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Hit to Read More## Calculating Voltage Drop

In a digital circuit, power supply voltage levels are constrained to two distinct values – “logic high voltage” (called LHV or Vdd) and “logic low voltage” (called LLV or GND). The GND node in any circuit is the universal reference voltage against which all other voltages are measured (in modern digital circuits, GND is typically the lowest voltage in the circuit). In a schematic, it is often difficult to show lines connecting all GND nodes; rather, any nodes labeled GND are assumed to be connected into the same node. Often, a downward pointing triangle symbol, is attached to a GND node in addition to (or instead of) the GND label. The Vdd node in a digital circuit is typically the highest voltage, and all nodes labeled Vdd are tied together into the same node. Vdd may be thought of as the “source” of positive charges in a circuit, and GND may be thought of as the “source” of negative charges in a circuit. In modern digital systems, Vdd and GND are separated by anywhere from 1 to 5 volts. Older or inexpensive circuits typically use 5 volts, while newer circuits use 1-3 volts.

Calculating Voltage Drop Across A Resistor. Calculating Voltage Drop Over Distance. Voltage Drop In A Dc Series Circuit. Ac Voltage Drop Across A Capacitor. Calculate Voltage Drop Across Resistor Without Current. Calculating Voltage Drop Across A Resistor In Parallel. Calculating Dc Voltage Drop Formula. How Do I Calculate Voltage Drop In A Series Circuit.

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