This is an initial overview of a General Electric GEMLINK video/data transmitter unit. It may change as I receive more information.
The transmitter section consists of a 23 GHz Gunn diode oscillator, with a standard WR-42 K-band waveguide flange, feeding a ferrite isolator and a WR-42 diode mixer. The video/data input passes through a simple resistive 10 dB attenutor and 15 MHz low-pass filter before being applied to the mixer diode. The video/data comes into the unit via standard 50 ohm coax. The unit runs off +12 VDC and includes a voltage regulator for the Gunn diode.
The output of the mixer then goes through a WR-42 feed arm/antenna mounted at the focal point of the unit's integrated parabolic dish. The dish is approximately 11.25 inches in diameter and the focal point is at around 2 inches. This all works out to be approximately 35 dBi of gain at 24 GHz, depending on the efficiency factor used.
FCC documentation for this device lists the authorized frequency range between 21.2 - 23.6 GHz with a maximum RF power output (antenna input power) of +20 dBm (100 mW) and a maximum EIRP of +55 dBm (316 Watts). The listed emission designator is "16000A9" - which doesn't seem to follow the normal emission designator rules. This transmitter is ususally paired with another operating at 21.925 GHz. Other listed frequency pairs on the FCC's website are 21.825/23.025 GHz, 21.875/23.075 GHz, and 21.975/23.175 GHz.
Rear Label InformationFCC ID: B2T8QWGEMLINKII Transmit Freq: 23.125 GHz Model: LSD-122A
Terminal Block 1Pin Description 1 No Connect 2 No Connect 3 Video (Coax Center) 4 Ground (Coax Shield)
Terminal Block 1Pin Description 1 No Connect 2 No Connect 3 +12 Volts (Black Wire) 4 Ground (White Wire)
Pictures & Construction Notes
Overview of the General Electric GEMLINK video/data transmitter unit showing the integrated parabolic dish and radome.
Internal view with the control board/feed asembly removed.
The parabolic dish swings out to easily work on the unit.
Note the spring on the lower-left frame mount point. You can remove the parabolic dish by pressing down on the dish's frame and pulling it out.
The two terminal blocks are where the incoming video/data and power lines are tapped off of.
The top terminal block is labeled "TB2" and the one below it is "TB1".
Overview of the parabolic dish showing the location of the feed arm.
Rear view of the parabolic dish showing where the control board and feed assembly are mounted.
That white label read "TRANS INPUT 1.0V P.P."
Overview of the feed assembly and the Gunn diode mount.
The Gunn diode mount is on the right. It's powered via the +5.8 VDC output from the control board mounted behind the dish via the smaller red wire.
The large cube-shaped object is the ferrite isolator. This isolates the Gunn diode from any impedance mismatches with the mixer and antenna feed downline.
Between the feed arm and the isolator is a diode mixer with two WR-42 flanges. This mixes the incoming video or data signal (larger red wire) with the 23.125 GHz RF output from the Gunn diode.
This then passes onto the WR-42 integrated feed arm and antenna assembly. The antenna is positioned so it's at the focal point of the parabolic reflector.
The entire stack is held together and mounted to the parabolic dish via four #4-40 pieces of brass all-thread and some #4 brass nuts.
The output frequency of the Gunn oscillator can be slightly altered by adjusting the tuning screw in front of the Gunn diode holder.
Overview of the Gunn diode mount.
It's labeled C-2138K and is made by General Electric.
It requires a bias voltage of +5.8 VDC.
A 1N4737 Zener diode and 47 µF capacitor help smooth and clamp any voltage spikes on the Gunn diode's bias voltage.
I don't have an accurate way to measure the RF output power (or frequency), but we can assume it's around +7 dBm (5 mW) and 23.125 GHz based on past experience and available FCC data.
Overview of the K-band feed arm assembly.
This antenna feed is just like the dipole feed and reflector from a Yagi antenna - only much smaller!
Diode mixer mount with WR-42 flanges.
The red wire is the mixer diode feed where the video or data is applied.
There is also a small bias voltage on the mixer diode which is supplied via the control board.
Overview of the WR-42 K-band ferrite isolator.
It's made by Alpha Industries and is model number 61069300.
Overview of the control board mounted inside the unit.
It provides a regulated +5.8 VDC bias for the Gunn diode and lower-voltage bias for the mixer diode.
It also attenuates and low-pass filters the incoming video/data signal before applying it to the mixer diode.
The µA78GU1C voltage regulator is mounted on the bottom of the PC board.
The multiturn 10k ohm potentiometer is for fine tuning the mixer diode bias.
The standard 2k ohm potentiometer is for fine tuning the +5.8 VDC Gunn diode bias.
The video/data input, from regular 50 ohm coax, is on the upper-left.
The main +12V input is on the lower-right via the black wire.
- Transmitter Control Board Schematic Labeled "196C4514G" on the top side and "UL94V-1" on the bottom side.
Notes & Links
Return to Green Bay Professional Packet Radio for more info and contact information.