 Page 12 Low Frequency Radio Experiments with an Experimental License from the FCC Brian L Pease Experimental License WG2XPJ Amateur Extra W1IR NSS Fellow 7476 Electronics Engineer 45 years Owner of Thru the Earth Radiolocation 431 Westford Road Milton VT 05468 bpease2 myfairpoint net ABSTRACT This year I obtained an Experimental Radio License to allow me to legally conduct experiments on two low frequency bands with relatively high power Amateur radio operators in the US may eventually be abl
13. operators as the nearly 10 year old mobile radios To get enough radios for the test we ended up using 8 of the mobile radios carried in metal boxes and only 2 of the walkie talkies shown here inside protective PVC pipes Figure 3 JOCI TOH se Ink We ink z 1 6 DIGI A topside backbone can be linked using vertical links through tew hundred feet of rock spaced every mile Background Although typical 400 feet or so UHF radio range has not been impressive to cavers in the past this new capability to automatically link up to 14 such hops into a continuous network for text and position reporting could be useful in many cave projects as suggested in Figure 2 The purpose was to test the viability of using APRS VHF UHF walkie talkies for distance communications in cave passages by taking advantage of the radio s internal hop by hop linking capability for digital text messaging Links up to 7 or 14 hops long are possible which can extend the usual very limited 100 to 500 radio range by an order of magnitude or over a mile depending on a Digipeaters We use this term to refer to the digital repeating function of these radios Both the Kenwood TH 072 walkie talkies and the boxed 0700 0710 radios as SPELEONICS 29 July 2013 Page 5 shown here are capable of digipeating See http aprs org cave link html Internet Link This ham radio data networking capa bility can be automatically linked i
14. real LAT LONG unless you want the topside view ers to see the actual underground positions relative to the usual Google maps Paths The way these digipeaters work is that they will relay any packet that they have not heard before and when they do relay it they will mark it as having been used so that they do not duplicate that packet again In SPELEONICS 29 July 2013 Page 6 the past to go 14 hops it would take 14 unique ad dresses which would make the packet very long What APRS does in this case is use the generic address of HOP and then includes a hop counter The address begins as HOP7 7 but after each digipeat the final 7 called the SSID is decremented This way the packet can go 7 hops before that packet is used up down to 7 0 The initial 7 is included so that the recipient can tell how many hops the packet started with before it reached 0 To get beyond 7 hops we need to add another HOP7 7 field and actually transmit each packet with a dual ad dress of HOP7 7 HOP7 7 Adding this second field allows us to double the number of hops to 14 hops but adds additional bytes of overhead to every packet which re duces instantaneous link probabilities by about 10 After the first one is decremented 7 times to HOP7 0 HOP7 7 the used up portion of the address is marked with a and then the remaining path now with an addi tional 7 hops is used This could be extended to a third address field to get 21 hops but t
15. the first Mini Maglite I bought I looked up the history of the Maglites on www madglite com to help jog my memory the AA Mini Maglite came out in 1984 and that is about the same time I can remember buying one At the time it was the first really small and bright flashlight for camping backpacking caving etc We also found out they were nearly indestructible And almost 30 years later they still make them No I don t still have my first Mini Maglite but I do have one that is well over 20 years old and has been on many caving trips It even still has a lanyard on it with a car bide lamp tip cleaner on it Trying LEDs When useable white LEDs first showed up on the scene about 10 years ago or so I started trying different LED replacements in one of my Mini Maglites as a test bed The standard 5mm LEDs are fairly easy to retrofit into an AA Mini Maglite Unfortunately the early white LEDs were not very bright The battery life was almost forever with the LED but you paid the price in light output Every so often I would upgrade the LED to something newer and brighter but until recently they did not make a very bright flashlight Recently I came across some Cree 5mm white LEDs that were quoted to be 35 000 millicandelas at Mouser Elec tronics Cree has become a large manufacturer of LEDs for the lighting industry and has some extremely high output LEDs but most of them come in surface mount Anyway these 5mm LED
16. ut JAAP UGE 13350 twas we St ded ins 922 01 pagepnsui ut 26 51395500 ENCINGAIMY 18 E 139450 FFO SIND 8 9 1 SUT syndur Butpunouy JATA ISON g v3 CGIST da St i2 93399 461 3015 NEN 47801 6 aTdiul aldHRe ST IN SPELEONICS 29 July 2013 21 Avahlad 133900 YIgNOS Phra ror COGS ATES 834150 HILY AS uez AGT UJU AVES pae ney 179 anem suts Ine a ZHASZ Ic Cont roms Perr 350 AGT 330 NO antag JaAG S 49 85913 5 ABBE ABBE aeaz nos ngel nte PTEN 24 HOOT 3 7P90 s ngai swuo 0 e 2 5 7 S qno ny o ae oft ag T j 18 P 2 a g H y MO w 7 A 3 55 0 9 0 IH dadeusswahay M3 a AGAT ns a AZZ a H SbT T 1 2 SSE Hosp 1 7 2
17. 5 WPM Morse Bran Pease 431 Vestford Rd Milton VT 05468 United States of America code would be FEDERAL COMMUNICATIONS COMMISSION 62H5A1A with 62 5Hz EXPERIMENTAL being the bandwidth for RADIO STATION CONSTRUCTION PERMIT hard keying The A odr Ke EXPERIMENTAL WG2XPJ mates Is it OK to Call Sign XT FX Class of Station 0118 EX PL 2013 File Number send slower CW without a new designator probably OK For slow CW QRSS 3 3 second dots is 1H67A1B where B represents ma chine reception but the receiving ham is really NAME Brian Pease Subject to the provisions of the Communications Act of 1934 subsequent acts and treaties and all regulations heretofore or hereafter made by this Commission and further subject to the conditions and requirements set forth in this license the licensee hereof is hereby authorized to use and operate the radio transmitting facilities hereinafter described for radio communications in accordance with the program of experimentation described by the licensee in its application for license In accordance with Sec 5 3 d of the Commission s Rules O ion looking at dots and _ dashes on a waterfall display to read the code Is this human or machine There is ad vice on the internet and I did my best Station Locations 1 Frequency Information Station Class FX Frequency Any exhibits can be 135 7 137 8 kHz attached to the form such as photos of the ant
18. Any change in the location of an antenna when such relocation involves a change in the geographic coordinates of latitude or longitude by one second or more or when such relocation involves a change in street address long it will take and how it will benefit the world Figure 4 is my attachment Next it asked for a description of my transmitting equipment some of which is homebuilt Next I had to add antenna details such as geographic location height for aircraft possible mobile operation etc Then I had to give frequencies of operation transmit power Effec tive Radiated Power ERP frequency tolerance etc for each band requested I used the NEC4 antenna pro gram to estimate the radiated ground wave Electric field at a distance off the end the dipole using my ground parameters ERP can be derived from this value Now came a really fun part entering the emission designators for each form of modulation that I wished to use In some cases there is more than one answer For Morse code bandwidth depends largely on whether the SPELEONICS 29 July 2013 Page 14 Fig 4 Low Profile LF and MF antennas Proposed Research and Experimentation Brian Pease WIIR Amateur Extra 2 27 13 Most radio amateurs assume that verticals are the only practical antennas for long distance communication at low frequen cies Simulations of antenna performance in the proposed 135 7 137 8kHz and 472 479kHz Amateur Radio Bands show that resonant
19. Facebook accounts and interest was lukewarm Only 2 members used Twitter Communications and Electronics Section Field Day Minutes for 2012 Brian Pease Sec Treas On Thursday afternoon 6 28 12 8 members gathered at Higgenbothams 1 Cave north of Lewisburg for an electronics field day Dave Cowan suggested this cave The cave has a walk in entrance and a large long shallow passage under a wooded hillside which made it ideal for testing both my short range Basic radiolocators and David Larson s simple home made cave rescue telephones Dave Cowan set up a Basic 2 beacon at the upstream register about 200 feet 60 meters in side Carroll Bassett and Aaron Birenboim were trained with Basic 1 receivers Power line noise and an electric fence could The subject of starting a Speleonics forum on Cave Chat was brought up I commented that if we did this we should shut down the existing Altadena Speleonics site so that we would only have one at a time David said that I should send out the NSS I O info on Speleonics whenever it comes out because most NSS mem bers never see it The question came up as to whether the NSS could host our Treasury resulting in an endowment for Website dues our only expense Dave Cowan described Higgenbothams 1 Cave where we will be having our Field Day The part we will be using has a walk in entrance with walking passage and water in spots no more than ankle deep and that there was off road parking j
20. Impedance Ana lyzer from Array Solutions It can measure impedance SWR etc at the end of any length of transmission line from 5kHz to 1GHz I use it with a netbook computer for control and display Paul Jorgenson has demonstrated a version of this analyzer at previous C amp E Sessions It is capable of professional accuracy initially used it di SPELEONICS 29 July 2013 Page 16 The resistance of 131 Ohms required a step down trans former Although not a perfect match I chose a 2 25 1 impedance ratio transmission line transformer for effi an ciency and the ability to handle the 100W power I Dipole We a added a common mode choke mainly to keep RF noise Sates from the house away from the antenna while receiving I calibrated the analyzer through my 250 foot 76 me Dipole rectly at the dipole feed point to resonate and measure the resonant resistance and bandwidth An AIM plot of the feedpoint impedance measured from the shack is shown in Figure 9 As expected the length turned out to be much shorter than the 315 meters predicted for free space Side View of Dipale 25 ft 76m of RG 8 ta shack vertical E Field radiatian from each end t Comman Mode chake 2386 Ohm isolation at ra s Forme Earth s Surface Earth s Surface Measured bulk electrical canmduckivity 7 G02 Siemerns meter at 4 5kH7 which is average ground Relative permittivity is as
21. antenna would not generally be carried while walking and only used at the fixed vertical link locations Handheld VHF and UHF Gain Antenna Power The Walkie talkies operate at 5 Watts and the mobile radios can operate at up to 50 Watts We oper ated them at the 10 Watt level to save batteries Gener ally we think that higher power and higher gain anten nas do not gain the same amount of benefit as they usu ally do topside This is because the path length is limited more by cave geometry than signal strength Normally radio range is doubled by a 4 times increase in power But in the cave the biggest loss of signal is not due to range but to twists and turns in the passages and ab sorption along the walls We think the added bulk of higher power radios and gain antennas for only a bit more range is not worth the bulk compared to the simple 5 Watt walkie talkie Though this is an excellent area for additional testing HF Hardware The HF hardware was going to be a pair of FT 817 radios with attached KPC3 packet wherever a vertical link might be useful These would use dipole antennas made with 12 wave length wire from 8 to 65 long A microphone could be used for coordina tion but the attached data modems provide the data link The TNC s are set up to beacon and to be digipeated by each other so that we could know when _ i ae Pair of 817 and KPC3 they are decoding eac
22. cation Possible modes are CW PSK31 and the narrow band weak signal FM digital modes created by KIJT especially WSPR and his new JT9 1 mode designed especially for LF MF communication I have the following equipment on hand now e Materials to erect the antennas A homebuilt 25 Watt Class E amplifier for 472 479 kHz A Hafler P3000 300 Watt linear audio amplifier suitable for 135 7 137 8kHz An HP3586C Selective Level Meter as a receiver with an RF output suitable to drive the amplifiers for the field strength test ing A homebuild active loop antenna to receive these bands to select clear channels A Trimble GPS frequency standard to lock the 3586C frequency to a fraction of a Hz accuracy A Fairchild calibrated loop antenna for the field strength measurements A battery operated Rycom 3121B Selective Level Meter with preamp for field strength Equipment to assemble an RF impedance bridge for tuning measuring the antennas An Advantest R3361A Spectrum Analyzer for measuring harmonic output of the amplifiers etc An 703 as a low level SSB signal source for the digital modes A laptop computer with software to send and receive the digital modes I will need to fabricate 100 Watt amplifier for 472 479 kHz with adjustable power level and forward reverse RF power meter that covers both bands I will need to assemble and calibrate the RF impedance bridge SPELEONICS 29 July 2013 Page 15 keying is hard or soft 1
23. d Figure 5 to the near est hundredth of a minute of Lat Long overlayed on this map allows posi UHF Fig 6 tion resolu tion to the nearest 60 0 100 200 300 400 500 600 700 800 feet or so For example VHF the location 0 of digipeater 100 200 300 400 500 600 700 800 number 7 is about 37 10 18N 86 05 17W But for the purpose of reporting over the scale of this map only the last two digits are actually needed 18N 17W Path Length The longest link on UHF was almost 700 long The two histograms shown in Figure 6 count the approximate number of path lengths for each distance we were getting on VHF and UHF These ham radios can do either The initial test was conducted on VHF but was complicated with lots of mistakes and learning so the data is suspect But once we had the bugs worked out the test was quickly done with UHF and it appeared that UHF was slightly better with greater numbers of longer lengths VHF UHF Antennas radios used simple wire whip antennas For the walkie talkies it was just the standard rubber duck antenna that comes with the radio For the boxed digipeaters it was either a 6 or 20 piece of wire for or VHF For trouble some links in some places a handheld beam antenna as shown in Figure 7 may be used where appropriate and worth the extra setup These beam antennas are designed to mount on any standard camera tripod Such an
24. dio what got me interested in low frequency Above the Earth Radio was a notice from my local ham club describing a scheduled CW transmis sion from SAQ in Grimeton Sweden on 17 2kHz on 12 24 12 The station was originally commissioned in 1924 and uses the only remaining operational Alex anderson rotary alternator Figure 1 to transmit up to 200 kilowatts CW into the original giant VLF antenna array No tubes or transistors in this baby I quickly put together a tuned loop antenna and receiver and caught them tuning up at 2 30 AM EST in perfect quiet winter conditions They registered 5 6dB above the noise on my old Rycom Selective Level Meter and gave near per fect CW copy with a note as clean as any modern trans mitter See http www alexander n se for details of this amazing World Heritage Station This prompted me to design and build a broadband active low frequency receiving loop antenna and an ac tive vertical dipole both of which function but are still works in progress A number of years ago a local ham Fritz Raab W1FR helped organize the ARRL 500kHz Experimental Group They obtained a FCC Experimental License to ABET operate aS group the 495 510kHz 630 me ter longer used Maritime inter ests Their call Signs are WD2XSH xx with xx being the number assigned to a specific sta tion They have been conducting Organized beacon operations and 2 way contacts
25. e is now be ginning to slow down but fortunately many organiza tions had the foresight to stock up with extra phones Despite the rugged handsome appeal of the TP 6N I ve also been working on a sleeker pocket sized com munication option Last year I sent my first batch of these Pocket Field Telephones out for field testing and the results have been positive I designed them to sup plement the existing field telephone system not com pletely replace it though they could if you really needed to This pocket phone is best suited for an Underground Branch Director Evac Task Force leader Comms Task Force leader for backup and troubleshooting wire faults and other key rescue management personnel who move around a lot underground My Pocket Field Telephone design is housed in a small OtterBox case with water resistant switches for push to talk and push to ring It has a tiny amplified microphone with a waterproof membrane a piezo trans ducer earphone an LED call light and a cord with bed of Clockwise from bottom left Pocket Field Telephone Smartphone Patch and Speaker Interface SPELEONICS 29 July 2013 22 we a Se E se t 7 28 5 z a 7 oe Dr 5 gt i Ph Eaa wee Tr wa Sp fe 4 t i E 9 re A om ee amp 7 is gt 4 N l oe 8
26. e to op erate on the 630 meter 472 479kHz and 2200 meter 135 7 137 8kHz bands which have both been ap proved by the International Telecommunication Union A number of Amateurs in the US have been legally ex perimenting on these bands for several years These bands are of interest to cavers for through the earth communications The licensing process involved submitting an appli cation to the FCC including my qualifications the reasons for needing the license frequencies emission types power levels locations and antennas along with docu ments describing the proposed experiments and a fee of 60 00 US Everything was done online I proposed to test low profile long wire antennas earth current anten nas to cave radio folks and compare them to traditional verticals My license WG2XPJ arrived in May 2013 I have erected a full size 265 meters dipole 2 me ters above the ground and constructed a 100 Watt Class E amplifier gt 95 efficient for the 630 meter band I have measured the maximum 1 Watt Effective Radiated Power ERP permitted by my license To date I havea strong daytime signal at 65 miles 105 km and over 400 miles 644 km at night both with ordinary CW transmissions I plan to test on the 2200 meter band running about 300 Watts for 1 Watt ERP and would like to do some Through the Earth tests if possible using shorter portable antennas Why Get an Experimental License Apart from cave ra
27. each step all of which can be done online First one fills out form 442 for a new Li cense The first hurdle is that you must enter your FCC FRN number which hams already have but others will have to obtain The form is straight forward until it asks for an attachment describing exactly what you propose to do how a The licensee of a conventional or broadcast experimental radio station may make any changes in equipment that are deemed desirable or necessary provided 1 That the operating frequency is not permitted to deviate more than the allowed tolerance 2 That the emissions are not permitted outside the authorized band 3 That the ERP EIRP and antenna complies with the license and the regulations governing the same and b For conventional experimental radio stations the changes permitted in paragraph a of this section may be made without prior authorization from the Commission provided that the license supplements its application file with a description of such change If the licensee wants these emission changes to become a permanent part of the license an application for modification must be filed c Prior authorization from the Commission is required before the following antenna changes may be made at a station at a fixed location 1 Any change that will either increase the height of a structure supporting the radiating portion of the antenna or decrease the height of a lighted antenna structure 2
28. emonstration of equipment to prospective purchasers by persons engaged in the business of selling radio equipment h Testing of equipment in connection with production or regulatory approval of such equipment orig inal license by sim ply 1 Testing of medical devices that use RF wireless technology communications functions for diagnosis treatment a or patient monitoring adding them to the original online a ppl ication yours elf j Development of radio technique equipment operational data or engineering data including field or factory testing or calibration of equipment related to an existing or proposed radio service Figure 3 If you feel that you need some help Warren k2ors verizon net has ap plied for half a dozen experi mental licenses for himself and others with 100 suc cess He said that he is will ing to help Product development and market trials 1 Types of experiments that are not specifically covered under paragraphs a through of this section will be considered upon demonstration of need for such additional types of experiments Title 47 Telecommunication PART 5 RADIO SERVICE Subpart BR Applications and Licenses Fig 3 5 77 Change in equipment and emission characteristics Next I visited FCC s Ex perimental Licensing System at https apps fcc gov els to see what was required The homepage has a link to a PDF User Manual which describes
29. end the leads inward so they are about 1 16 inch apart but still parallel The LED has a flat spot on the negative or cathode side Plug the LED into the socket with the correct polarity If good batteries are in the Maglite the LED should light It may take a little rocking back and forth to get the LED to seat all the way into the socket Before assembling the light you will need to enlarge the hole in the Maglite reflector I recommend taking the head apart and taking the reflector out Be careful not to scratch the reflective surface With a 3 16 drill bit care fully enlarge the hole on the reflector Clean the burrs from the hole using a small hobby knife The last step is to reassemble the head and reinstall it on the flashlight Some Testing I don t have any fancy test equipment for lighting But I wanted to verify my visual observations that the modi fied LED Maglite looks brighter So I put together a sim ple light meter using a photocell and a multi meter I used a Maglite with fresh alkaline batteries and switched between the LED and a Maglite bulb I tested the bright ness at the widest flood setting on the flashlight and the narrowest spot setting There is one thing that needs to be pointed out the re flector in the Maglite was designed for the Maglite bulbs but not for an LED So the pattern of the lighting from the LED is different than the pattern from the incandes cent bulb For t
30. ennas details of the experiments etc After review the application was sent at the press of a button Amendments can be added later 472 479 kHz Now one proceeds to form 159 to pay the 60 00 filing fee credit cards accepted typical wait is 3 weeks but mine got lost on someone s desk After 9 weeks I finally emailed the Experimental Li cense Branch directly This seemed to get things moving as my license Figure 5 was granted 1 week later with the callsign WG2XP4J This authonzation effective will expire 3 00 A M EST Setting Up a Station on 630 meters My first step was to install a full size dipole antenna in the trees along the property line of our 10 acre house lot I mounted electric fence insulators 2 meters up then cleared branches between them I then pulled alu minum electric fence wire through the insulators from a Y mile reel 402 meters purchased at Tractor Supply May 14 2013 and May 01 2015 Milton CHITTENDEN VT NL 44 38 31 WL 73 03 44 Milton CHITTENDEN VT NL 44 38 31 WL 73 03 44 Authorized Power 1 W ERP Emission Designator Frequency Tolerance 0 6H00J7B 16H0J7B 63H0A 1A 60H0J2B 1 W ERP 6H00J7B 16H0J7B 63H0A 1A 60H0J2B FEDERAL COMMUNICATIONS COMMISSION Page 1of1 Figures 6 amp 7 Details of the final tuned dipole are shown in Figure 8 To save hours of time tuning and matching the an tennas I purchased an AIM UHF Vector
31. etary Treasurer a request to be a member and providing your contact information The Communications and Electronics Section website is http www caves org section commelect drupal Online Cave Electronics Discussion Group To join the cave electronics discussion group and mailing list go to http lists altadena net 80 mailman listinfo speleonics Being a member of the CES does NOT auto matically add you to this discussion group You must register separately SPELEONICS 29 July 2013 Page 2 Communications and Electronics Section Session Minutes 2012 Brian Pease Sec Treas 6 25 12 The C amp E Session took place in the Choir Room of the High School at 2 PM on 6 25 12 following the Session Meet ing I gave a talk describing the very simple retro direct audio radiolocators that I have designed The Basic 1 uses single 8 pin dual op amp IC and will run for days on a single 9 Volt battery It uses an 18 diameter loop with 1 lb of wire The Basic 2 adds a second dual op amp IC to boost transmitter output and an 18 loop with 2 lbs of wire to boost output further and improve receiver selectivity Both are available as kits See http radiolocation tripod com for details David Larson gave a talk on the depth sensor that was designed and assembled in record time by the Rice brothers and was installed in Chapat Cave in western Belize earlier this year They provided an unprotected circuit board with LED status indicat
32. h other without actually having to have laptops at each location If these were to actually be used to extend the APRS network each HF radio would also need a UHF walkie talkie Emplacement Procedures To keep the test simple and with minimum impact no test equipment was in cluded in the test The length of each link was simply established to achieve at least 95 reliability 19 out of 20 packets successfully received This is accomplished by setting the base camp beacon rate at one packet every 12 seconds and then just walking away until the packets were not decoded Then backing up to where the signal was strong enough to copy all packets reliably If we get 19 out of 20 or 95 reliability on each link then this multiplies to an overall 70 reliability end to end figure per packet over a 7 hop length This would drop to about 50 over a full 14 hop length This link reliability is accounted for by transmitting pack ets redundantly For example messages are transmitted once a minute for 5 minutes This redundancy improves the probability of reception to nearly 99 8 Similarly position reports can be transmitted a few times to im prove the overall reliability The maps carried by all radio personnel have a lat long grid so that operators can manually enter their coordinates and properly appear on any PC maps viewing the test on the internet Each digipeater also reports its own position as manually en tered by the operator so tha
33. he decreasing prob abilities of success suggest a point of diminishing re turns To make sure the packet can go an additional 2 hops to an internet station once it gets topside we add an addi tional WIDE2 2 path on the end The global topside net work responds to WIDEn N where usually a value of N no larger than 2 is used to limit loading on the global network to only the 2 nearest digipeaters In summary the resulting path used for this test was HOP7 7 HOP7 7 WIDE2 2 13 on rock wall outside door 12 was on trail mound before trend downward 11 was defined by the end of the 11 digi string from the day before So the 140 distance between 12 and 11 is not an RF limit Range is not necessarily line of sight Compare 450 from 4 to 5 which includes a sharp 90 bend in the middle to the 540 generally straight between 9 amp 10 Also radios 1 to 5 used 10W but 9810 were 5VW Digipeater Settings These digital radios have literally dozens of setup parameters for proper configuration for this test and it was this complexity that caused us to lose several initial hours during the test due to one improper setting in one radio And it is nearly impossible to test these radios topside because they would all be able to hear each other and would shortcut from the start to the end in one hop We have used the radios topside with 14 hops to actually cover the 2000 mile distance from Geor gia to Maine along the Appalachian Trail
34. he wide flood setting on the flashlight with an LED the brightest area of the pattern is in the middle but for the incandescent bulb the middle is dark with a bright ring around the center dark spot I had to measure the light levels somewhat differently with each pattern SPELEONICS 29 July 2013 Page 11 So here is the summary of the testing For the wide flood setting the bright area in the center of the LED pattern indeed measures significantly brighter than the bright area of the incandescent pattern Pattern of LED However with the flashlight set to the narrowest spot setting the incandescent bulb creates a brighter center spot than the LED The other test I ran was a simple current test With a fresh set of batteries the Maglite incandescent bulb L Pattern of Bulb draws about 330 milliamperes where the LED draws only about 50 milliamperes So the incandescent bulb will last about 6 hours where the LED will last about 40 hours In summary for 22 plus shipping you can convert a standard AA Mini Maglite to a very useable LED flashlight with very long battery life However if you want to use your Mini Maglite as a bright spot light you may want to leave it with the stock incandescent bulb Websites and Groups of Interest Cave Radio amp Electronics Group bcra org uk creg index html The UK based Cave Radio amp Electronics Group CREG is probably the world s lead ing organisation
35. horizontal dipole antennas located very close to the ground but with no ground system at all have significant vertical E field radiation and can potentially perform nearly as well as a 15 meter 50 ft top loaded vertical with a ground system This is especially true in locations with poor ground conductivity where vertical antennas tend to perform poorly The dipoles are direc tional with maximum vertical radiation off the ends In one simulation a resonant dipole at 475kHz positioned 2 meters 6 5 ft above the ground with ground conductivity of 002 S m created a vertical Electric field off its ends only about 3dB less than the 15 meter vertical mentioned above Even a dipole 2 inches above the ground radiates significant energy in simulation The Di poles are also broadband The 475kHz dipole 2 meters off the ground has 30kHz bandwidth at the 2 1 SWR points far wider than the proposed band Resonant dipoles close to the ground are much shorter than in free space 220 meters 715 ft for the dipole 2 above ground vs 315 meters 1033 ft in free space They can be shortened further by adding capacitive loading to the ends loading coils or with a matching network at the center For very short antennas the ends can be grounded but this can add considerable loss especially where ground conductivity 1s poor I think that if these LF and MF bands become reality these simple low profile antennas could allow many hams who have some space to exper
36. ilitary field phones Carroll Bassett showed a 12 Volt 6 Watt 300 lumen LED array from Lowes It is not polarity sensitive and can be used as 1 or built into a housing At this point we moved next door to the Survey and Car tography Session where I set up a demonstration of the Dis toX I ran the PocketTopo survey software a netbook con nected to the room s projector The DistoX sent distance azi muth and inclination data to the netbook via BlueTooth The software displayed the survey line and splay shots as I took shots around the room The DistoX 1 based on a now obso lete Disto A3 with an additional internal board designed by Beet Heeb in Switzerland that contains a 3 axis magnetometer a 3 axis accelerometer to sense vertical Bluetooth link a microprocessor and memory The DistoX 1s a great tool by itself but when used with a Windows PDA in the cave data 15 collected without error and displayed in real time Sketching can be done right on the screen directly over the survey shots in multiple colors the DistoX especially because no C amp E members were able to attend them Alex Sproul is redesigning the NSS website Aaron will talk to him about shifting our NSS website to the new site Dave Cowan said that Higgenbothams Cave 1 would be a good site for a field trip and that one could do a through trip by doing a squeeze then climbing a pole to exit Executive Chair David Larson started the annual meet ing
37. iment with LF or that otherwise would not attempt it because of the hassles and expense of a tower ground radial system top hat and tuner These antennas can be run along the top of a fence or attached to trees while standing on the ground Cheap Aluminum electric fence wire and insulators can be used I have the space to conduct some experiments I propose to attempt the following e Simulate several more antenna configurations heights and ground conductivities for each band using the NEC4 method of moments program e Measure the actual conductivity of the ground where the antennas will be erected to better estimate expected performance e Erect a limited number of antennas one at a time in the same location tune them and measure and record lengths band widths etc All antennas will be in the woods well below the existing tree canopy e Transmit a carrier of known power from each antenna and measure the vertical field strength off the ends and sides in the far field several km away using a shielded Fairchild calibrated loop antenna and a Rycom portable Selective Voltmeter with a preamp Based on the simulations the initial transmit power will be adjusted for an expected EIRP of 1 Watt or less e Compare measured to simulated performance and select the best designs e If possible use existing signal grabbers linked to the internet direct contact with other experimental stations to demon strate long distance communi
38. in cave Again we ran out of time and did not con duct this test This team would have needed personal lighting and more conventional caving gear Vertical Conductor Test This test was planned to test the viability of RF conduction in the vicinity of the abandoned well pipe in Cleveland Avenue to see if such a metallic conductor could enhance VHF radio vertical penetration Again this test was also not conducted due to lack of time Operations Data transfer consists of position reports and text messages Text messages can be up to 64 char acters long in the protocol but are restricted to 45 so as not to overflow the display width of some older walkie talkies D7 s which have a limited display screen Posi tion data is broadcast to all and messages can be sent as bulletins to all in the network Additionally individual messages can be sent point to point to only the intended recipient if needed Generally the real value of messag ing in this network is the ability to communicate with bulletins so that everyone in the cave gets a copy and can see what is going on The radios automatically trans mit their GPS positions when above ground but for this application the operator has to manually enter the LAT LONG coordinates from a hand held map as he goes along or whenever he wants to report a specific position It is simple to overlay a grid on any map in advance of any cave activity The grid does not even need to trans late to
39. martphone in conjunction with this patch like running a voice activated recorder to archive message traffic Previously in Spe eonics 27 I also shared my design for internally modifying a Radio Shack speaker to con nect to the field telephone system This has now evolved into a separate small interface box with a mute switch for quick silencing an incoming call indicator LED and a headset jack that allows a person to continue listening whether or not the speaker is muted This interface is convenient for Incident Command staff and plugs into the same off the shelf speaker which can be found at most Radio Shack stores part number 277 1008 See http cavephone blogspot com for further in formation All this ongoing experimentation has not been a solo effort I have bounced ideas questions and frus trations off a multitude of friends and I would like to briefly acknowledge some of them here Ken A Peter F Norm B and Ian A have provided helpful technical ad vice again and again Roger M DJ Patrick L and Tim W were my field testers and Matt B Bill F and others trusted me to plug my mystery phone patch into their Smartphones without blowing anything up Thank you SPELEONICS 29 July 2013 Page 23 Photos of Communications and Electronics Session meetings and field trips during the 2012 NSS Convention Brian Pease demonstrating his simple Basic 2 way diolocator at the 2012 NSS Convention C amp E Ses
40. nto a global network by any radio that is also connected to a laptop or PC and has access to the internet For this test we set up a lap top and radio in the Ranger s break room about a half mile from the elevator shaft A digipeater at the top of the elevator linked the data to John KG4LVA and the internet John was designated as the topside point of contact with NPS For example NPS personnel could view the progress of the test and positions of the par ticipants any PC via the internet the http aprs fi site This site can give anyone anywhere a view of what is going on with this network including all the way down into the cave as viewed from above Base Camp Team Josh KY4JME set up a base camp operating position in the Snowball Room and had con nectivity to the topside APRS network via the one digipeater at the top of the elevator and one about 100 feet into the Snowball room from the base of the eleva tor This convenient location gave us an area to organize and debug our equipment We also had HF radio equip ment available but did not get to test it due to the time it took to unravel some of the initial bugs and confusion during setup Cave Team The cave team led by Bob WB4APR and Ranger Toomey with assistance from Gary Gibula of the NSS proceeded from the Snowball Room down Cleve land Avenue monitoring signal strength from the Snow oom ki D down link radios as needed This zy being ou
41. ors and a battery hard wired to it The pressure sensor is capable of measuring 100 ft depth and is mounted directly on the board Data is stored in non volatile memory that may be recoverable even if flooded The packaging con sists of multiple flexible plastic packages glued shut and placed in a non waterproof dry bag filled with sand and rocks to keep it submerged It was anchored with rope at the lowest point in the area that is subject to catastrophic flooding of 100 depth every few years during major storms Jim Hall used the internet to show an Inertial Measure ment Unit IMU from Sparkfun com There is a tracking video on YouTube He wondered if it might be useful for un derground tracking I thought that there would be too much drift for it to remain accurate long enough to be useful but it would be fun to experiment with I mentioned Bill Stone s problems with his 3D mapper at Wakulla Springs Florida Forrest Wilson said that British cave divers have been using dead reckoning with an electronic compass depth meter and impeller type water speed sensor I think that combining an IMU which has a an electronic gyro compass and gives Communications and Electronics Section Annual Meeting Minutes 2012 Brian Pease Sec Treas 6 25 2012 The 2012 Lunch business meeting of the Communica tions amp Electronics Section of the NSS was held mid day Monday June 25 2012 in room G 112 at the High School next to the Fair grounds at
42. r first experience with this equipment 6 underground few hours were wasted trying to figure out why performance was so poor af ter the second digipeater from the Snowball A Room Eventu ally it turned out that a digipeater was misconfigured and was not relaying anything beyond it After that was finally resolved the team proceeded as far as communi cations permitted until we ran out of radios several hun dred feet short of the Carmichael entrance On the sec ond day we returned to extend the link with 3 more ra dios from where we left off the day before to complete the entire 1 mile path from the Snowball room out the Carmichael entrance to the above ground network You can see the topside digipeater in the foreground Figure 4 and the typical handheld in the hands of the author HF Test Team This team lead by Ralph KG4CSQ was to remain topside and test conventional vertical penetra tion communications on HF But with the cold and initial difficulties with the APRS setup this test was not con ducted Un wired Test After the success of the initial 1 mile test in Cleveland Avenue we had planned to do a similar test into an area of the cave that had no installed light ing or other wiring that may have acted as conductors of RF energy The plan was to retrieve at least 8 of the digipeaters from Cleveland Avenue and then repeat the test into the Violet City entrance proceeding into the Ma
43. rcumstances In particular one place where this kind of communications might be valu able is through areas where it may take an hour only to go a few hundred feet and spooling field wire is not practical The radio link might get through this tough part easily and then multiple hop extensions can greatly extend communications from topside to the caving team For very deep penetrating expeditions communications back to the entrance might not be needed and other classical HF vertical links can make contact with in cave base camps and then from there the UHF system can go out another 14 hops in any direction The key will be accumulating enough in cave information from experi enced cavers on the viability of UHF in the hard spots and smaller wetter passages than the subways in Mam moth Cave Send in your reports to the above web page author If this system proves viable it can be very practical for caving expeditions Caving teams can either recruit local ham radio operators to bring their own gear or NSS members might want to get their own ham licenses Ham radio no longer requires learning the Morse code and getting a ham license is about as easy as getting a drivers license Just study the materials and take the test For more info see http arrl org Better Caving Through Electrical Stuff SPELEONICS 29 July 2013 9 An Inexpensive LED Upgrade for the Mini Maglite Rick Bennett kcOpet embarqmail com I can remember
44. rrent to rapidly charge and discharge the large gate capacitance of each MOSFET reducing their time in the linear region Q3 spends a brief time in the linear region on pur pose to avoid key clicks while switching the amplifier on and off for CW modulation The Drive Latch circuit will cut off RF drive to the MOSFETs if the 12 Volt fixed Supply is interrupted or it s voltage drops below 7VDC This protects the MOSFETs from 120 VAC power inter ruptions during unattended operation which might do bad things such as alter the drive frequency The ampli fier is designed to operate from a 12 14 Volt battery If the battery drops much below 7 Volts the MOSFET drive voltage may not be high enough to keep them out of the 7 Lispice IV 475kHz100WciassE_V2 raw i File View Ae Tr Simulation Tools Window Help QQQR SRW 5 h ve few Plot Settings 100W OUTPUT LEVEL 14VDC FILTERED OUTPUT VOLTAGE 208 66 210 75 linear region resulting in failure I have tried to measure efficiency RF Output DC input power but my test setup is not yet accurate enough In any event nothing seems to even get warm so I assume the efficiency is 95 or better at 100 Watts out The fan appears to be unnecessary Operating on 475kHz My first task was to make some field strength meas urements in the far field especially off one end where the strongest signal should be This would allow me to calculate the
45. s and knowledge Email the editor You will receive an email confirming your submission The next issue of Spe eonics is planned for the month prior to the 2014 NSS Convention The URL and email addresses in this publication are checked for accuracy prior to publication If you find an address that is no longer valid try doing an online search for the author or specific subject Many authors are NSS members and are in the NSS Members Manual which is issued yearly by the NSS Norm Berg Editor nb1 cox net include Speleonics the subject line and 860 621 2080 before 9 00 pm Eastern Time Executive Board The Communications and Electronics Section is governed by an Executive Board consisting of four members Elec tions are held at the annual business meeting during the NSS Convention The current executive board members are Section Chair David Larson Secretary Treasurer Brian Pease Publications Spe eonics editor Norm Berg Communications Webmaster Aaron Birenboim Meetings The 2013 C amp E business meeting and session will take place at the 2013 NSS Convention on Monday August 5 from 2 00 pm 5 00 pm A field session will be sched uled during the convention Communications and Electronics Section Membership and Website You can become a member of the CES for a period of five years by simply signing the roster at a CES meeting during the NSS Convention or by mailing or emailing the Section Chair or Secr
46. s are only 22 apiece so figur ing why not I added a few to an order from Mouser I order electronic parts for various projects on a regular basis When the LEDs came I put one in my modified Maglite and wow I was pleasantly surprised The LED was actu ally brighter than the original incandescent bulb in the Maglite Since then I have upgraded all of the working Maglites I have around the house with these Cree LEDs How to Make the Mod The Mouser Electronics part for this LED is 941 C503CWANCBADB152 Of course the shipping will trump the cost of just 1 but hopefully a person can do a group buy to share the shipping cost So as I said modifying an AA Maglite for LEDs is pretty easy Here is how The first step is to take the head off of the Maglite and remove the bulb Since LEDs have a positive and nega tive lead the anode and cathode you have to de termine the polarity of the bulb socket Using two small pieces of 24 solid wire or something similar and a multi meter this is fairly simple Insert the wires into the sockets for the bulb and using the voltage setting on the meter determine the polarity 71 2710 auto Display Backlight SPELEONICS 29 July 2013 Page 10 uN I marked the negative terminal with a scratched into the plastic ring using a pick The LED needs to have the leads shaped to fit Trim both leads to 1 4 inch Using small needle nose pliers b
47. sion Photo by Bill Frantz David Larson explaining his field telephone at the 2012 NSS Convention C amp E Session Photo by Norm Berg SPELEONICS 29 July 2013 24 Brian Pease and David Larson looking over the 2 way radiolocator at the 2012 NSS Convention C amp E Session Photo by Bill Frantz Brian Pease describing the radio location equipment at the 2012 NSS Convention C amp E Field Session Photo by Norm Berg Field at ae 2012 NSS Convention C amp E Field Session Photo by oma Berg SPELEONICS 29 July 2013 Page 25 LS Px Setting the antenna for the ra 2012 NSS Convention C amp E Field Session Photo by Norm Berg S gt O Brian Pease describing his radiolocation equipment at the 2012 NSS Convention C amp E Field Session Photo by Norm Berg Carroll Bassett and David Larson reviewing David s field phone schematic at the 2012 NSS Convention C amp E Field Session Photo by Norm Berg John Schwenk reeling in field phone wire at the 2012 NSS Convention C amp E Field Session Photo by Norm Berg SPELEONICS 29 July 2013 Page 26
48. sumed to be 13 also average The 475 dipole uses 14 aluminum electric Fence wire available in 1 4 mile rolls from Tractor Supply t 15 supparkbed an Er es using plastic electric Fence insulators uith antenna at each end the total length af 265 89 meters is much shorter than the 315 meters af 172 wavelength in free space There 15 useful vertical radiation otf the ends with broadside nulls l Watt ERP for TAAN input There is also horizontal radiation into the ground due ta Wave tilt of the vertical field as iE propagates along the Earth s surface At the shack the is 1 16 1 with impedance Z 47 6 17 8 Ohms The 1 oriention 15 218 degrees True hru the Earth Radiolocation 475kHz Dipole SPELEONICS 29 July 2013 17 Antenna Analyzer AlMuhf prog version 8624 N Files Functions Calibrate Setup Markers Bands Utilities TDR Help in SWR 1 01 0 476 Miz SWR Resonant freq 0 475721 450 Custom Cal 400 350 300 250 RE 10 0000 KHz Freq 0 4757 Freq Step 0 00050 2 131 000 SWR 1 008 Zmag 130 866 Phase 0 009 Rho Mag 0 0038 811 0 0005 0001 rell power 0 0 Return Loss 48 4896 ShorvOpen Circuit Cable Loss 24 24db Equivalent Circuit 866 Rp 130 866 Xp gt 100K Lp 264824 0987 uH 0 007641 0 000001 FILES prog 862A 475i feedpoint cal 0 1 1 0 MHz ccal 500 100 Har
49. t everywhere in the system the locations of these devices can be seen SPELEONICS 29 July 2013 Page 8 Follow up UHF Testing Although these ham radios are expensive 500 they operate in the same UHF spectrum as the inexpensive 20 FRS radios available everywhere This makes it easy for any cavers to test the viability of individual links for such a system without a major investment in the ham radios or needing a ham license But once the number of UHF links is determined using the simple 20 FRS radios then it can give an idea of the value of bringing in the Hams with their text data radios The ham radio experimenters welcome additional experiences and feedback from cavers with UHF under ground experience in all types of passages Just remem ber now you can link these short range links together with APRS To conduct a test you only really need two FRS radios Start at the entrance with one radio and the other car ried to max range for the first passage Then keep a ra dio at that location and leapfrog a radio to the end of the second link And so on up to 14 hops Once these places are known then future expeditions in this cave could use the APRS radios to provide continuous texting and posi tion reporting communications along the entire path The experimenters welcome and need additional data on the viability and length of these links as tested by actual cavers and opinions on whether such a system would be useful and in what ci
50. t extended UHF communications range to nearly a mile underground The system uses ham radio UHF text messaging and position reporting APRS radios Figure 1 that can use each other as automatic relays A string of 14 radios provided continuous text position reporting communications anywhere along the mile to the surface Cavers carried maps with a lat long grid and could manually enter their position and send simple text mes sages Establishing the network was as easy as walking to the end of each radio s range and then backing up a few dozen feet to regain contact and place a walkie talkie a rock Then continuing See http aprs org cave link html DIGAO T i EN DIGI DIGG aN A RN oo DIGI variety of factors to be tested This system could also be integrated with field wire where it is easy to run great distances for some links This radio link concept should be considered as just another commu nications tool in the tool box for ex tending communications under ground For example if other com munications are possible with a base camp then the APRS radio links can provide shorter range outward from base camp as needed to keep every one informed KENWOOD Although the test originally was con ceived to test a very simple network consisting of simply 14 people carry ing relay capable walkie talkies these radios Figure 1 are the latest technology and not as prevalent among ham radio
51. test my signal off the end of the dipole at 65 miles 105 km range was about the same as that from another station running the Same power to a 25 foot 8 meters vertical over a ground plane at 55 miles 88 km range At night I have a report from a person in PA over 400 miles 644 km away who could copy me directly by ear I can t wait until the quiet winter months 100 Watt Amplifier 2200 meters and Future Experiments The items below are possible future experiments My next antenna task before winter is to install a wire 2 meters off the ground to allow me to extend the south end of my dipole to resonate on 2200 meters 137kHz I do not have the space to extend the other end so I plan to operate this 14 wave wire against a ground formed by my nearby off season in ground swimming pool It has a plastic liner but a lot of un derground surface area with 18000 gallons 66 000 liters of quite conductive water Model and build a tuning network to allow me to use the existing dipole on 2200 meters I have purchased a Hafler 3000 audio amplifier which should produce at least 300 Watts at 137kHz I might try modeling the 630 meter dipole with this extension to see what it can do on 630 meters Move the 630 meter dipole higher off the ground but what a pain Construct a transverter for a ham rig to be able to op erate on narrowband digital modes other than slow CW SPELEONICS 29 July 2013 Page 20 st9eweyos
52. the NSS convention in Lewisburg WV After eating the 4 officers Aaron Norm David and I held a short board meeting The following comments were made The revised bylaws and the latest meeting minutes need to be posted on the section website We need to try to get Lynn Brucker to publish her talks on roll pitch and yaw all without drift with a water speed sensor would give reasonable navigation results where there was no current David showed very nice battery carrying cases for all sizes of round cells that keep them together and prevent dam age short circuits The maker PowerPax WWw powerpax net is a supporter of the NSS website http www caves org He also showed an inexpensive white red green flashlight that would be useful for surveying He also showed a Wouxon handheld radio imported http Wwww powerwerx com in CA They are available for 144 220 MHz 220 440 and mobile low bands for 120 00 They can be programmed to work on business and marine bands and are as good as more expensive name brand radios AA battery packs are available David also talked about developing a small lightweight inexpensive 2 wire telephone for cave rescues The rugged military copper steel field phone wire 15 needed for a guideline in the caves The idea is to have batteries only in the base sta tion above ground with waterproof units underground They operate at 1000 ohms and are more or less compatible with regular m
53. ust a short distance away Elections were held with a motion and second to re elect the current slate of officers which was unanimous The offi cers are Executive Chair David Larson Sec Treasurer Brian Pease Publications Chair Norm Berg Communications Chair Aaron Birenboim The meeting ended at 1 45 pm be heard but were not bad I showed how to get the most accu rate location possible by correcting for bubble level errors David had a 500 foot 150 meter 2 wire field phone line laid out way upstream and looped back to the upstream regis ter and had 2 phones installed on the line one at the end This was done by 2 local cavers who stopped by and had never seen field phones before The base station was outside The phones are really just simple intercoms using the 70 7 Volt line princi ple with the underground phones always in talk mode unless the surface responds to them They worked well with the only complaint being low speaker audio in the cave that would require holding them to one s ear in noisy places Of course this is always done with normal field phones A fun and successful day SPELEONICS 29 July 2013 Page 4 Cave Link Radio Communications Test 2 March 2013 Bob Bruninga PE US Naval Academy bruninga usna edu Rick Toomey National Park Service Gary Gibula National Speleological Society Abstract On 2 March 2013 during an NSS Volunteer weekend at Mammoth Cave a radio test was conducted tha
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