Pocket Tracker Kit Illustrated Assembly Instructions
Contents
1. 82. drill bit and a pair of diagonal cutters Some of the components in the kit are static sensitive so use standard precautions All components are loaded on the white silk screened side and then the leads are soldered from the CIRCUIT side of the board labeled near one of the square corners Be sure to solder only the correct pad and do not let any solder touch any other pad or trace Trim away excess leads with diagonal cutters after soldering each component Nothing should project below the bottom of the board more than a tenth of an inch Only a few components must be installed in a particular orientation D8 the RF shield the DIP socket U1 and the battery clip leads The checklist below will help ensure all components are properly assembled Before beginning consider how the Pocket Tracker will be mounted It may be advantageous to use the PC Assembly as a template BEFORE soldering on any more components See the Owner s Manual for details Some components on the PC Assembly are static sensitive so use standard precautions Six backside wires To enable all features six 26 gauge wires supplied must be added to the back of the board The board is shipped with a yellow wire and a blue wire attached to U6 pins 6 and 7 respectively Guidelines in the solder mask show how to route the backside wires It is not necessary to precisely follow the guidelines Generally following the guidelines will keep the wires away from areas where the w
3. ON The other end of the red wire gets soldered to a pad labeled V on the top of the board This pad is near the lower left corner of the board as viewed in the component loading diagram which is the rounded corner without the ground plane and large mounting screw hole LJ L10 It works best to install the parts in the order shown on the parts list top to bottom basically starting in the center of the board with a couple of early exceptions and working towards the edges L10 is a half turn five nano Henry inductor made from a 5 8 piece of 26 ga black wire that gets routed between the emitter pad of Q5 and ground Strip both ends of the wire so that a 5 16 section of insulation remains in the middle Fold this wire into a U and install it in the two pads one pad is below the L of L10 in the diagram on the board the L of L10 may be partially covered by transistor Q5 and the other pad is in the ground plane just to the right of the O in L10 After soldering fold L10 over towards the L9 pads so the insulated section of the L10 wire touches the ground plane LI L7 labeled 12 uH in the fine print on the side is the only axial leaded component that is loaded parallel to the surface of the board Fold the leads to fit between the pads The center to center spacing is 0 4 One end of L7 goes in the pad just above the L7 text This pad has a white circle around it The
4. Since L3 is a fairly tall component take care to mount L3 flush to the board Shield Plate The edge of the shield plate is shown as a long thin line in the loading diagram between L12 and C33 The top corner notch will line up with the edge of the board and the shield plate will extend nearly all the way to L3 Make certain that the bottom edge of the shield does not short to the trace that runs between the legs of the shield The shield should not touch the 5 volt power plane under the end of the shield near L3 Solder tack the legs of the shield in place Once confident in the position solder four full length fillets two on each side along the bottom edge of the shield where it contacts the exposed ground plane sections The legs are merely assembly aids and do not provide a sufficient ground connection for effective shielding After soldering the fillets completely fill the holes around the shield legs with solder and trim off any excess length L8 labeled 3 3 uH in the fine print on the side Fold over one lead of L8 to form a U with the body of the component in one of the uprights The center to center spacing between the leads will be 0 214 The body of the inductor will be installed in the pad with a white circle around it just above the L8 text A white line leads to the other L8 pad C33 is one of the three brown capacitors 47 5 is printed on one side of C33 Install this capacitor right
5. antenna symbol Y The drawing in the top right corner of the next page shows a section of the case heavy black line with the BNC connector inserted through a 3 8 hole in the case See the drawings at the end of this document for additional mechanical details First the board with the BNC lock 5 washer grounding leads soldered to it is positioned near the inside wall of the case Then the BNC nut is dropped into the gap between the BNC lock washer and the PC assembly The BNC connector is inserted through the hole in the wall of the case and rotated to engage the threads If the hole in the case is in the correct position with respect to the PC assembly the center pin of the BNC connector will line up with the RF output pad and will sit right on top of the board If the connector is soldered to the pad it only works for a little while The antenna can present quite a bit of leverage and may cause the case to flex and act like a fulcrum The resulting micro motion soon breaks the trace and lifts the output pad off the board A close look at the sketch shows a piece of un insulated cut off component lead 26 ga or larger that has been soldered to the center pin of the BNC connector then bent a few times and soldered to a nearby hole that is connected with a wide trace to the RF output pad This wire helps stabilize the antenna connector and since it already has a couple of bends micro motion does not seem to affect this wire Take care not to
6. crystal is another tall component so keep the body as closed to the board without touching as possible OW oS 40H J8 A text line near the crystal says 2004 HiValue Radio Next to the word Value there is a white rectangle with two round pads in it One of the pads has a white circle around it Cut a yellow 26 ga wire 1 75 long Strip each end 3 16 Solder one end in the pad with the white circle around it Cut a blue 26 ga wire 1 5 long Strip each end 3 16 Solder one end to the other pad within the white rectangle Cut a black 26 ga wire 1 75 long Strip each end 3 16 Solder one end in the square pad near the 4 and the H of the text line near the crystal Twist these three wires together These wires will be soldered to the Serial Port connector as one of the last steps in the assembly process symbol in this line of text There is a square pad and a round pad with adjacent white squares around these two pads A jumper shunt can temporarily be placed over the two pins and used as a handle while soldering Placing a jumper shunt on these two pins enables the LEDs Moving down two rows of pads towards the small notch in the edge of the board there is a pair of round pads surrounded by a white rectangle Another 2 pin header JS for Jumper Storage can be mounted in this location to provide a place to store the LED jumper when it s not in use Note that these two pins will be connected to the r
7. the two J13 pins near the shield and power up the Pocket Tracker Slowly turn the slug in L3 until the receiver goes quiet between packet bursts from other stations and shows a full strength received signal This indicates that the PLL circuit in the Pocket Tracker has locked onto the programmed frequency Note the position of the L3 slug This is the first response point the lock position Continue turning the L3 slug in the same direction Nothing will change for about a full turn The PLL circuit will keep the transmitter locked on to the programmed frequency Eventually when the L3 slug gets too far in or too far out the VCO gets too far off frequency for the PLL to maintain a lock The receiver will no longer indicate any received signal or signal strength and the speaker will once again be filled with the sound of static between packets This is the second response point the unlock position Set the position of the L3 slug half way between the lock and unlock points 6 Alignment Notes Note Neither a PC a GPS receiver nor U1 are needed to align the transmitter The only adjustment on the transmitter is L3 The tuning slug should be turned with a 5 64 non metallic hex end tuning tool If a proper tuning tool is not available a semi skilled whittler can carve a toothpick into a functional tuning tool with a hobby knife Sometimes it helps to initially break the slug free by twisting it in and out a fe
8. Pocket Tracker Assembly Instructions version 1 05 These instructions will aid in the assembly of the Pocket Tracker which is designed to fit perfectly with its 9 volt battery in an Altoids candy tin A complete Owners Manual which includes this Information plus pictures and further instructions will soon be available at http www byonics com pockettracker The zip file also contains the TinyTrak3Config program which is needed to set user options Printed Circuit Board Parts List Pocket Tracker Printed Circuit Black 26 ga half turn wire loop 5 nH L7 0 12 uH axial leaded inductor L1 L2 L4 3 3 uH axial leaded inductors L5 L6 22 nF capacitor blue box 1 nF capacitor smallest blue box 100 nF capacitor blue box C15 470 nF capacitor biggest blue box Reverse protection diode D8 2 pin header L11 65 nH 3 turns 3 16 D 20 ga J8 Serial Port connector 3 32 3 conductor J4 JS _ 2 pin headers o Y1 J11 Y1 10 MHz ceramic resonator 3 pin header BNC connector JS1 JS2 Jumper Shunts with integrated JS3 handles Assembly Instructions Antenna amp Battery not included The Pocket Tracker is a moderately simple construction project that can usually be completed in just a few hours You will need a low wattage pencil type soldering iron with a small tip some thin electronics grade solder wire strippers a ruler a 3 16 drill bit a 13 64
9. apacitors as close to the PC board as possible allowing just enough space to get good solder fillets between C32 and C34 are both brown capacitors with 30 5 printed on one side Solder these capacitors into their ad the pads and the leads on the top and bottom sides of the board component in one of the uprights The center to center spacing between the leads will be 0 153 The body of the inductor will be installed in the pad with a white circle around it just below the L9 text A white line leads L9 labeled 10 uH in the fine print on the side Fold over one lead of L9 to form a U with the body of the to the other L9 pad component in one of the uprights It s OK if the folded over lead of L13 touches the body of the inductor The center to center spacing between the leads will be 0 074 L13 is installed next to the antenna connector notch between C34 and the edge of the board Install the body of L13 above the pad nearly surrounded by the white circle The other lead is soldered in a hole in the ground plane right next to the outline for C34 L13 labeled 22 uH in the fine print on the side Fold over one lead of L13 to form a U with the body of the X1 labeled 8 00 on one side Install the crystal spaced just above the board so that the case of the crystal cannot short the traces and pads underneath to the surrounding ground plane Either lead can go in either pad The
10. as the lock point Continue turning the slug in L3 in the same direction The receiver should stay quiet and the received signal strength should stay at full scale for about a full turn Note the position of the L3 slug at the unlock point where the signal strength drops to zero and static is heard on the receiver Turn the slug back in the other direction until it is centered half way between the lock and unlock points Fine Tuning Optional Fine tuning is recommended if the Pocket Tracker will be used with a wide variety of antennas or will be exposed to extreme temperatures such as those that might be seen on a high altitude balloon flight Rather than guessing when the slug is set halfway between the two response points the loop control voltage can be measured and the slug can be adjusted to set the loop control voltage in the middle of the range Follow the tuning procedure above except on the last step where the slug is turned back to a position halfway between the two response points monitor the voltage on the control loop test point This test point is accessible from the back of the board under the big blue capacitor C15 The test point is on the back of the board shielded with plenty of ground plane so the meter probe won t affect the VCO frequency Turn the slug until the voltage reads 2 5 0 2 volts Note Some voltmeters seem to interact with the control loop If a stable reading is not possible tr
11. ction of ground plane used by one of the mounting screws and marked with a silver nearby On the top of the board these holes are marked with white and signs though the white minus sign may not be too visible on the exposed silver ground plane Solder these wires to the pads from the top of the board The battery clip is one of the last components attached because the wires are just in the way and somewhat fragile before the completed PC Assembly is installed in its package Routing the battery clip wires through the little 1 8 by 1 8 notch in the opposite edge of the board will provide an adequate strain relief J12 The BNC connector comes with an internal toothed lock washer and a nut A good RF ground is very important Making a second ground connection actually boosts the RF output power by about 10 Relying on the chassis for a good RF ground does not provide optimal performance Refer to the drawing at the right Solder a piece of cut off component lead 26 ga or larger part way around the perimeter of the ae BNC lock washer Leave the wire ears plenty long so these leads can be soldered into the holes near the corners of the BNC connector notch Dry fit the BNC connector PC assembly and case before soldering and trimming the BNC lock washer grounding wires The BNC connector will nest right down into the stepped notch so that its center pin will rest directly on top of the RF output pad next to the
12. egulated 5 volts supply so these pins make a convenient test point Take care not to short these points to any other circuit nodes J4 and JS Referring again to the text line near the crystal J4 is a 2 pin header that mounts near the copyright Ml W1 Within the outline for U2 there are three round pads One of these pads has a white line next to it that extends towards the round anode pad for D7 Placing a jumper wire from one end of this white line to the other provides a way for the TinyTrak circuitry to get regulated 5 volts from the Pocket Tracker transmitter A piece of cut off component lead can be folded into a U and soldered between these two pads If the wire loop is made high enough to extend above neighboring components but not so high that it will short out against the lid this wire loop can make a convenient 5 volt test point The center to center distance between the two pads is 0 106 Starting with a piece of wire that is 1 3 long works about right Insert the loop to the desired depth solder in place then cut off any excess F1 Pads on the board can be used to mount a through hole or surface mount pico fuse neither provided that is in series with the input power leads The fuse pads are the two pads closest to the O in the text that says 250 mA One of the pads has a white line 3 4 of the way around it Research shows that no fuse is required for user safety when powering the Pocket Trac
13. er shunt on J11 or the jumper is on the two pins towards the 9 end of the three pin header the Pocket Tracker will be programmed to transmit on the primary frequency usually 144 39 MHz Moving the jumper shunt to the other pair of pins the center pin and the pin on the 4 end will select the secondary frequency which is usually 50 KHz down at 144 34 MHz In special cases individual Pocket Trackers may be factory programmed to transmit on other frequencies Note that if the J11 jumper shunt is moved the Pocket Tracker will only change frequencies with the NEXT transmission You must power cycle the transmitter circuitry J9 or J13 before the Pocket Tracker will change frequencies Detailed Alignment Procedure Start with the top of the tuning slug in L3 recessed just slightly below the top of the blue plastic frame of L3 Make sure an antenna with a reasonably good VSWR at 50 ohms is attached to the BNC connector J12 Place a jumper shunt over the two pins near the shield J13 Tune a nearby receiver to the frequency that the Pocket Tracker will be transmitting on Open the squelch and set the volume on the receiver so the white noise of static can easily be heard Power up the Pocket Tracker Slowly turn the slug in L3 As the top of the slug gets flush with the top of the plastic frame of L3 the receiver should go quiet and indicate a received carrier with full scale signal strength Note this first transition point
14. ires might get pinched in the mounting hardware keeps the wires away from adjustment access points and ensures proper spacing and shielding from sensitive RF circuitry Route a wire cut it to length strip the ends and then solder the wire in place from the top of the board Save the cut off pieces for use later in this project Temporarily bend these wires out of the way as needed when soldering in other wires and components LJ Blue backside wire 1 556 Route the blue wire attached to U6 pin 7 shown as one of the two dark lines in the circuit side diagram along the guideline leading towards the lower left corner of the board The free end of the blue wire will be soldered in the pad marked FS Frequency Select on the bottom of the board There is a 4 next to this pad on the top of the board Cut the 26 ga blue wire to length strip the end and solder the wire from the top silk screened side of the board Retain the cut off piece of wire for use later in this project LJ Yellow backside wire 2 3 Notice that the pad with the yellow wire shown in gray in the circuit side diagram soldered in it has a silver dash above and below the pad Following the guideline in the solder mask will lead to another pad with a silver dash on the left and right sides Route the yellow wire along the guideline cut it to length Strip it and solder it in the pad bracketed by the two silver dashes On the top of the board the pad for the yello
15. ker from 9 volt batteries These batteries have internal current limiting mechanisms Even the fastest fuses tested were not fast enough to protect the RF transistor Q5 Fuses only blew during abnormal conditions encountered during development never during normal operation The kit builder will need to determine if their use of the Pocket Tracker might benefit from a fuse If no fuse is installed a wire loop similar to W1 26 ga or larger a cut off piece of component lead works well can be installed between these two pads If the fuse or wire loop is folded over tall enough to extend above nearby components but not so tall that it might short 4 out to the lid this loop can make a convenient place to test the battery voltage If a through hole pico fuse is used install the fuse body over the pad with the white line 3 4 of the way around it so the loop will to carry the voltage on the downstream side of the fuse This makes it easy to check the battery voltage or detect a blown fuse if installed J9 Three pins and a jumper shunt serve as an ON OFF switch Install three header pins in the white L outline near the fuse pads It works best to solder in two adjacent pins then use a Jumper shunt to hold the single pin in the board for soldering by sliding the jumper shunt over the single pin and its neighbor in the corner of the L Removing the jumper shunt removes power from the circuit The third pin is merely there t
16. melt the plastic frame of L3 when soldering to the center pin of the BNC connector Make sure the wire soldered to the center pin of the BNC connector does not contact the shield LJ JS1 JS2 JS3 Three jumper shunts with integrated handles are supplied in the Pocket Tracker kit Typically one is used with the three pins at J9 as a power switch another is used with the two pins at J4 to enable the LEDs and the third is used with the three pins at J11 to select the primary or secondary transmitting frequency During initial RF alignment the transmitter needs to be on for several seconds or maybe up to a minute or two without any a modulation To keep the transmitter on during tuning install a jumper shunt on the two pins near the shield J13 No GPS receiver is needed during tuning so it won t matter if the green GPS LED is on or off The transmitter will be on all the time during the tuning process so the PTT LED won t really show anything meaningful Therefore it makes sense to temporarily move the LED jumper shunt J4 to the J13 pins during the tune up process Assembly Completion Pre Turn on Checks After all components have been installed carefully inspect both sides of the board for poor or cold solder joints All pads should be shiny and smooth Inspect for any undesired solder bridges Use an ohmmeter or multi meter to be sure power socket pin 14 and ground socket pin 5 are not connected It would even be a good idea to s
17. nap on a known good 9 volt battery and confirm 5 0 2 volts between socket pins 14 and 5 but make sure an antenna is connected if a jumper shunt is installed on J13 Of course a jumper shunt will need to be on the two J9 pins aligned with the fuse pads to apply power to the regulator U3 If the board looks ready align the transmitter as follows Transmitter Alignment Pocket Tracker RF alignment is relatively simple There is only one adjustment L3 Two response points will be identified The adjustment will be set half way between these two response points Before applying power make certain that a two meter antenna with reasonable VSWR or a 50 ohm impedance dummy load is attached to the BNC connector J12 Trying to tune the transmitter with a weak battery will cause considerable grief Make sure to use a known good battery Transmitter Alignment Process General Description Tune a nearby receiver to the frequency you expect the Pocket Tracker to transmit on e g 144 39 MHz if it s a standard Pocket Tracker with no jumper shunt on J11 Open the squelch in the receiver and turn the volume up just enough that the white noise of static can be easily heard lf the channel is too busy alignment may need to be done on the secondary frequency Install J11 on the appropriate pins re tune the receiver and power cycle the Pocket Tracker Set the Pocket Tracker to continuous transmit mode by placing a jumper shunt on
18. neath C23 is the smaller of the two remaining blue rectangular capacitors TT C22 C23 C15 C15 the largest blue rectangular capacitor is marked 470n on the top Since C15 is a very tall part take care to install C15 flush with the board connected to the square pad Folding the cathode lead into a U that is just barely taller than C23 but not taller than C15 so it can t short to the lid or rim of the can makes a convenient place to check the voltage on the input D8 is installed between C22 C23 and the edge of the board The cathode lead banded end of D8 must be f of the regulator Position the body of D8 over the round pad that is surrounded by a white circle next to the white T to the left of L4 These pads are nearly surrounded by a white rectangle Use a jumper shunt 3 supplied as a handle to hold the pin pair while soldering Space the pins up off the board just enough to clear the surface mount components underneath Be sure to remove the jumper shunt after soldering the pins in place to avoid the risk of damaging the jumper shunt while installing other nearby components like the shield plate J13 Snap two pins off the end of the 12 pin header strip supplied in the kit Solder these pins in the two pads Mi L3 is a 6 5 turn variable inductor wound on a dark blue plastic frame that is about 3 8 square by 1 tall The two L3 pads are on opposite corners of the big white square on the component side of the board
19. next to the shield One lead goes in a pad that s in the middle of a wide trace that extends under the shield and the other lead gets soldered to a hole in the ground plane that extends to the edge of the board Solder the capacitor just high enough above the board to allow for good solder fillets around the pads and leads 3 L11 is made from a 2 6 long piece of 20 gauge enamel coated red magnet wire supplied Wind the wire around the shank of a 3 16 drill bit for three complete turns winding direction does not matter then bend the ends out perpendicular to the coil along a common radial End and side views of L11 looks like the drawing shown about 1 5 times actual size Use a hobby knife to scrape the enamel completely off both legs of the coil for about 9 64 then solder both leads of the coil to the pads Keep the leads short but space the coil up off the board just enough to get good solder fillets and to ensure that the coil can t short to the nearby ground planes Install L11 next to C33 L11 connects C32 to C33 L11 does not connect to the ground plane e 3 L12 is exactly like L11 except it is wound around the shank of a 13 64 drill bit Install L12 just like L11 except on the opposite side of the shield from C33 Just make sure L12 does not short out to the shield The enamel should provide adequate insulation respective locations as shown in the silk screen on the PC board parallel to C33 Again keep these c
20. o provide a place to park the jumper shunt when the Pocket Tracker is off The jumper shunt will be in line with the fuse loop in the ON position parallel to the word ON and parallel to the OFF text when stored in the OFF position Y1 The 10 MHz ceramic resonator is a three legged part with a yellow body 10 00 is printed on one side Solder the resonator loaded either way into the three round pads lined up in a row just above the Y1 text the silk screen A square pad denotes pin 1 First solder just two diagonally opposite corner pins on the socket and check that the socket fits parallel to the PC Assembly The socket may need to be spaced above the board a short distance It s OK if the socket sits on the surface mount components underneath Once satisfied with the position the 16 remaining socket pins can be soldered Do not insert the chip into the socket at this time Route the three serial port wires through the gap between the narrow base of the resonator and the IC socket to keep these wires in place UX1 Install the 18 pin IC socket for U1 Be sure to align the notched end of the socket with the marked end on T J11 This 3 pin header fits in the three holes surrounded by a white rectangle along the flat edge of the board The white letters FS denote these pins as the location of the Frequency Select jumper shunt With no jumper shunt installed or with the jumper shunt installed
21. on the center pin and the pin closest to the 9 the Pocket Tracker will transmit on its primary frequency which is usually 144 39 MHz Placing the jumper shunt over the center pin and the other pin the one closest to the 4 will cause the Pocket Tracker to transmit on its secondary frequency which is usually 50 kHz down at 144 34 MHz Custom programmed Pocket Trackers may transmit on different frequencies European Pocket Trackers have a primary frequency of 144 800 MHz and a secondary frequency of 144 750 MHz Note If you move the jumper shunt while the Pocket Tracker is transmitting the frequency will not change until the next transmission J8 completion At this point the serial port connector can be soldered to its three wires Orient the connector as shown to the right of this paragraph The black wire goes to the top tab The blue wire is soldered to the middle tab and the yellow wire is soldered to the bottom tab Notice that two of the tabs are bent slightly inward to ensure clearance around other components The tabs can be bent before or after soldering Ti MRT J10 The battery clip leads are inserted through holes from bottom of the board and then soldered to the pads from the top of the board On the back of the board the red wire goes through the hole with a silver sign nearby and on this sign the center is NOT hollow Insert the black battery clip wire in the adjacent hole that s in the se
22. other lead of L7 is soldered to the pad that is just below the L5 text There is a white semi circle around this pad Ignore the bracket outlines and other pad designed to accommodate a hand wound coil Trim the leads after soldering 2 installed upright with the body perpendicular to the board It is important that the inductor body go over the pad surrounded with a white circle These inductors need to have one lead folded with two 90 degree bends to form a squared off inverted U with the component body in one of the vertical uprights of the U In some places it is important that the folded over lead is spaced away from the component body Form the leads to match the pad Spacing The exact center to center lead spacing is L1 0 178 L2 0 217 L4 L5 and L6 0 1 L1 L2 L4 L5 L6 labeled 3 3 WH in the fine print on the side All of the remaining axial leaded inductors are J C16 is a medium sized blue rectangular capacitor with 22n printed on one side Either lead can go in either hole for all kit capacitors Space the capacitor off the board just enough to clear the surface mount components loaded underneath Ensure C16 is mounted approximately square to the board so that L3 will fit later C22 C23 C15 C22 is the smallest of the blue rectangular capacitors and is marked 1n on a the side Space C22 and C23 up off the board just enough to clear the surface mount el components under
23. the typical mounting details used for all three mounting screws In this case a flat head screw has been soldered to the inside surface of the tin can See the website for additional mounting details One nut supports the PC board so that the top of the board is approximately 0 212 above the inside bottom surface of the tin can It is not necessary to precisely measure this height Using a trial and error process to match the top of board with the center pin of the BNC connector is not too difficult This height ensures that the center pin of the BNC connector will be positioned just above the RF output pad This height also ensures that the Serial Port Connector will fit without interfering with the rim on the lid An external toothed washer resting on the top of the PC board over each mounting screw ensures a good RF ground connection One more nut on each a screw compresses the lock washer against the PC board and holds everything together 0 212 The sketch on the right shows a side view of the BNC connector When properly assembled the connector will nest into the stepped notch in the PC board and the center pin of the BNC connector will align with and rest on the RF output pad The pad alone does not provide a secure mechanical connection A piece of cut off component lead 26 ga or larger should be soldered to the center pin of the BNC connector and to the nearby via that is connected to the RF output pad with a wide trace
24. unning Cabling Pocket Trackers use a sub mini 3 32 stereo jack for the serial port Connect the serial port to a PC to configure the Pocket Tracker then disconnect the PC and connect a GPS receiver to the same port for normal operation Serial Data Out of the Pocket Tracker is sent to the PC during configuration on the tip contact The Serial Data In signal from the PC or GPS receiver is on the ring contact Ground is on the sleeve contact Only the ring and sleeve contacts are used for a GPS connection Complete pre tested Pocket Tracker PC Programming cables GPS Adapter cables and durable GPS pigtails for the Pocket Tracker are available from Byonics or HiValue Radio www hivalueradio com A DB 9 female connector is used on the PC end of a Programming cable The tip contact is wired to pin 2 the ring contact is wired to pin 3 and the sleeve contact is wired to pin 5 Please refer to the Pocket Tracker Owner s Manual available at http www byonics com pockettracker to complete the assembly and for more details and pictures The Users Manual has details on mechanical construction RF alignment interfacing configuration instructions testing notes hints and troubleshooting suggestions Feel free to email any questions or comments to pockettracker byonics com Thank you for purchasing the Pocket Tracker Pocket Tracker PC Board and BNC Connector Mounting Details The sketch shows
25. w times with a metallic hex wrench then turn it during the actual tuning process with a carved toothpick Tuning can be done with a metallic hex wrench but it becomes a more tedious iterative process The metal of the tool will affect the frequency so the process becomes turn a few degrees remove the tool listen measure re insert the tool turn a few more degrees remove the tool If the Pocket Tracker is packaged in a case with a metallic lid a metal case with metal lid is highly recommended to help ensure stability then the lid will likely affect the VCO frequency and therefore the tuning process If there are no tuning access holes in the case then tuning will be an iterative process open the case turn the slug a few degrees close the case check the tuning open the case turn the slug a few more degrees close the case For best results tune the Pocket Tracker with the antenna or antenna system it will be used with most of the time This does not mean that the Pocket Tracker will need to be re tuned when the antenna is changed but the circuit will have the most margin to deal with other variables component aging temperature variation VSWR changes frequency selection if tuned with the antenna system it will be working with Set the FS jumper shunt J11 to the frequency that will be used most often Again selecting the other frequency does not mean that the Pocket Tracker will have to be re tuned If there is no jump
26. w wire will have the letters RF with an arrow pointing at it LJ Short yellow backside wire 1 175 The other yellow backside wire shown in gray in the diagram runs roughly horizontally from the pad adjacent to the left red wire pad the red wire pads are marked with a nearby sign that has a hollow center to a small pad that has a white T next to it on the component side of the board LJ Short white backside wire 0 75 A short white wire runs in a straight line diagonally from the pad closest to the body of L8 to another pad between the pair of pads used for L9 Follow the guideline in the solder mask LJ Long white backside wire 2 514 The pads at each end of this wire are surrounded by a circle in a square These pads are not too far from the ends of the long yellow wire On the top of the board both of these pads are D shaped One pad is near U6 outside of the C15 rectangle and the other pad is between the L4 and L8 labels LI Red backside wire 26 ga the thinner of the two red wires supplied in the kit 3 124 long The other long black line in the diagram represents the red backside wire The pads at both ends of this wire have a silver sign with a hollow center nearby Follow the guideline The red wire will run between the blue and yellow wires attached to U6 On the top side of the board one end of the red wire will be soldered to a pad between the text J9 and
27. y reversing the meter leads and adjusting for 2 5 0 2 volts Setting the Deviation R6 Since the characteristics of the transmitter in the Pocket Tracker are a known quantity setting the deviation is a simple matter of setting R6 to the correct resistance value as measured from the wiper to ground A convenient test point marked D is near R6 along the flat edge of the board Power off the Pocket Tracker Use an ohm meter to measure the resistance between ground and the D test point which is connected with a trace to the wiper of R6 Turn the potentiometer until the meter reads approximately 2 78 k 0 01 k ohms If desired the standard TinyTrak deviation adjustment methods described in the various TinyTrak Owner s manuals can still be used Installing the TinyTrak3 chip LJ Make certain the power is off and insert programmed microprocessor U1 The chip is static sensitive so ground yourself by touching a large metal object before touching the chip The rows of pins may need to be bent slightly Be sure to align the notch on the chip shown at the top center of the diagram to the right of this paragraph with the notch in the socket as well as the notch on the silk screen nearest the U2 outline An improperly inserted chip may become permanently damaged Once certain that the chip is properly installed apply power The green LED should flash 3 times which means the TinyTrak3 portion of the Pocket Tracker is r
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