Bert Modderman PE1RKI

	Bert Modderman Engineer
Main page Products for Sale Amplifiers Transmitters 13cm 12 watt 13cm 40 watt MRF284 project Lot sales Custom build Antenna's Dish calcs. Quad ant. Metalworking Milling Belt conversion Yaxis motor CNC electronics Future projects Future projects Converters ATV Hobby Received ATV Links Email	Echostar LNB Model BKU235x modification On a surplus market I bought 3 of these LNB's. I found out that they where easily converted to the 10GHz band with an output power of 45mW or to 250mW with a mgf1801. The LNB has 2 DRO oscillators, on 9.75 GHz and on 10.6 GHz. I decided to saw the 9.75 GHz DRO chamber off and convert the 10.6 GHz DRO for DRO modulation. This is a real good design because the end result of this converted LNB delivered superb video quality. With scissors I removed the unused pcb. These removed pcb's contain nice things like pin diode's, 10GHz diode, and some more smd parts which can be used again. On the furnace I removed all the smd parts from the 10GHz print. I laid the 3 Fet's with its 2 capacitors aside because these have to be resoldered back again with the drain towards the output. Pins from a fet can be recognized with an ohm meter. There is about 6 to 20 ohm resistance between drain and source. The resistance between gate and source/drain is high: approximatly 3 Meg. If you replace the fet, please be sure there is no tin between its pin's. This can also be checked with an ohm meter before and after soldering the fet. Before soldering anything, you must edit the 10 GHz pcb. A 50 Ohm stripline must be laid from the oscillator to the first fet. Remove the filter, but not everything because some cupper can be used to fix the new stripline to. Near the place of the fets you see tuning stubs. If you have power measurement equipment for 10GHz you may remove these to experiment with new stubs. Tuning the last Fet is enough to acquire maximum power. It is also possible to get more power to replace the last fet with an MGF 1801. Tuning al fets will then give a power of about 250mW with the MGF 1801. In case of three original fets place the components like this. A closup of the same schematic in reality A lot of material can be removed and reused for other purposes Top view Here I am measuring the output power of the DRO alone. With this way I can tune the DRO to the desired frequency Left : original 10.6 GHz puck Middle : new 10.6 GHz puck + cutted puck from Right Right : old cutted 9.75 GHz puck I tuned my DRO to 10.400 by adjusting the puck size. Finished and tuned to 10.4 GHz with 45mW power. Top view.

Echostar LNB Model BKU235x modification

On a surplus market I bought 3 of these LNB's.
I found out that they where easily converted to the 10GHz band with an output power of 45mW or to 250mW with a mgf1801.

The LNB has 2 DRO oscillators, on 9.75 GHz and on 10.6 GHz.
I decided to saw the 9.75 GHz DRO chamber off and convert the 10.6 GHz DRO for DRO modulation.
This is a real good design because the end result of this converted LNB delivered superb video quality.

With scissors I removed the unused pcb.
These removed pcb's contain nice things like pin diode's, 10GHz diode, and some more smd parts which can be used again.
On the furnace I removed all the smd parts from the 10GHz print.
I laid the 3 Fet's with its 2 capacitors aside because these have to be resoldered back again with the drain towards the output.
Pins from a fet can be recognized with an ohm meter.
There is about 6 to 20 ohm resistance between drain and source.
The resistance between gate and source/drain is high: approximatly 3 Meg.
If you replace the fet, please be sure there is no tin between its pin's.
This can also be checked with an ohm meter before and after soldering the fet.
Before soldering anything, you must edit the 10 GHz pcb.
A 50 Ohm stripline must be laid from the oscillator to the first fet.
Remove the filter, but not everything because some cupper can be used to fix the new stripline to.
Near the place of the fets you see tuning stubs.
If you have power measurement equipment for 10GHz you may remove these to experiment with new stubs.
Tuning the last Fet is enough to acquire maximum power.
It is also possible to get more power to replace the last fet with an MGF 1801.
Tuning al fets will then give a power of about 250mW with the MGF 1801.

In case of three original fets place the components like this.

A closup of the same schematic in reality

A lot of material can be removed and reused for other purposes

Top view

Here I am measuring the output power of the DRO alone.
With this way I can tune the DRO to the desired frequency

Left : original 10.6 GHz puck
Middle : new 10.6 GHz puck + cutted puck from Right
Right : old cutted 9.75 GHz puck
I tuned my DRO to 10.400 by adjusting the puck size.

Finished and tuned to 10.4 GHz with 45mW power.

Top view.