LiftMaster CSW24VDC CSL24VDC Solar Chart Manual
LiftMaster CSW24VDC Manual
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LiftMaster CSW24VDC manual content summary:
- LiftMaster CSW24VDC | CSL24VDC Solar Chart Manual - Page 1
proper operation. LiftMaster Gate Operators utilizing the solar option are not supported in climates where temperatures reach below -4°F. This is due to the effect of cold weather on batteries and a reduced number of hours of sunlight during the winter months. LA500DC LA412DC LA400DC CSW24VDC - LiftMaster CSW24VDC | CSL24VDC Solar Chart Manual - Page 2
learned (mA) One or more LiftMaster® transmitters learned (mA) MyQ® device or wireless dual gate learned (mA) Expansion board gate solar cycles per day Dual gate solar cycles per day Battery current draw (mA) 5 10W* Solar Panel 15 NOTE: Must Use 24V 20 Solar Panel 40 60 5 20W Solar - LiftMaster CSW24VDC | CSL24VDC Solar Chart Manual - Page 3
LiftMaster® transmitters learned (mA) +1.5 MyQ® device or wireless dual gate gate solar cycles per day Battery current draw (mA) 6 25 10W Solar Panel 30 50 100 6 25 20W Solar Panel 30 100 200 6 30W Solar Dual gate solar solar radiation and the temperature solar panels. Solar - LiftMaster CSW24VDC | CSL24VDC Solar Chart Manual - Page 4
with no radios learned (mA) One or more LiftMaster® transmitters learned (mA) MyQ® device or wireless dual gate learned (mA) Expansion board (mA) Per 50 50 50 50 parallel 100 33 48 50 200 8 20 27 6 30W Solar Panel Note: 30W would be 25 (3) 10W 12V panels in 30 50 50 50 - LiftMaster CSW24VDC | CSL24VDC Solar Chart Manual - Page 5
board) (mA) 24v 2.7 +1 +2.4 +11.1 +3.8 * Estimated based on use with LiftMaster transmitters CSW 24VDC Gate solar cycles per day Battery current draw (mA) 5 10W* Solar Panel 15 NOTE: Must Use 24V 20 Solar Panel 40 60 5 20W Solar Panel NOTE:20W would be 15 (2) 10W 12V panels in 20 - LiftMaster CSW24VDC | CSL24VDC Solar Chart Manual - Page 6
CSW24VDC, CSL24VDC (2) 33-AH batteries recommended in lieu of standard 7-AH batteries RSW12VDC, RSL12VDC (1) 33-AH batteries recommended in lieu of standard 7-AH batteries For technical questions on solar installations, please contact LiftMaster Technical Support 800.528.6563 © 2014 LiftMaster
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LiftMaster
®
Solar Gate Cycles
per Day
Reference Guide
The LiftMaster Gate Operator Solar Gate Access
utilizes best in class power management system
to deliver power when needed most for operating
a gate, while minimizing power consumption at all
other times. Power is provided to the gate operator
via batteries. The batteries are charged from a solar
panel(s) connected to the operator control board.
The number of solar panels required is determined
by whether the application is for a single or dual gate,
daily cycle rate, current board consumption by feature,
accessory current draw, number of accessories and
region of the country.
Solar panel(s) must be located in an open area clear
of obstructions and shading for the entire day. Snow,
heavy fog or heavy rain affect solar panel performance
and charge rate. Solar panels should be cleaned
regularly to ensure proper operation. LiftMaster Gate
Operators utilizing the solar option are not supported
in climates where temperatures reach below -4
°
F. This
is due to the effect of cold weather on batteries and a
reduced number of hours of sunlight during the winter
months.
LA500DC
LA412DC
LA400DC
CSW24VDC
CSL24VDC
RSW12VDC
RSL12VDC