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EV Batteries

Introduction

EV BATTERIES

EV batteries are the heart of electric vehicles, providing the essential power needed to drive and operate various systems within the vehicle. Designed for efficiency and longevity, these batteries store energy generated from renewable sources or the grid and deliver it as needed for propulsion. Modern EV batteries typically use lithium-ion technology, which offers high energy density, faster charging times, and extended lifespans. They are engineered to withstand various operating conditions, ensuring reliable performance and safety. As the demand for electric vehicles grows, advancements in battery technology continue to enhance range, reduce costs, and improve overall sustainability, making EV batteries a crucial component in the transition to greener transportation solutions. Furthermore, innovations in battery recycling and second-life applications are emerging, allowing for sustainable disposal and reuse of EV batteries, which minimizes environmental impact. These developments not only contribute to a circular economy but also lower the carbon footprint associated with battery production and disposal. As researchers explore solid-state batteries and alternative chemistries, the future of EV batteries promises even greater efficiency, safety, and performance, paving the way for broader adoption of electric vehicles.

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Our Features

Range Anxiety Algorithm

Route / Trip Planning Charging Station Availability Charger placement

Energy Management

Time of use (TOU) pricing Demand charge exception

Rapid Transit Solution

Last Mile Connectivity Seamless Single Payment System

Smart Parking Solution

Predictive engine for parking demand & real time pricing Violation & Exceptions Management

Remote Monitoring

Connected Vehicles Geo fencing

Scheduling

Predictive & Preventive Maintenance Battery SoC Text Messages

Deep Tech Platform

Specification Of Batteries

Electrical Specifications:
Voltage Window 48V, 60V & 72V
Self Discharge <3% per month
Cell Type
LFP- 32700
NMC- 26650
NMC- 18650
Charging Characteristics:
Maximum Charge Current (A) 15
Charging Method CC-CV
Discharge Characteristics:
Peak Discharge Current (A) 72 (<5 secs)
Max. Continue Discharge Current (A) 40
Discharge Method CC
Operating Conditions:
Cycle Life (+20°C 0.2C 100% DOD) >2000
Operating Temperature Discharge: -10°C to 60°C & Charge: 0°C to 60°C
Storage Temperature 5°C to 30°C
Storage Duration 12 months at 25°C
Mechanical Characteristics:
Approximate Weight (Kg) 9 to 12
Terminal Anderson
Enclosure Protection IP65
Enclosure Material MS Powder Coated
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