FOB Price
Get Latest Price|
- Minimum Order
Country:
China
Model No:
Street light
FOB Price:
Place of Origin:
China
Price for Minimum Order:
-
Minimum Order Quantity:
-
Packaging Detail:
-
Delivery Time:
30-45days
Supplying Ability:
-
Payment Type:
PayPal, Western Union, T/T
Product Group :
-
Contact Person Mr. Chen
19F No.1 Research & Development Park No.399 Juxian Road, National High-Tech Zone, Ningbo City, Zhejiang Province
ENERTEK Intelligent Power
Saving Streetlight
4 Advanced
Techniques
•Reflector of accurate positioning and multiple facets mirror
surface
•Intelligent electronic ballast
•Automatic compensation of light decline
•Automatic dimmer
ENERTEK Intelligent Power
Saving Streetlight Features:
Structural design: simple and scientific, excellent glare
control
Aluminum case: made by die-casting technology, high intensity,
corrosion resistant and durable, temperature under *5℃
Light filter cover: made of tempered glass, high light
preciousness, solid
Sealing ring: made of new-type silica gel, high temperature
resistance, anti-aging, reflection cavity with IP*6
protection
Reflector: with up to **5 facets mirror surface and accurate
positioning function, efficient distribution of most light ray by
one single reflection. The reflection rate is up to *4%.
Electrical apparatus: intelligent electronic ballast, automatic
midnight power control, no worry about theft and heat emission
problem
ENERTEK Intelligent Power
Saving Streetlight:A New Energy-saving Technology for Road
Lighting
ENERTEK Reflector
ENERTEK intelligent street light system adopts innovative
technology. Its reflector of accurate positioning and multiple
facets mirror surface can remarkably raise the luminous efficacy.
ENERTEK Streetlight of automatic street light control has
much better performance than common streetlight in the
utilization of light ray, comprehensive luminous efficacy, ands
power density.
|
ENERTEK Streetlight VS Common Streetlight In Materials |
||||
|
Example: a ****-meter, two-way, four-lane street |
||||
|
Scheme |
Common Streetlight |
ENERTEK Streetlight |
||
|
General Situation |
*5m distance,2***0W double-arm streetlights,3 transformers |
*2m distance,2***0W double-arm streetlights, 2 transformers |
||
|
Reckoning |
Explanation |
Reckoning |
Explanation |
|
|
Power Supply Radius |
***0÷3÷2 =**0m |
3 is the quantity of transformer, 2 is double-arm streetlights |
***0÷2÷2=***5m |
2 is the quantity of transformer, 2 is double-arm streetlights |
|
Streetlights at Each Side of Transformer |
**0÷*5*2 =*2.8 |
total *4 |
***5÷*2*2=*3.5 |
total *4 |
|
Apparent power at Each Side of Transformer |
*4***0* (1*0.*7)÷0.*5 =*7.*5 KVA |
0.*7 is the percentage of consumed power of inductive ballast; 0.*5 is power factor |
*4***0*(1*0.*4) ÷0.*9=*5.*4 KVA |
0.*4 is the percentage of consumed power of inductive ballast; 0.*9 is power factor |
|
Load Torque |
*7.*5***0* 0.5*1.1*1.*5 =****1 KVAM |
0.5 is uniformly distributed load; 1.1 is coefficient of zero line current of three phase imbalance; 1.*5 is coefficient of reserved length of cable |
*5.*4****5*0.5* 1.1*1.*5 =****7 KVAM |
0.5 is uniformly distributed load;1.1 is coefficient of zero line current of three phase imbalance; 1.*5 is coefficient of reserved length of cable |
|
Percentage of Voltage Loss at Tail End |
****1÷*3÷*5 =6.*7% |
VV4**5*1**6mm 2cable: *5 is sectional area of cable; *3 is load torque coefficient of 1% line drop of 1mm2copper conductor |
****7÷*3÷*6 =8.*2% |
VV5**6mm2cable: *6 is sectional area of cable; *3 is load torque coefficient of 1% line drop of 1mm2 copper conductor |
|
Tail End Voltage |
******0*6.*7% =**6.2V |
|
******0*8.*2% =**1.7V |
|
|
Current-carrying Capacity |
*7.*5÷**0****0 =*2.*3A |
the current-carrying capacity of VV4**5*1**6mm 2cable is **5A,meeting the demand |
*5.*4÷**0****0 =*0.*9A |
the current-carrying capacity of VV5**6mm2pcable is **5A,meeting the demand |
|
Power of Adopted Transformer |
*7.*5*2÷0.*5 =*4.*8 KVA |
adopt *0kVA transformer |
*5.*4*2÷0.*5 =*6.*6 KVA |
adopt *0KVA transformer |
|
Conclusion |
This street should adopt 3 sets of *0KVA transformers, ***5m VV4**5*1**6mm2cable, **2 lamp-posts, and **4 lamps |
This street should adopt 2 sets of *0KVA transformers, ***5m VV5**6mm2cable, **8 lamp-posts, **6 lamps |
||
|
ENERTEK Streetlight VS Common Streetlight In Materials |
||||
|
Example: a ****-meter, two-way, four-lane street |
||||
|
Scheme |
Common Streetlight |
ENERTEK Streetlight |
||
|
General Situation |
*5m distance,2***0W double-arm streetlights,3 transformers |
*2m distance,2***0W double-arm streetlights, 2 transformers |
||
|
Reckoning |
Explanation |
Reckoning |
Explanation |
|
|
Power Supply Radius |
***0÷3÷2 =**0m |
3 is the quantity of transformer, 2 is double-arm streetlights |
***0÷2÷2=***5m |
2 is the quantity of transformer, 2 is double-arm streetlights |
|
Streetlights at Each Side of Transformer |
**0÷*5*2 =*2.8 |
total *4 |
***5÷*2*2=*3.5 |
total *4 |
|
Apparent power at Each Side of Transformer |
*4***0* (1*0.*7)÷0.*5 =*7.*5 KVA |
0.*7 is the percentage of consumed power of inductive ballast; 0.*5 is power factor |
*4***0*(1*0.*4) ÷0.*9=*5.*4 KVA |
0.*4 is the percentage of consumed power of inductive ballast; 0.*9 is power factor |
|
Load Torque |
*7.*5***0* 0.5*1.1*1.*5 =****1 KVAM |
0.5 is uniformly distributed load; 1.1 is coefficient of zero line current of three phase imbalance; 1.*5 is coefficient of reserved length of cable |
*5.*4****5*0.5* 1.1*1.*5 =****7 KVAM |
0.5 is uniformly distributed load;1.1 is coefficient of zero line current of three phase imbalance; 1.*5 is coefficient of reserved length of cable |
|
Percentage of Voltage Loss at Tail End |
****1÷*3÷*5 =6.*7% |
VV4**5*1**6mm 2cable: *5 is sectional area of cable; *3 is load torque coefficient of 1% line drop of 1mm2copper conductor |
****7÷*3÷*6 =8.*2% |
VV5**6mm2cable: *6 is sectional area of cable; *3 is load torque coefficient of 1% line drop of 1mm2 copper conductor |
|
Tail End Voltage |
******0*6.*7% =**6.2V |
|
******0*8.*2% =**1.7V |
|
|
Current-carrying Capacity |
*7.*5÷**0****0 =*2.*3A |
the current-carrying capacity of VV4**5*1**6mm 2cable is **5A,meeting the demand |
*5.*4÷**0****0 =*0.*9A |
the current-carrying capacity of VV5**6mm2pcable is **5A,meeting the demand |
|
Power of Adopted Transformer |
*7.*5*2÷0.*5 =*4.*8 KVA |
adopt *0kVA transformer |
*5.*4*2÷0.*5 =*6.*6 KVA |
adopt *0KVA transformer |
|
Conclusion |
This street should adopt 3 sets of *0KVA transformers, ***5m VV4**5*1**6mm2cable, **2 lamp-posts, and **4 lamps |
This street should adopt 2 sets of *0KVA transformers, ***5m VV5**6mm2cable, **8 lamp-posts, **6 lamps |
||
| Country: | China |
| Model No: | Street light |
| FOB Price: | Get Latest Price |
| Place of Origin: | China |
| Price for Minimum Order: | - |
| Minimum Order Quantity: | - |
| Packaging Detail: | - |
| Delivery Time: | 30-45days |
| Supplying Ability: | - |
| Payment Type: | PayPal, Western Union, T/T |
| Product Group : | - |
