“Play Nicely Together”: Integrating the K3, SDRplay RSP1, HDSDR and N1MMlogger+

HDSDR and N1MM+

These notes describe how to configure the HDSDR software to allow your SDR to act as a 2nd receiver, fully co-ordinated with your existing transceiver and logging software.

The procedure has been tested with the Elecraft K3 but should also work with any OmniRig compatible transceiver.

1. Create a Virtual Port Splitter

The COM port numbers used below are typical examples only, and could be changed. However, it is good practice to keep virtual port numbers well separated from physical port numbers, so I begin my virtual port numbering at COM11.

[ Physical and Virtual COM ports:
COM ports are used for serial data communication. Physical COM ports are associated with real hardware connectors. In older PCs these were 9-pin ports for RS232 communication, but in modern PCs these are typically USB sockets.
Physical port numbers are allocated by the operating system and are usually single-digit numbers starting from COM1.
Virtual ports exist only in software, and their numbering is normally user-configurable.]

The transceiver is connected to the PC using the USB port (in my example, COM6). But a physical COM port can only support one program at a time – any other programs trying to connect to that port will produce error messages about port conflicts.

We get around this problem by using Virtual Serial Port Emulator from www.eterlogic.com/Products.VSPE.html  The 32-bit version is freeware, but the 64-bit version requires a contribution to help pay for software licences.

vspe1

VSPE has a “virtual port splitter” facility which can connect to a physical COM port (COM6 in this example) and then creates multiple instances of a virtual COM port with a different number (which I configured as COM11). These virtual COM11 ports are all identical, but are hidden from each other by the VSPE program. This allows several different programs to connect to the same virtual “COM11” port.

VSPE’s description of a virtual Splitter ‘device’.

VSPE must be started first, to create those virtual COM11 ports. When you start up each program, its own port configuration menu will now include COM11 so that is the one you should select (COM6 will still be listed, but make sure you don’t connect to that any more).

These menu selections show how to configure the port splitter:

vspe2

2. Start your logging software

Now you can start up your existing logging program, reconfigure it for the new virtual port COM11 and make sure that it talks to your transceiver exactly as it did with the old hardware COM port connection. The logging program should be able to control the transceiver, and the logging software should also follow any frequency/mode changes that you make on the transceiver.

3. Connect your SDR

Now is also the time to connect your SDR and arrange for its RX feed.  Usually this will come from the transceiver, either a dedicated IF output or a signal-frequency feed which is shared with the transceiver itself (typically a rear panel RX OUT connector).

For HF you can probably connect the SDR to the HF transceiver’s own dedicated IF output (at 8.215MHz in the case of the K3). However, if the transceiver is connected to a VHF/UHF transverter, a better signal/noise ratio will probably be available at the output of the transverter (typically 28MHz). Use a 3dB hybrid splitter to isolate the HF transceiver from the input to the SDR, reducing the possibility of birdies.

CAUTION: make sure that your SDR cannot be overloaded and damaged by your transmitter!

Next you can start up HDSDR. When you configure HDSDR for COM11 (details below) there should be no error messages about port conflicts. When everything is working OK, go back into VSPE and save your port-splitter configuration as a .vspe file that can be loaded automatically at startup.

4. HDSDR configuration

HDSDR2

HDSDR control panel. Lower right is a magnified spectrum/waterfall display of the current frequency (144.388MHz). Ctrl+Shift toggles the whole control panel on/off. For menu options, click Options or press F7.

Assuming that you already have HDSDR set up and working with your SDR as a standalone program, most of the additional changes can be found in the following HDSDR sub-menus (F7 or click Options on the control panel).

4.1 Options > CAT to Radio (OmniRig) > OmniRig Settings

Configure Port to the number of your shared virtual port (eg COM11). The rest of your port settings should be pretty much the same as you were already using. However, you should set RTS and DTR to be permanently Low so that HDSDR cannot accidentally key the transmitter.

4.2 Other settings in Options > CAT to Radio (OmniRig)

  • Sync Rig 1 = ON
  • Sync To OmniRig = ON
  • Sync From OmniRig = ON

Those three settings should ensure that your transceiver, logging program and HDSDR can all communicate with each other. However, I noticed that the VFO B knob on the K3 has considerable delays in tuning the SDR, so I normally tune HDSDR directly with the mouse. Click on the waterfall for large frequency changes and then roll the mouse wheel for fine tuning.

Also set Sync Tune Frequency = ON. (Do not select Sync LO because the LO frequency needs to remain fixed.)

4.3 Options > CAT to HDSDR

Not needed. Just make sure that Activated = OFF (unchecked).

4.4 Options > RF Front-end Config

Full sync in both directions = ON

With my VHF and UHF transverters, I use Transverter mode to give a direct signal-frequency display. For direct HF operation you will need one of the other options (which I haven’t explored).

4.5 LO settings

I always tune the band with a fixed frequency span, covering the whole range of interest and remaining static on the screen. This is important to maintain the straight vertical waterfall display (see the header photo above).

Setting the frequency span is not easy in HDSDR. You have to juggle the Spectrum Zoom slider on the control panel to set the desired width of coverage (very delicate) and each time you do that, the spectrum frequency scale ribbon will move as well. Drag the spectrum scale ribbon sideways to make it cover the exact frequency span required. This may require a few iterations between the two controls – and then be very careful not to move it again!

With the 2m transverter I select 144.150-144.400 which is the normal contest sub-band. The LO frequency then needs to be approximately centered within the display span, which in this example is 144.275.

You should now be able to QSY by clicking on either the HDSDR waterfall or the cursor in the spectrum segment. Watch to see that the transceiver follows these changes.

4.6 Choose the correct VFO

A small problem: at the moment you’re tuning the wrong VFO in the K3! The default in HDSDR is VFO A, but if you want to use the SDR as a second receiver you’ll normally need to link it to the K3’s VFO B. Fortunately it’s easy to change. On the HDSDR  frequency control panel, click on [A] (the small square box to the right of LO) and that label will change to [B]. You should now be able to tune VFO B correctly instead.

Notice that the LO frequency should not be changing (it will only change if you move completely outside of the visible frequency span.) If the LO frequency has changed for some reason, reset it to the centre of your desired display span.

Finally, right-click on the word LO to lock the LO.

At switch-on, HDSDR will restart with your previous LO and Tune frequencies, but it always defaults back to VFO A with the frequencies unlocked. You simply need to repeat the little routine above.

CAUTION:  When in use, VFO control of the K3 can occasionally jump back to VFO A.  This seems to happen if the VFO A and B frequencies are too close (eg if you have pressed A=B on the transceiver). VFO tracking can usually be reset to follow VFO B by splitting the two frequencies more widely apart, and then repeating the routine above.

4.7 HDSDR screen

I prefer the configuration in the header photo above, with a very small spectrum on top and the largest possible waterfall below. This maximizes the time history that is visible on-screen.

Setting the desired frequency span is described in 4.5 above.

The HDSDR control menu and the small passband spectrum appear in the lower part of the HDSDR window, but once your setup is OK you can press Shift-C to close those displays, and then the waterfall can flow further downward.

CAUTION: Your logging software probably has a very large number of keyboard shortcuts… but so too does HDSDR, and many of them use the same shortcut keys. Take great care that the Windows focus is on the correct program before you start typing!

 

Those settings should get you there… or at least somewhat closer to SO2V using HDSDR as the second receiver.

If this works for you, there are also ways to automate the setup and shutdown.

Special thanks for all the help and support from David, GM4JJJ.

 

Ian White GM3SEK
v2, 2017-09-30

One thought on ““Play Nicely Together”: Integrating the K3, SDRplay RSP1, HDSDR and N1MMlogger+

  1. Conrad

    Hello Ian, I can confirm operation with SDRPlay RSP2 Pro, IC746, IC7300 and TS2000x. The configuration that I independently arrived at is identical to yours, including VPSE. I also use N1MM+ for the NAC contests. I cannot imagine contest operation without this facility.

    Regards
    Conrad PA5Y

    Like

    Reply

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