Battery sizing application note · Rev 1.0
Sizing the AERL Kakadu 120 with the Selectronic SP PRO SPLC1200 / SPLC1202
Pairing rule: 1 × SP PRO 120 V inverter (SPLC1200 or SPLC1202) ↔ 1 × Kakadu 120 battery cabinet. This sheet confirms that a single Kakadu 120 has the discharge-current capability to support a single SPLC1200 or SPLC1202 across all of its rated AC load periods.
Key parameters
Inverter (120 V class)
| Parameter | SPLC1200 | SPLC1202 |
|---|---|---|
| Nominal DC input | 120 V (100–162 V) | 120 V (100–162 V) |
| Continuous AC output | 15.0 kW | 20.0 kW |
| Peak efficiency | 97.2 % | 97.2 % |
| Max continuous charge | 15.0 kW / 125 A | 20.0 kW / 167 A |
Kakadu 120 (battery)
| Parameter | Value |
|---|---|
| Nominal voltage | 140.8 V (112.2–165 V) |
| Max continuous discharge | 300 A (150 A/string) |
| Peak discharge (1 min) | 315 A |
| Peak discharge (5 s) | 400 A / 42.2 kW |
| Max continuous charge | 200 A |
| Usable capacity | 88.4 kWh / 628 Ah (≤90 % DoD) |
Both inverters share the same 120 V DC class, so each sits within the Kakadu's operating window (≈112–162 V overlap) throughout discharge.
DC current draw vs. battery limit
DC current is calculated from the SP PRO AC load ratings, referred back through the inverter: I_dc = P_ac ÷ (η × V_dc)with η = 97.2 %. Two voltages are shown: nominal (140.8 V) for the typical case, and minimum (112.2 V) for the worst case near end-of-discharge, where current is highest.
SPLC1200
| Load period | SP PRO AC power | DC power (÷97.2 %) | I_DC @ 140.8 V | I_DC @ 112.2 V (worst case) | Kakadu limit | Result |
|---|---|---|---|---|---|---|
| Continuous 24/7 | 15.0 kW | 15.43 kW | 110 A | 138 A | 300 A continuous | Pass |
| 60 minutes | 18.0 kW | 18.52 kW | 132 A | 165 A | 300 A continuous | Pass |
| 30 minutes | 23.0 kW | 23.66 kW | 168 A | 211 A | 300 A continuous | Pass |
| 1 minute | 26.0 kW | 26.75 kW | 190 A | 238 A | 315 A (1 min peak) | Pass |
SPLC1202
| Load period | SP PRO AC power | DC power (÷97.2 %) | I_DC @ 140.8 V | I_DC @ 112.2 V (worst case) | Kakadu limit | Result |
|---|---|---|---|---|---|---|
| Continuous 24/7 | 20.0 kW | 20.58 kW | 146 A | 183 A | 300 A continuous | Pass |
| 60 minutes | 24.0 kW | 24.69 kW | 175 A | 220 A | 300 A continuous | Pass |
| 30 minutes | 30.0 kW | 30.86 kW | 219 A | 275 A | 300 A continuous | Pass |
| 1 minute | 35.0 kW | 36.01 kW | 256 A | 321 A | 315 A (1 min peak) | Pass* |
*For the SPLC1202 only: at the simultaneous worst case of full 1-minute power and minimum battery voltage, the draw (~321 A) reaches the cabinet's 1-minute peak rating (315 A). This is a brief transient within BMS tolerance; at nominal voltage the draw is 256 A, well inside the limit. The SPLC1200 keeps margin in every cell.
Conclusion
A single Kakadu 120 cabinet correctly pairs 1:1 with either the 15 kW SPLC1200 or the 20 kW SPLC1202. For both inverters, the continuous, 60-minute and 30-minute draws sit comfortably below the 300 A continuous discharge rating, and the 1-minute surge stays at or under the cabinet's 315 A peak rating. The SPLC1200 retains headroom across the board; the larger SPLC1202 is the more demanding pairing, with its 1-minute surge matched to the battery's 1-minute peak. No battery oversizing is required for either inverter.
Notes & assumptions
- AERL Pty Ltd — Kakadu 120 (REV 004) × Selectronic SP PRO Series 2i SPLC1200 / SPLC1202 (BR0007_26).
- Currents use the inverter's peak efficiency (97.2 %). Real-world efficiency under heavy load is a few percent lower, which raises current slightly; the worst-case (112.2 V) column provides the margin to cover this.
- The 30 s / 38 kW surge rating is excluded per scope; if assessed, it falls under the Kakadu's 5 s / 400 A peak.
- Charge side: both inverters' continuous charge (SPLC1200 125 A, SPLC1202 167 A) is within the Kakadu's 200 A continuous charge limit.
- Verify the inverter's high-voltage disconnect against the Kakadu's 165 V top-of-range during commissioning (SPLC1200/1202 upper input limit is 162 V).
- Figures at 25 °C; derate per the Kakadu temperature curves outside the managed operating range.
Designing an off-grid or standalone power system with the Kakadu 120? Talk to our engineering team or see the Kakadu 120 product page for datasheets and manuals.