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Eco-Pole®
60 WATT LED STREET LIGHT
120 WATT SOLAR PANEL
300 WATT WIND TURBINE
SavWatt USA, Inc.
6801 Eastern Avenue, Suite 207
Baltimore, MD 21334
Tel: (866) 641-3507
Fax: (206) 984-3470
www.savwatt.com
*Patent Pending
Page 2 of 18
LED Street Light
LED Street Light Specifications
Item Specification
Lamp Power 60 watts
LED Luminous Efficacy ≥100 Lm/W
Total Luminous Flux ≥2200Lm(Tj=25℃)
Lumen maintenance (After
5,000 hours) ≥2150 Lm(Tj=70℃,Ta=25℃)
Lamp Efficiency ≥85%
Beam angle 140º
Color Rendering Index ≥75
Color Temperature Cool White:4000-6500K Warm White:2700-4000K
Working Environmental
Temperature ‐30℃—45℃
Storage Temperature ‐50℃—85℃
RH ≤90%
Average Burning Time 50000 hrs
Protection Rating IP65
Size 250×300×97mm
Mounting Hole Dimension Φ60mm
Weight 4.3Kg
Page 3 of 18
Lumen Maintenance Curve
Measurement data maybe variant in different weather condition。
Light Distribution Curve/Light Pattern
Page 4 of 18
Outline Drawing
LED 电源
LED Driver
Page 5 of 18
Solar Panel
Solar Panel Specifications
Item Specification
Maximum Power (W) 120
Cell Efficiency (%) 16.33%
Module Efficiency (%) 13.57%
Optimum Power Voltage (Vmp) 25.15
Optimum Operating Current (Imp) 4.78
Open Circuit (Voc) 39.80
Short Circuit Current (Isc) 5.11
Solar Cell 125*125 Mono
Number of Cell 6*8
Size of Module(mm) 1065*808*35
Front Glass Thickness(mm) 3.2
Temperature Coefficients of Isc (%) ℃ +0.04
Temperature Coefficients of Voc (%) ℃ -0.38
Temperature Coefficients of Pm (%) ℃ -0.47
Temperature Coefficients of Im (%) ℃ +0.04
Temperature Coefficients of Vm (%)℃ -0.38
Tolerance Wattage +/- 5%
Surface Maximum Load Capacity 2400Pa
Allowable Hail Load 23m/s, 7.53g
Weight Per Piece (KG) 13
FF (%) 70-76%
Standard Test Conditions AM1.5 1000W/㎡ 25+/-2℃
Warranty 90% of 10 years, 80% of 25 years
Page 6 of 18
Solar Panel Outline Drawing
1065
1065
Page 7 of 18
Battery
Deep cycling lead-acid battery, with up to 2000-4000 charge/discharge cycle.
Nominal Voltage 12V
Rated Capacity (10 hour rate) 100 AH
Capacity
25 oC
10 hour rate (10.0A)
5 hour rate (16.0A)
1 hour rate (55.0A)
100 AH
80 AH
55 AH
1.5 hour discharge to 10.50V 40 A
Internal Resistance full charged battery at 25 oC 5.5 m
Capacity affected
by Temperature
(10 hour rate)
40 oC
25 oC
0 oC
-15 oC
102%
100%
85%
65%
Self-discharge at
25 oC
Capacity after 3 month
storage
Capacity after 6 month
storage
Capacity after 12 month
storage
91%
82%
64%
Charge
(constant
voltage)
Cycle Initial Charging Current less than 25A
Voltage 14.10-14.40
Float Voltage 13.5-13.80
Dimension
Total Height 237 mm
Height 214 mm
Length 330 mm
Width 172 mm
Weight Approx 31 Kg
Page 8 of 18
Pole
Pole Specifications
1 Construction material Q235 steel
2 Total height 6 meter
3 Wall thickness in mm 4.00 mm
4 Coating method Plastic spraying
5 LED mounting height 4 meter
6 Bottom OD 170 mm
7 Top OD 90 mm
8 Light fixture arm 1.5 meter
Page 9 of 18
Wind Turbine
Product Introduction
◆ High energy conversion rate
◆ low start-up wind Speed and started by all wind direction
◆ Long service life, maintenance-free
◆ Anti-wind, low noice
◆ Rust prevension, anti-corrosion
◆ Dampproof, waterprrof, and anti-windstorm
Vertical-axis Wind Generator
Vertical-axis vs. Horizonal-axis Wind Generator
Item Horizontal-anix Vertical-axis
Start-up Wind Speed Beaufort scale 3 Beaufort scale 1
(0.5M/S natural wind)
Usable Wind Speed Beaufort scale 4 Beaufort scale 2
(2.5M/S natural wind)
◆ Low start-up wind speed(0.5M/S),non-directional wind( started by all
wind direction), low noice, high energy conversion rate, intelligent
electronic wind power adjustment and protection
◆ Wide working territorial (island, coastland,inland),It can be installed at
buildings and ground. It can also worked as power supply of street
lamp(together with solar energy and battery), off-grid or combined to
the grid are optional.
Page 10 of 18
Rated Wind Speed Beaufort scale 5 Beaufort scale 4
(7M/S natural wind)
Tubulence Resistance Low High
Weather Side
Tangential wind
90°vertically
(Air Blower and Wind)
All the direction
Requirment of Installation
Level High Low
Defect Rate High Low
Technology Tranditional and public Self-owned patent,
leading technoloty
Energy Conversion Rate Low High
Noise 70DB 〈30DB
Anix Direction Horizontal Vertical
Windage Yaw
Equipment(rudder) Need Need not
Blade Material Hard materail High tenacity,soft material
Feeder Equipment Need Need not
Safety Air blower adopts hard
material(low)
Air blower adopts soft
material(high)
Solar Panel
Account for high proportion
of power, high power
requirement
Account for low proportion
of power, low power
requirement
Wind Power Adjustment and
Protection Mode
Single
(mechanical)
Comprehensive
(intelligent electornic)
Page 11 of 18
Technical Parameters
Item LK-300W
Start-up Wind Speed(M/S) 0.5
Cut-in Wind Speed(M/S) 2.5
Rated Wind Speed(M/S) 5.0 7.1 10.5
Rated Power(W) 40 100 300
Rated Voltage(DCV) 12
Rotor Diameter(M) 0.75
Appearance Tranditional fan Spiral
Air Blower
Fixed weather side, high
start-up wind, low energy
conversion rate
Unfixed weather side, low
start-up wind, high energy
conversion rate
Electric Generator
With electricbrush and iron
core, high temperature-rising,
axial magnetic field inner
rotor motors
Without electricbrush and
iron core, low
temperature-rising, complete
permanent magnetism , radial
magnetic field inner rotor
motors
Page 12 of 18
Rotor Height(M) 1.5
Air Blower Shape S-form spiral
Weather Side Omni-direction
Weight(KG) 30
Safety Wind Speed(M/S) 40
High Wind Protection Intelligent electronic
Working Temperature(℃) -20℃-+40℃
Power Diagram of Vertical-axis Wind Generator
Use Radio of Vertical-axis Wind Energy
(Hundreds watt series) Vertical-axis Wind Generator Power
0 30 60 90 120 150 180 210 240 270 300 330
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
Wind Speed(M/S)
Generator Power
(Hundreds watt series) Use Radio of Vertical-axis Wind Energy
0%
5%
10% 15%
20%
25%
30%
35% 40%
45%
50%
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Wind Speed(M/S)
Blade Diameter:0.75M Blade Height:1.50M
Use Radio(%)
A Blade
B Blade
Page 13 of 18
Product Features
◆ Generator
◆ Blade
a. Steel generator body, disk-type and ironless outer rotor, which
prevent corrosive gas from intruding into the innor of generator. Not
easy to deform and magnet steel will not drop off.
b. Light in weight, low temperature-rising, low starting torque, low
start-up wind speed.
a. Soft blade is designed by Japanese expert of wind power to
match the generator. Adopt spiral, bud-shaped
macromolecule hydrocarbonpolymer.
b. No pollution, corrosion resisting, endurable, light weight,
obdurability,easy to made, low cast.
c. Surface texture likes sharkskin, which reduces noise.
d. Unique design improves the adaptability for variable wind
speed, further to improve energy conversion efficiency.
e. Automatically adjust rotation, and it avoids system damage
at high wind speed.
f. Well restrain on wind turbulence.
g. Safety, fatal injury will not be caused even the balde crash
on humans and animals.
Page 14 of 18
◆ Controller
Application of Energy Storage System
Networking of of Energy Storage System
a. Microcontroller is used in this system. Industrial level
componets are selected. It can be used under very hot, cold
and humid environment.
b. Intelligent battery charge/discharge control, high efficiency
and long service life.
c. It has optical and timer control function.
d. Open circuit and short circuit protection, auto recovery and
lighting protection function.
e. Easy to install, use and maintain.
Small scale sea water desalinization
Page 15 of 18
Installation
(Portable installing frame) (Lamp post type)
Only available when wind speed is low Available to high wind speed
Installation and Requirements of Installation Site
A.In order to obtain wind, wind driven generator should far away from obstacles and it be put as
high as possible.
B.Soil texture of installation site should be considered. Don’t choose the place with soft sand, rough
ground and places that will affected by climate.
C.Distance between wind driven generator and battery should also be considered. Please select
standard electric cable .
Page 16 of 18
Application of Eco-Pole® Energy Storage System
Configuration Design Philosophy
1 . Wind Generating Set
1.1 Power of wind generating set will be caculated according to annual average wind speed,
minimum average monthly wind speed, duration without effective wind speed as well as the
power used per year.
1.2 Rated wind speed of wind generating set will be choosed according to lowest average monthly
wind speed per year.
1.3 When the total power is the same, 2 or more wind generating sets are allowed to use at DC
output end in series or in parallel.
2 . Solar Battery Components
2.1 Peak power of solar battery componets is decided by minimum power consumption per day,
sunshine hours when there is no effecitve wind speed as well as damage of the system.
2.2 Under normal conditions, minimum power of solar battery components will meet power
generating capacity and its 1.8 times higher than the lowest average power consumption per day.
3 . Controller
3.1 Controller must equip with wind generator charging circuit and photovoltaic charging circuit
and 2 circuits must be seperated effectively.
Application
filed of wind
solar hybrid
energy storage
﹠LED lighting
Govern-
ment new
energy
lighting
landscape
lights
Places
without
power
grid
and short
of power
Storage
system of
wireless
communi
cation
station
Nature
reserve of
highway
and other
unattended
places
Border of
island
and
pilotage
district
Outdoor
mining
and other
low
power
lighting
Fixed or
movable
dwelling
place of
herdsman
Others
Page 17 of 18
3.2 Maximum power of controller’s wind generator charging circuit should greater than or equal to
2 times of rated output power of wind generating set.
3.3 Maximum power of controller’s photovoltaic charging circuit should 1.5 times higher than
photovoltaic power of the system.
4. Inverter
4.1 Output power of inverter should be calculated according to electrical equipment’s type, power,
and time used by user.
4.2 Rated output power of inverter should 1.2 times higher than the total power of system.
5. Battery
5.1 lead-acid storage battery and storage battery that suits for wind solar hybrid generator are
preferred.
5.2 Series voltage of storage battery should match with the output voltage of wind generating set
and solar battery componets.
5.3 Capacity of storage battery is decided by minimum power consumption per day, continues
cloudy day , maximum no wind days and technical function of storage battery such as
self-discharge rate, charge-discharge efficiency and depth of dischare.
Natural Conditions﹠Environmental Requirements (wind solar hybrid power generating system)
1. Natural Conditions
Places that annual average wind speed is higher than 3.5 m/s and total annual solar radiation
amount is not less than 5 000 MJ/㎡ are recommended to use solar wind hybrid power generating
system.
2. Environmental Requirments
2.1 Wind solar hybrid power generating system could work continuously and reliably under the
following conditions:
a)Outdoor Temperature: -20℃~+40℃
b)Indoor Temperature: 0℃~+40℃
c)Relative Air Humidity: not more than 90%(25℃±5℃)
d)Above Sea Level: less than 1000m
Page 18 of 18
2.2 If wind solar hybrid power generating system is used under the following conditions, technical
requirements and service conditions should be negociated by manufacturer and user.
a)Outdoor Temperature: beyond the range of -20℃~+40℃
b)Indoor Temperature: beyond the range of 0℃~+40℃
c)Above Sea Level:higher than 1000m
d)Places under salty humidity or sand & dust.