Number of MPP trackers
Max. input current (Idc max)
Max. short circuit current, module array
DC input voltage range (Udc min - Udc max)
|165 - 550 V|
Feed-in start voltage (Udc start)
Nominal input voltage (Udc,r)
MPP voltage range (Umpp min - Umpp max)
|165 - 440 V|
|Usable MPP voltage range||165 - 440 V|
|Number of DC connections||3|
Max. PV generator power (Pdc max)
AC nominal output (Pac,r)
Max. output power (Pac max)
AC output current (Iac nom)
Grid connection (Uac,r)
|1~ NPE 230 V|
AC voltage range (Umin - Umax)
|180 - 270 V|
|50 / 60 Hz|
Frequency range (fmin - fmax)
|45 - 65 Hz|
Total harmonic distortion
|< 4 % 4="" %=""> 4 % >|
Power factor (cos φac,r)
|0,85 - 1 ind./cap.|
|Degree of protection||IP 65|
Overvoltage category (DC / AC) 1)
|2 / 3|
|Night-time consumption||< 1 w 1=""> 1 w>|
|Inverter design||HF transformer|
|Cooling||Regulated air cooling|
|Installation||Indoors and outdoors|
|Ambient temperature range||-25°C - +50°C|
|Permitted humidity||0 - 100 %|
Max. altitude 2)
|2.000 m / 3.500 m|
|DC connection technology||3x DC+ and 3x DC- screw terminals 2.5 - 16 mm²|
|AC connection technology||3-pin AC screw terminals 2.5 - 16 mm²|
|Certificates and compliance with standards||ÖVE / ÖNORM E 8001-4-712, AS 4777-2, AS 4777-3, AS3100, DIN V VDE 0126-1-1/A1, VDE AR N 4105,|
IEC 62109-1-2, IEC 62116, IEC 61727, CER 06-190, CEI 0-21, EN 50438, G83, G59, NRS 097
|Max. efficiency (PV - grid)||96,1 %|
|European efficiency (ηEU)||95,2 %|
η at 5% Pac,r 3)
|88,6 / 89,6 / 89,4 %|
η at 10% Pac,r 3)
|91,2 / 92,3 / 91,4 %|
η at 20% Pac,r 3)
|94,0 / 94,8 / 94,5 %|
η at 25% Pac,r 3)
|94,5 / 95,1 / 95,0 %|
η at 30% Pac,r 3)
|94,8 / 95,5 / 95,3 %|
η at 50% Pac,r 3)
|95,0 / 95,7 / 95,2 %|
η at 75% Pac,r 3)
|94,8 / 95,9 / 95,6 %|
η at 100% Pac,r 3)
|94,4 / 95,7 / 95,5 %|
|MPP adaptation efficiency||> 99,9 %|
|DC insulation measurement||Warning / shutdown (depending on country setup) at RISO < 600 kω 600="" kω=""> 600 kω >|
|Overload behaviour||Operating point shift, power limitation|
|WLAN / Ethernet LAN||Fronius Solar.web, Modbus TCP SunSpec, Fronius Solar API (JSON)|
|6 inputs and 4 digital inputs/outputs||Interface to ripple control receiver|
USB (type A socket) 4)
|Data logging, inverter update via USB flash drive|
2x RS422 (RJ45 socket) 4)
|Fronius Solar Net|
Signalling output 4)
|Energy management (floating relay output)|
|Datalogger and web server||Integrated|
External input 4)
|S0 meter connection / Evaluation of overvoltage protection|
|RS485||Modbus RTU SunSpec or meter connection|
SnapINverter technologyThe SnapINverter generation of inverters features a simple, standardised mounting system, making installation and maintenance easier than ever. A special feature in the design of the device is that the connection area is separate from the power stage set compartment, with both being installed separately. The remarkably light connection area and all its cabling is fitted to the wall first, followed by the power stage set. The innovative hinged system makes installation and servicing extremely user-friendly. The inverter is simply placed in the wall bracket and then secured. This means that it is not necessary to remove the entire inverter for servicing, just the power stage set. All the cabling remains in place.
Automatic HF transformer switchoverFronius transformer inverters use a high-frequency (HF) transformer. The automatic transformer switchover facility produces three efficiency peaks. The result: a consistently high level of efficiency across the entire input voltage range. This gives higher yields. Other advantages of HF transformer technology are the compact, lightweight design and safety as a result of the electrical isolation.
Integrated data communicationWe are the first inverter manufacturer to offer a data communication package with fully integrated datalogging, WLAN, Ethernet, energy management, web server and a range of interfaces. The inverter is connected to the internet by network cable or WLAN - without additional cabling - and grants you the perfect overview of how the PV system is operating. Connection to third-party components is provided by means of interfaces such as Modbus TCP SunSpec, Modbus RTU SunSpec or Fronius Solar API (JSON). The open interfaces can also be operated in parallel to the Fronius Solar.web.
Smart Grid ReadyFronius inverters are ready for the Smart Grid of tomorrow. The inverters are optimally equipped to meet the technical requirements of grids in the future. A series of smart functions, known as Advanced Grid Features, are built into the devices. They include a number of control functions for optimum feed-in of reactive power and effective power. These functions are designed to enable stable grid operation even when the PV system density is very high and to prevent unwanted interruptions to feed-in and associated yield losses if grid parameters exceed the thresholds. Fronius inverters therefore help to guarantee the yield of a PV system. Furthermore, where feed-in limits are imposed, Fronius inverters can provide dynamic feed-in control with self-consumption taken into account. Just connect the meter and set the feed-in limit!
Zero feed-inToday, an increasing number of grid operators in various countries are stipulating a PV power feed-in limit as a precondition before a system is connected to the grid. With dynamic power reduction, Fronius is offering a solution for optimum feed-in management. The Inverter supplies the household consumers with energy first and then reduces the system Output to the maximum energy feed-in permitted by the grid operator. With Fronius inverters, zero feed-in is also a possibility thanks to this function, meaning that no PV power is fed into the grid. The relevant requirements of the grid operator can be fulfilled by simply enabling a Setting on the inverter's web interface.
Active CoolingActive cooling technology relies on one or more fans, which not only avoid hot spots, but also regulate the air circulation inside the inverter, thus keeping the temperature of the power electronics low. This has a positive effect on the service life of the devices, optimises yields and reduces costs. At Fronius, active cooling is supplied as standard in all devices.
Digital Operating Instruction
Clear HTML version of the operating instructions. Mobile and optimised for every device.
The deliberate design of the Fronius SnapINverter meets great enthusiasm of our installers and customers.
FOOTNOTES FOR TECHNICAL DATA
1) According to IEC 62109-1.
2) Unrestricted/restricted voltage range.
3) And at Umpp min / Udc,r / Umpp max.
4) Also available in the light version.