SATO
Solar Aviation Taxiway Obstruction Light
Compliance with Standards
Ordering Code
Solar LED Aviation and Obstruction Lights are certified to:
CSA, UL, CE, FCC, RoHS, ICAO, IP68/Nema6P, Explosive
Atmosphere MIL-STD-810G, Method 511.5
Color
1 = Red
2 = White
3 = Blue
4 = Green
5 = Yellow
Uses
Features
• Easy installation and relocation: no specialized work crew
required, limited air traffic disruption and lights are immediately operational. The SATO can also be quickly relocated
for temporary or emergency applications.
• Self-contained and low maintenance: all components
are incorporated within a compact, stand-alone unit. The
SATO also features a replaceable battery pack that extends the service life beyond five years, reducing the total
cost of ownership and resulting in significant cost savings.
• Intelligent settings: the first solar product to incorporate intelligent deployment location settings that allow the SATO
to tune its intensity to its location, protecting itself against
improper configuration.
• Unprecedented reliability: microprocessor Energy Management System (EMS) monitors and adapts the light to
environmental conditions for consistent operation and long
life under the toughest conditions.
• Designed and tested to toughest industrial standards:
MIL-STD-202G: Humidity, Immersion, Vibration, Shock;
MIL-STD-810F: Solar radiation, Salt Fog; EN 60945: ESD,
EMI, EMC; IP68; L70. The SATO is acceptable for barricade and construction applications at Commercial Part
139 Airports under FAA Advisory Circular AC 150/53702E. The SATO Blue is compliant with the requirements of
ICAO Annex 14, Volume 1, Fourth Edition dated July 2004
(ETL Certified).
• User friendly: easy configuration and programming options including: on-board user interface, infrared remote
and Device Manager software through USB connection.
Optional programmable external switch. Optional wireless
control system offering secure 900 MHz wireless control
from ground or air.
• Green solution: a clean, renewable and reliable energy
source with the lightest environmental footprint. The SATO
features recyclable batteries and is entirely RoHS compliant.
Switching
0 = No switch
1 = Switch
Lens
1 = Clear
Wireless Communication
0 = Non-wireless
1 = Wireless
Features (Continued)
• Dusk-to-Dawn operation.
• Optional external switch.
• Intelligent deployment location settings protect against
improper configuration.
Wireless Hand-Held Controller
One or more wireless SAWL lights
can be remotely operated from the
ground or air with a handheld wireless controller: secure radio transceiver, with antenna and keypad.
Features
• Water-resistant keypad and LED
indicators.
Solar LED Lighting
The SATO is a self-contained, high-performance, low-maintenance and easy-to-install solar-powered light source for
permanent, temporary or emergency lighting in aviation and
industrial environments. Applications include: taxiway edge
lighting; apron edge lighting; emergency airfield and helipad
lighting; construction barricade lighting on airfields; and
obstruction lighting.
SATO-XXXX0
• Utilizes a secure wireless RF
signal.
• Control range of up to 2.5 miles.
• Meets MIL-SPEC-810E environmental requirements.
• 24-hour operation on a single charge.
• Rechargeable lithium-ion battery (included); recharges via
an AC/DC wall plug (included).
• Compatible with stand-alone aviation band VHF receiver.
• Comes complete in a custom Pelican™ case.
Wireless Hand-Held Controller
Ordering Code
Part # SAWL-HC
• Up to 10 cd of intensity (steady-on, green, equatorial).
• Replaceable and recyclable battery pack.
• Intuitive on-board user interface.
Battery Replacement Kit for
Wireless Hand-held Controller
Part # 48247
3014 Rev. C
Manual No.96A0409
S-1
Photometric Data
Equipment Data
Solar Panel
High-efficiency cells with bypass and
blocking diode function. Maximum power
point tracking (MPPT) for optimal energy
collection.
Battery
Tool-less replaceable and recyclable
best-in-class battery pack with extreme
temperature range. Battery status feedback
of Good, Charge or Bad (Replace).
Light Source
High power LED. Color-specific temperature
corrected LED drivers provide consistent
intensity under all operating conditions.
Intensity
10 cd intensity, steady-on (see photometric
plot on reverse).
18 cd peak intensity, flashing, 12.5% duty
cycle (Red LEDs).
Solar LED Lighting
Flash Patterns 256+
Note: Intensity dependent on location. Based on equatorial
location of 12-hour night duration and steady-on (001) flash
code. For colored graph, see the ADB website.
Spare Components
For a complete list of solar aviation light accessories, including mounting equipment, see Catalog Sheet 3017.
Technical Drawings and Dimensions
Construction
Premium grade UV resistant, polycarbonate/
polysiloxane co-polymer body and lens
material. Double O-ring sealing with waterproof vent.
Colors
Blue, Red, Yellow, Green and White. ICAO
and SAE25050 (FAA) compliant chromaticity.
Ambient
Operating
Temperature
-45 ºF to +124 ºF (-43 ºC to +51 ºC)
The SATO will function up to +190 ºF (+88 ºC)
internal and surface temperatures.
Storage
Temperature
-45 ºF to +176 ºF (-43 ºC to +80 ºC)
Color Indicator
Yes, FAA Engineering Brief No. 67 compliant.
Weight
3.5 lb (1.58 kg)
Wind Loading
400 mph (180 m/s)
Automatic Light When enabled, ALC will dynamically reduce
Control (ALC) brightness in response to unusually low
amounts of sunlight to ensure continued
operation.
6.93
176mm
Wireless
6.65"
170mm
0.45"
11mm
Switched View
Side View
REF
5.11"
130mm
Range
2.5 miles minimum with 1 W wireless
hand-held controller
Frequency
900 MHz ISM Band (902 – 928 MHz), FHSS
Control,
On-demand
Mode
- Seamless integration with existing ADB
wireless solar products.
- Up to 8 independent groups.
Technical Drawings and Dimensions (Cont.)
5.91"
150mm
BOLT
CIRCLE
REF
4.43"
113mm
0.28" 3X
7mm
Programming and Configuration Options
Bottom View
Canada
canada@adb-air.com
+1.905.331.6887
S-2
3014 Rev. C
Manual No.96A0409
Brasil
brasil@adb-air.com
+55 (11) 6615.7209
Product specifications may be subject to change, and
specifications listed here are not binding. Confirm current
specifications at time of order.
ADB Airfield Solutions
Leuvensesteenweg 585
B-1930 Zaventem
Belgium
Telephone:
+32 (2) 722.17.11
Fax:
+32 (2) 722.17.64
www.adb-airfieldsolutions.com
ADB Airfield Solutions, LLC
977 Gahanna Parkway
Columbus, OH 43230
USA
Telephone:
+1 614.861.1304
+1 800.545.4157
Fax:
+1 614.864.2069
www.adb-airfield.com
SART
Solar Aviation Runway Threshold Light
Compliance with Standards
Ordering Code
Solar LED Aviation and Obstruction Lights are certified to:
CE, RoHS, ICAO, Explosive Atmosphere MIL-STD-810G,
Method 511.5
Color
1 = Red
2 = White
3 = Blue
4 = Green1
5 = Amber1
6 = Red/Green2
7 = Amber/White2
8 = Infrared1
Uses
Features
• Easy installation and relocation: no specialized work crew
required, limited air traffic disruption, and lights are immediately operational. The SART series, which includes
the standard and enhanced fixtures, can also be quickly
relocated for temporary or emergency applications. Multiple mounting options allow for three- or four-bolt mounting patterns.
• Self-contained and low maintenance: all components
are incorporated within a compact, stand-alone unit. The
SART series also feature a replaceable battery pack that
extends the service life beyond five years, reducing the
total cost of ownership and resulting in significant cost
savings.
• Unprecedented reliability: microprocessor Energy Management System (EMS) monitors and adapts the brightness to
environmental conditions for consistent operation and long
life under the toughest conditions.
Switching
0 = No switch
1 = Switch
Lens
1 = Clear
2 = Red
3 = Blue
4 = Amber
Output
0 = Standard
1 = Enhanced
Notes
For regions with low sunlight levels, choose the enhanced
solar LED runway threshold light for improved performance
and increased autonomy.
1
Green, amber, and infrared are available in standard output
only.
2
For dual color fixtures, lens is clear.
• User friendly: Available in two models each differing in
its method of programming. The “no switch” model is
programmed only with a handheld IR remote programmer.
The “switched” model is programmed only by a pushbutton
on the top of the light.
Features (Continued)
• The IR programmed (“no switch”) model of the SART can
be programmed for four intensities (100%, 75%, 50% and
12%). The “switched” model of the SART can be programmed for three intensities (Low, Default, and Emergency).
• Programming via optional push button or infrared remote
control.
• Additional solar panel on enhanced SART delivers extra
solar capacity for low-sunlight locations.
Solar LED Lighting
The SART series solar LED aviation and obstruction lights
are a self-contained, high-performance, low-maintenance
and easy-to-install solar-powered light source for aviation
and obstruction applications. Applications include: runway/
threshold, taxiway edge lighting; apron edge lighting; emergency airfield and helipad lighting; construction barricade
lighting on airfields; and obstruction lighting.
SART-XXXX0
• Replaceable and recyclable battery pack.
• Split lens available for threshold or caution light applications.
• Infrared-output option is available with the SART standard
model only. IR option is NVG compatible.
• Green solution: a clean, renewable and reliable energy
source with the lightest environmental footprint. The SART
features recyclable batteries and is RoHS compliant.
• Up to 19 cd of intensity (steady-on, white).
• Optional onboard push-button switch with four intensity
settings.
Head Detail: Standard
Head Detail: Enhanced
3015 Rev. D
Manual No.96A0411
S-3
Solar LED Lighting
Equipment Data
Technical Drawings and Dimensions
Solar Panel
High-efficiency solar panels.
Battery
Replaceable, recyclable best-in-class battery
pack with extreme temperature range.
Battery status feedback via output LEDs.
Light Source
Ultra-bright LEDs feature innovative optic and
lens design for optimum light divergence.
Intensity
Standard/enhanced: 19cd steady-on, white
IR: 20 mW/Sr minimum at 100% output
See photometric data.
Flash Patterns
The IR-programmed (“no switch”) model
can be programmed by the user or the
factory for steady-on or over 250 flash
patterns. The “switched” model can be
programmed by the user for steady-on or
one flash pattern.
Construction
Fully self-contained weather, corrosion and
vandal-resistant unit with premium-grade
UV-resistant polycarbonate head and
extruded aluminum body.
Colors*
White, red, amber, blue, infrared, green,
red/green split, amber/white split.
Side View
Ambient
-22 ºF to +122 ºF (-30 ºC to +50 ºC)
Operating Temp.
Storage
Temperature
-40 ºF to +176 ºF (-40 ºC to +80 ºC)
Weight
17 lb (7.75 kg)
Automatic Light
Control (ALC)
ALC dynamically reduces brightness in
response to unusually low amounts of
sunlight to ensure continued operation.
* Infrared, amber, and green are available in standard output
only.
Photometric Data
Top View
Programming and Configuration Options
Push-button is on “switched” model
Handheld infrared controller
is for the “no-switch” model
Spare Components
For a complete list of solar aviation light accessories,
including mounting equipment, see Catalog Sheet 3017.
Note: Intensity dependent on location. Based on location
able to sustain steady-on (001) at 100% intensity. For colored
graph, see the ADB website.
Canada
canada@adb-air.com
+1.905.331.6887
S-4
3015 Rev. D
Manual No.96A0411
Brasil
brasil@adb-air.com
+55 (11) 6615.7209
Product specifications may be subject to change, and
specifications listed here are not binding. Confirm current
specifications at time of order.
ADB Airfield Solutions
Leuvensesteenweg 585
B-1930 Zaventem
Belgium
Telephone:
+32 (2) 722.17.11
Fax:
+32 (2) 722.17.64
www.adb-airfieldsolutions.com
ADB Airfield Solutions, LLC
977 Gahanna Parkway
Columbus, OH 43230
USA
Telephone:
+1 614.861.1304
+1 800.545.4157
Fax:
+1 614.864.2069
www.adb-airfield.com
SAWL
Solar Aviation Wireless Light
Compliance with Standards
Ordering Code
Solar LED Aviation and Obstruction Lights are certified to: CE,
ICAO, Explosive Atmosphere MIL-STD-810G, Method 511.5
LED Color
1 = Red
2 = White
3 = Blue
4 = Green
5 = Amber
6 = Red/Green
7 = Amber/White
8 = Red/White
Uses
Features
• Easy installation and relocation: no specialized work crew
required, limited air traffic disruption, and lights are immediately operational. Featuring a built-in handle, the SAWL
can be quickly relocated for temporary or emergency
applications. Multiple mounting options allow for three or
four-bolt mounting patterns.
• Self-contained and low maintenance: all components
are incorporated within a compact, stand-alone unit. The
SAWL also features a replaceable battery pack that extends the service life beyond five years, reducing the total
cost of ownership and resulting in significant cost savings.
• Unprecedented reliability: microprocessor Energy Management System (EMS) monitors and adapts the brightness to
environmental conditions for consistent operation and long
life under the toughest conditions.
• User friendly: easy programming and operation options
include push-button operation or optional wireless control
system offering secure 900 MHz wireless control from
ground or air. External 12 V service port allows for external
charging or use of supplementary power source.
Switching
1 = Switch
InfraRed
0 = No IR
1 = IR1
Wireless Communication
0 = Non-wireless
1 = Wireless1
Fixture Color
0 = Yellow
1 = Olive Drab
Notes
1
If the IR option is selected, then the wireless option must
also be selected.
Wireless Hand-Held Controller
One or more wireless SAWL lights can
be remotely operated from the ground
or air with a handheld wireless controller: secure radio transceiver, with
antenna and keypad.
• Protect personnel and assets: Optional handheld wireless control allows for remote operation of a SAWL airfield
including mode changes for enhanced visibility in poor
weather conditions, or to blackout or infrared in response
to immediate threat.
Features
• Green solution: a clean, renewable and reliable energy
source with the lightest environmental footprint. The SAWL
features recyclable batteries.
• Control range of up to 2.5 miles.
• Up to 44 cd of intensity in autonomous high mode (white).
• Water-resistant keypad and LED
indicators.
• Utilizes a secure wireless RF signal.
• Meets MIL-SPEC-810E environmental requirements.
• 24-hour operation on a single charge.
• Up to 247 cd of intensity in temporary high mode (white).
• Rechargeable lithium-ion battery (included); recharges via
an AC/DC wall plug (included).
• Six intensity level settings.
• Compatible with stand-alone aviation band VHF receiver.
• Dusk-to-dawn or on-command operation.
• Comes complete in a custom Pelican™ case.
• Programming options include push-button operation or
optional wireless control system.
• NVG-compatible IR option available with all color
combinations.
Solar LED Lighting
The SAWL solar LED aviation light – designed for oncommand performance in extreme conditions – features an
innovative combination of solar power, LEDs, and an optional
secure wireless control system. The control system allows
for on-command operation from ground or air over a range of
up to 2.48 miles (4 km). Applications include: Runway edge
lighting – (ICAO Annex 14); portable or expedited airfield
lighting; emergency runway lighting; helipad lighting; threshold lighting; and obstruction lighting.
SAWL-XXXXX
Wireless Hand-Held Controller
Ordering Code
Part # SAWL-HC
3016 Rev. C
Manual No. 96A0410
S-5
Equipment Data
Solar Panel
High-efficiency solar panels.
Battery
Replaceable, recyclable best-in-class
battery pack with extreme temperature
range. Battery status feedback via LEDs.
Light Source
Ultra-bright LEDs feature innovative optic and
lens design for optimum light divergence.
Intensity
Up to 44.3 cd autonomous high mode. See
photometric plot.
Flash Patterns
Steady-on or 1 flash. User-programmed via
onboard push-button switch or optional
handheld wireless controller.
Construction
Colors
Solar LED Lighting
Technical Drawings and Dimensions (Continued)
9.25
235
7.87
200
Bolt Circle
7.75
197
Switch
Fully self-contained weather, corrosion and
vandal-resistant unit with premium-grade
UV-resistant polycarbonate head. External
aluminum body.
LEDs: white, red, green, amber, blue,
red/green split, amber/white split, red/white
split. All colors available with infrared.
CHASSIS: aviation yellow, olive drab.
.64
16.3
External
Service Port
Top View
Photometric Data
Ambient
-22 ºF to +122 ºF (-30 ºC to +50 ºC)
Operating Temp.
Storage
Temperature
-40 ºF to +176 ºF (-40 ºC to +80 ºC)
Weight
26 lb (11.75 kg)
Automatic Light ALC dynamically reduces brightness in
Control (ALC)
response to unusually low amounts of
sunlight to ensure continued operation.
Radio Receiver 902-928 MHz FHSS
External Service 12 VDC
Port
Technical Drawings and Dimensions
Note: Intensity dependent on location. For colored graphs,
see the ADB website.
Antenna
17.6
448
13.3
339
.38
9.5
Spare Components
For a complete list of solar aviation light accessories,
including mounting equipment, see Catalog Sheet 3017.
Side View
Canada
canada@adb-air.com
+1.905.331.6887
S-6
3016 Rev. C
Manual No. 96A0410
Brasil
brasil@adb-air.com
+55 (11) 6615.7209
Product specifications may be subject to change, and
specifications listed here are not binding. Confirm current
specifications at time of order.
ADB Airfield Solutions
Leuvensesteenweg 585
B-1930 Zaventem
Belgium
Telephone:
+32 (2) 722.17.11
Fax:
+32 (2) 722.17.64
www.adb-airfieldsolutions.com
ADB Airfield Solutions, LLC
977 Gahanna Parkway
Columbus, OH 43230
USA
Telephone:
+1 614.861.1304
+1 800.545.4157
Fax:
+1 614.864.2069
www.adb-airfield.com
Solar Aviation Light Accessories
2” to 1” Frangible Coupling
FAA Part # 61A0281
ICAO Part # 61A0350
A complete mounting system for
SATO airfield lights that are installed
in gravel or earth locations. Includes
a 14” (35cm) mounting stake that can
be hammered into the ground, a frangible grooved column
that can be replaced separately if broken on impact (as designed) and a mounting base pre-drilled to accommodate the
SATO. Comes complete with a 10” (25cm) diameter grass
guard disk that keeps grass and weeds from growing around
the mounting stake.
Includes a 1” column with additional set screw
for secure installation using ADB aviation accessories. Adapts to the 2” ADB Floor Flange, the
SATO airport mounting plate and conventional 2” threaded
NPT stakes. The 2” to 1” frangible coupling is manufactured
from aluminum, providing FAA compliance for high and medium intensity edge light requirements. The 2” NPT Frangible
Coupling will provide a permanent, temporary or expedited
mounting system for ADB aviation lights.
SATO Mounting Plate
Part # 51925
Designed for elevated edge lighting for
stake mounted or floor flange installations
on concrete and dirt surfaces. Applications include: taxiway edge lighting,
apron edge lighting, helipad edge lighting
and obstruction lighting. Manufactured to provide FAA maximum height requirements of 14”, it will adapt to 1.5” and 2”
to 1” frangible couplings with set screws for a secure fit. The
mounting plate is manufactured from aluminum with powdercoated aviation yellow for daytime visual guidance. The ADB
1.5” or 2” Floor Flange is recommended for permanent or
temporary installations using the SATO Mounting Plate.
SART/SAWL Mounting Plate
Part # 36339
Designed for runway, threshold, runway
caution, obstruction and helipad applications, this mounting plate is for stake mounted or floor
flange installations on concrete and/or dirt surfaces. Fits 1.5”
or 2” to 1” frangible couplings and is designed to bolt into the
bottom of the SART/SAWL series aviation light using stainless steel bolts. Powder coated aviation yellow, it adapts to
the 1.5” ADB Floor Flange using a 1.5” frangible coupling or
the 2” ADB Floor Flange using a 2” to 1” frangible coupling.
The common size of the coupling will determine which floor
flange is ordered.
1.5” Frangible Coupling
Part # 62B0073
Compatible with the ADB SATO, SART, and
SAWL lights for stake mount and floor flange
installations at civilian and military airfields. Easily
adapted to concrete and dirt mounted surfaces,
the set-screw will allow for quick replacement in the event of
jet blast or collision.
Extended 2” Frangible Coupling
Part # 44B0180
The Extended 2” Frangible Coupling is designed
to be compatible with the ADB SART/SAWL Series
Extended Mounting Plate system. Easily adapted
to the 2” floor flange and 2” mounting stake, the 2”
coupling can be used for concrete and dirt mounted applications.
1.5” Floor Flange
Part # 36329
Designed for concrete installations using
the 1.5” frangible coupling for taxiway,
threshold, apron, or helipad edge installations. Excellent for
permanent installations where current infrastructure is not in
place and edge lights must be secured and frangible.
2” Floor Flange
Part # 62B0107-2
Designed for concrete installations using
the 2” to 1” frangible coupling for taxiway,
threshold, apron, or helipad edge installations. Excellent for
permanent installations where current infrastructure is not in
place and edge lights need to be secured and frangible.
Solar LED Lighting
SATO Mounting System
Part # 61871 w/GG
Part # 61870
SATO Security Mounting Bolt Kit
Part # 38335
The SATO Security Bolt Kit contains the
required hardware to mount SATO lights
to the SATO mounting plate, when added
security is a consideration. Each package
contains the necessary items to properly mount one light.
Parts list includes:
• Nut, security, ¼”-20, trident (3)
• Driver for trident ¼”-20 nut (1)
• Driver, hex security bit, 876-770 Spaenaur (1)
• Washer, flat, ¼”, SS (9)
• Screw, security, button head, ¼”-20 x 1.5”, SS (3)
3017 Rev. D
No Manual
S-7
SART/SAWL Series Mounting Bolt Kit
Part # 38339
The SART/SAWL Series Mounting Bolt
Kit contains the required hardware to
mount SART/SAWL series lights to the
SART/SAWL series mounting plate. Each package contains
the necessary items to properly mount one light. Parts list
includes:
• Flat washer, ½”, SS (8)
Battery Chargers
SATO AC/DC Battery Pack Charger
Part # 59188
The AC/DC Charger plugs directly into
the Battery Pack to enable fast and
easy charging during periods of storage
or extended use. The charger is an
International Charger. For indoor use
only.
• Screw, cap, hex, ½”-13, SS (4)
• Nut, lock, ½”-13, SS (4)
Solar LED Lighting
SATO Standard Bolt Kit
Part# 38334
The SATO Bolt Kit contains the required
hardware to mount SATO lights to the
correct mounting bases. Each package contains the necessary items to properly mount
one light. Parts list includes:
• Nut, lock, ¼”-20, SS (3)
• Washer, flat, ¼”, SS (9)
The AC/DC Charger plugs directly into
the charging port on the SAWL light enabling easy charging during periods of storage or extended
use. The charger uses a North-American wall plug and accepts 90 - 264 Volts @ 47 - 63 Hz. For indoor use only. The
SAWL Hand-Held Controller uses an AC/DC charger and
harness, male connector.
• ¼”-20 x ½”, hex cap screw, SS (3)
Wedge Anchor Bolt
Part # 46397
The ADB airport wedge anchor bolt is
designed for securing the 1.5” or 2” Floor
Flange to hardened concrete. The 3/8” X
3-¾” wedge anchor bolts are used in installations on permanent, temporary and expedited airfields.
Combined with the 1.5” or 2” Floor Flange these wedge
anchor bolts are ideal for permanent installations where current infrastructure is not in place and edge lights need to be
secured and frangible.
SAWL Wireless Hand-Held Controller
Part # SAWL-HC
One or more wireless SAWL lights can be
remotely operated from the ground or air with
a handheld wireless controller: secure radio
transceiver, with antenna and keypad.
Features include:
• Water-resistant keypad and LED indicators
• Utilizes a secure wireless RF signal
• Control range of up to 2.5 miles
• Meets MIL-SPEC-810E environmental requirements
Airport Mounting Stake
Part #: 37002 (15” length, 1.5”)
38925 (15” length, 2”)
44B0348 (30” length, 1.5”)
38964 (30” length, 2”)
Manufactured out of galvanized steel, the all
weather airport mounting stake allows for permanent installation in earth and gravel environments
at general aviation airports and remote defense airfields. The
airport mounting stake is available in 15” and 30” lengths and
with 1.5” and 2” coupling configurations. Frangible coupling
size must be determined before ordering.
Infrared Remote Programmer
Part # 62556
SATO and SART lights are user-programmable
using an optional infrared programmer. Functions
available through the programmer include:
• Flash code settings
• Intensity and autonomy adjustments
• Activation / deactivation ability for storage or
transport
• A Battery Pack Health check to determine the relative
health of the battery pack.
S-8
SAWL AC/DC Battery Pack Charger
Part # 48898
SAWL Wireless Hand-held
Controller Charger
Part # 48254
3017 Rev. D
No Manual
• 24-hour operation on a single charge
• Rechargeable lithium-ion battery (included); recharges via
an AC/DC wall plug (included)
• Compatible with stand-alone aviation band VHF receiver
• Comes complete in a custom Pelican™ case
SATO Fence Mounting System
Part# 61869
The SATO Fence Mounting Kit is
designed for installing SATO aviation lights on standard chain link
fences with a circular top bar along
the top of the chain link fence. The kit features two U-bolts,
a mounting plate, and all the required hardware to securely
affix SATO lights to most fences.
Bottom Cover Replacement Kits
Battery Replacement Kits
SATO Replacement Battery Pack
Part # 57383
SATO kit, w/switch
Part # 57392
A replacement Battery Pack is available for
the SATO. The Battery Pack is ready for
installation in the SATO and does not require
tools or other parts.
SATO kit, w/out switch
Part # 57393
SATO Bottom Cover Tool
Part # 59198
Due to a tight-fitting bottom cover, this
tool can be used to help remove the
bottom cover from the SATO light for
access to SATO controls.
SATO USB Cable
Part # 57394
SART Part # 61873
SAWL Part # 49660
SAWL Wireless Hand-held Controller
Part # 48247
The battery replacement kits provide all
necessary items to efficiently replace the
batteries in your ADB Solar Lights or SAWL
wireless hand-held controller.
Toolkit for SAWL Light
Part # SAWL-TK
Bird Deterrent Kits
SATO Part # 57003
SART Enhanced/SAWL Part # 53097
The SAWL toolkit provides the tools necessary for maintenance and installation
of the SAWL light. Kit includes: multi-bit
screwdriver, crescent wrench, socket wrench and sockets,
and a suede carrying case.
One bird deterrent ships with SATO light.
SART and SAWL deterrents need to be
ordered separately. To order additional bird
deterrents please use part numbers provided
above. (SATO bird deterrent shown at right).
ADB Airfield Solutions
Leuvensesteenweg 585
B-1930 Zaventem
Belgium
Telephone:
+32 (2) 722.17.11
Fax:
+32 (2) 722.17.64
www.adb-airfieldsolutions.com
Canada
canada@adb-air.com
+1.905.331.6887
ADB Airfield Solutions, LLC
977 Gahanna Parkway
Columbus, OH 43230
USA
Telephone:
Product specifications may be subject to change, and
specifications listed here are not binding. Confirm current
specifications at time of order.
+1 614.861.1304
+1 800.545.4157
Fax:
+1 614.864.2069
www.adb-airfield.com
Solar LED Lighting
USB Cable, A-type plug to Mini-B-type plug, 2m long.
Brasil
brasil@adb-air.com
+55 (11) 6615.7209
3017 Rev. D
No Manual
S-9
SOLS
LED Solar Obstruction Light System
Compliance with Standards
Solar Panel Ordering Code
FAA:
Solar Panel Size*
1 = 50 W, 12 V, 105 Ahr
2 = 80 W, 12 V, 139 Ahr
Solar LED Lighting
L-810 AC 150/5345-43 (Current Edition) and the
FAA Engineering Brief No. 67 “Light Sources other
than Incandescent and Xenon for Airport Lighting
and Obstruction Lighting Fixtures.” Solar equipment exceeds requirements of FAA Engineering
Brief No. 76 “Using Solar Power for Airport
Obstruction Lighting.” L-810 is ETL Certified.
ICAO: Annex 14, Vol. I, para. 6.3
System Overview
The LED Solar Obstruction Lighting System (SOLS) is a FAAand ICAO-compliant modular, stand-alone, self-contained
solar-powered obstruction warning lighting system for towers
and other structures. During the daytime, the solar panel
charges the battery. At dusk, the photocell automatically
activates the LED obstruction light until dawn. Dusk-to-dawn
light control is activated by ambient solar lighting levels (Turn
On at 35 foot candles / Turn Off at 52 foot candles) via a FAAapproved photocell.
• The system is designed to require very low maintenance for
long periods, while operating in harsh environments.
• The system includes a steady burning red light fixture
marking fixed obstructions to eliminate navigational hazards. See catalog sheet 2063 for more information about
ADB’s L-810 LED Obstruction Light.
• High-efficiency high-flux LED obstruction light
Note
* See solar sizing map on the last page to determine the
size of the solar panel required for specific locations.
SBOL Ordering Code
SBOL-XXXX
Color
1 = Obstruction Light Red, FAA
2 = Obstruction Light Red, ICAO, Type A1
Mounting
1 = Single, bottom mount 1 inch-11.5 inch NPT
Power
4 = 12 VDC
Arctic Option
0 = Without arctic option
Notes
• Standard warranty applies when SPS and SBOL are
ordered together. Warranty is void if not.
1
Not ETL Certified
• Weather- and corrosion-resistant light assembly and housing
• 32.5 cd brightness
• FAA-approved photocell
• Minimum 5-year battery life
Typical System Layout
FAA-approved
Photocell
Operation
The LED Solar Obstruction Light operates as follows:
• The solar panel supplies DC current to charge the deep
cycle battery operating at 12 V.
• Battery charging is regulated by the pre-installed and wired
charge controller in the outdoor-rated battery and controller enclosure.
Solar
Panel
• The LED fixture is powered by the energy stored in the
battery. System design is based on monthly site climate
data such that the average solar panel output is greater
than the average loading.
Theory of Operation
The SOLS operates automatically with no need for
operator interaction under normal conditions. With normal
daylight illumination, the solar panel is capable of producing
sufficient current to charge the battery. The charging light indicates the battery is being charged by the solar panel.
S - 10
SPS-X000
3023 Rev. F
Manual No.96A0413
Battery and
Controller
Enclosure
LED
Obstruction
Light
Theory of Operation (Continued)
Dimensions
If the battery discharges to the pre-set load disconnect voltage due to long periods of poor weather, the low voltage
disconnect (LVD) relay is activated, the controller’s red LED
turns on, and the solar obstruction LED fixture is disconnected. Disconnecting the LED fixture prevents battery
damage associated with complete discharge of the battery.
The controller’s red LED will turn off when the battery recovers to about 50% of its rated capacity and the light fixture is
automatically reconnected.
Obstruction Light Fixture, Single
Solar Panel Orientation
Height
Full solar exposure is critical to the performance of the LED
obstruction light. Ensure that the solar panel installation location has year-round, unrestricted sun exposure throughout
the day. If required, the solar panel may be attached remotely
to the controller using an appropriately-sized transmission
cable. The bottom edge of the solar panel should be installed
at a minimum height to clear growing vegetation and snow at
the site.
33 in
(839 mm)
Actual:
Controller and Battery Enclosure
Height1
Width1 (front) Depth1 (side)
Weight2
19 in
(482.6 mm)
18.5 in
(469.9 mm)
11.25 in
(285.75 mm)
80 lb
(36.29 kg)
Width
Depth
Weight
21.1 in
(537 mm)
1.97 in
(50 mm)
13.2 lb
(6.0 kg)
Solar Panel - 50 W
Solar Panel - 80 W
Height
Width
Depth
Weight
47.28 in
(1200 mm)
21.1 in
(537 mm)
1.81 in
(46 mm)
20.94 lb
(9.5 kg)
1
2
Outside dimensions including the enclosure and protrusions.
The estimated weight of the bare enclosure without solar
panel and cabling is 14 lb (6.35 kg).
Solar Sizing Map
• SOLS systems installed at a latitude greater than 55° are
subject to special design considerations due to lower levels of solar radiation during the winter months.
• For inclination angle installation, see map in the manual.
Installation
A solar panel mounting structure is provided for attaching the
solar panel to an appropriate support structure or foundation.
Instructions for assembling the mount and attaching the solar
panel are provided in the mounting structure package.
The panel and enclosure mounting kits are both designed to
a standard 4” pipe (outer diameter 4.5”/114 mm), having a
wall thickness which is at least schedule 40 (0.237”/6 mm).
A short section of pipe (not supplied) can be used to mount
the panel and enclosure. The pipe can be attached to the
obstruction structure or other location. The units can also be
mounted to pipes with sizes as small as 3” (outer diameter 3.5”/89 mm), having a wall thickness which is at least
schedule 40 (0.237”/6 mm). Additional fasteners (u-bolts) will
be required. The solar panel may be mounted at whatever
height is deemed safe.
Solar LED Lighting
Notes
• Shading even a small portion of the solar panel will significantly reduce the output of the LED fixture.
3.69 in diameter x 10.8 in height
(93.7 mm dia. x 274.3 mm height)
Use the above map to determine the size of the solar
panel required for specific locations. See catalog sheet
3037 in the Solar Product Center on our website for full
size, 4-color versions of all solar sizing maps.
ADB Airfield Solutions
Leuvensesteenweg 585
B-1930 Zaventem
Belgium
Telephone:
+32 (2) 722.17.11
Fax:
+32 (2) 722.17.64
www.adb-airfieldsolutions.com
Canada
canada@adb-air.com
+1.905.331.6887
ADB Airfield Solutions, LLC
977 Gahanna Parkway
Columbus, OH 43230
USA
Telephone:
Product specifications may be subject to change, and
specifications listed here are not binding. Confirm current
specifications at time of order.
+1 614.861.1304
+1 800.545.4157
Fax:
+1 614.864.2069
www.adb-airfield.com
Brasil
brasil@adb-air.com
+55 (11) 6615.7209
3023 Rev. F
Manual No. 96A0413
S - 11
SRGLS
LED Solar Runway Guard
Light System
Compliance with Standards
SEPS Ordering Code1
FAA:
Lens Color
1 = Yellow - 276 cd
CE:
Meets L-804 yellow per AC 150/5345-46
(Current Edition).
Complies with the requirements of the EMC
Directive 2004/108/EC
Uses
SEPS-41X1X-XX11
Autonomous Setting2
1 = Dusk to Dawn
2 = 24 hour
• Runway Guard Light (RGL)
Solar LED Lighting
• Runway Incursion Prevention
ADB’s LED Solar Runway Guard Light System (SRGLS) is
an ideal choice for an airfield that requires improved safety
measures, but experiences difficulties with grid access. ADB’s
SRGLS consists of an elevated unidirectional flashing yellow
Solar-powered Runway Guard Light (SRGL) and a Solar Engine Power Supply (SEPS). The SRGL provides a distinctive
warning to pilots that they are approaching a runway holding
position and are about to enter an active runway. The SEPS
incorporates the latest technology in solar technology, hardware and software to provide power and control to the SRGL.
The SRGLS is typically installed in pairs, one on either side
of the taxiway holding position. The SRGLS can also be used
in combination with L-852G (In-pavement Runway Guard
Light), L-852S (In-pavement Stop Bar Light), and L-862S
(Elevated Stop Bar Light) to provide additional safety under
low-visibility conditions on the airfield.
Features
• ADB’s Solar Runway Guard Light System (SRGLS) can
provide 24-hour unidirectional flashing to aid in reducing
airfield incursions at unmarked runway and taxiway intersections.
• The SRGLS installs in minutes with no trenching, cabling, or
external power, and can be relocated just as quickly.
• Includes lamps, frangible column, and tether.
Remote Control
1 = Non-Wireless
2 = Wireless – max. time-out4
3 = Wireless – 15 min. time-out4
Notes
1
The SEPS carries the CE mark. The SGRL does not require
a CE mark as it does not contain any active components.
2
The SEPS is factory configured to work autonomously for
either dusk-to-dawn or for 24-hour period operation. On
autonomous mode the product turns on at the intensity
that is sustainable in that solar region. See Table 2 for %
Intensity by solar region.
3
Refer to solar map to determine solar region.
4
See the Wireless Hand-Held Controller section for details on
Maximum Time-Out and 15-minute Time Out options.
SRGL Ordering Code1
44A4744-XXXX
Power
5 = Solar Engine Power Supply (SEPS)
• Fixture is controlled (flash-rate) from an intelligent lighting
control system module located in the SEPS.
Monitoring
3 = No monitoring
• Unprecedented reliability: microprocessor Energy Management System (EMS) monitors and adapts the brightness to
environmental conditions for consistent operation and long
life under the toughest conditions.
Lens Color
5 = Traffic Signal Yellow
• Battery daily depth of discharge is sized for a minimum of
5 years of service.
Photocell Feature
3 = Without photocell
• The minimum autonomy or operational period without
charging is 7 days.
Note
1
SRGLs should only be powered with a SEPS
• Protect personnel and assets: Optional hand-held wireless
control allows for remote operation of an SRGL including mode changes for enhanced visibility in poor weather
conditions
Operating Conditions
• Green solution: a clean, renewable and reliable energy
source with the lightest environmental footprint.
S - 12
Solar Region3
1 = Region 1 (blue)
2 = Region 2 (green)
3 = Region 3 (white)
4 = Region 4 (yellow)
5 = Region 5 (red)
3028 Rev. D
Manual No. 96A0421
Temperature: -40 ºF to +131 ºF (-40 °C to +55 ºC)
Humidity: 0 to 100%
Wind: Withstands wind velocities up to 300 mph (480 kph)
Features (Continued)
Wireless Hand-Held Controller (Continued)
• The SRGL can be aimed both vertically and horizontally
and has an Adjustable Light Beam: 0° to 20° vertically;
±20° horizontally
In temporary mode, 10%, 30% and 100% intensities can be
selected for a 15-minute Time-Out or a Maximum Time-Out.
• Average LED life of 56,000 hours under high-intensity
conditions and more than 100,000 hours under actual operating conditions, resulting in significant reduction or even
elimination of ongoing maintenance costs and periodic
re-lamping expenses.
The 15-minute Time-Out option is for only momentary
intensity brightness operations of the SRGLS for airports that
actively manage their airfields. After 15 minutes, the SRGLS
will be return to the autonomous configuration.
• The two SRGL light sources are surrounded by a black
face plate and independent visors to reduce the amount of
incident sunlight, thereby maximizing the contrast during
the lamp ON/OFF cycle
• LED lamp replacement is achieved without tools to minimize downtime
The Maximum Time-Out option is for airports that require “the
most intensity for as long as possible.” The SEPS software
prevents the battery from being ON indefinitely at the chosen
intensity, thereby preventing battery full discharge. To determine the maximum activation time for each selected intensity
and region, see Table 1.
• Access to the SRGL interface is achieved through a
hinged waterproof lid that permits easy connection
Features
• Fixture is fabricated from corrosion-resistant materials, and
all exterior surfaces are painted aviation yellow for added
protection and visibility
• Utilizes a secure wireless RF signal
• Flash Rate: Alternating flashes, 45-50 per minute
Benefits
• Easy Installation: no specialized work crews required;
limited air traffic disruption and functions immediately upon
installation
• Compact, self-contained design; easy deployment and
relocation
• Significant cost savings: no fuel or electrical bills
• Reduced maintenance cycles: no scheduled maintenance
for up to five years
• Clean, renewable solution: a visible move towards ecofriendly practices
• Control range of up to 2.5 miles
• Meets MIL-SPEC-810E environmental requirements
• 24-hour operation on a single charge
• Rechargeable lithium-ion battery (included); recharges via
an AC/DC wall plug (included)
• Compatible with stand-alone aviation band VHF receiver
• Comes complete in a custom Pelican™ case
Wireless Hand-Held Controller
Ordering Code
Part # SAWL-HC
Battery Replacement Kit for
Wireless Hand-held Controller
Part # 48247
Equipment Data
Solar Panel Orientation
Solar Engine Power Supply (SEPS)
Full solar exposure is critical to the performance of the
SRGLS. Ensure that the Solar Engine Power Supply (SEPS)
installation location has year-round, unrestricted sun exposure throughout the day. The bottom edge of the solar panels
should be installed at a minimum height to clear growing
vegetation and snow at the site.
Installed weight
132 lb (59.8 kg)
Shipping weight
Box 1 (SEPS) - 76 lb (34.4 kg)
Box 2 (battery) - 68 lb (30.8 kg)
Installed
dimensions*
29.9 H x 42.9 W x 17.4 D in
(75.9 H x 108.9 W x 44.1 D cm)
* with wireless antenna at 55° tilt
Note: Shading even a small portion of the solar panel will
significantly reduce the output of the SRGLS.
Shipping dimensions
Wireless Hand-Held Controller
Box 2 (battery)
SEPS can be controlled using the
Wireless Hand-Held Controller in
a similar manner to ADB’s wireless
solar lights.
One or more wireless solar lights
can be remotely operated from
the ground or air with a hand-held
wireless controller using a secure
radio transceiver with antenna and
keypad.
The hand-held remote control option allows the user to temporarily override the intensity set in the autonomous modes.
Box 1 (SEPS)
Solar LED Lighting
• High-strength 1832RGL base plate
• Water-resistant keypad and LED indicators
25.5 H x 46.9 W x 14.0 D in
(64.7 H x 119.1 W x 35.56 D cm)
8.3 H x 13.1 W x 7.4 D in
(21 H x 33.2 W x 18.8 D cm)
Temperature
Operating:
Storage:
-22 °F to +122 °F (-30 °C to +50 °C)
-40 °F to +176 °F (-40 °C to +80 °C)
Chassis
Weather and corrosion-resistant
construction of stainless steel and powder
coated aluminum
Mounting
ADB frangible couplings and floor flange
mounts
Wind loading
300 mph min. installed at 55° tilt
Tilt
15°, 35°, 55°
3028 Rev. D
Manual No. 96A0421
S - 13
Equipment Data (continued)
Equipment Data (continued)
Diagnostics
On-board feedback indicators for:
Battery Status, System Status, Battery
Reverse Polarity, and Solar Panel
Reverse Polarity
Control,
Autonomous
Mode
Dusk-to-dawn flashing or 24-hour flashing
Load Cabling
Certifications
RoHS, WEEE, CE, FCC
22 ft (6.7 m) cable can exit onto the
surface or down into a ground pot
Battery
PV Panel
Power
12 VDC 105 A-hr at C/100 discharge rate
Power
17 VDC, 95 W
Type
Replaceable and recyclable, absorbent
glass mat (AGM) SLA.
Type
61215
High Efficiency Monocrystalline, IEC
Lifetime
4,000 cycles to 20% depth of discharge
at +68 °F
Lifetime
10 years at 90% output
Temperature-compensated, maximum
power point tracking (TC-MPPT)
Range
2.5 miles minimum with 1 W wireless
hand-held controller
Frequency
900 MHz ISM Band (902 – 928 MHz),
FHSS
Encryption
256-bit AES
Control,
On-demand
Mode
- Seamless integration with existing ADB
wireless solar products.
- Up to 8 independent groups.
- Flash Mode, Emergency Mode,
Autonomous Mode
- On-demand Temporary Mode (High,
Medium, and Low)
- Configuration Mode, ARCAL
Charger
Wireless
LED Driver
Channels
2 independent channels
Solar LED Lighting
Power
Channel A:
18 – 38 VDC from 0.3 – 1.4 A and
5 – 100 % duty cycle, constant current
Channel B:
18 – 38 VDC from 0.3 – 1.4 A and
5 – 100 % duty cycle, constant current
Automatic Light
Control (ALC)
ALC dynamically reduces brightness in
response to unusually low amounts of
sunlight to ensure continued autonomous
operation. Available on Channels A and B.
Table 1: Maximum Activation Time for Selected Intensity and Region
SGRL
Region
Yellow
276 cd
1
2
3
4
5
On-Demand Activation Time
per Day, 100% Intensity
Dimensions
12 hrs
14 hrs
17 hrs
20 hrs
22 hrs
On-Demand Activation Time
per Day, 30% Intensity
On-Demand Activation Time
per Day, 10% Intensity
24 hrs
24 hrs
24 hrs
24 hrs
24 hrs
24 hrs
24 hrs
24 hrs
24 hrs
24 hrs
Table 2: Autonomous Settings by
Solar Region
SRGL Region Autonomous Autonomous
Dusk-to-Dawn, 24 hr.,
% Intensity
% Intensity
Yellow
276 cd
1
2
3
4
5
73%
94%
100%
100%
100%
49%
60%
70%
82%
92%
Note: See Fig. 3 to select your region.
SRGL Packaging
In cardboard box: 30 x 22 x 17 in
(37.5 x 27.5 x 21.25 cm)
Net weight:
Fig. 1. SEPS Dimensions
S - 14
3028 Rev. D
Manual No. 96A0421
37 lb (16.8 kg)
Solar Region Map
SRGL Spare Components
Description
Part No.
Base plate, L-867B heavy-duty
Canopy, FAA
Canopy brackets
Frangible coupling and mtg flange kit, 11.5 TPI
Lamp Assy Yellow
Lamp Reflector Right
Lamp Reflector Left
Adjustable Draw Latch
Terminal Strip
Compression Fitting
Pipe Plug
1832RGL
60A2408
60A2410
94A0581
94A0586-1
62A2205-1
62A2205-2
61A0271
72A0391
77A0147
77A0098
Installation
The Runway Guard Light should be installed according to
FAA AC 150/5340-30.
The Solar Engine Power Supply (SEPS) has to be installed
on a level concrete pad within 20 feet of the SRGL. For
below ground wiring, L-867B base cans need to be installed
under each SRGL and SEPS.
Solar LED Lighting
Fig. 2. SRGL Fixture Dimensions
For a temporary application, the wiring between the SEPS
and the SRGL can be above ground. Both the SRGL and
SEPS contain side conduits for cabling access.
Fig. 3. See catalog sheet 3036 in the Solar Product
Center on our website for additional solar region maps
in full color. If solar region is unclear, please contact the
ADB Sales Department.
ADB Airfield Solutions
Leuvensesteenweg 585
B-1930 Zaventem
Belgium
Telephone:
+32 (2) 722.17.11
Fax:
+32 (2) 722.17.64
www.adb-airfieldsolutions.com
Canada
canada@adb-air.com
+1.905.331.6887
ADB Airfield Solutions, LLC
977 Gahanna Parkway
Columbus, OH 43230
USA
Telephone:
Product specifications may be subject to change, and
specifications listed here are not binding. Confirm current
specifications at time of order.
+1 614.861.1304
+1 800.545.4157
Fax:
+1 614.864.2069
www.adb-airfield.com
Brasil
brasil@adb-air.com
+55 (11) 6615.7209
3028 Rev. D
Manual No. 96A0421
S - 15
SWCS
LED Solar Wind Cone System
Compliance with Standards
Features (Continued)
FAA:
• Protect personnel and assets: Optional hand-held wireless
control allows for remote operation of an SWC including
mode changes for enhanced visibility in poor weather
conditions
CE:
Designed to meet L-806 and L-807
AC 150/5345-27 (Current Edition).
Complies with the requirements of the EMC
Directive 2004/108/EC
Solar LED Lighting
Uses
ADB’s LED Solar Wind Cone System (SWCS) is an ideal
choice for an airfield that requires improved safety measures,
but experiences difficulties with grid access. ADB’s SWCS
consists of either an L-806 or L-807 solar-powered wind cone
(SWC) and a Solar Engine Power Supply (SEPS). The SWC
provides visual surface wind direction and velocity information
to pilots in flight or on the ground at airports and heliports.
The SEPS incorporates the latest in solar technology, hardware and software to provide power and control to the SWC.
Features
• The L-806 SWC is a low-mass, frangible-designed wind
cone available in two lighted styles, internal or external,
with an eight-foot wind sock
Lighting Assembly - LED
• The internally lighted wind cone can provide an average illumination on the top and lateral surface of a fully extended
windsock of 10- to 30-ft lamberts. The internally lighted
8-foot wind cone uses one LED optical assembly and the
12-ft uses three LED optical assemblies.
• The externally lighted wind cone can provide a minimum
illumination of 2 foot candles on the upper surface of the
fully extended windsock. The externally lighted 8- and 12foot wind cones use two LED optical assemblies.
• The L-807 SWC is a non-frangible designed wind cone
available in two lighted styles, internal or external, and in
two sizes, eight- or twelve-foot wind socks
• The SWCS installs in minutes with no trenching, cabling,
or external power, and can be relocated just as quickly.
• L-807 12-foot pole is available with either a center hinge
or bottom hinge. Center hinge allows easier pole lowering.
Bottom hinge includes a swing-out support leg that allows
the mast to be lowered to a convenient servicing height for
light source replacement.
• Sealed bearings allow precision vaning for true wind direction in all types of weather and wind conditions
• Bearing covers are provided for additional bearing protection against dirt and moisture
• The nylon fabric sock is treated for water repellency and
resistance to rot and mildew
• The standard color is orange and the colorfastness exceeds Method 5671 of Federal Standard 191. Other colors
such as alternate orange/white banded are available as a
special order.
• Battery daily depth of discharge is sized for a minimum of
5 years of service.
• Unprecedented reliability: microprocessor Energy Management System (EMS) monitors and adapts the brightness to
environmental conditions for consistent operation and long
life under the toughest conditions.
• The minimum autonomy or operational period without
charging is 7 days.
S - 16
• Green solution: a clean, renewable and reliable energy
source with the lightest environmental footprint.
3029 Rev. E
Manual No. 96A0425
Externally Lit LED
Wind Cone
Internally Lit 12-Foot
LED Wind Cone
Operating Conditions
Temperature: -40 ºF to +131 ºF (-40 °C to +55 ºC)
Humidity: 0 to 100%
Wind: Withstands wind velocities up to 300 mph (480 kph)
Benefits
• Easy Installation: no specialized work crews required;
limited air traffic disruption and functions immediately upon
installation
• Compact, self-contained design; easy deployment and
relocation
• Significant cost savings: no fuel or electrical bills
• Reduced maintenance cycles: no scheduled maintenance
for up to five years
Wireless Hand-Held Controller
Equipment Data (Continued)
SEPS can be controlled using the
Wireless Hand-Held Controller in
a similar manner to ADB’s wireless
solar lights.
Mounting
ADB frangible couplings and floor flange
mounts
Wind loading
300 mph min. installed at 55° tilt
Tilt
15°, 35°, 55°
One or more wireless solar lights
can be remotely operated from
the ground or air with a hand-held
wireless controller using a secure
radio transceiver with antenna and
keypad.
Diagnostics
On-board feedback indicators for:
Battery Status, System Status, Battery
Reverse Polarity, and Solar Panel
Reverse Polarity
Certifications
RoHS, WEEE, CE, FCC
The hand-held remote control option allows the user to temporarily override the intensity set in the autonomous modes.
In temporary mode, 10%, 30% and 100% intensities can be
selected for a 15-minute Time-Out or a Maximum Time-Out.
The 15-minute Time-Out option is for only momentary
intensity brightness operations of the SWCS for airports that
actively manage their airfields. After 15 minutes, the SWCS
will be return to the autonomous configuration.
Battery
Power
12 VDC 105 A-hr at C/100 discharge rate
Type
Replaceable and recyclable, absorbent
glass mat (AGM) SLA. Standard with one
battery.
Lifetime
4,000 cycles to 20% depth of discharge
at +68 °F
Charger
Temperature-compensated, maximum
power point tracking (TC-MPPT)
Features
• Water-resistant keypad and LED indicators
• Utilizes a secure wireless RF signal
Power
18 – 38 VDC from 0.3 – 1.4 A and
5 – 100 % duty cycle, constant current
Automatic Light
Control (ALC)
ALC dynamically reduces brightness in
response to unusually low amounts of
sunlight to ensure continued autonomous
operation.
Control,
Autonomous
Mode
Dusk-to-dawn, steady on
Load Cabling
22 ft (6.7 m) cable can exit onto the
surface or down into a ground pot
• Control range of up to 2.5 miles
• Meets MIL-SPEC-810E environmental requirements
PV Panel
• 24-hour operation on a single charge
Power
• Rechargeable lithium-ion battery (included); recharges via
an AC/DC wall plug (included)
Type
High Efficiency Monocrystalline, IEC 61215
Lifetime
10 years at 90% output
• Compatible with stand-alone aviation band VHF receiver
• Comes complete in a custom Pelican™ case
Equipment Data
17 VDC, 95 W
Wireless
Range
2.5 miles minimum with 1W wireless
hand-held controller
Frequency
900 MHz ISM Band (902 – 928 MHz),
FHSS
Solar Engine Power Supply (SEPS)
Installed weight
132 lb (59.8 kg)
Encryption
256-bit AES
Shipping weight
Box 1 (SEPS) - 76 lb (34.4 kg)
Box 2 (battery) - 68 lb (30.8 kg)
Installed
dimensions*
29.9 H x 42.9 W x 17.4 D in
(75.9 H x 108.9 W x 44.1 D cm)
* with wireless antenna at 55° tilt
Control,
On-demand
Mode
- Seamless integration with existing ADB
wireless solar products.
- Up to 8 independent groups.
- Flash Mode, Emergency Mode,
Autonomous Mode
- On-demand Temporary Mode (High,
Medium, and Low)
- Configuration Mode, ARCAL
Shipping dimensions
Box 1 (SEPS)
Box 2 (battery)
25.5 H x 46.9 W x 14.0 D in
(64.7 H x 119.1 W x 35.56 D cm)
8.3 H x 13.1 W x 7.4 D in
(21 H x 33.2 W x 18.8 D cm)
Temperature
Operating:
Storage:
-22 °F to +122 °F (-30 °C to +50 °C)
-40 °F to +176 °F (-40 °C to +80 °C)
Chassis
Weather and corrosion-resistant
construction of stainless steel and powder
coated aluminum
Solar LED Lighting
LED Driver
The Maximum Time-Out option is for airports that require “the
most intensity for as long as possible.” The SEPS software
prevents the battery from being ON indefinitely at the chosen
intensity, thereby preventing battery full discharge. To determine the maximum activation time for each selected intensity
and region, see Table 1.
Solar Panel Orientation
Full solar exposure is critical to the performance of the
SWCS. Ensure that the SEPS installation location has yearround, unrestricted sun exposure throughout the day. The
bottom edge of the solar panels should be installed at a minimum height to clear growing vegetation and snow at the site.
Note: Shading even a small portion of the solar panel will
significantly reduce the output of the SWCS.
3029 Rev. E
Manual No. 96A0425
S - 17
Table 1: Maximum Activation Time for Selected Intensity and Region
Solar LED Lighting
SWC
Region
On-Demand Activation Time
per Day, 100% Intensity
(meets FAA photometrics)
On-Demand Activation Time
per Day, 30% Intensity
On-Demand Activation Time
per Day, 10% Intensity
8ft WC
Internally
Lit, 1 LED
Module
1
2
3
4
5
6 hrs
8 hrs
8 hrs
10 hrs
12 hrs
20 hrs
24 hrs
24 hrs
24 hrs
24 hrs
24 hrs
24 hrs
24 hrs
24 hrs
24 hrs
12ft WC
Internally
Lit, 3 LED
Modules
1
2
3
4
5
1 hrs
2 hrs
2 hrs
2 hrs
3 hrs
5 hrs
6 hrs
7 hrs
8 hrs
9 hrs
12 hrs
12 hrs
12 hrs
12 hrs
12 hrs
WC
Externally
Lit, 2 LED
Modules
1
2
3
4
5
3 hrs
4 hrs
4 hrs
5 hrs
6 hrs
10 hrs
12 hrs
15 hrs
17 hrs
19 hrs
24 hrs
24 hrs
24 hrs
24 hrs
24 hrs
Table 2:
Autonomous Settings by Solar Region
SWC
Region
Autonomous Dusk-to-Dawn,
% Intensity
Internally Lit,
1 LED Module
1
2
3
4
5
38%
50%
62%
86%
100%
Internally Lit,
3 LED Modules
1
2
3
4
5
10%
13%
16%
22%
27%
1
2
3
4
5
19%
25%
31%
43%
53%
Externally Lit,
2 LED Modules
Solar Region Map
Note: See Solar Map (Fig. 2) to select your region.
Dimensions
Fig. 2. See catalog sheet 3036 in the Solar Product
Center on our website for additional solar region maps
in full color. If solar region is unclear, please contact the
ADB Sales Department.
Fig. 1. SEPS Dimensions
S - 18
3029 Rev. E
Manual No. 96A0425
L-806 and L-807 SWC Internally and Externally Lighted Assemblies
Height 1
Height 1
Overall
Height
Overall
Height
Height 2
Height 2
Dimensions - Externally Lighted
Wind Cone
Type
Overall
Height
Height 1
Height 2
Wind Cone
Type
Overall
Height
Height 1
Height 2
L-806 LED
Internal
116.3 in
(295.4 cm)
44.3 in
(112.5 cm)
72 in
(182.9 cm)
L-806 LED
External
119.6 in
(303.8 cm)
47.6 in
(120.9 cm)
72 in
(182.9 cm)
L-807 LED
8 ft Internal
233.9 in
(622.8 cm)
41.9 in
(135.1 cm)
192 in
(487.7 cm)
L-807
8 ft External
237.2 in
(622.8 cm)
45.2 in
(28.5 cm)
192 in
(60.7 cm)
L-807 LED
12 ft Internal
252.1 in
(669.0 cm)
60.1 in
(181.4 cm)
192 in
(487.7 cm)
L-807
12 ft External
263 in
(679.5 cm)
71 in
(61.2 cm)
192 in
(127 cm)
Height 1
Height 1
Height 1
Height 1
Overall
Height
Overall
Height
Height 2
Height 2
Overall
Height
Height 2
Solar LED Lighting
Dimensions - Internally Lighted
Overall
Height
Height 2
3029 Rev. E
Manual No. 96A0425
S - 19
LED Internally Lighted Wind Cone Assembly
Solar LED Lighting
8-foot internally lit wind cone has
one LED assembly
LED Externally Lighted
Wind Cone Assembly
12-foot internally lit wind cone has
three LED assemblies
8- and 12-foot externally lit wind
cones have two LED assemblies
Center-hinged Pole
Packaging
Description Quantity
Per Box
Dimensions
(H x W x D)
Weight
8-ft. Wind
Cone
Lighted
16.6 x 10 x 10 in
502.9 x 25.4 x 25.4 cm
20 x 20 x 15 in
50.8 x 50.8 x 38.1 cm
150 lb
68 kg
47 lb
21.3 kg
16.6 x 10 x 10 in
502.9 x 25.4 x 25.4 cm
20 x 20 x 15 in
50.8 x 50.8 x 38.1 cm
135 lb
61.2 kg
42 lb
19.1 kg
16.6 x 10 x 10 in
502.9 x 25.4 x 25.4 cm
45 x 42 x 6 in
114.3 x 106.7 x 15.2 cm
20 x 20 x 15 in
50.8 x 50.8 x 38.1 cm
150 lb
68 kg
47 lb
21.3 kg
45 lb
20.4 kg
16.6 x 10 x 10 in
502.9 x 25.4 x 25.4 cm
45 x 42 x 6 in
114.3 x 106.7 x 15.2 cm
20 x 20 x 15 in
50.8 x 50.8 x 38.1 cm
135 lb
61.2 kg
42 lb
19.1kg
45 lb
20.4 kg
8-ft. Wind
Cone
Unlighted
Operation
The operation of the wind cone is entirely dependent on the
direction and relative velocity of the surface wind. Movement of
the wind through the open throat of the cage and into the sock
causes the tail to inflate. The tail of the inflated sock indicates
true wind direction for velocities as low as three knots through
a 360° circle about the vertical shaft.
Spare Components (LED)
Description
Part No.
Windsock 8ft
Windsock 12ft
LED Module
77C0061-1
77C0062-1
44A6786
12-ft. Wind
Cone
Lighted
1 Pole
1 Basket
1 Pole
1 Basket
1 Pole
1 Basket
Hardware
12-ft. Wind
Cone
Unlighted
1 Pole
1 Basket
Hardware
FAA Wind Cone Classifications
Installation
Size 1:
8 foot
The SWC should be installed according to FAA AC 150/534030.
Size 2:
12 foot
Style I-A:
Externally Lighted
Style I-B:
Internally Lighted
The Solar Engine Power Supply (SEPS) has to be installed
on a level concrete pad within 20 feet of the SWC. For below
ground wiring, L-867B base cans need to be installed under
each SEPS.
For a temporary application, the wiring between the SEPS
and the SWC can be above ground. Both the SWC and
SEPS contain side conduits for cabling access.
S - 20
3029 Rev. E
Manual No. 96A0425
SEPS Ordering Code1
SEPS-2XXXX-XX11
L-806 SWC Ordering Code1
WC806-1XXX
Size
1 = 8-foot cage
Type
1 = L-806 SWC, 8 foot
2 = L-807 SWC, 8 foot
3 = L-807 SWC, 12-foot
Style
9 = Internally lit LED solar2
A = Externally lit LED solar
Lighting
1 = Internal
2 = External
Obstruction Light
0 = No obstruction light
A = Obstruction light, red SATO4
Obstruction Light
1 = No obstruction light
Special Applications
0 = No components removed (standard)
1 = No wind sock3
2
Autonomous Setting
1 = Dusk to Dawn
Notes
1
L-806 SWC should only be powered with a SEPS
2
Internally lighted 8-foot L-806 is a non-FAA configuration.
3
For applications where wind socks other than orange are
used. Special wind sock colors supplied separately.
4
See ADB catalog sheet 3014 for more details.
Remote Control
1 = Non-Wireless
2 = Wireless – max. time-out4
3 = Wireless – 15 min. time-out4
L-807 SWC Ordering Code1
Note
1
The SEPS carries the CE mark. The SWC does not require a CE mark as it does not contain any active components.
2
The SEPS is factory configured to work autonomously for
dusk-to-dawn operation. On autonomous mode the product turns on at the intensity that is sustainable in that solar
region. See Table 2.
3
Refer to solar map to determine solar region.
4
See the Wireless Hand-Held Controller section for details on
Maximum Time-Out and 15-minute Time Out options.
Wireless Hand-Held Controller
Ordering Code
Part # SAWL-HC
Battery Replacement Kit for
Wireless Hand-held Controller
WC807-XXXXX
Size
1 = 8-foot cage1
2 = 12-foot cage
Part # 48247
Hinge
1 = Bottom-hinged pole
2 = Center-hinged pole
Style
9 = Internally lit LED solar2
A = Externally lit LED solar
Obstruction Light
0 = No obstruction light
A = Obstruction light, red SATO4
Special Applications
0 = No components removed (standard)
1 = No wind sock3
Notes
1
L-807 SWC should only be powered with a SEPS
2
Internally lighted 8-foot L-806 is a non-FAA configuration.
3
For applications where wind socks other than orange are
used. Special wind sock colors supplied separately.
4
See ADB catalog sheet 3014 for more details.
ADB Airfield Solutions
Leuvensesteenweg 585
B-1930 Zaventem
Belgium
Telephone:
+32 (2) 722.17.11
Fax:
+32 (2) 722.17.64
www.adb-airfieldsolutions.com
Canada
canada@adb-air.com
+1.905.331.6887
ADB Airfield Solutions, LLC
977 Gahanna Parkway
Columbus, OH 43230
USA
Telephone:
Product specifications may be subject to change, and
specifications listed here are not binding. Confirm current
specifications at time of order.
+1 614.861.1304
+1 800.545.4157
Fax:
+1 614.864.2069
www.adb-airfield.com
Solar LED Lighting
Solar Region3
1 = Region 1 (blue)
2 = Region 2 (green)
3 = Region 3 (white)
4 = Region 4 (yellow)
5 = Region 5 (red)
Brasil
brasil@adb-air.com
+55 (11) 6615.7209
3029 Rev. E
Manual No. 96A0425
S - 21
SSS
LED Solar Sign System
Compliance with Standards
Features (Continued)
FAA:
• Protect personnel and assets: Optional hand-held wireless
control allows for remote operation of a solar sign including mode changes for enhanced visibility in poor weather
conditions
CE:
Designed to meet L-858Y, L-858R L-858L and
L-858B AC 150/5345-44 (Current Edition) and
the FAA Engineering Brief No. 67 “Light Sources
other than Incandescent and Xenon for Airport
Lighting and Obstruction Lighting Fixtures.”
Complies with the requirements of the EMC
Directive 2004/108/EC
Benefits
Solar LED Lighting
Uses
ADB’s LED Solar Sign System (SSS) is an ideal choice for
an airfield that requires improved safety measures, but experiences difficulties with grid access. ADB’s SSS consists of
an L-858Y, L-858R, L-858L, L-858B solar-powered sign (SS)
and a Solar Engine Power Supply (SEPS). The SEPS incorporates the latest technology in solar technology, hardware
and software to provide power and control to the SS.
• L-858Y SS: Direction, Destination, and Boundary
(Informational Sign)
• L-858R SS:
Mandatory Sign
• L-858L SS: Runway/Taxiway Location Sign
These signs are designed to guide pilots to a particular
point on the field, identify holding positions, identify taxiway and runway intersections, and prohibit aircraft entry
into designated areas.
• L-858B SS: Runway Distance Remaining Sign
The L-858B SS is used at 1,000-foot intervals adjacent
to the runway edge in order to provide runway distance
remaining information to pilots during takeoff and landing
operations.
Features
• Virtually eliminates runway shutdowns due to LED light
source
• Easy Installation: no specialized work crews required;
limited air traffic disruption and functions immediately upon
installation
• Compact, self-contained design; easy deployment and
relocation
• Significant cost savings: no fuel or electrical bills
• Reduced maintenance cycles: no scheduled maintenance
for up to five years
Sign Legends
Legend
Color
Background
Color
Type
Purpose
L-858Y
Direction, Destination Black
& Boundary
L-858R
Mandatory Sign
White with
Red
Black Outline
L-858L
Runway/Taxiway
Location
Yellow
Black
L-858B
Runway Distance
Remaining
White
Black
Yellow
Operating Conditions
Temperature: -40 °F to +131 °F (-40 °C to +55 °C)
• Direct replacement for existing sign
Humidity: 0 to 100%
• Creates a highly uniform distribution of light, eliminating
hot spots and shadows
Wind: Mode 2 signs withstand wind velocities up to 225 mph
• Operates on solar energy
Construction
• Eliminates re-lamping expenses and reduces on-going
maintenance costs
Corrosion-resistant sign construction requires minimal
maintenance.
• Aluminum housing
• The SSS installs in minutes with no trenching, cabling, or
external power, and can be relocated just as quickly.
• Battery daily depth of discharge is sized for a minimum of
5 years of service.
• Unprecedented reliability: microprocessor Energy Management System (EMS) monitors and adapts the brightness to
environmental conditions for consistent operation and long
life under the toughest conditions.
• The minimum autonomy or operational period without
charging is 7 days.
S - 22
• Green solution: a clean, renewable and reliable energy
source with the lightest environmental footprint.
3030 Rev. C
Manual No. 96A0431
• Acrylic sign legend panels
• Stainless steel hardware
• Retroreflective sheeting
Installation
Solar Panel Orientation
Each sign is furnished complete with mounting flanges for
installation on a concrete pad, which is the recommended
method of installation. Refer to ADB sign manual for typical
sign installations. Contact ADB Sales Department for more
information on sign installation hardware.
1. Floor Flange
Full solar exposure is critical to the performance of the SSS.
Ensure that the SEPS installation location has year-round,
unrestricted sun exposure throughout the day. The bottom
edge of the solar panels should be installed at a minimum
height to clear growing vegetation and snow at the site.
2. 2-inch Conduit Elbow (contractor supplied)
3. L-867 Blank Cover Plate with Gasket
Note: Shading even a small portion of the solar panel will
significantly reduce the output of the SSS.
Spare Components
5. L-867 Base (purchased separately)
Description
Part No.
6. L-867 Base Plate (special - purchased separately)
Floor flange (2-bolt)
Frangible coupling, size 1
Frangible coupling, size 2
Frangible coupling, size 3 or 5
Frangible coupling, size 4
Tether
LED light engine, Size 2, 3, and 5
LED light engine, Size 1 and 4
LED (tube) sign power supply lead assy
LED (tube) sign lead terminator assy
LED (tube) sign lead jumper assy 18”
62A2142
60A2678-10
60A2678-20
60A2678-30
60A2678-40
94A0054
94A0537-20
94A0537-10
44A6920
44A6921
44A6922-18
Legend Panel Replacement
Ordering Code
44A6084-XXXX
Size
1 = Size 1
2 = Size 2
3 = Size 3 and 5
4 = Size 4
Number of Modules
1 = 1 module
2 = 2 modules
Panel Type
1 = With legend (retroreflective)
2 = Blank
Sign Type
0 = Standard
1 = Hi-Wind
Equipment Data
Solar LED Lighting
4. Cable from SEPS
Solar Engine Power Supply (SEPS)
Installation (Continued)
The Solar Engine Power Supply (SEPS) has to be installed
on a level concrete pad within 20 feet of the solar sign. For
below ground wiring, L-867B base cans need to be installed
under each SS and SEPS.
Installed weight
132 lb (59.8 kg)
Shipping weight
Box 1 (SEPS) - 76 lb (34.4 kg)
Box 2 (battery) - 68 lb (30.8 kg)
Installed
dimensions*
29.9 H x 42.9 W x 17.4 D in
(75.9 H x 108.9 W x 44.1 D cm)
* with wireless antenna at 55° tilt
Shipping dimensions
Box 1 (SEPS)
Box 2 (battery)
For a temporary application, the wiring between the SEPS
and the SS can be above ground. Both the SS and SEPS
contain side conduits for cabling access.
25.5 H x 46.9 W x 14.0 D in
(64.7 H x 119.1 W x 35.56 D cm)
8.3 H x 13.1 W x 7.4 D in
(21 H x 33.2 W x 18.8 D cm)
Temperature
Operating:
Storage:
-22 °F to +122 °F (-30 °C to +50 °C)
-40 °F to +176 °F (-40 °C to +80 °C)
3030 Rev. C
Manual No. 96A0431
S - 23
Equipment Data (Continued)
Chassis
Weather and corrosion-resistant
construction of stainless steel and powder
coated aluminum
Mounting
ADB frangible couplings and floor flange
mounts
Wind loading
300 mph min. installed at 55° tilt
Tilt
15°, 35°, 55°
Diagnostics
On-board feedback indicators for:
Battery Status, System Status, Battery
Reverse Polarity, and Solar Panel
Reverse Polarity
Certifications
RoHS, WEEE, CE, FCC
Solar LED Lighting
Battery
Power
12 VDC 105 A-hr at C/100 discharge rate
Type
Replaceable and recyclable, absorbent
glass mat (AGM) SLA. Standard with one
battery.
Lifetime
4,000 cycles to 20% depth of discharge
at +68 °F
Charger
Temperature-compensated, maximum
power point tracking (TC-MPPT)
LED Driver
Power
Wireless Hand-Held Controller
SEPS can be controlled using the
Wireless Hand-Held Controller in
a similar manner to ADB’s wireless
solar lights.
One or more wireless solar lights can
be remotely operated from the
ground or air with a hand-held wireless controller using a secure radio
transceiver with antenna and keypad.
The hand-held remote control option
allows the user to temporarily override the intensity set in the
autonomous modes. In temporary mode, 10%, 30% and 100%
intensities can be selected for a 15-minute Time-Out or a
Maximum Time-Out.
The 15-minute Time-Out option is for only momentary intensity brightness operations of the SSS for airports that actively
manage their airfields. After 15 minutes, the SSS will be
return to the autonomous configuration.
The Maximum Time-Out option is for airports that require “the
most intensity for as long as possible.” The SEPS software
prevents the battery from being ON indefinitely at the chosen
intensity, thereby preventing battery full discharge. To determine the maximum activation time for each selected intensity
and region, see Table 1.
Channel A:
18 – 38 VDC from 0.3 – 1.4 A and
5 – 100% duty cycle, constant current
Channel B:
18 – 38 VDC from 0.3 – 1.4 A and
5 – 100% duty cycle, constant current
Features
Automatic Light
Control (ALC)
ALC dynamically reduces brightness in
response to unusually low amounts of
sunlight to ensure continued autonomous
operation. Available on Channels A and B.
• Utilizes a secure wireless RF signal
Control,
Autonomous
Mode
Dusk-to-dawn, steady on
• 24-hour operation on a single charge
Load Cabling
22 ft. (6.7 m) cable can exit onto the
surface or down into a ground pot
• Compatible with stand-alone aviation band VHF receiver
Power
17 VDC, 95 W
SEPS Dimensions
Type
High Efficiency Monocrystalline, IEC 61215
Lifetime
10 years at 90% output
• Water-resistant keypad and LED indicators
• Control range of up to 2.5 miles
• Meets MIL-SPEC-810E environmental requirements
• Rechargeable lithium-ion battery (included); recharges via
an AC/DC wall plug (included)
• Comes complete in a custom Pelican™ case
PV Panel
Wireless
Range
2.5 miles minimum with 1 W wireless
hand-held controller
Frequency
900 MHz ISM Band (902 – 928 MHz),
FHSS
Encryption
256-bit AES
Control,
On-demand
Mode
- Seamless integration with existing ADB
wireless solar products.
- Up to 8 independent groups.
- Flash Mode, Emergency Mode,
Autonomous Mode
- On-demand Temporary Mode (High,
Medium, and Low)
- Configuration Mode, ARCAL
Fig. 1. SEPS Dimensions
S - 24
3030 Rev. C
Manual No. 96A0431
Table 1: Maximum Activation Time for Selected Intensity and Region
SSS
Region
On-Demand Activation Time
per Day, 100% Intensity
(meets FAA photometrics)
On-Demand Activation Time
per Day, 30% Intensity
On-Demand Activation Time
per Day, 10% Intensity
Size 1,2,3,5
1 Module
1
2
3
4
5
4 hrs
4 hrs
6 hrs
6 hrs
6 hrs
12 hrs
14 hrs
18 hrs
20 hrs
22 hrs
24 hrs
24 hrs
24 hrs
24 hrs
24 hrs
Size 4
1 Module
Size 1,2,3
2 Modules
1
2
3
4
5
2 hrs
2 hrs
3 hrs
3 hrs
3 hrs
6 hrs
7 hrs
9 hrs
10 hrs
11 hrs
18 hrs
22 hrs
24 hrs
24 hrs
24 hrs
Table 2:
Autonomous Settings by Solar Region
SSS
Region
Solar Region Map
Autonomous
Dusk-to-Dawn,
% Intensity
1
2
3
4
5
22%
30%
36%
50%
64%
Size 4
1 Module
Size 1,2,3
2 Modules
1
2
3
4
5
11%
15%
18%
25%
32%
Note: See Solar Map (Fig. 2) to select your region.
Sign Dimensions
Sign Heights
Type
Sign
Size
No.
Sign
Face
Height
Legend
Height
Overall
Mounting
Height
L-858Y/R/L
1
1
18”
(45.7 cm)
12”
(30.5 cm)
29.7”
(75.5 cm)
L-858Y/R/L
2
2
24”
(61 cm)
15”
(38.1)
35.7”
(90.8 cm)
L-858Y/R/L
3
3
30”
(76.2 cm)
18”
(45.7 cm)
41.7”
(106 cm)
L-858B
4
4
48”
(122 cm)
40”
(101.6 cm)
58.2”
(147.8 cm)
L-858B
5
5
30”
(76.2 cm)
25”
(63.5 cm)
41.7”
(106 cm)
Packaging Data
Sign Lengths
Size No.
Fig. 2. See catalog sheet 3036 in the Solar Product
Center on our website for additional solar region maps
in full color. If solar region is unclear, please contact the
ADB Sales Department.
Solar LED Lighting
Size 1,2,3,5
1 Module
Signs are shipped with L-823 cord set(s), frangible couplings,
and floor flanges–ready for installation.
1 Module
2 Module
1
29.4” (75 cm)
58.6” (149 cm)
2
35.9” (91 cm)
71.6” (182 cm)
Description
3
42.4” (108 cm)
84.6” (215 cm)
4
47.9” (122 cm)
N/A
Size 1, Module 1 46
Size 1, Module 2 78
21
35
34 x 34 x 13
34 x 63 x 13
87 x 86.4 x 33
87 x 160 x 33
5
42.4” (108 cm)
N/A
Size 2, Module 1 71
Size 2, Module 2 104
32
47
40 x 40 x 13
40 x 76 x 13
102 x 102 x 33
102 x 193 x 33
Size 3, Module 1 81
Size 3, Module 2 131
37
60
46 x 46 x 13
46 x 89 x 13
117 x 117 x 33
117 x 226 x 33
Size 4, Module 1 120
561
62 x 52 x 13
158 x 132 x 33
Size 5, Module 1 85
39
46 x 46 x 13
117 x 117 x 33
Note: Sign depth is 9.39 in (23.85 cm).
1
Gross Weight1
(lb)
(kg)
Carton Dimensions
(in)
(cm)
Estimated weight
3030 Rev. C
Manual No. 96A0431
S - 25
SEPS Ordering Code1
SEPS-1XXXX-XX11
Type
1 = FAA L-858 sign
Size
Sign Size
1 = Size 1
2 = Size 2
3 = Size 3
4 = Size 4
5 = Size 5
Modules
1 = 1 module
2 = 2 modules
Module
1 = 1 Module
2 = 2 Modules
Solar LED Lighting
Autonomous Setting2
1 = Dusk to Dawn
Style
S = Solar
Solar Region3
1 = Region 1 (blue)
2 = Region 2 (green)
3 = Region 3 (white)
4 = Region 4 (yellow)
5 = Region 5 (red)
Face
1 = Single
2 = Double
Total Number of Panels
2 = 2 panel sign
3 = 3 panel sign
4 = 4 panel sign
Remote Control
1 = Non-Wireless
2 = Wireless – max. time-out4
3 = Wireless – 15 min. time-out4
3
Note
1
The SEPS carries the CE mark. The solar sign does not
require a CE mark as it does not contain any active components.
2
The SEPS is factory configured to work autonomously for
dusk-to-dawn operation. On autonomous mode the product turns on at the intensity that is sustainable in that solar
region. See Table 2.
3
Refer to solar map to determine solar region.
4
See the Wireless Hand-Held Controller section for details on
Maximum Time-Out and 15-minute Time Out options.
Wireless Hand-Held Controller
Ordering Code
Part # SAWL-HC
Battery Replacement Kit for
Wireless Hand-held Controller
Canada
canada@adb-air.com
+1.905.331.6887
S - 26
SXXX-SXX3XX0
Type
R = LED
S = LED High Wind1
1 = Size 1
2 = Size 2
3 = Size 3
4 = Size 4
5 = Size 5
3030 Rev. C
Manual No. 96A0431
Solar Sign Ordering Code
Power
8 = Solar - power through leg/power through side
with ON/OFF switch2
Tether
0 = No tether
1 = One tether on one end of sign
Notes
1
2
Part # 48247
Brasil
brasil@adb-air.com
+55 (11) 6615.7209
Product specifications may be subject to change, and
specifications listed here are not binding. Confirm current
specifications at time of order.
Use high wind signs in locations where actual wind speed
exceeds FAA specifications (Mode 3). High wind signs are
tested to a minimum wind load of 327 mph as recommended by FAA technical paper DOT/FAA/AR-TN00/32:
Evaluation of Wind-Loading on Airport Signs. High wind
signs require four anchor bolts per floor flange except Size
1, which uses the standard 2-bolt foot.
Customer to provide legend information and power connection location. It is important to match power cord exit
location with legend side.
ADB Airfield Solutions
Leuvensesteenweg 585
B-1930 Zaventem
Belgium
Telephone:
+32 (2) 722.17.11
Fax:
+32 (2) 722.17.64
www.adb-airfieldsolutions.com
ADB Airfield Solutions, LLC
977 Gahanna Parkway
Columbus, OH 43230
USA
Telephone:
+1 614.861.1304
+1 800.545.4157
Fax:
+1 614.864.2069
www.adb-airfield.com