Inversor Abb 5kw
Inversor Abb 5kw
Inversor Abb 5kw
Solar inverters
The installer must read this document in its entirety before installing or commissioning this equipment.
The labels on the inverter carry the markings, main technical data and identification of the equipment and manufacturer. The technical data shown in this quick
installation guide does not replace that shown on the labels attached to the equipment.
Product nameplate labels and descriptions
www.abb.com/solar
3
4
360 V
90 - 580 V
200 - 530 V
Certification
AC output ratings
Product origin
Environmental data
Protection
DC input ratings
Adjustable parameters
600 V
Hazardous voltage
Hot surfaces
2 x 18 A
AC RATING
Nominal Output Voltage
2 x 22 A
5
277 V~ / 240 V~ / 208 V~ 1
EN
US
UL 1741
CSA-C22.2 No. 107.1-01
60 Hz (factory preset)
59.3 ( ) - 60.5 ( ) Hz
Grounding (earth)
>0.995
Phase
Direct and alternating currents,
respectively
This inverter has been tested and found to comply with the limits for a Class B digital device, pursuant
to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against
Max. Output Overcurrent Protection
25 A / 30 A / 35 A
harmful interference in a residential installation. This equipment generates, uses and can radiate
radio frequency energy and, if not installed and used in accordance with the instructions, may
6 Operating Ambient Temperature: -25 to +60 C (-13 to +140 F), with Output Power Derating cause harmful interference to radio communications. However, there is no guarantee that
of Enclosure: NEMA 4X
7 Type
interference will not occur in a particular installation. If this equipment does cause harmful
DC Ground Fault Detector/Interrupter is Provided
interference to radio or television reception, which can be determined by turning the equipment off
from 57.0 Hz to 59.8 Hz
8 (( ):): Adjustable
Adjustable from 60.2 Hz to 63.0 Hz
and on, the user is encouraged to try to correct the interference by one or more of the following
For more details about product specifications refer to the Instruction Manual
measures: a) Reorient or relocate the receiving antenna; b) Increase the separation between the
This device complies with Part 15 of the FCC Rules. Operation is subject to the
following twoconditions: (1) this device may not cause harmful interference, and
equipment and receiver; c) Connect the equipment into an outlet on a circuit different from that
(2) this device must accept any interference received, including interference that
may cause undesidered operation.
to which the receiver is connected; d) Consult the dealer or an experienced radio/TV technician
for help.
The PV source conductors must be Listed PV wire per NEC 690.35. PV output conductors shall consist of sheathed (jacketed) multi-conductor cables or installed in
an approved raceway and must be isolated from the enclosure and system grounding, as required by NEC 690.35 and is the responsibility of the installer.
The inverter must be connected to a dedicated branch circuit provided with the maximum branch OCPD listed in the technical data table, section 13.
To reduce the risk of fire, connect only to a circuit provided with 25A, 30A, 35A for PVI-5000 or 30A, 35A, 40A for PVI-6000, maximum branch circuit overcurrent
protection in accordance with the NEC (ANSI/NFPA 70).
All models listed have an integrated DC disconnect switch rated 600V/25A per contact.
Maximum array DC voltage input to each MPPT circuit is 600 Vdc under any condition.
Max. Output Current
20 A / 23 A / 27 A (rms)
Installation location
2.
Environmental checks - See technical data table, section 13, to check environmental parameters.
Maximum operational ambient air temperature must be considered when choosing location. Installing the inverter where
operating temperatures exceed specifications will result in power derating. It is recommended the inverter be installed
within specified temperature range.
Exposure to direct sunlight will increase operational temperature of inverter and may cause output power limiting. It
is recommended to use a sun shade to minimize direct sunlight when ambient air temperature around unit exceeds
104F/40C.
Direct sunlight use caution
Due to acoustical noise (about 50dBA at 1 m) from inverter, do not install in rooms where prolonged presence of people
or animals is expected.
Installation position Install on a wall or strong structure capable of bearing weight.
Install vertically with a maximum incline of +/- 5.
Maintain minimum clearance measurements shown.
Ensure sufficient working area in front of inverter for
6
6
wiring box access.
Choose a location that allows unobstructed airflow
around inverter.
Air flow restricted use caution
Position multiple inverters side-by-side, maintaining
Side-by-side arrangement
minimum clearances.
Multiple inverters can
6
also be placed in staggered
in
25
25
arrangement.
Minimum clearances for
staggered arrangements
include width of inverter plus
6 in
6 in
additional allowances for
25
inverters arranged above or
below.
UNO
8
in
Staggered arrangement
5.
3.
DC input connections
Wall mounting
The maximum allowable input short circuit current limit of the PV array for each MPPT input channel is 22Adc.
Array equipment grounding must be installed per the requirements of the NEC and is the responsibility of the installer.
The transformerless design requires that the PV array to be floating with respect to ground per NEC 690.35.
The inverter can be configured with two independent maximum power point tracking (MPPT) channels or as a single channel with one MPPT
by paralleling the two channels.
Parallel two inputs when the current from PV array exceeds 22 Adc, or array power exceeds limit for single channel (section 13).
Switch S1, located on the inverter connection board, is used to select parallel (PAR) or independent (IND) input mode
The default position of switch S1 is set in the IND mode (DOWN).
To access the switchbox wiring and Switch S1, loosen the four captive screws on the inverter cover and wiring box cover using the Torx
wrench provided. Before removing front covers, DC switch must be in the OFF position.
When complete, re-install the front covers and tighten the cover screws with at least 1.5Nm (13.2 in-lbs) torque.
Use DC knockouts (section 4) to connect raceway from the PV array conduits to the DC array.
Independent mode configuration
Connect array to String 1 and String 2 input positions shown below, running
1 - Torx 20 wrench
81510000077
2 - Terminal connectors
82000006439-G
Using the four screws provided, level and mount the bracket to
the surface using mounting holes B.
To STRING 3
(OPTIONAL)
4.
To STRING 4
(OPTIONAL)
Switchbox wiring
To STRING 1
To STRING 2
INDEPENDENT configuration
Connect array to String 1 and String 2 input positions shown below, running
For versions without AFD, parallel the two MPPT inputs of terminal
IN1/IN2 and +IN1/+IN2 in the switchbox, using the two #10 AWG jumper
wires provided, 1 black and 1 red,
Connect the input as shown below.
Confirm switch S1 is set in the PAR position (UP)
DC Disconnect Switch
To STRING 1
shown at left, running separate wires for POS and NEG for each array.
For -A versions only, parallel the two MPPT inputs of IN1 and IN2
and +IN1 and +IN2 in the inverter, using the two #10 AWG jumper wires
provided, 1 black and 1 red. Connect the input as shown below and tighten
with 13in-lbs torque.
Confirm switch S1 is set in the PAR position (UP)
-IN1
+IN1
-IN2
+IN2
To STRING 2
AC output overcurrent protection is not provided with the inverter; it is the responsibility of the end user to provide overcurrent protection for the AC output circuit.
To prevent electrocution hazards, all the connection operations must be carried out with the external AC disconnect switch downstream of the inverter (grid side) open
and locked out.
Size conductors per NEC Article 310; Use 90C copper wire only; terminal
block accommodates wire size range of 14-4 AWG.
The AC grid wiring is connected through the
inverter switchbox.
Run an approved raceway between inverter
and external AC disconnect switch.
Make conduit entry through openings B or E
shown in section 4.
Connect AC wiring to switch box terminal
block J and the main AC ground cable to
switchbox terminal block K shown at left.
Table at right shows AC wiring connections
based on the AC grid type, (also found on a label
in the switchbox).
connect wiring to the numbered terminals
based on selected grid type.
8.
User interface
AC output connections
6.
POWER LED
The default 240V-SPLIT-PHASE connection requires the grid Neutral to be connected for proper operation. Before connecting the inverter to the grid, the grid type must
be selected if it differs from the default 240V-SPLIT-PHASE setting. See Section 10 for instructions to change the default. If several inverters are installed to a three-phase
AC GRID, always distribute the inverters between the phases in order to reduce power imbalance between the phases.
ALARM
S2=OFF
S2=OFF
S2=ON
RED: Ground fault on the DC side of the PV array. Error is shown on the display.
ESC
Used to access the main menu, go back to the previous menu, or go back to the previous digit to be edited.
Used to scroll up the menu options or shift the numerical scale in ascending order.
DOWN
Used to scroll down the menu options or shift the numerical scale in descending order.
ENTER
Used to confirm an action, access submenu for selected option (indicated by > arrow symbol) or switch to next digit to be edited.
Text in LCD consists of 2 lines with 16 characters per line.
Press the ENTER key to stop menu scrolling.
Press the ESC key to access the three MAIN MENUS:
STATISTICS - SETTINGS - INFO
The Statistics, Settings and Info menus can be accessed with just the array connected. Some parameters (e.g. current, voltage, power, partial energy,
lifetime energy etc.) are available only after grid connection.
Based on individual installations, the following parameters may need to be configured prior to initial grid connection:
The RS-485 bus address for daisy chain (section 10),
AC grid type if different from default (section 10),
Adjustments to default frequency and disconnection time (section 9).
Complete descriptions of the data available on the display menus can be found in the full manual on the website.
YELLOW: The inverter has detected an anomaly. Anomaly is shown on the display
9.
To adjust frequency and disconnect times to meet local utility requirements, modifications are made using the Aurora Manager-TL software. The software, with
instructions to download and install on a PC, can be found on the website
Prior to connecting to the grid, with the inverters DC disconnect switch set to ON, a computer, with Aurora Manager-TL software installed, should
be connected to the inverter via an RS-485-USB adapter (not included). The USB driver files and instructions for installation can be found on the website.
PC-inverter connection cable required is standard USB 2.0 cable, terminals type A and B.
After frequency and disconnect time values have been adjusted, turn DC power OFF and ON to save new data. Changes to parameters must be
made to meet the requirements of the local utility. Entry of improper values could cause inverter to shut down.
Simulated utility source
Cond.
GREEN: On if the inverter is working correctly. Flashes when checking the grid or if there is insufficient sunlight.
PROGRAMMING
CONTROLS
GFI
UP
Communication wiring
7.
Wiring for the RS-485 communication system and hardwired control options are routed through the switchbox (section 4) and into the main inverter chassis for termination. Alarm and
monitoring connections are shown as items Q and R . Refer to the technical manual online for connections to ALARM (Q) and Rem (remote control).
The WIND terminals (WT ) are not isolated and can have hazardous voltages present.
These terminals must not be utilized for any purpose in a PV installation (use with
wind models only).
To connect the communication wiring, it is necessary to open the inverter cover and access the
communication connections located on the main board.
T o remove the front cover of the inverter compartment, loosen the four captive screws
indicated using the Torx screwdriver provided.
When connection operations are complete, re-install the front covers and tighten the
cover screws with at least 1.5Nm (13.2 in-lbs) torque to ensure proper waterproof
sealing.
The RS-485 communication line connects the inverter to the monitoring devices and may be
daisy-chained (in-out) among multiple inverters. The RS-485 connecting cables can use both the
terminal connections R, as well as the RJ45 connectors S, to connect to the dedicated port.
If a daisy chain connection is required for AFD installed inverters (-A models) use standard
multiconductor RS-485 cable and connect the three RS-485 leads (-RTN, +T/R,-T/R)
USING ONLY THE MATING CONNECTORS.
Do not use RJ45 connectors with AFD installations.
P
Input Mode Selector Switch S1
RS-485 connectors (R)
Q
External alarm Out Terminals
If terminal blocks are used, signals RTN, +T/R and T/R have to be cabled.
TWO LINE
LCD DISPLAY
LED INDICATORS
Voltage (V)
Frequency (Hz)
<0.50 Vnor b
Rated (60Hz)
0.16 (Fixed)
Rated (60Hz)
2 (Fixed)
Rated (60Hz)
1 (Fixed)
1.20Vnor V (*)
Rated (60Hz)
0.16 (Fixed)
Rated
Rated
Rated
f< 57.0 Hz
0.16 (Fixed)
Rated
f > 63.0 Hz
0.16 (Fixed)
Refer to the technical manual online for connections of alarm wiring (Q) and Rem (remote control).
When multiple units have been connected in a daisy chain, the individual address will need to be assigned prior to grid connection using the display menu. The grid default type,
240V Split Phase, can also be changed prior to grid connection using the display menu.
With only the array connected, set the inverters DC disconnect switch to ON. GREEN POWER LED will flash and YELLOW ALARM LED will be steady. The LCD will read
Missing Grid. Press ESC to open the menus. Use the DOWN key to scroll to Settings, and press ENTER.
The Settings menu requires an access password.
0***
Upon selecting SETTINGS the password screen will display; the default password is 0000.
Pressing ENTER four times loads four zeroes on the display and opens the submenu.
The LCD has two visible text lines and the UP and DOWN control keys are used to scroll through the menu items. An arrow on the left side of the display highlights the current selection.
Move the arrow UP or DOWN to the desired selection and press ENTER to access the associated submenu (section 8). To return to the preceding menu, press the ESC key.
Address and Set Vgrid are described below for use in installation. Complete descriptions of the submenus can be found in the full manual on the website.
Address: In the SETTINGS menu, scroll to Address and press ENTER to open the submenu. Address values are
assigned manually using any value in the range 2 to 64. Press the UP and DOWN keys to scroll through numbers
and ENTER to select. Auto address = 1 and can be used only once; default address is set at 2.
Set Vgrid: In the SETTINGS menu, scroll DOWN to Set Vgrid and press ENTER to open the submenu. To
choose a grid connection different from the 240V Split-phase default, use the UP or DOWN key to move the
arrow to the desired selection and press ENTER. A second display screen will open; press ENTER to confirm
selection or ESC to cancel. Upon completion turn the DC Disconnect switch OFF to save changes.
>Address
Display settings
Alarm Message
>Set Vgrid
Address
>2
240V Split Ph
Vnom = 240V
Commissioning
11.
Initializing . . .
Please wait
Once both disconnects are closed, the inverter starts the grid connection sequence.
While the system checks for grid connection (Missing Grid) to be established, the ALARM LED turns steady YELLOW
and the POWER LED flashes GREEN.
When waiting for sunlight (Waiting Sun) the POWER LED turns steady GREEN. As soon as conditions are met, the
inverter is connected to the grid.
For A versions ONLY, the display shows the AFD board self-test running and results upon connection. If the self-test
results are OK, the inverter will continue to Next connections.
Missing Grid . . .
Waiting Sun . . . .
Next connections
2 secs
Vgrid
In range
223.8V
TECHNICAL DATA
Nominal Output Power
Maximum Output Power
Rated Grid AC Voltage
Number of Independent MPPT Channels
Maximum Usable Power for Each Channel
Absolute Maximum Voltage (Vmax)
Start- Up Voltage (Vstart)
Full Power MPPT Voltage Range
Operating MPPT Voltage Range
Maximum Current (Idcmax) for both MPPT
in Parallel
Maximum Usable Current per Channel
Maximum Short Circuit Current Limit per
Channel
Number of Wire Landing Terminals Per
Channel
Array Wiring Termination
Grid Connection Type
AdjustableVoltage Range (Vmin-Vmax)
Grid Frequency
Adjustable Grid Frequency Range
Maximum Current (Iacmax)
Power Factor
Total Harmonic Distortion At Rated Power
Contributory Fault Current**
Grid Wiring Termination Type
Reverse Polarity Protection
Over-Voltage Protection Type
PV Array Ground Fault Detection
Anti-Islanding Protection
Over-Voltage Protection Type
Maximum AC OCPD Rating
Maximum Efficiency
CEC Efficiency
Stand-by Consumption
Night time consumption
User-Interface
Remote Monitoring (1xRS485 incl.)
Wired Local Monitoring (1xRS485 incl.)
Wireless Local Monitoring
VALUES
W
W
V
F (C)
F (C)
% RH
db (A)
@1m
ft(m)
If a potential problem on the AFD board is detected, the self-test will result in error.
Refer to section 12 below to clear the error and restart the self-test.
13.
Technical data
10.
Fgrid
In range
50.17Hz
Meas. RISO . . .
In range
If all items described above test OK, the inverter is connected to the grid and displays the message, Inverter OK,
Inverter OK
along with the date and time. If there is not sufficient sunlight to connect to the grid, the unit will repeat the connection procedure
Mon 03 Jan 11:00
until all the parameters controlling connection to the grid (voltage and frequency, confirmation of no ground fault) are within
range. During this procedure, the green LED flashes ON and OFF.
Clock malfunctioning, or other non-function related faults that do not interfere with operation, may also be shown instead of the date and time.
W
V
V
V
V
PVI-5000-OUTD-US
5000
5000
208
240
2
4000
600
200 (adj. 120-350 )
200-530
0.7xVstart-580
277
208
PVI-6000-OUTD-US
6000
6000
240
2
4000
600
200 (adj. 120-350 )
200-530
0.7xVstart-580
36
36
18
18
22
22
2 Pairs
2 Pairs
V
Hz
Hz
ARMS
%
Apk/ARMS
A
%
%
WRMS
WRMS
in (mm)
lb (kg)
lb (kg)
Conduit Connections
DC Switch Rating (Per Contact)
A/V
Isolation Level
Safety and EMC Standard
Safety Approval
Standard Warranty
years
Extended Warranty
years
Standard - With DC Switch - Floating Array
With DC Switch, Wiring box and Arc Fault
Detector and Interrupter
*All data is subject to change without notice
** Inverter can apply that much current - Breaker will open
277
< 50
6560 (2000)
6560 (2000)
NEMA 4X
NEMA 4X
Natural Convection
Natural Convection
41.4 x 12.8 x 8.6 (1052 x 325 x 218)
< 59.5 (27.0)
< 59.5 (27.0)
< 78 (35.4)
< 78 (35.4)
Wall bracket
Wall bracket
Trade Size Kos: (2ea x 1/2) and (2ea x 1-1/4, 3 places side, front, rear)
25 / 600
25 / 600
Transformerless (Floating Array)
Transformerless (Floating Array)
UL 1741, IEE1547, IEE1547.1, CSA - C22.2 N. 107.1-01 , UL1998 UL1699B, FCC Part 15 Class B
cCSAus
cCSAus
10
10
15 & 20
15 & 20
PVI-5000-OUTD-US
PVI-6000-OUTD-US
PVI-5000-OUTD-US-A
PVI-6000-OUTD-US-A
12.
An autotest circuit is included in the module design of the DC ARC FAULT CIRCUIT INTERRUPTER (AFCI) solution. The AFCI performs a self-test when the system is started, (ie
every morning when sunlight is sufficient for connection). The inverter display area shows the results of the self-test:
If the self-test results are OK, the inverter will continue to AC grid connection.
Test Arc Sensor
If a potential problem on the AFD board is detected, the self-test will result in error.
OK
Press and hold the ESC key for three seconds to clear the error and start the restart self-test. If self-test results are OK, the inverter will re-connect
to the AC grid. If the DC arc fault is still present, the self test will result in error E053.
Arc Self Test
Refer to the technical manual online for possible solutions.
E053
During normal operation the input current is continually measured and analyzed.
If a DC arc fault is detected, the inverter is disconnected from the AC grid and error E050 will be displayed.
Arc Fault
Refer to the technical manual online for possible solutions.
The AF self-test can be manually started anytime using the following procedure:
1. Turn off the inverter (switching off both DC and AC switches) and,
2. Turn on both the DC and AC switches waiting for display communication of self-test result.
E050
Contact us
www.abb.com/solarinverters