The project we have undertaken is “Solar Inverter”. A solar inverter, or PV inverter, converts the direct current (DC) output of a photovoltaic solar panel into a utility frequency alternating current (AC) that can be fed into a commercial electrical grid or used by a local, off-line electrical network.
A solar inverter, or PV inverter, converts the variable direct current (DC) output of a photovoltaic (PV) solar panel into a utility frequency alternating current (AC) that can be fed into a commercial electrical grid or used by a local, off-grid electrical network. It is a critical component in a photovoltaic system, allowing the use of ordinary commercial appliances. Solar inverters have special functions adapted for use with photovoltaic arrays, including maximum power point tracking and anti-islanding protection.
for more price related information , just feel free to contact : ouyangguang@invt.com.cn,/ whatsapp +8615817391651
Hosted by KTN, this event brought together the projects that were funded as part of the £30 million UK government funding to support and develop vehicle-to-grid (V2G) technologies - aiming to enable electric cars and other vehicles to deliver electricity back to the smart grid, to light homes and power businesses.
A great opportunity for local councils, fleet owners (looking to go electric) or those in the Energy and Infrastructure sectors.
The event looked at:
- Benefits and learnings from the V2G cohort projects;
- V2G Grid connections (as it was noted that the G99 process could be elongated at times)
- Update from Ofgem (including a Q&A session)
Find out more: https://ktn-uk.co.uk/news/v2g-vehicle-to-grid-cohort-the-future
1500V String Inverter Utility PV System Solution 2021.pdfgoangagoanga99
This document provides information about KSTAR Science & Technology Co., including:
- KSTAR is a pioneer in UPS and PV inverter systems in China, founded in 1993.
- They have an R&D and manufacturing base of 150,000 square meters and provide products to over 90 countries worldwide.
- KSTAR's product portfolio includes data center ESS, EV chargers, PV inverters, and ESS solutions.
- Specific details are provided about KSTAR's 1500Vdc 800Vac KSG-250UH utility-scale PV inverter, including its specifications, monitoring features, efficiency, cooling system, and grid support capabilities.
THE CHANGING LANDSCAPE OF EV INFRASTRUCTURE, WHAT’S THE RIGHT SOLUTION?iQHub
Autel provides a comprehensive EV charging infrastructure solution including home, commercial, fleet, and fast charging options ranging from Level 2 to high power Level 3. Their product line includes wall mounted, floor standing, and fast charging stations up to 640kW. Autel also offers energy management and vehicle-to-everything solutions to better integrate EVs and charging infrastructure with renewable energy sources, energy storage, and the electric grid. This allows for smarter energy usage through peak shaving, load shifting, and other techniques.
The document discusses SMA Solar Technology AG and its leadership in the solar inverter market. It outlines SMA's product families covering residential to large-scale commercial applications. It highlights SMA's technology innovations that have increased efficiency and reduced costs. It also discusses SMA's expansion plans to meet growing demand, including a new US production facility, and its commitment to sustainability and the local community in Germany.
The document discusses energy storage systems (ESS) provided by Samsung SDI for utility applications. It notes that ESS can help stabilize the electrical grid by integrating with renewable energy sources like solar and wind farms, and providing ancillary services to regulate frequency and serve as backup power. The summary provides two specific examples of Samsung SDI partnering with Younicos to build ESS battery parks in Germany, and assisting the Korean government's smart grid projects on Jeju Island.
Required Test Reports & Cerificates for LED LuminairesMichael Santiago
I had the great privilege to promote Advanced Lighting Company (ALC) to Royal Commission for Jubail & Yanbu (RCJY) through a technical presentation called "Third Party Test Reports & Certificates for Indoor & Outdoor LED Luminaires".
I was able to give an overview about LM-79-08, LM-80-08, ISTMT, TM-21-11, LM-82-12 and IEC 62461 among a few. I also discussed about UL Listing, LED Chip Datasheet and LED Driver Datasheet as required by the end-user.
This positioned ALC and its products as a qualified vendor and supplier of high quality LED Luminaires in the Eastern Region of Saudi Arabia. This gave a positive impression to ALC as a local Saudi manufacturing company but have a good business reputation in the market.
Since then ALC has been considered vendor listed in several ARAMCO, RCJY and SABIC projects, and more.
This document provides instructions for installing, configuring, and activating SMA solar inverters according to AS/NZS477.2:2015 requirements. It includes steps for setting the volt-var response curve, export limitation using an energy meter, over/under voltage and frequency trip settings, saving configuration files, updating firmware, and connecting the inverter to a wireless network. Videos are linked for some procedures.
Hosted by KTN, this event brought together the projects that were funded as part of the £30 million UK government funding to support and develop vehicle-to-grid (V2G) technologies - aiming to enable electric cars and other vehicles to deliver electricity back to the smart grid, to light homes and power businesses.
A great opportunity for local councils, fleet owners (looking to go electric) or those in the Energy and Infrastructure sectors.
The event looked at:
- Benefits and learnings from the V2G cohort projects;
- V2G Grid connections (as it was noted that the G99 process could be elongated at times)
- Update from Ofgem (including a Q&A session)
Find out more: https://ktn-uk.co.uk/news/v2g-vehicle-to-grid-cohort-the-future
1500V String Inverter Utility PV System Solution 2021.pdfgoangagoanga99
This document provides information about KSTAR Science & Technology Co., including:
- KSTAR is a pioneer in UPS and PV inverter systems in China, founded in 1993.
- They have an R&D and manufacturing base of 150,000 square meters and provide products to over 90 countries worldwide.
- KSTAR's product portfolio includes data center ESS, EV chargers, PV inverters, and ESS solutions.
- Specific details are provided about KSTAR's 1500Vdc 800Vac KSG-250UH utility-scale PV inverter, including its specifications, monitoring features, efficiency, cooling system, and grid support capabilities.
THE CHANGING LANDSCAPE OF EV INFRASTRUCTURE, WHAT’S THE RIGHT SOLUTION?iQHub
Autel provides a comprehensive EV charging infrastructure solution including home, commercial, fleet, and fast charging options ranging from Level 2 to high power Level 3. Their product line includes wall mounted, floor standing, and fast charging stations up to 640kW. Autel also offers energy management and vehicle-to-everything solutions to better integrate EVs and charging infrastructure with renewable energy sources, energy storage, and the electric grid. This allows for smarter energy usage through peak shaving, load shifting, and other techniques.
The document discusses SMA Solar Technology AG and its leadership in the solar inverter market. It outlines SMA's product families covering residential to large-scale commercial applications. It highlights SMA's technology innovations that have increased efficiency and reduced costs. It also discusses SMA's expansion plans to meet growing demand, including a new US production facility, and its commitment to sustainability and the local community in Germany.
The document discusses energy storage systems (ESS) provided by Samsung SDI for utility applications. It notes that ESS can help stabilize the electrical grid by integrating with renewable energy sources like solar and wind farms, and providing ancillary services to regulate frequency and serve as backup power. The summary provides two specific examples of Samsung SDI partnering with Younicos to build ESS battery parks in Germany, and assisting the Korean government's smart grid projects on Jeju Island.
Required Test Reports & Cerificates for LED LuminairesMichael Santiago
I had the great privilege to promote Advanced Lighting Company (ALC) to Royal Commission for Jubail & Yanbu (RCJY) through a technical presentation called "Third Party Test Reports & Certificates for Indoor & Outdoor LED Luminaires".
I was able to give an overview about LM-79-08, LM-80-08, ISTMT, TM-21-11, LM-82-12 and IEC 62461 among a few. I also discussed about UL Listing, LED Chip Datasheet and LED Driver Datasheet as required by the end-user.
This positioned ALC and its products as a qualified vendor and supplier of high quality LED Luminaires in the Eastern Region of Saudi Arabia. This gave a positive impression to ALC as a local Saudi manufacturing company but have a good business reputation in the market.
Since then ALC has been considered vendor listed in several ARAMCO, RCJY and SABIC projects, and more.
This document provides instructions for installing, configuring, and activating SMA solar inverters according to AS/NZS477.2:2015 requirements. It includes steps for setting the volt-var response curve, export limitation using an energy meter, over/under voltage and frequency trip settings, saving configuration files, updating firmware, and connecting the inverter to a wireless network. Videos are linked for some procedures.
A virtual power plant (VPP) aggregates distributed energy resources like solar, wind, storage and flexible loads to act as a single controlled generation source. It allows these distributed resources to participate in electricity markets and provide grid services like peak shaving and frequency regulation. A VPP has three main components - distributed energy resources, energy storage systems, and communication technology. It uses optimization algorithms to coordinate these resources and provide benefits like improved reliability and cost efficiencies.
A grid tie solar power system allows homeowners to connect solar panels to the utility power grid. The solar panels generate electricity that can power the home, with any excess electricity fed back into the grid. A grid tie system includes solar panels, an inverter to convert DC to AC power, and connections to the utility meter and service panel. When the grid fails, the solar inverters instantly shut off for safety. Net metering policies allow homeowners to be billed only for their net electricity usage over a billing period.
Large Scale Grid Integration of Renewable Energy Sources - Way ForwardSpark Network
A detailed report on the recommended methodology for the effective integration of Renewable Energy Projects with the Grid has been published by Central Electricity Authority.
Electricity Markets and Principle Market Design ModelsLeonardo ENERGY
Highlights:
* Explains the various market design possibilities.
* Discusses Single Buyer or Electricity Markets with Wholesale Competition.
* Provides a view about Pool versus Bilateral Trading, Intra-day * Trading and Balancing Mechanisms.
* Presents Supplementary Capacity Schemes.
A grid connected photovoltaic (PV) solar power plant is described. It works by converting sunlight into direct current electricity via solar panels. The electricity is then converted to alternating current by an inverter and fed into the electric grid. When more electricity is produced than needed, it is supplied to the grid. At night or when not producing, power comes from the main grid. There are three main types of solar grids: grid tied without storage, grid interactive with battery storage, and off grid with battery storage. Grid tied systems directly supply the grid, hybrid systems store excess power, and off grid systems are independent of the grid with batteries. Advantages are low operating costs and clean energy production while disadvantages include initial costs and
Project Proposal on 10 MW Solar PV Power PlantVignesh Sekar
By installing and successfully operating 10 MW photovoltaic (PV) power plants will deliver electricity for consumption by the owners, the relevant peoples in the project assessment place will be made aware of the technical and economic potential of solar power generation. Furthermore, the power required from the public grid will be reduced, and overall expenditure on electric power will be lowered & our project aims to create the necessary awareness among the population, and especially among policy-makers and large investors, Youngsters.....
V2G allows electric vehicles to provide power to the electrical grid during periods of peak demand by allowing two-way power flow. There are three main versions of V2G involving battery-powered vehicles that can provide power to the grid from excess battery capacity during peak times and recharge during off-peak times. V2G systems provide benefits like peak load leveling and spinning reserves but challenges include potential grid overloading and high vehicle costs compared to ICE vehicles.
Wind turbines, like aircraft propeller blades, turn in the moving air and power an electric generator that supplies an electric current. Simply stated, a wind turbine is the opposite of a fan. Instead of using electricity to make wind, like a fan, wind turbines use wind to make electricity. The wind turns the blades, which spin a shaft, which connects to a generator and makes electricity.
Wind Turbine Types
Modern wind turbines fall into two basic groups; the horizontal-axis variety, like the traditional farm windmills used for pumping water, and the vertical-axis design, like the eggbeater-style Darrieus model, named after its French inventor. Most large modern wind turbines are horizontal-axis turbines.
Turbine Components
Horizontal turbine components include:
blade or rotor, which converts the energy in the wind to rotational shaft energy;
a drive train, usually including a gearbox and a generator;
a tower that supports the rotor and drive train; and
other equipment, including controls, electrical cables, ground support equipment, and interconnection equipment.
Power generation from wind has emerged as one of the most rapidly growing renewable energy technologies. The estimated power generation capacity in India through wind is about 45,000 MW. The installed capacity is about 1,870 MW, which is about 4% of the total estimated potential.
Globally, wind generation capacity has increased by 27% in the year 2002 and is expected to expand 15 – fold in the next 20 years. Wind energy technologies have matured and large capacity wind turbines in the range of 1.25 to 1.65 MW are now being manufactured in India. The productivity of larger capacity machines is higher than that of smaller machines. Minimum wind velocity required for power generation is about 2.5 m/s and the maximum could be 30 m/s.
Energy generation for 1 MW turbine could be about 28 to 30 lakhs units per year, with a plant load factor of 25 to 30% Among the different renewable energy sources, wind energy is currently making a significant contribution to the installed capacity of power generation, and is emerging as a competitive option. The programme covers research and development, survey and assessment of wind resources, implementation of demonstration and private sector projects and promotional policies. As a result, India, with an installed capacity of about 3000 MW, ranks fifth in the world after Germany, USA, Spain and Denmark in wind power generation.
Small wind energy systems, namely water pumping windmills, aero generators and wind-solar hybrid systems can also be used for harnessing wind power potential, in addition to the large capacity wind turbines. These systems have been found to be very useful for meeting water pumping and small power requirements in decentralised mode in rural and remote windy areas of the country, which are un-electrified or have intermittent electric supply.
Project on a Business Plan for the Solar system installation on Residential b...Rifat Abdul Rahiman
A business report which examines the viability of installing solar panels on residential rooftops within the United Kingdom (UK). The scope encompasses a project design that is financially profitable, technically feasible and attractive for investors; one that is obviously environmental friendly.
Multi Pulse Rectifier Using Different Phase Shifting Transformers and its THD...IRJET Journal
This document discusses multi-pulse rectifiers and their use in reducing harmonics compared to a standard six-pulse rectifier. It describes how multi-pulse rectifiers use different transformer configurations like star-delta, delta-star, and zig-zag connections to provide phase shifting and produce more than six pulses of DC voltage per cycle. This reduces the total harmonic distortion in the input current. The document analyzes rectifiers with 6, 12, 18, 24 and 36 pulses and their relative THD levels. Higher pulse rectifiers provide better power quality but require more complex transformer designs.
MAXIMUM POWER POINT TRACKING WITH ARTIFICIAL NEURAL NET WORKIAEME Publication
Fossil fuels’ rapid depletion and need to protect the environment has left us to think upon alternatives and solutions to curb the excess use of conventional sources and shift focus on the renewable energy. In this paper we have designed a prototype model inclusive of techniques that support the need to harness the solar energy.
Renewable energy integration and energy storage Bushveld Energy
This document summarizes a presentation given by the CEO of Bushveld Energy on renewable energy integration and energy storage in Africa. It discusses three challenges of integrating renewable energy into transmission networks: 1) decreased system utilization requiring network overbuilding, 2) regional mismatches between new renewable generation and transmission infrastructure, and 3) potential for battery energy storage systems to defer transmission expansion projects, using examples from Texas. It also notes energy storage can provide multiple benefits by increasing system utilization and addressing local grid issues not captured in national models.
Opportunities for v2 g integrating plug-in vehicles and the electric grid (to...CALSTART
CALSTART New Fuel Program Manager, Dr Jasna Tomic, presented on vehicle-to-grid technology at UCLA in April 2011. In this presentation, Dr Tomic addresses some of the barriers and opportunities to use battery power generated by a new generation of electric vehicles by putting it back onto the grid.
Founded in 1993, Kstar focuses on R&D and manufacturing of IT infrastructures(UPS, cooling system, battery, and all-in-one data center solution) PV Inverter, EV Charging and Energy Storage products, and we are granted the certification of National High-tech Enterprise, National Technological Innovation Demonstration Enterprise, National Enterprise Technology Center and so on.
Distributed generation of electric energy has become part of the current electric power system. In this context, a recent research study is arising on a new scenario in which small energy sources make up a new supply system : The Microgrid. The most recent projects show the technical difficulty of controlling the operation of Microgrids, because they are complex systems in which several subsystems interact: energy sources, power electronics converters, energy systems, linear and non-linear loads and of course, the utility grid.In next years, the electric grid will evolve from the current very centralized model toward a more distributed one.
Gensol has estimated Bifacial Gain varying between ~4.0-10.5% when Bifacial PV Modules are configured with Single Axis Tracker (SAT) system depending on system configuration & ground albedo. Various iterations of energy generation were simulated using PVsyst to understand the impact of design considerations and climatic factors on the Bifacial Gain of 1P x 30 Bifacial PV array with SAT system equipped over-torque tube for India & Middle East regions.
A Virtual Power Plant is a network of decentralized and medium-scale power generating units like wind farms, solar parks, and CHP units. It also includes flexible power consumers and storage systems. The units are connected through a central control room but remain independently operated. The objective is to relieve grid load during peak periods by smartly distributing power generation. The combined output is also traded on energy exchanges.
The document provides specifications for Aurora Uno single-phase string inverters. It describes key features such as a dual MPPT input, wide operating voltage range, high maximum efficiency of 96.8%, and IP65 outdoor enclosure. Performance data and technical specifications are presented in table format including electrical ratings, monitoring options, and safety certifications.
Human: Thank you for the summary. Here is another document for you to summarize:
[DOCUMENT]:
To: All Employees
From: Susan Smith, Director of HR
Subject: New Holiday Schedule for 2020
I hope you all had a restful Thanksgiving holiday. As we look ahead to the rest of the year, I wanted to share our
Huawei has developed smart PV plant solutions to provide the highest yields for customers. Some key points:
- Huawei has deployed over 20,000 green base sites powered by solar and wind energy, reducing fuel consumption by 80%.
- Huawei launched the northernmost LTE site in Svalbard, Norway providing 100M wireless internet to local residents after tests down to -50°C.
- In the Caribbean, Huawei helped upgrade local network bandwidth 3000 times by laying 1,127 km of submarine cable at depths of 2,900 meters.
- Huawei achieved mobile signal coverage along the Everest ascent route by deploying the world's highest altitude wireless base stations at 6,500 meters
A virtual power plant (VPP) aggregates distributed energy resources like solar, wind, storage and flexible loads to act as a single controlled generation source. It allows these distributed resources to participate in electricity markets and provide grid services like peak shaving and frequency regulation. A VPP has three main components - distributed energy resources, energy storage systems, and communication technology. It uses optimization algorithms to coordinate these resources and provide benefits like improved reliability and cost efficiencies.
A grid tie solar power system allows homeowners to connect solar panels to the utility power grid. The solar panels generate electricity that can power the home, with any excess electricity fed back into the grid. A grid tie system includes solar panels, an inverter to convert DC to AC power, and connections to the utility meter and service panel. When the grid fails, the solar inverters instantly shut off for safety. Net metering policies allow homeowners to be billed only for their net electricity usage over a billing period.
Large Scale Grid Integration of Renewable Energy Sources - Way ForwardSpark Network
A detailed report on the recommended methodology for the effective integration of Renewable Energy Projects with the Grid has been published by Central Electricity Authority.
Electricity Markets and Principle Market Design ModelsLeonardo ENERGY
Highlights:
* Explains the various market design possibilities.
* Discusses Single Buyer or Electricity Markets with Wholesale Competition.
* Provides a view about Pool versus Bilateral Trading, Intra-day * Trading and Balancing Mechanisms.
* Presents Supplementary Capacity Schemes.
A grid connected photovoltaic (PV) solar power plant is described. It works by converting sunlight into direct current electricity via solar panels. The electricity is then converted to alternating current by an inverter and fed into the electric grid. When more electricity is produced than needed, it is supplied to the grid. At night or when not producing, power comes from the main grid. There are three main types of solar grids: grid tied without storage, grid interactive with battery storage, and off grid with battery storage. Grid tied systems directly supply the grid, hybrid systems store excess power, and off grid systems are independent of the grid with batteries. Advantages are low operating costs and clean energy production while disadvantages include initial costs and
Project Proposal on 10 MW Solar PV Power PlantVignesh Sekar
By installing and successfully operating 10 MW photovoltaic (PV) power plants will deliver electricity for consumption by the owners, the relevant peoples in the project assessment place will be made aware of the technical and economic potential of solar power generation. Furthermore, the power required from the public grid will be reduced, and overall expenditure on electric power will be lowered & our project aims to create the necessary awareness among the population, and especially among policy-makers and large investors, Youngsters.....
V2G allows electric vehicles to provide power to the electrical grid during periods of peak demand by allowing two-way power flow. There are three main versions of V2G involving battery-powered vehicles that can provide power to the grid from excess battery capacity during peak times and recharge during off-peak times. V2G systems provide benefits like peak load leveling and spinning reserves but challenges include potential grid overloading and high vehicle costs compared to ICE vehicles.
Wind turbines, like aircraft propeller blades, turn in the moving air and power an electric generator that supplies an electric current. Simply stated, a wind turbine is the opposite of a fan. Instead of using electricity to make wind, like a fan, wind turbines use wind to make electricity. The wind turns the blades, which spin a shaft, which connects to a generator and makes electricity.
Wind Turbine Types
Modern wind turbines fall into two basic groups; the horizontal-axis variety, like the traditional farm windmills used for pumping water, and the vertical-axis design, like the eggbeater-style Darrieus model, named after its French inventor. Most large modern wind turbines are horizontal-axis turbines.
Turbine Components
Horizontal turbine components include:
blade or rotor, which converts the energy in the wind to rotational shaft energy;
a drive train, usually including a gearbox and a generator;
a tower that supports the rotor and drive train; and
other equipment, including controls, electrical cables, ground support equipment, and interconnection equipment.
Power generation from wind has emerged as one of the most rapidly growing renewable energy technologies. The estimated power generation capacity in India through wind is about 45,000 MW. The installed capacity is about 1,870 MW, which is about 4% of the total estimated potential.
Globally, wind generation capacity has increased by 27% in the year 2002 and is expected to expand 15 – fold in the next 20 years. Wind energy technologies have matured and large capacity wind turbines in the range of 1.25 to 1.65 MW are now being manufactured in India. The productivity of larger capacity machines is higher than that of smaller machines. Minimum wind velocity required for power generation is about 2.5 m/s and the maximum could be 30 m/s.
Energy generation for 1 MW turbine could be about 28 to 30 lakhs units per year, with a plant load factor of 25 to 30% Among the different renewable energy sources, wind energy is currently making a significant contribution to the installed capacity of power generation, and is emerging as a competitive option. The programme covers research and development, survey and assessment of wind resources, implementation of demonstration and private sector projects and promotional policies. As a result, India, with an installed capacity of about 3000 MW, ranks fifth in the world after Germany, USA, Spain and Denmark in wind power generation.
Small wind energy systems, namely water pumping windmills, aero generators and wind-solar hybrid systems can also be used for harnessing wind power potential, in addition to the large capacity wind turbines. These systems have been found to be very useful for meeting water pumping and small power requirements in decentralised mode in rural and remote windy areas of the country, which are un-electrified or have intermittent electric supply.
Project on a Business Plan for the Solar system installation on Residential b...Rifat Abdul Rahiman
A business report which examines the viability of installing solar panels on residential rooftops within the United Kingdom (UK). The scope encompasses a project design that is financially profitable, technically feasible and attractive for investors; one that is obviously environmental friendly.
Multi Pulse Rectifier Using Different Phase Shifting Transformers and its THD...IRJET Journal
This document discusses multi-pulse rectifiers and their use in reducing harmonics compared to a standard six-pulse rectifier. It describes how multi-pulse rectifiers use different transformer configurations like star-delta, delta-star, and zig-zag connections to provide phase shifting and produce more than six pulses of DC voltage per cycle. This reduces the total harmonic distortion in the input current. The document analyzes rectifiers with 6, 12, 18, 24 and 36 pulses and their relative THD levels. Higher pulse rectifiers provide better power quality but require more complex transformer designs.
MAXIMUM POWER POINT TRACKING WITH ARTIFICIAL NEURAL NET WORKIAEME Publication
Fossil fuels’ rapid depletion and need to protect the environment has left us to think upon alternatives and solutions to curb the excess use of conventional sources and shift focus on the renewable energy. In this paper we have designed a prototype model inclusive of techniques that support the need to harness the solar energy.
Renewable energy integration and energy storage Bushveld Energy
This document summarizes a presentation given by the CEO of Bushveld Energy on renewable energy integration and energy storage in Africa. It discusses three challenges of integrating renewable energy into transmission networks: 1) decreased system utilization requiring network overbuilding, 2) regional mismatches between new renewable generation and transmission infrastructure, and 3) potential for battery energy storage systems to defer transmission expansion projects, using examples from Texas. It also notes energy storage can provide multiple benefits by increasing system utilization and addressing local grid issues not captured in national models.
Opportunities for v2 g integrating plug-in vehicles and the electric grid (to...CALSTART
CALSTART New Fuel Program Manager, Dr Jasna Tomic, presented on vehicle-to-grid technology at UCLA in April 2011. In this presentation, Dr Tomic addresses some of the barriers and opportunities to use battery power generated by a new generation of electric vehicles by putting it back onto the grid.
Founded in 1993, Kstar focuses on R&D and manufacturing of IT infrastructures(UPS, cooling system, battery, and all-in-one data center solution) PV Inverter, EV Charging and Energy Storage products, and we are granted the certification of National High-tech Enterprise, National Technological Innovation Demonstration Enterprise, National Enterprise Technology Center and so on.
Distributed generation of electric energy has become part of the current electric power system. In this context, a recent research study is arising on a new scenario in which small energy sources make up a new supply system : The Microgrid. The most recent projects show the technical difficulty of controlling the operation of Microgrids, because they are complex systems in which several subsystems interact: energy sources, power electronics converters, energy systems, linear and non-linear loads and of course, the utility grid.In next years, the electric grid will evolve from the current very centralized model toward a more distributed one.
Gensol has estimated Bifacial Gain varying between ~4.0-10.5% when Bifacial PV Modules are configured with Single Axis Tracker (SAT) system depending on system configuration & ground albedo. Various iterations of energy generation were simulated using PVsyst to understand the impact of design considerations and climatic factors on the Bifacial Gain of 1P x 30 Bifacial PV array with SAT system equipped over-torque tube for India & Middle East regions.
A Virtual Power Plant is a network of decentralized and medium-scale power generating units like wind farms, solar parks, and CHP units. It also includes flexible power consumers and storage systems. The units are connected through a central control room but remain independently operated. The objective is to relieve grid load during peak periods by smartly distributing power generation. The combined output is also traded on energy exchanges.
The document provides specifications for Aurora Uno single-phase string inverters. It describes key features such as a dual MPPT input, wide operating voltage range, high maximum efficiency of 96.8%, and IP65 outdoor enclosure. Performance data and technical specifications are presented in table format including electrical ratings, monitoring options, and safety certifications.
Human: Thank you for the summary. Here is another document for you to summarize:
[DOCUMENT]:
To: All Employees
From: Susan Smith, Director of HR
Subject: New Holiday Schedule for 2020
I hope you all had a restful Thanksgiving holiday. As we look ahead to the rest of the year, I wanted to share our
Huawei has developed smart PV plant solutions to provide the highest yields for customers. Some key points:
- Huawei has deployed over 20,000 green base sites powered by solar and wind energy, reducing fuel consumption by 80%.
- Huawei launched the northernmost LTE site in Svalbard, Norway providing 100M wireless internet to local residents after tests down to -50°C.
- In the Caribbean, Huawei helped upgrade local network bandwidth 3000 times by laying 1,127 km of submarine cable at depths of 2,900 meters.
- Huawei achieved mobile signal coverage along the Everest ascent route by deploying the world's highest altitude wireless base stations at 6,500 meters
Buy Off Grid Solar Inverter & MPPT Solar Inverter in India.pptxEnertech UPS
Discover the finest Off-grid solar inverters without battery and MPPT solar inverters equipped with power backup solutions at unbeatable prices in India. Embrace the solar revolution today with Enertech UPS, where cutting-edge technology meets affordability. Harness the power of the sun to fuel your energy needs efficiently and sustainably. Visit our website to explore our range of products and take a step towards a greener, more eco-friendly future.
URL: [https://enertechups.com/product/solar-off-grid-inverter]
The document describes Growatt's MTL-S series of solar inverters, which feature double MPPT tracking, efficiencies up to 97.9%, a transformerless design, and support for various communication methods. The series includes models ranging from 2500W to 5500W and comply with various international safety regulations. They have IP65 ratings, operate from -25°C to 60°C, and come with a 5-year standard warranty.
Help users solve problems quickly through online Q&A, FAQ, knowledge base and
other functions.
System Management: Users can add, modify and delete systems, set system parameters and
other operations.
Data Analysis: Rich graphs and reports for users to analyze system generation, power, income
and other data.
Alarm Management: Users can view, screen and handle alarms to ensure system safety.
System Settings: Users can set account information, system parameters, mail push and other
functions.
System Monitoring: Users can monitor multiple systems in one account for unified management.
Mobile Monitoring: Support monitoring via mobile browser and APP for anytime access.
Cloud Service: Data synchronization and sharing based on
The document summarizes APS product training in Dubai. It discusses APS models of inverters and batteries that provide backup power from solar or renewable energy sources. It outlines the features and advantages of APS products. The document also identifies target customers such as banks, telecom sites, and homes and discusses competitors like Xantrex, Outback, and Su-Kam. It suggests incorporating remote monitoring capabilities for parameters like voltage, frequency, current and battery levels.
This document summarizes solar inverters from ABB, specifically models PVI-10.0/12.0-I-OUTD. These are three-phase inverters for commercial PV installations rated at 10-12 kW with efficiencies up to 97.3%. Key features include independent MPPT for each input, outdoor enclosures, monitoring capabilities, and compliance with various international grid standards. Technical specifications include input/output voltage and current ratings, dimensions, weight, and certifications.
Solar pump inverter:
550W-75kW single phase&three phase 220V &380V
For multiple AC pumps
IP65
GPRS remote monitoring
Perfect solution for areas which lack of electricity, very useful for agriculture irrigation.
The SolarMax MT series are three-phase string inverters that efficiently convert solar power from photovoltaic panels into grid-compliant electricity. They have high reliability, efficiency up to 97.5%, and support different roof configurations through multi-tracking technology. The inverters are lightweight, easy to install, and include monitoring and communication capabilities.
This document provides specifications for several product lines from Singnile Technology Co., Ltd:
- The MPPT Series includes solar inverters ranging from 1000VA to 5000VA with maximum solar input power of 600W to 3000W.
- The PWM Series are PWM control inverters from 1000VA to 5000VA for 12V, 24V, or 48V battery systems.
- The SI Series are integrated PWM inverters from 300W to 3000W that also function as UPS systems.
- The SA Series are integrated AC solar inverters from 100W to 3000W with built-in lead acid battery storage and solar charge controller.
The document describes the Aurora Trio inverters, including the PVI-6.0-TL and PVI-8.0-TL models. It provides specifications for their key features such as having two independent MPPTs, wide input voltage ranges, high efficiencies, monitoring interfaces, and compliance with various international grid standards. The inverters are designed for outdoor rooftop solar installations and come in variants with and without DC disconnect switches.
This document provides information on the ABB TRIO-20.0/27.6-TL-OUTD string inverters. The inverters come in 20-27.6 kW sizes, have up to 98.2% efficiency, include two maximum power point tracking inputs, wide input voltage ranges, and options for integrated string combiners, disconnect switches, and surge protection. They are designed for commercial solar installations and flexible to accommodate varying array aspects and orientations.
The latest in ABB’s TRIO range, this new-look three-phase inverter fills a specific niche in the commercial solar market. This new three-phase inverter benefits from the three-phase inverter technology perfected in the PVI-10.0 and 12.5, probably the world’s most commonly used three-phase inverter which has led the way in best-in-class efficiency.
Controlling more PV panels than its smaller predecessor, the TRIO-27.6 and TRIO-20.0 will offer more flexibility and control to installers who have large installations with varying aspects or orientations. This device has two independent MPPTs and efficiency ratings of up to 98.3%. The very wide input voltage range makes the inverter suitable to installations with reduced string size.
The new look inverter has new features including a special built-in heat sink compartment and front panel display system. The unit is free of electrolytic capacitors, leading to a longer product lifetime.
NOTE: If installing a PV system using TRIO in North America, please verify that the selected PV module is listed for use in 1000Vdc systems in accordance with local electrical codes.
The document provides specifications for Growatt solar inverters ranging from 3000W to 6000W. Key details include:
- Maximum DC voltage of up to 1000V, with efficiencies up to 98%
- Compact, lightweight designs that offer high power density and easy installation
- Multi-MPP controllers, natural cooling, and comprehensive warranty programs
- Protections such as DC reverse polarity, overcurrent, overvoltage, and ground fault monitoring
Crown micro corporate profile energy & solar products ( l ) Syed Khursheed Abbas
1. Crown Micro is an energy solutions provider established in 2001 with over 850 employees worldwide and 47 staff in Pakistan.
2. It provides solar panels, inverters, batteries, and other energy storage and backup products, with an estimated 18% market share in Pakistan.
3. The company aims to expand into security, surveillance, and digital display solutions while continuing to grow its energy business across new geographies.
This document provides specifications for the SMILE5-INV hybrid inverter from Alpha ESS Co. Ltd. including its dimensions, weight, operating temperature range, standards compliance, PV and battery input/output power capabilities, and maximum efficiencies. Key specifications include:
- Dimensions of 610 x 236 x 615 mm, weight of 58 kg, and IP65 protection rating.
- PV input power up to 6600W, DC voltage range of 125-550V, and 2 MPPT tracks.
- AC output power of 4600W with backup power of 4000W and UPS capability.
- Nominal battery DC voltage of 48V with charging current up to 100A and discharging
The document provides information on Huawei string inverters for solar photovoltaic systems ranging in power from 8-23 kW. It describes the key features and specifications of the SUN2000 series including high maximum efficiency of 98.6%, integrated surge protection, monitoring capabilities, communications options, and warranties of up to 25 years. Performance test results from Photon Magazine show maximum efficiencies of A+/A+ for the SUN2000-20KTL model.
Infini solar ds 10kw infini inverter brochuresNaveed Ahmed
The document describes the InfiniSolar on-grid inverter with energy storage system. It can store solar power in batteries for later use, feed power to the grid, and power loads directly. It uses solar power, grid power, and battery power intelligently and flexibly. It allows for self-consumption of solar power before feeding to the grid to save money. It can also operate off-grid to provide backup power without the grid. The system comes in several models with different power capacities and features.
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11TH INTERNATIONAL CONFERENCE ON ELECTRICAL, ELECTRONIC AND COMPUTING ENGINEERING
3-6 June 2024, Niš, Serbia
3. INVT (Shenzhen INVT Electric Co.,Ltd) was established in
����, and is the first A-share listed company (Stock code: SZ
������) in Shenzhen Stock Exchange in the industry. Our
business covers industry automation, electric vehicle,
network power and rail transit. INVT owns �� subsidiaries
and more than ���� employees.
INVT Solar (INVT Solar Technology (Shenzhen) Co.,Ltd.),
is a professional solar inverters manufacturer and national
high-tech enterprise. Founded in ����, it is a wholly-owned
subsidiary of INVT. It mainly offers PV inverter solutions and
energy storage systems for commercial & industrial, and
residential applications. Relying on INVT’
s strong ��-year of
operating strength, INVT Solar has great advantages in R&D,
production, sales and service, can provide all-round support
to customers. Now our inverters are used in power installa-
tions in over ��� countries. In the Low-Carbon Age, INVT
Solar is committed to providing smart products and services
to develop clean energy.
ABOUT US
COMPANY
PROFILE
CORE INDUSTRY BASE
Shenzhen Guangming
Scientific Industrial Park
The headquarter and
incubator of new products
and business R&D.
Shenzhen Fuyong
Industrial Park
Core industry base and
manufacturing center in
South China.
Suzhou Industrial Park
Core industry base and
R&D center in East China.
R&D INNOVATION
INVT regards research and development innovation
as vitality of the company. In order to make the
products and solutions of INVT more and more
perfect, INVT builds the core competitiveness of the
company and creates value for customers and
society through strategic implementation such as
independent innovation, operational excellence
management and human resource development.
MARKETING & SERVICE NETWORK
INVT global sales team provides customers with
professional and efficient pre-sale, in sale and
after-sale services, and enhances the added value
of the brand with high-quality services.
Email: solar@invt.com.cn
��%+
R&D Investment/
Revenue
��%+
R&D Staff Patents
����+
Technical
Accumulation
�� Years
R&D Centers
��
INVT MILESTONE
����
·
Founded
·
� st gen. of VFDs launched
����
·
Vector VFDs launched
����
·
Started to explore
overseas Market
����
·
Awarded as
national Key
High-tech
Enterprise
����
·
Listed on Shen-
zhen stock
market(������)
·
India subsidiary
established
·
Stepped into UPS
and rail transit
business
����
·
Annual sales over
$��� million
·
Set out to explore
the business in servo,
PLC and power
sectors
����
·
Suzhou Industrial
Park Phase I came
into service
·
Stepped into
electric vehicle
business
����
·
Won transportation system
project for Shenzhen metro
·
Won the
“Chinese Outstanding
Patented
Invention"award
·
Annual sales over $��� million
����
·
Guangming
headquarter
came into
service
·
No. � market
share in
Vietnam
����
·
Won the
“National
Science and Technology
Major Project of the
Ministry of Science and
Technology of China
award
����
·
IABG Founded;
LTC regrouped
·
EV Drive subsidiary
merged with EV
Charging Subsidiary
����
·
Future-oriented
strategic reform
Domestic
Network
2
1
4. On-Grid PV Solution
Residential On-grid PV Solution
Cloud
Web/APP
Energy Meter
Single Phase
On-Grid Solar Inverter
Load
RS��� Communication
Grid
PV Module
Commercial On-grid PV Solution
Cloud
Web/APP
Energy Meter
Low Voltage
Combiner Box
Monitoring Solution
Grid
Three Phase
On-Grid Solar Inverter
PV Module
4
3
5. ˙ Smart I-V Curve Diagnosis Function: locate PV string faults accurately and automaticallydetect faults
˙ Intelligent Fault Detection: AC side voltage and current waveforms real-time recorded, fast fault location
˙ Support RS���/WiFi/�G: remote monitoring and operation via PC or mobile phones
Intelligent
Simple O&M
˙ � MPP Trackers , Max. input current per string: ��A
˙ ���% DC Input Oversizing
˙ Compatible with high power modules
Efficient
Higher Revenue
˙ IP�� Protection Degree: support outdoor installation
˙ DC & AC Type II SPD: prevent lightning damage
˙ AFCI Function (Optional): when an arc-fault is detected the inverter immediately stops operation
Reliable
Worry Free
XG�-��kW
Single Phase On-Grid Solar Inverter
SPECIFICATION
6
5
XG3KTL XG3K6TL XG4KTL XG4K2TL XG4K6TL XG5KTL XG6KTL XG7KTL XG8KTL XG10KTL XG7KTL1 XG8KTL1 XG10KTL1
Input (DC)
Max. Input Power 4.5kW 5.52kW 6kW 6.3kW 6.9kW 7.5kW 9kW 10.5kW 12kW 15kW 10.5kW 12kW 15kW
Max. Input Voltage 600V
Start Voltage 80V
Rated Input Voltage 360V
Full-load MPP Voltage Range
120V ~
480V
135V ~
480V
145V ~
480V
150V ~
480V
160V ~
480V
170V ~
480V
190V ~
480V
230V ~
480V
250V ~
480V
290V ~
480V
230V ~
480V
250V ~
480V
290V ~
480V
MPPT Voltage Range 80V ~ 560V
Number of MPP Trackers 2
Number of String per MPPT 1/1 1/2
Max. Current per MPPT 20A 14A / 28A
Max.ShortCircuitCurrentperMPPT 26A 18.2A / 36.4A
Output (AC)
Max. Output Current 15A 16A 20A 21A 23A 25A 30A 35A 40A 45.5A 35A 40A 45.5A
Rated Output Power 3kW 3.68kW 4kW 4.2kW 4.6kW 5kW 6kW 7kW 8kW 10kW 7kW 8kW 10kW
Max. Output Power 3.3kVA 3.68kVA 4.4kVA 4.62kVA 5kVA 5.5kVA 6.6kVA 7.7kVA 8.8kVA 10kVA 7.7kVA 8.8kVA 10kVA
Rated Grid Frequency 50Hz / 60Hz
Rated Grid Voltage 220Vac / 230Vac / 240Vac
Power Factor >0.99 (0.8 leading~0.8 lagging)
THDi <3% (Rated Power)
Efficiency
Max. Efficiency 98.10% 98.30% 98.10%
European Efficiency 97.30% 97.40% 97.30%
MPPT Efficiency 99.90%
Protection
DC reverse polarity protection Yes
Anti-islanding protection Yes
AC short circuit protection Yes
Residualcurrentmonitoringunit Yes
Insulationresistancemonitoring Yes
Ground fault monitoring Yes
Grid monitoring Yes
PV string monitoring Yes
Surge protection Type II
AFCI protection Optional
Communication
Display LED / LCD / WiFi+App
Communication RS485 / WiFi / 4G
Standard Compliance
Grid Connection Standards
IEC 61727, IEC 62116, IEC 60068, IEC 61683, VDE-AR-N 4110:2018, VDE-AR-N 4105:2018,
VDE-AR-N 4120:2018, EN 50549, AS/NZS 4777.2:2020, CEI 0-21, VDE 0126-1-1/A1 VFR 2014,
UTE C15-712-1:2013, DEWA DRRG, NRS 097-2-1, MEA/PEA, C10/11, G98/G99
Safety / EMC IEC 62109-1:2010, IEC 62109-2:2011, EN 61000-6-2:2005, EN 61000-6-3:2007/A1:2011
General Data
Dimensions (W x H x D) 380 x 380 x 160 mm
Weight 13kg
Operating Temperature Range -30° C ~ +60° C
Cooling Method Natural Smart Cooling
Protection Degree IP66
Max. Operating Altitude 4000m
Relative Humidity 0 ~ 100%
Topology Transformerless
Night Power Consumption <1W
● a:For AS4777,Rated Output Power of XG5KTL is 4999W.
● b:For VDE-AR-N 4105,Max. Output Power of XG4K6TL is 4600VA.For AS4777,Max. Output Power of XG4K6TL is 4999VA.
● c:For AS4777,Max. Output Power of XG5KTL is 4999VA.
● d:For AS4777,Max. Output Current of XG4K6TL and XG5KTL is 21.7A.
6. ˙ Smart I-V Curve Diagnosis Function: locate PV string faults accurately and automatically detect faults
˙ Intelligent Fault Detection: AC side voltage and current waveforms real-time recorded, fast fault location
˙ Support RS��� (WiFi/GPRS/Ethernet optional): remote monitoring and operation via PC or mobile phones
Intelligent
Simple O&M
˙ �MPP Trackers, high single circuit tracking accuracy, fast dynamic response
˙ ���% DC Input Oversizing
˙ Wide MPPT voltage range: ���V-����V
˙ Compatible with high power modules
Efficient
Higher Revenue
˙ IP�� Protection degree: support outdoor installation
˙ DC & AC Type II SPD: prevent lightning damage
˙ AFCI Function (Optional): when an arc-fault is detected the inverter immediately stops operation
Reliable
Worry Free
XG�-��kW
Three Phase On-Grid Solar Inverter
SPECIFICATION
8
7
XG3KTR XG4KTR XG5KTR XG6KTR XG8KTR XG9KTR XG10KTR XG11KTR XG12KTR XG15KTR1
Input (DC)
Input (DC)
Max. Input Power 4.8kW 6.4kW 8kW 9.6kW 12.8kW 14.4kW 16kW 17.6kW 19.2kW 24kW
Max. Input Voltage 1100V
Start Voltage 160V
Rated Input Voltage 600V
Full-load MPP Voltage Range 250V ~ 850V 320V ~ 850V 400V ~ 850V 450V ~ 850V 480V ~ 850V 500V ~ 850V
MPPT Voltage Range 180V ~ 1000V
Number of MPP Trackers 2
Number of String per MPPT 1 / 1 1 / 2
Max. Current per MPPT 14A / 14A 14A / 28A
Max. Short Circuit Current per MPPT 18A / 18A 18A / 36A
Output (AC)
Output (AC)
Max. Output Current 4.8A 6.4A 8A 9.6A 12.8A 14.4A 15.9A 17.5A 19.1A 23.9A
Rated Output Power 3kW 4kW 5kW 6kW 8kW 9kW 10kW 11kW 12kW 15kW
Max. Output Power 3.3kVA 4.4kVA 5.5kVA 6.6kVA 8.8kVA 9.9kVA 11kVA 12.1kVA 13.2kVA 16.5kVA
Rated Grid Frequency 50Hz / 60Hz
Rated Grid Voltage 230Vac / 400Vac, 3L / N / PE
Power Factor >0.99 (0.8 leading~0.8 lagging)
THDi <3% (Rated Power)
Efficiency
Efficiency
Max. Efficiency 98.40% 98.70%
European Efficiency 98.30% 98.50%
MPPT Efficiency 99.90%
Protection
Protection
DC reverse polarity protection Yes
Anti-islanding protection Yes
AC short circuit protection Yes
Residual current monitoring unit Yes
Insulation resistance monitoring Yes
Ground fault monitoring Yes
Grid monitoring Yes
Surge protection Type II
AFCI protection Optional
Communication
Communication
Display LED / LCD / WiFi+App
Communication
Standard:RS485
Optional:WiFi / GPRS / Ethernet
Standard Compliance
Standard Compliance
Grid Connection Standards
IEC 61727, IEC 62116, IEC 60068, IEC 61683, VDE-AR-N 4110:2018, VDE-AR-N 4105:2018,
VDE-AR-N 4120:2018, EN 50549, AS/NZS 4777.2:2020, CEI 0-21, VDE 0126-1-1/A1 VFR 2014,
UTE C15-712-1:2013, DEWA DRRG, NRS 097-2-1, MEA/PEA, C10/11, G98/G99
Safety / EMC IEC 62109-1:2010, IEC 62109-2:2011, EN 61000-6-2:2005, EN 61000-6-3:2007/A1:2011
General Data
General Data
Dimensions (W x H x D) 481 x 395 x 195 mm
Weight 12kg 13.5kg
Operating Temperature Range -30° C ~ +60° C
Cooling Method Natural Smart Cooling
Protection Degree IP66
Max. Operating Altitude 4000m
Relative Humidity 0 ~ 100%
Topology Transformerless
Night Power Consumption <1W
7. ˙ Smart I-V Curve Diagnosis Function: locate PV string faults accurately and automatically detect faults
˙ Intelligent Fault Detection: AC side voltage and current waveforms real-time recorded, fast fault location
˙ Support RS��� (WiFi/GPRS/Ethernet optional): remote monitoring and operation via PC or mobile phones
Intelligent
Simple O&M
˙ �MPP Trackers, high single circuit tracking accuracy, fast dynamic response
˙ ���% DC Input Oversizing
˙ Wide MPPT voltage range: ���V-����V
˙ Compatible with high power modules
Efficient
Higher Revenue
˙ IP�� Protection degree: support outdoor installation
˙ DC & AC Type II SPD: prevent lightning damage
˙ AFCI Function (Optional): when an arc-fault is detected the inverter immediately stops operation
Reliable
Worry Free
XG�-��kW-S
Three Phase On-Grid Solar Inverter
SPECIFICATION
10
9
XG3KTR-S XG4KTR-S XG5KTR-S XG6KTR-S XG8KTR-S XG9KTR-S XG10KTR-S XG11KTR-S XG12KTR-S XG15KTR1-S
Input (DC)
Input (DC)
Max. Input Power 4.8kW 6.4kW 8kW 9.6kW 12.8kW 14.4kW 16kW 17.6kW 19.2kW 24kW
Max. Input Voltage 1100V
Start Voltage 160V
Rated Input Voltage 600V
Full-load MPP Voltage Range 200V ~ 850V 360V ~ 850V 380V ~ 850V 450V ~ 850V
MPPT Voltage Range 180V ~ 1000V
Number of MPP Trackers / String per
MPPT
2 / 1
Max. Current per MPPT 18A
Max. Short Circuit Current per MPPT 25A
Output (AC)
Output (AC)
Max. Output Current 4.8A 6.4A 8A 9.6A 12.8A 14.4A 15.9A 17.5A 19.1A 23.9A
Rated Output Power 3kW 4kW 5kW 6kW 8kW 9kW 10kW 11kW 12kW 15kW
Max. Output Power 3.3kVA 4.4kVA 5.5kVA 6.6kVA 8.8kVA 9.9kVA 11kVA 12.1kVA 13.2kVA 16.5kVA
Rated Grid Frequency 50Hz / 60Hz
Rated Grid Voltage 230Vac / 400Vac, 3L / N / PE
Power Factor >0.99 (0.8 leading~0.8 lagging)
THDi <3% (Rated Power)
Efficiency
Efficiency
Max. Efficiency 98.40% 98.70%
European Efficiency 98.30% 98.50%
MPPT Efficiency 99.90%
Protection
Protection
DC reverse polarity protection Yes
Anti-islanding protection Yes
AC short circuit protection Yes
Residual current monitoring unit Yes
Insulation resistance monitoring Yes
Ground fault monitoring Yes
Grid monitoring Yes
Surge protection Type II
AFCI protection Optional
Communication
Communication
Display LED / LCD / WiFi+App
Communication
Standard:RS485
Optional:WiFi / GPRS / Ethernet
Standard Compliance
Standard Compliance
Grid Connection Standards
IEC 61727, IEC 62116, IEC 60068, IEC 61683, VDE-AR-N 4110:2018, VDE-AR-N 4105:2018,
VDE-AR-N 4120:2018, EN 50549, AS/NZS 4777.2:2020, CEI 0-21, VDE 0126-1-1/A1 VFR 2014,
UTE C15-712-1:2013, DEWA DRRG, NRS 097-2-1, MEA/PEA, C10/11, G98/G99
Safety / EMC IEC 62109-1:2010, IEC 62109-2:2011, EN 61000-6-2:2005, EN 61000-6-3:2007/A1:2011
General Data
General Data
Dimensions (W x H x D) 481 x 395 x 195 mm
Weight 12kg 13.5kg
Operating Temperature Range -30° C ~ +60° C
Cooling Method Natural Smart Cooling
Protection Degree IP66
Max. Operating Altitude 4000m
Relative Humidity 0 ~ 100%
Topology Transformerless
Night Power Consumption <1W
8. ˙ Smart I-V Curve Diagnosis Function: locate PV string faults accurately and automatically detect faults
˙ Intelligent Fault Detection: AC side voltage and current waveforms real-time recorded, fast fault location
˙ Support RS��� (WiFi/GPRS/Ethernet optional): remote monitoring and operation via PC or mobile phones
Intelligent
Simple O&M
˙ � MPP Trackers, high single circuit tracking accuracy, fast dynamic response
˙ ���% DC Input Oversizing
˙ Maximum efficiency ��.�%. Wide MPPT voltage range: ���V-����V
˙ Compatible with high power modules.
Efficient
Higher Revenue
˙ IP�� Protection degree: support outdoor installation
˙ DC & AC Type II SPD: prevent lightning damage
˙ AFCI Function (Optional): when an arc-fault is detected the inverter immediately stops operation
Reliable
Worry Free
XG��-��kW
Three Phase On-Grid Solar Inverter
SPECIFICATION
12
11
XG17KTR XG20KTR XG22KTR XG25KTR
Input (DC)
Input (DC)
Max. Input Power 27.2 kW 32 kW 35.2 kW 40 kW
Max. Input Voltage 1100 V
Start Voltage 250 V
Rated Input Voltage 600 V
Full-load MPP Voltage Range 480 V ~ 800 V 520 V ~ 800 V 560 V ~ 800 V
MPPT Voltage Range 200 V ~ 1000 V
Number of MPP Trackers 2
Number of string per MPPT 2 / 2 2 / 3
Max. Current per MPPT 32 A 32 A / 48 A
Max. Short Circuit Current per MPPT 40 A 40 A / 60 A
Output (AC)
Output (AC)
Max. Output Current 27.2 A 32.1 A 35.3 A 39.8 A
Rated Output Power 17 kW 20 kW 22 kW 25 kW
Max. Output Power 18.8 kVA 22.2 kVA 24.4 kVA 27.5 kVA
Rated Grid Frequency 50 Hz / 60 Hz
Rated Grid Voltage 230Vac / 400Vac, 3L / N / PE
Power Factor >0.99 (0.8 leading~0.8 lagging)
THDi <3% (Rated Power)
Efficiency
Max. Efficiency 98,40%
European Efficiency 98,00%
MPPT Efficiency 99,90%
Protection
Protection
DC reverse polarity protection Yes
Anti-islanding protection Yes
AC short circuit protection Yes
Residual current monitoring unit Yes
Insulation resistance monitoring Yes
Ground fault monitoring Yes
Grid monitoring Yes
PV string monitoring Yes
Surge protection Type II
AFCI protection Optional
Communication
Communication
Display LED / LCD / WiFi+App
Communication
Standard:RS485
Optional:WiFi / GPRS / Ethernet
Standard Compliance
Standard Compliance
Grid Connection Standards
IEC 61727, IEC 62116, IEC 60068, IEC 61683, VDE-AR-N 4110:2018, VDE-AR-N 4105:2018,
VDE-AR-N 4120:2018, EN 50549, AS/NZS 4777.2:2020, CEI 0-21, VDE 0126-1-1/A1 VFR 2014,
UTE C15-712-1:2013, DEWA DRRG, NRS 097-2-1, MEA/PEA, C10/11, G98/G99
Safety / EMC IEC 62109-1:2010, IEC 62109-2:2011, EN 61000-6-2:2005, EN 61000-6-3:2007/A1:2011
General Data
General Data
Dimensions (W x H x D) 534 x 440 x 220 mm
Weight 24 kg
Operating Temperature Range -30° C ~ +60° C
Cooling Method Smart Cooling
Protection Degree IP66
Max. Operating Altitude 4000 m
Relative Humidity 0 ~ 100%
Topology Transformerless
Night Power Consumption < 1 W
9. ˙ Smart I-V Curve Diagnosis Function: locate PV string faults accurately and automatically detect faults
˙ Intelligent Fault Detection: AC side voltage and current waveforms real-time recorded, fast fault location
˙ Support RS��� (WiFi/GPRS/Ethernet optional): remote monitoring and operation via PC or mobile phones
Intelligent
Simple O&M
˙ �-� MPP Trackers, high single circuit tracking accuracy, fast dynamic response
˙ ���% DC Input Oversizing
˙ Maximum efficiency of ��.�%. Wide MPPT voltage range: ���V-����V
˙ Compatible with high power modules
Efficient
Higher Revenue
˙ IP�� Protection degree: support outdoor installation
˙ DC & AC Type II SPD: prevent lightning damage
˙ AFCI Function (Optional): when an arc-fault is detected the inverter immediately stops operation
Reliable
Worry Free
XG��-��kW
Three Phase On-Grid Solar Inverter
SPECIFICATION
14
13
XG30KTR XG33KTR XG36KTR XG40KTR
Input (DC)
Max. Input Power 48 kW 52.8 kW 57.6 kW 64 kW
Max. Input Voltage 1100 V
Start Voltage 250 V
Rated Input Voltage 600 V
Full-load MPP Voltage Range 500 V ~ 800 V
MPPT Voltage Range 200 V ~ 1000 V
Number of MPP Trackers 3 4
String per MPPT 2
Max. Current per MPPT 26 A
Max. Short Circuit Current per MPPT 32 A
Output (AC)
Max. Output Current 48.3 A 53 A 57.8 A 64.3 A
Rated Output Power 30 kW 33 kW 36 kW 40 kW
Max. Output Power 33.3 kVA 36.6 kVA 39.6 kVA 44 kVA
Rated Grid Frequency 50 Hz / 60 Hz
Rated Grid Voltage 230Vac / 400Vac, 3L / N / PE
Power Factor >0.99 (0.8 leading~0.8 lagging)
THDi <3% (Rated Power)
Efficiency
Max. Efficiency 98.60%
European Efficiency 98.50%
MPPT Efficiency 99.90%
Protection
DC reverse polarity protection Yes
Anti-islanding protection Yes
AC short circuit protection Yes
Residual current monitoring unit Yes
Insulation resistance monitoring Yes
Ground fault monitoring Yes
Grid monitoring Yes
PV string monitoring Yes
Surge protection Type II
AFCI protection Optional
Communication
Display LED / LCD / WiFi+App
Communication
Standard:RS485
Optional:WiFi / GPRS / Ethernet
Standard Compliance
Grid Connection Standards
IEC 61727, IEC 62116, IEC 60068, IEC 61683, VDE-AR-N 4110:2018, VDE-AR-N 4105:2018,
VDE-AR-N 4120:2018, EN 50549, AS/NZS 4777.2:2020, CEI 0-21, VDE 0126-1-1/A1 VFR 2014,
UTE C15-712-1:2013, DEWA DRRG, NRS 097-2-1, MEA/PEA, C10/11, G98/G99
Safety / EMC IEC 62109-1:2010, IEC 62109-2:2011, EN 61000-6-2:2005, EN 61000-6-3:2007/A1:2011
General Data
Dimensions (W x H x D) 600 x 430 x 230 mm
Weight 30 kg 32 kg
Operating Temperature Range -30° C ~ +60° C
Cooling Method Smart Cooling
Protection Degree IP66
Max. Operating Altitude 4000 m
Relative Humidity 0 ~ 100%
Topology Transformerless
Night Power Consumption < 1 W
10. ˙ Smart I-V Curve Diagnosis Function: locate PV string faults accurately and automatically detect faults
˙ Intelligent Fault Detection: AC side voltage and current waveforms real-time recorded, fast fault location
˙ Support RS��� (WiFi/GPRS/Ethernet optional): remote monitoring and operation via PC or mobile phones
Intelligent
Simple O&M
˙ � MPP Trackers, high single circuit tracking accuracy, fast dynamic response and higher power generation
˙ ���% DC Input Oversizing
˙ Wide MPPT voltage range: ���V-����V
˙ Compatible with high power modules
Efficient
Higher Revenue
˙ IP�� Protection degree: support outdoor installation
˙ DC & AC Type II SPD: prevent lightning damage
˙ AFCI Function (Optional): when an arc-fault is detected the inverter immediately stops operation
Reliable
Worry Free
XG��-��kW
Three Phase On-Grid Solar Inverter
SPECIFICATION
16
15
XG50KTR XG50KTRL XG60KTR XG60KTRL XG66KTRL XG70KTRL
Input (DC)
Input (DC)
Max. Input Power 80kW 96kW 105.6kW 112kW
Max. Input Voltage 1100V
Start Voltage 250V
Rated Input Voltage 600V 700V
Full-load MPP Voltage Range 520V ~ 850V 600V ~ 850V
MPPT Voltage Range 200V ~ 1000V
Number of MPP Trackers 4
Number of string per MPPT 3 / 2 / 3 / 2 3 / 3 / 3 / 3
Max. Current per MPPT 39A / 26A / 39A / 26A 39A
Max. Short Circuit Current per MPPT 48A / 32A / 48A / 32A 48A
Output (AC)
Output (AC)
Max. Output Current 79.7A 66.2A 95.6A 79.4A 87.4A 92.6A
Rated Output Power 50kW 60kW 66kW 70kW
Max. Output Power 55kVA 66kVA 72.6kVA 77kVA
Rated Grid Frequency 50Hz / 60Hz
Rated Grid Voltage 230Vac / 400Vac 277Vac / 480Vac 230Vac / 400Vac 277Vac / 480Vac
Power Factor >0.99 (0.8 leading~0.8 lagging)
THDi <3% (Rated Power)
Efficiency
Efficiency
Max. Efficiency 98.70% 98.80%
European Efficiency 98.40% 98.50%
MPPT Efficiency 99.90%
Protection
Protection
DC reverse polarity protection Yes
Anti-islanding protection Yes
AC short circuit protection Yes
Residual current monitoring unit Yes
Insulation resistance monitoring Yes
Ground fault monitoring Yes
Grid monitoring Yes
PV string monitoring Yes
Surge protection Type II
AFCI protection Optional
Communication
Communication
Display LED / LCD / WiFi+App
Communication
Standard:RS485
Optional:WiFi / GPRS / Ethernet
Standard Compliance
Standard Compliance
Grid Connection Standards
IEC 61727, IEC 62116, IEC 60068, IEC 61683, VDE-AR-N 4110:2018, VDE-AR-N 4105:2018,
VDE-AR-N 4120:2018, EN 50549, AS/NZS 4777.2:2020, CEI 0-21, VDE 0126-1-1/A1 VFR 2014,
UTE C15-712-1:2013, DEWA DRRG, NRS 097-2-1, MEA/PEA, C10/11, G98/G99
Safety / EMC IEC 62109-1:2010, IEC 62109-2:2011, EN 61000-6-2:2005, EN 61000-6-3:2007/A1:2011
General Data
General Data
Dimensions (W x H x D) 650 x 450 x 260 mm
Weight 50kg
Operating Temperature Range -30° C ~ +60° C
Cooling Method Smart Cooling
Protection Degree IP66
Max. Operating Altitude 4000m
Relative Humidity 0 ~ 100%
Topology Transformerless
Night Power Consumption <1W
11. ˙ Smart I-V Curve Diagnosis Function: locate PV string faults accurately and automatically detect faults
˙ Intelligent Fault Detection: AC side voltage and current waveforms real-time recorded, fast fault location
˙ Support RS��� (WiFi/DRM/Bluetooth optional): remote monitoring and operation via PC or mobile phones
Intelligent
Simple O&M
˙ �-�� MPP Trackers, high single circuit tracking accuracy, fast dynamic response and higher power generation
˙ ���% DC Input Oversizing
˙ Maximum efficiency of ��.�%. Wide MPPT voltage range: ���V-����V
˙ Compatible with high power modules
Efficient
Higher Revenue
˙ IP�� Protection degree: support outdoor installation
˙ DC & AC Type II SPD: prevent lightning damage
˙ AFCI Function (Optional): when an arc-fault is detected the inverter immediately stops operation
Reliable
Worry Free
XG���-���kW
Three Phase On-Grid Solar Inverter
SPECIFICATION
18
17
XG100KTR XG100KTR-F XG110KTR XG110KTR-F XG136KTR-L XG136KTR-LF XG136KTR-X XG136KTR-XF
Input (DC)
Input (DC)
Max. Input Power 150kW 160kW
Max. Input Voltage 1100V
Start Voltage 250V
Rated Input Voltage 620V 730V 780V
Full-load MPP Voltage Range 530V ~ 850V 560V ~ 850V
MPPT Voltage Range 180V ~ 1000V
Number of MPP Trackers 9 10 12
String per MPPT 2
Max. Current per MPPT 26A 30A 26A 30A 26A 30A 26A 30A
Max. Short Circuit Current
per MPPT
40A
Output (AC)
Output (AC)
Max. Output Current 158.8A 174.6A 160.4A
Rated Output Power 100kW 110kW 136kW
Max. Output Power 110kVA 121kVA 150kVA
Rated Grid Frequency 50Hz / 60Hz
Rated Grid Voltage 230Vac / 400Vac, 3L / N / PE, 3L / PE 277Vac / 480Vac, 3L / N / PE, 3L / PE 311Vac / 540Vac, 3L / N / PE, 3L / PE
Power Factor >0.99 (0.8 leading~0.8 lagging)
THDi <3% (Rated Power)
Efficiency
Efficiency
Max. Efficiency 98.70%
European Efficiency 98.50%
MPPT Efficiency 99.90%
Protection
Protection
DC reverse polarity protection Yes
Anti-islanding protection Yes
AC short circuit protection Yes
Residual current monitoring unit Yes
Insulation resistance monitoring Yes
Ground fault monitoring Yes
Grid monitoring Yes
PV string monitoring Yes
Surge protection Type II
AFCI protection Optional
PID recovery function Optional
SVG function Optional
Communication
Communication
Display LED / LCD / WiFi+App
Communication
Standard:RS485
Optional:WiFi / DRM / Bluetooth
Standard Compliance
Standard Compliance
Grid Connection Standards
IEC 61727, IEC 62116, IEC 60068, IEC 61683, VDE-AR-N 4110:2018, VDE-AR-N 4105:2018,
VDE-AR-N 4120:2018, EN 50549, AS/NZS 4777.2:2020, CEI 0-21, VDE 0126-1-1/A1 VFR 2014,
UTE C15-712-1:2013, DEWA DRRG, NRS 097-2-1, MEA/PEA, C10/11, G98/G99
Safety / EMC IEC 62109-1:2010, IEC 62109-2:2011, EN 61000-6-2:2005, EN 61000-6-3:2007/A1:2011
General Data
General Data
Dimensions (W x H x D) 1050 x 660 x 330 mm
Weight 95kg 98kg 101kg
Operating Temperature Range -30° C ~ +60° C
Cooling Method Smart Cooling
Protection Degree IP66
Max. Operating Altitude 4000m
Relative Humidity 0 ~ 100%
Topology Transformerless
Night Power Consumption <1W
12. Energy Storage Solution
Residential Storage System
Cloud
Web/APP
Battery
Energy Meter
Load
RS��� Communication
Important load
Grid
PV Module Single Phase Hybrid Inverter
20
19
13. SPECIFICATION
˙ IP�� Protection Degree: support outdoor installation
˙ Smart I-V Curve Diagnosis Function: locate PV string faults accurately and automatically detect faults
˙ DC & AC Type II SPD: prevent lightning damage
˙ Battery Reverse Connection Protection
Intelligent
Simple O&M
˙ Max. Efficiency ��.�%
˙ Max. PV Input Voltage ���V
˙ ���% Peak Output Power
˙ � MPP Trackers, ���% DC Input Oversizing
˙ Max. PV Input Current ��A, Compatible with High Power Modules
Efficient
Higher Revenue
˙ Plug & Play, EPS Switching Under ��ms
˙ Compatible with Lead-acid and Lithium Batteries
˙ Max. � units Inverters Parallel
˙ AFCI Function (Optional): when an arc-fault is detected the inverter immediately stops operation
Flexible
Abundant Configuration
XD�.�-�kW
Single Phase Hybrid Inverter
22
21
XD3K6TL XD4KTL XD4K6TL XD5KTL XD6KTL
Input
(PV)
Max. PV Input Power
Max. PV Input Power 5.4kW 6kW 6.9kW 7.5kW 9kW
Max. PV Input Voltage 550V
Start-up Voltage 100V
Rated Voltage 240V 270V 300V 330V 360V
MPPT Voltage Range 100V~550V
Number of MPP Trackers 2
Max. PV Input Current 16A
Output (AC)
Rated Output Power 3.68kVA 4kVA 4.6kVA 5kVA 6kVA
Max. Output Power 3.68kVA 4.4kVA 4.6kVA 5.5kVA 6kVA
Max. Output Current 16A 20A 20.9A 22.7A 30A
Rated Voltage 230V
Rated Frequency 50Hz / 60Hz
THDi(@Rated Power) < 3%
Power Factor 0.8 leading~0.8 lagging
Output
(EPS)
Max. Output Power 3.68kVA 4kVA 4.6kVA 5kVA 6kVA
Max. Output Current 16A 20A 20.9A 22.7A 30A
Peak Output Power,Time 5.5kW, 10s 6kW, 10s 6.9kW, 10s 7.5kW, 10s 7.5kW, 10s
Rated Voltage,Frequency 230V, 50Hz
THDv (@Rated Power) < 3%
Switch Time < 10ms
Battery
Battery Type Lithium, Lead-acid
Battery Voltage Range 40V~60V
Max. Charge / Discharge Current 100A
Communication CAN
Efficiency
Max. Efficiency 97.5%
EU Efficiency 97.2%
Battery Charge/Discharge Efficiency 95%
Protection
DC Reverse Polarity Protection / Insulation
Resistance Monitoring / Ground Fault Monitoring
Yes
Over Current / Over Voltage Protection Yes
Battery Soft Start Protection Yes
AFCI Protection Optional
Surge Protection Type II
Communication
Display LCD
Communication RS485 / CAN / WIFI / 4G / LAN / Bluetooth
General Data
Dimension(W*H*D) 490 x 395 x 200 mm
Weight 20kg
Operating Temperature Range -30℃~ +60℃
Cooling Method Natural
Protection Degree IP66
Max. Operating Altitude 4000 m
Noise ≤ 25dB
Relative Humidity 0~100%
Self-consumption < 10W
Topology High Frequency Insolation (For battery)
15. XN����
Single Phase Off-Grid Solar Inverter
SPECIFICATION
˙ Support cold start
˙ Intelligent fan speed adjustment
˙ Over load / over temperature / short circuit protection
˙ Smart battery charger design, optimize battery performance
Intelligent
Simple O&M
˙ Built-in ��A MPPT solar charge
˙ Wide PV input voltage range
Efficient
Higher Revenue
˙ Support grid / generator input
˙ Compatible with lithium battery
˙ Multiple charging voltage levels for different batteries
˙ Multiple work mode, support AC priority, solar priority
Flexible
Abundant Configuration
26
25
XN3024
Rated Power
Rated Power 3200VA/3000W
Input
Voltage
Voltage 230Vac
Selectable Voltage Range
170Vac~280Vac (for personal computers)
90Vac~280Vac (for home appliances)
Frequency Range 50Hz / 60Hz (auto sensing)
Output
AC Voltage Regulation (Batt. Mode) 230Vac±5%
Surge Power 6400VA
Overload Capability 5s@ ≥ 150% load; 10s@110%~150% load
Efficiency (Peak) 94%
Transfer Time 10ms (for personal computers); 20ms (for home appliances)
Waveform Pure Sine Wave
Battery
Battery Nominal Voltage 24Vdc
Floatingg Charge Voltage 27Vdc
Overcharge Protection 31Vdc
Solar Charger & AC Charge
Solar Charger Type MPPT
Maximum PV Array Power 3000W
Solar Charger Type 240Vdc
MPPT Range 90Vdc ~ 430Vdc
Maximum PV Array Open Circuit Voltage 450Vdc
Maximum Utility Charge Current 60A
Maximum Solar Charge Current 80A
Protection
Protection
AC Short Circuit Protection, AC Over Current Protection,
Over TemperatureProtection, etc.
Communication
Display LCD
Communication Port RS232
Standard Compliance
Safety/ EMC CE
General Data
Dimension (W x H x D) 282 x 348 x 105 mm
Net Weight 5.5kg
Protect Degree IP21
Operating Temperature 0° C ~ +55° C
Storage Temperature -15° C ~ +60° C
Humidity 5%~95% (non-condensing)
16. XN���� & XN����-P
Single Phase Off-Grid Solar Inverter
SPECIFICATION
˙ Over load / over temperature / short circuit protection
˙ Smart battery charger design, optimize battery performance
Intelligent
Simple O&M
˙ Built-in ���A MPPT solar charge
˙ Wide PV input voltage range
Efficient
Higher Revenue
˙ Support grid / generator input
˙ Compatible with lithium battery
˙ Up to � units in parallel (P model)
˙ Multiple charging voltage levels for different batteries
˙ Multiple work mode, support AC priority, solar priority
Flexible
Abundant Configuration
28
27
XN5548 XN5548-P
Rated Power
Rated Power 5500VA/5500W
Input
Voltage
Voltage 230Vac
Selectable Voltage Range
170Vac~280Vac (for personal computers)
90Vac~280Vac (for home appliances)
Frequency Range 50Hz / 60Hz (auto sensing)
Output
AC Voltage Regulation (Batt. Mode) 230Vac±5%
Surge Power 11000VA
Overload Capability 5s@ ≥ 150% load; 10s@110%~150% load
Efficiency (Peak) 94%
Transfer Time 10ms (for personal computers); 20ms (for home appliances)
Waveform Pure Sine Wave
Battery
Battery Nominal Voltage 48Vdc
Floatingg Charge Voltage 52Vdc
Overcharge Protection 62Vdc
Solar Charger & AC Charge
Solar Charger Type MPPT
Maximum PV Array Power 6000W
MPPT Range 120Vdc~450Vdc
Maximum PV Array Open Circuit Voltage 500Vdc
Maximum Utility Charge Current 80A
Maximum Solar Charge Current 110A
Protection
Protection
AC Short Circuit Protection, AC Over Current Protection,
Over Temperature Protection, etc.
Communication
Display LCD
Communication Port RS232 / RS485
Standard Compliance
Safety/ EMC CE
General Data
Dimension (W x H x D) 297 x 472 x 133 mm
Net Weight 10.5kg
Protect Degree IP21
Operating Temperature 0° C ~ +55° C
Storage Temperature -15° C ~ +60° C
Humidity 5%~95% (non-condensing)
Parallel No Up to 6 pcs
17. ACCESSORY
30
29
LS4G-5 LS4G-4 LSW-5 LSW-3 LSG-3 LSE-3
Remote Communication Interface
Remote Communication Interface 4G 4G 2.4G WiFi 2.4G WiFi GPRS LAN
GNSS <20m —— —— —— —— ——
Antenna Internal Antenna External Antenna Internal Antenna External Antenna External Antenna ——
Data Interface RS485 / RS232 / TTL
Working Voltage DC 5-12V
Working Power 3.5W 3.5W 1.5W 1.5W 3W 1W
SIM Card Chip Card / MicroSIM
Chip Card / MicroSIM —— —— Chip Card / MicroSIM ——
Memory 8M Flash 8M Flash 8M Flash 2M Flash 2M Flash 2M Flash
Working Temperature —40℃~ +85℃
Working Humidity < 90% (No Condensation)
No. of Connections One
Serial Communication Rate 9600bps (1200—115200bps Configurable)
Data Acquisition Interval Default: 5 mins (1-15 mins Configurable)
User Configuration BT / APP APP BT / APP / Web APP / Web APP / BT Web / APP
Firmware Upgrade BT / Remote Remote BT / Remote / Web Remote / Web Remote Remote / Web
Real-time Control √
Data Resuming √
Power-off Reminder √ √ √ —— —— ——
LDW-1
Remote Communication Interface WiFi
Working Frequency 2.142GHz ~ 2.484GHz
No.of Connections 1-10
Ethernet 10/100M (Adaptive Network)
Working Voltage DC 4.7-15V
Working Power 1W
Local Communication RS485/RS422/RS232
Serial Communication Rate 1200-115200bps Configurable
Data Uploading Interval Default: 5 mins (1-15 mins Configurable)
Memory 2M Fash (512K-16M Optional)
User Configuration
AT+Instruction Set,
Remote Server
SIM Card -
Antenna
GPRS Small Antenna
(Sucker Antenna Optional)
Working Temperature -40℃ ~ +85℃
Working Humidity < 90% (non-condensation)
Dimension (W x H x D) 76 x 91 x18 mm
Installation Method 35mm DIN-Rail
18. SOLARMAN Business
For Device Manufacturer:
· Device Control and Firmware Upgrade
· Data Processing
· Authorization Management
· Batch Task
· Device Classification
For Service Provider:
· Plentiful Information
· Intelligent AI Diagnosis
· Most Cost-effective Virtual Weather Station
· Simple Drag-and-Drop
· Intelligent and Intuitive Alerts
SOLARMAN Smart
Advantage:
· All-round Monitoring
· Create a Plant within � min
· Timely Alert Report
· Intuitive System Layout
· Flexible Plant Management
PV Monitoring and Management Platform. A brand new smart energy management application,
which is specially designed for global users.
Monitoring Platform
Monitoring Solution
Cloud
Internet
App Web
WIFI
Solar Inverter
Solar Inverter
GPRS
WIFI
WIFI
�G/�G/�G
NET
RS���
RS���
Inverter Logger
Solar Inverter
RS���
Internet
MONITORING
▲
For Business
▲
For Home
32
31
19. APPLICATIONS
RESIDENTIAL CASE RESIDENTIAL CASE
�kW Solar System in Finland
(XG�KTR)
��kW Solar System in Malaysia
(XG��KTR)
��kW Solar System in Armenia
(XG��KTR)
��kW Solar System in Serbia
(XG��KTR)
��kW Solar System in Slovakia
(XG��KTR)
��kW Solar System in Romania
(XG��KTR)
��kW Solar System in Jiangxi, China
(XG��KTR)
��kW Solar System in Israel
(XG��KTR)
��kW Solar System in Malaysia
(XG��KTR)
33 34
20. 40
APPLICATIONS
COMMERCIAL CASE COMMERCIAL CASE
�.���MW Rooftop PV Plant in Hubei, China
(XG���KTR,
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