ENSA SSL-B Series User manual
Version: ENSASSLB-Q120
Solar LED Street Lighting
SSL-B Series Quick Install Guide
ENSA SSL-B Solar Street Light Installation Manual - Version: ENSASSLB-Q120
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1. Pre-Installation
Thank you for purchasing a SSL-B Series Solar Street Light.
This install guide covers basic setup, installation and use of your light.
For more information & warranty details, please visit:
www.ensalife.com
1.1 System Overview
The ENSA™ SSL-B Series is comprised of motion-powered, solar-charged LED street lights, designed to deliver lighting
to any outdoor location. These pole-mounted lights provide superb coverage with a wide beam in a cool white colour.
The light can be set to always be active from dusk to dawn, or only when motion is detected with the adjustable motion
sensor.
These lights are fully self-sufcient, not requiring any external cabling. This makes them excellent for use in remote
locations such as rural roads, power stations & construction sites, as well as general use in streets, parks, schools,
farms and more.
# Component
1Solar panel
2LED light
3Microwave sensor
4Panel arm
5Bird spikes
6Screws
7Safety rope
8T40 Torx
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1.2.1 Solar Light Components
1.2.2 Operation Process
Solar Panel Assembly: This includes all solar panel
components including the panel itself, battery,
controllers, chassis & mounting arm.
The solar panel acts an ambient light sensor,
controlling dusk/dawn switch functions when it no
longer generates an adequate voltage from the sun.
This setting can be congured in Section 4.
The battery is Lithium Iron Phosphate (LiFePO4),
which has superior expected lifetime and temperature
tolerance compared to standard Lithium Polymer
batteries. It is also immune from thermal runaway
conditions to prevent res like standard LiPo batteries.
The mount arm of the solar panel offers 120° of tilt
on a Ø50~60mm pole, with an angle compass for
precise adjustment. It also has a spiked bird guard for
the panel & a safety wire rope.
Sensor Assembly: The dark circle on the underside
of the panel, the sensor assembly houses the infrared
receiver for the remote control for light conguration.
It also houses the microwave motion detector. This
detects motion in a circular area under the Solar Light
in a total diameter of Ø15m when mounted at 10m
above the ground.
Light Assembly: This comprises of a high efciency
LED array mounted on a 60° tilt-adjustable bracket to
control light distribution. The array’s mount position
can be moved to better orient the light.
SSL-B Series Solar Lights feature three main components that govern the function of the system. They are the solar panel
assembly (includes battery & solar controllers), the sensor assembly (including infrared remote receiver & microwave
motion detector), and the LED light assembly with adjustable bracket. These components are tightly integrated in the
operation of the entire system. See below for further explanation.
The SSL-B Series Solar Light is a highly customisable solar system, but how it operates is simple. The following details
the operation process of the SSL-B Solar Light after mounting.
1. During the day, the solar panel charges the battery. The LED light is off.
2. The solar panel detects that the sun has set. The LED light turns on.
3. The light is congured:
• To be at set brightness at different time periods during the night AND/OR
• Use the motion sensor to control brightness before & after movement is detected
4. The solar panel detects that the sun has risen. The LED light turns off.
5. The cycle repeats.
1.2 Function Overview
Fig. 1.2a
Underside of panel with detail on solar panel mounting arm,
sensor assembly and LED light assembly.
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1.3 Model Specications
Model SSL-B20M SSL-B30M SSL-B50M SSL-B60M
Product Image
Series Name SSL-B Series Motion Activated Solar LED Street Lights
Light
Light Output (max) 3900lm 5500lm 9400lm 11100lm
Luminous Ecacy >180lm/W
Colour Temperature 4000K natural white / 5700K cool white
Beam Angle 145° x 75° 145° x 100°
Rated LED Lifespan 50,000hrs
LED Testing LM80 / TM21 (available on request)
LED Power
Consumption (max) 20W 30W 50W 60W
Internal Battery 218Wh LiFePO4 320Wh LiFePO4 500Wh LiFePO4 1200Wh LiFePO4
Operating Voltage 12.8VDC 12.8VDC 12.8VDC 25.6VDC
Operating Time
(max) 72~120 hours (intelligent mode, rainy weather) 120~168 hours (intelligent
mode, rainy weather)
Light Bracket Adjustable bracket angle -30° ~ 30°
Solar Panel
Panel Type Monocrystalline silicon
Panel Wattage 56W 90W 120W 180W
Panel Conversion Rate ≥21%
Panel Bracket Adjustable bracket angle -60° ~ 60°
Rec. Install Height 5 ~ 7m 5 ~ 7m 8 ~ 10m 8 ~ 10m
Detection
Motion Detection Microwave motion sensor
Detection Range Ø8~15m (height: 5~10m)
Light
Mode
Settings
Normal Time period / Brightness
Morning Time period / Brightness
Sensor Time period / Brightness on motion / On-time delay / Brightness no motion
General
Ingress Protection IP65
Pole Diameter Ø50~60mm
Product Dimensions 821 x 450 x 161mm 1015 x 525 x 161mm 1321 x 525 x 161mm 1496 x 685 x 161mm
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Solar Panel Dimensions
1.4 Solar Light Diagrams
SSL-B20MC
SSL-B30MC
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SSL-B50MC
SSL-B60MC
1.4 Solar Light Diagrams (continued)
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2. Solar Light Mounting & Installation
2.1 Choosing an Installation Site
This section covers choosing an installation site, selecting a pole for the Solar Light, mounting the Solar Light to the pole
and adjusting the Solar Light for optimal use.
Follow these guidelines to ensure you get the best use out of your Solar Light.
• To maximise exposure to the sun, solar panels must be installed to tilt north in the southern hemisphere and
south in the northern hemisphere.
• The Solar Light should not be installed in a location that blocks sun exposure by buildings or trees.
• See Section 2.4 for more detail.
• The Ingress Protection rating of this product is IP65, which is suitable for outdoor lighting, but cannot be soaked
in water.
• The solar panel is fragile, do not scratch or strike the solar cells.
• Do not clean the solar panel with an abrasive sponge or soap. Use solar panel cleaning kits.
• The longest storage period of solar street lamps is 6 months after they are fully charged. If they are transported or
stored for a long time, they need to be checked and recharged, otherwise the battery may be damaged.
• Charging temperature: 0~60°C. Discharge temperature: -20~60°C
• Do not store the product in a temperature exceeding 45°C.
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When selecting a pole and foundation to install the solar panel on, there are several requirements to keep in mind:
• Using a tapered pole is recommended.
• The pole’s height should be equal to or higher than the solar panel’s recommended install height - this is 5 ~ 7m
for 20W/30W models & 8 ~ 10m for 50/60W models.
• The pole must have a spigot size of 60mm (adapters available).
• The pole must be strong enough to hold the weight of the solar panel - this can range up to 39kg (60W model).
• The foundation and fasteners should be strong enough resist high wind speeds. A shallow concrete foundation is
recommended.
ENSA™ can supply two pole models that t these install requirements. These galvanised poles include 4 x M20
foundation bolts (600 x 25mm), a bolt template ring and 60mm spigot adapter.
• SLR-POL4 (4.5m / 14.7ft)
• SLR-POL6 (6.0m / 19.7ft)
Consider frangible poles depending on requirements. Tilt poles may help with installation.
2.2 Choosing a Pole & Foundation
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1. Loosen the locking screws (pictured below).
2. Position the Solar Light assembly over the Ø50~60mm pole.
3. Slowly lower the Solar Light assembly onto the pole.
4. Securely fasten the included locking security screws to the bracket with the included torx wrench. (Fig. 2.2b).
Fig. 2.2b
Installed security screws
Caution: Solar panel must be installed so it is in direct sunlight all day.
Any shading will greatly reduce the solar panel’s performance.
2.3 Mounting the Solar Panel to the Pole
Optional Bird Spikes
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To ensure your solar panel absorbs as much light as possible, it’s important to adjust the solar panel angle to an ideal
angle, depending on your region (refer to table below).
For Australia and all locations in the southern hemisphere, the solar panel must be tilted directly north. Locations in the
northern hemisphere must have the panel tilted directly south. The angle of tilt is determined by the installation location
and is calculated as installation latitude + 15°.
IMPORTANT: If positioning of the pole makes it impractical to tilt the
solar panel north, while still illuminating the desired area, set a tilt
angle of 5° and rotate the unit to the best lighting position. Note that
this will reduce charging performance, which may reduce operating
time.
Example tilt angles for Australian cities
Sydney Melbourne Canberra Perth Brisbane Hobart Adelaide Darwin
49° 53° 50° 47° 42.5° 58° 50° 27.5°
2.4 Adjusting the Solar Panel Tilt Angle
Tilt Angle
N°
For example, Sydney has a latitude of 34°, therefore the solar panel should be tilted directly north with an angle of 34
+ 15 = 49°.
If you are uncertain the of your area, Google makes it easy to nd the latitude for any location: For example, searching
for “latitude Newcastle NSW Australia” will return 32.9283° S, 151.7817° E. The latitude is the rst number shown
(32.9283) which rounds up to 33°.
Fig. 2.3a
Solar panel tilt angle
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1. Use a at head screwdriver to remove the bracket cover.
2. Once the cover is removed, use a 10mm Allen / hex key to loosen the panel adjustment screw.
3. Tilt the panel to the required angle with the LED light at the high side.
4. Tighten the screw after adjusting the angle to secure the solar panel in place.
5. Replace the cover.
How to adjust the tilt angle:
2.4 Adjusting the Solar Panel Tilt Angle (continued)
Fig. 2.3b
Panel adjustment screw
ENSA SSL-B Solar Street Light Installation Manual - Version: ENSASSLB-Q120
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Attach the safety rope between the solar light and the panel base, as pictured.
2.4 Adjusting the Solar Panel Tilt Angle (continued)
2.4 Safety Rope Installation
Fig. 2.3c
Solar Panel & Light Angle Adjustment
Light Angle Adjustment
Solar Panel Angle Adjustment
Fig. 2.4a
Safety rope
installation
diagram
Note: The solar panel and light have two separate angle
adjustment points. More precise angle congurations
can be made by adjusting both.
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This section shows how to activate and test the Solar Light using the included infrared remote. On rst use, the solar
light uses the default settings (outlined below) which work as an ideal set for most situations. For a detailed list of all
congurable settings, follow Section 4 of this manual.
3. Quick Solar Light Conguration
3.1 Reconnect Battery
The Solar Light is shipped with the battery disconnected from the system.
To activate the Solar Light, this battery must rst be reconnected. To reconnect:
Depending on the solar light model, a green LED will illuminate OR a red LED will ash slowly inside the black sensor. If
the battery is connected correctly and this does not occur, this likely indicates low battery voltage - place the system in
direct sunlight for at least 1 hour to charge before continuing.
1. Remove the “Battery Disconnected” sticker.
2. Find the two cables labelled “Battery”.
3. Taking note of the cable key, connect the two cables.
4. Twist the waterproof locking connector until tight.
3.2 Test LED Light
1. While connected to the light as shown in Section 3.1, press the Test button
2. You will hear one long beep. Within 5 seconds, the light will turn on. The light will test for 10 seconds.
• By default, the First Time Period Main Brightness Level is 100% brightness.
Now that the light is activated, you can test the light. Performing the procedure below will test the Solar Light using the
default settings for the First Time Period Main Brightness Level settings. For more detail on defaults, see Section 4.3.
All conguration of the solar panel & LED street light is performed with the included infrared remote. The remote interacts
with the panel’s infrared receiver to control settings (the dark circle on the underside of the panel). Any modication to
settings is best performed at night, as infrared interference during the day may reduce remote range.
First Period Second Period Third Period On-time Delay
6hrs duration
100% active brightness
30% dimmed brightness
4hrs duration
60% active brightness
20% dimmed brightness
8hrs duration
100% active brightness
30% dimmed brightness
30 seconds
ENSA SSL-B Solar Street Light Installation Manual - Version: ENSASSLB-Q120
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4. Advanced Solar Light Conguration
4.1 Overview
Fig. 4.1a
Solar panel remote
control & LCD
Remote Control Button Functions
Power Press to power on. Press and hold for 2 seconds, then
release to power off the remote control.
Scroll Up Press to scroll up.
Scroll Down Press to scroll down.
Controller
On Press and hold to enable the LED light control.
Controller
Off Press and hold to disable the LED light control.
Enter Press to select item or conrm changes.
Back Press to select item or conrm changes.
Transmit Press to transmit parameters to the control board.
Test Press to test the LED light.
All conguration of the solar panel & LED street light is performed with the included infrared remote. The remote interacts
with the panel’s infrared receiver to control settings (the dark circle on the underside of the panel). Any modication to
settings is best performed at night, as infrared interference during the day may reduce remote range.
The remote control allows you to adjust solar panel, battery & sensor settings and then transmit them to apply all
congurations the solar system. See initial menu options and button functions below:
This section covers how to fully congure the motion-activated 20W/30W/50W/60W LED light on the Solar Light. This is
recommended only for advanced users.
Warning: Modication to the LED light and sensor default values may increase power consumption, affect light
uptime and more.
Incorrectly editing settings can permanently damage the solar panel, battery and/or LED light. Performing
changes to contrary to those in this guide may cause damage to the panel not covered under warranty.
Startup Menu Options
SystemInfo Diagnostic tool to check performance of solar system including uptime, battery & panel statistics.
Alert Not applicable.
SysCong Conguration interface where new settings are set & transmitted to the solar system.
Local Language and device name settings. Do not change device name from PCC_G05.
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4.2 Settings Detail
Name Remote Title Description Settings
Battery Type Bat Type Type of battery installed in the solar panel. Li_Po / Lead_acid
Charge-Stop
Voltage BoostCharge Set maximum level for battery charge voltage.
The solar regulator stops charging the battery once this voltage is reached. 10.80V ~ 32.80V
Low Voltage
Cut-Off Voltage Low Set minimum battery cut-off voltage.
When the battery voltage falls below this value, the light will be disabled. 8.10V ~ 24.00V
Recover
Voltage Recover Vol Set minimum voltage for the battery to activate light after Low Voltage Cut-Off.
Battery must be recharged to this level before the light reactivates. 9.00V ~ 25.00V
Power Saving PowerSaving
When turned on, the LED driver will reduce the light output to extend run time of the light.
Light output reduction ramps down between two set voltages, beginning at StartDerate
setting and bottoming out at SuperSaving setting. Both StartDerate & SuperSaving
voltages must be set higher than Low Voltage Cut-Off.
On / Off
StartSaving: Start voltage level, when light output is rst reduced by Power Saving. 8.5V ~ 28.0V
SuperSaving: Lowest voltage level, light output remains here until Low Voltage Cut-Off. 8.5V ~ 28.0V
Turn-On
Photovoltaic
Voltage
TurnOnPVVol
The solar panel acts as an ambient light sensor. Once the solar panel voltage drops below
the set Turn-On Photovoltaic Voltage, the light activates according to the Drive Mode
parameters.
4.0V ~ 12.0V
Output
Current Output Cur Sets the constant current output level driving the LED light. 150mA ~ 4000mA
Drive Mode DriveMode
Time Control: Set up to 5 periods of up to 9 hours each; controls light activation. Time
intervals begin after Turn-On Photovoltaic Voltage threshold is reached i.e: the sun has
set. Light brightness in each period is set by Main Brightness Level.
Move Sensor: Adds motion detection on top of 5 time periods. The light abides by Time
Control, but dims to Dimmed Brightness Level and brightens to Main Brightness Level
based on movement detection.
Time Ctrl or
Move Sensor
On-time Delay LightDelay Countdown timer after last detection motion where light output stays at Main Brightness
Level setting before switching to Dimmed Brightness Level setting. 0s ~ 120s
Time Periods
First, Second,
Third, Fourth,
Fifth Time
User-programmable light on/off schedule. Maximum 9 hours for each setting. 0.00hrs ~ 9.00hrs
Main
Brightness
Level
LightRatio Set light output (%) for Time Control Drive Mode or when movement is detected in Move
Sensor Drive Mode mode. 0% ~ 100%
Dimmed
Brightness
Level
Idle Ratio Set light output (%) in Move Sensor Drive Mode mode after last detected movement and
after the On-Time Delay elapses. 0% ~ 100%
Daytime
Mode MorningLight Overrides Turn-On Photovoltaic Voltage, making the light stay on after sunrise as per
the Drive Mode parameters. On / Off
Each SSL-B Series Solar Light has default factory settings for light conguration and battery conguration. Below are
the functions of each setting in the SysCong menu and the solar system default settings . Before adjusting solar panel
and light settings, familiarise yourself with the setting denitions below.
Warning: Changing settings without proper understanding of their function can permanently damage the solar
panel, battery and/or LED light. Use Section 4.2 as a reference only. Follow instructions in Section 4.3 before
modifying any settings on your SSL-B Series model. Contact ENSA for more information.
ENSA SSL-B Solar Street Light Installation Manual - Version: ENSASSLB-Q120
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4.3 Default Conguration & Warnings
Name Remote Title Settings
Default Value
SSL-B20
SSL-B30
SSL-B50
Default Value
SSL-B60 Notes & Warnings
Battery Type Bat Type Li_Po / Lead_acid Li_Po Li_Po DO NOT change this setting: SSL-B Series
must use Li_Po for LiFePO4 battery
Charge
Voltage BoostCharge 10.80V ~ 32.80V 14.4V 28.8V
DO NOT change this setting: Changing this
setting may damage the solar system or make it
less effective.
Low Voltage
Cut-Off Voltage Low 8.10V ~ 24.00V 10.5V 21.0V
DO NOT change this setting: Changing this
setting may damage the solar system or make it
less effective.
Recover
Voltage Recover Vol 9.00V ~ 25.00V 12.0V 24.0V
DO NOT change this setting: Changing this
setting may damage the solar system or make it
less effective.
Power Saving
PowerSaving On / Off On On Power Saving and other related
settings are off by default.
* Figure shown left are recommended.
StartDerate at approx 50% charge remaining
SuperSaving at approx 10% charge remaining
StartSaving 8.5V ~ 28.0V 12.4V* 24.8V*
SuperSaving 8.5V ~ 28.0V 12V* 24V*
Turn-On
Photovoltaic
Voltage
TurnOnPVVol 4.0V ~ 12.0V 5.0V 6.0V
Raising this setting will increase the sensitivity of
the ambient light sensor, i.e: the light will activate
earlier in the evening. Recommend using values
shown.
Output
Current Output Cur 150mA ~ 4000mA
20W: 1200mA
30W: TBD
50W: 1550mA
1800mA
DO NOT change this setting: Changing this
setting may damage the LED light or make it less
effective.
Drive Mode DriveMode Time Ctrl or
Move Sensor Move Sensor Move Sensor Motion detection (Move Sensor) is on by default
to increase the uptime time of the system.
On-time Delay LightDelay 0s ~ 120s 30s 30s
Increase or decrease this setting to change the
time between Main Brightness & Dimmed
Brightness Levels after last detected motion.
Time Periods
First, Second,
Third, Fourth,
Fifth Time
0.00hrs ~ 9.00hrs
First
Second
Third
Fourth
Fifth
6Hrs
4Hrs
8Hrs
N/A
N/A
First
Second
Third
Fourth
Fifth
6Hrs
4Hrs
8Hrs
N/A
N/A
12 hours across three Time Periods are set by
default. Each have different Main Brightness and
Dimmed Brightness Level settings.
Main
Brightness
Level
LightRatio 0% ~ 100%
First
Second
Third
Fourth
Fifth
100%
60%
100%
N/A
N/A
First
Second
Third
Fourth
Fifth
100%
60%
100%
N/A
N/A
Main Brightness Level is congured for active
use for 5 time periods after sunset. By default,
levels are reduced for late night until morning.
Dimmed
Brightness
Level
Idle Ratio 0% ~ 100%
First
Second
Third
Fourth
Fifth
30%
20%
30%
N/A
N/A
First
Second
Third
Fourth
Fifth
30%
20%
30%
N/A
N/A
Dimmed Brightness Level is congured for
active use for 5 time periods after sunset. By
default, levels are reduced for late night until
morning.
Daytime
Mode MorningLight On / Off Off Off
Daytime Mode is off by default. The light will
turn off at sunrise, once Turn-On Photovoltaic
Voltage is reached.
Your SSL-B Series Solar Light has been pre-congured with the following settings. Do not change settings without
reading the information below.
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Fig. 4.5a Infrared receiver on the panel underside & remote display
4.5 Applying Settings Using the Remote
After learning the conguration settings, defaults and risks associated, this section will guide you through applying a
custom conguration to your SSL-B Series Solar Light using the infrared remote control.
1. Point the remote control towards the black sensor on the underside of the solar panel and press Power.
• The panel must be operational for infrared remote interaction. The red light on the underside of the panel
indicates this by solid-on or ashing. Follow Section 4.4 if the panel is not operational.
• If connection is successful, the LCD will show Read OK.
• If connection fails, the LCD will show Disconnect
Note: Direct sunlight can interfere with the transmission. The sensitivity of the transmitter is higher when in
dark environment.
2. Using the remote buttons, navigate to the SysCong menu and press Enter.
• The SysCong menu will have the settings detailed Section 4.3 lled in by default.
Note: Any modication to settings is best performed at night as infrared interference during the day may reduce
range of the remote control. The remote control turns off after 3 minutes of inactivity.
4.4 Reconnect Battery
The Solar Light is shipped with the battery disconnected from the system.
To activate the Solar Light, this battery must rst be reconnected. To reconnect:
Depending on the solar light model, a green LED will illuminate OR a red LED will ash slowly inside the black sensor. If
the battery is connected correctly and this does not occur, this likely indicates low battery voltage - place the system in
direct sunlight for at least 1 hour to charge before continuing.
1. Remove the “Battery Disconnected” sticker.
2. Find the two cables labelled “Battery”.
3. Taking note of the cable key, connect the two cables.
4. Twist the waterproof locking connector until tight.
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4.6 Checking Current Settings Using the Remote
You can view Current Solar Light settings using the infrared remote control. This is useful when checking existing Solar
Light parameters before a conguration change, copying congurations between Solar Lights or simply conrming that
a conguration transmission was successful.
While you can view current settings on a Solar Light, it is not possible to import settings from a Solar Light to the remote.
Settings must be congured on the remote and transmitted to the Solar Light.
1. Point the remote control towards the black sensor on the underside of the solar panel and press Power.
2. Using the remote buttons, navigate to the SysCong menu and press Enter.
3. In the SysCong menu, select Settings by pressing Enter.
4. Press Down to change the eld to Present.
5. Press Enter. to select the Present eld.
• Present details the current settings of the Solar Light.
• These details can be recorded manually to copy them to the remote control.
• Follow Section 4.5 to congure the remote with these recorded settings.
3. Using Section 4.3 as a guide, navigate through the SysCong menu to build your conguration.
• Ensure you do not change critical settings mentioned in Section 4.3
• Use Up and Down to scroll.
• Press Enter to begin editing values. The value will be shown in reverse colour.
• Use Up and Down to change the value.
• Press Enter again to conrm.
4. Once complete, transmit your new conguration to the solar panel.
• Point the remote control at the solar panel’s black sensor
• Press Transmit to update the solar panel with your new conguration.
• If you hear a long beep, the conguration settings are transmitted successfully.
• Three short beeps indicate unsuccessful transmission.
• To conrm successful conguration, follow Section 4.6 - Checking Current Settings Using the Remote
4.5 Applying Settings Using the Remote (continued)
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Name Remote Title Description
Solar Panel Status System
On connecting to the panel, the Solar Panel Status can be in 3 states.
CurrentDrive: when the Solar Light is on
PWM Charge: when the Solar Panel is charging
Shutdown: when the remote hasn’t connected or the system is below Low Voltage Cut-Off.
Photovoltaic Voltage PV Voltage Solar panel voltage as measured by the charge controller input.
Battery Voltage Bat Voltage Battery voltage as measured by the charge controller output.
Output Voltage Output Vol Voltage being supplied to the LED light.
Output Current Output Cur Current being supplied to the LED light.
Output Power Output Pow Power being supplied to the LED light.
Internal Temperature Inter Temp Temperature inside the Solar Light.
Full Charge Count FullChargeCnt Count of how many times the panel has reached the Charge-Stop Voltage (fully charged).
Voltage Low Count VoltageLowCnt Count of how many times the panel has reached the Low Voltage Cut-Off (fully discharged).
Total Uptime Runing Total running uptime of the Solar Light, measured in hours & minutes.
Fig. 4.7a
SystemInfo menu
results
1. Point the remote control towards the black sensor on the underside of the solar panel and press Power.
2. Using the remote buttons, navigate to the SystemInfo menu and press Enter.
• When in SystemInfo menu, the top eld should read System: PWM Charge or System: CurrentDrive if the
connection to the Solar Light from the infrared remote was successful.
• If this menu rst reads System: Shutdown, retry step 1 again to connect the panel to the infrared remote.
4.7 Check Solar Light Health Using the Remote
Using the infrared remote, you can check important statistics to evaluate the performance of your Solar Light. This can
be useful for troubleshooting the location or tilt of the panel at different times of day or determining settings to optimise
to get the best possible results from the Solar Light.
Below are the SystemInfo statistics displayed on the remote control & the procedure to check Solar Light health.
Note:
All products, designs and software here are subject to change without prior written notice.
Version: ENSASSLB-Q120
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