SourcingAI

Lead acid battery regenerator

I have found results from300+products and100+suppliers aboutLead acid battery regenerator

Commonly Used:
US$
Customization Available
Sample Available
Manufacturer First
Product Attributes:
Lead-Acid Battery Charger
Type: Lead-Acid Batteries
Type: Lithium Battery
Test Region: All
Application: Lead-acid Battery
Customized: Customized
Charger Type: Electric Charger
Charger Application: Standard Battery
Nominal Voltage: 12V
Charger Style: Pulse Charger
Certification: UL
Recyclable: Recyclable
Charging Type: Electric Charger
Compatible Battery Type: 12-Volt
Socket Type: For E.U.
Usage: UPS
Shape: Square Battery
Electrolyte: Acid
Installation: Fixed
Rechargeable: Chargeable
Charger Style: Inductive Charger
Certification: CE
Certification: RoHS
Certification: TUV
Usage: Electric Power

Sourcing guidance for Lead Acid Battery Regenerator

How to choose a high-performance Lead Acid Battery Regenerator?

Selecting a regenerator requires focusing on Pulse Technology and Voltage Versatility. Ensure the device utilizes High-Frequency Resonance Pulse technology to effectively break down hard lead sulfate crystals without damaging the battery plates. It is critical to choose a model that supports a wide voltage range (e.g., 2V to 96V) to cover various battery types from UPS systems to electric forklifts. Additionally, prioritize units with Microprocessor Control for automated charging/discharging cycles and Real-time Data Logging to track capacity recovery progress.

What are the key technical specifications and compliance standards for B2B buyers?

Buyers must verify that the equipment meets CE and RoHS certifications for electrical safety and environmental compliance. Key specs include Adjustable Current Output (to handle different Ah capacities), Thermal Protection to prevent overheating during the desulfation process, and Short-circuit/Reverse Polarity Protection. For industrial applications, look for a Discharge Testing Function integrated into the regenerator, as this allows for a 'before and after' capacity validation, ensuring the Economic Feasibility of the restoration.

What are the typical usage scenarios and functional requirements?

These devices are primarily used in Telecom Base Stations, Solar Energy Storage hubs, and Forklift Maintenance centers. The functional requirement for these scenarios is Stability under Continuous Operation. For heavy-duty industrial batteries, the regenerator must be capable of Deep Cycle Desulfation. If the goal is mobile service, a Portable Design with Rugged Housing is essential. For fleet management, ensure the software can generate Professional Battery Health Reports to justify the ROI of the regeneration service to end-users.

Cross-Border Purchasing Considerations for Battery Maintenance Equipment

What are the primary risks when importing industrial regenerators and how to mitigate them?

The main risks include Technical Mismatch (Voltage/Plug standards) and Shipping Damage to sensitive electronics. To mitigate these, strictly confirm the Input Voltage (110V/220V/380V) and Plug Type of your destination country before production. Request Reinforced Plywood Crate Packaging rather than standard cardboard to protect the internal transformers and PCB boards during long-haul sea freight. Always use Made-in-China.com's Secured Trading Services to ensure payment is only released after proof of shipment.

How should I negotiate with suppliers to ensure quality and long-term support?

Negotiate for a Performance Guarantee rather than just a hardware warranty; for example, ask for a commitment on the Success Rate of Desulfation for batteries of a certain age. Demand Video Operation Manuals and Remote Technical Training as part of the purchase package. For bulk orders, negotiate a Spare Parts Kit (5-10% of value) including fuses, power modules, and clamps to minimize downtime in case of component failure.

What are the logistics and customs precautions for this specific product?

Since regenerators are heavy electrical equipment, Sea Freight (LCL or FCL) is the most cost-effective method. Ensure the supplier provides the correct HS Code (typically 8504.40 or 9030.89) to avoid customs delays or incorrect tariff applications. If the unit contains large capacitors or small internal batteries for memory, ensure the supplier provides a Material Safety Data Sheet (MSDS) and a Non-Hazardous Goods Declaration to facilitate smooth transit through international ports.

Related queries