CS5463 Single Phase, Bi-directional Power/Energy IC Features Description Energy Data Linearity: 0.1% of Reading The CS5463 is an integrated power measure- ment device which combines two over 1000:1 Dynamic Range analog-to-digital converters, power calculation On-chip Functions: engine, energy-to-frequency converter, and a - Instantaneous Voltage, Current, and Power serial interface on a single chip. It is designed to - I and V , Apparent, Reactive, and Active RMS RMS accurately measure instantaneous current and (Real) Power voltage, and calculate V , I , instanta- - Active Fundamental and Harmonic Power RMS RMS neous power, apparent power, active power, and - Reactive Fundamental, Power Factor, and Line Frequency reactive power for single-phase, 2- or 3-wire - Energy-to-pulse Conversion power metering applications. - System Calibrations and Phase Compensation - Temperature Sensor The CS5463 is optimized to interface to shunt re- sistors or current transformers for current Meets accuracy spec for IEC, ANSI, JIS. measurement, and to resistive dividers or poten- Low Power Consumption tial transformers for voltage measurement. Current Input Optimized for Sense Resistor. The CS5463 features a bi-directional serial inter- GND-referenced Signals with Single Supply face for communication with a processor and a programmable energy-to-pulse output function. On-chip 2.5 V Reference (25 ppm/C typ) Additional features include on-chip functionality Power Supply Monitor to facilitate system-level calibration, temperature Simple Three-wire Digital Serial Interface sensor, voltage sag detection, and phase 2 Auto-boot Mode from Serial E PROM compensation. Power Supply Configurations: ORDERING INFORMATION: VA+ = +5 V AGND = 0 V VD+ = +3.3 V to +5 V See Page 45. VA+ RESET VD+ IIN+ 4th Order Digital HPF PGA Modulator Filter Option MODE IIN- CS SDI Power SDO Temperature Calculation Serial VREFIN x1 Sensor Engine Interface SCLK INT E1 VIN+ 2nd Order Digital HPF E-to-F E2 x10 Modulator Filter Option VIN- E3 System Clock Voltage Power /K Calibration VREFOUT Clock Generator Reference Monitor AGND PFMON XIN XOUT CPUCLK DGND APR 11 Copyright Cirrus Logic, Inc. 2011 CS5463 TABLE OF CONTENTS 1. Overview 5 2. Pin Description . 6 3. Characteristics & Specifications . 7 4. Theory of Operation 14 4.1 Digital Filters 14 4.2 Voltage and Current Measurements 14 4.3 Power Measurements . 14 4.4 Linearity Performance . 15 5. Functional Description 16 5.1 Analog Inputs . 16 5.1.1 Voltage Channel 16 5.1.2 Current Channel . 16 5.2 IIR Filters . 16 5.3 High-pass Filters . 16 5.4 Performing Measurements . 16 5.5 Energy Pulse Output 17 5.5.1 Active Energy . 17 5.5.2 Apparent Energy Mode . 18 5.5.3 Reactive Energy Mode 18 5.5.4 Voltage Channel Sign Mode . 18 5.5.5 PFMON Output Mode 19 5.5.6 Design Example . 19 5.6 Sag and Fault Detect Feature . 19 5.7 No Load Threshold . 19 5.8 On-chip Temperature Sensor . 19 5.9 Voltage Reference . 20 5.10 System Initialization . 20 5.11 Power-down States 20 5.12 Oscillator Characteristics . 20 5.13 Event Handler 21 5.13.1 Typical Interrupt Handler . 21 5.14 Serial Port Overview . 21 5.14.1 Serial Port Interface . 21 5.15 Register Paging . 22 5.16 Commands 23 5.16.1 Start Conversions 23 5.16.2 SYNC0 and SYNC1 23 5.16.3 Power-up/Halt 23 5.16.4 Power-down and Software Reset 23 5.16.5 Register Read/Write . 24 5.16.6 Calibration . 25 6. Register Description . 26 6.1 Page 0 Registers . 26 6.1.1 Configuration Register ( Config ) 26 6.1.2 Current and Voltage DC Offset Register ( I , V ) 27 DCoff DCoff 6.1.3 Current and Voltage Gain Register ( I , V ) 27 gn gn 6.1.4 Cycle Count Register ( Cycle Count ) 27 6.1.5 PulseRateE Register ( PulseRateE ) . 27 6.1.6 Instantaneous Current, Voltage, and Power Registers ( I , V , P ) 28 2 DS678F3