0 operation – Magnum Energy AC Load Diversion Controller (ACLD-40) User Manual

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2015 Sensata Technologies

Operation

3.0 Operation

3.1 ACLD

Operation

Normally, when utility power is available, the grid-tie inverter in the system converts the renewable

energy to AC that works in parallel with the utility to: power the load panels (main panel and sub-

panel for critical loads) in the home, charge the battery system, and feed any power—from the

renewable energy source—that is not used in the home back into the utility grid.
The utility power connects to the input of the MS-PAE Series inverter/charger,. This causes an

automatic AC transfer relay inside the inverter to close, passing the current from the incoming

utility power through the MS-PAE Series inverter. Some of the current passing thru the MS-PAE

Series inverter is used by a powerful internal battery charger to keep the battery bank charged

in case of a power failure.

Info: The ACLD controller is designed to be connected and powered from the AC output

of a battery-based inverter that provides a MagNet communications port and has an

output of 230 or 240 VAC (50 or 60 Hz). Typically the MS-PAE Series (MS4024PAE or

MS4448PAE) is used, but the MS-E Series and MS-PE Series inverters can also be used

for applications that require 230VAC/50Hz inverters.

The current that passes thru the MS-PAE Series inverter connects and powers the ACLD, and then

passes through the ACLD to the grid-tie inverter. Once power is connected to the ACLD, t

he ON/OFF

power switch (

Figure 1-4, Item 8) on the ACLD controller m

ust be turned on to begin operating.

T

he controller’s green LED blinks slowly (once a second) when the ACLD is on. With utility power

connected and the ACLD turned on, the ACLD will be in the Inactive mode (not actively monitoring/

regulating the battery voltage) because the MS-PAE Series inverter/charger is providing three-

stage (Bulk, Absorption and Float) battery bank charging.

Info: When the MS-PAE Series inverter is fi rst turned on, its automatic Search feature

is enabled. This feature must be disabled for the ACLD to operate correctly. To disable

the Search Watts feature, either connect a load on the inverter’s output that is greater

than 5 watts or use a remote display (ME-RC, ME-ARC or ME-RTR) to turn the Search

Watts setting to “OFF”.

If a utility power outage occurs, the MS-PAE Series inverter comes on and starts powering the

critical loads. However, now that the utility power is no longer connected to the input of the MS-

PAE Series inverter and the inverter is no longer in the charge mode, the ACLD becomes enabled

and enters Standby mode. In Standby mode, the ACLD starts monitoring the battery voltage to

determine when to become “active” and divert power to a diversion load to keep the battery from

overcharging. [During the utility power outage, the grid-tie inverter—after a minimum 5-minute

reconnect time—reconnects to the AC output waveform of the MS-PAE Series inverter and starts

inverting all the energy from the renewable energy source just like it did when it was connected

to utility power.] However, during a utility power interruption, the main panel loads are no longer

connected and any excess power that is generated cannot be sold/exported to the utility grid. This

means there may be more power generated than the critical loads can consume, causing current to

be pushed back into the inverter’s AC output, then to the battery bank, causing the battery voltage

to rise. As the battery voltage rises and the battery becomes fully charged (or the battery voltage

starts to increase above the regulation setpoints), the ACLD exits Standby mode and enters Active

mode. In Active mode, the ACLD uses Pulse Width Modulation (PWM) regulation to control how

much current from the renewable energy source is allowed to fl ow into the diversion load to keep

the battery voltage from rising further. As the battery’s current requirements change, the PWM

switch inside the ACLD either closes for longer periods of time (higher duty cycle) to direct more

current to the diversion load; or closes for shorter periods of time (lower duty cycle) to decrease

the current fl ow to the diversion load, which allows more current to fl ow into the battery.
Once the battery is fully charged, the PWM switch fully closes, causing all the current produced by

the renewable energy source to be diverted to the diversion load. When the current is no longer

required to be diverted away from the battery, the PWM switch fully opens and causes the ACLD to

exit Active mode and return again to Standby mode to start monitoring the battery voltage.