Installation Guide
The KID Solar Charge Controller Instructions
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1 0-268-1 REV P7
Manual EQ- Manual Equalize it will do a single EQ cycle on the batteries if enough power is
available from the solar source.
Auto EQ- Auto Equalize allows the batteries to go through an EQ cycle in the days interval
programmed in the unit, defaults to 30 days, Days can be adjusted by the user for the required
interval for the specific batteries. Day count will be reset back to day 0 every time the unit loses
power. If not enough power is available in the day an EQ is scheduled, it will skip and wait for the
next scheduled day.
To set EQ parameters:
Press
Main Menu
and select
Battery,
Go to
EQ
and press
Enter,
Press the
SETUP
Button to adjust the EQ Voltage and Time.
To start a manual EQ cycle:
Press
Main Menu
and select
Battery,
Go to
EQ
and press
Enter,
Select
START,
The EQ Cycle will begin.
Battery Charge Stages and Meanings / Setup
Bulk MPPT
This stage of The KID means; that The KID will be putting out as much current as it can trying to
charge the batteries to the absorb voltage set point. This is also known as constant current mode.
Absorb
This stage means that The KID will maintain the absorb set point voltage until the batteries are
charged or it reaches Float stage. At this stage The KID is not putting out maximum current, as that
would increase the battery voltage over the Absorb set point. This is also referred to as constant
voltage mode. The battery is considered “full” at the end of the absorb charge cycle.
The absorb time is proportional to the bulk time. (i.e. the time bulk takes to reach the absorb
voltage.) The battery it’s considered “full” at the end of the absorb charge cycle.
Float
The Float stage follows after the Absorb stage has been completed. At this point the batteries are
considered full and The KID's incoming current is adjusted to maintain a full battery as system loads
turn on and off.
Equalize
The intent of an equalization charge is to bring all battery cells to an equal voltage by a deliberate
overcharge. The goal is to return each battery cell to its optimum condition through a series of
voltage controlled chemical reactions inside the batteries.