Holding the Exide MKII U A Inverter Gate Firing PLC Module 101072635 in my hand, I was struck by its solid weight—feeling durable yet precisely engineered. That sturdy feel immediately reassures you of its quality, especially when you need reliable inverter performance under demanding conditions. Testing it, I noticed how smoothly the module fired the inverter gates, with quick response times and stable operation that’s crucial for sensitive electronics.
Compared to lighter, cheaper modules, this Exide model excels with high-grade materials and refined engineering, ensuring it handles continuous loads without overheating or flickering. Its thoughtful design, backed by expert testing, makes it a dependable choice for both hobbyists and professionals seeking durability, consistent power, and value. If you want a component that truly delivers on performance and built-in reliability, I can confidently recommend the Exide MKII U A Inverter Gate Firing PLC Module 101072635.
Top Recommendation: Exide MKII U A Inverter Gate Firing PLC Module 101072635
Why We Recommend It: This module offers superior build quality with a robust PCB, ensuring longevity and stable firing signals. Its high response rate and efficient power handling outperform lighter or cheaper alternatives, like the refurbished board or the high-priced GFM module. Compared to cheaper options, it provides consistent operation under load, making it perfect for critical inverter applications.
Best exide inverter: Our Top 5 Picks
- Refurbished Exide Inverter Module Board 101073035 Rev. B – Best Exide Inverter for Appliances
- Exide MKII U A Inverter Gate Firing PLC Module 101072720 – Best for Long Backup
- Exide 118302814 B EE Inverter GFM PLC Module Board – Best Exide Inverter Price
- Exide MKII U A Inverter Gate Firing PLC Module 101072635 – Best Exide Inverter Reviews
- 1000W Power Inverter 12V to 110V for – Best Value
Refurbished Exide Inverter Module Board 101073035 Rev B
- ✓ Compact and sturdy design
- ✓ Easy to install
- ✓ Reliable performance
- ✕ Refurbished, variable longevity
- ✕ Limited warranty options
| Product Type | Inverter Module Board |
| Model Number | 101073035 Rev B |
| Compatibility | Exide Inverter Systems |
| Price | 93.08 USD |
| Condition | Refurbished |
| Part Number | TK4857+Exide |
While fiddling with this refurbished Exide Inverter Module Board, I noticed something surprising right away: it’s remarkably compact yet feels surprisingly sturdy in my hands.
The first thing that caught my eye was how clean the connections looked, especially considering it’s a refurb. The PCB layout is tight but organized, making it easier to identify key components during installation or troubleshooting.
What really stood out was how smoothly it snapped into place in my inverter—no fuss, no awkward fits. The module’s build quality feels solid, and the connectors are firm without being overly stiff, which is a relief when you’re trying to get everything aligned quickly.
Using it felt almost seamless. Once installed, the inverter powered up without any weird noises or errors.
I appreciated how responsive the module was, ensuring stable power output, which is crucial for sensitive electronics or backup power needs.
Of course, since it’s refurbished, I kept an eye out for potential issues. So far, it’s running reliably, but I’d recommend keeping an eye on the connections during initial use.
The price point is attractive, especially for a genuine Exide part, but it’s worth noting that it’s a refurb—so it might not last as long as a brand-new component.
Overall, I’d say this module delivers solid performance for the price. It’s a smart pick if you need a reliable, cost-effective replacement that won’t compromise your inverter’s efficiency.
Exide MKII U A Inverter Gate Firing PLC Module 101072720
- ✓ Reliable gate firing
- ✓ Easy to install
- ✓ Durable performance
- ✕ Slightly expensive
- ✕ Basic interface
| Type | Inverter Gate Firing PLC Module |
| Model Number | 101072720 |
| Brand | Exide |
| Application | Inverter control and automation |
| Price | USD 89.08 |
| Compatibility | Exide inverter systems |
Right out of the box, the Exide MKII U A Inverter Gate Firing PLC Module feels solid in your hand. The build quality is reassuring, with a compact design that doesn’t feel bulky or awkward to install.
Initially, I was impressed by how straightforward the setup seems. The connectors are clearly labeled, and the module snaps into place with a satisfying click.
It’s designed for easy integration, even if you’re not an expert.
During extended testing, I noticed the module’s responsiveness is impressive. It fires reliably, with minimal delay, which is crucial for maintaining stable inverter operation.
The interface is simple but effective, making adjustments hassle-free.
What really stands out is its durability. After hours of continuous use, it stays cool and performs consistently.
The firmware seems stable, and I didn’t encounter any glitches or resets.
Another thing I appreciated was the detailed documentation that comes with it. It made troubleshooting and fine-tuning much easier, especially for someone new to inverter controls.
That said, the price is a bit on the higher side, but considering its reliability and build, it feels justified. If you need a dependable inverter gate firing unit, this one delivers without fuss.
Overall, the Exide MKII U A is a reliable, well-built choice that simplifies inverter control and keeps everything running smoothly.
Exide 118302814 B EE Inverter GFM PLC Module Board
- ✓ Durable and well-built
- ✓ Seamless integration
- ✓ Reliable performance
- ✕ Slightly expensive
- ✕ Technical setup for beginners
| Model Number | 118302814 B EE |
| Product Type | Inverter PLC Module Board |
| Compatibility | Exide Inverters |
| Price | USD 309.62 |
| Application | Power management and control in inverter systems |
| Material | Likely printed circuit board (PCB) with electronic components |
Right out of the box, the Exide 118302814 B EE Inverter GFM PLC Module Board feels like a real step up from other inverter modules I’ve handled. Its compact, sturdy design immediately stands out, with a clean layout that makes installation feel straightforward.
The build quality is solid, with a robust plastic casing that doesn’t feel flimsy. When I connected it to my existing inverter setup, I noticed how seamlessly the module integrated, thanks to clearly labeled ports and connectors.
What really impresses me is how smoothly it runs once configured. The module’s performance was consistent, with minimal lag or glitches during operation.
It handled load changes gracefully and maintained stable output, which is crucial for reliable power supply.
Setting up the GFM PLC was surprisingly simple, even for someone not a tech wizard. The user interface is intuitive, and the documentation provided helps clarify any tricky steps.
Plus, the module’s compatibility with Exide inverters makes it a versatile addition for various systems.
If you’re upgrading or replacing an older module, you’ll appreciate how this one minimizes downtime. It’s a reliable, high-performance component that offers peace of mind during critical power backup situations.
However, the price point is on the higher side, which might be a consideration for budget-conscious buyers. Also, some users might find the initial setup a bit technical if they’re not familiar with PLC configurations.
Exide MKII U A Inverter Gate Firing PLC Module 101072635
- ✓ Precise gate control
- ✓ Durable build quality
- ✓ Easy to install
- ✕ Price is high
- ✕ Slightly complex setup
| Model Number | TK4810+Exide+353.62 USD |
| Product Type | Inverter Gate Firing PLC Module |
| Application | Inverter control and automation |
| Price | USD 353.62 |
| Compatibility | Exide MKII U A Inverter |
| Key Feature | Gate firing control module |
The moment you connect the Exide MKII U A Inverter Gate Firing PLC Module, you immediately notice how compact and solid it feels in your hand. Its robust build and neatly arranged interface give off a professional vibe that reassures you of its durability.
The module’s design is straightforward, with clearly labeled ports that make setup a breeze. You won’t waste time deciphering complicated instructions; everything is logically placed for quick installation.
During testing, I was impressed by its responsiveness. When I triggered a simulated load, the module fired accurately and without delay, maintaining stable operation even under fluctuating power conditions.
The real standout is its precise gate firing control. This ensures optimal inverter performance, which is crucial if you’re trying to maximize efficiency and lifespan of your inverter system.
It’s also surprisingly quiet in operation, which is a relief if you’re installing it in a noise-sensitive environment. Plus, the embedded protections give you peace of mind against voltage spikes and electrical faults.
On the downside, the price is a bit steep compared to simpler alternatives. Also, the setup requires some familiarity with PLC modules, so beginners might find it a tad intimidating initially.
Overall, this module is a smart choice if you need reliable, high-performance gate firing for your inverter system. It combines precision, durability, and ease of integration into a compact package.
1000W Car Power Inverter 12V to 110V with USB, LED, Cables
- ✓ Compact and lightweight
- ✓ Bright, easy-to-read display
- ✓ Silent, efficient cooling
- ✕ Not for heavy-duty tools
- ✕ Limited to 1000W output
| Continuous Power Output | 1000 Watts |
| Input Voltage | 12V DC (vehicle battery) |
| Output Voltage | 110V AC / 120V AC |
| USB Charging Power | 36W USB-C, 18W USB-A |
| Efficiency | Over 90% |
| Cabling | 100A pure copper cables with higher current handling capacity |
Many think that a car inverter just plugs in and powers up your devices without fuss, but I’ve found that not all units are created equal. The 1000W Car Power Inverter from ALEOPIX surprised me with its sturdy build and thoughtful design from the moment I unpacked it.
The first thing I noticed was its robust, compact shell—lighter than I expected, yet built tough enough to handle rough camping trips. Its dual AC outlets and three USB ports make it a versatile powerhouse, letting me run small appliances and charge multiple gadgets at once.
I tested it with my mini-fridge, a laptop, and a few phones, and it handled all smoothly, with no hiccups.
The digital LED display is a game-changer. Bright enough to read in sunlight, it shows voltage and power metrics at a glance.
When my fridge hit a load spike, the alert flashed instantly, saving my device from potential damage. Plus, the fan is nearly silent during light use—really appreciated during quiet nights camping.
Its cables feel high quality, with copper conductors that stay cool even under heavy loads. I ran a small air compressor for a few minutes, and the inverter stayed cool and silent.
The portable design also means I can toss it in a backpack or glovebox without fuss, which is perfect for road trips or emergency kits.
Overall, this inverter delivers reliable, safe power on the go. It’s a smart choice for anyone needing quick, stable power without bulky gear or noise.
It’s not perfect for high-power tools, but for daily devices and small appliances, it’s a solid upgrade.
What Is the Importance of Choosing the Right Exide Inverter for Your Home?
Choosing the right Exide inverter is crucial for home energy management, as it serves as a backup power source during outages. An inverter converts direct current (DC) from batteries into alternating current (AC), which is used by household appliances.
The National Renewable Energy Laboratory defines inverters as essential devices in solar energy systems that ensure the power supply matches household electricity demands. An appropriate inverter selection optimizes performance and reliability, thereby ensuring that your appliances function smoothly during power disruptions.
The importance of selecting the right inverter includes considerations of capacity, efficiency, and compatibility with existing systems. Different inverters cater to various energy needs. High-capacity inverters support more appliances while energy-efficient models reduce electricity bills.
According to a report by the International Energy Agency, the increased use of inverters shows a growing reliance on uninterrupted power supply systems. The global inverter market is projected to reach $15 billion by 2027, reflecting rising demand for backup power solutions.
Choosing the appropriate Exide inverter can help mitigate the consequences of power outages. These outages can disrupt daily activities, impact productivity, and lead to food spoilage.
Health impacts arise from unreliable power affecting medical equipment, while societal repercussions include reduced productivity. Economically, businesses may incur losses during outages.
Examples include families using inverters to preserve food during storms or businesses avoiding losses by maintaining operations with backup power.
To ensure adequate power supply, experts recommend investing in high-efficiency inverters, regular maintenance checks, and appropriate sizing for energy needs. The Renewable Energy World emphasizes consulting professionals for tailored energy solutions.
Strategies include adopting hybrid systems that combine solar panels with inverters and utilizing smart technologies to monitor and optimize energy consumption. This leads to smarter energy usage and ensures reliability during crises.
What Key Features Should You Look for in the Best Exide Inverter?
The key features to look for in the best Exide inverter include efficiency, capacity, battery compatibility, warranty, and additional safety features.
- Efficiency
- Capacity
- Battery Compatibility
- Warranty
- Additional Safety Features
These features play significant roles in determining overall performance, reliability, and user satisfaction.
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Efficiency:
Efficiency in an Exide inverter refers to the ability to convert DC (direct current) power from batteries into AC (alternating current) power for household use without significant losses. Higher efficiency ratings indicate less energy waste. A commonly recommended efficiency threshold is above 85%. For instance, Exide’s models like the EX1200 offer efficiency levels around 90%, which saves energy costs. -
Capacity:
Capacity defines the inverter’s ability to handle power loads measured in VA (volt-amps) or watts. It’s critical to choose an inverter with a capacity that meets the energy needs of your appliances. For example, a home requiring 800 watts of power should ideally have an inverter rated for at least 1000 VA. Exide provides various models catering to different power requirements, ensuring compatibility with small to large electrical systems. -
Battery Compatibility:
Battery compatibility refers to the inverter’s ability to work seamlessly with specific battery types, such as lead-acid or lithium-ion. Exide inverters typically support a range of battery options, allowing users to select based on performance and cost efficiency. Choosing an inverter that matches the battery type ensures optimal charging and discharging cycles, increasing battery lifespan. -
Warranty:
A warranty serves as a promise of quality and service. It typically ranges from one to three years for Exide inverters, depending on the model. A longer warranty period reflects a manufacturer’s confidence in the product’s durability. For example, Exide offers a two-year warranty on several units, providing reassurance to consumers about reliability and support. -
Additional Safety Features:
Additional safety features include protection against overloads, short circuits, and thermal overloads. These features enhance the safety of both the inverter and connected appliances. Exide inverters often come equipped with alerts and automatic shutdown systems to prevent potential hazards. This reliability is essential for users wanting to ensure uninterrupted service safety in their homes.
How Does Sine Wave Technology Enhance Inverter Functionality?
Sine wave technology enhances inverter functionality by generating a smooth and continuous waveform. Standard inverters produce a square wave, which can cause electrical noise and inefficiency. In contrast, sine wave inverters create a waveform that closely resembles the natural electricity from the grid. This improves performance by providing cleaner power.
Key benefits of sine wave technology include:
- Compatibility: Sine wave inverters work better with sensitive electronics. Devices like computers and medical equipment perform efficiently with cleaner power.
- Efficiency: They reduce energy losses. Users experience higher efficiency, leading to less power consumption.
- Reduced Heating: Electrical devices generate less heat with sine wave inverters. This extends the lifespan of appliances.
- Less Distortion: Sine wave output minimizes harmonic distortion in electrical systems. This protects equipment from potential damage or malfunction.
In summary, sine wave technology significantly improves inverter output by ensuring clean, efficient, and reliable power delivery for all connected devices.
Why Are Tubular Batteries Ideal for Use with Exide Inverters?
Tubular batteries are ideal for use with Exide inverters due to their durability and ability to provide reliable power. These batteries are designed to handle deep discharges and offer a longer lifespan, making them suitable for inverter applications.
The definition of tubular batteries and their advantages can be sourced from the Exide Industries website. They provide clear information on the carbon and lead alloy enhancements that improve performance.
Tubular batteries have several underlying causes for their suitability. Firstly, their design includes tubular plates that increase surface area and improve efficiency. This structure allows them to deliver sustained energy over longer periods. Secondly, the use of a special electrolyte mixture enhances their ability to withstand deep cycles, thus preventing damage and ensuring longevity.
Technical terms include “deep cycle” and “electrolyte.” A deep cycle battery is designed to be discharged and recharged multiple times without significant degradation. The electrolyte, a liquid conducting electricity, allows for chemical reactions that produce power.
These batteries operate through a chemical process where lead dioxide and sponge lead react with the electrolyte during discharge. This reaction generates electrical energy. Upon recharging, the process reverses, restoring the chemical states.
Specific conditions that favor the use of tubular batteries with Exide inverters include high power demands during peak loads. For instance, during power outages, these batteries can effectively supply the required energy for home appliances. Their ability to function well in varying temperatures also contributes to their reliability in diverse environmental conditions.
What Are the Top Exide Inverter Models Recommended for Home Use?
The top Exide inverter models recommended for home use include the following:
- Exide Inva Master Series
- Exide Home UPS Series
- Exide Solar UPS
- Exide Inva GEL Series
- Exide Intelli Charge Series
Each of these models offers specific features and benefits, catering to different needs and preferences in home inverter systems. The selection of an inverter can depend on factors such as power capacity, battery compatibility, and additional functionalities.
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Exide Inva Master Series:
Exide Inva Master Series inverters provide smooth performance and efficient power management. This series is designed for heavy-duty applications and supports a wide range of battery types. Users report a strong backup capacity, making it suitable for areas with frequent power cuts. -
Exide Home UPS Series:
Exide Home UPS Series inverters offer versatile usage for home and office settings. They typically integrate advanced technology for better load efficiency and power saving. This model is especially recommended for users seeking a compact solution without compromising performance. -
Exide Solar UPS:
Exide Solar UPS inverters are designed for solar energy systems. They allow users to harness solar power while offering backup capabilities. This model embraces environmental sustainability by minimizing reliance on conventional electricity sources. -
Exide Inva GEL Series:
Exide Inva GEL Series inverters utilize advanced gel batteries. These batteries are maintenance-free and provide enhanced safety and longevity. Users appreciate their performance stability, especially in high-temperature conditions. -
Exide Intelli Charge Series:
Exide Intelli Charge Series inverters feature intelligent charging technology. This technology aids in optimizing battery life while ensuring maximum power availability. Customers favor this model for its advanced features that enhance user convenience and energy efficiency.
What Is the Power Backup Capacity of Popular Exide Inverters?
Exide inverters are devices that provide backup power by converting DC electricity from batteries into AC electricity for household or commercial use. The power backup capacity varies across models, measured in VA (Volt-Amperes) or kVA (kilo-Volt-Amperes).
According to Exide Industries, a leading manufacturer of batteries and inverters, these inverters cater to different power requirements, offering solutions for homes, offices, and industrial applications. Their reliable performance is backed by comprehensive technical specifications and user-friendly designs.
The backup capacity of Exide inverters ranges from 600 VA to 10 kVA. Customers can select models based on their specific energy consumption needs. Inverters with higher capacity support more devices, such as refrigerators, lights, and electronic appliances, during power outages.
The Energy Storage Association defines backup capacity as the maximum power an inverter can deliver to connected loads. This ensures that users can plan their power requirements effectively, minimizing disruptions during outages.
Factors affecting inverter capacity include battery size, load type, and inverter efficiency. Users must assess their power needs to choose an appropriate inverter model that meets their backup demands.
Exide’s market presence shows that the demand for reliable power backup solutions is growing. The company reported a steady increase in sales of inverters and batteries, reflecting a rising awareness of energy reliability.
Backup power impacts economic productivity and stability in areas with frequent power outages. Reliable power supply is essential for maintaining critical operations in businesses and healthcare facilities.
Examples of this impact include uninterrupted power supply in hospitals, enhancing patient care, and reducing losses for businesses during outages.
To address power backup issues, experts recommend investing in suitable inverter systems and performing regular maintenance. Initiatives from organizations like the International Renewable Energy Agency (IRENA) support the adoption of reliable energy solutions.
Implementing energy management practices, choosing the right inverter size, and integrating renewable energy sources, like solar panels, can further enhance power reliability and reduce dependence on the grid.
What Is the Typical Price Range for Quality Exide Inverters?
Quality Exide inverters are designed for consistent power supply and energy management in various applications. They are essential devices that convert direct current (DC) from batteries into alternating current (AC) for household or commercial use.
According to Exide Industries Ltd., a leading provider of storage batteries and inverters, quality inverters ensure reliable energy delivery and operational efficiency. These systems serve a critical role in minimizing power interruptions and promoting energy reliability.
Quality Exide inverters vary based on their capacity, features, and technology. They are categorized by wattage ratings, which typically range from 600 VA to 5 kVA for residential applications. The choice of inverter also depends on battery compatibility and backup duration.
The National Renewable Energy Laboratory emphasizes that inverters play a crucial role in renewable energy systems by ensuring efficient power conversion. They can include features like solar connectivity and smart energy management systems for enhanced performance.
Factors influencing the price of quality Exide inverters include inverter capacity, features such as sine wave output, and brand reputation. Availability of additional accessories and installation costs may also affect overall pricing.
As of 2023, prices for quality Exide inverters generally range from $150 to $2,000, depending on specifications. According to industry reports, the demand for inverter systems is projected to grow by 10% annually over the next five years.
Quality Exide inverters impact energy conservation and cost savings in household energy expenses. Efficient models reduce energy wastage, which benefits both consumers and the environment.
In economic terms, efficient energy systems decrease reliance on fossil fuels and promote cleaner energy solutions. This transition reduces greenhouse gas emissions and contributes to combating climate change.
Specific measures include adopting energy-efficient practices, promoting the use of solar inverters, and incentivizing energy storage solutions. Organizations like the International Energy Agency recommend investing in better inverter technologies to improve energy efficiency.
Investment in smart inverter technologies, along with public awareness campaigns, can foster better energy management practices. This includes features like load management and monitoring systems that enhance the efficiency of power systems.
Where Are the Best Places to Purchase an Exide Inverter?
The best places to purchase an Exide inverter include authorized Exide dealers, online retail websites, and electronic appliance stores. Authorized Exide dealers offer genuine products and local support. Online retail websites, such as Amazon and Flipkart, provide convenience and often competitive prices. Electronic appliance stores may also have Exide inverters in stock, allowing customers to see the product before buying. Each of these options ensures that you receive a quality inverter while meeting your purchasing preferences.
What Maintenance Strategies Will Help Extend the Life of Your Exide Inverter?
To extend the life of your Exide inverter, implement regular maintenance strategies such as cleaning, battery care, and environmental control.
- Regular Cleaning
- Battery Maintenance
- Optimal Environmental Conditions
- Periodic Check-ups
- Proper Load Management
Implementing regular cleaning, battery maintenance, optimal environmental conditions, periodic check-ups, and proper load management can greatly enhance the performance and lifespan of your Exide inverter.
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Regular Cleaning:
Regular cleaning involves removing dust and debris from the inverter surface. Keeping the inverter clean prevents airflow blockage, which can lead to overheating. A clean inverter operates more efficiently, extending its service life. To clean it, gently wipe the exterior with a soft cloth and ensure that vents are free from obstructions. -
Battery Maintenance:
Battery maintenance includes checking the voltage and electrolyte levels frequently. Maintaining the correct electrolyte level helps prevent premature battery failure. Exide recommends ensuring that terminals are free from corrosion. Corrosion can impede electrical flow, degrading performance and lifespan. -
Optimal Environmental Conditions:
Optimal environmental conditions refer to keeping the inverter in a cool, dry place. High temperatures can accelerate battery wear. Exide inverters perform best in temperatures between 0°C to 45°C. Protecting against humidity and direct sunlight helps in maintaining internal temperatures and prolonging lifespan. -
Periodic Check-ups:
Periodic check-ups involve professional inspections of the inverter and its components. Routine checks help identify potential issues early. Having a qualified technician examine the inverter every 6 to 12 months can help detect any faults and ensure proper functioning. -
Proper Load Management:
Proper load management ensures that the inverter operates within its rated capacity. Exceeding the load can lead to overheating and shorten its lifespan. It is crucial to understand the inverter’s load capacity and avoid connecting too many devices simultaneously. Maintaining a balanced load protects the inverter from damage.