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000400BG

2 - Characteristics

Table: Technical Data PVI-3.0-TL-OUTD

PVI-3.6-TL-OUTD

PVI-4.2-TL-OUTD

Operating performance

Maximum Efficiency (η

max

)

96.8%

Weighted Efficiency (EURO/CEC)

96% / -

Power Supply Threshold

10.0 W

Night-Time Consumption

< 1.0 W

Communication

Wired Local Monitoring (opt.)

PVI-USB-RS232_485 (opt.)

Remote Monitoring (opt.)

VSN300 Wifi Logger Card (opt.), PVI-AEC-EVO (opt.),

VSN700 Data Logger (opt.)

Wireless Local Monitoring (opt.)

VSN300 Wifi Logger Card (opt.)

User Interface

LCD Display with 16 characters x 2 line

Environmental

Ambient temperature

-25...+60°C 

-13...140°F 

with derating above 

50°C / 122°F

-25...+60°C 

-13...140°F 

with derating above 

55°C / 131°F

-25...+60°C 

-13...140°F 

with derating above 

50°C / 122°F

Storage temperature 

-40...80°C (-40...+176°F)

Relative Humidity

0...100% condensing

Typical noise emission pressure

50 db(A) @ 1 m

Maximum operating altitude

2000 m / 6560 ft

Environmental pollution classification 

for external environment

3

Environmental Category

External

Physical

Environmental Protection Rating

IP 65

Cooling System

Natural

Overvoltage rating as per IEC 62109-1 

II (DC input)    III (AC output)

Dimensions (H x W x D)

618mm x 325mm x 222mm / 24.3” x 12.8” x 8.7”

Weight

 

17.5 kg / 38.6 lb 

Assembly System

Wall bracket

Safety

Safety class

I

Insulation level

Without transformer (TL) 

Marking

CE (50Hz only)

Safety and EMC Standards

EN62109-1,

N62109-2,

AS/NZS3100,

AS/NZS 60950, 

EN61000-6-1,
EN61000-6-3,

N61000-3-2,

EN61000-3-3

EN62109-1, 
EN62109-2,

AS/NZS3100, 

AS/NZS 60950, 

EN61000-6-1,
EN61000-6-3, 

EN61000-3-11, 

EN61000-3-12

EN62109-1,
EN62109-2,

AS/NZS3100,

AS/NZS 60950, 

EN61000-6-1,
EN61000-6-3, 

EN61000-3-11, 

EN61000-3-12

Grid Standard

CEI 0-21, VDE 0126-1-1,

VDE-AR-N 4105, G83/2,

EN 50438 (not for all 

national appendices), 

RD1699, AS 4777, 

C10/11, IEC 61727,

ABNT NBR 16149,

CLC/FprTS 50549

CEI 0-21, VDE 0126-1-1,

VDE-AR-N 4105, G83/2,

G59/3, EN 50438 (not for 

all national appendices),

RD1699, AS 4777, 

C10/11, IEC 61727, 

ABNT NBR 16149,
CLC/FprTS 50549,

PEA, MEA

CEI 0-21, VDE 0126-1-1,

VDE-AR-N 4105, G59/3,

EN 50438 (not for all 

national appendices), 

RD1699, AS 4777, 

C10/11, IEC 61727, 

ABNT NBR 16149,

CLC/FprTS 50549

1. The output voltage range may vary according to the grid standard of the country of installation
2. For G83/2 setting, maximum output current limited to 16 A up to a maximum output power of 3.68 kW
3. The output frequency range may vary according to the grid standard of the country of installation
4. Refer to the document “String inverter – Product Manual appendix” available at www.abb.com/solarinverters to know 

the brand and the model of the quick fit connector

Note. Features not specifically mentioned in this data sheet are not included in the product

Summary of Contents for PVI-3.0-TL-OUTD

Page 1: ...ABB solar inverters Product manual PVI 3 0 3 6 4 2 TL OUTD 3 0 to 4 2 kW ...

Page 2: ... be followed during installation and maintenance of the equipment Operators are required to read this manual and scrupulously follow the indications reported in it since ABB cannot be held responsible for damages caused to people and or things or the equipment if the warranty conditions are not observed ...

Page 3: ...uction and general information 2 Characteristics 3 Safety and accident prevention 4 Lifting and transport 5 Installation 6 Instruments 7 Operation 8 Maintenance PVI 3 0_3 6_4 2 TL OUTD Product manual EN Rev B M000016BG EFFECTIVE 09 09 2015 Copyright 2015 ABB All Rights Reserved ...

Page 4: ...shall re sult in the immediate cancellation of the warranty The Customer is fully liable for any modifications made to the system Given the countless array of system configurations and installation envi ronments possible it is essential to check the following sufficient space suitable for housing the equipment airborne noise produced depending on the environment potential flammability hazards ABB ...

Page 5: ...nical data 16 Tightening torques 18 Overall dimensions 18 Bracket dimensions 19 Efficiency curves 20 Power derating 21 Power derating due to environmental conditions 22 Power reduction due to the input voltage 23 Characteristics of a photovoltaic generator 24 Strings and Arrays 24 Description of the equipment 25 Operating diagram 25 Connection of several inverters together 26 Notes on the sizing o...

Page 6: ...t configuration 46 Parallel channel configuration 46 Input connection to PV generator DC side 47 Installation procedure for quick fit connectors 49 Grid output connection AC side 53 Characteristics and sizing of the line cable 53 Load protection switch AC disconnect switch 54 Connection to the AC side terminal board 54 Communication and control board 55 Connections to the communication and control...

Page 7: ...imitation messages 91 Registration on Registration website and calculation of second level password Service Menu 93 Resetting the time remaining to change the grid standard 96 Replacement of the buffer battery 97 Verification of ground leakage 98 Behaviour of a system without leakage 98 Behaviour of a system with leakage 99 Measuring the insulation resistance of photovoltaic generator 100 Storage ...

Page 8: ...11 Channel configuration switch 12 Internal battery 13 Signal terminal block 14 RJ45 Connectors 15 RS485 line termination switch 16 DC Disconnect switch 17 Input connectors MPPT1 18 Input connectors MPPT2 19 AC cable gland 20 Service cable glands Reference number index Graphical representation of references UNO 02 01 03 05 06 08 07 04 STANDARD VERSION S VERSION 16 18 17 19 20 14 15 09 10 11 12 13 ...

Page 9: ...ins only the information considered necessary for the use and routine maintenance of the equipment Operator and maintenance personnel skills prerequisites Personnel in charge of using and maintaining the equipment must be skilled for the described tasks and must reliably demonstrate their capacity to correctly interpret what is described in the manual For safety reasons only a qualified electricia...

Page 10: ...ence of heated areas or in any case areas that have hot parts danger of burns This points out that the examined area must not be entered or that the described operation must not be carried out This points out that it is mandatory to carry out the described operations using the clothing and or personal protective equipment provided by the employer IP20 IP65 This indicates the degree of protection o...

Page 11: ... of power supply The inverter can be connected to the electricity grid only in countries for which it has been certified approved The inverter cannot be connected to the DC side in parallel to other inverters to convert ener gy from a photovoltaic generator with a power greater than the nominal power of the single inverter The inverter may only be used in compliance with all its technical characte...

Page 12: ...verall dimensions and equipment identification The customer Installer takes full responsibility if when reading this manual the chronological order of its presentation provided is not observed All information is provided considering occasional inclusion of information in previous chapters In certain cases there may be a need to separately document software functionality or attach supplementary doc...

Page 13: ...ect switch 16 The choice of the inverter model must be made by a qualified technician who knows about the installation conditions the devices that will be installed outside the inverter and possible integration with an existing system PVI 3 0 3 6 4 2 TL OUTD MODELS PVI 3 0 3 6 4 2 TL OUTD Number of input channels 2 DC disconnect switch 16 No Input connectors quick fit connectors 1 pair for each ch...

Page 14: ...V 2 x 10 A 160 530 V 2 x 12 5 A Made in Italy DIN V VDE 0126 1 1 PROTECTIVE CLASS I 230 V 1Ø 50 Hz 3000W 45 C amb 3000 W 50 C amb 14 5 A 25 to 60 C 13 to 140 F SOLAR INVERTER www abb com solar 1 4 2 3 Vdc max Idc max Vdc MPP Vdc Full Power Isc max Vacr fr Iac max Pacr cos φ 0 9 Pacr cos φ 1 MODEL PVI 3 6 TL OUTD IP65 5 minutes 600 V 90 580 V 2 x 16 A 120 530 V 2 x 20 A Made in Italy DIN V VDE 0126...

Page 15: ...ormation necessary for the identification and cha racterisation of the inverter by ABB N B The labels must NOT be hidden with objects and extraneous parts rags boxes equip ment etc they must be cleaned regularly and kept visible at all times P N PPPPPPPPPPP WO XXXXXXX SO SXXXXXXXX Q1 SN YYWWSSSSSS WK WWYY PVI X X TL OUTD Y ABB Inverter model X X Inverter power rating Y Integrated disconnect switch...

Page 16: ...it PV Connector 4 Type of photovoltaic panels that can be con nected at input according to IEC 61730 Class A Input protection Reverse Polarity Protection Yes from current limited source Input Overvoltage protection for each MPPT Varistors 2 Maximum short circuit current for each MPPT 12 5 A 20 0 A 20 0 A Insulation Check Complying with the local standard DC Disconnect Switch rating S Version Max 2...

Page 17: ...Safety class I Insulation level Without transformer TL Marking CE 50Hz only Safety and EMC Standards EN62109 1 N62109 2 AS NZS3100 AS NZS 60950 EN61000 6 1 EN61000 6 3 N61000 3 2 EN61000 3 3 EN62109 1 EN62109 2 AS NZS3100 AS NZS 60950 EN61000 6 1 EN61000 6 3 EN61000 3 11 EN61000 3 12 EN62109 1 EN62109 2 AS NZS3100 AS NZS 60950 EN61000 6 1 EN61000 6 3 EN61000 3 11 EN61000 3 12 Grid Standard CEI 0 2...

Page 18: ...able gland 19 M25 locknut fixing 7 5 Nm Service cable glands 20 M20 ring nut fixing 2 5 Nm Service cable glands 20 M20 locknut fixing 7 0 Nm Front cover 05 1 5 Nm AC output terminal block 10 16 mm2 Max 1 5 Nm Signal terminal block 13 1 5 mm2 Max 0 25 Nm Overall dimensions The overall dimensions are expressed in millimetres and inches and in clude the wall installation bracket 325 mm 12 8 2 3 8 5 m...

Page 19: ...ting bracket dimensions are expressed in mm and inches 0 31 8mm 0 39 10mm 4 33 110mm 9 33 237mm 11 22 285mm 12 72 323mm 0 59 15mm 1 18 30mm 0 31 8mm 0 35 9mm 0 59 15mm 0 87 22mm 0 31 8mm 0 59 15mm 1 18 30mm 1 16 29 5mm 0 06 1 5mm 2 50 63 5mm 2 50 63 5mm 2 39 60 8mm ...

Page 20: ...ves are linked to technical parameters that are continually being developed and improved and should therefore be considered approximate PVI 3 0 TL OUTD Efficiency Curves 85 87 89 91 93 95 97 99 0 10 20 30 50 70 100 Efficiency 200Vdc 360Vdc 480Vdc 80 90 60 40 of rated Output Power of rated Output Power PVI 3 6 TL OUTD Efficiency Curves 85 87 89 91 93 95 97 99 0 10 20 30 50 70 100 Efficiency 200Vdc ...

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