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Programming your OutBack Power System for Time of Use Applications2018 AEE DEALER CONFERENCE
Agenda Time-of-Use rate structures Programming for ToU
AC Input Modes Flex Time Grid Use Time
Time-of-Use Rate Structures ToU rates better align cost of generation with price for power
Higher “peak” rates when grid-wide demand is high Residential ToU rates becoming more popular
California pushing new PV owners to ToU rates ahead of others ToU rates create value proposition for solar+storage
Peak periods will increasingly correspond with low PV production Difference between peak and non-peak rates drives return for battery
Super off-peak Off-Peak On-Peak$0.22/kWh $0.23/kWh $0.24/kWh
0:00 to 06:00 06:00 to 16:00 16:00 to 21:00Off-Peak
$0.23/kWh
21:00 to 0:00
Super off-peak Off-PeakOn-Peak
$0.22/kWh$0.28/kWh
$0.54/kWh
0:00 to 06:00 06:00 to 16:00 16:00 to 21:00
Off-Peak
$0.28/kWh
21:00 to 0:00
Winter
Summer
SDG&E Weekday Rates
Time of Use Response Considerations Cost of cycling battery
Initial installed cost Charge/discharge losses Parasitic losses (BMS, HVAC, etc.)
Peak vs. off-peak rates Is difference enough to pay for battery cycle cost?
Weekend & seasonal variation Is it worth cycling battery in winter?
PV production and timing Will PV array offset most loads during peak anyway? Are battery and array sized properly?
× =
Peak rate − Off Peak rate ≥
Super off-peak Off-PeakOn-Peak
$0.22/kWh$0.28/kWh
$0.54/kWh
0:00 to 06:00 06:00 to 16:00 16:00 to 21:00
Off-Peak
$0.28/kWh
21:00 to 0:00
5.2 kWh/kW0.02 kWh/kW 0.26 kWh/kW 0 kWh/kWPV production vs weekday ToU (San Diego Summer)
Time-of-Use Rate Structures
Super off-peak Off-Peak On-Peak$0.22/kWh$0.23/kWh $0.24/kWh
0:00 to 06:00 06:00 to 16:00 16:00 to 21:00Off-Peak
$0.23/kWh
21:00 to 0:00
Super off-peak Off-PeakOn-Peak
$0.22/kWh$0.28/kWh
$0.54/kWh
0:00 to 06:00 06:00 to 16:00 16:00 to 21:00
Off-Peak
$0.28/kWh
21:00 to 0:00
Winter
Summer
SDG&E Weekday Rates
Super off-peak Off-Peak$0.22/kWh $0.23/kWh $0.24/kWh
0:00 to 14:00 14:00 to 16:00 16:00 to 21:00Off-Peak
$0.23/kWh
21:00 to 0:00
Super off-peakOff-Peak
$0.22/kWh$0.28/kWh
$0.54/kWh
0:00 to 14:00 14:00 to 16:00 16:00 to 21:00Super Off-Peak$0.22/kWh
21:00 to 0:00
Winter
Summer
SDG&E Weekend/Holiday Rates
On-Peak
On-Peak
Programming for ToU ResponseFLEXtime Specify AC Input Mode based on time of day
Easier to program More options than on/off Can’t differentiate weekends
Will not override a grid Drop setting
Grid Use Timers Specify times to use or drop grid
Can be tedious to set up Options are Use or Drop grid Allows weekends to have different profile
Can override AC input mode Drop = inverter will not use grid regardless of AC Input mode Use = inverter will use grid as determined by AC input mode
AC Input Modes AC Input Modes:
Determine how the inverter/charger uses the grid, battery and PV Dynamically change set points and related behavior Can be changed at any time, but only one at a time can be active
Modes relevant to grid-tied ToU operation Grid Tied Grid Zero Mini Grid Backup/UPS
Disabling the inverter’s charger will prevent battery charging from grid regardless of AC input mode
Grid-Tied Mode Only mode that will export/sell power to grid
Based on battery voltage Intended for net metering with battery backup Offsets grid use based on load current draw and battery target voltage Batteries not discharged while grid is connected
5000 Watts
GRID ZERO Mode Designed for self-consumption of PV
Draws ~1 A from grid to ensure no sell back Minimizes grid draw by offsetting from batteries and PV array
Uses grid when load exceeds available power or energy Batteries cycle to run loads and leave “room” for solar
Offset functionality based on input amps Grid remains connected but will not charge batteries
MINI GRID Mode Designed to emulate off-grid operation
Switches over to grid when load exceeds inverter output Treats the grid like a backup generator
Runs full charge cycle from grid when batteries get low Mini Grid mode cannot be used with Grid Use Timers
BACKUP & UPS Modes Designed for backup systems with limited or no PV
UPS mode has faster transfer time but much higher tare losses Only uses PV to charge batteries
No load or grid offset Will charge batteries from grid if PV is insufficient
FLEXtime Flextime enables up to three AC Input Mode changes per day Programming is simple
Select start time (24-hr clock) Select AC Input mode
The selected mode will run until a new mode startsSuper off-peak Off-Peak
On-Peak$0.22/kWh
$0.28/kWh
$0.54/kWh
0:00 to 06:00 06:00 to 16:00 16:00 to 21:00
Off-Peak
$0.28/kWh
21:00 to 0:00
Grid-Tied Grid Zero Grid Tied
AC Input Mode Start TimeGrid Zero 16:00Grid Tied 21:00
Setting up FLEXtime via OPTICS REFrom the System Menu:1. Click on the Device Map2. Click the MATE3 or 3s3. Click on FLEXtime tab4. Select desired AC Input Mode5. Input start time (24-hr clock)
6:00 PM = “18” Hour “0” Min 6. Repeat Steps 4 & 5 as needed
Limit is 3 intervals7. Click “Apply”
Setting up FLEXtime via MATE3/3s1. Press Lock button on MATE3s2. Use the scroll wheel to select “Settings” then “MATE3s” then “FLEXtime Schedule”3. Use scroll wheel to select desired AC Input Mode4. Input start time (24-hr clock)
6:00 PM = “18” Hour “0” Minute 5. Repeat Steps 4 & 5 as needed
Limit is 3 intervals See Section M-10 in MATE3s manual for more details
Setting up Grid Use Timers in OPTICS REFrom the System Menu:1. Click on the Device Map2. Click the MATE3 or 3s3. Click on Grid Use tab4. Enable the Interval5. Input start & stop times (24-hr clock)
6:00 PM = “18” Hour “0” Min 6. Repeat Steps 4 & 5 as needed
Limit is 3 intervals plus a single weekend interval7. Click “Apply”
Setting up Grid Use Timers via MATE3/3s1. Press Lock button on MATE3s2. Use the scroll wheel to select “Settings” then “MATE3s” then “Grid Use Time”3. Use scroll wheel to enable the interval4. Input Use and Drop times (24-hr clock)
6:00 PM = “18” Hour “0” Minute 5. Repeat Steps 3 & 4 as needed
Limit is 3 intervals plus a single weekend interval See Section M-4 in MATE3s manual for more details
Cautions & Caveats Be sure the date and time are set correctly in the MATE3/3s
Even when programming in OPTICS, the MATE3s clock drives operation The MATE3s will not automatically switch to Daylight Savings Time (unless connected to OPTICS RE)
Grid Use Time cannot be used with all AC Input Modes HBX, Load Grid Transfer and Mini Grid modes conflict with this function
Setting up both Grid Use Timers and FLEXtime can generate faults and unpredictable behavior System will allow both to be active, but it can lead to conflicting commands to the inverter
Inverter will reconnect to grid if battery voltage falls below the Low Battery Cut-Out set point It will ignore Grid Use Time settings until battery voltage climbs to cut-in set point
Questions? [email protected]