Which voltage range corresponds to the standard 4-20 mA current when using a 250 Ω resistor?

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Understand and master the HART Protocol and 4–20 mA Loop Communication Fundamentals exam. Utilize flashcards and multiple choice questions, each featuring hints and explanations. Enhance your exam readiness and confidence!

Multiple Choice

Which voltage range corresponds to the standard 4-20 mA current when using a 250 Ω resistor?

Explanation:
The key idea is converting current to a voltage with a resistor using Ohm’s law: V = I × R. With a 250 Ω resistor, the 4 mA lower end gives V = 0.004 A × 250 Ω = 1 V, and the 20 mA upper end gives V = 0.020 A × 250 Ω = 5 V. So as the current in a 4–20 mA loop changes, the voltage across the resistor ranges from 1 V to 5 V. This is why the 1–5 V range is the correct match for a 4–20 mA signal with a 250 Ω shunt. In practice, the loop supply must be higher than 5 V to provide some overhead.

The key idea is converting current to a voltage with a resistor using Ohm’s law: V = I × R. With a 250 Ω resistor, the 4 mA lower end gives V = 0.004 A × 250 Ω = 1 V, and the 20 mA upper end gives V = 0.020 A × 250 Ω = 5 V. So as the current in a 4–20 mA loop changes, the voltage across the resistor ranges from 1 V to 5 V. This is why the 1–5 V range is the correct match for a 4–20 mA signal with a 250 Ω shunt. In practice, the loop supply must be higher than 5 V to provide some overhead.

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