Fronius Datamanager Galvo, Datamanager Symo, Datamanager Primo, Datamanager Eco Operating Instructions Manual

/ Perfect Charging / Perfect Welding / Solar Energy

42,0426,0173,EA 006-01122015

Fronius Datamanager
Galvo - Symo - Primo - Eco

Operating Instructions

System monitoring

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Dear reader,

Introduction Thank you for the trust you have placed in our company and congratulations on buying this

high-quality Fronius product. These instructions will help you familiarize yourself with the
product. Reading the instructions carefully will enable you to learn about the many different
features it has to offer. This will allow you to make full use of its advantages.

Please also note the safety rules to ensure greater safety when using the product. Careful
handling of the product will repay you with years of safe and reliable operation. These are
essential prerequisites for excellent results.

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Contents

General Information 5

General ...................................................................................................................................................... 7

General ................................................................................................................................................. 7

Available Versions of Fronius Datamanager......................................................................................... 7

Applicable DATCOM Components ....................................................................................................... 7

Prerequisites for Operation ................................................................................................................... 8

Notes regarding Radio Certification ...................................................................................................... 9

Scope of Supply.................................................................................................................................... 9

Configuration Examples........................................................................................................................ 10

Calculating the data volume....................................................................................................................... 12

General ................................................................................................................................................. 12

Firmware versions for calculating the data volume...............................................................................12

Calculating Data Volumes..................................................................................................................... 12

Calculation examples............................................................................................................................ 13

General information for the network administrator..................................................................................... 15

Requirements........................................................................................................................................ 15

General Firewall Settings...................................................................................................................... 15

Sending service messages via a DSL Internet connection................................................................... 16

Using Fronius Solar.web and sending service messages .................................................................... 16

Controls, connections and indicators ......................................................................................................... 17

Safety.................................................................................................................................................... 17

Controls, Connections and Indicators ................................................................................................... 17

Schematic Connection of I/Os .............................................................................................................. 19

Installing Fronius Datamanager 21

Inserting Fronius Datamanager into an inverter......................................................................................... 23

General ................................................................................................................................................. 23

Safety.................................................................................................................................................... 23

Installing Fronius Datamanager in Fronius Solar Net ................................................................................ 24

Installing Inverters with Fronius Datamanager in Fronius Solar Net..................................................... 24

Cabling....................................................................................................................................................... 25

Fronius Solar Net clients....................................................................................................................... 25

Fronius Solar Net Client Cabling........................................................................................................... 25

Requirements for the Solar Net Data Cables........................................................................................ 25

Preassembled data cables.................................................................................................................... 26

Installing Fronius Datamanager – Overview .............................................................................................. 27

Safety.................................................................................................................................................... 27

Starting Up for the First Time................................................................................................................ 27

Connect to Fronius Datamanager 29

Connecting to Fronius Datamanager via a Web Browser.......................................................................... 31

General ................................................................................................................................................. 31

Requirements........................................................................................................................................ 31

Establishing a Connection to Fronius Datamanager via a Web Browser ............................................. 31

Connecting to Fronius Datamanager via the Internet and Fronius Solar.web ........................................... 32

General ................................................................................................................................................. 32

Function overview ................................................................................................................................. 32

Requirements ....................................................................................................................................... 32

Accessing data from Fronius Datamanager via the Internet and Fronius Solar.web............................ 32

Current Data, Services, and Settings on Fronius Datamanager 33

The Fronius Datamanager Website ........................................................................................................... 35

Fronius Datamanager Website – Overview ..........................................................................................35

The Settings Menu................................................................................................................................ 36

Other setting options............................................................................................................................. 36

4

Current Data in Fronius Datamanager....................................................................................................... 37

Current Comparison View..................................................................................................................... 37

System Overview .................................................................................................................................. 38

Inverter/Sensors View........................................................................................................................... 39

Services – System Information .................................................................................................................. 40

System Information ............................................................................................................................... 40

Services – Network Diagnostics ................................................................................................................ 41

Network Diagnostics ............................................................................................................................. 41

Services – Firmware Update...................................................................................................................... 42

General ................................................................................................................................................. 42

Automatic Update Search ..................................................................................................................... 43

Manual Update Search ......................................................................................................................... 43

Firmware update via web...................................................................................................................... 43

Firmware Update via LAN..................................................................................................................... 44

Services – Opening Wizards...................................................................................................................... 46

Opening Wizards .................................................................................................................................. 46

Settings – General ..................................................................................................................................... 47

General ................................................................................................................................................. 47

Settings – Passwords ................................................................................................................................ 48

General ................................................................................................................................................. 48

Passwords ............................................................................................................................................ 48

Settings – Inverter...................................................................................................................................... 50

Views – Inverter .................................................................................................................................... 50

Settings – Fronius Sensor Cards ............................................................................................................... 51

Sensor Cards ........................................................................................................................................ 51

Settings – Fronius Solar.web ..................................................................................................................... 52

Solar.web .............................................................................................................................................. 52

Calculating memory capacity ..................................................................................................................... 54

Memory capacity................................................................................................................................... 54

Calculating memory capacity ................................................................................................................ 54

Calculation example.............................................................................................................................. 55

Settings – Service Messages..................................................................................................................... 56

General ................................................................................................................................................. 56

Service Messages................................................................................................................................. 56

Settings – Network..................................................................................................................................... 58

General ................................................................................................................................................. 58

Network................................................................................................................................................. 58

Settings – Energy Manager ....................................................................................................................... 62

General ................................................................................................................................................. 62

Energy Manager ................................................................................................................................... 62

Settings – Push Service............................................................................................................................. 64

Push Service......................................................................................................................................... 64

Further Information about the Push Service Function .......................................................................... 65

Modbus Settings ........................................................................................................................................ 66

General ................................................................................................................................................. 66

Additional Information on the Modbus Function.................................................................................... 66

Data Output via Modbus ....................................................................................................................... 66

Limit Control.......................................................................................................................................... 67

Save or Reject Changes ....................................................................................................................... 68

Settings – Counter ..................................................................................................................................... 69

General ................................................................................................................................................. 69

Counter ................................................................................................................................................. 69

S0 Inverter ............................................................................................................................................ 70

Settings – UC Editor ................................................................................................................................. 72

General ................................................................................................................................................. 72

UC Editor – Ripple Control Signal Receiver ......................................................................................... 72

Connection Example............................................................................................................................. 74

UC Editor – Dynamic Power Reduction ................................................................................................ 75

UC Editor – Control Priorities................................................................................................................ 76

Appendix 77

Technical Data ........................................................................................................................................... 79

Technical Data ...................................................................................................................................... 79

General Information

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General

General Fronius Datamanager is a network-compatible datalogger which combines the functional-

ity of the Fronius Com Card and Fronius Datalogger Web on a plug-in card.
The Fronius Datamanager web interface provides a quick overview of the photovoltaic sys­tem.
The web interface can be accessed via a direct connection from the Intranet or, if properly
configured, via the Internet.
Fronius Datamanager is equipped with an easy-to-configure system monitoring feature
with an automatic alarm. The alarm can be signaled via SMS, e-mail, or fax.

When connected to Fronius Solar.access, real-time photovoltaic system data as well as ar­chived data can be saved to a PC and analyzed. You can also make settings to all devices
in Fronius Solar Net.

When connected to Fronius Solar.web, the real-time and archived data of a photovoltaic
system can be easily accessed via the Internet or the Fronius Solar.web App. No difficult
configuration is required. Data is sent automatically from Fronius Datamanager to Fronius
Solar.web.

Available Ver­sions of Fronius
Datamanager

The following versions of Fronius Datamanager are available for the Fronius Galvo,
Fronius Symo, Fronius Primo, and Fronius Eco inverters:

- Without Fronius Com Card function

- Without Fronius Com Card function and with WLAN

Provided that the inverter is not fitted as standard with Fronius Datamanager, existing in­verters can be upgraded with Fronius Datamanager.

Applicable DAT­COM Compo­nents

The Fronius Datamanager plug-in card installed in the inverter can be operated with the
following DATCOM components:

- up to 100 x Fronius inverters
(incl. the inverter in which the Fronius Datamanager is installed)

- up to 10 x Fronius Sensor Card or Fronius Sensor Box

- up to 10 x Fronius Public Display Card or Fronius Public Display Box

- up to 1 x Fronius Interface Card or Fronius Interface Box

- up to 200 x Fronius String Control

8

Prerequisites for
Operation

In order to ensure flawless data exchange online, it is essential to use an appropriate in­ternet connection:

- For cabled internet solutions, Fronius recommends a download speed of at least
512 kbit/s and an upload speed of
at least 256 kbit/s.

- For solutions with mobile internet services, Fronius recommends a minimum transmis­sion standard of 3G with reliable signal strength.

These specifications do not provide an absolute guarantee of flawless operation.
High error rates in the transmission, fluctuating receptions or misfires can have an adverse
effect on Fronius Datamanager's online operation.
Fronius recommends on-site testing to ensure that the connections meet the minimum re­quirements.

Since Fronius Datamanager acts as a data logger, no other data logger may be present in
the Fronius Solar Net ring.
Only have one Fronius Datamanager for each Fronius Solar Net ring.

The following DATCOM components may not be operated together with the Fronius Data­manager in a Fronius Solar Net ring:

- Fronius Power Control Card/Box

- Fronius Modbus Card

- Fronius Datalogger Web

- Fronius Personal Display DL Box

- Fronius Datalogger easy/pro

- Fronius Datamanager 2.0

- Fronius Datamanager Box 2.0

To use Fronius Datamanager, the plug-in card must be installed in one inverter.
The Fronius Datamanager plug-in card and the Fronius Com Card must not be used to­gether in one inverter.

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Notes regarding
Radio Certifica­tion

Fronius Datamanager plug-in cards with WLAN are equipped with a wireless module.

Wireless modules in the USA require FCC certification:

Unless otherwise expressly permitted by the manufacturer, changes or modifications to the
wireless module are not allowed and lead to a loss of the right of use of the device by the
user.

Scope of Supply Basic equipment:

- 1 x Fronius Datamanager plug-in card

- 1 x Ethernet cable 5 m, blue

- 2 x Terminating plugs

- 1 x 12-pin plug

In addition for Fronius Datamanager with WLAN:

- 1 x WLAN antenna

FCC

This device conforms to the limits for a Class B digital device, pursuant to
Part 15 of the FCC regulations. These limits are designed to provide reason­able protection against harmful interference in a residential installation. This
device generates and uses high frequency energy and, if not used in accor­dance with the instructions, may interfere with radio communications. How­ever, there is no guarantee that interference will not occur in a particular
installation.
If this device does cause harmful interference to radio or television recep­tion, which can be determined by turning the device off and on, the user is
encouraged to try to correct the interference by one or more of the following
measures:

- Reorient or relocate the receiving antenna.

- Increase the distance between the device and the receiver.

- Connect the device to a different circuit than the receiver.

- Consult the dealer or an experienced radio/TV technician for help.

FCC ID: PV7-WIBEAR11N-DF1

Industry Canada RSS

This device complies with Industry Canada license-exempt RSS standards.
Operation is subject to the following two conditions:
(1) this device is not permitted to cause harmful interference, and
(2) this device must accept any interference, including interference that may
cause undesired operation of the device.

IC ID: 7738A-WB11NDF1

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Configuration Ex­amples

Linking Inverters with Fronius Datamanager to a PC:

(1) Inverter

+
(2) Fronius Datamanager
(3) Terminating plug (2x)
(4) PC/laptop

Linking inverters (Fronius Galvo, Fronius Symo, Fronius Primo, and Fronius Eco)
with Fronius Datamanager to additional inverters (Fronius IG Plus V), a Fronius Sen­sor Box and a PC:

IN

(1)

(2)

(3)

(4)

LAN / WLAN

OUT

NOTE! When linking an inverter with Fronius Datamanager to a PC, a terminating
plug must be inserted into both of the Fronius Solar Net IN and Fronius Solar Net
OUT connection sockets of the inverter.

(1) Inverter

(e.g: Fronius Galvo, Fronius Sy­mo, Fronius Primo, or Fronius
Eco)

+
(2) Fronius Datamanager
(3) PC/laptop
(4) Inverter

(e.g., Fronius IG Plus V)

+
(5) Fronius Com Card

(6) Fronius Sensor Box
(7) Inverter

(e.g., Fronius IG Plus V)

+
(8) Fronius Com Card
(9) Terminating plug

IN

IN

IN

OUT

OUT

OUT

(6)

(4) (7)

(5)

(8)

(9)

IN

(1)

(2)

(3)

(4)

LAN / WLAN

OUT

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NOTE! When linking several DATCOM components in connection with an invert-

er with Fronius Datamanager:
Connect the Fronius Solar Net IN connection socket of the inverter, for example,
and the OUT connection socket of the next DATCOM component to the data ca­ble. A terminating plug must be inserted into empty Fronius Solar Net connection
sockets of the last DATCOM component.

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Calculating the data volume

General When operating the Fronius Datamanager, data is generated and needs to be transmitted

online.
In order to select a suitable internet connection it is necessary to calculate the data volume.

The following data volume calculation provides an overview of the amount of data gener­ated when operating Fronius Datamanager.

Firmware ver­sions for calculat­ing the data
volume

The data volume calculation is based on Fronius Datamanager Firmware versions V 2.3.x­x and lower.

Higher firmware versions can cause a higher data volume due to their increased functional
range.

Calculating Data
Volumes

The data volume calculation depends on which Fronius Datamanager functions are acti­vated.

1)

Only after a restart or if the internet connection has been disconnected

2)

Calculation of memory sectors per day according to Chapter "Calculating Memory
Capacity" on page 54

3)

Depending on the quality of the internet connection

IMPORTANT: Since the values listed in the table are "rough data" for Fronius Dataman­ager and the provider's bill may show discrepancies as a result of the various ways of cal­culating the transfer volume, the total values should be increased by 10–20%.

If the functions have been deactivated, no data volume is generated.

A certain data volume is also required to update the Fronius Datamanager firmware. This
data volume depends on the size of the relevant update package and cannot therefore be
taken into account for any advance calculation of the data volume.

Function Data volume

Make real-time data avail­able in Fronius Solar.web

Once

1)

150 bytes

32 KB/h

View real-time data in
Fronius Solar.web

Current Total View
per sensor card/sensor box

42 KB/h

+ 300 KB/h

Current Comparison View
per inverter

13 KB/h

+ 4 KB/h

Home 0 KB/h

System Comparison View 0 KB/h

Send archived data/log­ging data to
Fronius Solar.web

(Memory sectors per day 2) x 4 KB) + 8 KB

Transmission time

3)

600 bytes/min

Send service messages
or errors

For daily sending
per service message or error

1 KB/day

+ 300 bytes

For immediate sending
per service message or error 1 KB

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IMPORTANT: Fronius recommends a flat rate in order to avoid unforeseeable data vol-

umes.

Calculation exam­ples

Example 1 - Home System

1 inverter;
No Fronius Sensor Card/Box;
Fronius Datamanager has a
24-hour internet connection;

+ 0.15 KB

+ 32 KB/h x 24 h = 768 KB

Archived data is sent to Fronius So­lar.web;
30 minutes transfer time;
inverters operate 14 h/day;
15 minutes storage interval;
(This results in 1 memory sector per day in
accordance with the section "Calculating
memory capacity")

+ 0.6 KB/min x 30 min = 18 KB

+ (1 memory sector/day x 4 KB) + 8 KB = 12

KB

Real-time data is viewed over a 15-minute
period every day

+ 42 KB/h x 0.25 h = 10.5 KB

1 service message sent each day to con­firm average error rate

+ 1 service message x 1 KB = 1 KB

Subtotal without safety 0.15 KB

768.00 KB

18.00 KB

12.00 KB

10.50 KB

1.00 KB

809.65 KB

A 10% safety factor is added to the calcu­lation

809.65 KB + 10%

Final result 890.615 KB/day

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Example 2 - Large System

100 inverters;
10 sensor cards/sensor boxes;
Fronius Datamanager has a
24-hour internet connection;

+ 0.15 KB

+ 32 KB/h x 24 h = 768 KB

Archived data is sent to Fronius So­lar.web;
120 minutes transfer time;
inverters operate 14 h/day;
5 minutes storage interval;
(This results in 173 memory sectors per
day in accordance with the section "Calcu­lating memory capacity")

+ 0.6 KB/min x 120 min = 72 KB

+ (173 memory sectors/day x 4 KB)

+ 8 KB

= 700 KB

The current Total View and the current
Comparison View are viewed over a two­hour period every day

+ 42 KB/h x 2 h

+ 300 KB/h x 10 x 2 h

+ (13 KB/h + 100 x 4 KB/h) x 2 h

= 6910 KB

50 service messages sent each day to
confirm average error rate

+ 50 service messages x 1 KB = 50 KB

Subtotal without safety 0.15 KB

768.00 KB

72.00 KB

700.00 KB

6910.00 KB

50.00 KB

8,500.15 KB

A 10% safety factor is added to the calcu­lation

8,500.15 KB + 10%

Final result 9,350.165 KB/day

(approx. 9.35 MB/day)

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General information for the network administrator

Requirements

If Fronius Datamanager is being integrated into an existing network, the Fronius Datama­nager address must be adapted to the network.

Example: Network address range = 192.168.1.x, subnet mask = 255.255.255.0

- An IP address between 192.168.1.1 and 192.168.1.254 must be assigned to Fronius
Datamanager.

- The IP address selected may not be already assigned in the network.

- The subnet mask must correspond to the existing network (e.g. 255.255.255.0).

If Fronius Datamanager will be sending service messages and/or data to Fronius So­lar.web, then a gateway address and a DNS server address must also be entered. Fronius
Datamanager uses the gateway address to access the Internet. The IP address of the DSL
router can be used as a gateway address, for example.

IMPORTANT!

- Fronius Datamanager may not have the same IP address as the PC/laptop!

- Fronius Datamanager cannot connect to the Internet spontaneously. A router must be
used for a DSL connection to the Internet.

If you are using the WLAN network connection, the Fronius Datamanager must be
equipped with a WLAN function and a WLAN antenna suitable for the inverter.

General Firewall
Settings

A firewall must be configured as follows in order to use the different Fronius Datamanager
functions:

Service messages are sent via Fronius Solar.web.

Configure the firewall so that the IP address of Fronius Datamanager can send data to port
49049/UDP from fdmp.solarweb.com.

DSL routers mostly enable you to send data to the internet and, therefore, do not normally
have to be configured.

To access the Fronius Datamanager web interface outside of the LAN:

- Configure the network router so that requests are forwarded to port 80/TCP on Fronius
Datamanager

NOTE! Configuring a network for Fronius Datamanager requires knowledge of
network technology.

49049/UDP

output

15015/TCP

input

80/TCP

input

Sending service messages x - -

Connecting to datalogger via
Fronius Solar.web

x--

Connecting to datalogger via
Fronius Solar.access or
Fronius Solar.service

-xx

Access to the Fronius Datamanager
web interface

--x

16

Sending service
messages via a
DSL Internet con­nection

Normally, no additional router configuration is required for a regular DSL Internet connec­tion for accessing 'Fronius Solar.web' and/or sending service messages, because connec­tions from the LAN to the Internet are open.

Using Fronius So­lar.web and send­ing service
messages

However, an internet connection is required to use Fronius Solar.web and send service
messages.

Fronius Datamanager cannot connect to the Internet spontaneously. A router must be
used for a DSL connection to the Internet.

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Controls, connections and indicators

Safety

Controls, Con­nections and Indi­cators

WARNING! Operating the device incorrectly can cause serious injury and dam-

age. Do not use the functions described until you have thoroughly read and un­derstood the following documents:

- these operating instructions

- all operating instructions for system components, especially the safety rules

(1)

(2)

(3)

(4)

(5)

(6)

(7)

(8)

18

No. Function

(1) Supply LED

- Lights up green: When sufficient power is coming from Fronius Solar Net;
Fronius Datamanager is operational

- Does not light up: When no power or not enough power is coming from Fro­nius Solar Net; an external power supply is required

- Flashes red: During an update process

IMPORTANT! Do not interrupt the power supply during an update process.

- Lights up red: the update process failed

(2) Connection LED

- lights up green: When there is an active connection within Fronius Solar
Net

- Lights up red: When there is an interrupted connection within Fronius Solar
Net

(3) IP switch

for changing the IP address:

A Default IP address "169.254.0.180"

Fronius Datamanager uses the fixed IP address 169.254.0.180;
the fixed IP address is used for a direct connection to a PC via LAN
without first having to pre-configure the PC

B Assigned IP address

Fronius Datamanager operates using an assigned IP address (factory
setting 192.168.1.180);
The IP address can be set on the Fronius Datamanager web interface.

(4) WLAN LED

- Flashes green: Fronius Datamanager is in service mode (IP switch on the
Fronius Datamanager plug-in card is in position A)

- Lights up green: When there is an existing network connection

- Lights up red: When there is no existing network connection

- Does not light up: Plug-in card without WLAN

(5) Solar Web LED connection

- Lights up green: When there is an existing connection to Fronius Solar.web

- Lights up red: When there is no connection to Fronius Solar.web, but one
is required

- Does not light up: When no connection to Fronius Solar.web is required

(6) LAN connection socket

Ethernet interface colored blue for connecting the Ethernet cable

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EN-US

Schematic Con­nection of I/Os

Supply via Datamanager plug-in card:

(1) Power supply
(2) Current limit

Supply via external power supply:

(3) External power supply
(4) Load

(7) I/Os

digital inputs and outputs

Digital inputs: I/O 0 – I/O 3, I 4 – I 9
voltage level: low = min. 0 V – max. 1.8 V; high = min. 3 V – max. 30 V
input currents: dependent on input voltage; input resistance = 46 kOhm

Digital outputs: I/O 0 – I/O 3
Switching capacity when supplied by the Datamanager plug-in card: 3.2 W,

10.7 V in total for all 4 digital outputs

Switching capacity when supplied by an external power supply with min. 10.7 –
max. 24 V DC, connected to Uint / Uext and GND: 1 A, 10.7 – 24 V DC (de­pending on the external power supply) per digital output

The connection to the I/Os is made via the supplied mating connector.

(8) WLAN Antenna Socket with WLAN antenna

(only for versions with WLAN)
for connecting the WLAN antenna

No. Function

Uint / Uext

GND

I/O 0

I/O 1

I/O 2

I/O 3

I 4

I 5

I 6

I 7

I 8

I 9

(1)

(4)

Solar Net
IN

230 V AC

10,7 V DC

(2) 300 mA

+ -

10,7 - 24 V DC

(3)

NOTE! When the supply is via an
external power supply, the exter­nal power supply must be galvani­cally isolated.

20

Installing Fronius Datamanager

23

EN-US

Inserting Fronius Datamanager into an inverter

General Provided the Fronius Datamanager plug-in card is not fitted as standard in the inverter, the

plug-in card must be inserted into the inverter in accordance with the operating or installa­tion instructions of the inverter in question. Please note the safety and warning information
in your inverter's operating instructions.

IMPORTANT! Before inserting the Fronius Datamanager plug-in card, remove any exist­ing Fronius Power Control Card, or Fronius Modbus Card!

Safety

WARNING! An electric shock can be fatal. Danger from grid voltage and DC volt-

age from solar modules.

- The connection area should only be opened by a licensed electrician.

- The separate power stage set area should only be disconnected from the
connection area after first being disconnected from the grid power.

- The separate power stage set area should only be opened by Fronius-trained
service personnel.

Before making any connections, make sure that the AC and DC sides are discon­nected from the inverter, e.g.:

- Switch off the AC automatic circuit breaker for the inverter

- Cover solar modules

Please observe the 5 safety rules.

WARNING! An electric shock can be fatal. Danger from residual voltage from ca­pacitors.
You must wait until the capacitors have discharged.

NOTE! Follow general ESD precautions when handling plug-in cards.

24

Installing Fronius Datamanager in Fronius Solar Net

Installing Invert­ers with Fronius
Datamanager in
Fronius Solar Net

* Terminating plug, if only one inverter with Fronius Datamanager is linked to a PC

or if there is no further Solar Net subscriber on the Solar Net connection socket.

** Solar Net Cable, if an inverter with Fronius Datamanager is linked to a PC and oth-

er DATCOM components

Insert and lay the Ethernet cable in the inverter like a data communication cable in ac­cordance with the operating instructions for the inverter.

Insert the Ethernet cable into the LAN connection socket.

Insert the Ethernet cable into the PC/laptop or into a suitable network connection sock­et.

If only one inverter with Fronius Datamanager is being linked to a PC:
Insert a terminating plug into the Solar Net IN connection socket and the Solar Net
OUT connection socket

If other DATCOM components are connected to the network, besides the inverter with
Fronius Datamanager:
Insert the Solar Net cable into the Solar Net IN connection socket and the Solar Net
OUT connection socket.

Connect the other DATCOM components.

IMPORTANT! A terminating plug must be inserted into every empty Solar Net connec­tion socket of the last DATACOM component.

CAUTION! DATCOM components and/or the PC/laptop may be seriously dam­aged if the Ethernet or Solar Net cables are connected incorrectly to the Fronius
Datamanager.

- The Ethernet cable should only be inserted into the LAN connection socket
(colored blue).

- The Solar Net cable should only be inserted into the inverter Solar Net IN or
Solar Net OUT connection sockets.

DATCOM

IN OUT

4

5

IN

2

6

3

1

**

****

1

2

3

4

5

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Cabling

Fronius Solar Net
clients

Inverters with Fronius Datamanager, Fronius Hybridmanager or Fronius Com Card, DAT­COM components with external housing or other DATCOM components will hereinafter be
referred to as Fronius Solar Net clients.

Fronius Solar Net
Client Cabling

The data connection for the Fronius Solar Net client is a 1:1 connection using 8-pin data
cables and RJ-45 plugs.
The overall line length in a Fronius Solar Net ring must not exceed 1000 m.

Requirements for
the Solar Net Data
Cables

Shielded CAT5 (new) and CAT5e (old) cables compliant with ISO 11801 and EN 50173
must be used for the Fronius Solar Net client cabling. Other cables are not permitted.

IMPORTANT! Do not use ISO/IEC-11801 U/UTP cables!

The shield must be crimped onto a CAT5-compatible shielded plug.

Due to the fact that the wires in Ethernet cables are twisted, you must make sure the twist­ed pairs of wires are assigned correctly for cabling in accordance with TIA/EIA-568B:

Cabling compliant with TIA/EIA-568B

- Make sure that the wires are assigned correctly.

- When setting up an independent ground connection (e.g., in patch panels), make sure
that the shield is grounded on one side of the cable only.

Permitted cables:

- S/STP

- F/STP

- S/FTP

- F/FTP

- SF/FTP

- S/UTP

- F/UTP

- U/FTP

- U/STP

Fronius Solar Net contact Pair no. Color

1 +12 V 3 white/orange line

2 GND 3

orange/white line
or orange

3 TX+ IN, RX+ OUT 2 white/green line

4 RX+ IN, TX+ OUT 1

blue/white line
or blue

5 RX- IN, TX- OUT 1 white/blue line

6 TX- IN, RX- OUT 2

green/white line
or green

7 GND 4 white/brown line

8 +12 V 4

brown/white line
or brown

26

The following structured cabling standards must generally be observed:

- EN 50173-1 for Europe

- ISO/IEC 11801:2002 internationally

- TIA/EIA 568 for North America

Rules for use of copper cables apply.

Preassembled
data cables

The following preassembled data cables are available from Fronius:

- CAT5 cable 1 m ... 43,0004,2435

- CAT5 cable 20 m ... 43,0004,2434

- CAT5 cable 60 m ... 43,0004,2436

The cables listed above are 8-pin, 1:1 LAN network cables, shielded and twisted, including
RJ 45 plugs.

IMPORTANT! Data cables are not UV resistant. They should be protected from sunlight
when laid outdoors.

27

EN-US

Installing Fronius Datamanager – Overview

Safety

Starting Up for
the First Time

Insert Fronius Datamanager into the inverter

Insert blue Ethernet cable into Fronius Datamanager (LAN connection socket)

Insert terminating plug into Fronius Datamanager (Solar Net IN connection socket)

Insert blue Ethernet cable into the PC/laptop

Turn off WLAN on PC/laptop (to avoid network conflicts)

Adjust network settings for Fronius Datamanager on PC/laptop:
"Obtain an IP address automatically (DHCP)" must be activated

Switch IP switch on Fronius Datamanager to position - A -

Close the inverter and switch it on

After about 1 minute, open the browser on the PC/laptop and enter the following ad­dress (web server works with Internet Explorer 9 or higher, Chrome or Firefox):
http://169.254.0.180

The start page of the Commissioning Wizard appears.

WARNING! Operating the device incorrectly can cause serious injury and dam­age. Do not use the functions described until you have thoroughly read and un­derstood the following documents:

- these operating instructions

- all operating instructions for system components, especially the safety rules

NOTE! Installing Fronius Datamanager requires knowledge of network technolo­gy.

See section "Inserting Fronius Datamanager into an inverter"

See section "Installing Fronius Datamanager in Fronius Solar Net"

1

2

3

4

5

6

7

8

9

28

The Technician Wizard is designed for the installer and includes standard-specific settings.
If the Technician Wizard is run, it is essential to note down the assigned service password.
This service password is required to configure the UC Editor and Counter menu items.
If the Technician Wizard is not run, no specifications for power reduction are set.

The Solar Web Wizard must be run.

If necessary, run the Technician Wizard and follow the instructions

Run the Solar Web Wizard and follow the instructions

The Fronius Solar.web start page appears
or
The Fronius Datamanager website opens.

IMPORTANT: To establish a connection to Fronius Datamanager, the end device in ques­tion (e.g., laptop, tablet) must be configured as follows:

- "Obtain an IP address automatically (DHCP)" must be activated

6

7

Connect to Fronius Datamanager

31

EN-US

Connecting to Fronius Datamanager via a Web
Browser

General The connection to Fronius Datamanager via an internet browser is suitable for accessing

current values with several PC users in a LAN (e.g., company networks, schools, etc.).

For example, total and daily yields can be accessed and/or inverter comparisons can be
made on the Fronius Datamanager website.

Requirements - At least a LAN or WLAN connection

- Web browser (e.g., Microsoft Internet Explorer IE ≥ 9.0, Firefox 4, Google Chrome

27.0)

- PC/laptop in the same network segment as Fronius Datamanager

Establishing a
Connection to
Fronius Dataman­ager via a Web
Browser

Open the web browser

Enter the IP address or the host name and the domain name for Fronius Datamanager
in the address field

The Fronius Datamanager web page appears.

1

2

32

Connecting to Fronius Datamanager via the Internet
and Fronius Solar.web

General By connecting to Fronius Datamanager via the Internet and Fronius Solar.web, you can ac-

cess archived data and real-time photovoltaic system data online from anywhere in the
world.
You can also provide other users with guest access so that they can view your photovoltaic
system, or you can make a comparison of several systems.

Function over­view

Fronius Datamanager is connected to the Internet (e.g. via a DSL router). Fronius Data­manager regularly logs on to Fronius Solar.web and sends its saved data every day.
Fronius Solar.web can actively contact Fronius Datamanager, e.g. to display real-time da­ta.

Requirements - Internet access

- Web browser

IMPORTANT! Fronius Datamanager cannot connect itself to the Internet. A router
must be used for a DSL connection to the Internet.

- Registration of photovoltaic system with Fronius Solar.web.

- In order to access real-time data in Fronius Solar.web, the "Yes" option must be acti­vated under "Send real-time data to Solar.web" in Fronius Datamanager.

- In order to access archived data in Fronius Solar.web, the "Daily" or "Hourly" option
must be activated under "Send archived data to Solar.web" in Fronius Datamanager.

Accessing data
from Fronius
Datamanager via
the Internet and
Fronius So­lar.web

To access real-time and archived data from Fronius Datamanager using Fronius So­lar.web:

Start Fronius Solar.web: http://www.solarweb.com
For more information about Fronius Solar.web, see the online help.

1

Current Data, Services, and Settings

on Fronius Datamanager

35

EN-US

The Fronius Datamanager Website

Fronius Dataman­ager Website –
Overview

The following data is displayed on the Fronius Datamanager website:

(1) Current comparison view of all inverters in the Fronius Solar Net ring

(2) System overview: Current/Day/Year/Total

(3) Inverter

(4) Sensors

(5) Services

System information, Network diagnostics, Firmware update

(6) The Settings Menu

(7) Other Setting Options

(1)

(2)

(3)
(4)

(5)

(6)

(7)

36

The Settings
Menu

After clicking on "Settings," the Settings menu is opened on the Fronius Datamanager web
page.
Fronius Datamanager is configured in the Settings menu.

Other setting op­tions

Other settings options are shown in the top right corner of the Fronius Datamanager web
interface:

Menu items in Settings
menu

General Adjustment and Viewing of Menu Items

Connect to Fronius Datamanager

Click on "Settings"

Click on the desired menu item

The desired menu item is opened.

View menu item or edit accordingly.

If there is one, click on the relevant button (e.g, Save, Syn­chronize)

The amended data is accepted.

* Selected menu item
** The Counter and UC Editor menu items are protected

by the service password.

*

**

**

1

2

3

4

5

Display notifications

System information:
Datalogger ID, software version, hardware version, Solar Net connection, So­lar.web connection

Help:
Fronius Datamanager operating instructions, available in both English and Ger­man

Language:
For setting the language (English or German)

The Fronius Datamanager web interface will appear in the language set in the
browser or in the last language selected.

Expand contents:
The Real-time Data/Settings menu is hidden

37

EN-US

Current Data in Fronius Datamanager

Current Compari­son View

Several inverters in the same photovoltaic system can be compared in the current Com­parison View.

The real-time inverter AC power is displayed as a percentage of the power from the solar
module connected to the respective inverter (shown in a bar diagram). A bar is displayed
for each inverter. The bar color indicates the power range of the inverter:

Blue: the inverter power corresponds to the average power of all inverters.

Yellow: the inverter power deviates slightly from the average power of all inverters

(50–90% from the average).

Red: the inverter power deviates significantly from the average power of all in-

verters or an error has occurred in the inverter
(< 50% from the average).

38

System Overview

The system overview contains:

- the real-time power data of a photovol­taic system

- the active devices

- the energy generated per day, per ye­ar, and in total

- the yield per day, per year, and in total

*) The values for consumption and

energy fed into the grid are only dis­played when a counter is configu­red on the inverter and the counter
sends valid data.

system overview

Consumption

Feed-in to the grid

Day

Energy

Yield

CO

2

saved

Year

Inverter

Sensors

Actual

*)

39

EN-US

Inverter/Sensors
View

Inverter View

The Inverter View displays all the inverters
present in the system.

*) Clicking on an inverter or the corre-

sponding bar in the Comparison
View displays the inverter's real­time data:

Sensor View

The Sensor View displays all the sensor
cards/boxes present in the system.

*)

53

80 kWh

12 MWh

36 MWh

40

Services – System Information

System Informa­tion

(1) "Datalogger restart" button

used to restart Fronius Datamanager
(2) "Reset to factory settings" button
(3) Option "All settings except for the network"

is used to reset Fronius Datamanager to factory settings.

The network settings and all items protected by the service user (UC Editor, count-

er settings, and the service password) are retained.
(4) Option "Settings"

is used to reset Fronius Datamanager and the network settings to factory settings.

All items protected by the service user (UC Editor, counter settings, and the service

password) are retained.

IMPORTANT: When Fronius Datamanager is reset to factory settings, the time and date
settings must be checked.

(1) (2)

41

EN-US

Services – Network Diagnostics

Network Diagnos­tics

The Services / Network diagnostics option contains functions that are useful for diagnosing
and correcting network problems. Ping and traceroute commands can be executed.

The ping command
is used to determine whether or not a host is available and how much time a data transfer
will take.

Sending a ping command:

Enter a host name or IP address in the "Host:" field (1)

Click on "ping" (2)

- Ping command is sent

- The resulting data is displayed

A traceroute command
is used to determine the intermediate stations via which the data reaches the host.

Sending a traceroute command:

Enter a host name or IP address in the "Host:" field (1)

Click on "traceroute" (3)

- Traceroute command is sent

- The resulting data is displayed

(1)

(2) (3)

1

2

1

2

42

Services – Firmware Update

General You can update the Fronius Datamanager firmware under Services / Firmware Update. A

firmware update can be performed via LAN or web.

(1) Automatic update search
(2) "Check now" button (to search for updates manually)
(3) Use proxy server for Web update

(3a) Field to enter the proxy server
(3b) Field to enter the port
(3c) Field to enter the user
(3d) Field to enter the password

(4) Carry out update via web
(5) Carry out update via LAN

(5a) Field to enter the IP address

(6) "Run update"

button to launch update process
(7) "Apply/Save" button
(8) "Cancel/Discard entries" button

(2)

(1)
(3)

(4)

(5)

(6)

(7) (8)

(3)

(3a)

(3b)

(3c)

(3d)

(5)

(5a)

43

EN-US

Automatic Update
Search

IMPORTANT: An internet connection is required for the automatic update search.

When the "Automatic update search" option (1) is activated, Fronius Datamanager will au­tomatically search for updates once a day. If new updates are available, a message is dis­played under the other setting options for the Fronius Datamanager website.

Manual Update
Search

When the "Automatic update search" function is deactivated, there will be no automatic
search for updates.

To search manually for updates, use the "check now" button (2)

Firmware update
via web

Open the Fronius Datamanager web page via a web browser

Open "Firmware update" under "Service"

Select "Update via web"

Click on the "Run update" button

The confirmation prompt for the update appears:

Click on the "Yes" button

(1)

1

(2)

1

2

3

4

5

44

The update starts. The update progress is displayed as a bar and a percentage.

Once the update has been carried out successfully, click on the "Apply/Save" button

If the connection to the server fails:

- Deactivate the firewall for the duration of the update

- Retry the update

IMPORTANT: If a proxy server is used to connect to the internet:

- The "Use proxy server for Web update" option must be activated

- The required data must be entered

Firmware Update
via LAN

Establish LAN connection between PC/laptop and Fronius Datamanager

Download the current firmware from the Fronius homepage

Run the downloaded update file on the PC/laptop

This will start a web server from which Fronius Datamanager will download the re­quired files.

Open the Fronius Datamanager web page via a web browser

Open settings/firmware update

Select "Update via LAN"

Enter the IP address of the PC/laptop

Click on the "Run update" button

The confirmation prompt for the update appears:

Click on the "Yes" button

The update starts. The update progress is displayed as a bar and a percentage.

Once the update has been carried out successfully, click on the "Apply/Save" button

The update is complete when the "Supply LED" lights up green.

6

1

2

3

4

5

6

7

8

9

10

45

EN-US

If the connection to the server fails:

- Deactivate the firewall for the duration of the update

- Retry the update

46

Services – Opening Wizards

Opening Wizards The Commissioning Wizard can be opened again and run under "Open Wizards."

47

EN-US

Settings – General

General

You can enter the charge rate per kWh (1), the currency (2) and the expenses per kWh (3)
to calculate the yield under "Feed-in payment." The yield is shown in the current Total
View.

The date (4), hour (5), and minutes (6) can be entered under "System time."
Click "Synchronize" (7) to adapt the displayed time in the entry fields of the Fronius Data­manager web page to the time set on the computer operating system.
Click the "Apply/Save" button (10) to apply the time.

The region (8) and location (9) for the time zone can be set under "Time zone settings."

(10) "Apply/Save" button
(11) "Cancel/Discard entries" button

* Fields marked with * are mandatory fields.

(1) (2)

(3)

(4) (5) (6)

(7)

(11)

(8) (9)

(10)

48

Settings – Passwords

General Access to Fronius Datamanager is regulated by assigning passwords.

3 different password types are available:

- the administrator password

- the service password

- the user password

Passwords

(1) Administrator password, user name = admin

The administrator password set during commissioning assigns the user read and

write (configuration) access to Fronius Datamanager. The user can then open the

"Settings" menu item and define any settings as desired, with the exception of the

UC Editor and counter settings.

When an administrator password is set, the user must enter the user name and

password in Fronius Datamanager to open the "Settings" menu item.

(2) Service password, user name = service

The service password is usually assigned in the Commissioning Wizard by the ser-

vice technician or system installer and provides access to system-specific param-

eters. The service password is required to define counter settings and settings in

the UC Editor. If no service password has been assigned, the Counter and UC Ed-

itor menu items cannot be accessed.

(3) After activating the selection field, the user password is displayed, user name = us-

er.

(1)

(2)

(3)

(4)

(4)

49

EN-US

An assigned user password only gives the user read access to Fronius Dataman-

ager. The user cannot open the "Settings" menu item.

When assigning a user password, users must enter their username and password

every time they connect to Fronius Datamanager.

(4) "Apply/Save" button

(3)

(4)

50

Settings – Inverter

Views – Inverter

The data for the Comparison View is defined in "Inverter."

(1) Field for assigning a system name *
(2) Number of the inverter in Fronius Solar Net
(3) If the selection field is chosen, the inverter is displayed in the Comparison View
(4) Display of device type
(5) Field for assigning a device name *
(6) Field for entering the solar module power in W *
(7) "Apply/Save" button
(8) "Cancel/Discard entries" button

* Fields marked with * are mandatory fields.

Symo left side

5000

(2) (3) (4) (5) (6)

(7)

(8)

(1)

51

EN-US

Settings – Fronius Sensor Cards

Sensor Cards

A specific channel name can be assigned to each sensor value of a Fronius Sensor Card/
Box in "Sensor Cards" (e.g., wind speed).

(1) Sensor Card selection
(2) Displayed measuring channel
(3) Fields for assigning the channel name
(4) "Apply/Save" button
(5) "Cancel/Discard entries" button

(3)

(4) (5)

(1)

(2)

52

Settings – Fronius Solar.web

Solar.web The Solar.web menu item can be used to make a direct connection between Fronius Data-

manager and Fronius Solar.web.

Datalogging settings

(1) Selection of query cycle for the inverter:

Data queries every 5/10/15/20/30 minutes
(2) Selection of query cycle for Fronius Sensor Cards:

Data queries every 5/10/15/20/30 minutes

(3) "Delete log data" button

After clicking the "Delete log data" link, a security prompt appears to confirm the

deletion of the log data.

(4) Selection of whether current data is sent to Fronius Solar.web

Send archived data to Fronius Solar.web

(5) Never

(6) Daily

After the selection field is activated the setting options are displayed:

(6a) Field for entering the time (hour)
(6b) Fields for selecting the weekdays

(7) Hourly

After the selection field is activated the setting options are displayed:

(1)

(2)

(3)

(4)

(5) (6) (7)

(10)

(8)

(9)

(6)

(6a)

(6b)

never

daily

hourly

at

on Monday Tuesday

Wednesday

Thursday

Friday

Satturday

Sunday

53

EN-US

(7a) Fields for selecting the time (hour)

(8) "Register Solar.web" button

Clicking this link opens the Fronius Solar.web start page; data relevant for Fronius

Solar.web is automatically sent as well.

(9) "Apply/Save" button
(10) "Cancel/Discard entries" button

(7)

(7a)

54

Calculating memory capacity

Memory capacity The Fronius Datamanager has a memory capacity of up to 5 years and 7 months for a PV

system with one inverter and a save interval of 15 minutes.
However, the memory capacity is reduced accordingly depending on the number of invert­ers and/or Fronius sensor cards/boxes that are integrated into the system.

Calculating mem­ory capacity

Determine logging points for inverters and Fronius sensor cards/boxes

Calculate the total logging points

Total logging points =
= (number of inverters x logging points per day) + (number of Fronius Sensor Cards/
Boxes x logging points per day)

Determine memory sectors per day

Round to whole numbers

Determine memory capacity

Logging points per day =

Logging duration [min]

Save interval [min]

Logging duration [min]

- For inverter: e.g., 14 hours = 840 minutes

- For Fronius Sensor Card/Fronius Sensor Box: 24 hours = 1440 minutes

Memory sectors per day =

Total logging points

114

Memory capacity [days] =

2048

Memory sectors per day

1

2

3

4

5

55

EN-US

Calculation exam­ple

2 inverters, logging duration = 14 hours (840 minutes)
1 Fronius Sensor Card, logging duration = 24 hours (1440 minutes)

Save interval = 15 minutes

1. Logging points per day:

2. Total logging points:

3. Memory sectors per day:

4. Rounded:

5. Memory capacity [days]:

Inverter logging points =

840 min

= 56

15 min

Sensor Card logging points =

1440 min

= 96

15 min

Total logging points = (2 x 56) + (1 x 96) = 208

(2 x 56) ... 2 inverters, (1 x 96) ... 1 Sensor Card

Memory sectors =

208

= 1,825

114

1,825 2

Memory capacity =

2048

= 1024 days (= 2 years, 9 months, 18 days)

2

Memory capacity [days] =

2048

Memory sectors per day

56

Settings – Service Messages

General Service messages, inverter errors, the Fronius String Control, etc., are sent to Fronius

Datamanager and saved. The "Service messages" selection option is used to define how
service messages are communicated. They can be communicated via:

- E-mail

- SMS

Service messages can be analyzed further using Fronius Solar.web.

Service Messag­es

(1) Message to e-mail recipient

Activate to send service messages to one or more e-mail addresses

(2) Field for up to a max. of 10 e-mail addresses

Separate e-mail addresses with ";"

(3) Selection field to determine whether the service message will be sent immediately

via e-mail or at a specific time

If "daily" is selected, the selection options for the time (hour) are also displayed.

(4) "Send test e-mail" button

Sending a test e-mail may take several minutes.

(5) Message to SMS recipient

Activate to send service messages as an SMS to a telephone number

(6) Field to enter the country code

e.g.: +43 = country code for Austria

(7) Field to enter area code

(8) Field to enter the telephone number

(9) Field for sending daily

(10) Selection field for the time (hour) at which a service message is to be sent via SMS

(1)

(2)

(3)

(4)

(5)

(6)

(7)

(8)

(9)

(11)

(10)

(14)(13)

(12)

57

EN-US

(11) "Send test SMS" button

Sending a test SMS may take several minutes.

(12) Selection field for the language in which the service message will be sent

(13) "Apply/Save" button

(14) "Cancel/Discard entries" button

58

Settings – Network

General The "Network" menu item is used to determine the type of internet connection (LAN or

WLAN).

IMPORTANT! If the IP address is obtained statically, a gateway and a DNS server must
be entered for the selected network interface.

Network

(1) Internet connection via LAN

(2) Internet connection via WLAN

LAN

(1)

(2)

(3) (4)

(5)
(6)

(7)

(10)

(8)
(9)

(22)(21)

(18)(17)(16)

(13)

(14)

(12)

(11)

(15)

Home Network

Local HotSpot

StonisNetwork

Add WLAN

59

EN-US

(3) Obtain IP address statically

The user enters a fixed IP address for Fronius Datamanager and also manually

sets the subnet mask, gateway address, and DNS server address (from the pro-

vider).

(4) Obtain IP address dynamically

Fronius Datamanager obtains its IP address from a DHCP server (DHCP = dynam-

ic host configuration protocol).

The DHCP server must be configured so that Fronius Datamanager is always as-

signed the same IP address. You will then always know the IP address at which

Fronius Datamanager can be found.

If the DHCP server supports the "DNS dynamic updates" function, a name can be

entered for Fronius Datamanager in the "Host name" field. The connection to Fro-

nius Datamanager can then be established using the name instead of the IP ad-

dress.

For example: Host name = sample_system, Domain name = fronius.com.

The Fronius Datamanager can be reached via the address "sample_system.fro-

nius.com".

(5) Field for entering a host name for dynamically obtained IP address

(6) Field for entering the IP address for static IP address

(7) Field for entering the subnet mask for static IP address

(8) Field for entering the gateway for static IP address

(9) Field for entering the DNS server for static IP address

WLAN

(10) Display of detected WLAN networks

(11) "Refresh" button

Used to search again for available WLAN networks

(12) Display of signal quality

One bar = low signal strength

Three bars = high signal strength

(13) Network status

Open/secured/saved (after pressing the "Setup" button (16))

(14) Display of encryption

WPA / WPA2 / WEP

(15) Add WLAN

Used to display hidden networks

Clicking this option opens the "WLAN connection" window

60

(15a) Name of hidden WLAN network
(15b) Selection field for encrypting the hidden WLAN network
(15c) Field for entering the password for the hidden WLAN network
(15d) Selection field for whether the password is displayed
(15e) "Save" button
(15f) "Cancel" button

(16) "Setup" button

Used to save a selected WLAN network;

Clicking this option opens the "WLAN connection" window

(16a) Name of selected WLAN network
(16b) Signal strength of selected WLAN network
(16c) Encryption of selected WLAN network
(16d) Field for entering the password for the WLAN network
(16e) Selection field for whether the password is displayed
(16f) "Save" button
(16 g) "Cancel" button

(17) "Remove" button

Used to delete a saved WLAN network

(18) "Configure IP" button

Clicking this option opens the "Configure IP" window

(15b)

(15c)

(15d)

(15e)

Network:

Security:

Enter password:

Show password:

Connection

Save Cancel

(15a)

(15f)

(16a)

(16b)

(16c)

(16d)

(16e)

(16f)

(16g)

Network:

Signal quality:

Security:

Enter password:

Show password:

Connection

good

Save Cancel

61

EN-US

(19) "OK" button

(20) "Cancel" button

(21) "Apply/Save" button

(22) "Cancel/Discard entries" button

(3)

(4)

(5)

(6)

(7)

(20)

(19)

(8)

(9)

62

Settings – Energy Manager

General The output I/O 1 can be used to control an actuator (e.g., relay, contactor) via the "Energy

Manager" function.
A load connected to I/O 1 can thus be controlled by assigning a power feed-dependent
switch-on or switch-off point.

Energy Manager

Control

(1) Control via Energy Manager is deactivated.

(2) Control via Energy Manager is effected by the power generated.

(3) Control via Energy Manager is effected by excess power (given feed limits).

This option can only be selected if a counter has been connected. Control via En-

ergy Manager is effected using the actual power of feeding in with respect to the

grid.

Thresholds

(4) On:

For entering an effective power limit, at which the I/O 1 output is activated.

(5) Off:

For entering an effective power limit, at which the I/O 1 output is deactivated.

Runtimes

(6) Field for activating the minimum runtime for each switch-on process

(1)
(2)

(3)

(4)
(5)

(6) (7)
(8) (9)

(11)

(10)

(12) (13)

(14) (15)

(16)

63

EN-US

(7) Field for entering a minimum time for which the output I/O 1 is to be activated for

each switch-on process
(8) Field for activating the maximum runtime per day

(9) Field for entering a maximum time for which the output I/O 1 is to be activated in

total per day (several switch-on processes are included).

Target runtime

(10) Field for activating a target runtime

(11) Field for entering a minimum time for which the output I/O 1 is to be activated in

total per day (several switch-on processes are included)

(12) Field for selecting the hour, if the target runtime is to be achieved by a certain time

(13) Field for selecting the minute, if the target runtime is to be achieved by a certain

time

(14) "Apply/Save" button

(15) "Cancel/Discard entries" button

(16) Status display

If the mouse pointer is moved over the status, the reason for the current status is

displayed.

If "by excess power" is selected under "Control", additional selection fields for Feed (3a)
and Reference (3b) are displayed under "Thresholds":

(3)

(4)

(5)

(3a)
(3b)

Consumption

64

Settings – Push Service

Push Service This function can be used to export current and log data in different formats or with different

protocols to an external server.

(1) "Apply/Save" button

(2) "Cancel/Discard entries" button

(3) "Add" button

Clicking this button adds a new push service job. The new job is saved by clicking

the "Apply/Save" button (1).

(4) Status

Displays the current status of the push service job in question

(5) Displayed name of push service job

(6) Area for entering general data:

Name (name of push service job)

File format

Protocol type (FTP upload/HTTP POST)

Interval

Activation status

(7) Area for entering the target data:

Server port

Upload file name

Login (user/password)

(1) (2)

(3)

(4)(5)

(6)

(7)

(8)

(9)

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(8) Area for entering the proxy data:

Server port

User

Password

(9) "Delete" button

Clicking this button deletes the selected push service job

Further Informa­tion about the
Push Service
Function

Further information about the push service function can be found in the following operating
instructions:

http://www.fronius.com/QR-link/4204102152

42.0410.2152
Fronius Push Service

66

Modbus Settings

General From your web browser, you can use the Fronius Datamanager web page to apply the

Modbus connection settings which cannot be accessed via the Modbus protocol.

Additional Infor­mation on the
Modbus Function

For additional information on the Modbus function, please see the following operating in­structions:

Data Output via
Modbus

http://www.fronius.com/QR-link/4204102049

42,0410,2049
Fronius Datamanager Modbus connection

Data Output via Modbus

Activation of the Modbus service and selection of the transmission protocol.
If the Modbus service is activated, additional entry fields are available.

(1) off

No data output via Modbus

(2) tcp

Data output via Modbus TCP

(2a) Modbus port

Number of the TCP port which must be used for Modbus communication.

(1) (2)

(3)

(4) (5)

(2)

(2a)
(2b)

(2c)

(2d)

(2e)
(2f)

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Limit Control The "Limit Control" option is only available for the TCP transmission protocols.

It is used to block inverter control commands from unauthorized users by only permitting
control for specific devices.

(2b) String Control address offset

Offset value used to assign addresses to Fronius String Controls via Modbus.
For further details, see the section entitled "Modbus Device ID for Fronius String
Controls."

Sunspec model type

Used to select the data type of data models for inverters.

(2c) float

Display as floating-point numbers
SunSpec Inverter model I111, I112 or I113

(2d) int+SF

Display as integers with scaling factors
SunSpec Inverter model I101, I102 or I103

IMPORTANT! Since the different models have different numbers on registers, the
register addresses of all the subsequent models also change when the data type
is changed.

(2e) Demo mode

The demo mode is used to implement or validate a Modbus master. It enables
you to read inverter and String Control data without actually connecting or activat­ing a device. The same data is always sent back for all the registers.

(2f) Inverter control via Modbus

If this option is activated, the inverter can be controlled via Modbus.
The "Limit Control" selection field is displayed.
Inverter control includes the following functions:

- On/off

- Power reduction

- Setting a constant power factor (cos phi)

- Setting a constant reactive power

(3) Control priorities

Used to specify which service is given priority by the inverter control unit.

1 = highest priority, 3 = lowest priority

The control priorities can only be changed in the UC EDITOR menu item.

(4) "Apply/Save" button

(5) "Cancel/Discard entries" button

(1)
(2)

68

Save or Reject
Changes

Saves the changes and displays a message confirming this.
If you exit the "Modbus" section without saving your changes, all the changes
you have made will be rejected.

Prompts you to confirm whether or not you wish to reject the changes you have
made and then reinstates the most recently saved values.

(1) Limit Control

If this option is activated, only certain devices will be able to send control com­mands.

(2) IP address

To limit inverter control to one or more devices, enter the IP addresses of the de­vices which are permitted to send commands to Fronius Datamanager in this
field. Multiple entries are separated by commas.

Examples:

- one IP address: 98.7.65.4

- Control only permitted by IP address 98.7.65.4

- Several IP addresses: 98.7.65.4, 222.44.33.1

- Control only permitted by IP addresses 98.7.65.4 and 222.44.33.1

- IP address range, e.g., from 98.7.65.1 to 98.7.65.254 (CIDR notation):

98.7.65.0/24

- Control only permitted through IP addresses 98.7.65.1 to 98.7.65.254

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Settings – Counter

General IMPORTANT! Settings in the "Counter" menu item may only be entered by staff trained to

do so!

The service password must be entered for the "Counter" menu item.

Three-phase or one-phase Fronius Smart Meters may be used. In both cases, selection is
made via the "Fronius Smart Meter" item. Fronius Datamanager automatically detects the
counter type.

Counter

(1) Field for selecting a counter:

- None selected

- S0 inverter (for Fronius Galvo,

Fronius Symo, Fronius Primo, and Fronius Eco inverters only)

(2) Link to counter circuit diagrams

(3) "Apply/Save" button

(4) "Cancel/Discard entries" button

(1)

(2)

(3) (4)

70

S0 Inverter

(1a) Counter position at feed-in point

The power of feeding in and energy are measured. The consumption is determined

using these values and the system data.

An S0 counter must be configured at this position in order to count the fed-in ener-

gy.

IMPORTANT! If you are using an S0 counter at the feed-in point, the counter data

will not be displayed on Fronius Solar.web. This option is only provided for dynamic

power reduction.

The consumption values can be detected to a limited extent when feeding into the

grid.

(1b) Counter position in consumption branch

The power consumed and energy are measured directly. The power of feeding in

and energy are determined using these values and the system data.

An S0 counter must be configured at this position in order to count the energy con-

sumed.

(1c) Field for entering the impulses per kWh

A counter for recording self-consumption per S0 can be connected directly to the inverter
(for Fronius Galvo, Fronius Symo, Fronius Primo, and Fronius Eco only).

IMPORTANT! An S0 counter is connected to the switchable multifunctional current inter­face of the inverter. Connecting an S0 counter to the inverter may require an inverter firm­ware update.

(1)

(2)

(1a) (1b)

(1c)

(1a)

(1b)

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Requirements for the S0 counter:

- Must meet standard IEC 62053-31 Class B

- Max. voltage: 15 V DC

- Max. current when ON: 15 mA

- Min. current when ON: 2 mA

- Max. current when OFF: 0.15 mA

Recommended max. impulse rate of S0 counter:

PV power kWp [kW] Max. impulse rate per kWp

30 1000

20 2000

10 5000

≤ 5.5 10,000

Pin 1Pin 2

Pin 1

Pin 2 S0 +

S0 -

72

Settings – UC Editor

General In the "UC Editor" menu item, settings relevant to a utility company are made.

An effective power limit in % and/or a power factor limit can be set.

IMPORTANT! Settings in the "UC Editor" menu item may only be made by staff trained to
do so!

The service password must be entered for the "UC Editor" menu item.

UC Editor – Rip­ple Control Signal
Receiver

UC Editor – Factory setting with 100%, 60%, 30%, and 0% effective power.
The settings can be changed at any time.

(1) Activating the rule

(2) Input pattern (assignment of individual I/Os)

1 click = white

2 clicks = blue

3 clicks = gray

(3) First activate effective power,

then enter the desired effective power as a %

(1) (2)

(3) (4) (5) (6) (7)

(10)

(8)

(9)

(12)

(11)

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(4) First activate power factor cos phi,

then enter the desired power factor and select "ind" or "cap"

ind = inductive

cap = capacitive

(5) UC Output (feedback output)

When the rule is activated, the I/O 0 output will be activated (e.g., for operating a

signal device)

(6) Excluded inverters

Enter the numbers of inverters here that are to be excluded from control. Separate

multiple inverters with commas.

(7) Delete/Add a Rule

+ = add a new rule

- = delete selected rule

(8) Legend for use of colors

(9) Click "Import" button

to import rules in *.fpc format

The function of the "Import" button depends on the browser used, e.g., Firefox and

Google Chrome support the function.

(10) Click "Export" button

to save the rules separately in *.fpc format

(11) "Apply/Save" button

(12) "Cancel/Discard entries" button

NOTE! The print function of the web browser can be used to save the UC Editor
settings as a PDF or print them out (e.g., as a commissioning report).

74

Connection Ex­ample

(1) Ripple control signal receiver with 3 relays for effective power limitation
(2) Ripple control signal receiver with 3 relays for power factor limitation
(3) I/Os on Fronius Datamanager
(4) Loads (e.g., signal light, signal relay)

The ripple control signal receiver and the Fronius Datamanager plug are connected to one
another using a 4-pin cable in accordance with the connection diagram.
For distances of greater than 10 m between Fronius Datamanager and the ripple control
signal receiver, a shielded cable is recommended.

Settings on the UC Editor:

Uint / Uext
GND
I/O 0
I/O 1
I/O 2
I/O 3
I4
I5
I6
I7
I8
I9

60 %

30 %

0 %

(1)

(2)

(3)

(4)

0,95

0,90

0,85

(1)

(2)

75

EN-US

UC Editor – Dy­namic Power Re­duction

UCs or utility companies can prescribe feed-in limits for an inverter (e.g., max. 70% of the
kWp or max. 5 kW).
Dynamic power reduction takes into account self-consumption in the household before the
power of an inverter is reduced:

- An individual limit can be set.

- A counter for determining self-consumption per S0 can be connected directly to the

inverter (for Fronius Galvo, Fronius Symo, Fronius Primo, and Fronius Eco only).

Power limit

Option to define the maximum output power of the photovoltaic system.

(1) No limit

The photovoltaic system converts all available PV energy and feeds it into the grid.

(2) Dynamic power reduction limit for the entire system

The entire photovoltaic system is limited to a fixed power limit.

(3) Field for entering the total DC system power in Wp

This value is used as a control reference and also in case of errors (e.g., counter

failure).

(4) Field for entering the max. power in W or %

If no counter has been selected in the "Counter" menu item:

Max. power generated for the entire system

If S0 inverter has been selected in the "Counter" menu item:

Max. energy fed into the grid

(5) Selection field % or W

(6) "Apply/Save" button

(7) "Cancel/Discard entries" button

(1) (2)

(3)

(6) (7)

(4) (5)

76

UC Editor – Con­trol Priorities

1 = highest priority, 3 = lowest priority

(1) Used to set control priorities for the ripple control signal receiver

(2) Used to set control priorities for dynamic power reduction

(3) Used to set control priorities for control via Modbus

(4) "Apply/Save" button

(5) "Cancel/Discard entries" button

(1)
(2)
(3)

(4) (5)

Appendix

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Technical Data

Technical Data

* When sufficient power is coming from Fronius Solar Net, the green LED lights up

on every DATCOM component.

If the green LED does not light up, the power pack available from Fronius should

be inserted into the 12 V power pack connection socket of the DATCOM compo-

nent.

Check the cable and plug connections if necessary.

Memory capacity 16 MB

Supply voltage 230 V AC

Energy consumption typ. 1.4 W (without WiFi)

typ. 2.2 W (with WiFi)

Dimensions 132 x 103 x 22 mm

5.2 x 4.1 x 0.9 in.

Ethernet (LAN) RJ 45, 100 MB

WiFi IEEE 802.11b/g Client

RS 485 (Fronius Solar Net) RJ 45

Ambient temperature -20 – +65°C

-4 – +149°F

Solar Net power approx. 3 W

max. 3 DATCOM components *

I/O Connection Specifications

Voltage level of digital inputs low = min. 0 V – max. 1.8 V

high = min. 3 V – max. 30 V

Input currents of digital inputs depending on the input voltage;

input resistance = 46 kOhm

Switching capacity of digital outputs when
supplied by the Datamanager plug-in card

3.2 W, 10.7 V

in total for all 4 digital outputs

(minus other Solar Net participants)

Switching capacity of digital outputs when
supplied by an external power supply with
min. 10.7 – max. 24 V DC

1 A, 10.7 – 24 V DC

(depending on the external power supply)

per digital output

Max. switchable energy of digital outputs 76 mJ

(per output)

Fronius Worldwide - www.fronius.com/addresses

Under http://www.fronius.com/addresses you will find all addresses of our sales branches and partner firms!

Fronius International GmbH

4600 Wels, Froniusplatz 1, Austria
E-Mail: pv-sales@fronius.com
http://www.fronius.com

Fronius USA LLC Solar Electronics Division
6797 Fronius Drive, Portage, IN 46368
E-Mail: pv-us@fronius.com
http://www.fronius-usa.com