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MAX9934 高精度、低电压电流检测放大器，为多路架构提供

2009-11-16 00:00:00

MAX9934 高精度、低电压电流检测放大器，为多路架构提供电流输出和片选

概述

The MAX9934 high-precision, low-voltage, high-side current-sense amplifier is ideal for both bidirectional (charge/discharge) and unidirectional current measurements in battery-powered portable and laptop devices. Input offset voltage (V_OS) is a low 10µV (max) at +25°C across the -0.1V to 5.5V input common-mode voltage range, and is independent of V_CC. Its precision input specification allows the use of very small sense-voltages (typically ±10mV full-scale) for minimally invasive current sensing.

The output of the MAX9934 is a current proportional to input V_SENSE and is available in either 25µA/mV or 5µA/mV gain options (GM) with gain accuracy better than 0.25% (max) at +25°C. A chip select (CS) allows multiplexing of several MAX9934 current outputs to a single microcontroller ADC channel (see the Typical Operating Circuit). CS is compatible with 1.8V and 3.3V logic systems.

The MAX9934 is designed to operate from a 2.5V to 3.6V V_CC supply, and draws just 120µA (typ) quiescent current. When powered down (V_CC = 0V), RS+ and RS- draw less than 0.1nA (typ) leakage current to reduce battery load. The MAX9934 is robust and protected from input faults of up to ±6V input differential voltage between RS+ and RS-.

The MAX9934 is specified for operation over the -40°C to +125°C temperature range and is available in 8-pin µMAX®, 6-pin µDFN (2mm x 2mm x 0.8mm), or a 6-bump UCSP™ (1mm x 1.5mm x 0.6mm), making it ideal for space sensitive applications.

关键特性

Input Offset Voltage: 10µV (max)

Gain Error Less than 0.25%

-0.1V to +5.5V Input Common-Mode Voltage Range

Chip Select Allows Multiplexing Several MAX9934 Current Monitors to One ADC

Current Output Allows R_OUT Selection for Gain Flexibility

Single Supply Operation: 2.5V to 3.6V

Two Gain Options: G_M of 25µA/mV (MAX9934T) and 5µA/mV (MAX9934F)

Bidirectional or Unidirectional Operation

Small, 6-Bump UCSP (1mm x 1.5mm x 0.6mm), 6-Pin µDFN Packages (2mm x 2mm x 0.6mm), and 8-Pin µMAX

应用/使用