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Thursday, June 26, 2014

Missing ground track in exciter, band pass filter stage.

Kindly correct the band pass filter stage in the Bitx3B pcb which has a missing track that should be connected between 39PF and ground for L1 and L2




Monday, June 16, 2014

How to connect Bitx VFO with Ik3OIL FLL

Many friends had requested me to  show how the Bitx VFO could be connected to the Ik3OIl FLL counter to stop the drift in the Bitx VFO.

Presented here is a video and details as how to connect the Bitx VFO with the Ik3OIL freq counter.


First we present the video with the Bitx VFO that is connected with the Ik3OIL Freq counter.
The FLL control circuit works with combination of some components and software on the counter and some parts are on the IK3OIL VFO pcb. The main part being the BB204 varactor diode. A buffer stage has been taken from the Ik3OIL VFO pcb.

In this demo we powered the bitx VFO and the Ik3OIL Counter . You may observe that after the red led stops to blink the FLL takes control and stabilizes the VFO.
In the demo i have also rotated the main tune and fine tune capacitor which gives complete coverage for the 20mt band. There is no drift as the tuning is stopped and the FLL control takes the new readout and starts to control the VFO.

This demo has been done on the Bitx version 3 exciter.

I would welcome any one who wants any more help.

                                                     


BITX VER 3 WITH Ik3OIL FLL CONNECTED

                                              

               IK3 OIL VFO PCB USED WITH THE SET UP





                        BITX VERSION 3 EXCITER PCB



                           FLL FREQUENCY COUNTER



  1. Some important points to be noted: 
  2.  In VFO use Polystyrene Or NPO capacitors
  3. Use RG174u for all RF connections
  4. 12 Volts can be taken to the FLL VFO pcb from the bitx power supply 



Monday, May 19, 2014

Stacked VFO coil for bitx3b vfo

Bitx3B VFO stage picture has been posted here. The Bitx3B VFO is made with two number's of
T37-6 stacked together and quick fix applied on it.

The trimmer at control of FLL will need to be engaged at such a point as to observe the least drift .
The VFO is rock solid and i did not find any drift .

The FLL menu switch has been soldered on the solder side of PCB, so that it could be easier pressing the switch while adjusting the BFO or VFO to set their frequencies.



Saturday, May 17, 2014

Bitx3B New built

Here are some pictures of my new built Bitx3B .  This new bitx3b set is built on the second batch of PCB for exciter which has some minor changes.
The VFO uses 2 number of T37-6 stacked . The results are very good. I could find no drift at all. very shortly i will publish a video on it. provision is also provided on the new board to add DDS if VFO is not to be used. And yes I have also installed the audio mute circuit in this set.

The power supply used is a 24 Volts 2.5 Amps SMPS Laptop power supply.
The RF output is 4 watts clean.






Power Supply 24 Volts SMPS from my Laptop

Thursday, May 8, 2014

Bitx 3B PCB second batch


  The second batch of Bitx 3b PCB now has the following changes from the first batch of pcb's made.

  1.  Q16 is not on the main exciter PCB now, instead we have a additional PCB of audio mute
      delay circuit. Please observe connections for integrating the connections from the schematics.

  2. Two components have been added in the mic pre amp. 100UH and .001 at the mic pre amp circuit.
     for better filteration of audio coming from the microphone.

  3. Two pin connector's  point has been added at 
      a.  VFO for DDS optional use.
      b.  Audio to agc circuit
      c.  LM386 Audio Mute point taken to the Audio Mute PCB

Some Important Points:

1. We recommend the VFO coil to be wound with 2 nos of T37-6 stacked with about 40 turns plus or minus a few turns, for more stable VFO.  The coil has to be glued with quick fix for better stability.
The second recommended VFO coil is on T50-2.   Single coil. Both work as very stable VFO's

For Drift:

The VFO has two trimmers. The first towards the VFO coil is for fine tuning your VFO if your VFO coil is short of turns, so by adjusting the trimmer you can set the frequency of your VFO.

The second trimmer that is connected with the CONTROL circuit of FLL counter is the most important as te setting of this trimmer will determine the stability of your VFO. The trimmer has to be engaged in such a way as to observe no drift, if you see your vfo drifting tune the trimmer at such a point where you observe the VFO becoming stable, that is the correct setting point for the vfo's stability. The FLL has to be connected with RG174u cable for input to counter and the control point.



Monday, April 14, 2014

Bitx3B VFO

The FLL frequency counter used for Bitx3B may sometimes not read the frequency from the Bitx3b VFO stage, the reason being the VFO buffer has a low output kept for the stability of the VFO. It is observed that in some cases the Freq counter does not read the freq and some times it does, some transistors may have a higher gain and some lower as the brand is not same for all the kits we supply the 2n3904 transistor. Due to the different gain of transistor the issue of FLL not reading the freq arises.

 The solution is simple without disturbing the VFO capacitors value's we just need to change C13 in the FLL Freq counter from 22PF to 47 PF. I tied this and it works fine. Here is a picture of FLl Freq counter with FLL C13 that has to be changed to 47PF


The second issue of VFO Freq Stability. T50-6 was tried on the VFO of Bitx3B with around 50 turns. Kindly adjust turns to reach 4.MHZ reading on the VFO, you may have to wind turns as per need, if you connect the FLL freq counter you could wind the turns with out much trouble.

I  must admit that T50-6  is much much better with no drift at all. in the VFO.  I was able to have a qso with VU2YK on this Sunday for more than 15 minutes with a very stable VFO with zero drift  . Also I took a video of Bitx3B showing the freq stability. This Video taken with the antenna not connected, just to check the VFO on power on.

The VFO works okay also with the T37-6 with very less drift but was found better with T50-6. Next experiment is to try 2 nos of T37-6 stacked together. I shall publish the result soon.

Thursday, April 3, 2014

Explanation of how the delay circuit works.

Om Blake Bartosh has shared with us the explanation as to how the delay circuit works as you may be eager to try it out on your Bitx. The Audio Mute circuit operates in the following way. The 555 timer is connected to the PTT switch and generates a 100 msec pulse when PTT is engaged and another 100 msec pulse when PTT is released. The 555 timer is configured as a debounce circuit, so contact bounce of the PTT switch does not initiate any new pulses. The output of the 555 timer and the PTT switch signal are combined in logic to form two signals, a mute command and a transmit command. The mute command turns on Q16 of the Exciter board which shorts the audio signal to ground, and no sound is heard from the speaker. The mute command occurs immediately upon engaging PTT, but the transmit command is delayed by 100 msec. This delay ensures audio transients due to switching from receive to transmit mode do not cause a "pop" in the speaker, but is not so long as to be noticeable to the operator. The transmit command energizes the relay coil of K2 of the PA board via a 2N3904 transistor and the rig switches to transmit mode. Upon releasing PTT the transmit command is immediately turned off, K2's relay coil is de-energized and the rig reverts to receive mode. 100 msec later the mute command is turned off and the speaker is activated again. The Audio Mute circuit is powered by 12V+, and a voltage regulator reduces the 12V+ voltage to +5VDC required by the 555 timer and the 74LS00 quad NAND gate IC.

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