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Paralleling SkyBox
This commissioning document covers the proper set-up of a system with two SkyBoxes connected in
parallel and applies for firmware versions 1.3.27 and greater. Parallel connection of multiple inverters
is referred to as "stacking"; the combined system is referred to as a "stack". Paralleling two SkyBoxes
enables system capacities of up to 10kW of power output. At this time stacks with more than two
SkyBoxes are not supported. For a system power requirement that exceeds 10kW, please contact
OutBack Sales.
Theory of Operation
Table 1 – Connected and Separate Components for Stacked Systems
System Component
Battery
A SkyBox stack operates differently when on-grid and off-grid. On-grid operation is straightforward;
each unit acts independently to perform its programmed function. The master SkyBox maintains
communication with the slave unit and propagates any grid setting changes. The master does not
direct the operation of the slave unit. Each unit independently maintains its own battery bank and
harvests power from its own PV array unless the stack is set up to limit power sold back to the grid.
In off-grid operation, the master unit controls only the AC output of the slave unit. The slave unit
maintains autonomy over its solar production and battery charging. This is the reason separate
battery banks and separate solar arrays are required for each SkyBox in the stack.
During a grid outage, the stack will power the loads on the protected loads panel by drawing power
from the batteries and inverting it to produce the needed 120V/240VAC power. The master unit
takes control of the output voltage and modifies the current it is sending to the loads to maintain a
120V/240VAC output. The master then communicates this value to the slave unit so it contributes to
maintaining the 120V/240VAC power. If either unit is not harvesting enough PV to cover the power
demanded by the loads, it will begin to discharge its battery. Once EITHER unit reaches the minimum
state-of-charge (SOC) set point, the entire stack will stop providing power to the loads. The smallest
of the independent battery banks determines the backup capacity for the stack.
NOTE: The minimum state-of-charge set point must allow enough remaining battery power to
maintain SkyBox tare loss until the next solar day or until the grid returns.
Once the grid returns, the master unit will synchronize with the grid. Once the grid timer has expired,
the master will close its grid relay and command the slave unit to do the same. This returns the system
to on-grid operation.
©2019 OutBack | an EnerSys company
Commissioning Document
Separate for Each Unit
PV
Grid
Load
FA-KF-10/11/2019
Independent and
Co-dependent and
Connected for Each Unit
Page 1 of 12
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Related Manuals for EnerSys OutBack Power SkyBox SBX5048-120/240
Summary of Contents for EnerSys OutBack Power SkyBox SBX5048-120/240
- Page 1 Once the grid returns, the master unit will synchronize with the grid. Once the grid timer has expired, the master will close its grid relay and command the slave unit to do the same. This returns the system to on-grid operation. ©2019 OutBack | an EnerSys company FA-KF-10/11/2019 Page 1 of 12...
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Page 2: Physical Installation
10 for further clarification. This may require the use of a bus bar. OutBack does not provide general specifications on the size of this bus bar as it is site-specific. Take the appropriate safety precautions when connecting the units to the AC source. ©2019 OutBack | an EnerSys company FA-KF-10/11/2019 Page 2 of 12... - Page 3 Failure to have continuity between terminals 4 and 12 will prevent inverter operation. Refer to the appropriate technical documentation for details on rapid shutdown equipment. ©2019 OutBack | an EnerSys company FA-KF-10/11/2019 Page 3 of 12...
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Page 4: Communication Connections
See Figure 5 on the next page. Route the cables through the provided channel (13). For a more detailed wiring diagram, refer to the Quick Start Guide. Figure 4 – SkyBox BOS with communications channel ©2019 OutBack | an EnerSys company FA-KF-10/11/2019 Page 4 of 12... -
Page 5: User Interface Setup
Repeat this step on the slave unit and change the Ethernet Connection to SkyBox. (Home screen Settings (gear) Login Network Configure Edit) Figure 6 – Ethernet connection page, master and slave unit ©2019 OutBack | an EnerSys company FA-KF-10/11/2019 Page 5 of 12... - Page 6 8. Repeat steps 3-7 on the slave unit, ensuring the IP address identified for the slave SkyBox is used. NOTE: The screens shown below are for reference only. The values will vary from site to site. Figure 7 – IP Address and DNS Menus ©2019 OutBack | an EnerSys company FA-KF-10/11/2019 Page 6 of 12...
- Page 7 3. Shut the grid breakers to each unit. 4. Using the power button, turn the system on from the master UI. 5. Shut the PV disconnects to each unit. ©2019 OutBack | an EnerSys company FA-KF-10/11/2019 Page 7 of 12...
- Page 8 SkyBox LOAD tile. Under the load tile, protected and unprotected load values are shown (Figure 10). Figure 10 – Protected and unprotected loads ©2019 OutBack | an EnerSys company FA-KF-10/11/2019 Page 8 of 12...
- Page 9 A. An I error will appear when the slave SkyBox does not receive the reference current level from the master. Check all communications cables and settings for proper setup. ©2019 OutBack | an EnerSys company FA-KF-10/11/2019 Page 9 of 12...
- Page 10 Commissioning Document Figure 11 – AC wiring of two SkyBoxes ©2019 OutBack | an EnerSys company FA-KF-10/11/2019 Page 10 of 12...
- Page 11 OutBack Power | Commissioning Document Figure 12 – DC wiring of two SkyBoxes ©2019 OutBack | an EnerSys company FA-KF-10/11/2019 Page 11 of 12...
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Page 12: Contact Information
Information included in this document is subject to change without notice. © 2019 by OutBack | an EnerSys company. All Rights Reserved. ©2019 OutBack | an EnerSys company FA-KF-10/11/2019...
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