Thursday, January 9, 2014

LNA4HF is ready

Finally the LNA4HF is ready after the holidays break. After the initial shipment we have the firsts batch ready for delivery.


The final result is the pre-amplifier for the HF frequencies covering the range from 150khz to 30MHz. The high cut off frequency limitation is due to 5 pole low pass filter at the input. There is the possibility to remove the filter and use the pre-amplifier up to 2GHz.

DC power supply:  6-12 V
Consumption : 18 mA
Frequency range : 150kHz - 30MHz
Gain : 18-20 dB
NF : 1-2 dB
Dimension : 25x25 mm

The LNA4HF is assembled on the 0.8mm thick FR-4 laminate. The quality of the PCB is excellent and we decide to have PCB only option for the guys who want to assemble their own designs. The same PCB can accommodate all other types of MMICs with the same housing/layout. There are couple of not populated places (bridges) on the PCB where the input filter can be bypassed, the voltage regulator can be bypassed for the direct 5V power supply, the bias resistor can be replaced or shorted.


For this buyers, there is the option where 2 blank PCB shipping included (priority/air) cost is 10 Euro.
Contact me through the e-mail for all the details.

The feedback from the buyers is very important for us so down bellow we have a measurement done on LNA4HF by Thomas DG1TRF using the DG8SAQ VNA. Thanks.


For those who likes the facts and figures there is the printout from the above measurement. It is clearly seen that the operating range is from 100 kHz up to 30 MHz and the LNA4HF can not be used (unmodified) for the 50 MHz operation due to bandpass filter characteristic. The S parametars are showing good behavior through the declared range, the gain of 19+ dB and input RL of 10dB or better



The PCB design is a quite flexible and the same PCB can be used and modified for a various projects. Here you can find some modifications that most of users are asking for. It will be a short how to guide combined with FAQ answers. Of course, all the buyers will have the schematic of the basic layout together with the all components values printed.

0.  Basic layout
So let's start with the basic LNA4HF layout. This is what you get when you order the LNA4HF. Amplifier ready to operate on 6-12V DC through the range of 150 kHz to 30 MHz, as per data on top of the post. The antenna input and output to receiver are matched to 50 ohms, but no significant degradation if 75 ohm cables are used.

1. 5 V supply modification
The first on the list how to is how to use the 5 V DC supply that I already have on my upconverter or the USB connection. I want to stress that I do not prefer the USB 5 V supply. There are several reasons for that, one of them is that you can damage your USB port and the PC together if something goes wrong. Despite that, this is the most required users modification, so here it is, 5 V direct supply.
All you need to do is to insert a 0805 size 0 ohm bridge (marked green) on the PCB position J3. A peace of wire will also do the job if you do not have 0805 0 ohm SMD component. This way you will bridge the 5 V regulator on board. Now you are ready to supply the LNA4HF with the 5V. The consumption should remain the same, 18-19mA.

 
2. 13.8 V supply modification
And what if you want to use some other DC power supply, higher than 12 V DC ? How to comply to this requirement ? Keeping the 0 ohm J3 bridge in place from the 5 V modification you need to add the external resistor in line with the positive pole (red wire) the resistor should be rated for at least 0.25W dissipation. The value should be calculated using the following formula: Rx = (Ux - 5) / 0.018  (ohms)
Let's try to calculate the resistor value for the 13.8V supply:  Rx = (13.8 - 5) / 0.018 = 489 ohms
Of course, this is not the standard resistor value and we should choose the 470 ohm resistor or parallel connection of two 1 kilo ohm resistor resulting the 500 ohms resistance. You can always check if your calculation is OK by actually measuring the 5 V on the PCB power pads.


3. NO Low Pass Filter modification ( 150 KHz - 2 GHz LNA )
The next most required modification is the one asking how to bypass the input low pass filter. The basic design include the low pass filter cutting effectively all the signals above the 30 MHz. This can be handy to filter out all the broadcast FM radio and TV strong signals as well as the mobile tower signals. The LNA4HF mount the MAR-6 MMIC device capable of amplifying all the signals up to 2 GHz range. Hey! I can use the same LNA to cover all my DVB-T dongle frequencies and the HF upconverter frequencies. Why not?
There is no simple way where you can just bridge the low pass filter (L1+L2+C3+C4+C5), you need actually to remove all this 5 SMD (L1+C3 will be enough) components and you need to turn the C1 capacitor for 90 deg. on the X1 PCB marked place. If you decide meantime to go back with the low pass filter, you will need to restore the basic setup layout.


If you are not so happy to work so much with the SMD components, the easier way to do this is just to turn the C1 to the X1 position and use the X-acto knife to cut the pcb track going to the low pass filter (left side of X1). In case you want to go back to the filter, just restore the C1 to basic layout and re-solder the PCB track by blob of the solder.

4. Amplifier for the frequency counter
You want to increase the sensitivity of your frequency counter, or just to protect the counter from the accidentally high power input ? Basic layout may be used without any modifications up to 30 MHz. To cover the range up to 2 GHz you need to apply the modification without low pass input filter. Both cases will allow the maximum input power of 20dBm or 100mW but this will saturate the amplifier for sure. Much better option will be to use the LNA with the input attenuator. This way the amplifier can survive even higher accidentally applied power. If something goes wrong, only the input stage (LNA) will be destroyed leaving the counter still alive. At the end it is cheaper and less complicated to repair the LNA than the counter.
Beside this advantage there is also the fact that adding the input attenuator the input return loss improve twice the value of the used attenuator. If you use the 6dB attenuator the input RL will be improved for 12dB.
To make the proposed modification, the low pass filter should be removed and 3 resistors (green) soldered in the T configuration. The values are to be calculated using the attenuator calculator. For the proposed 6db attenuation the two series resistor value should be 18 ohms and shunt middle resistor 68 ohms.
Take care about the maximum input signal your counter can handle!!

5. LNA4JOVE (Jupiter) radio-astronomy LNA
The LNA4HF can be used for the shortwave radio astronomy project named JOVE. As the main activity is around the frequencies 20.1-21 MHz the LNA4HF is ready for that. An external bandpass filter at the LNA input for the desired frequency can improve selectivity and filter out the unwanted strong and ot of the band signals. It will be nice to have all that on a small board measuring only 25x25 mm. Well, this is possible and here is the way how to do it. All you need to do is to remove the input low pass filter, together with the coupling capacitor C1. Then you need to cut the PCB track marked on the place marked red. On the prepared pads we need to solder the bandpass filter for the frequencies 18-21 MHz. One of the very good designs where you can take all the values for such a filter is Tasa web page. Page 22, BP with 2 coils simplest solution Ver1.Pick up the values for the 18-21 MHz filter design and solder the parts where the green parts are placed on the PCB and you are ready for the Jupiter monitoring.



Tuesday, December 24, 2013

The boards are ready

Due to Hollidays we need to pospone the final product distribution for the begining of the 2014.
The boards are ready, and a couple of them will be assembled manualy for testing and verification.
The rest of them are waiting for a pick&place "hands".


Merry Xmass !!

Thursday, December 5, 2013

You got it :-)

I would like to thanks to all of you who show your interest for this gadget.

I expect to have the LNA4HF ready for the shipping before the end of the year.
Speaking about the shipping, all of you who help, up today, with your comments and ideas here on the page or directly sending the e-mail will have a free shipping on LNA4HF orders, as a season gift from our side.

The final concept deliver 18-20dB of the gain through the range from 150khz up to 30MHz. So all the long and medium wave fans will also benefit from this gadget.
Power supply, anything from 6-12V DC. 5V supply is option ready.
5 pole low pass filter at the input, with option to bypass the filter with a simple modification.

Beside that, the PCB only will be available where somebody can build the amplifier they want using various MMIC-s. So the PCB is a kind of universal MMIC developing board where not only SOT-86 MMICs can be used but others too.

See you soon

Monday, November 18, 2013

Just Another DVB-T SDR Upconverter gadget

After we stop to make and distribute the Upconverter gadget UP-100 for the DVB-T SDR dongle we start to receive the e-mails asking to help to improve the performance of the present Upconverters that can be found on the market that are not our products. We decide to design this gadget to help all this guys suffering the weak reception on the HF using various upconverters.
So here it is, LNA for HF. This small gadget can improve your reception by amplifying the HF frequencies in range from 150 kHz - 30 MHz by 19 dB. Up to now we make a couple of such amplifiers (without LP filter) on request but due to increased interest we decide to improve the already good design. The same LNA board accommodate now also the 5 pole low pass 30 MHz cutoff filter at the input together with the active MMIC device, all on the small PCB measuring only 1" square (25x25mm).
The board can be powered from 6-12 VDC but there is possibility to power the board also with the 5 VDC from the already existing 5 V that you have on the upconverter. The consumption is only 19mA which should not create any problems for any regulator you have installed there. SMA connectors on the input and the output became a "standard" with this gadgets so only one extra SMA male/male jumper cable is required or SMA male/male adapter and that's it.


This is just a working prototype made on the LNA4ALL PCB to check the performance of the filter and the amplifier. This is not a finished product. So I need your opinion and according to the interest we can produce a batch of the amplifiers. The target price is 20 Euro for the assembled and tested LNA together with the SMA connectors on board. There is an option to have also the LNA for the HF without the low pass filter at the input for all those who wish to use the same LNA also higher up to 1 GHz. The gain of the LNA without filters is around 18-20dB up to 1GHz and NF up to 2.5dB.

This is how you should connect the LNA4HF together with the existing Upconverter and DVB-T dongle.



I have comments opened for you to see how many interest there will be for a product where you can state your ideas about the price, filters, power supply etc. If we receive the interest for at least 50 LNA4HF we will make a batch of 100-150 pcs. The quality of the product should be the same as the LNA4ALL or UP-100 and up to now we did not have complains on the quality and design of the PCB.
Of course, we plan to offer just a PCB for the guys wish to design their own LNA with the MMIC they like and the filter they want. The same board can accommodate several MMIC types.

If you need the LNA4HF let us know, the comments are open for discussion.
Thanks