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Deye SUN-80K-SG01HP3-EU Hybrid Inverter
SKU
SUN-80K-SG01HP3-EU
Brand
Deye
Datasheet (PDF)

Deye SUN-80K-SG01HP3-EU Hybrid Inverter

The Deye SUN-80K-SG01HP3-EU is an industrial-class High-Voltage (200–850+ V) three-phase hybrid inverter built for sites where 51.2 V is not a storage architecture—it is a cabling bottleneck. At 80 kW per cabinet, it anchors megawatt-hour HV strings with the lowest feasible DC current density in the Deye HP3 lineup.

Tech Specs

Deye SUN-80K-SG01HP3-EU Hybrid Inverter — Tech Specs
Parameter SUN-60K-SG02HP3 -EU-EM6 SUN-70K-SG02HP3 -EU-EM6 SUN-75K-SG02HP3 -EU-EM6 SUN-80K-SG02HP3 -EU-EM6
Battery Input Data
Battery Type Lithium-ion
Battery Voltage Range (V) 160-1000
Max. Charging Current (A) 80+80
Max. Discharging Current (A) 80+80
Charging Strategy for Li-ion Battery Self-adaption to BMS
Number of Battery Input 2
PV String Input Data
Max. PV Access Power (W) 120000 140000 150000 160000
Max. PV Input Power (W) 96000 112000 120000 128000
Max. PV Input Voltage (V) 1000
Start-up Voltage (V) 180
MPPT Voltage Range (V) 150-850
Rated PV Input Voltage (V) 650
Max. Operating PV Input Current (A) 36+36+36+36+36+36
Max. Input Short-Circuit Current (A) 54+54+54+54+54+54
No. of MPP Trackers/No. of Strings MPP Tracker 6/2+2+2+2+2+2
AC Input/Output Data
Rated AC Input/Output Active Power (W) 60000 70000 75000 80000
Max. AC Input/Output Apparent Power (VA) 66000 77000 82500 88000
Rated AC Input/Output Current (A) 91/87 106.1/101.5 113.7/108.7 121.3/115.9
Max. AC Input/Output Current (A) 100/95.7 116.7/111.6 125/119.6 133.4/127.6
Max. Continuous AC Passthrough (grid to load) (A) 200
Peak Power (off-grid) (W) 1.5 times of rated power, 10s
Power Factor Adjustment Range 0.8 leading to 0.8 lagging
Rated Input/Output Voltage/Range (V) 220/380V, 230/400V 0.85Un-1.1Un
Rated Input/Output Grid Frequency/Range(Hz) 50/45-55, 60/55-65
Grid Connection Form 3L+N+PE
Total Current Harmonic Distortion THDi <3% (of nominal power)
DC Injection Current <0.5% In
Efficiency
Max. Efficiency 98.70%
Euro Efficiency 98.1%
MPPT Efficiency >99%
Equipment Protection
Integrated DC Reverse Polarity Protection, AC Output Overcurrent Protection, Thermal Protection, AC Output Overvoltage Protection, AC Output Short Circuit Protection, DC Component Monitoring, Arc Fault Circuit Interrupter (optional), Anti-islanding Protection, DC Switch, Insulation Impedance Detection, Residual Current Detection
Surge Protection Level TYPE II(DC),TYPE II(AC)
Interface
Communication Interface RS485/RS232/CAN
Monitor Mode GPRS/WIFI/Bluetooth/4G/LAN(optional)
General Data
Operating Temperature Range (℃) -40 to +60℃, >45℃ Derating
Permissible Ambient Humidity 0-100%
Permissible Altitude 3000m
Noise (dB) ≤65
Ingress Protection(IP) Rating IP 65
Inverter Topology Non-Isolated
Over Voltage Category OVC II(DC), OVC III(AC)
Cabinet Size (WxHxD mm) 606×927×314 (Excluding Connectors and Brackets)
Weight (kg) 105.0
Type of Cooling Intelligent Air Cooling
Warranty 5 Years/10 Yearsthe Warranty Period Depends the Final Installation Site of Inverter, More Info Please Refer to Warranty Policy
Grid Regulation IEC 61727, IEC 62116,CEI 0-21, EN 50549, NRS 097, RD 140, UNE 217002,OVE-Richtlinie R25, G99,VDE-AR-N 4105
Safety / EMC Standard IEC/EN 61000-6-1/2/3/4, IEC/EN 62109-1, IEC/EN 62109-2

At 80 kW continuous capability, a 51.2 V parallel battery farm would require multiple independent BMS networks, duplicated combiners, and copper buswork measured in kilograms per meter. The 200–850+ V platform collapses that complexity into a controlled series string: fewer conductors, lower I²R losses, and a single Master BMS handshake on CAN. For warehouses, food processing, logistics hubs, and light industry across Georgia, that directly reduces installed CAPEX before tariff arbitrage even begins.

Scaling follows the SG01HP3 Master/Slave playbook: up to 10 SUN-80K units can be paralleled—800 kW AC nameplate—while battery CAN remains on the designated Master inverter. HV modules (Heckman RHFP racks in OPEN RACK HP enclosures, or Sunwoda OASIS 60 kWh blocks) must be SOC-matched pre-commissioning; a single out-of-balance module can trip the entire string. AC-side integration supports full three-phase imbalance, GEN-port AC Coupling for legacy PV fleets, and external revenue-grade metering (CHINT DTSU 666 standard; Eastron SDM + PLC/RS485 when the grid tie point is remote).

Operationally, the 80K HP3 targets the 0.35 ₾/kWh B2B band with aggressive peak shaving, export limiting, and EMS-driven dispatch. EcoBSS PowerWallet scheduling can unify buy/sell/auto windows where stock Deye firmware would force manual 'Selling First' toggles. Because DC potentials approach 850 V, only licensed commercial teams should commission DC switchgear: insulated tools, HV-rated disconnects, visible isolation points, and documented emergency shutdown paths are non-negotiable—this is not a residential install scaled up.

Ideal for

  • Industrial and logistics facilities planning 100 kWh to multi-MWh HV storage behind a single MV/LV transformer
  • EPC firms paralleling multiple HP3 cabinets toward 500–800 kW AC output
  • Projects where diesel replacement or peak-demand clipping must be engineered with auditable BOS cost savings

Technical FAQ

How far can the 80K HP3 scale when paralleled?
Up to 10 SUN-80K-SG01HP3-EU inverters can be paralleled on CAN, yielding up to 800 kW AC output. Battery BMS CAN connects to one Master unit; Slaves are addressed sequentially on Modbus. AC breaker and busbar engineering must respect summed fault current.
Why not use multiple 51.2 V 20 kW hybrids instead of one 80K HV?
You can—but you pay in copper, floor space, parallel BMS complexity, and maintenance points. At 80 kW and MWh targets, HV series strings reduce conductor count by an order of magnitude and simplify thermal management across the DC plant.
Which storage products pair with the 80K inverter?
Only HV-rated systems: Heckman RHFP05100A strings (often in OPEN RACK HP), and Sunwoda OASIS 60 kWh HV cabinets. Contact Inversol for OASIS pricing on megawatt-class layouts.
What commissioning steps are unique to 850 V DC?
Independent verification of string voltage before closing DC breakers, SOC balancing across every module, HV PPE for all personnel, and functional testing of emergency DC disconnects. Arc-flash planning and commercial code compliance exceed standard LV hybrid checklists.
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