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SOLAR ENERGY
Installers & partners

Fronius Symo

Maximum flexibility for the applications of tomorrow.

With power categories ranging from 3.0 to 8.2 kW, the transformerless Fronius Symo is the three-phase inverter for every system size. Owing to the SuperFlex Design, the Fronius Symo is the perfect answer to irregularly shaped or different roof orientations. A WLAN or Ethernet internet connection as standard plus easy integration of third-party components make the Fronius Symo one of the most communicative inverters on the market. Furthermore, the meter interface permits dynamic feed-in management and a clear visualisation of consumption.
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Product details

Input Data

Number of MPP trackers1
Max. input current (Idc max)
16 A
Max. short circuit current, module array*
24 A
DC input voltage range (Udc min - Udc max)
150 - 1000 V
Feed-in start voltage (Udc start)
200 V
Nominal input voltage (Udc,r)
595 V
MPP voltage range (Umpp min - Umpp max)
250 - 800 V
Usable MPP voltage range150 - 800 V
Number of DC connections3
Max. PV generator power (Pdc max
7,4 kWpeak

Output Data

AC nominal output (Pac,r)
3700 W
Max. output power (Pac max)
3700 VA
AC output current (Iac nom)
5,3 A
Grid connection (Uac,r)
3~ NPE 400/230, 3~ NPE 380/220 V
AC voltage range (Umin - Umax)
150 - 280 V
Frequency (fr)
50 / 60 Hz
Frequency range (fmin - fmax)
45 - 65 Hz
Total harmonic distortion<3% @Pnom (230/400VAC 50Hz)
Power factor (cos φac,r)
0,70 - 1 ind./cap.

General Data

Width432,5 mm
Height642,5 mm
Depth205,5 mm
Weight16,54 kg
Weight incl. packaging18,65 kg
Degree of protectionIP 65
Protection class1
Overvoltage category (DC / AC) 1)
2 / 3
Night-time consumption< 1 W
Inverter designTransformerless
CoolingRegulated air cooling
InstallationIndoors and outdoors
Ambient temperature range-25°C - +60°C
Permitted humidity0 - 100 %
Max. altitude 2)
2 000 m / 3 400 m
DC connection technology3x DC+ and 3x DC- screw terminals 2.5 - 16 mm²
AC connection technology5-pin AC screw terminals 2.5 - 16 mm²
Certificates and compliance with standardsÖVE / ÖNORM E 8001-4-712, DIN V VDE 0126-1-1/A1, VDE AR N 4105, IEC 62109-1/-2, IEC 62116, IEC 61727, AS 3100, AS 4777-2, AS 4777-3, CER 06-190, G83/2, UNE 206007-1, NRS 097
Sound emissions49,9 dB(A)
Interference emission classB

Efficiency

Max. efficiency (PV - grid)98 %
European efficiency (ηEU)96,7 %
η at 5% Pac,r 3)
83,4 / 86,4 / 80,6 %
η at 10% Pac,r 3)
90,1 / 92,5 / 88,7 %
η at 20% Pac,r 3)
93,7 / 95,7 / 93,6 %
η at 25% Pac,r 3)
94,5 / 96,4 / 94,7 %
η at 30% Pac,r 3)
95,0 / 96,7 / 95,4 %
η at 50% Pac,r 3)
96,9 / 97,6 / 96,7 %
η at 75% Pac,r 3)
96,2 / 97,8 / 97,3 %
η at 100% Pac,r 3)
96,2 / 98,0 / 97,5 %
MPP adaptation efficiency> 99,9 %

Protection Devices

DC insulation measurementYes
Overload behaviourOperating point shift, power limitation
DC disconnectorYes
DC Reverse polarity protectionYes

Interfaces

Wi-Fi / Ethernet LANFronius Solar.web, Modbus TCP SunSpec, Fronius Solar API (JSON)
6 inputs and 4 digital I/OsInterface 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 serverIntegrated
External input 4)
S0 meter connection / Evaluation of overvoltage protection
RS485Modbus RTU SunSpec or meter connection

SnapINverter technology

The 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.

Integrated data communication

We 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.

SuperFlex Design

The Fronius SuperFlex Design is an ingenious combination of technical performance attributes that make designing your PV system not only extremely simple, but also incredibly flexible. The key performance factors of the SuperFlex Design are two MPP trackers, together with a high system voltage and wide DC input voltage range. Every DC input, and therefore every MPP tracker, is able to accommodate the entire nominal output of the inverter. Regardless of whether the inverter has to cope with different roof orientations, shading of one or two strings, or the use of residual modules: a Fronius inverter featuring integrated SuperFlex Design will satisfy every conceivable operational PV system planning scenario using just a single inverter model.

Dynamic Peak Manager

The Dynamic Peak Manager is a new MPP tracking algorithm that dynamically adapts its behaviour when searching for the optimal operating point. Its special feature is that the Dynamic Peak Manager automatically checks the entire characteristic curve on a regular basis and finds the global Maximum Power Point (GMPP), even in partial shade.

Smart Grid Ready

Fronius 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-in

Today, 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 Cooling

Active 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.

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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.

 

* Isc pv = Isc max ≥ Isc (STC) x 1,25 according to e.g.: IEC 60364-7-712, NEC 2020, AS/NZS 5033:2021.



Michele Nogara - Tessen Studio Associato

“The decision to replace the faulty device with Fronius Symo inverters didn‘t
take much deliberation. The technical efficiency has been increased, the devices
are quick and easy to install, and yield has improved due to the transformerless
design."