Ground Sphere Mk1 Prototype Assembly Instructions¶

• Ground Sphere Mk1 Prototype Assembly Instructions
  • Introduction
  • The Antenna Base
  • The Ground Plane
  • The Antenna Body
  • Antenna Line
  • Phasing Loop
  • Preamp Line
  • Preamp Power Connector
  • Assembly
  • Fabricating and Installing the Aerials
  • Installation and Testing
  • Notes, Changes, and Errata

Introduction¶

The GroundSphere Mk1 prototype was designed to be a proof of concept device, and as such things which would normally be locked in place by design are instead designed to be moved. Building this device is not recommended unless the maker wishes to use it for parametric measurement and testing. Please refer to the end of this instruction sheet in the “Notes, Changes, and Errata” section for the lessons learned and the changes made in the Mk2 design.

The Antenna Base¶

The first component to build is the antenna base. It is made from plumbing components available at any large hardware store. The diameter and length of the pipe was chosen to allow the preamp to fit inside the base to electrically shield the preamp and give the antenna a weighted base for stability. The use of a pipe thread to PVC adapter as a Coupler (ANT04) allows the antenna body to press fit into the base, making the antenna easy to assemble, disassemble, and tune.

1. Cut a 3” section of 1 ¼” galvanized pipe to fabricate the Preamp Shield (ANT02) making sure to include the threads in component
2. Screw the Weighted Base (ANT03) onto Preamp Shield (ANT02).
3. Screw the Coupler (ANT04) onto the Preamp Shield (ANT02)

The Ground Plane¶

The Ground Plane is sizes using the dimensions in the "GScalc spreadsheet:here.

1. Cut out round pieces of conductive fabric (ANT14) and cotton muslin (ANT15) 7” in diameter
2. Cut out with a 1” diameter hole in the center of the fabric disks (ANT14 and ANT15)
3. Quilt fabric discs together using conductive thread (ANT18). Ensure all of the quilting threads end at common location near the center opening of the ground plane so that this may be connected to the ground line
4. Attach a small gauge ring terminal (ANT09) to the quilting threads with about 2” of slack between the top of the ground plane and the crimp
5. Sew 6 small pockets on the muslin side of the Ground Plane to create the ground plane strut sleeves (ANT16); the pockets should extend from the center of the ground plane disk directly to the outer edge at 45 degree intervals like spokes on a wheel
6. Fabricate the ground plane supports (ANT17)
   1. Cut 6 sections of 1/8" steel rod into 3" lengths
   2. Bend the 6 sections of 18" steel rod to 90 degree angles 2" from one end
7. Insert the long side of the Ground Plane Supports (ANT17) into the 6 ground plane strut sleeves (ANT16) on the bottom of the ground plane assembly

The Antenna Body¶

The Antenna Body is made from a 6" long section of 1" PVC electrical conduit.

1. Cut a 6" long section of 1" PVC electrical conduit and debur it to form the antenna body (ANT01);
2. Test fit the Antenna Body (ANT01) into the non-threaded portion of the Coupler (ANT04); ensure it fits fully and snugly
3. Temporarily place the ground plane assembly on the antenna body so the support struts (ANT16) are flush against Antenna Body (ANT01) and the Coupler (ANT04).
4. Attach the Aerial Terminals (ANT06)
   1. Take one of the Aerial Terminals (ANT06) and position it so that the mounting hole is toward the ground plane assembly with the long portion in line with the Antenna Body (ANT01).
   2. Adjust the distance from the top (screw side) of the Aerial Terminal (ANT06) to the top of the Ground Plane assembly so that it matches the D Plane figure in the GScalc spreadsheet
   3. Mark the position of the Aerial Terminal (ANT06) on the Antenna Body (ANT01).
   4. Draw a line around the Antenna Body (ANT01) at the position of the first Aerial Terminal (ANT06)
   5. Along this line mark 3 additional positions 90 degrees apart starting at the first Aerial Terminal (ANT06) mark.
   6. Drill a 3/16” hole in each of the 4 position (a drill press is recommended)
   7. Drill another 3/16” hole ½” below one of the mounting holes from the previous step. This will be for the RF line (coax) to exit the Antenna Body (ANT01) and connect to the Aerial Terminals (ANT06)
   8. Attach the Aerial Terminals (ANT06) at each of the first four holes with #10 nut and bolt (ANT07, ANT08) hand tight. Note - these are temporary connections as these bolts are used for electrical connections in future steps
5. Place the End Cap (ANT05) on top of the Antenna Body (ANT01), but do not secure it with pipe cement or any other adhesive

Antenna Line¶

For the antenna line (ANT11), cut an arbitrary length of 50 ohm coax cable long enough to go all the way around the antenna body, down the hole drilled for it (widen if necessary), and out the bottom of the antenna body with 3” to spare. Carefully strip back 2” of the outer cladding of the coaxial cable and gently pull it free without damaging the braided shield below. Gently push the braided shield back along the coax cable toward the insulation. This will gather and expand the braid like a chinese finger trap; allow it to expand.

Gently widen a gap in the side of the braid near the insulation and fish the center conductor out this hole with a fine screwdriver or dental pick, taking care not to unbraid the braided shield or breaking wires unnecessarily. Inevitably one or two may break, but this is okay. Gently pull the braid from the end in order to collapse it back down... help it a bit by smoothing it with your fingers. Gently remove any broken wires from the braid. Once thin and smooth, you may wish to place the section of coax insulation you previously removed over the exposed coax braid. Without the center conductor in the braid, the insulation will slide over the braid easily protecting and insulating the ground from inadvertent contact.

Strip back about ¼” from the end of the center conductor and crimp a ring terminal (ANT09) on it. Use the smallest wire rating for this ring terminal that will accept #10 hardware (red jacket). You may wish to put a small loop in the end of the exposed wire before inserting it into the ring terminal in order to give the crimp more to hold on to. Crimp a second ring terminal (ANT09) to the ground side. For this you will need a larger lug (yellow jacket).

Slide the ground plane assembly over the bottom of the antenna body with the conductive fabric side up and the struts on the bottom. Thread the unstripped side of the coax through the lower hole in the antenna body from the outside to the inside of the antenna body (ANT01), leaving ½” or so and the stripped and crimped ends hanging out the hole. Mount the 1 ¼” pipe thread to 1” PVC adapter (ANT04) on the antenna body. Secure these parts with PVC cement if you wish.

From the coax hanging out the bottom of the 1 ¼” pipe thread to 1” PVC adapter (ANT04), strip ½” of insulation from the coax and unbraid the shield. Gather the shield on either side of the center conductor and twist to form two ground leads. Strip the center conductor back about ¼ to 3/16”, ensuring that the center conductor has enough insulation to prevent the ground wires from making contact with some margin. Solder the center conductor to the input side of the preamp (RAD02) and the ground leads to the ground shield on either side of the input line on the PC board.

Phasing Loop¶

To make the phasing loop (ANT12), cut a section of 90ohm cable to a little over 2 ¾” in length. The math comes to 2.77456 or about 2 199/256”, but don’t sweat the accuracy... just measure 2 ¾” precisely and add the width of an Xacto knife blade. The more accurately you can make this cut, the higher gain the antenna will have at the desired frequency.

Strip the cable ¾” back on both ends and push the insulation back and fish the center conductor out as you did before on the RF line. Strip back about ¼” from the end of the center conductor on each end and crimp ring terminals (ANT09) on the ends. Use the smallest wire rating for this ring terminal that will accept #10 hardware (red jacket). You may wish to put a small loop in the end of the exposed wire before inserting it into the ring terminal in order to give the crimp more to hold on to. Crimp larger ring terminals (yellow jacket) to the ground braids.

Preamp Line¶

For the preamp line (ANT12), take the antenna assembly which came with the SDR (RAD01) and cut it close to the antenna. Now, take the cut end (not the side of the cable terminated with the MCX connector) and strip ½” of insulation from the coax and unbraid the shield. Gather the shield on either side of the center conductor and twist to form two ground leads. Strip the center conductor back about ¼ to 3/16”, ensuring that the center conductor has enough insulation to prevent the ground wires from making contact with some margin. Solder the center conductor to the output side of the preamp (RAD02) and the ground leads to the ground shield on either side of the output line on the PC board.

Preamp Power Connector¶

For the power jack (RAD03), Use a pre-wired barrel connector and solder the red lead to the input side of the preamp (RAD02) voltage regulator. This can be best accomplished by soldering it to the pad labeled L5 on the side closest to IC1, the voltage regulator. Solder the black lead to the ground shield at a convenient point around the outside of the preamp (RAD02) PCB.

Should you not be using a pre-wired barrel connector, ensure the center conductor of the connector connects to the wire connected to the positive input of the voltage regulator (the pad of L5 as indicated above), and the outer conductor goes to the ground shield of the preamp (RAD02) PCB.

This connection scheme will allow any standard power supply with a center positive barrel connector to be used, as the regulator can handle any voltage from 6V to 18VDC. In a pinch, the power supply can be connected directly to the preamp PCB (RAD02) as indicated in the preceding paragraphs. The expected current draw of the preamp is around 35mA, so a good value for a fuse would be 1/4A, though most “wall wart” power supplies rated at 100mA will fail before then, so there is little point in putting a fuse inline, but plenty of reasons to double check your work.

Assembly¶

Remove the hardware (ANT07, ANT08) connecting the four Thomas and Betts ground lugs (ANT06) to the antenna body (ANT01). As you look at the antenna body with the top up and the hole where the wire exits facing you, arrange the antenna line (ANT11) coax so that the ground shield goes to the right and the center conductor to the left. These are somewhat arbitrary, but it is necessary to know where things are in order to connect the phasing loop correctly.

Connect the ground of the antenna line (ANT11), the ground of the ground plane assembly (the conductive thread pigtail), and the ground of one of the ends of the phasing loop together by stacking the ring terminals on the #10 screw (ANT07). Ensure the antenna line connector angles toward the antenna line hole in the antenna body, the ground plane ground goes straight down, and the phasing loop’s angles away from the antenna line hole.

Place the ground lug (ANT06) on the screw (ANT07) last with the screw terminal at the top, then insert the screw into the hole in the antenna body (ANT01) on the right side as viewed with the antenna line hole facing you. Tighten the screw securely with a nut (ANT08) on the inside of the antenna body making sure the ground lug (ANT06) remains in line with the axis of the antenna body (ANT01) and the ring terminals (ANT09) do not rotate causing strain on the wire crimp connections.

Do the same with the center conductor on the antenna line (ANT11) and the center conductor from the same side as the ground used in the previous paragraphs on the phasing loop (ANT13) bolting them and another ground lug (ANT06) to the hole on the left of the antenna body (ANT01) when viewed with the antenna line hole facing you. What this should look like is the antenna line (ANT11) conductors straddle the antenna body (ANT01) on one side, while the phasing loop (ANT13) conductors straddle the antenna body (ANT01) on the other.

Rotating the antenna body 180 degrees so that the antenna line hole in the antenna body (ANT01) is facing away from you, take the phasing loop (ANT13) and gently turn it to the right wrapping it around the antenna body (ANT01). Heating it a little with a heat gun or placing the assembly in sunshine may help it the phasing loop proves to be stiff.

Connect the ground wire on the phasing loop (ANT13) to the ground lug (ANT06) directly above the antenna line hole and the center conductor to the ground lug (ANT06) in the remaining hole 180 degrees opposite of the antenna line’s exit hole. Tighten as before, making sure the ground lug remains in line with the axis of the antenna body (ANT01) and the ring terminals (ANT09) do not rotate causing strain on the wire crimp connections.

Fabricating and Installing the Aerials¶

In the spreadsheet mentioned at the beginning of this build, the aerials (ANT10) are defined as loops 13.71 inches long. Cut two pieces of romex house wiring, at least one piece insulated, to a length of 14 ¼”. Strip off ¼” of insulation on both ends. Position a pair of pliers to grip on the bare wire directly against the insulation, and bend the end 90 degrees. Do the same for the other end, taking care to bent them in the same direction. To be clear: If the wire is placed on the ground with one stripped end pointing up, the other would be pointing upward also. Repeat this process with the second aerial.

Next, take the aerial between thumb and forefinger clamping with a bit of pressure and pull it through with your other hand in order to curve the wire, As you do so, ensure that the stripped ends end up on the outside of the curve. To be clear: when the wire comes full circle, so that the ends touched, the stripped ends point away from the center of the circle. Repeat this process with the second aerial taking care with both to form a smooth arc.

Partially unscrew the set screw from the ground lugs (ANT06) on the side of the antenna body (not the ground lug mounting screws). Insert the loops into opposite ground lugs and tighten, taking care not to torque the lugs off true. A large amount of torque is not required. If the lugs were numbered 1 thru 4, one loop would connect 1 and 3, while the other would connect 2 and 4. Once tightened, arrange the loops to be circular and when viewed from the top, cross at the center of the antenna body (ANT01) and at right angles.

Installation and Testing¶

At this point, secure the ground plane struts (ANT17) to the antenna body (ANT01) with a zip tie or two making sure the ends are in contact with the 1 ¼” pipe thread to 1” PVC adapter (ANT04) under them and are in line with the antenna body (ANT01). Arrange the struts to make the ground plane as flat as possible.

Thread the preamp output line (ANT12) and preamp (RAD02) through the steel pipe and pipe flange base. Without torquing the preamp, thread the base on the antenna body. At this point you may wish to cover the preamp with electrical tape or heat shrink tubing to insulate it, but any part of the preamp PCB that can touch the sides of the pipe should be a ground anyway. Gently push the preamp assembly into the base of the pipe. You should probably place some rubber or felt feet on the base of the antenna base (ANT03) to keep from scratching paint or furniture.

Plug the amplifier (RAD02) into a 12VDC source. Current draw should measure about 35mA +/-5mA. If not, inspect the unit for damage or poor solder connections. Connect the MCX connector on the preamp line (ANT12) to the SDR dongle (RAD01) and tune the SDR software to 900 MHz. Using a cordless phone or other 900 MHz source verify that the antenna is receiving and amplifying signals. Further testing of the preamp (RAD02) is out of the scope of the average hobbyist.

Tuning the antenna is a trial and error process, adjusting the length of the aerials (ANT10), phasing loop (ANT013), and distance between the aerials and the ground plane assembly by adjusting the position of the ground plane struts. Remember that larger components and dimensions tune for lower frequencies and smaller components and dimensions tune higher frequencies. Tweaking and replacing parts while observing the effects will allow you to tune the antenna and align your GroundSphere satellite ground station to peak performance.

Notes, Changes, and Errata¶

During and after the assembly of the Mk1 GroundSphere prototype, many lessons were learned which translated to a lot of design changes for Mk2 and beyond.

1. We discovered that the steel sleeve over the preamp and the base does little to keep the noise out, particularly when it is not grounded itself. Instead it makes a conduit for static discharge to the ground of the preamp which could damage the preamp.
2. The 1 ¼” and 1” size of the antenna body and base are excessive for the 915MHz version. It would be better to mount the preamp horizontally in a base and reduce the size of the antenna body to ¾” or even ½”.
3. As the ground plane is quilted, it pillows the fabric, particularly the stiffer conductive fabric disk (ANT14). This reduces the radius of the ground plane and circumference by a set amount per stitch, but since the circumference is about 6 times the length of the radius, the shrinkage is 6 times greater in the radius than in the circumference. This causes the ground plane to become floppy even when stretched taught by the struts. A better solution is to secure the conductive fabric with a minimum number of stitches.
4. The struts (ANT17) do little to keep the ground plane flat, primarily because of the issue noted above, and that the struts cover very little of the ground plane assembly’s surface. A better solution is to use a semi-rigid plastic mesh to support the ground plane over the whole surface.
5. If a plastic mesh is used to support the ground plane, it could be affixed using a minimum of stitches and/or an adhesive to secure the conductive fabric to the surface of the mesh. Further, the mesh could be silk screened with a logo or a decal applied with little to no performance loss. We should experiment with this concept.
6. The RF line and phasing loop mounted to the outside was convenient for testing, but made the Mk1 prototype more fragile than practical for a production model. Bringing the RF line up from the bottom and the phasing loop in from the top on the inside would be much more rugged. The only outside connection should be the pigtail from the ground plane. To fit in a ¾” or ½” antenna body, the phasing loop would have to be tightly coiled and covered in heat shrink to keep it’s shape during assembly and parts storage.
7. Use pre-terminated coax lines for the amplifier line (ANT11) and the preamp output (ANT12) rather than soldering them to the preamp for improved reliability.
8. Build the preamp with SMA connectors rather than solder the coax from the amplifier line (ANT11) and the preamp output (ANT12). These can be machine soldered, while the coax cannot.
9. The preamp (RAD02) can be powered with a power inserter, but this would add cost to the completed ground station and may induce noise. Experimentation should be performed to help understand the pros and cons.
10. A jig can be made to precisely cut and strip the phasing loop (ANT13) once the ideal measurement is identified.
11. With smaller diameter components the assembly can be cleaner, cheaper, and have better repeatability.
12. With a plastic mesh backed ground plane assembly, the completed ground plane can be sandwiched between two sections of plumbing components used for the antenna body and secured there with PVC cement for ease of assembly.