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SmarTEC Blog
January 20, 2026
Lead-acid batteries are the earliest commercialized secondary batteries, with a history of over 160 years. They use lead dioxide as the positive electrode, lead as the negative electrode, and sulfuric acid as the electrolyte, with a working voltage of 2V. Lead-acid batteries have advantages such as low cost, mature technology, and good high-rate discharge performance, … Lead-Acid Batteries: Upholding Tradition While Driving Innovation
January 16, 2026
Lithium iron phosphate (LiFePO₄) batteries use lithium iron phosphate as the cathode material and carbon (graphite) as the anode material, with a nominal cell voltage of 3.2V and a charge cut-off voltage of 3.6-3.65V. Its key advantages include very high thermal stability (decomposition temperature around 600°C), long cycle life (2000-7000 cycles), excellent safety (not prone … Technical characteristics of lithium iron phosphate batteries
January 15, 2026
Lithium-ion batteries achieve the conversion between electrical energy and chemical energy through the reversible migration of lithium ions between the positive and negative electrodes. During charging, lithium ions are released from the positive electrode material (e.g., LiCoO₂) and travel through the electrolyte. They pass through the separator and embed into the graphite structure of the … Basic Working Principle of Lithium-ion Batteries
December 24, 2025
This is a 3D exploded-view diagram of a battery. The LiFePO₄ battery pack consists of an aluminum shell, epoxy boards for insulation, and a sophisticated BMS. The black part is the battery’s outer casing, providing structural support and protecting the internal components. The middle section consists of battery cells, typically connected in series or parallel via busbars to … LiFePO₄ Battery Pack: A 3D Exploded View of Core Components
December 17, 2025
As a consumer searching for “robot vacuum battery selection tips,” the most important considerations are battery life, safety, and compatibility. Take the popular SMARTEC 14.8V 10AH battery as an example: it uses ternary lithium cells with an energy density of 280Wh/kg, supporting a single cleaning session for an apartment of 200㎡—far exceeding the 150㎡ limit … How to Choose a Battery for a Robot Vacuum? A Beginner’s Guide for 2025
December 12, 2025
Cathode Slurry Mixing: Mix the cathode active material, conductive agent, and binder evenly to make a slurry. Anode Slurry Mixing: Using the same process, prepare a uniform anode slurry. Coating: Evenly coat the cathode and anode slurries on metal foil current collectors. Calendering: Press the electrode sheets with a heavy rollers to increase energy density. … Cylindrical Lithium Battery Production Process
December 8, 2025
A reliable lithium-ion battery pack is far more than a simple assembly of cells. At its core lies a sophisticated Battery Management System (BMS), which acts as the battery’s “intelligent brain,” ensuring safe, efficient, and long-lasting operation of the power system.The primary responsibility of a BMS is to ensure safety. It continuously monitors the battery … 《”The ‘Intelligent Brain’ of Robot Batteries: A Detailed Explanation of the BMS System”》
December 5, 2025
NTC thermistors are widely used in temperature measurement, temperature control, and temperature compensation. For example, in battery applications, NTC thermistors can be used to monitor the charging and discharging temperatures of batteries in real time. The B-value is an important parameter of negative temperature coefficient (NTC) thermistors, used to describe the resistance change of … Demystifying the B-Value: Why Does It Determine the Temperature Sensitivity of NTC Thermistors?
November 21, 2025
Electric vehicle batteries (especially lithium-ion batteries) are core components of the vehicle, and their lifespan directly affects usage costs and travel efficiency. Scientific charging and discharging strategies, standardized storage habits, and regular maintenance can significantly slow down battery aging, avoiding sudden capacity drops and safety risks. 🔋 Optimize Charging and Discharging Habits To prolong battery … Electric Vehicle Battery Maintenance Guide: Optimize Charging and Discharging Habits to Effectively Extend Battery LifeElectric Vehicle Battery Maintenance Guide: Optimize Charging and Discharging Habits to Effectively Extend Battery Life
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