Sega Master System II Capacitor Replacement Guide
Replacing the ageing electrolytic capacitors in your Sega Master System II is a vital preventative measure to ensure stable power delivery, crisp video output, and reliable sound. Decades-old capacitors can cause random crashes, distorted graphics, muted audio, or even prevent the console from powering on. Proactive recapping restores original performance and protects your SMS II from future failures.
Visual Inspection & Failure Signs
editBefore starting, examine all electrolytic capacitors on the motherboard for:
- Bulging or domed tops – Indicates internal pressure and imminent failure.
- Leaking electrolyte – Brown, white, or green residue at the base or on the PCB.
- Corrosion or PCB staining – Darkened or tarnished areas around capacitor pads.
- Random resets, video glitches, or weak audio – Often traceable to high-ESR or failed capacitors.
If any capacitor shows these symptoms, replace all electrolytics on the board for long-term reliability.
Sega Master System II Capacitor List
editThe SMS II has a compact mainboard with a modest number of electrolytic capacitors. Values may vary slightly between regional models and board revisions; always cross-check against silkscreen markings.
| Ref. Designator | Capacitance | Voltage | Circuit / Function |
|---|---|---|---|
| C1 | 220 µF | 16 V | Audio output DC-block |
| C2 | 1000 µF | 16 V | Main +5 V input filter (bulk smoothing) |
| C3 | 100 µF | 16 V | Video encoder supply decoupling |
| C4 | 10 µF | 16 V | Reset circuit timing |
| C5 | 10 µF | 16 V | VRAM decoupling |
| C6 | 10 µF | 16 V | CPU decoupling |
| C7 | 1 µF | 50 V | Composite video coupling |
| C8 | 22 µF | 16 V | Audio preamp coupling |
| C9 | 47 µF | 16 V | RF modulator supply filter |
| C10 | 100 µF | 16 V | Power rail decoupling (near VDP) |
Some board revisions may omit C9 (RF modulator) or combine C5/C6. Replace all electrolytics present on your specific board.
Recapping Procedure
edit- Open the console – Remove the six screws on the underside and gently lift the top shell.
- Remove the mainboard – Disconnect the controller ports and LED wires if present.
- Inspect and note capacitor orientation – Take reference photos; most are polarised.
- Desolder old capacitors – Use solder wick or a pump; avoid overheating pads.
- Clean pads – Remove old flux and residue with isopropyl alcohol.
- Install new capacitors – Match polarity (long lead = positive), and fit values as per table.
- Trim leads and solder – Ensure clean, shiny joints and no solder bridges.
- Reassemble and test – Power up and check for correct operation.
Recommended Tools & Parts
edit- Temperature-controlled soldering iron (15–40 W, fine tip)
- Desoldering braid or pump
- High-quality 105 °C, low-ESR radial capacitors (Nichicon, Panasonic, Rubycon)
- Isopropyl alcohol (99%) and ESD-safe brush
- Small side-cutters for lead trimming
- Multimeter (for continuity and voltage checks)
Post-Recap Voltage & Signal Checks
editAfter reassembly, verify the following at the mainboard test points or cartridge slot (console powered on, no cartridge):
| Test Point | Expected Value | Max Ripple (p-p) |
|---|---|---|
| +5 V (main regulator output) | 4.90 – 5.10 V | < 50 mV |
| Composite video (pin 1, AV out) | 1.0 V p-p (with colour bar test) | Clean, no hum |
| Audio out (pin 2, AV out) | 0.5–1.0 V p-p (with game sound) | No buzz or distortion |
If you observe visible video noise, hum on audio, or voltage sag below 4.85 V, re-check capacitor polarity and solder joints.
Extra Tips
edit- Use the correct polarity! Electrolytic capacitors are polarised; reversing them can damage the SMS II.
- Keep capacitor height ≤ 13 mm to avoid fouling the top shell.
- Replace the power supply capacitors if using the original Sega “brick” – these are now over 30 years old.
- Clean up any electrolyte residue thoroughly to prevent future corrosion.
- Test with a known-good game after recapping to confirm full functionality.
- Label removed screws and cables for easier reassembly.