This package designed for 20kW AC EV Charging:
Existing solar system required. installation is additional.
“Travel and Live in a World,
without Consuming the Earth”
Most people with existing solar are selling their excess solar power for a pittance. Electric utilities plan to pay ZERO in the future. If you have an EV now, or plan to have one, Safiery have a solution for you:
1) Install an upgraded hybrid Inverter/Charger to your existing solar.
2) Install a Safiery Lithium system, CEC Accredited with 10 yr warranty.
3) Safiery configure the system for 3 Phase, EVEN IF YOU ONLY HAVE SINGLE PHASE COMING INTO THE HOUSE.
4) Safiery install a Victron 3 Phase EV charging station.
The system will charge the lithium battery bank by day and use excesss solar to charge the EV either before the battery is fully charged or after it is charged. Your choice of strategy.
Plug in your EV into the Type 2 Socket and let the system do the rest. It will charge at 20kW AC 3 phase.
For EV’s with 60kWh lithium, time to charge 10% to 80% is 2.25 hours.
To exclusively use solar, a maximum of 30kWh can be charged per day (weather permitting to recharge battery from solar). As a guide a Tesla model 3 has a consumption rate of 14.9kWh for 200km. So you would add 200km range per day from solar. On the weekend, charging during solar hours should give maximum range for the week ahead.
Specification:
AN EXISTING SOLAR SYSTEM OF 12-16KWP IS DESIREABLE.
Typical 4 Bedroom Home Profile with Swimming pool & Electric Hot Water | |||||
Solar Input | Max Energy/ Day Summer | House Consumption During Day | EV Charging per day for 400km/week | Balance for Battery Storage | Used at peak time at night |
13.3kWp | 65kWh | 40kWh | 12kWh | 13kWh | 13kWh |
Technical Data |
GW10KL-ET |
Battery Type |
Li-Ion |
Nominal Battery Voltage (V) |
500 |
Battery Voltage Range (V) |
180~600 |
Max. Continuous Charging Current (A) |
25 |
Max. Continuous Discharging Current (A) |
25 |
Max. Charge Power (W) |
10,000 |
Max. Discharge Power (W) |
10,000 |
Max. Solar Input Power (W) |
13,300 |
Max. Solar Input Voltage (V)*1 |
1000 |
Solar MPPT Operating Voltage Range (V)*2 |
200~850 |
Solar MPPT Voltage Range at Nominal Power (V)*3 |
320~850 |
Start-up Solar Panel Voltage (V) |
180 |
Nominal Solar Input Panel Voltage (V) |
620 |
Max. Input Current per MPPT (A) |
12.5/22 |
Max. Short Circuit Current per MPPT (A) |
15.2/27.6 |
Max. Backfeed Current to The Array (A) |
0 |
Number of MPP Trackers |
2 |
Number of Strings per MPPT |
1/2 |
Nominal Apparent Power Output to Utility Grid (VA) |
10,000 |
Max. Apparent Power Output to Utility Grid (VA)*2*4 |
11,000 |
Nominal Apparent Power from Utility Grid (VA) |
15,000 |
Max. Apparent Power from Utility Grid (VA) |
15,000 |
Nominal Output Voltage (V) |
400/380, 3L/N/PE |
Output Voltage Range (V) |
0~300 |
Nominal AC Grid Frequency (Hz) |
50/60 |
AC Grid Frequency Range (Hz) |
45~65 |
Max. AC Current Output to Utility Grid (A) |
16.5 |
Max. AC Current From Utility Grid (A) |
22.7 |
Max. Output Fault Current (Peak and Duration) (A)” |
45@2μs |
Inrush Current (Peak and Duration) (A) |
45@2μs |
Nominal Output Current (A) |
14.5 |
Power Factor |
|
Max. Total Harmonic Distortion |
<3% |
Maximum Output Overcurrent Protection (A) |
45 |
Back-up Nominal Apparent Power (VA) |
10,000 |
Max. Output Apparent Power (VA)*3 |
10,000 (16,500@60 sec) |
Nominal Output Current (A) |
14.5 |
Max. Output Current (A) |
16.5 |
Max. Output Fault Current (Peak and Duration) (A) |
45@2μs |
Inrush Current (Peak and Duration) (A) |
45@2μs |
Maximum Output Overcurrent Protection (A) |
45 |
Nominal Output Voltage (V) |
400/380 |
Nominal Output Frequency (Hz) |
50/60 |
Output THDv (@Linear Load) |
<3% |
Max. Efficiency |
97.60% |
European Efficiency |
96.80% |
Max. Battery to AC Efficiency |
97.50% |
MPPT Efficiency |
99.90% |
PV Insulation Resistance Detection |
Integrated |
Residual Current Monitoring |
Integrated |
PV Reverse Polarity Protection |
Integrated |
Anti-islanding Protection |
Integrated |
AC Overcurrent Protection |
Integrated |
AC Short Circuit Protection |
Integrated |
AC Overvoltage Protection |
Integrated |
DC Switch |
Optional |
DC Surge Protection |
Type III |
AC Surge Protection |
Type III |
Remote Shutdown |
Integrated |
Operating Temperature Range (℃) |
–35~+60 |
Relative Humidity |
0~95% |
Max. Operating Altitude (m) |
4000 |
Cooling Method |
|
User Interface |
LED, APP |
Communication with BMS*6 |
RS485, CAN |
Communication with Meter |
RS485 |
Communication with Portal |
|
Weight (kg) |
25 |
Dimension (W×H×D mm) |
|
Noise Emission (dB) |
<30 |
Topology |
Non- isolated |
Self-consumption at Night (W) – no backup power |
<15 |
Ingress Protection Rating |
IP66 |
DC Connector |
|