Current-sensing solutions

Isolated current sensing is used both for high- and low-side current sensing. When the common voltage is higher than what a current-sense or difference amplifier can handle, an isolated method might be a good option. Safety standards might also require galvanic isolation between the system and the conductor measuring the current. Other use cases include when the microprocessor or controller has a different ground plane than the current sensor, or if a noisy ground plane (which will propagate to the rest of the system) makes accurate measurements difficult.

Learn more about these key isolated product categories:

In high-side current sensing, placing a shunt resistor between the bus voltage and the system load eliminates ground disturbances because the shunt resistor is no longer connected directly to ground. High-side current sensing also detects load short-to-ground conditions. We offer many devices with high-voltage capabilities and a high common-mode rejection ratio (CMRR) that accurately measure current on high-voltage rails.

Learn more about these key high-side product categories:

Low-side current sensing has a shunt resistor in between the load and ground. One advantage of low-side measurements is that the common-mode voltage is near zero. The disadvantage is that the voltage drop across the shunt resistor appears as a difference between the supply ground and the load or system ground. We offer a wide range of amplifiers that enable low-side sensing in high-accuracy and cost-sensitive applications.

Learn more about these key low-side product categories:

In-line current sensing offers true phase-current measurements for optimizing the quality of inverter or motor feedback information for closed-loop control. In such applications, the common-mode voltage is a pulse-width-modulated (PWM) signal, which disrupts the output signal (unless PWM rejection circuitry is enabled) and leads to more strenuous requirements for the current-sense amplifier, which must have a very good DC and AC common-mode rejection ratio (CMRR). We offer devices with both enhanced PWM rejection and high CMRR.

Learn more about these key in-line product categories:

Overcurrent protection is the most basic form of current monitoring for fast detection of out-of-range or fault conditions. Our portfolio includes high-bandwidth and slew-rate devices, as well as integrated comparator/alert devices for fast throughput to enable this safety feature.

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A low-input bias current sensor is necessary to minimize errors when measuring low currents. With standard amplifier input bias currents, the bias current will exceed the measurement current, resulting in diminished accuracy and a low signal-to-noise ratio. We offer amplifiers with nanoampere input bias currents to enable high-accuracy submilliampere measurements.

Learn more about these key submilliampere product categories: