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    Wccsolar Blog

    HUAWEI Inverter + DEYE Parallels
    Parallel Connection of Deye and Huawei Inverters via Deye Inverter GEN Interface In photovoltaic or energy storage systems, connecting inverters from different brands in parallel is a way to increase system capacity or achieve complementary functionality. In the case of Deye and Huawei inverters, it is possible to connect them in parallel using the GEN interface of the Deye inverter, allowing communication and coordination between both devices. The specific principles and steps are explained below: ✅ Working Principle Function of GEN Interface: In Deye inverters, the GEN interface is used to synchronize communication with other power sources or inverters. Ensures that devices connected in parallel maintain the same phase, frequency and voltage, avoiding interference. Huawei Inverter Connection: The Huawei inverter connects through its communication interface to the GEN interface of the Deye inverter. This allows the Deye inverter to read information from the Huawei inverter, such as output power, voltage and current, thus coordinating power supply for the connected loads. Coordination after Parallel Connection: The Deye inverter generally acts as the “master” inverter, controlling the operating logic of the system. The Huawei inverter acts as the “secondary inverter” (Slave), adjusting its output power according to the instructions of the Deye inverter. This mode of operation avoids conflicts between inverters and improves system efficiency and stability. Connection Steps Power Cut: Make sure all equipment is turned off before making connections. Communication Cable Connection: Use a suitable communication cable to connect the communication interface of the Huawei inverter to the GEN interface of the Deye inverter. Normally an RS485 cable is used, paying attention to the correct matching of terminals A and B. Communication Parameters Configuration: Configure the communication protocol and baud rate on the Deye inverter control interface to match those of the Huawei inverter. Make sure the communication addresses of both inverters are different to avoid conflicts. Electrical Parameters Check: Make sure both inverters have the same output voltage and frequency, usually 220V/50Hz or 380V/50Hz, depending on the system configuration. System Startup: Power on the Deye inverter first, then the Huawei inverter, ensuring that the master-slave relationship is established correctly. System Test: Check the stability of the parallel connected system and test the operation under different load conditions to confirm that both inverters work in coordination. Important Considerations Compatibility: Although this form of connection is usually possible, it is recommended to check the compatibility of specific models, as some recent models may have differences in communication protocols.
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    DEYE System 100KW Back UP 100%
    DEYE System 100KW Back UP 100% Industrial System 100kw (30 GB-L + 5BMS) of batteries with two DEYE 50KW HYBRID Inverters connected in parallel, total of 100KW. 100% isolated system (full backup) The Advantage of Sun-50KHybrid Plus: Compatibility List Brands lithium BMS 100% unbalanced output, each phase Maximum output up to 50% of the nominal power DC pair and AC pair to upgrade the system existing solar Maximum 10 pieces in parallel for on-grid and off-grid operation Supports multiple batteries in parallel Maximum charge/discharge current of 37A High voltage battery, higher efficiency. 6 time periods for battery charge/discharge Support the energy storage of the diesel generator 3-MPPT Grid injection Zero injection Works with batteries Works without batteries P65 (Allows outdoor installation) Telecommunication with all battery brands Lithium 5 years warranty Input with solar panel It works On grid and Off grid at the same time It works in parallel between inverters Applications App (distance control) Official Telecommunications with Lithium Batteries: Pylontech, Dyness HIGH VOLTAGE 160-700VDC ETC…. Wifi 160-700VDC high voltage battery, transformer isolation design 6 time periods to charge/discharge battery Max. 50A+50A charge/discharge current DC pair and AC pair to retrofit existing solar system Support diesel generator energy storage Unique smart charging application and grid peak shaving function…
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    50kw Industrial Solution
    50kw Industrial Solution Power Bank System SL 50K System designed for Industrial with storage of 50kwh Batteries and 50kw of power output BACKUP 100% This will be the perfect solution if you have a disconnection or unstable voltage...
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    DEYE Battery GB-L
    DEYE Battery GB-L Industrial System 60kw (15 GB-L + 3 BMS) of batteries with two DEYE 40KW HYBRID Inverters connected in parallel, total 80KW. 100% isolated system (back full) 100kw with two 50kw Deye inverters The Advantage of Sun-50KHybrid Plus: Compatibility List Brands lithium BMS 100% unbalanced output, each phase Maximum output up to 50% of the nominal power DC couple and AC pair to upgrade existing solar system Maximum 10 pieces in parallel for on-grid and off-grid operation Support multiple batteries in parallel Maximum charge/discharge current of 37A High voltage battery, higher efficiency. 6 time periods for battery charge/discharge Support the energy storage of the diesel generator 3-MPPT Grid injection Zero injection Works with batteries Works without batteries P65 (Allows outdoor installation) Telecommunication with all battery brands Lithium 5 years warranty Input with solar panel It works On grid and Off grid at the same time It works in parallel between inverters Applications App (distance control) Official Telecommunications with Lithium Batteries: Pylontech, Dyness HIGH VOLTAGE 160-700VDC ETC…. Wifi 160-700VDC high voltage battery, transformer isolation design 6 time periods to charge/discharge battery Max. 50A+50A charge/discharge current DC pair and AC pair to retrofit existing solar system Support diesel generator energy storage Unique smart charging application and grid peak shaving function…
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    DEYE SINGLE PHASE INVERTERS 230v Red injection
    DEYE SINGLE-PHASE INVERTERS 230v grid injection This video we present to you Deye single-phase 230v inverter https://www.wccsolar.net/inversor-solar-inyeccion-a-red Deye single-phase inverter The power of the grid inverter of this series ranges between 1,5, 10,5 to 10.5 kW, which is suitable for residential rooftop applications. Comes with one or two MPPT, applicable to single alignment roof and multiple alignments. In addition, the new product SUN-XNUMXKG is one of the highest power models of single-phase on-grid inverter on the market. Solution and service from Deye, a professional manufacturer of single-phase string inverters. …
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    DEYE THREE-PHASE HYBRID INVERTERS 380V
    DEYE THREE-PHASE HYBRID INVERTERS 380V This video we present to you Deye Hybrid Inverter Three-phase 380v (48v battery system) https://www.wccsolar.net/product-page/inversor-8000w-hibrido-plus-cs-baterias-inyeccion-a-red -converted-zero Hybrid Inverter The main job of a grid-tied inverter is to convert the DC power generated from the PV array into usable AC power. Hybrid inverters go a step further and run on batteries to store excess energy as well. In the developing world, hybrid inverters are more of a necessity to compensate for weak or intermittent grids or a complete lack of electricity from the grid. Deye hybrid inverters include 3-16kW single-phase and 8-12kW three-phase. For the SUN-3K-SG04LP1-24-EU, it uses a 24V battery bank and the rest adopts a 48V battery. Furthermore, the SUN-16K-SG01LP1-EU is the maximum single-phase hybrid inverter in the world market. The Grid-interactive inverter consists of several hardware elements. The Grid-interactive inverter controls and monitors the connection of electricity from power plants. In addition, it also controls the disconnection of surplus energy from the plants. Ensures energy dispatch during peak hours based on demand. …
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    New Lithium Battery 2.4kWh TS2400 48VDC
    New Lithium Battery 2.4kWh TS2400 48VDC The New Lithium Battery 2,4kWh TS2400 48V is an advanced Lithium-Ion Phosphate accumulator that allows us to have a Lithium technology accumulator at a very economical price. Thank you for the New, more inclusive TS2400 BMS compatible for all Inverters and Regulators that allows programming charge and discharge voltage. Simply set the charge voltage, float voltage and protection voltage to enjoy a 6-year lifespan. The 2,4kWh TS2400 48V Lithium Battery offers a very comfortable format, a standard 19' rack type that offers superior scalability thanks to being able to place the battery in a group, taking up less space and facilitating the interconnection between the modules. The 2,4kWh TS2400 48V Lithium Battery since technology allows it, and thanks to its easily stackable format, it can be connected in parallel up to a maximum of 40 units with the current firmware. Everything is monitored by the internal BMS that distributes energy between the cells and modules, preventing them from overcharging or overdischarging. This functionality in a Lithium battery is of vital importance. The 2,4kWh TS2400 48V Lithium Battery offers a very comfortable format, a standard 19' rack type that offers superior scalability thanks to being able to place the battery in a group, taking up less space and facilitating the interconnection between the modules. The 2,4kWh TS2400 48V Lithium Battery since technology allows it, and thanks to its easily stackable format, it can be connected in parallel up to a maximum of 200 units with the current firmware. Everything is monitored by the internal BMS that distributes energy between the cells and modules, preventing them from overcharging or overdischarging. This functionality in a Lithium battery is of vital importance. The battery kit includes: Batteries Kit cables Braket kit supports Capacity of the 2,4kWh TS2400 48V Lithium Battery The actual effective capacity of the 2,4kWh TS2400 48V Lithium Battery is about 2,2kWh given that the depth Discharge rate of Lithium batteries is much higher than lead batteries. Given that at the moment up to 20 units can be installed in parallel, the maximum capacity of a system made up of TS2400 lithium batteries is currently more than 44kWh useful and almost 58kWh total theoretical. Technical data of the TS2400 48V 2,4kWh Lithium Battery The TS2400 Lithium battery has the following technical characteristics: Nominal working voltage (V): 48V Useful capacity: 2200Wh Physical dimensions (in mm): 440 x 410 x 89 Weight: 24Kg Communications interfaces: RS232, RS485, CAN Certifications: TÜV, CE, UN38.3 Estimated useful life: more than 6 years (25ºC) Life cycles: more than 4500 with 90% discharge DoD…
    Solar energy news

    Pylontech US2000B Plus Battery
    Pylontech US2000B Plus Battery Hello, today we are going to talk about the Pylontech US2000B Plus battery. It is a 48 volt, 2,4 kilowatt hour battery. And it is a high quality lithium ion phosphate battery. This battery can be connected in parallel up to a maximum of 40 units, making groups of 8 units and connecting between them through a hub connection. Example of Installations: This battery has measurements of: 440 mm long x 89 mm high x 410 mm wide On the front we find all the connections for its operation and two metal grips to facilitate the transportation of the battery and some holes to anchor it to the place of placement and its weight is 24 kg. The battery box includes the following elements: The communication cable (thin black) The negative jumper cable (fat black) The positive jumper cable (fat orange) The ground connection (yellow) The screws for power connect the battery and the ground connection The manual and the warranty The communication power supply (thin black length) Positive and negative cable to connect it to the inverter In the connections from left to right we do not find: The on and off switch The inputs Internet connection and communication with the inverter Communication between batteries Negative input and output Positive input and output In this way we can connect the bridges with their quick connection terminals. The quick connectors have pressure buttons to make the connection and make it more secure. And the battery communication cable is located here. We are going to make the connection between two batteries. To make the ground connection we must connect the wiring to the battery and then to a ground connection. We connect the communications cable to the batteries. We connect to link port 1 of the first battery and to link port 0 of the next to achieve communication between them. To connect the batteries in parallel we must remove the protection caps and then move on to making the connections. Connect negative to negative of each battery with the black cable and positive to positive with the orange cable. The negative of the first battery and the positive of the last will be connected to the inverter with the longest cables. After making the connection between the batteries, we can turn it on, we turn on the two batteries and press the SW start button for half a second, so that the connection between the batteries begins and the recognition of the batteries will begin and a long beep will sound that will tell us that everything has been connected correctly. Next photo shows how to connect the pylontech lithium battery to our 3 brand inverters…
    Solar energy news

    Submersible Solar Pump
    Submersible Solar Pump Solar Water Pumping Kit Information about direct solar water pumping kits Direct solar water pumping kits or solar pump kits have become an economical and ecological solution for many farmers and individuals who live in isolated areas. To this end, direct solar water pumping kits offer features that are difficult to compare to other pumping systems that compete with direct solar water pumping kits. These direct solar water pumping kits allow you to pump water either from a well to a container or direct irrigation with much superior technology and lower operating costs thanks to years of experience in development. In addition to this, our brand specialized in direct solar water pumping kits has made a great effort to obtain the most resistant and reliable materials for these direct solar water pumping kits. Currently our solar water pumps work directly with photovoltaic energy (they are powered by direct current) and are capable of pumping water from the surface or from wells of good depth. How does direct solar pumping work? The operation of the pump is totally variable depending on the power supplied by the photovoltaic panels. The operating curve of the pumps is normal operation, that is, working at 100%. Operating hours working at 100% depends on peak solar hours. By estimating the hours of peak sunshine with constant solar irradiation of 1000W/m2 we can know the hours of operation of the pump at its nominal power. In short, direct solar pumping systems work without batteries so they will operate whenever there is solar radiation. That is, the system is activated when the solar panels receive photovoltaic energy early in the day, offers maximum performance in the central hours of the day and reduces its productivity as night approaches due to the lack of sufficient photovoltaic energy to activation of the pumping system. It is an installation with a quick amortization and highly recommended as long as it is expected to operate during daylight hours regardless of inactivity at night. We have the possibility of easily consulting the peak sun hours on the internet at http://re.jrc.ec.europa.eu/pvgis/ depending on the geographical area, in this way we will ensure the operating hours of the solar pumping system straight. Depending on the location, the following peak solar hours are usually estimated: Winter: 3.5 hours of peak sunshine. Summer: 7 hours of peak sun. For more information about the operation or size of your direct solar pumping system, contact us and our technical team will advise you without obligation.
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