ไม่สามารถเล่นวิดีโอนี้
ขออภัยในความไม่สะดวก
how to calculate battery charging voltage, current and backup||how to select charger for a battery
ฝัง
- เผยแพร่เมื่อ 20 มิ.ย. 2024
- subscribe (bacha ge enginnering) for more use full vedios.
Calculating battery charging voltage, current, and backup time involves understanding several key factors related to the battery and the application. Here’s a step-by-step
description:1. Battery Capacity and VoltageDetermine Battery Voltage:
Identify the nominal voltage of the battery. Common values are 12V, 24V, or 48V for lead-acid batteries used in many applications.2. Charging Voltage and CurrentCharging Voltage: The charging voltage is typically higher than the battery's nominal voltage to ensure proper charging. For example, for a 12V battery, the charging voltage might be around 13.8V to 14.4V.Charging Current: This depends on the battery's capacity and the charging method (constant voltage or constant current). Generally, it's recommended to charge at a rate of 10-20% of the battery's capacity (Ah rating). For instance, a 100Ah battery can be charged at 10-20A.3. Calculating Backup TimeBattery Capacity (Ah):
Determine the Ah rating of the battery. This information is usually provided by the manufacturer.Load Current (I): Calculate the total current drawn by the load (devices powered by the battery).Backup Time (T): Use the formula: [ T = \frac{\text{Battery Capacity (Ah)} \times \text{Battery Voltage (V)}}{\text{Load Current (A)}} ]Example calculation:Battery Capacity = 100AhBattery Voltage = 12VLoad Current = 5A[ T = \frac{100 \times 12}{5} = 240 \text{ hours} ]This gives you the backup time in hours. Ensure the units are consistent (all in Ah and A).
Example Scenario:Scenario: You have a 12V, 100Ah battery powering a load that draws 5A.Charging Requirements:
Charge the battery at 14.4V and 10A.Calculation:Backup Time: [ T = \frac{100 \times 12}{5} = 240 \text{ hours} ]Charging:
Charging Voltage: 14.4VCharging Current: 10AConsiderations:
Efficiency:
Factor in efficiency losses during charging and discharging (typically 85-95% efficiency).Temperature: Ensure charging rates are adjusted for temperature variations, as extreme temperatures can affect battery performance.
Maintenance:
Regularly monitor and maintain batteries to prolong their lifespan and ensure reliable backup power.By following these steps and considerations, you can effectively calculate the charging parameters (voltage and current) and estimate the backup time of a battery system.
#BatteryBackupTime
#CalculateBatteryBackup
#BatteryAH
#BackupTimeCalculation
#BatteryCapacity
#CalculateBackupTime
#BatteryLife
#PowerBackup
#AHCalculation
#BatteryPower
#BackupTimeAH
#BatteryBackupCapacity
#BatteryCharging
#CalculateBackupHours
#EnergyStorage
#PowerManagement
#BatterySystem
#BackupDuration
#BatteryUsage
#BackupStrategy
Exelant method
Good information
جزاک اللّہ خیرا بھائی
Weldone
Bacha g zabardast video
Shukria
Amazing
Nicwork
Good
Thanks
Nice
Thanks
good work❤
Thanks
HOW TO CALCULATE BATTERY BACK UP TIME CALCULATION”
1) House Load = 300WATTS
2) Battery volts = 12 V (given on battery)
3) Battery Capacity (AH) = 180 AH (given on battey).
4) FORMULA USE =
Watts (W) ` = volt (V) X Ampere (A) = V X A
Ampere (A) = watts (W) / Volts (V)
5) ACTUAL use Amepere (A) = 300 watts / 12 V Battery volts = 25 A
6) Battery Back up Time = Battery Capacity AH / Actual current USE (Ampere),
7) 180 AH Battery Capacity / 25 A actual use current = 7.20 HOURS Battery Back time
8) Note: Battery time also depands on Battery Age , Temperature and Load types
Brother mare pas 6.2 kw watt inverter hai Kitna kilo watt batteries chahye
Nice work
Good
Thanks