<div class="detailmodule_html"><div class="detail-desc-decorate-richtext"><p style="font-size:12px;"> <br /> </p> <p style="font-size:12px;"> <br /> </p> <p style="text-align:left;font-size:12px;"> &nbsp; </p> <table class="ke-zeroborder" width="100%" cellspacing="0" cellpadding="0" border="0" style="text-align:left;"> <tbody> <tr> <td> <p> <br /> </p> <div> <p> </p> </div> <div style="padding:15px;border:1px solid #AEAEAE;"> MCU-219 INA219 Bi-directional Current Sensor Breakout Module I2C Zero Drift Power Monitoring Sensor Module High-precision<br /> <strong>Feature:</strong><br /> <strong>1. High-Precision: </strong>The MCU-219 module is a zero-drift, bidirectional current/power monitoring IC with an I2C interface that provides high-precision monitoring of voltage drops across shunt resistors, supply voltage and current.<br /> <strong>2. Wide Temperature Range and High Accuracy:</strong> The INA219 can operate within a temperature range of -40°C to +85°C with a 1% accuracy and offset of only 100 uV. Its high accuracy combined with 12-bit resolution enables customers to reduce power losses and power consumption, while saving board space.<br /> <strong>3. Programmable Calibration Register:</strong> The device features a programmable calibration register that can read current in amperes and power in watts, making it versatile and highly customizable for different applications.<br /> <strong>4. Averaging and Filtering Capabilities:</strong> The INA219 can average up to 128 samples to achieve filtering in noisy environments, making it ideal for use in a variety of settings.<br /> <strong>5. Flexible I2C Interface:</strong> The I2C interface features timeout settings and high-speed mode, supporting communication rates of up to 3.4 MHz. All of these features are software-programmable, allowing for a high degree of flexibility in operation.<br /><br/><br/><span style="color:black;font-family:inherit;font-size:12px;"><strong>Specification:</strong></span><br /> <span style="color:black;font-family:inherit;font-size:12px;">Working voltage: 3-5 V<br /> Size: 25 * 22mm/0.98 * 0.87in<br /> Net weight: 3g<br /> <br /> The MCU 219 module is a zero drift, bidirectional current/power monitoring integrated circuit (IC) with I2C interface, further strengthening the TI energy-saving electronic product camp. INA219 has the industry's level of precision and size, which can not only monitor the voltage drop on the shunt resistor, sense the shunt supply voltage, but also calculate the power supply. This device is packaged in SOT23 and can provide a small, low-cost solution for digital current sensing of servers, laptops, power supplies, battery management, and in vehicle and telecommunications equipment.<br /> <br /> INA219 can achieve an error accuracy of 1% within the temperature range of -40C to+85C, with an offset of 100 uV. The high precision of this product combined with the advantage of 12 bit resolution can help customers minimize the voltage drop on the shunt resistor as much as possible, thereby reducing power loss and consumption, and saving board level space. The bus voltage range that this device can sense is 0 V to+26 V.<br /> <br /> Other important features of INA219 include:<br /> a. Programmable calibration registers can directly read current in amperes and power in watts.<br /> b. Up to 128 samples can be averaged to achieve filtering in noisy environments.<br /> c. The I2C interface has a timeout setting, which not only avoids bus lockup, but also provides high-speed mode to meet communication requirements up to 3.4 MHz.<br /> d. All features of INA219 support software programmability.<br /> e. Using a single power supply, its working voltage is between+3.0 and+5.5V.</span><span style="color:black;font-family:inherit;font-size:12px;"></span><br /> <br /> <p style="color:black;font-family:inherit;font-size:12px;"> <strong>Note:</strong><br /> Due to the different monitor and light effect, the actual color of the item might be slightly different from the color showed on the pictures. Thank you!<br /> Please allow 1-2cm measuring deviation due to manual measurement. </p>&nbsp;<br /> </div> <br /> <div> <br /> </div> <div style="padding:15px;border:1px solid #AEAEAE;"> 1 x Sensor Module<br />&nbsp;<br /> </div> <br /> <div style="text-align:center;"> </div> <br /> <div> <br /> </div> <div style="padding:15px;border:1px solid #AEAEAE;"> </div> <p> <br /> </p> <p> <br /> </p> </td> </tr> </tbody> </table> <p style="font-size:12px;"> <br /> </p> <p style="font-size:12px;"> <br /> </p> <br /></div></div>