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HF-PA-v10 ;) Is this the end of the search for a 5W Digital PA? HF-PA-v10 is now a rugged 10W PA!

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Why?

We need a QRP PA which does NOT blow up (unlike those 3xBS170 and 4xBS170 designs). We believe that if the FETs blow up (despite best practices and intentions but under less-than-ideal external conditions), then the design has FAILED!

Inspirational Video Link

Update (August-2024): https://github.com/kholia/HF-PA-v10/tree/master/IRFP-Hacks-v5-SMD (or v4 for THT regulator) and SUPSiC GC2M0280120D is all you need for 30W All-HF PA for 4 USD. For 30W All-HF PA @ 8.5 USD, my tested MOSFET is CREE C2M0280120D. Use 7815 regulator for powering the UCC gate driver when using the *C2M0280120D MOSFET. SUPSiC GC3M0280090D works very well too and is our top choice now (as of September, 2024).

Important update (February-2024): LC match for IRF510 @ 28 MHz. 7 turns FT50-6 and 220pF capacitor. Corrected PAE figure is around 50%. 30v @ drain produces roughly 10W of clean'ish looking RF output. 24v @ drain produces 6W @ 28 MHz. 17v @ drain produces 3.7W.

March-2024 update: LC match for IRF510 @ 50 MHz. T50-6 4 turns and 180pF capacitor. 24v @ drain produces clean'ish 28.8 Vpp (~2W). PAE is around 25%. Such is life...

WSPR results

Update (29-September-2023): By removing the gate resistor, we firmly push the amplifier into more Class-D operation. The MOSFET now remains as cool as a cucumber!

Update (10-September-2023): The PCB was successfully validated!

Output is 7 to 8 W (before LPF) over a range of 160m to 10m as expected, with a 15V SMPS power supply. With a Pro-BPF attached, the power output is ~5W even at 28 MHz with IRF510! It even puts out 2W @ 50 MHz!

Amplifier characterization (@ 30.7 MHz for some reason, before LPF):

7 volts -> 2W

8 volts -> 3W

9 volts -> 3.5W

10 volts -> 4W

11 volts -> 5W

12 volts -> 6W

14 volts -> 8W

Efficiency is in the range of 45 to 50% which isn't bad ;)

Another result: 17 volts. 14 MHz. NKK LPF. 17.3W DC in. 57.6 clean Vpp on scope. 8.3W clean RF output @ 48% efficiency!

BOM cost (minimal version): < 450 INR only - beat this! ;)

Note: HF-PA-v10 is also known as CoolAMP (TM).

Build Notes:

  • Use a 15V / 16v power supply.

  • If you want to use a 13.8V power supply, then

    • Do NOT install the 78M12 regulator

    • Bridge the JP2 jumper

  • Use adequate heatsinking. I use a 100x100x200 aluminium block with a 12v fan for doing WSPR activities. The MOSFET temperature stays under 45 degrees this way.

  • PTT is active high - 3.3v is enough to trigger PTT.

  • To skip the PTT sub-circuit, bridge the AOD407 MOSFET's source to drain.

  • This amplifier can be directly driven by Si5351 (use 8mA drive setting)!

  • IMPORTANT: For safety and RF output control, use a 10A DC-DC Step-down Adjustable Constant Voltage Module or something similar.

PA 1

PA Minimal

Results:

1

2

3

4

5

Fun on WSPR:

WSPR 1

Note: I am using a 5-meter long EFHW antenna tuned for the 10m band along with ~45 meters of HLF-240 coax. Your results should be better than mine ;)

Quick Hacks:

I am using one v10 board (on low power setting of ~1 to 2W) to drive the second v10 board.

The second v10 board has IRF530 on it. It uses a simple 3R3 SMD drain choke, 240nH inductor (8 turns on T50-6) + 470 pF LC match for the 20m band at the output side.

The power output is 20W+ with 30v at the IRF530 drain. While this is fine for FT8, we decrease the output power to 9 to 12W for WSPR mode (considering derating, heat dissipation, fear of "flash over")

Results for IRF530 hack

December-2023 update: We can now use IRFP140N (with its massive TO-247 package) to generate around "20W" safely for WSPR. We drive the IRFP140N MOSFET directly with the UCC driver chip now.

Settings: UCC driver at roughly 12v. With LC match set for 20m band (NB!).

IRFP140N @ 28v drain @ 14 MHz -> 22W

IRFP140N @ 28v drain @ 3.5 MHz -> 20W (for Rafal)

IRFP140N @ 28v drain @ 7 MHz -> 20W

We believe we can push 25W easily by feeding 14v to 15v to the UCC driver chip.

The "final" IRFP140N MOSFET remains as cool as a cucumber, pretty boring - right? Where have the "exciting" days of the MOSFETs blowing up in your face gone? Just kidding!

NB: To overcome antenna losses (~2.0 SWR 20m dipole), lossy 50m meters of HLF-200 coax, we need to generate around 15W+ on the amplifier side.

In [1]: 15W * 0.88 (SWR losses) * 0.40 (coax losses)
Out[1]: 5.28

PA protection:

  • We plan to use INA219 to monitor current consumption, and to terminate TX if anomalies are detected.

  • Use thermocouple attached to the MOSFET's body using thermoglue to monitor the temperature, and to terminate TX if anomalies are detected.

New discoveries (via https://github.com/rafal-rozestwinski):

  • Power output is 1 to 1.5W on 50 MHz.

  • The PA survives open and short conditions but protections are recommended in any case.

    • INA219 based current monitoring

    • Thermocouple based temperature monitoring

  • We do NOT recommend the old-skool SWR monitoring approach due to its complexity (for end-users).

Learnings:

  • Keep the IRF510's gate voltage <=9 volts.

    If the IRF510's gate voltage is too high (i.e. when IRF510 is over-driven), it results in super wide-band distorted noisy signal on the output - you don't want that ;)

    If you want to feed high voltages to IRF's drain, then use a regulator (9v) for powering the UCC driver chip.

Joining In:

Are you interested in such projects, and spam-free technical discussions?

If yes, you might be interested in joining the 'HAMBREWERS' Telegram group.

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HF-PA-v10 ;) Is this the end of the search for a 5W Digital PA? HF-PA-v10 is now a rugged 10W PA!

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