0.8-1.2V Depends on manufacturer and technology options.
no difference...
It is another way of saying "Apply a voltage" or "supply (something) with a voltage"
The terms, 'lagging' and 'leading', describe the relationship between a circuit's load current and supply voltage. They describe whether the load current waveform is leading or lagging the supply voltage -always the current, never the voltage. Inductive loads always cause the current to lag the supply voltage, whereas capacitive loads always cause the current to lead the supply voltage.
The terminal voltage is equal to the supply voltage and there is zero current.
The maximum supply voltage per the data sheet is 5.25 volts. This is a common max for TTL type IC's.
You can not. Speakers do not supply a voltage they need a voltage to operate correctly.
The induced voltage acts to oppose any change in current that is causing it. So, if the current is increasing, then the induced voltage will act in the opposite direction to the supply voltage; if the current is decreasing, then the induced voltage will act in the same direction as the supply voltage.
zero? the supply voltage? the supply voltage minus the individual coltage drops? the sum of the individual voltage drops? which one?
It depends on the supply voltage watts = current in amps times the supply voltage
no difference...
It is another way of saying "Apply a voltage" or "supply (something) with a voltage"
The voltage for anything should match the supply voltage.
45nm
Yes. Depending on the design, the power supply can provide any voltage desired.
You need to convert the voltage if your appliance requires less voltage than you power supply. example: appliances is 110V and power supply is 220V.
The two resistor voltage divider is used often to supply a voltage different from that of an available battery or power supply. In application the output voltage depends upon the resistance of the load it drives.
5 volt supply, sensor ground and signal voltage.5 volt supply, sensor ground and signal voltage.