Multi-Channel Low-Voltage Remote Diode Sensor Family EMC1812/13/14/15/33 Data Sheet Features Measures Temperature Rate of Change Calculation with Preemptive Alert(s) Limits Up to Four External Temperature Monitors: 8 Lead Devices: 1C maximum accuracy (-20C to +105C T , -40C to +125C T ) A D 1.5C maximum accuracy (-40C to +125C T , -40C to +125C T ) A D 10 Lead Devices:1C maximum accuracy (-20C to +125C T , -40C to +125C T ) A D 1.5C maximum accuracy (-40C to +125C T , -40C to +125C T ) A D Internal Temperature Sensor: 1C maximum accuracy, -40C to +125C Temperature Sensor Resolution (Internal/External): 0.125C 2 SMBus/I C-Compatible Interface (up to 400 kHz) Programmable or fixed address options Configurable Alert Pins Operating Voltage: 1.62V to 3.6V Temperature Range: -40C to +125C Other Features: Auto-Beta Compensation, Configurable Ideality Factor, Hottest Diode Compare, Resistance Error Correction Available in 8-Lead 2x2 mm WDFN and 10-Lead 2.5x2.0 mm VDFN Packages Typical Applications Temperature Sensitive Storage Industrial IoT for Low-System Voltage Portable Electronics Handheld Gaming Computing Food Storage Description 2 The EMC1812/13/14/15/33 devices are high-accuracy, 2-wire (I C) temperature sensors. The devices monitor up to five temperature channels. Advanced features, such as Resistance Error Correction (REC), Beta Compensation (to support CPU diodes requiring the BJT/Transistor model), and rate of temperature change measurement combine to provide a robust solution for complex environmental monitoring applications. Datasheet DS20005751A-page 1 2018 Microchip Technology Inc. Multi-Channel Low-Voltage Remote Diode Sensor Family This device family introduces rate of change temperature measurement with associated alerts. This provides a preemptive system alert and another protective measurement layer to catch and manage variable system temperatures. The Resistance Error Correction feature automatically eliminates the temperature error caused by series resistance, allowing for greater flexibility in routing thermal diodes. Beta compensation eliminates temperature errors caused by low, variable beta transistors common in current fine geometry processors. The automatic beta detection feature determines the optimal sensor external diode/transistor settings. This frees up the user from providing unique sensor configurations for each temperature monitoring application. These advanced features plus 1C measurement accuracy for both external and internal diode temperatures provide a low-cost, highly flexible and accurate solution for critical temperature monitoring applications. Package Type EMC1812 EMC1813 2.5X2.0 VDFN* 2X2 WDFN* V 1 10 SCL DD V 1 8 SCL DD DP1 2 9 SDA DP 2 7 SDA EP EP DN1 3 8 ALERT/THERM2 9 11 DN 3 6 ALERT/THERM2 DP2 4 7 THERM/ADDR 4 5 THERM/ADDR GND DN2 5 6 GND EMC1814 2.5X2.0 VDFN* V 1 10 SCL DD DP1 2 9 SDA EP DN1 3 8 ALERT/THERM2 11 DP2/DN3 4 7 THERM/ADDR DN2/DP3 5 6 GND EMC1815 EMC1833 2.5X2.0 VDFN* 2X2 WDFN* V 1 10 SCL DD V 1 8 SCL DD DP1/DN2 2 9 SDA DP1/DN2 2 7 SDA EP EP DN1/DP2 3 8 ALERT/THERM2 11 9 DN1/DP2 3 6 ALERT/THERM2 DP3/DN4 4 7 THERM/ADDR THERM/ADDR 4 5 GND DN3/DP4 5 6 GND Note: * Includes Exposed Thermal Pad (EP) see 3. Pin Descriptions DS20005751A-page 2 Datasheet 2018 Microchip Technology Inc.