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30A 40A 50A 60A 12V 48V Intelligent MPPT Solar Charge Controller. Rohs solar charge controller

30A 40A 50A 60A 12V 48V Intelligent MPPT Solar Charge Controller. Rohs solar charge controller

    A 40A 50A 60A 12V 48V Intelligent MPPT Solar Charge Controller

    30A 40A 50A 60A 12V 48V Intelligent MPPT Solar Charge Controller is the maximum power point tracking solar charge controller,which has the max power point target function,is suitable to be used in the battery or battery pack solar energy charging and load charging control.It is suitable for grid solar energy systemwith wide voltage.Solar charge controller is the core control part of the whole photovoltaic power supply system.

    Projects

    FAQ

    LED color LCD Display. Wide voltage current. Heat dissipation is good. Automatic battery identification system The maximum current tracking means fast charging, saving money. The side can be detachable, hidden line interface, safe, beautiful to kook at,leakage prevent. Tooth mark aluminum alloy bottom plate, easy to heat dissipation, prolong the service life of the product When overcharge, deep discharge, short circuit, battery opening, overheating temperature, battery overvoltage and overcurrent, the controller will automatically turn off, and protect battery and power system.

    Technicale Data of MPPT Solar Charge Controller

    Model Name RSMPPT10 RSMPPT20 RSMPPT30 RSMPPT40 RSMPPT50 RSMPPT60
    Current 10A 20A 30A 40A 50A 60A
    Max PV Power 2880W
    Max PV Voltage 90V
    Battery Type Sealed batteries
    Float Charge 14.4V 28.8V 57.6V
    Discharge Stop 11.5V 23V 46V
    Discharge Reconnect 15V 30V 60V
    USB Output 5V/2A. USB2
    Operating Temperature -20℃~40℃
    Application Charger Controller, Solar PV System Controller, Lighting Controller
    Certificate ROHS,CE,ISO9001,ISO14001
    MPPT Product Size(CM) 1315.65 15.3195 19.322.75.8
    Packaging Size(CM) 20.519.57.5 22.522.57.5 26.525.58
    System Voltage 12V 24V 48V Auto Adaption
    Max Solar Power Input 240W/480W/960W 480W/960W/1600W 720W/1440W/2880W
    Module Current 20A Max. 40A Max. 60A
    NW/GW 0.5/0.6KG 0.6/0.8KG 0.9/1.2KG

    Product Data of MPPT PV Charge Controller

    Package of MPPT Solar controller (Individual box)

    Why Choosing Us ?

    10 Years experience in solar industry and trading

    30 Minutes to reply after received Your E-mail

    25 Years Warranty for Solar MC4 Connector, PV Cables

    No compromise on quality

    RISIN ENERGY CO., LIMITED. was established in 2010 and located in the famous “World Factory”, Dongguan City. After more than 12 years of continuous development and innovation, RISIN ENERGY has become China’s leading,world-renowned and reliable supplier for Solar PV Cable, Solar PV Connector, PV fuse holder,DC Circuit Breakers,Solar Charger Controller,Micro Grid Inverter, Anderson Power Connector,Waterproof Connector, PV Cable assembly, and various types of photovoltaic system accessories.

    We RINSIN ENERGY is the professional OEM ODM supplier for Solar Cable and MC4 Solar Connector.

    We can supply various packages like cable rolls,cartons,wooden drums, reels and pallets for different quantity as you request.

    We can also supply different options of shipment for solar cable and MC4 connector all over the world, like DHL,FEDEX,UPS,TNT,ARAMAX,FOB,CIF,DDP by sea / by air.

    We RISIN ENERGY have provided solar products ( Solar Cables and MC4 Solar Connectors ) to the solar station projects all over the world, which are located in Southeast Asia,Oceania,South-North America,Middle East,Africa and Europe etc.

    Solar system includes solar panel,solar mounting bracket,solar cable,MC4 solar connector,Crimper Spanner solar tool kits,PV Combiner Box,PV DC Fuse,DC Circuit Breaker,DC SPD,DC MCCB,Solar Battery,DC MCB,DC Load device,DC Isolator Switch,Solar Pure Wave Inverter,AC Isolator Switch,AC Home Appliacation,AC MCCB,Waterproof Enclosure Box,AC MCB,AC SPD,Air Switch and Contactor etc

    There are many advantages of Solar power system, safety in use, polution free, noise free, high quality power energy, no limit for the resource distribution area, no waste of fuel and short-term construction.That’s why Solar power is becoming the most popular and promoted energy all over the world.

    Q1: What is your company’s Main Products ? You are the Manufacturer or the trader ?

    Our main products are Solar Cables, MC4 Solar Connectors, PV Fuse Holder,DC Circuit breakers,Solar Charge Controller,Micro Grid Inverter,Anderson Power Connector and other solar relative products.

    We’re the manufacturer with more than 12years experience in solar.

    Q2: How can I get the Quotation of the products ?

    Send your message to us by email: sales@risinenergy.com,then we’ll reply you within 30minutes in the Working Time.

    Q3: How does your company do regarding Quality Control ?

    1) All raw material we selected the high quality one.

    2) Professional Skilful workers care every details in handling the producing.

    3) Quality Control Department specially responsible for quality checking in each process.

    Q4: Do you provide OEM Project Service?

    OEM ODM order is warmly welcome and we have fully successful experience in OEM projects.

    What’s more, our RD team will give you the professional suggestions.

    Q5: How Could I get the Sample ?

    We are honored to offer you FREE samples,but you may need to pay the courier cost. If you have a courier account, you can send your courier to collect samples.

    Q6: How long is the delivery time ?

    2) For small orders: 1-3 days;

    3) For mass orders: 3-10 days.

    Features of KET LiFePO4 Solar Batteries

    Superior Performance As a top China solar battery manufacturer, KET produces LiFePO4 solar battery with excellent performance, providing efficient energy storage and discharge.

    Extended Lifespan With a remarkable lifespan of up to 2,000-5,000 cycles, KET LiFePO4 solar batteries are built to go the distance, providing long-lasting and reliable energy storage solutions.

    Enhanced Safety Safety is a top priority for all solar battery manufacturers. KET’s LiFePO4 batteries are equipped with advanced safety features to protect against overcharging, over-discharging, and short circuits, providing peace of mind for you and your solar power system.

    Eco-Friendly Choice By choosing KET OEM LiFePO4 solar batteries, you contribute to a cleaner and greener environment. Free from toxic chemicals and with a low carbon footprint, our batteries are an eco-friendly alternative for sustainable energy storage.

    Wholesale Rack Mount Solar Battery from China

    Nominal Voltage: 48V Nominal Capacity: 100AH @ 0.2C Energy: 4800Wh Charge Voltage: 54.75± 0.2 V Weight: about 45.0Kg Size: 440430177mm Maximum Modules in parallels: 16P

    Solar Battery Solutions LiFePO4 48V 200Ah in China

    Nominal Voltage: 48V Normal Capacity(25°C, 0.2C ): 10240Wh Voltage window (Vdc): 44.8~58.4V Max.pulse discharge current (A): 150A 10S BMS communication: CAN/RS485/RS232 Battery Type: LiFePO4(BYD OPC) Maximum Modules in parallels: 16P

    Customized 48V Solar Battery for Home Use

    Nominal Voltage: 48V Normal Capacity(25°C, 0.2C ): 10240Wh Terminal: M8 BMS communication: CAN/RS485/RS232 Safety standard: UN38.3.MSDS Voltage window (Vdc): 44.8~58.4V Max. number of parallels supported: 16

    Manufacturer Direct 48V Solar Battery Storage Solutions

    Nominal Voltage: 24V Normal Capacity(25℃, 0.2C): 5120Wh Voltage window (Vdc): 22.4-29.2V Max.pulse discharge current ( A): 200A 30S Storage temperature: 0℃ ~ 30℃ BMS communication: CAN/RS485/RS232 Maximum Modules in parallels: 16P

    Wall Mount 48V 50Ah Solar Solutions Batteries

    Nominal Voltage: 48V Nominal Capacity: 50AH @ 0.2C Energy: 2560Wh Internal Resistance (AC): < 50 mΩ Efficiency of Charge: 100% @ 0.5 C BMS communication: CAN, RS485, RS232 Maximum Modules in parallels: 16P

    Manufacturer Direct 48V Solar Battery Storage Solutions

    Nominal Voltage: 24V Normal Capacity(25℃, 0.2C): 5120Wh Voltage window (Vdc): 22.4-29.2V Max.pulse discharge current ( A): 200A 30S Storage temperature: 0℃ ~ 30℃ BMS communication: CAN/RS485/RS232 Maximum Modules in parallels: 16P

    Factory Wholesale 48V 100Ah Stacked Solar Battery

    Nominal Voltage: 48V Nominal Capacity: 100AH @ 0.2C Energy: 5120Wh Monthly Self Discharge: Less than 3.5% per month at 25℃ Container: Metal plate BMS communication: CAN/RS485/RS232 Maximum Modules in parallels: 16P

    Manufacturer Direct 12V 24V 36V 48V Solar Battery Customized

    Nominal Voltage: 12V. 48V Normal Capacity: 7Ah. 1000Ah Voltage window (Vdc): 22.4-29.2V Size: customized Storage temperature: 0℃ ~ 30℃ BMS communication: customized Housing: customized

    Customizable Solutions

    We understand that every solar power system is unique. At KET, we offer customized solar battery solutions tailored to your specific requirements, including capacity, voltage, size, and design, ensuring seamless integration into your solar setup.

    Industry-Leading Expertise

    With over 13 years of experience and partnerships with renowned companies like LG and Samsung, KET brings industry-leading expertise to deliver top-quality custom LiFePO4 solar batteries and exceptional customer service.

    Certified Quality

    As an ISO 9001 certified solar battery manufacturer. KET guarantees standardisation of production and quality control. Additionally, our solar batteries comply with certifications such as CE, FCC, UN38.3, and MSDS, ensuring the highest quality and safety standards.

    Manufacturing Capability

    With an impressive production capacity of up to 2000 battery packs per day (Ahead of most China solar battery manufacturers ), KET can meet the growing demand for LiFePO4 solar batteries, ensuring prompt delivery and availability for your renewable energy projects.

    LiFePO4 Solar Battery : The Ultimate Guide

    As an expert in the field, I’ll share you with the different types of solar batteries and their lifespan. Let’s explore! Lead-Acid Solar Batteries:

    With an average lifespan ranging from 3 to 5 years, lead-acid batteries provide steady power supply and support your energy needs over an extended period. But lead-acid batteries have more serious environmental problems. Lithium-ion Solar Batteries:

    Lithium-ion solar batteries can last more than 5 years. And as the most outstanding representative of the Lithium-ion battery family, LiFePO4 battery has an estimated lifespan of 8 to 20 years. LiFePO4 batteries have excellent all-round performance and are very environmentally friendly, making them an excellent choice as SOLAR batteries. Flow Batteries:

    Unlock the potential of flow batteries, the guardians of sustained solar power. These remarkable systems can endure up to 25 years, offering a reliable and enduring energy storage solution. It may seem like you have a wide range type of solar batterier to choose from. But as a solar battery manufacturer for many years, we can tell you responsibly that LiFePO4 is the better choice for solar cells. LiFePO4 solar batteries are more environmentally friendly, have a longer life and are safer, which are all important reasons why it is the first choice.

    Do solar lights need batteries? Do solar lights need batteries? The answer is yes or no. Let’s delve into the details, shall we? In order for solar lights to store solar energy during the day and to turn on and illuminate the sun lights at night, solar lights require batteries. Traditional solar lights commonly use rechargeable batteries, such as NiMH or Li-ion battery. But interestingly, if you only have solar panels and a controller (no batteries), it is also possible for the solar lights to work. But unfortunately, solar lights will no longer work when the sun stops shining. And the truth is that we need solar lights to work at night more than anything else, which is why we need batteries. How many solar batteries are needed to power a house? There is no single answer to this question. Because every household uses different amounts of electricity. But here, KET will teach you how to calculate how many solar batteries are needed to power a house. The steps are as follows:

    Determine the energy requirements : First, you need to determine the daily electricity consumption of your house. This information can be obtained by looking at your electricity bill. For example, if you used 300Kwh of electricity in April, then your daily electricity consumption would be 300kwh/30 = 10kWh.

    Battery capacity requirements : We already know that we need 10kwh of electricity per day. Then theoretically we need a battery capacity of 10kwh. But in practice, we also need to consider the depth of discharge of the battery, such as the common lithium-ion solar battery. Their recommended DOD (depth of discharge) is 80%. So the actual battery capacity required is 10kWh/80% = 12.5kWh.

    Calculate the number of batteries required : There are many different capacities of solar cells available on the market, such as 5kWh, 10kWh, 20kWh. So let’s take a 5kWh solar battery as an example, the number of batteries required (in parallel) is 12.5kWh/5kWh = 2.5 ≈ 3, which means that three 5kWh solar batteries are required, which can be connected in parallel to meet the needs of a power a house. Of course, if you still don’t know how to do the calculation, you can seek help from a professional solar battery manufacturer. All of KET’s customer service staff are professionally trained. They can answer any questions you may have in a very short time. How to check if solar panel is charging battery? As an expert in solar batteries, I’m here to help answer a common question in a lighthearted and down-to-earth manner: How can you determine if your solar panel is effectively charging your battery? I’ll provide you with some practical tips to tackle this puzzle. Let’s get started!

    Embrace the Sun’s Warm Embrace Take a glance at your panel and ensure it’s basking in the sun’s glow. A well-illuminated panel is a positive sign that it’s actively charging your battery.

    The Voltage Clue Now, let’s turn to the numbers to unlock the mystery. Grab your trusty multimeter; it’s your detective tool for this mission. Connect it to your battery terminals while the solar panel is connected. If the measured voltage exceeds the current charge of the battery, your solar panel is successfully charging your battery.

    Current: The Flow of Energy To measure its flow, you’ll need an ammeter. Connect the ammeter in series with the battery to gauge the current. Ideally, you should observe a healthy current flowing into the battery, signaling effective charging. In fact, there are many ways to verify it. Here are just 3 of the easiest to operate for everyone. If you want to know more professional information, you can also contact a professional solar battery manufacturer. KET. With a RD team of more than 20 people, KET can solve most of your professional questions. Do all solar lights have batteries? Most solar lights have batteries included. But a few will be designed without batteries and they only work when exposed to sunlight.

    Do i need a battery for my solar system? Before answer your question, you need to tell me what type of solar system you are using? If you are not sure, you can also check the manual that comes with the solar system. There are 3 different types of solar system and I will tell you if you need batteries for each one.

    On-grid systems : If you have a on-grid solar system, where your solar panels are connected to the grid, you don’t need batteries. The excess power generated during the day will be transferred to the grid and when your solar panels are not generating enough power (e.g. at night), you can draw power from the grid. In this case, the grid acts as a virtual battery for your system.

    Off-grid systems : Off-grid systems cannot be connected to the grid, in which case your solar system needs batteries. Storage batteries store the excess solar energy generated during the day for use at night or when the sun is not shining enough. These batteries allow you to have a self-sustaining power source and can provide electricity when the sun is not shining.

    intelligent, mppt, solar, charge, controller

    Hybrid systems : Some solar systems combine grid-tied and off-grid functionality. These hybrid systems can use batteries to store excess solar energy for use during peak demand periods or in the event of a power outage. At this point your solar system will also need batteries. If at this moment you find yourself in need of batteries for your solar system, then you can contact KET for an up-to-date quote on solar batteries. KET is source solar battery manufacturer and can offer the best price and service. All of KET’s solar batteries are made with LiFePO4 battery cells, which are more environmentally friendly, safer and have a longer lifespan. What happens to solar power when batteries are full? When solar power batteries are full, a solar charge controller comes into play to regulate the charging process. Think of it as a traffic cop directing the flow of energy. The solar charge controller monitors the battery’s state of charge and the incoming solar power. Once the batteries reach their maximum capacity, the charge controller restricts the flow of energy from the solar panels to prevent overcharging. It acts as a guardian, ensuring the batteries are not overwhelmed with excess energy. The inverter also plays a vital role in both off-grid and grid-tied systems. Its job is to convert the direct current (DC) electricity generated by the solar panels into alternating current (AC) electricity that can be used to power your appliances or fed back into the electrical grid. In an off-grid system, when the batteries are full, the inverter continues to supply AC power to your home using the stored energy. So, even if the batteries cannot accept any more charge, you can still utilize the power generated by the solar panels directly. It’s like having a backup generator that kicks in when needed, ensuring you have a continuous power supply. In a grid-tied system, when the batteries reach full capacity, the excess energy that cannot be stored flows through the inverter and is fed back into the electrical grid. The inverter adjusts the electricity to match the grid’s requirements, allowing others to benefit from your surplus power. This process is facilitated by a net metering arrangement, where you will receive credits or compensation for the electricity you contribute to the grid. So, when solar power batteries are full, the solar charge controller prevents overcharging, and the inverter ensures that the generated energy is put to use either for your home’s needs or shared with the grid. Both these components work together to optimize the efficiency and functionality of your solar power system. Can solar panel be connected directly to battery? Charging batteries with solar panels—sounds easy, right? Just connect the panel directly to the battery and voila! Well, technically, you can do that, but hold your horses! It’s like walking a tightrope without a safety net. You might think you’ve got it all figured out, but trust me, it’s not a walk in the park. Here’s the deal: connecting a solar panel directly to a battery is like attempting a risky acrobatic stunt. Sure, it’s possible if you meet specific conditions, like having small power panels or ensuring the voltage matches perfectly. But let’s be real, it’s not a foolproof plan. Here’s where our superhero, the Solar Charge Controller, comes to the rescue! Think of it as the wise old owl that ensures everything runs smoothly. It regulates the voltage and current from the panel to the battery, protecting your battery from overcharging and keeping it safe and sound. Believe me, trying to charge a battery without a charge controller is like walking on thin ice. You risk frying your battery, and trust me, nobody wants a crispy battery for breakfast. It’s like playing a high-stakes game of battery roulette, and let’s just say the odds aren’t in your favor. But fear not, my friend! Using a Solar Charge Controller is the way to go. It’s like having a personal assistant who knows all the battery-charging secrets. With this clever device, you can sit back, relax, and let it handle all the nitty-gritty stuff. No more worries about overcharging or battery mishaps. Now, there are two types of charge controllers to choose from. We have the trusty PWM controller—reliable, cost-effective, and does the job just fine. It’s like the good ol’ faithful companion who gets things done without breaking the bank. And then we have the fancy MPPT controller—the high roller, the cream of the crop. It’s more powerful and efficient, squeezing every drop of sunlight for maximum productivity. But remember, it comes at a price, my friend. If you’re ready to splurge for top-notch performance, this is your ticket. Can you mix solar batteries? It is not recommended that you mix solar batteries. Mixing solar batteries is possible, but some strict conditions need to be met. Here are some conditions to consider:

    Battery types : The battery characteristics of different types of batteries are also different and should never be mixed. For example, lead-acid batteries and lithium batteries should never be mixed.

    Capacity and age : Even for the same type of battery from the same manufacturer, the capacity of the old and new batteries will be different. This is because the actual capacity of the battery decreases with age. And when batteries of different capacities are used together it can lead to uneven charging and discharging, which can seriously affect battery performance. And in most cases, these conditions are difficult to meet. I am sure that all solar battery manufacturers would not advise you to mix solar batteries. What are the best batteries for solar off-grid? When we talk about what the best batteries for solar off-grid are, the top choice is LiFePO4 (lithium iron phosphate) batteries. They offer a long lifespan, faster charging, and are more environmentally friendly compared to other options like lead acid and traditional lithium-ion batteries. LiFePO4 batteries are durable, efficient, and provide reliable power for off-grid applications. If you want to learn more about the characteristics of the different types of batteries, then you can read this article: Comprehensive Guide to Battery Classification. If you are looking for a manufacturer who can offer you a one-stop solution for solar batteries, then please contact KET ! As a leading solar battery manufacturer. KET’s RD team can provide you with the most professional solar battery solutions within 24 hours, and all you need to do is inform our customer service staff of your requirements.

    Insel Solaranlage 1000W Komplettset Plug Play 12V / 230V BA12-1000

    Unsere BA12-1000 Inselanlage wird mit allen notwendigen Teilen für die Inbetriebnahme geliefert. Der Aufbau ist einfach und verständlich erklärt. Nach einer kurzen Montagezeit ist die Solaranlage betriebsbereit.

    Das Solarmodul ist für das einsammeln der Sonnenstrahlen zuständig. Diese schwarze Platte ist mit Hagelfesten Glas geschützt und kann an einer beliebigen Stelle montiert werden. Am Besten dort wohin am längsten die Sonne scheint. Montagematerial für das Modul ist nicht enthalten. Je nach Montageort kann es separat erworben werden. Mit den beiliegenden Kabelsatz wird das Solarmodul mit dem Solarregler verbunden. Zum Abschluss erfolgt die Kabelverbindung mit der Speicherbatterie und dem Wechselrichter. Die Anlage ist jetzt funktionsbereit. Am Wechselrichter steht der 230 Volt Strom bis 1.000W zur Verfügung. Da der hochwertige Wechselrichter eine reine Sinuswelle liefert können auch hochempfindliche Geräte ohne Schaden angeschlossen werden. Die Stromqualität entspricht dem des gewohnten Haushaltsstromes.Gesamtgewicht der Anlage: ca. 48 kg

    intelligent, mppt, solar, charge, controller

    Das Solar-Komplett-Set BA12-1000 besteht aus folgenden Komponenten:

    Ein Monokristallines Solarpanel 200W 12V 200 Watt Solarmodul mit hagelfestem, gehärtetem ESG-Solarglas und eloxierten Alu-Rahmen.Größe pro Modul (circa): 1480 x 670 x 35 mm ( L x B x H)
    Ein Solar Laderegler MPPT 15A Schneller digitaler MPPT Solar-Charge-Controller mit Echtzeit-Energiestatistikfunktion und LCD-Display.
    Ein Wechselrichter mit reiner Sinuswelle von 12V auf 230V mit max. 1000 Watt Ein Profi-Spannungswandler mit reiner Sinuswelle, auch für empfindliche, elektronische Geräte, wie z.B. Kaffeemaschinen, Fernseher, Rasierer, Kühlboxen, Radio, Netzteile.Im Lieferumfang ist eine Funk-Fernbedienung für das Ein- und Ausschalten des Geräts enthalten.
    Eine ORBIS Solarbatterie 150 Ah 12V Energiespeicher für die Langzeitentladung mit hoher Zyklenfestigkeit (ca. 1.200 Zyklen bei 25% Entladetiefe) und schneller Ladbarkeit auch bei geringen Strömen. Die leichte Ladefähigkeit und die Nachfüllbarkeit zeichnen diese Batterie besonders als Speicherbatterie im Solarbetrieb bei kleinen Inselanlagen aus. Bei Nutzung in Wohmobilen oder sehr engen Räumen sollte eine ausreichende Belüftung für die Batterie gegeben sein. Alternativ kann man auch eine Gel/AGM Batterie anstelle dieser Solarbatterie verwenden. Abmessungen: 513 x 189 x 223 mm (L x B x H)Gewicht: 36 kg
    Ein Sicherungsset für DC Leitungen.Für den Schutz vor Stromspitzen, Kurzschlüssen und Überlastungen. Abgesichert wird auf der Gleichspannungsseite zwischen Laderegler und Wechselrichter zur Batterie. Der Sicherungshalter ist mit den entsprechenden MIDI und MEGA Sicherungen vormontiert und fertig für die Installation.
    Zwei 6m Solarkabel 6mm² inkl. MC4-Steckern.Diese Kabel eignen sich besonders gut für eine flexible Möglichkeit der Verlegung um Ecken und Kanten und verbinden das Solarmodul mit dem Laderegler. Das Kabel ist zudem witterungsbeständig und kann komplett im Freien verwendet werden.
    Zwei 1m Kabel H07V-K 10mm² (Rot und Schwarz) inkl. Rohrkabelschuhen.Bereits vorkonfektioniertes Kupferkabel für die Verbindung vom Wechselrichter zur Solarbatterie.
    Zwei 1m Kabel H07V-K 6mm² (Rot und Schwarz) inkl. Aderendhülsen Batterieklemmen.Bereits vorkonfektioniertes Kupferkabel für die Verbindung vom Laderegler zur Solarbatterie.
    Eine Aufbauanleitung, Pflege- und Bedienungshinweise.Leicht verständliche Aufbauanleitung der Solaranlage und Tipps und Pflegehinweise für die Solarbatterie, Regler und Wechselrichter.

    Alle Komponenten sind aufeinander abgestimmt und für die einfache und schnelle Montage vorkonfektioniert.

    Der Energieertrag einer BA12-1000

    Je kleiner der entnommene Strom (Wh), desto mehr Energie kann der Solaranlage entnommen werden. Die Leistung der Sonne (hier ausgehend von 6 Sonnenstunden pro Tag) sowie die Größe der Speicherbatterie (Ah) bestimmen welche Strommenge Sie der BA12-1000 PV-Anlage insgesamt entnehmen können. Die Differenz aus den beiden Balken (blau/gelb) ist die Strommenge, die an einem Tag mit 6h Sonne entnommen werden kann, so dass die Batterie am Folgetag trotzdem wieder zu 100% geladen wäre.

    Eine Beispielnutzung über den Tag verteilt könnte so aussehen:

    • Handelsüblicher Fernseher mit ~40W für 5h
    • Licht Lampen mit ~30W für 4h
    • Mobiltelefon-Ladegerät mit ~30W für 4h
    • Wasserkocher mit ~800W für 20 Minuten

    Die Batterie wäre nach diesem Beispielverbrauch noch zu ca. 50% geladen.

    intelligent, mppt, solar, charge, controller

    Solaranlage im Winter betreiben

    Obwohl es logisch erscheint eine Inselsolaranlage für den Sommer zu installieren, so täuschen Sie sich nicht bei den Möglichkeiten im Winter. Die Panele sind heutzutage effektiver denn je. Auch die Wintersonne kann mittlerweile durch die monokristallinen Panele bestens aufgenommen werden. Der Stromfluß erreicht nahezu dieselben Werte, wie im Sommer. Lediglich die Anzahl der Sonnenstunden trübt das Ergebnis im Vergleich von Winter zu Sommer.

    Erklär-Video:Die Verkabelung einfach und sicher. Alles bereits im Set vorbereitet.

    intelligent, mppt, solar, charge, controller

    Wir empfehlen mit der maximalen Last der Verbraucher (in Watt) ca. 5-10% unterhalb des Wertes des Wechselrichters zu bleiben. Auch etwaige Scheinlasten (hervorgerufen durch induktive Verbraucher) und Anlaufströme von bspw. Pumpen sollten berücksichtigt werden. Im Zweifel stehen wir Ihnen bei der Auswahl der richtigen Anlage gerne zur Verfügung.

    Erweiterungsmöglichkeiten dieser Solaranlage

    • Da eine Parallelschaltung von mehreren Ladereglern problemlos umsetzbar ist, können Sie mit Hilfe von weiteren Ladereglern noch zusätzliche Solarmodule, auch mit anderen Leistungsdaten, installieren. Damit lässt sich mehr Energie einsammeln und nutzen.

    Solar Charge Controller Error Codes

    An error code flash on your Solar Charge Controller indicates a problem has occurred. Here’s a reference list to help you determine what the problem is and what steps to take.

    Some errors can be fixed by yourself with some simple troubleshooting. This will help you get your solar charge controller back up and running.

    NOTE: The information provided is for most ZHCSolar pwm solar charge controllers.

    Other mppt controllers may have different available charge settings and options.

    Some models of solar charge controllers do not have a digital display, so when it’s time to display an error code, they will use a flashing led instead.

    The combination of flashing LEDs identifies the code.

    However, you should really only consider this an error code if the charge controller is not operating normally, since the LEDs may be flashing as part of normal use of the charge controller.

    A simple fix, such as adjusting the charge voltage of your regulator or making sure the regulator is installed properly, is usually all that is needed to clear the error code.

    Detailed error codes can be viewed using

    Controller Screen, Remote Monitor, LED Indicator, App.

    solar charge controller error codes

    PWM Solar Charge Controller Error Codes List

    The error code list applies to these products:

    Most ZHCSolar PWM charge controllers

    Fault Code Basics

    E01 – Battery Low Voltage or Load off

    E02 – DC load overload or Load off

    E03 – Load short circuit or Load off

    E04 – Battery Over voltage or Load off

    E05 – Solar Panel Over Current, Controller stop working

    Solar Charge Controller Error Codes e01

    solar charge controller Error code E01 appears when the battery bank is at low voltage and the charge controller cannot charge it.

    To correct this, first charge the battery bank using AC chargers or replace the battery with a new one.

    E02 Error Code

    The E02 error code appears when the DC Load is overload and stop running. decrease the load voltage and wait for seconds the load will relive.

    E03 Error Code

    The E03 error code appears when the DC Loads is short circuit. Remove the Loads first and replug, wait for seconds the load will relive.

    E04 Error Code

    The E04 error code appears when the battery is overcharged, if the battery cannot bear the heavy input voltage, it may stop working or get destroyed, first check the wiring, make sure is not caused by wrong connection, then check the battery capacity.

    If the battery capacity is too small for the current system, change to a new battery. the third reason is it may be connected with another charger, if so, remove another charger. and reset the solar charge controller to work again.

    E05 Error Code

    The E05 error Code appears when the Solar Panel is Overcurrent, overcurrent means the PV send over current to the charge controller and make it stop working, to solve it please make sure the solar panel hooked doesn’t over the rated range. remove some panels and the charge controller can start working again.

    mppt solar charge controller e01

    Solar Charge Controller E01 in the MPPT Solar Charge Controller indicates the same as a PWM controller, which is the battery in low voltage.

    MPPT Error Codes e02

    like e01 on solar controller, e02 is another common fault code, The error message is also point to the load, reconnect or replace the load to fix it.

    Final Thoughts

    The solar charge controller will display an error code if there is a problem. The solar charge controller error codes are not always the same.

    For example, the controller may display an error code when the solar power it is receiving is insufficient to start charging the batteries.

    This is usually the case when the battery bank is partially discharged. To reset the controller, you must reconnect all of its wires and make sure it hasn’t been bypassed.

    A few causes of this error code include reverse polarity, obstructions near the heat sink, or a faulty charger. The first is probably the most obvious – the regulator itself is faulty.

    If this is the cause, you will need to contact a solar charging company or battery charger repair company. If your solar charge controller isn’t working, check out the troubleshooting guide here.

    Another common cause is a problem with the PV array. The solar panel error codes will tell you to disconnect and reconnect the panels to restart the charging process.

    If the error message persists, you may need to manually reconnect the batteries.

    If this does not work, the controller may be faulty. In this case, disconnect all power sources from the charger, wait three minutes, and then reconnect.

    If this doesn’t work, you may need to replace the solar charge regulator.

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