●Product Details
●The ADE7912/ADE7913 are isolated, 3-channel Σ-Δ ADCs for a variety of applications such as shunt-based polyphase meters, power quality monitoring, solar inverters, process monitoring and protective devices. Data and power isolation are based on the Analog Devices, Inc., _i_Coupler® technology. The ADE7912 features two ADCs, and the ADE7913 features three ADCs. The current ADC provides a 67 dB signal-to-noise ratio over a 3 kHz signal bandwidth, whereas the voltage ADCs provide a SNR of 72 dB over the same bandwidth. One channel is dedicated to measuring the voltage across a shunt when the shunt is used for current sensing. Up to two additional channels are dedicated to measuring voltages, which are usually sensed using resistor dividers. One voltage channel can be used to measure the temperature of the die via an internal sensor. The ADE7913 includes three channels: one current and two voltage channels. The ADE7912 has one voltage channel but is otherwise identical to the ADE7913.
●Applications
● Shunt-based polyphase meters
● Power quality monitoring
● Solar inverters
● Process monitoring
● Protective devices
● Isolated sensor interfaces
● Industrial PLCs
●### Features and Benefits
● Two isolated, Σ-Δ analog-to-digital converters (simultaneously sampling ADCs)
● Integrated isoPower, isolated dc-to-dc converter
● On-chip temperature sensor
● 4-wire SPI serial interface
● Up to 4 ADE7912/ADE7913 devices clocked from a single crystal or an external clock
● Synchronization of multiple ADE7912/ADE7913 devices
● ±31.25 mV peak input range for current channel
● ±500 mV peak input range for voltage channels
● Reference drift: 10 ppm/°C typical
● Single 3.3 V supply
● 20-lead, wide-body SOIC package with 8.3 mm creepage
● Operating temperature: −40°C to +85°C
● Safety and regulatory approvals
● UL recognition
●– 5000 V rms for 1 minute per UL 1577
● CSA Component Acceptance Notice 5A
●– IEC 61010-1: 300 V rms
● VDE certificate of conformity
●– DIN VDE V 0884-10 (VDE V 0884-10):2006-12
●– VIORM = 846 V peak