Finding an enclosure for the RF-IV sensor turned out to be a real challenge. As I mentioned before, because of the size and connector locations of the RF-IV PCB, there are not that many off-the-shelf boxes that were a good fit. I wanted a box that will allow me to install the sensor directly on the
VNA's BNC ports (2" apart) and with enough height to install the corresponding bulkhead connectors. I was almost ready to go the
CNC machine route and fabricate the enclosure out of a solid block of aluminum. I wanted the sensor enclosure to be compact since it is supported only on the two
BNC connectors. After some more searching though, the Bud Industries
CN-5701 box (
Digikey p/n 377-1512-ND) seemed to be a possible candidate. I still had to use a vertical mill machine to remove the little PCB slots on the inside of the aluminum box and make the walls nice and smooth.

This picture shows the box with a bushing for the control cable and the 3 bulkhead female
SMA connectors. These connectors require a D-hole to prevent unwanted rotation. Initially, I was going to install male
BNC connectors but decided in favour of the
SMAs. They require less mounting hardware and I can always use adapters to
BNC or N type connectors. In addition, the enclosure is small and installing regular 4 screws bulkhead connectors will prove to be a headache.
On the inside I installed two L-shaped supports / rails (formed out of tin-plated brass sheet) to create a "bed" for the PCB and a good solderable ground connection for the SMAs.

On the bottom of the box I placed a piece of FR4 fiberglass PCB material (I etched completely both copper layers using a mixture of Hydrogen Peroxide and Hydrochloric (
Muriatic) Acid (1:2))
This board serves as an insulator and also acts as a spacer in order to raise the PCB from the bottom of the box and bring it closer to the bulkhead connectors. The two L-shaped tin-plated side rails go on the top of the fiberglass spacer board holding it into place. The RF-IV PCB goes on top of these rails.

The RF-IV PCB is installed in the aluminum enclosure. Small ferrite toroid is used for
RFI suppression on the control / power lines. The RF
DET SMA is connected to the PCB using a short piece of UT-085 semi-rigid coax. Small pieces of silver-plated jumper wires (in
teflon sleeves) are connecting the PCB RF ports (RF DDS and
DUT) to the bulkhead
SMA connectors on the box. I was trying to keep the jumpers as short as possible. Unfortunately, with this enclosure I can't use RA PCB mount
SMAs. The outer edge of the
PCB's ground plane is soldered directly to the tin-plated brass sides (the L-shaped side rails on each enclosure side with
SMA connectors installed)

I used tin-plated brass screens to create the internal RF shielding. It is important that there is a good RF screening between the RF DDS and
DUT ports. Each sampling transformer has its own screened compartment. The L-shaped rails on the two sides with the RF connectors were very
convenient points for mounting the screens - I just soldered the RF shield elements to the sides.

This picture shows that the internal screening is raised about 1-2 mm from the PCB, allowing enough clearance from the components and signal traces.

Picture of the completed RF I/V sensor. This is the "side-up" for Detector 1 use but it can be used with either detector - exactly the same way the reflection bridge is used: just flipping the box and installing it on Detector 2 port (the reverse side of the box is marked for Detector 2)
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