For
Tube-amp builders who want a real Studio: design any tube regulator from spec, simulate, diagnose and export.
You will learn
- Compare every tube-only regulator topology on a shared bench
- Master cold-cathode VR physics, stacking and ballast sizing
- Design series + error-amp regulators with predictable Zout, ripple and stability
- Diagnose live faults (oscillation, sag, hum, no-strike) with the interactive assistant
- Export Markdown reports + SPICE netlists wired to Ampera's Koren tube models
Before you start
Power supply & rectification
Time & level
45 minAdvanced
Next step
Tube Voltage Regulation Studio
Spec to topology to SPICE in 2 minutes. Pick a preset, tweak the numbers, get a working design.
V
mA
mV
Recommendation
Series + grounded-cathode amp
Predicted ripple
800 µV
Z_out DC
0.7 Ω
Active tubes
4
Pass
5687
P=4.2W · I=35mA
Reference
0A3 / VR75
V_ref=75V
Error amp
6BM8 / ECL82 (pent.)
gain 100–180×
Feedback divider
R1 167 kΩ · R2 100 kΩ
- ·Ripple met: 800 µV ≤ 1 mV target.
- ·Current envelope OK: I_out max 200 mA vs 20 mA requested.
- ·4 active tube(s) — complexity 4/5.
- ·Closed-loop feedback: Z_out DC ≈ 0.7 Ω.
Why this studio
One shared bench.
Fourteen pure calculators.
All measurements reproducible.
The shared bench (60 Hz / 325 Vrms / CLC cap-input filter / 50 mA) is the reference every calc reads. Tweak the mains, the rectifier or the filter and every compared topology recomputes instantly. It is a design tool, not a static tutorial.
Every calculator is a pure TypeScript function, tested with reference values from the bench. Results are reproducible, exportable (SPICE, Markdown), shareable (permalink). No hidden dependencies.
See the full reference catalogue→14 calcs · 16 schematics · 7 labs
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