Saturday, January 14, 2017

More Applications of the OLED, Si5351 and the Arduino Nano

Simpleceiver with an OLED

 
1/15/2017 ~ You Tube Video of Simpleceiver with the OLED and Si5351. This was made especially for those individuals with fancy smart phones and exotic tablets who could not open the movies below. C'mon guys I am doing all the hard work the least you could do is use a real computer to view this blog!
 
 
 
This video is also being provided for those who tried to put the OLED and Si5351 in a Bitx40 project and had noise problems with noise being generated by the OLED. You can decide about any noise issues after listening to this test with the Simpleceiver.
 
73's
Pete N6QW

 
 
Late in 2015 I developed a project called the Simpleceiver which was fully documented on this blog. The evolution of the design relied heavily of the use of LT Spice to simulate circuits and to "make" Dual Gate MOSFETs by cascading J310 JFET's. I know of several duplications of this project both in Europe and in Asia. For a display I used a 16X2 LCD.
 
Fast forward to today where I am now using OLED's in various projects thus the foray into retrofitting the Simpleceiver with an OLED. There are several video that are presented below and you can listen closely to the audio as there have been reports of noise issues when using the OLED's. You be the judge.
 
 
video
 
video
 
 
The OLED, Si5351 and the Nano offer many possibilities especially for removing analog VFO's (you know the ones that drift) from your old homebrew gear and installing the new technology. A $20 Bill will put you on that road.
 
 
73's
Pete N6QW



Thursday, January 12, 2017

Shirt Pocket Transceiver with the Si5351 and OLED

Moving on with the latest Technology!


In 2011 I fulfilled a dream of building a shirt pocket sized QRP SSB transceiver. Well actually I built two of them and the second was a diminutive 2" X 4" X 2". Both used through hole components --so no cheating with SMD. In each case the IF was 4.0152 MHz and employed a crystal switched VXO that essentially gave about 100 kHz on 20M SSB. But it was a VXO and there was not full band coverage. But nevertheless a small miracle (or so I thought) that they both worked! You can see the two versions blow.
 
 
 
 
 
But with new technology now available to us my next goal is to fit the larger rig with the Si5351 and an OLED display. Today I made that happen!
 
 


 
 
 
 
We now have a documented QSO with VA7LTX in Canada using the rig barefoot ( 2 to 3 watts) on 20M.
 

 
 
 
Having proven this works I am now undertaking building a smaller board to fit in the existing case. This should incentivize you to get out the soldering iron and start building!!!!
 
 
73's
Pete N6QW




Wednesday, January 11, 2017

Bitx40 Operating with a Hombrew PLL and OLED Display.

You won't find this on EMRFD or QST!

My Bitx40 Operating with a homebrew PLL and OLED Display!


 
My Bitx40 with Homebrew PLL and OLED Display!
 
video
 
 
 
Don't you just love it when a plan comes together!!
 
 
73's
Pete N6QW

Monday, January 9, 2017

Back to Bitx40 and OLED Displays

Expanding the Bitx40 Horizon ... More Hacks!

1/10/2017 ~ I was asked what does Size 1 look like on the display?



The frequency information is in Size 2 and the other info was in size 1. I guess it is readable but small letters. It is obvious you could pack more info on to the display. But I think I will stick with Size 2.
 
73's
Pete N6QW


1/9/2017 Posting


In the course of adding a few refinements to my Bitx40 OLED display, I now have found  new dimensions to displaying information and some additional possibilities for the rig. In the realm of "cool factor" I now have managed to juggle information locations so I can include my call sign (N6QW) on the display.

This is not ego stuff but more of displaying pride in your homebrew rig. Well there is some ego stuff too, where it is something I did and you can too!. BTW you can adjust the print size of what is displayed and what you see is Size 2. The Size 1 selection is almost unreadable but none the less gets you "The Lord's Prayer" on the head of a pin head. Keep in mind the size of the display below is less than 1 inch on a side.

A bit more of what happens to the display and the capabilities when various modes are exercised. The display shows a 100 Hz step tuning rate which is the default setting. Engaging the Push Button located on the encoder control will step that to 1 kHz, 10 kHz, 10 Hz and then back to 100 Hz. The display will show each of these steps. Additionally when you hit the Push To Talk Switch on the Microphone the display changes the line "Bitx40" to "On the Air". When the button is released the display reverts back to "Bitx40". Pretty cool!

I feel confident these are changes that could be done to the VU2ESE supplied LCD/Arduino Nano/Si5351as the changes are in information displayed but does not disturb how frequencies are generated. So maybe someone reading this blog and has the VU2ESE board can make the changes and contact VU2ESE to include it on the hfsigs hack page.

 
 
 
The other aspect is the ability to tune outside of the ham bands which in this case shows a frequency of almost 33 kHz above "40 meters". This feature is good for listening only! I don't believe there is any world wide amateur operation permitted above 7.300 MHz; but there are shortwave broadcast stations that operate in this range. There are even websites that will help you locate these stations based on the frequency being read on your display.
 
Now before you get too excited -- typically the designs of our transceivers include Band Pass and Low Pass Filters. These filters by design limit your frequency excursions (especially on the transmit side). So tuning 30 to 50 KHz above or below 40 Meters will result in your ability to hear stations. A well designed set of filters will make it seem like the rig has gone deaf once you get slightly above or below the specific band --it should work like that!
 
Another limitation is what are the frequency end points set in the Arduino code. So in addition to the hardware limits (BPF and LPF) there are frequency limits typically coded into the sketch. Thus one of the hacks is to somewhat expand the lower and upper frequency limits so that the Arduino will tune either the AD9850 or Si5351 slightly above and below the 40 Meter Band.
 
The rig now being sold by VU2ESE includes the LCD display along with the Arduino Nano and the Si5351. I am unaware of the limits set in the code. So if you have one of the new rigs drop me an email N6QW  and let me know the limits. Of course I "rolled my own" so I picked the limits.
 
My OLED is now being driven with an Arduino Nano (versus what I did for the original development using the Uno). One report I received from Mike WA3O who is using an OLED with his Bitx40 is that he is hearing noise generated in the OLED being induced into the Bitx40. He further advised that having a separate power supply for Arduino/OLED abated the noise generation problem. Thus I have not had the OLED in the rig but will run that test and report the results.
 
More refinements the 100's, 10's and 1's are displayed in a window like view of the actual frequency. Helps focus quickly where you are in the band. Another hack!
 

 
 
73's
Pete N6QW
 
 


Sunday, January 8, 2017

A Diversion from all the Bitx40 Stuff!

Does anyone in Radio Land know what this is?



 
 
 OK do you give up? Well guys and gals this is the world's most important tool vintage 1965 if you were in a forward combat area and wanted to eat. Yes this foldable, carry on your key chain, (along with your dog tags) is a can opener! I have had it on my key chain for the past 52 years and serves as a reminder of another time and another place.
 
In May of 1965 while assigned to MCB Ten (US Navy Mobile Construction Battalion Ten) as a part of the US Marine Corp RLT4 (Regimental Landing Team 4). RLT4, we made the first over the beach amphibious landing since the Korean War. It was a heady time filled with excitement as we landed on the beaches of Chu Lai, South Vietnam about 90 miles south of DaNang.
 
With such a landing comes combat rations (for about two months) known as MIC's which stands for Meal Individual Combat. The MIC's came in cases of 12 meals and included in every case were several of these tools and a pack of heat tabs so you could have a warm meal.
 
There were four selections of MIC's and included Turkey Noodle Loaf, Beanies and Weenies, Hot Ham Hunks and Hamburgers which  literally were packed in axle grease. Accoutrements might include a small bread in a can along with grape jelly, cheese and crackers and the most coveted canned peaches. The cheese and crackers were actually medicinal in nature and you usually did not eat those immediately but held on to them for when you got the "Green Apple Quick Step" AKA GI Trots, AKA The Runs. Eating one portion of the cheese and crackers would plug you up quicker than any Kaopectate or Imodium! It seems like the crackers were designed so when taken with water expanded to about 10X their size --so you really felt full (bloated is more like it).
  
 
Being in the "Seabee's" the first thing you learn to do is to take the can opener and using a spent can from the Beanies and Weenies (taller can)  build a small stove so you can efficiently heat your food. The heat tab went in the bottom of the can and with proper vent holes cut in the can itself --instant stove. (This was my first opportunity at learning metal working skills which has paid big dividends today.)
 
There also was included in every MIC a small pouch that had cigarettes, toilet paper and a spork -- that was a plastic spoon with serrated teeth on the end so it was a combo spoon and fork. I think there might have been some other stuff in there but it was kind of clever. I think later on they removed the cigarettes --getting killed with bullets is just a day's work but lung cancer was not approved.
 
The reason for this posting was that recently I tripped over a whole series of you tube videos where individuals actually take the various combat meals and try to explain them It goes from the K Rations to C Ration to the MRE's of today. It is very obvious that the narrators never had to eat these meals. They just didn't know!
 
My assignment at MCB 10 was the Intelligence Officer and as such I had access to the classified safes. In the Spring of 1965 it was very obvious to me that we would be headed to South Vietnam and would transition  as the alert battalion on Okinawa to an in country location. In preparation for the deployment I cleared space in one of the files so it would hold six bottles of Johnny Walker Black Label whiskey. There was some benefit to being the only one who had access to the classified safes! At the time I had a 1st Class Petty Officer working for me and he approached me about his also placing something in the classified safe. I said OK -- well as it turns out his contribution was a very small box that contained 12 bottles of what is shown below:
 
 
 
At first I thought he was nuts; but so be it! Well as it turned out my 1st Class Petty Officer was a veteran of the Korean war some 15 years earlier and he knew all about C rations. After a short while I traded him 3 bottles of Johnny Walker for three bottles of the hot sauce. The only way you could eat those MIC's was with hot sauce.
 
Being the Intelligence Officer meant I had to have special security clearances which later came back to bite me. On a second trip to Vietnam where I was TDY it bit me. I was on a commercial contract flight (DC8) that was just about to depart Travis Air Force base when I heard my name called out over the PA and was asked to come forward. There were two Air Force officers there who then asked me to show my ID card which I did. One of them then said stick out your left wrist --I did. Boom the next thing I know they slap a handcuff on my wrist an attached to that was a courier pouch. It seems like this was highly sensitive information that could only be carried by someone with the appropriate clearance.
 
The next couple of statements were kind of frightening where I was advised to shoot anyone who tried to get the pouch from me and he was about to hand me a gun. I said I have a 45 in my brief case but no ammo --he got me two clips. of 45 ammo. The next statement was I could not leave the plane until I was relieved of the pouch in Honolulu.
 
Did you ever try to snooze in a packed  airplane with a pouch handcuffed to your left wrist. Going to the head for a pit stop was a barrel of laughs. The heads are really small and not much room for you AND the pouch. Well at the other end I had to wait 1 hour for someone to show up --it was not a fun trip! I keep thinking about trying to board an airplane today with a 45 in your brief case!
 
 
73's
 
Pete N6QW

 



Friday, January 6, 2017

More Hacking of the Bitx40

Still even more Hacking of the Bitx40!

 

1/7/2017 ~ Dress up your OLED Display!

Same code works for the Color or Black and White OLED


So there is no reason why your Bitx40 cannot have the finished feature rich appearance just like those kilobuck black boxes. Imagine that when you show off your rig to your friends you can get the OOOhs and Ahhhs and "Gee how do I do that" comment. Well you could check the EMRFD reflector but you might not find it there. QST probably doesn't have it either. But N6QW does!

Here is what I am saying! The OLED will have one display feature during receive but hit the PTT and the OLED displays something else. Release the PTT and it goes back to the normal mode. Now how cool is that?

This feature only takes a small additional modification to the hack I provided to switch in line an external linear amplifier. Yes I figured out the code kink. Email me at n6qwham@gmail.com if you would like the code snippet. So aside from the code you will two diodes and one reed relay.

Another Bitx40 hack on the drawing boards is how to remotely start the coffee pot while you are in a QSO.

As Sir Winston Churchill so aptly said KBO!

73'ws
Pete N6QW

BTW the Black and White version was the original development work for use on a 20M Transceiver. When I got it working it was a short distance to the Bitx40. Find that on EMRFD or QST?

 
 
 
 


 

 

 

 

Yet another hack of the Bitx40!

1/7/2017 The Arduino Sketch will be posted on my website using the link below. It will be on the Phase 7 page link.


Think small and smaller! When I built my Bitx40, the display add on  kit which I think now is the standard was not available. So in true ham fashion I simply "rolled my own". I thought I really got things small when I used an 8X2 backlit LCD coupled with the Pro-Mini  and AD9850
 
Well now there is something even smaller which I have working. See below. The size is less than one inch on a side. There are four step tuning ranges and include 10, 100, 1K, and 10K Hz. I am still working out a "code kink" so that when you transmit the "Bitx40" is replaced by the message "On The Air".
 
With the OLED + Si5351 it should be possible to shrink even further the overall footprint of the Bitx40. Not only is the physical size smaller; but the power requirements are significantly reduced. The new configuration will have the OLED, Pro-Mini and the Si5351.
 
Yes I could just buy the add on kit --but the rig was designed to be hacked!!!!!
 
73's
Pete N6QW 

Friday, December 30, 2016

Bitx40 Project ~ So you want to build a Bitx40?

Building the Bitx40 ~ The how to for the newcomer!

12/31/2016 ~ Life is Too Short for QRP!

So Ok guy's here is how to boost your signal (using an external linear amp)  so you can be heard and duck those dreaded repeats of your name and QTH.

 It is pretty simple to implement. All you need is three diodes if you include the 1N4148 snubber diode across the reed relay coil, a RCA phone jack and a terminal strip. One side of the relay contact is simply grounded by soldering to the PC board that holds the reed relay (yep super glued upside down to a scrap piece of PC Board). The other lead goes to the rear panel mounted RCA jack. The two 1N4007 isolate the circuits from each other. With this arrangement I am able to drive my SB200 to 100 watts output. Pretty cool.

73's
Pete N6QW



 
 

73's
Pete N6QW

About a month ago I agreed to give a Skype presentation to a local ham club known as the Ventura County Amateur Radio Club (VCARC) on the subject of homebrewing. Hey I am really good at soldering my fingers together so I guess I sort of qualify as a homebrew radio enthusiast. In the course of discussing the presentation with the club president Joe, K6NE, I suggested that the club might want to engage in a group project using the Bitx40 board available from India for the amazing price of $45 shipped to your door. Bitx40 is the link to the website where the radio can be purchased.
 
[The club presentation will take place two weeks from today and so I have been under the gun to get everything completed.]
 
For your $45 you get a complete built radio transceiver board with all of the controls, connectors, wire harnesses and even a microphone element and PTT. As shipped the radio is on 40M and is capable of over 5 watts output. The means of frequency control is a voltage tuned oscillator using a panel mounted pot to change the frequency. It works but a better alternative is to purchase the Digital VFO kit and LCD which adds another $14 --so less than $60 and you have quite an impressive radio. I purchased my board in late November 2016 and the Digital kit was not offered so I rolled my own Arduino/AD9850. The add on kit uses the Si5351 PLL.
 
Thus the builder (in this case the club members) provide the value added by integrating the parts and pieces into an enclosure and along the way learn about the nuts and bolts of the radio. VU2ESE developed this kit specifically to learn about what makes up a transceiver and to experiment to your hearts content and indeed he has met that goal.
 
To aid the club with this project I volunteered to create a series of webpages hosted on my website so that in addition to the excellent information on the http://hfsigs.com website that I would provide detail on how to execute the actual build. My webpages have many links to where you can purchase enclosures or special tools and even a grounded soldering iron.
 
In the early days most ham stations were entirely home built and thus many of the fundamental hand tools and parts were in the junk box. But today it is "flash the plastic" and in two days UPS has a black box radio sitting in your shack. So to actually build something takes a lot more effort. My webpages make it an easier task. Hey are you looking for a QRP SWR bridge (there is a link to the DX Engineering MFJ Model 813). Well in my case I built my own but not everyone wants to do that. 
 
So here is the link http://www.n6qw.com/Bitx40.html There are sub links that explain how to metal bash, detail on the wiring (including a link on where to buy the wire) and the check out process. Again my pages are to supplement what is on the www.hfsigs.com website.
 
I have made four contacts with this radio and this has been a fun project but now I need to move on and this will be the last posting on the Bitx40.
 
73's
Pete N6QW