FIMER TRIO-5.8-TL-OUTD Solar Inverter Installation Guide

TRIO-5.8-TL-OUTD Solar Inverter

Solar Inverter TRIO-5.8/7.5/8.5-TL-OUTD Quick Installation Guide

In addition to what is explained in this quick installation guide, the safety and installation information provided in the product manual must be read and followed. The technical documentation for the product is available at the website. The device must be used in the manner described in the manual. If this is not the case the safety devices guaranteed by the inverter might be ineffective.

APPLY HERE THE WIRELESS IDENTIFICATION LABEL

1. Labels and Symbols

The labels on the inverter have the Agency marking, main technical data and identification of the equipment and manufacturer

SOLAR INVERTER

DIN V VDE 0126-1-1 PROTECTIVE CLASS: I

Made in Italy

A MODEL:
TRIO-8.5-TL-OUTD-400

Vdc max Vdc Operating Range Vdc MPP Idc max Isc max

1000 V 200 – 950 V 320 – 800 V
2 x 15 A 2 x 20 A

Vacr fr Pacr (cos= 1)
E Pacr (cos= ± 0.9) Iac max

400 V 3Ø 50 / 60 Hz 8500 W() 7650 W()
14.5 A
(*): Up to 50 °C with Vdc>400 V

-25 to +60 °C -13 to +140 °F

IP65

10 minutes

B
C
Fimer S.p.A. Via Tortona, 25 – I 20144 Milano (MI)

A Inverter model B Inverter part number C Inverter serial number D Week/Year of manufacture E Main technical data
D

A ATTENTION ­ The labels attached to the equipment must NOT be removed, damaged, dirtied, hidden,etc… If the service password is requested, use the serial number field -SN: YYWWSSSSSS- shown on the identification label (affixed to the side)
In the manual and/or in some cases on the equipment, the danger or hazard zones are indicated with signs, labels, symbols or icons.

Always refer to instruction manual

Hot surfaces

Without insulation transformer

General warning information

–

Important

safety

,3;;

Protection rating of equipment

Dangerous voltage

Temperature range

Obligation to use protective clothing and/ or personal protective equipment

Point of connection of the protective ground

Direct and alternating current, respectively Positive and negative pole of the input voltage (DC)
The discharge time of the stored energy
;;

2. Inverter models and components

The inverter model should be chosen by a specialized technician who has a good knowledge of the installation conditions, the devices that will be installed

externally, and whether it will eventually be integrated into an existing system.

The following models of inverter are available(08):

01

18 16 15

TRIO-5.8-TL-OUTD

TRIO-5.8-TL-OUTD-400

TRIO-5.8-TL-OUTD-S-400

02

· Number of input channels: 1

· Number of input channels: 1

03

POWER

ALARM

GFI

ESC UP DOWN ENTER

· DC disconnect switch (08): No

· DC disconnect switch (08): Yes

TRIO

· Input connectors: screw terminal block · Input connectors: quick fit connectors (2 pairs) 04

09

TRIO-7.5-TL-OUTD-400 TRIO-8.5-TL-OUTD-400
· Number of input channels: 2 · DC disconnect switch (08): No · Input connectors: screw terminal block

05

TRIO-7.5-TL-OUTD-S-400

06

TRIO-8.5-TL-OUTD-S-400

07
· Number of input channels: 2

· DC disconnect switch (08): Yes

08

· Input connectors: quick fit connectors (2 pairs

per channel)

TRIO-5.8-TL-OUTD-S 0 OFF

17 10
08 16 15
I ON
17 19

Main components 01 Display 02 LED panel 03 Keypad 04 Front cover 05 AC output board 06 Communication and control board 07 Scheda di ingresso DC 08 DC disconnect switch 09 bracket mounting slot 10 Inverter

11 Handles 12 Heat sink 13 Bracket 14 Locking screw 15 AC cable gland 16 Service cable glands 17 Anticondensation valve 18 DC cable glands 19 Input connectors (MPPT1) 20 Input connectors (MPPT2)

18 16 15

TRIO-7.5/8.5-TL-OUTD

11

12

13

17

14

08 16 15

TRIO-7.5/8.5-TL-OUTD-S

17 19 20

3. Choice of installation location
Environmental checks – Consult the technical data to check the environmental parameters to be observed – Installation of the unit in a location exposed to direct sunlight must be avoided as it may cause: 1. power limitation phenomena in the inverter (with a resulting decreased energy production by the system) 2. premature wear of the electrical/electromechanical components 3. premature wear of the mechanical components (gaskets) and of the user interface (display) – Do not install in small closed rooms where air cannot circulate freely – To avoid overheating, always make sure the flow of air around the inverter is not blocked – Do not install in places where gases or flammable substances may be present – Do not install in rooms where people live or where the prolonged presence of people or animals is expected, because of the noise (about 50dB(A) at 1 m) that the inverter makes during operation – Avoid electromagnetic interference that can compromise the correct operation of electronic equipment, with consequent situations of danger.
2

Installations above 2000 metres On account of the rarefaction of the air (at high altitudes), particular conditions may occur: · Less efficient cooling and therefore a greater likelihood of the device going into derating because of high internal temperatures · Reduction in the dielectric resistance of the air that, in the presence of high operating voltages (DC input), can create electric arcs (discharges) that can reach the point of damaging the inverter
D NOTE ­ All installations at altitudes of over 2000 metres must be assessed case by case with the FIMER Service department.

ESC UP DOWN ENTER

It is used to access the main menu, to go back to the previous menu or to go back to the previous digit to be edited. It is used to scroll up the menu options or to shift the numerical scale in ascending order. It is used to scroll down the menu options or to shift the numerical scale in descending order.
It can be used to conrm an action, to access the submenu for the selected option (indicated by the > symbol) or to switch to the next digit to be edited.

Installation position · Install on a wall or strong structure suitable for bearing the weight · Install in safe, easy to reach places · If possible, install at eye-level so that the display and status LEDs can be seen easily · Install at a height that considers the heaviness of the equipment · Install vertically with a maximum inclination of +/- 5° · To carry out maintenance of the hardware and software of the equipment, remove the covers on the front. Check that there are the correct safety distances for the installation that will allow the normal control and maintenance operations to be carried out · Comply with the indicated minimum distances · For a multiple installation, position the inverters side by side · If the space available does not allow this arrangement, position the inverters in a staggered arrangement as shown in the figure so that heat dissipation is not affected by other inverters

POWER ALARM GFI

ESC

UP

DOWN ENTER

TRIO

POWER ALARM GFI

ESC

UP

DOWN ENTER

TRIO

POWER ALARM GFI

ESC

UP

DOWN ENTER

TRIO

GFI

POWER

ALARM

DOWN

ENTER

UP

ESC

TRIO

50 cm

POWER ALARM GFI

ESC

UP

DOWN ENTER

TRIO

POWER ALARM GFI

ESC

UP

DOWN ENTER

TRIO

POWER ALARM GFI

ESC

UP

DOWN ENTER

TRIO

POWER ALARM GFI

ESC

UP

DOWN ENTER

TRIO

The operating parameters of the equipment are displayed through the

display (01): warnings, alarms, channels, voltages, etc.

Description of symbols and display fields.

b2 b4 b6

b1

b3 b5 b7

b8 b9

b17

b23

b10

b19

DC AC

b11

b13

b12

b15

b18 b21

b14

b16

b20 b22

Description of symbols and display fields.

b1 RS485 data transmission

b13 Daily energy produced

b2 RS485 line present

b14 PV voltage > Vstart

b3 Radio line present.

b15 DC voltage value

b4 Bluetooth line present (*)

b16 DC current value

b5 WiFi line present (*)

b17 DC/DC circuit part

b6 Warning

b18 DC/AC circuit part

b7 Temperature derating

b19 AC voltage value

b8 Instantaneous power

b20 AC current value

b9 MPP scan running

b21 Connection to the grid

b10 Graphic display

b22 Grid status

b11 Power graph

b23 Cyclic view on/off

b12 Total energy

(*) NOT available

15cm

POWER ALARM

GFI

ESC

UP

DOWN ENTER

TRIO

15cm

POWER ALARM GFI

ESC

UP

DOWN ENTER

TRIO

POWER ALARM GFI

ESC

UP

DOWN ENTER

TRIO

c5m0

POWER ALARM GFI

ESC

UP

DOWN ENTER

TRIO

POWER ALARM GFI

ESC

UP

DOWN ENTER

TRIO

A ATTENTION ­ Final installation of the inverter must not compromise access to any disconnection devices that may be located externally.
A ATTENTION ­ Please refer to the warranty terms and conditions available on the website and evaluate any possible exclusion due to improper installation.

4. Instruments
LEDs and BUTTONS, in various combinations, can be used to view the status or carry out complex actions that are described more fully in the manual.

DC AC

POWER ALARM GFI

ESC UP DOWN ENTER

02

01

03

POWER LED ALARM LED
GFI LED

GREEN On if the inverter is working correctly. Flashes when checking the grid or if there is insufficient sunlight. YELLOW The inverter has detected an anomaly. The anomaly is shown on the display.
RED Ground fault on the DC side of the PV generator. The error is shown on the display.

5. Lifting and transport

Transport and handling Transport of the equipment, especially by road, must be carried out with by suitable ways and means for protecting the components (in particular, the electronic components) from violent shocks, humidity, vibration, etc.

Lifting Where indicated and/or where there is a provision, eyebolts or handles, which can be used as anchorage points, are inserted and/or can be inserted. The ropes and means used for lifting must be suitable for bearing the weight of the equipment.

POWER ALARM GFI

ESC UP DOWN ENTER

TRIO

Unpacking and checking The components of the packaging must be disposed on in accordance with the regulations in force in the country of installation. When you open the package, check that the equipment is undamaged and make sure all the components are present. If you find any defects or damage, stop unpacking and consult the carrier, and also promptly inform the FIMER.

Model TRIO-5.8-TL-OUTD(-S)-400 TRIO-7.5-TL-OUTD(-S)-400 TRIO-8.5-TL- OUTD(-S)-400

Mass weight 25 kg 28 kg 28 kg

Lifting points n°# 4 4 4

3

6. List of supplied components 8. Opening the cover

Components available for all models

Quantity

Connector for connecting configurable relay

the

2

Connector for the connection of the communication and control 2 signals

L-key, TORX TX25

1

Two-hole gasket for M25 signal cable glands and cap

2+2

Two-hole gasket for M20 signal cable glands and cap

1+1

Three-hole gasket for cable glands and cap

M25

DC

2+4

Bracket for wall Locking screw

mounting+ 1+2

The front cover can be easily opened by sliding it over the two rails on both inner sides of the inverter, as described in the procedure below:
· Unscrew the 8 screws that secure the front cover (04) (step 1) · Open the cover by pulling it towards you, then push it upwards from both sides (steps 2 and 3). At this stage, avoid misplacing the cover. · Secure the cover open by pushing it forwards and then downwards (steps 4 and 5)
1 23 45

POWER

ALARM

GFI

ESC UP DOWN ENTER

TRIO

Bolts and mounting

screws

for

wall 4+4

Quick Installation Guide

1

Additional components for 7.5 / 8.5kW models

Quantity

Jumpers for configuration the parallel input channels

of

1+1

Additional components for models with disconnect switch (-S) Quantity

Female quick fit connectors

2 (5.8 kW) 4 (7.5 / 8.5 kW)

Male quick fit connectors

2 (5.8 kW) 4 (7.5 / 8.5 kW)

7. Assembly Instruction
Wall mounting During installation do not place the inverter (10) with the front cover (04) facing towards the ground. · Position the bracket (13) perfectly level on the wall and use it as a drilling template. · Drill the 4 holes required using a drill with 10mm bit. The holes must be about 70mm deep. · Fix the bracket to the wall with the 4 wall anchors, 10mm in diameter, supplied. · Attach the inverter by inserting the two tabs on the bracket (13) into the 2 slots on the inverter (figures A1 and A2). · Secure the inverter to the bracket by screwing the 2 lock screws (14) on both sides of the inverter (figure A3). · Unscrew the 8 screws and open the front cover (04) as described in the following paragraph to make all necessary connections. The cover is fitted into fixed rails and cannot be removed.
6 x Ø 10 mm

A1

A2

9. Line cable and protection devices

Load protection breaker (AC disconnect switch) and line cable sizing To protect the AC connection line of the inverter, we recommend installing a device for protection against over current and leakage with the following characteristics:

TRIO-5.8/7.5/8.5-TL-OUTD

Type

Automatic circuit breaker with differential thermal magnetic protection

Voltage/Current rating 400V /16A

Magnetic protection characteristic

B/C

Number of poles

3/4

Type of differential protection

A/AC

Differential sensitivity 300mA

FIMER declares that the FIMER transformerless inverters, in terms of their construction, do not inject continuous ground fault currents and therefore there is no requirement that the differential protection installed downstream of the inverter be type B in accordance with IEC 60755 / A 2.

Characteristics and sizing of the line cable For the connection of the inverter to the grid, you can choose between a star connection (3 phases + neutral) and a delta connection (3 phases). The cross-section of the AC line conductor must be sized in order to prevent unwanted disconnections of the inverter from the grid due to high impedance of the line that connects the inverter to the power supply point

Cross-section of the line conductor (mm2)

Maximum length of the line conductor (m)

TRIO-5.8-TL- TRIO-7.5-TL- TRIO-8.5-TL-

OUTD

OUTD

OUTD

4

55m

40m

35m

6

80m

60m

55m

10

135m

105m

90m

POWER ALARM GFI

ESC UP DOWN ENTER

TRIO

The values are calculated in nominal

power conditions, taking into account:

Max 10mm2

A3

1. a power loss of not more than 1% along

the line. 2. copper cable, with HEPR

insulation, laid in free air

13 ÷ 21 mm

4

10. Input configuration (DC)
The 7.5 and 8.5 kW power inverter versions are equipped with two independent input channels (and therefore with double maximum power point tracker MPPT), which can however be connected in parallel using a single MPPT. · Independent channel configuration (default configuration) This configuration is factory- set and uses both input channels (MPPT) as independent. This requires the jumpers (supplied) between the positive and negative poles of the two DC input channels not to be installed and the independent channel mode to be set in the relevant section of the SETTINGS menu.
Input Mode INDEPENDENT

· Connection of inputs on models with disconnect switch The string connections for inverter versions equipped with DC disconnect switch (08) use quick fit connectors (multicontact or weidmuller), placed at the bottom of the mechanism. The number of quick fit connectors changes based on the number of input channels. Each input channel is normally equipped with two pairs of connectors for the connection of two strings.

TRIO-5.8-TL

No. of input channels

1

No. of quick fit connectors 4 (2 pairs)

TRIO-7.5-TL TRIO-8.5-TL 2
4 + 4 (2 pairs per MPPT)

TRIO 5.8kW (1 MPPT)
I ON

TRIO 7.5/8.5kW (2 MPPT)

0 OFF

· Parallel channel configuration This configuration uses the two input channels (MPPT) connected in parallel. This requires the jumpers (supplied) between the positive and negative poles of the two DC input channels to be installed and the parallel channel mode to be set in the relevant section of the SETTINGS menu.

Standard Version

-S Version

07

07

Input Mode PARALLEL

Connect all the strings included in the system design and always check the tightness of the connectors. If some of the string inputs are left unused, check that all relevant connectors are covered with caps and install caps where needed. This is necessary to ensure the tightness of the inverter and to avoid damaging the unused connectors so that they can be ready for later use.

11. Input connection (DC)

B WARNING ­ Check for correct polarity in the input strings and absence of any leakage to ground in the PV generator. When exposed to sunlight, the PV panels supply DC direct voltage to the inverter. The inside of the inverter may only be accessed after the equipment has been disconnected from the grid and from the photovoltaic generator. The inverter is only to be used with photovoltaic units with ground insulated input poles unless accessories allowing grounding of the inputs have been installed. In this case it is compulsory to install an isolation transformer on the AC side of the system.

· Connection of inputs on the Standard models The input connections on inverter models that are not equipped with a DC disconnect switch can be made in 2 different modes, based on the number of available input channels.

No. of input channels DC cable gland

TRIO-5.8-TLOUTD
1

TRIO-7.5-TLOUTD 2 2 x M25

TRIO-8.5-TLOUTD
2

For all inverter models the DC terminal block (23) can be connected by feeding the cables inside the DC cable glands (18). The cable gland accepts cables of maximum diameter from 10 to 17 mm, while each terminal of the terminal block accepts a cable with maximum cross-section of 16 mm2 (1.5 Nm tightening torque). Unscrew the cable gland, remove the cover, feed a cable of suitable crosssection and connect it to the terminals on the DC input terminal block. Three-hole gaskets are supplied for insertion in the cable gland, which allow three separate cables with cross-section of up to 7mm to go through. Once the connection to the terminal block has been made, firmly screw the cable gland (7.5 Nm tightening torque) and check the tightness.

TRIO 5.8kW (1 MPPT)

TRIO 7.5/8.5kW (2 MPPT)

+-

07

07

22

23

23

18 18

+- -+
MPPT1 MPPT2

12. Output connection (AC)

The inverter should be connected to a three-phase system with an earthed common star point. When connecting the inverter to the network, either a four- wire connection (3 phases + neutral) or a three-wire connection (3 phases) can be used.

A ATTENTION ­ Whichever connection is used, the inverter must be

connected to earth. To avoid the risk of electrocution, all connection

operations much be carried out with the disconnector downstream

from the disarmed inverter (network side).

For all models, connection is carried out with the AC (31) output terminal

by passing the cables through the inside of the AC cable gland (15). The

maximum accepted cable diameter is between 13 and 21 mm; however,

each individual clamp in the terminal accepts

a cable with a maximum section view of 10

mm2 (tightening torque 1.5 Nm).

05

3W

Unscrew the cable gland, remove the plug,

4W

insert the appropriately sized cable, and

connect the

33

conductors (Neutral, R, S, T and Ground) to

the clamps on the AC output terminal (31).

RS TN

Take care to not invert one of the phases with

31

neutral!

Once connection to the terminals is

completed, securely retighten the screws

15

(tightening torque 8.0 Nm) on the cable gland

and check the sealing barrier.

33

3W

4W

R S T N /G Set up the S1 (33) switch based on the configuration of the output connections: – position 3W for three-wire configurations (R+S+T) – position 4W for four-wire configurations (R+S+T+Neutral)

5

13. Connection of the communication and control signals

The following table shows the main components and the connections available on the control and communication board.. Each cable that must be connected to the communication card must go through the three service cable glands (16).

Ref. manual

Ref. inverter

Description

24

(24)

J14

SLOT 3 – Connector for WIFI modules installation (NOT ACTIVE)

a01

a01

A2

Inverter data memory card housing

(25)

A1

SD CARD housing

25

a02

S2

Switch to set the inverter to normal or service mode

a03

BT1

Battery housing

a02

Terminal block connecting to the configurable relay that allows

connection of external devices which, according to the mode

a03

(26)

J2

selected in the menu SETTINGS>Alarm can, for example,

signal malfunctions. The operating modes that can be set are:

26

-Production -Alarm -Alarm (configurable) -Crepuscolar

27
28 a04
1
29

30
1

a05

(30)

J7 e J11 Connection of the RS485 (PC) line on RJ45 connector

(27)

J9

(28)

J3

a04

A3

Connector for radiomodule or Ethernet board installation SLOT 2 – Connector for PMU board installation RS485 (PC) communication card housing

(29)

J4

a05

S2

Terminal block for: – PC RS485 serial connection (to connect local or remote monitoring systems) – Remote ON/OFF connection – Tachometer signal (WIND version) connection
Switch for setting the termination resistance of the RS485 (PC) line

8

1

POWER ALARM GFI

ESC UP DOWN ENTER

TRIO

6 4

E READ THE MANUAL ­ Please refer to the manual for details of the connections and functions available on the control 3

and communication board

2

D NOTE ­ Once the connection and the configuration of the inverter is completed, the front cover must be closed by 5

tightening the screws (2.4 Nm tightening torque) in the order shown.

7

14. Commissioning

The inverter commissioning procedure is as follows: · Close the AC disconnect switch to supply the inverter with the grid voltage · Close the DC disconnect switch to supply the inverter with the photovoltaic generator voltage. If the inverter is equipped with a DC disconnect switch (-S models), turn the DC disconnect switch (14) to the ON position. · When the inverter is connected to the power supply, the display will show a guided configuration procedure. Press ENTER to set the following:

Config. Wizard ENTER to START

-Inverter time and date
ENTER Time hh:mm Date DD MMM YYYY

– Parallel or independent mode configuration of the input channels
Input Mode PARALLEL/INDEP

– Selection of grid standard and corresponding display language
GRID= Lang=

Once the guided configuration is completed, the inverter restarts to apply the parameter settings · When the inverter has power, the first check performed is the one relating to the input voltage:
If the DC input voltage is lower than the Vstart voltage (voltage required to begin the inverter’s grid connection) the b14 icon remains off and the “Waiting sun” message is displayed b10.
If the DC input voltage is higher than the Vstart voltage the b14 icon is displayed and the inverter goes to the next stage of the controls. In both cases the voltage levels and input current are displayed in the b15 and b16 fields. · The inverter performs a control of grid parameters. The b22 icon, which represents the grid distribution, can have different statuses: not present, if the mains voltage results as absent. flashing, if the mains voltage is present but outside the parameters dictated by the standard of the country of installation. turns on, if the mains voltage is present and within the parameters dictated by the standard of the country of installation. In this condition, the inverter starts the sequence of grid connection.
A ATTENTION ­ Do not place objects of any kind on the inverter during operation! Do not touch the heatsink while the inverter is operating!Some parts may be very hot and cause burns.
E READ THE MANUAL ­ If the input voltage and the grid voltage are within the inverter operating intervals, connection to the grid will commence. After the inverter is connected, the icons on the whole line b21 will come on steady. Once the connection sequence has been completed, the inverter starts to operate and indicates its correct operation by making a sound and by the green LED coming on steady on the LED panel (02).
· Check for updated Firmware versions on the website
If the inverter signals any errors/warnings the messages and their codes will be indicated on the display (01). This state will also cause switching of the multi-function relay (set to alarm mode in the menu SETTINGS>Alarm) which activates any external signalling device that may be connected.

6

15. Components & accessories

The accessories can be bought separately and installed directly by a qualified technician or by the installer. For information on the installation, compatibility and use of the accessories, refer to the relevant part documentation.

PMU EXPANSION BOARD
Added features: · PMU – Management of active/reactive power · 2 analogue and 1 PT100/ PT1000 inputs. · Analogue sensor power supply (24 V) · RS485 (ModBus protocol) · RS485 (Aurora protocol)

ETHERNET EXPANSION BOARD
Added features: Ethernet connection for: · Local monitoring (internal webserver) · Remote monitoring (“Aurora Vision/Easy View” portal)

2

16

J6

1

15

C30 LAB1

C43

R58

C44

R59

LAB1

R56

R62

R63

C45
R60 C36 C37
R53 R54

C25
XTAL3 C10 C34 C38
C40C32 R57

U11

R51 R47

D5 C31 A C

R48

C33 R66 R65
R64

LED5 R41
LED4 R40

R52

U2 U4
D2 D3
2 1

Q1

U7
J3 24 23

R44

U10

C29

L4

C27

C39 R46 R45

R49 R55
C48 R61

C26

C24

R39 C23

R38

J2 L5

C22

D6 D7

R28 R29 R30 R31 R32 R33 R22 R34 R23 D4 C12
R24
C11 C21 R35 L1 R36 L2 R37 C13
R25 R26 R27
L3 C14 TP25 R67
R68 C15

C28 C35 C41
C47

XTAL2

TP17

TP21

2

1

TP18 R18 R20

U12

TP22 TP23 TP24

C8 TP20

R21

C9

U5

U6

U8

R16 LED3

U9 C3 C6

R19

C20

LED2

C7

D1 R15

TP14

TP12 TP13

R13

C5 U3

U1

C2

LED1

J1 1

TP5 R1
C1 R2
R3 R4 R5 R6 TP3 R7 TP4
R8 TP6
R9 TP7
TP2 RRR111021

C4 R17

R14

C19

8 7

7

16. Structure of the display menu

The display (01) has a section b10 (graphic display) for moving through the menu using the buttons of the LED panel (02). Section b10 consists of 2 lines with 16 characters per line:
Viewing of the GENERAL INFORMATION is cyclic. This information relates to the input and output parameters and the inverter identification parameters. By pressing ENTER it is possible to lock scrolling on a screen to be constantly displayed.
Press ESC to access the three main menus, which have the following functions: STATISTICS>Displays the statistics; SETTINGS>Modify the settings of the inverter INFO>View service messages for the operator;
Refer to the manual for details regarding use and functions available in the menu.

GENERAL INFORMATION (cycle view)

Inverter OK Date Time
Type OUTD P/N -XXXX-
SN XXXXXX Fw rel. XXXX
E-day XXX.XkWh $-day XX.XEUR
E-tot XXXXXXkWh E-par XXXXXXkWh
Pout XXXXXW

Vbulk

XXXV

Vbulk_m XXXV

Riso Ileak

X.XM© XmA

Pin2 XXXXXW

Pin1 XXXXXW

Vin2 Iin2
Vin1 Iin1

XXXV XX.XA
XXXV XX.XA

COSp X.XXX Tipo regolazione

Tint

XX.X°C

Tboost XX.X°C

Ppk

XXXXXW

PpkDay XXXXXW

VoutR

XXXV

Vout avg XXXV

VoutS

XXXV

Vout avg XXXV

VoutT

XXXV

Vout avg XXXV

IoutT XX.XA FoutT XX.XXHz

IoutS XX.XA FoutS XX.XXHz

IoutR XX.XA FoutR XX.XXHz

VoutTR

XXXV

VoutST

XXXV

VoutRS

XXXV

Structure of the main menu

STATISTICS

SETTINGS

password 0000

Total

Address

Partial

Display Set.

Today

Service

Last 7 days

New PW

Press ESC

Last month Last 30 days

Cash Time

Last 365 days

Language

User Period

V Start

*1 Autotest

Alarm

Remote ON/OFF

Sleep Mode

UV Prot. Time

1 Available only for grid standard CEI-021 2 Available only with PMU board installed *3 Available only with Ethernet board installed

INFORMATION Part No. Serial No. Firmware Country Select
3 EtPhoeStrc.nheeRtdeaBtoPtaMirUvda 2 PMU Board
Input mode Power Reduction MPPT Reactive Power

17. Characteristics and technical data

TRIO-5.8-TL-OUTD

TRIO-7.5-TL-OUTD

TRIO-8.5-TL-OUTD

Input Side
Absolute maximum input voltage (Vmax,abs) Start-up DC Input Voltage (Vstart) Operating DC input voltage range (Vdcmin…Vdcmax) Rated input DC power (Pdcr) Number of independent MPPTs
Maximum Input power for each MPPT (PMPPTmax)
DC input voltage range (VMPPT min … VMPPT max) at Pacr DC Input Voltage Range with Parallel Configuration of MPPT at Pacr DC Power Limitation with Parallel Configuration of MPPT DC Power Limitation for each MPPT with Independent Configuration of MPPT at Pacr , max unbalance example Maximum DC Input Current (Idcmax) / for each MPPT (IMPPTmax) Maximum Backfeed current (from AC to DC side) Number of DC Inputs Pairs for each MPPT DC Connection Type Type of photovoltaic panels that can be connected at input according to IEC 61730 Input protection Reverse polarity protection Input overvoltage protection for each MPPT- Varistor

1000 V 350 V (adj. 200…500 V) 0.7 x Vstart…950 V 5950 Wp 1 6050 W Linear Derating From MAX to Null [800VVMPPT950V] 320…800 V

7650 Wp 2
4800 W
–

–

320…800 V

8700 Wp 2 4800 W –
320…800 V

–

Linear Derating From MAX to Null [800VVMPPT950V]

4800 W [320VVMPPT800V] 4800 W [320VVMPPT800V]

–

the other channel: Pdcr-4800W the other channel: Pdcr-4800W

[215VVMPPT800V] [290VVMPPT800V]

18.9 A

30 A / 15 A

30 A / 15 A

Negligible 2 (-S Version) Tool Free PV Connector WM / MC4 (Screw Terminal Block on Standard Version)

Classe A

Yes, from a limited current source 2
7

TRIO-5.8-TL-OUTD

TRIO-7.5-TL-OUTD

TRIO-8.5-TL-OUTD

Maximum Input Short Circuit Current for each MPPT Photovoltaic Array Isolation Control DC Switch Rating for each MPPT (Version with DC Switch) Output Side AC Grid Connection Type Rated AC grid voltage (Vacr) AC Voltage Range Rated AC Power (Pac ) max@cos=1 Maximum apparent power (Smax) Maximum AC output current (Iac max) Contributory fault current Inrush Current Maximum output fault current Rated output frequency (fr) Output frequency range (fmin…fmax)
Nominal Power Factor and adjustable range (Cosphiacr)
Total current harmonic distortion AC connection type Output Protection Anti- islanding protection Maximum AC overcurrent protection Output overvoltage protection – Varistor Operating Performance Maximum efficiency (max) Weighted efficiency (EURO/CEC) Feed In Power Threshold Stand-by Consumption Communication Wired Local Monitoring Remote Monitoring Wireless Local Monitoring User Interface Environmental Ambient temperature range Relative humidity Noise Emission Maximum Operating Altitude without Derating Environmental pollution classification for external environment Environmental category Physical Environmental Protection Rating Cooling system Overvoltage Category in accordance with IEC 62109-1
Dimensions (H x W x D)
Weight Mounting system Safety Isolation level Marking Safety class

24.0 A According to local standard
13 A /1000 V

20.0 A 23 A / 800 V

20.0 A

Three phase 3W or 4W+PE

400 V

320…480 Vac (1)

5800 W

7500 W

5800 VA

7500 VA

10.0 A

12.5 A

12.0 A

14.5 A

Negligible

<20Arms(100mS)

50 / 60 Hz

47…53 / 57…63 Hz (2)

0.995, adj.±0.9 with

0.995, adj.±0.9 with

Pacr=5.22kW,

Pacr=6.75kW,

adj. ± 0.8 with max 5.8kVA

adj. ± 0.8 with max 7.5kVA

< 2%

Screw terminal block, maximum cross-section 10 mm2

8500 W 8500 VA 14.5 A 16.5 A

0.995,adj.±0.9

with

Pacr=7.65kW,

adj. ± 0.8 with max 8.5kVA

According to local standard 10.5 A 4 plus gas arrester

12.0 A

15.0 A

98.0% 97.4% / 32 W < 15 W

97.5% / 36 W

97.5% / 36 W

Ethernet card with webserver (opt.), PVI-USB-RS232_485 (opt.), PVI-DESKTOP (opt.) Ethernet card (opt.), PVI-AEC-EVO (opt.), VSN700 Data Logger (opt.) PVI-DESKTOP (opt.) with PVI-RADIOMODULE (opt.) Graphic display

-25…+60°C /-13…140°F con derating sopra i 50°C/122°F 0…100% condensing < 45 db(A) @ 1 m 2000 m / 6560 ft
3
External

IP 65 Natural

II (DC input) III (AC output)

641mm x 429mm x 220mm / 25.2″ x 16.9″ x 8.7″

855mm x 429mm x 237mm / 33.7″ x 16.9″ x 9.3″ with open front cover

25.0 kg / 55.1 lb

28.0 kg / 61.7 lb

28.0 kg / 61.7 lb

Wall bracket

Transformerless CE (50Hz only) I

1. The AC voltage range may vary depending on specific country grid standard 2. The Frequency range may vary depending on specific country grid standard Remark. Features not specifically listed in the present data sheet are not included in the product

For more information please contact your local FIMER representative or visit:
fimer.com

FIMER_TRIO-5.8_7.5_8.5-TL-Quick Installation Guide_EN_RevG

07/05/2021

We reserve the right to make technical changes or modify the contents of this document without prior notice. With regard to purchase orders, the agreed particulars shall prevail. FIMER does not accept any responsibility whatsoever for potential errors or possible lack of information in this document.

We reserve all rights in this document and in the

subject matter and illustrations contained therein. Any

reproduction, disclosure to third parties or utilization of

its contents ­ in whole or in parts ­ is forbidden without

prior written consent of FIMER. Copyright© 2021 FIMER.

All rights reserved.

8

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