To calculate the amperage, we can use the formula: Amps = Watts / Volts. In this case, it would be 70 watts / 13.8 volts ≈ 5.07 amps. So, with 70 watts and a voltage of 13.8 volts DC, the amperage would be approximately 5.07 amps.
If you are using this device to check to see if the circuit is energized or not, it will work fine. The voltage range on this tester can be used from 120 volts up to 600 volts AC and DC. At the 600 volt range the unit can be left on the line for only 10 seconds and then be not used again for five minutes to let the internal solenoid plunger coil cool down.
The 12 v side ampere rating is unnecessary information (You need 5 watts output power, so if the input is 12 volts, you need around 1/2A input current). Use a DC to DC converter. I found an IC made for this purpose at Radio Shack several years ago - I assume they are still available if you are a hobbyist. Otherwise you can buy premade ones (search for 12v to 5v converter).
To find the amperage, you can use the formula: Amps = Watts / Volts. In this case, with 72 Watts and 12 Volts, you would have 6 amps of current.
To calculate the current (in milliamps), you can use the formula: Current (in mA) = Power (in watts) / Voltage (in volts). In this case, Current = 2 watts / 12 volts = 0.167 amps. To convert this to milliamps, multiply by 1000: 0.167 amps * 1000 = 167 mA. Therefore, there are 167 milliamps in a 12V DC, 2W DC circuit.
5 volts Direct Current 600 milliampers
This action takes inverter equipment that is explained in the link below.
No, 1 amp is 1000 milliamp your power supply will only deliver 600 milliamp or .6 of an amp.
Use a full wave bridge rectifier.
The most common voltage is 600 Volts DC. However, various voltages have been used. Most newly built light rail lines use 750 Volts DC. Some have used 1200 VDC or 1500 VDC. A few have used AC current.
600 in Roman numerals = DC
the answer is dc volts are rectified from ac volts and the amperage will be the same unless you account for the slight drop from the rectifier. dc volts from a battery have no relationship to ac volts. you can derive ac volts from a dc source using an inverter.
from the wall it could be 115v ac, or in non American countries that use it 230v ac. internal voltages range from 12v dc, 5v dc, 3.3v dc.
No.
The Roman numeral for 600 is DC.
In Digital multimeter we use 9V Dc battery.
how to use the Clamp-On Meter Model GCM-600 to find the current of a DC power?