ABB UNO-DM-3.3-TL-PLUS-US-Q, Quick Installation Manual

Page: 1 / 2

Before starting installation, download the product manual from www.abb.
com/solarinverters. Choose the correct country, string inverters, single phase,
choose the product and proceed to the “download” section.
Read and follow all safety and installation instructions to avoid disabling any
safety features or making the warranty invalid.
Quick installation guide
UNO-DM-3.3/3.8/4.6/5.0-TL-PLUS-US-Q
(from 3.3 to 5.0 kW)
ABB solar inverters
Inverter Models and Components
2.
EN
Mounting Instructions
4.
Installation location
3.
7.
Input connection (DC)
6.
Rapid Shutdown
5.
Clamps terminal use
This installation guide covers 4 inverter models of different power levels: 3.3 kW, 3.8 kW, 4.6 kW and 5.0kW.
For each model, the following variant is available:
UNO-DM-3.3-TL-PLUS-US-SB-RA-Q; UNO-DM-3.8-TL-PLUS-US-SB-RA-Q; UNO-DM-4.6-TL-PLUS-US-SB-RA-Q; UNO-DM-5.0-TL-PLUS-US-SB-RA-QU*
Models equipped with Wireless communication,DC disconnection switch,Rapid Shutdown Power Supply and Arc Fault Detector
*Unbalanced input channels (only with 5kW models, refer to the datasheet or product manual)
Main components
02 LED panel 10
UNO-DM-PLUS Ethernet COM KIT or
UNO-DM-COM KIT board (optional)
16
Protective Earth (PE) connection
point
22 Lock screw position
04 Inverter front cover 11 Inverter 17
Conduit drill out sizes 3/4”, 1” (drill out
markings on back side)
23
Power supply for rapid shutdown
(RSD) terminal blocks
05 Wiring box front cover 12
DC input terminal blocks
(two MPPT)
18 lower flange 24 Locking Screw
06 DC disconnect switch 13 AC output terminal blocks 19
1/2” communication conduit
drill out
07 Wall bracket 14 Wiring box 20
Markings for 3/4” or 1” conduit
drill outs
09
Heatsink
15
Wi-Fi antenna (-B models only)
21
Opening for 3/4” AC conduit
Installation site and position
- Refer Datasheet/Manual to confirm that the environmental specifications have been met
-Do not install the inverter in full sun. If needed, use a sun shade to minimize solar
irradiation, especially for temperatures over 104°F/40°C.
-Do not install in closed spaces where air does not circulate freely
- Always ensure that the flow of air around the inverter is not blocked, so as to prevent
overheating.
- Do not install the equipment near flammable substances (minimum distance: 10 ft).
- Do not install the equipment on wooden walls or other flammable substances.
- Do not install in inhabited rooms or where the prolonged presence of people or animals
is expected, because of the inverter’s noise level during operation. The sound level
is heavily influenced by its location (for example, the surface around the inverter, the
environment, etc.) and grid quality.
-Install on a wall or strong structure capable of bearing weight
- Install vertically with a maximum inclination as indicated in the figure
-Maintain minimum clearance from objects blocking air circulation and spacing betwe-
en inverter as indicated in the figures
- Ensure sufficient working area in front of the inverter for wiring box access
-If possible, install at eye level so that the LEDs can be seen easily
-Install at a height that takes account of the weight of the equipment
-Position multiple inverters side-by-side, maintaining minimum clearances
(measured from the outermost edge of the inverter)
-Multiple inverters can also be placed in a staggered arrangement. Minimum
clearances for staggered arrangements include width of the inverter cover
plus additional allowances for inverters arranged above or below
-
All installations over 6500’ high (2,000 meters) must be assessed by ABB
Technical Sales to determine the proper datasheet derating
Do not block access to the external AC and DC disconnects.
Please refer to the warranty terms and conditions and avoid voiding the
warranty with improper installation.
Mount the inverter following the step-by-step procedure below.
Do not remove the inverter chassis cover in
adverse weather conditions (e.g. rain, snow)
or during periods of high humidity (>95%).
Components included in mounting kit Q.TY
Wall bracket 1
T20 Wall bracket locking
screw (to be used when
lock springs
02
on the
bracket are missing)
2
(Spare part) T20 screw for
front cover
1
Jumpers for configuring
paralleled inputs.
1 + 1
In additio n to what is explain
ed in this guide, th e safety a nd installa
tion inform ation pro vided in th
e installat ion manu al must be read and
followed .
The techn ical docu
mentation and the in terface an
d manage ment softw are for th e product
are availa ble at the website.
XXXXXXX
XXXX XXXXXXXX XXXXXXX XXXXX
XXXXXXX
ABB solar inverter
s
Quick installation guide
(QIG)
1
- Position the bracket
07
so that it is level on the wall or pole
- It is the installer’s responsibility to choose an appropriate
number and distribution of attachment points. The
choice must be based on the type of wall, frame or other
support, the type of anchors to be used, and their ability
to support 4 times the inverter’s weight (4x33lbs=132lbs
for all models).
Depending on the type and number of attachment
points, drill the required holes to mount the bracket (see
figure detail
A
)
- Secure the bracket to the wall or frame
- If needed, make conduit cutouts in the wiring box chas-
sis, before the wiring box is put on the wall
- Carefully lift the inverter and hook it onto the bracket by insert-
ing the two supports in the slots on the inverter (Figure
B
).
- Proceed to anchor the inverter to the bracket by installing
the two (one each side) locking screws (Figure B1 ).
If on the bracket are present the lateral lock springs, pro-
ceed to lock the inverter by pressing the lower part toward
the wall or structure until the two springs on the bracket
set the inverter in position (Figure
B2
).
- Secure the inverter chassis bottom flange to the mounting
surface using another screw (see Figure detail
C
). Note
that the bottom flange is not a load-bearing component.
A
C
B
Confirm the correct polarity in the input strings.
Confirm there is no ground leakage current in the PV array.
When exposed to sunlight, the PV panels supply DC direct voltage to the inverter.
The inverter’s DC switch disconnects the DC current from the PV panels. In the “OFF” position the inverter will stop producing power, but
DOES NOT disconnect the AC from the grid. 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.
The transformerless design requires that the PV array to be floating with respect to ground per NEC 690.35.
DC PV string wire must be listed PV wire per NEC 690.35 rated minimum 600V.
PV output conductors (wiring) must consist of sheathed (jacketed) multi-conductor cables or single insulated conductors (wires) which
must be installed in an approved raceway. These conductors must be isolated from the enclosure and system grounding, as required by
NEC 690.35. This is the responsibility of the installer.
Confirm that the maximum PV array short circuit current for each DC input channel is within the inverter specification (see table in Section
14). Array equipment grounding must be installed per the requirements of the NEC and is the responsibility of the installer. A configuration
program that can help to correctly size the photovoltaic system is available on at http://www.stringsizer.abb.com.
- Turn the DC switch OFF
- Loosen the four captive screws on the wiring box cover (Torx 20) and remove the cover
- Pass the DC wires through the openings dedicated to the DC conduit.
Conduit must be sealed using water-tight fittings to maintain NEMA Type 4X enclosure integrity.
Installer should follow conduit manufacturers’ guidelines and best practices.
- Connect the DC wiring to DC input terminal blocks
12
. DC wiring terminals are spring pressure type and accommodate a wire size range of 20-8 AWG.
Connect the strings in either independent or parallel mode, following the appropriate set of instructions below:
Independent mode configuration Parallel mode configuration
In case of two PV arrays, if each of them has a current rating lower than the
maximum current rating for a single inverter channel, they may be connected
as “IND” array, each with its own MPPT. In this case, do nothing with the
jumper wires which came with the inverters.
- Connect the positive side of the first PV array to +IN1, and its negative side to -IN1.
- Connect the positive side of the second PV array to +IN2 and its negative side to -IN2.
Up to four strings can be connected in independent mode.
- During commissioning, confirm that the input mode is set to IND.
If connecting a single array, configure the inverter for parallel input mode.
If a PV array’s output current is more than the rating for a single inverter
channel:
- connect the red jumper wire between the +IN1 and +IN2 terminal block
inputs. Then connect the jumper wire black wire between the -IN1 and -IN2
terminals. During commissioning remember to set the input mode to PAR.
- Connect the array to the IN1 (MPPT1) and IN2 (MPPT2) input positions,
running separate wires for positive (+) and negative (-) for each array.
CAUTION
ATTENTION
REFER TO LOCAL CODE
FOR WIRE SIZE
FAIRE RÉFERENCE À LA
LÉGISLATION LOCALE POUR
LA DIMENSION DU CABLE
-IN1
+IN1
-IN2
+IN2
-RSD +RSD
MPPT1
String2
MPPT2
String2
MPPT2
String1
MPPT1
String1
CAUTION
ATTENTION
REFER TO LOCAL CODE
FOR WIRE SIZE
FAIRE RÉFERENCE À LA
LÉGISLATION LOCALE POUR
LA DIMENSION DU CABLE
-IN1
+IN1 -IN2 +IN2
PARALLEL
JUMPERS
-RSD +RSD
MPPT2
MPPT1
07
09
12
23
10
11
06
13
14
15
16
21
04
05
06
02
20
17
19
06
18
22
Bottom view
Front view Left view Right view
Back view
24
6
in
4 in 4 in
8
in
NO
OK
NO
OK OK OK
OK OK
OK OK OK
5° MAX 5° MAX
NO NO
CAUTION
ATTENTION
REFER TO LOCAL CODE
FOR WIRE SIZE
FAIRE RÉFERENCE À LA
LÉGISLATION LOCALE POUR
LA DIMENSION DU CABLE
-IN1 +IN1 -IN2
+IN2
1 2 3 -RSD +RSD
If an RSD device is installed on the plant, the inverter will power-up only if both AC and DC
are supplied!
The installer must use an external rapid shutdown device compliant with the 2014 NEC.
Automatic shutdown occurs at the rooftop box when utility power (AC) is lost or when the PV system’s AC
disconnect switch is opened. In jurisdictions requiring a dedicated activation switch should be installed an
emergency stop button external to the inverter.
The wiring box has 24Vdc (0.4A max) on a spring-loaded terminal block designed to power-up an external
RSD device.
The wire size range of RSD terminals is 26-12 AWG.
- Connect the RSD device respecting the polarity indicated on each RSD terminal.
6
in
4 in 4 in
8
in
NO
OK
NO
OK OK OK
OK OK
OK OK OK
5° MAX 5° MAX
NO NO
All power conductors will be inserter in spring clamp terminals.
The figure shows an example of how to make the wire connection:
1) Insert a small flat screwdriver in the slot and lightly press the screwdriver from top to bottom;
insert the screwdriver until the spring opens.
2) Insert the cable in the spring clamp.
3) Remove the screwdriver.
4) When connections are complete, give each wire a pull test
1.
Labels and Symbols
IMPORTANT SAFETY INSTRUCTIONS
SAVE THESE INSTRUCTIONS -- KEEP IN A SAFE PLACE!
The installer must read this document in its entirety before installing or commissioning this equipment.
For more detailed information regarding proper installation and use of this product, refer to the product manual located at www.abb.com/solarinverters. The
labels on the inverter have 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.
Symbols used in the guide and on the products
These are nationally recognized test
laboratory marks showing certification to
UL 1741 and CSA-C22 No. 107.1-01
System earth conductor (main groun-
ding protective earth, PE)
ø
Phase
Hazardous voltage
Equipment Grounding Conductor
(EGC)
Direct and alternating currents,
respectively
General warning - Important safety
information
10
Stored energy discharge time
+ -
Positive pole and negative pole of the
input voltage (DC)
Hot surfaces Consult product manual
- This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:
(1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
APPLY HERE
THE WIRELESS
IDENTIFICATION LABEL
BCM.V2P24.0