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When I think of the off grid solar applications, one main sector that has tremendous captive power requirement is telecommunications. With consistent fall in the average revenue per user and a whopping 86% increase in the minutes of usage in the past decade, India is one of the countries with increasing market competitionand highest number of MoU’s. The numbers of operators have almost tripled in the last 3 years and there is a mad headed competition to reduce the cost especially if theservices have to be made affordable to the sub urban and rural areas. Rural teledensity improvement is possible only with low cost service.

With power contributing to 25% of total network cost, one of the key areas where the telecom providers are looking forward to reduce cost is energy. Unfortunately, poor quality of grid supply in suburban and semi-rural areas and no grid supply at many rural areas is increasing the energy cost for the telecom providers. 10% of telecom towers in India have no power supply while almost 50% have less than 12 hours of grid supply. Even in those 12 hours of grid supply there are problems of low voltage, single phasing and fluctuations that necessitate the use of diesel genset round the
clock. The increasing energy cost, uncertain grid power and lower affordability of rural people is having a double warming effect to the telecom service providers.

According to Telecom Regulatory Authority of India (TRAI), Close to 300000 towers in India consume more than 2 billion liters of Diesel every year generating 5.4 millionTons of CO2. The increasing diesel prices and the mounting pressure of minimizingcarbon offset makes diesel based captive power a less viable option in long run. Solar PV based captive power would be the ideal solution for the telecom service providers. They have many advantages that would favor them for incorporating solar energy to power their towers.

Huge energy savings are possible by use of Solar Diesel hybrid (65% savings) as compared to relatively less savings by use of biomass power (29% savings). Also there is a possible 40% reduction in site maintenance expenditure for the companies who install solar as compared to the use of diesel genset. With the use of batteries it is even possible to power the towers during the night time and effective diesel usage hours can be reduced to as low as 8 hours per day.

The huge existing tower base that require captive power and further network expansion by service providers who promise to offer seamless network coverage makes it easy for solar to penetrate into the telecom industry very soon. Most of the towers that need off grid power are located at a place where there are no space limitations and this makes solar PV as an ideal choice. Also, network uptime can be managed in difficult hilly and terrain regions with the use of solar power.

The solar powered telecom towers are also expected to scale up by another one lakh next year and it is important to note that the newer telephone towers are being installed based on a new technology that will consume less power and also do away with the air conditioning so critical to the telephone towers. For the newer towers, where air conditioning is not a requisite, it makes more sense to use solar power, especially where the EB electricity is not available for considerable duration

The 5% soft loan and 30% capital subsidy would obviously attract telecom service providers to opt solar power. Also, 90% capital subsidy by NSM in remote areas & special category states and Telecommunications Universal Service Obligation’s funding for the use of renewable energy in remote areas will increase the market adoption of solar for telecommunication industry.

Captive solar is possibly the best way to increase rural footprint of telecom service providers at an affordable cost, thereby improving the rural community access to communication. Certain telecom service providers have realized this and initiatives have been planned for no grid and poor grid regions. If successful proof of concept is available and telecom service providers are able to reduce the network operation cost, it will increase the market penetration of solar PV for captive power in the telecom industry. Sorotec is committed to the communications industry for decades and has a complete and efficient solar base station solution. Provide users with reliable power protection, while greatly improving the return on investment of users.

SOROTEC Solar powered telecom base station (BTS)-SHW48500 the monitor module and PV MPPT module, wind power module, rectifier module, distribution frame (or cabinet) composed of communication power supply system, power supply system to achieve the man-machine interface operation, system status monitoring, data upload, intelligent battery management module and automatic energy saving management. SHW48500 monitoring module provides RS232/RS485, network port, dry contact and many other communication interfaces. It is flexible in networking and can realize remote monitoring and widely used in 4G & 5G telecom base station(BTS).

SHW48500 48VDC Solar BTS Power System

1.Adopt advanced MCU microprocessor control technology.
2.Advanced MPPT Technology.High converting efficiency higher than 97% for minimizing energy loss.
3.Reversed current protection at night.over voltage and reverse polarity protection.
4.Capable of selection different charging mode fo various types of batteries.
5.Protection degree:IP55.
6.Industy-leading power density compact size and high reliability.
7.Doorframe designed with waterproof structure, posted on the seal and equipped with waterproof lock on the door double insulation design.
8.Cabine adopt quality galvanized sheet or aluminum coated steel sheet as material, surface coating anti-UV power.
9.Suitable for outdoor installation.
10.With remote monitoring system aperation.

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Environmental adaptability refers to the ability of a product to achieve all its intended functions, performance and non-destructive ability under the action of various environments it may encounter in its life cycle prediction. It is an important quality characteristic. It can be seen that environmental adaptability has two elements, one is product and the other is environment. The same product has different environmental adaptability in different environments, and different products have different environmental adaptability in the same environment. Environmental adaptability is one of the quality characteristics of equipment. Once the product is finalized, the materials, components, structural composition and selected process have been solidified, and the environmental adaptability for the given environmental profile is fixed. It can be seen that environmental adaptability is the inherent quality characteristics of products, determined by design and manufacturing, and guaranteed by testing and management.

Generally speaking, the factors that affect product environmental adaptability are as follows.
1.Environmental adaptability of the selected materials and components.
2.The level of structural design includes thermal design, anti vibration, impact protection, corrosion prevention, PCB layout and other design levels.
3.The manufacturing level includes the technological level of structural parts, components, components and veneer protection.

Solar power generation system is usually directly exposed to the outdoor environment, often encounter high temperature, cold, humidity, wind and sand, rain, salt fog and other adverse weather conditions, solar on grid inverter as the key equipment of the whole solar power system, undertake the important role of current conversion, system communication, fault diagnosis and protection. Solar on grid inverter must be able to adapt to different operating environment, especially in harsh environment can still work stably.

Temperature challenges faced by PV grid-connected inverter mainly come from diurnal temperature difference, seasonal temperature difference, weather changes and self-heating. In many northern areas, the temperature is below – 20℃ in winter, over 40℃ in summer, big temperature difference between day and night, big seasonal temperature difference, inconsistent temperature change between the inverter shell and the internal temperature, easy to form temperature difference in the internal cavity, frequent temperature changes, product design, component selection are a serious challenge. The inverter running in wet environment such as coastal and beach will also face the risk of corrosion.

REVO-II On/Off Gird Energy Storage Hybrid Inverter with Touch Screen

1.Touch screen display
2.PV and utility power take the load at same time(can setting)
3.Output power factor PF=1.0
4.On&Off Grid with energy storage
5.Energy generated record,load record,history information and fault record
6.Language and time setting
7.Structure with dust filter
8.AC charging and AC output time setting
9.Charging voltage and charging current timing
10.External Wi-Fi device optional
11.Parallel operation with up to 6 units only available for 3kW/4kW/5kW
12.Connected with battery optional
13.Wide PV input range 120-450VDC
14.Independent CPU
15.MAX PV Array power 4500W
16.Solar and Utility supply power to the load when solar power is not sufficient to load

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After hundreds of years of development, the 48V power supply structure in the telecommunication industry has become very standard and universal. The industrial chain and ecology are very mature, so that most of the network equipment can directly support the 48V DC power supply. Even before the data center industry tried to use the 48V power supply architecture, but the traditional way is to learn from UPS to put 48V power and batteries in the power room and battery room of the data center. The problem caused by this method is that the traditional server equipment often lacks the power to support 48V input directly, and the 48V power supply brings about the power line investment, transmission line voltage drop and transmission line loss when the low voltage and long distance transmission. Finally, the traditional 48V power supply technology can not be carried out in the data center industry. But with the development of the whole cabinet technology, and the pursuit of low cost and high efficiency, direct power supply technology, high-power cabinet and lithium battery technology, the use of distributed near the cabinet or even cabinet built-in 48V power supply structure will be an important direction of future development.

SHW48500 48VDC Solar BTS Power System

1.Adopt advanced MCU microprocessor control technology.
2.Advanced MPPT Technology.High converting efficiency higher than 97% for minimizing energy loss.
3.Reversed current protection at night.over voltage and reverse polarity protection.
4.Capable of selection different charging mode fo various types of batteries.
5.Protection degree:IP55.
6.Industy-leading power density compact size and high reliability.
7.Doorframe designed with waterproof structure, posted on the seal and equipped with waterproof lock on the door double insulation design.
8.Cabine adopt quality galvanized sheet or aluminum coated steel sheet as material, surface coating anti-UV power.
9.Suitable for outdoor installation.
10.With remote monitoring system aperation.

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The functions are different, the voltage regulator and the UPS uninterruptible power supply are widely used, but there is a difference between the regulator and the UPS power supply, and many people are always wrong to think that the regulator is the UPS. So, what is the difference between UPS and voltage regulator?

UPS power supply is divided into an online UPS power supply and a backup UPS power supply. The common computer is equipped with a backup UPS power supply. The backup type including the voltage stabilizing part, which adopts the relay shift voltage regulation mode, and the voltage stabilizing effect is very poor, so it can not calculate the voltage stabilizer.

When the online UPS power supply is working, firstly convert the city into DC to charge the UPS battery, and the inverter turns the DC power into alternating current to power the load. As the city electricity passes through the exchange process to the DC, and then to the AC, the original interference and pulse voltage components in the city electricity have been filtered very clean. Therefore, the voltage of the online UPS power inverter is very stable. The advantages of high frequency UPS are small size, light weight, high efficiency, and its disadvantages are poor resistance to overload and impact. Low frequency UPS power supply is better, but bulky and expensive.

The regulator is designed for the instability of the grid voltage, mainly for the protection of the back-end equipment, and the protection function of the equipment is relatively perfect. In general, large UPS power supply must also be equipped with a voltage regulated bypass system (voltage regulator). The voltage regulator has a wide range of application, which can be used in almost any place where electricity is needed (the premise is voltage instability). Generally, the home can choose high-precision full automatic voltage stabilizer, and the price is also cheap. If it is used in industry, then use high-power compensation AC voltage stabilizer, there are mechanical and electronic type. General electronic type is not needed to replace carbon brush, simple and practical and convenient, but the voltage of the electric field is low, it is more reasonable to choose the mechanical regulator which can be manually adjusted. The voltage is adjusted manually to ensure the normal operation of the machine.

The above voltage regulator and UPS power supply are briefly introduced, in fact, the biggest difference is: The voltage stabilizer can only stabilize the voltage; UPS can not only play a stabilizing role, but also be able to continue power supply by battery inverter after power failure to ensure that the equipment does not power down.

IPS9312 IPS9332 10-160KVA (Industrial UPS systems,industrial grade UPS)

■Adopt full digital control technology.
■Intelligent detection and monitoring function.
■Digital control and static switch zero switching.
■Input/output full isolation
■DC UPS isolated with utility power completely.
■Cubicle design with power standard.
■Multifunctional protection for overvoltage,low voltage,
■Overcurrent, short circuit and so on.
■Large-screen LCD monitor Chinese and English operation interface.
■Ultralong 256 event records, user-friendly analysis and management to the situation of power supply.
■Static bypass has a strong anti-overload capacity.

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After the development of battery energy storage, electric vehicle, consumer electronics and other industries, the maturity of technology and industry has increased rapidly in the past few years, and the security has been greatly improved, and the price has been greatly reduced at present. Considering its excellent discharge capacity, high temperature resistance, simple maintenance, high energy density and light weight, it is a hot research field in many industries, and it fits the application scene of future data center and can be used to replace the traditional lead-acid battery. Considering its long service life, the cost from ROI is similar to that of lead-acid batteries. 48V lithium battery BBU technology has a lot of research and application in telecom industry and battery module of electric vehicle. It is also mature, and there are many industries and technology, operation data and so on. If a 2U to 3U high 48V battery BBU is installed next to the 48V power supply enclosure of the entire cabinet, a stable 48V power supply to the whole cabinet and 5 to 15 minutes of battery preparation can be provided, which can bring about a great innovation in the data center power supply architecture. No longer need the traditional UPS investment, no longer need the power room battery room, no more wastage and waste on the UPS and low efficiency 12V power supply, can realize the cabinet level edge growth side investment, can realize the 48V power module on demand configuration, can realize automatic energy saving dormancy, can change the hard disk like hot plug to replace the power supply modules and battery BBU, etc., eventually achieve low cost, high efficiency, easy maintenance, manageable power supply.

SHW48100 Hot Swappable 48VDC Outdoor Solar Telecom Power Supply System for BTS

1.Hot Swappable Easy to Maintance
2.Smart Monitor Control System
3.Various Human-computer Interface
4.Protection Degree: IP55
5.Adopt advanced MCU microprocessor control technology.
6.Advanced MPPT Technology, High converting efficiency higher than 97% for minimizing energy loss.
7.Reversed current protection at night, over voltage and reverse polarity protection.
8.Capable of selecting different charging mode for various types of batteries.
9.Protection degree:IP55.
10.Industy-leading power density compact size and high reliability.
11.Doorframe designed with waterproof structure, posted on the seal and equipped with waterproof lock on the door double insulation design.
12.Cabine adopt quality galvanized sheet or aluminum coated steel sheet as material, surface coating anti-UV power.
13.Suitable for outdoor installation.

Learn More