BarnacleBoy
3c11190822
- docs/sbc-selection.md: full rewrite for OPi 3B specs (RK3566, 8GB, 256GB eMMC, built-in WiFi) - README.md: SBC description, checklist, components table, quick ref, cost estimate - docs/parts-list.md: SBC marked purchased, eMMC/controller/WiFi changes - docs/design-decisions.md: WiFi exclusion reason, native eDP, power input - docs/salvage-analysis.md: WiFi card not needed, cooling fan, summary tables - docs/storage-architecture.md: rewritten for 256GB eMMC primary boot - docs/usb-expansion.md: 2x USB3 native, port allocation, power budget - docs/port-layout.md: OPi3B port differences (eDP, power-only USB-C, built-in WiFi) - docs/power-system.md: lower power draw context
3.2 KiB
3.2 KiB
Power System
Decision: IP5389 Power Bank Board (Preliminary)
All-in-one power management PCB. Replaces separate charger module, BMS, and boost/buck converter with a single board.
Why This Approach
| Requirement | IP5389 Solution |
|---|---|
| Charge lithium cells safely | Built-in CC/CV with cell balancing |
| Battery protection | Overcharge, overdischarge, short circuit, thermal |
| Output usable voltage | USB-C PD (5V, 9V, 12V, 15V, 20V) |
| Wall power input | USB-C input from any charger |
| Charge while using | Passthrough charging |
| Repairable | Bare PCB, cells are replaceable 18650s |
How It Works
USB-C wall charger → IP5389 board → 18650 cells (3S or 3S2P)
↓ (passthrough)
USB-C PD output → OPi3B (5V) + peripherals
One board, one cell pack, one output cable to the SBC. No separate modules to wire together.
Key Specs (varies by specific board)
- Cell config: 3S–6S (most common: 3S or 4S)
- Output: 45W–100W USB-C PD
- Input: USB-C (bidirectional port)
- Protection: overcharge, overdischarge, short circuit, thermal
- Price: $8–15 bare PCB
OPi3B Power Context
The Orange Pi 3B draws ~3-5W under load (vs OPi5's ~8W), which simplifies the battery system:
- Lower peak current means the IP5389 board doesn't need to push its limits
- A smaller cell pack (3S vs 3S2P) may suffice
- Less heat generated, less thermal management needed
- The OPi3B's 5V/3A input spec is well within what a USB-C PD board can provide
Cell Configuration
TBD — need to select specific board first. Likely 3S (3 cells in series) or 3S2P (6 cells, pairs in series). 3S2P with quality 3000mAh cells gives ~6000mAh at 11.1V nominal.
Salvaged Battery: Not Usable
K501U battery (B31N1429, 4240mAh, 11.4V, 3S) assessed and rejected:
- Integrated BMS is paired to the laptop mainboard
- Most laptop BMS boards lock when removed from their system
- Not worth the effort to hack around
- Low capacity (4240mAh) doesn't justify the risk
Alternative Approaches Considered
Discrete Module Stack (TP5100 + 2S BMS + Buck Converter)
- Three separate modules, more wiring
- TP5100 charger (2S, 2A) + 2S 10A BMS + 5V/4A buck converter
- ~$10 in modules, works well but more complex assembly
- Backup plan if IP5389 board has issues
Commercial Power Bank (decased)
- Buy a power bank, remove plastic shell, integrate bare PCB + cells
- Zero design work but constrained to whatever cell layout the bank uses
- Passthrough charging not guaranteed on all models
UPS HAT (Waveshare / DFRobot)
- Designed for Raspberry Pi, works via USB output with OPi3B
- Premium price for unused GPIO header
- Capped at 5V output, no 12V rail without extra boost converter
Safety Notes
- Always use 18650 cells with matching capacity and age in parallel pairs
- Fuse between board output and SBC (5A automotive blade fuse recommended)
- No puffy, warm-at-rest, or sub-2.5V cells — ever
- Match cell count to board specs (3S board = exactly 3S, don't mix)
TODO
- Select specific IP5389 board model with verified reviews
- Confirm cell count (3S vs 3S2P)
- Verify passthrough charging on selected board
- Order board + cells
- Test charging and output before case integration