600watts
VA stands for Volt-ampere. 1 VA is equal to 1 Watt. So 600va is about 600 watts. This can be confusing because a power supply rated at 600va will not put out 600 watts due to reactance. The power supply contains an inductor or capacitor so the actual output will be around 1/2 to 2/3 of the VA.
1 watt hour is equal to 1 watt of power consumed for an hour. It is a unit of energy, not power.
I think mini watt is an alias for milli watt, so 1000 mini Watts equals 1 Watt
1.2 km
To estimate the backup time of a 600VA inverter with a 150Ah 12V battery, we use the formula: 🔹 Step 1: Calculate Total Battery Capacity in Watt-hours (Wh) Battery Capacity (Wh) = Battery Voltage × Ah rating = 12 � × 150 � ℎ = 1800 Wh Battery Capacity (Wh)=Battery Voltage×Ah rating =12V×150Ah= 1800 Wh 🔹 Step 2: Factor in Inverter Efficiency (typically ~85%) Usable Power = 1800 × 0.85 = 1530 Wh (approx.) Usable Power=1800×0.85= 1530 Wh (approx.) 🔹 Step 3: Estimate Backup Time Based on Load Let’s see a few cases for load in watts: ✅ Case 1: Light Load (100W — e.g., few lights + a fan) Backup Time = 1530 100 = 15.3 hours Backup Time= 100 1530 = 15.3 hours ✅ Case 2: Medium Load (300W — e.g., lights + fan + TV) Backup Time = 1530 300 = 5.1 hours Backup Time= 300 1530 = 5.1 hours ✅ Case 3: Near Full Load (500W — close to 600VA capacity) Backup Time = 1530 500 = 3.06 hours Backup Time= 500 1530 = 3.06 hours 🔸 Important Notes: Battery age and temperature can reduce actual backup. If the inverter is overloaded, it may shut down before the battery is fully drained. Would you like help calculating for your specific appliances? You said: What is the backup time of a 600Va inverter with a 135Ah 12v battery? ChatGPT said: To calculate the backup time of a 600VA inverter with a 135Ah 12V battery, let’s go step by step: 🔹 Step 1: Battery Energy in Watt-hours (Wh) Battery Capacity = 12 � × 135 � ℎ = 1620 Wh Battery Capacity=12V×135Ah= 1620 Wh 🔹 Step 2: Account for Inverter Efficiency (~85%) Usable Energy = 1620 × 0.85 = 1377 Wh (approx.) Usable Energy=1620×0.85= 1377 Wh (approx.) 🔹 Step 3: Estimate Backup Time Based on Load Let’s calculate for different loads: ✅ Case 1: 100W Load (fan + 2-3 LED lights) Backup Time = 1377 100 = 13.77 hours Backup Time= 100 1377 = 13.77 hours ✅ Case 2: 300W Load (fan, TV, router, lights) Backup Time = 1377 300 = 4.59 hours Backup Time= 300 1377 = 4.59 hours ✅ Case 3: 500W Load (near max of 600VA inverter) Backup Time = 1377 500 = 2.75 hours Backup Time= 500 1377 = 2.75 hours ⚠️ Keep in Mind: Older batteries may give less backup. Inverter overload protection may kick in above ~500W. Temperature and battery health affect real-world performance.
it depends on the kind of led bulb
1 watt is equal to 1 joule per second. This means that 1 watt of power equals 1 joule of energy expended over a period of 1 second.
1MW = 1,000,000 watts
Rs 750
They're are not related. Watts are measurement of power while Ohms are measurement of resistance. One watt equals one volt times one amp.
To estimate the backup time of a 600VA inverter with a 150Ah 12V battery, we use the formula: 🔹 Step 1: Calculate Total Battery Capacity in Watt-hours (Wh) Battery Capacity (Wh) = Battery Voltage × Ah rating = 12 � × 150 � ℎ = 1800 Wh Battery Capacity (Wh)=Battery Voltage×Ah rating =12V×150Ah= 1800 Wh 🔹 Step 2: Factor in Inverter Efficiency (typically ~85%) Usable Power = 1800 × 0.85 = 1530 Wh (approx.) Usable Power=1800×0.85= 1530 Wh (approx.) 🔹 Step 3: Estimate Backup Time Based on Load Let’s see a few cases for load in watts: ✅ Case 1: Light Load (100W — e.g., few lights + a fan) Backup Time = 1530 100 = 15.3 hours Backup Time= 100 1530 = 15.3 hours ✅ Case 2: Medium Load (300W — e.g., lights + fan + TV) Backup Time = 1530 300 = 5.1 hours Backup Time= 300 1530 = 5.1 hours ✅ Case 3: Near Full Load (500W — close to 600VA capacity) Backup Time = 1530 500 = 3.06 hours Backup Time= 500 1530 = 3.06 hours 🔸 Important Notes: Battery age and temperature can reduce actual backup. If the inverter is overloaded, it may shut down before the battery is fully drained.
A 125 watt CFL bulb typically produces about 5400-6200 lumens.