Poly Phase Multifunction Energy Metering IC
with per Phase Active and Reactive Powers
Preliminary Technical Data
FEATURES
Highly accurate; supports EN 50470-1, EN 50470-3,
IEC 62053-21, IEC 62053-22 and IEC 62053-23
Compatible with 3-phase, 3 or 4 wire (delta or wye) and
other 3-phase services
Supplies total (fundamental and harmonic) active/reactive/
apparent energy on each phase and on the overall system
Less than 0.1% error in active and reactive energy over a
dynamic range of 1000 to 1 at 25°C
Less than 0.2% error in active and reactive energy over a
dynamic range of 3000 to 1 at 25°C
Supports current transformer and di/dt current sensors
Less than 0.1% error in voltage and current rms over a
dynamic range of 1000 to 1 at 25°C
Supplies sampled waveform data on all 3 phases
Selectable No-load threshold level for total active, reactive
and apparent powers
Phase angle measurements in both current and voltage
channels with max 0.3° error
Wide supply voltage operation 2.4 to 3.7V
Reference 1.2 V (drift 10 ppm/°C typ) with external
overdrive capability
Single 3.3 V supply
40-Lead Frame Chip Scale (LFCSP) Lead Free Package
Operating temperature -40° to 85°C
Flexible I
2
C, SPI®, HSDC serial interfaces
ADE7858
processing required to perform total (fundamental and
harmonic) active, reactive and apparent energy measurement,
and rms calculations. A fixed function digital signal processor
(DSP) executes this signal processing.
The ADE7858 is suitable to measure active, reactive, and
apparent energy in various 3-phase configurations, such as
WYE or DELTA services, with both three and four wires. The
ADE7858 provides system calibration features for each phase,
that is, rms offset correction, phase calibration, and gain
calibration. The CF1, CF2 and CF3 logic outputs provide a wide
choice of power information: total active/reactive/apparent
power or sum of current rms values.
The ADE7858 has waveform sample registers that allow access
to all ADC outputs. The device also incorporates power quality
measurements such as short duration low or high voltage
detections, short duration high current variations, line voltage
period measurement and angles between phase voltages and
currents. Two serial interfaces can be used to communicate with
the ADE7858: SPI or I
2
C while a dedicated high speed interface,
HSDC (High Speed Data Capture) port, can be used in
conjunction with I
2
C to provide access to the ADC outputs and
real time power information. The ADE7858 has also two
interrupt request pins,
IRQ
0
and
IRQ
1
, to indicate that an
enabled interrupt event has occurred.
The ADE7858 is available in 40-lead LFCSP lead free package.
GENERAL DESCRIPTION
The ADE7858
1
is a high accuracy, 3-phase electrical energy
measurement IC with serial interfaces and three flexible pulse
outputs. The ADE7858 incorporates second-order Σ-Δ ADCs, a
digital integrator, reference circuitry, and all the signal
1
U.S. patents pending.
Rev. PrA
Information furnished by Analog Devices is believed to be accurate and reliable. However, no
responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
rights of third parties that may result from its use. Specifications subject to change without notice. No
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Trademarks and registered trademarks are the property of their respective owners.
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
Tel: 781.329.4700
www.analog.com
Fax: 781.461.3113
©2009 Analog Devices, Inc. All rights reserved.
ADE7858
TABLE OF CONTENTS
Features .............................................................................................. 1
General Description ......................................................................... 1
Functional Block Diagram .............................................................. 4
Specifications..................................................................................... 5
Timing Characteristics ................................................................ 7
Absolute Maximum Ratings.......................................................... 10
ESD Caution ................................................................................ 10
Pin Configuration and Function Descriptions ........................... 11
Terminology .................................................................................... 13
Typical Performance Characteristics ........................................... 14
Test Circuit ...................................................................................... 15
Power Management ........................................................................ 16
PSM0 – Normal Power Mode ............................................... 16
PSM3 – Sleep Mode ............................................................... 16
Power Up Procedure .............................................................. 16
Hardware Reset ....................................................................... 17
Software Reset Functionality ................................................ 17
Theory of Operation ...................................................................... 19
Analog Inputs .............................................................................. 19
Analog to Digital Conversion ................................................... 19
Antialiasing Filter ................................................................... 20
ADC Transfer Function ......................................................... 20
Current Channel ADC............................................................... 20
Current Waveform Gain Registers ....................................... 20
Current Channel HPF ........................................................... 21
Current Channel Sampling ................................................... 21
di/dt Curent Sensor And Digital Integrator ............................ 22
Voltage Channel ADC ............................................................... 22
Voltage Waveform Gain Registers ........................................ 23
Voltage Channel HPF ............................................................ 23
Voltage Channel Sampling .................................................... 23
Changing Phase Voltage Data Path .......................................... 23
Power Quality Measurements ................................................... 24
Zero Crossing Detection ....................................................... 24
Zero-Crossing Timeout ......................................................... 25
Phase Sequence Detection .................................................... 25
Time Interval Between Phases.............................................. 25
Period Measurement .............................................................. 26
Phase Voltage Sag Detection ................................................. 26
Peak Detection ........................................................................ 27
Rev. PrA| Page 2 of 76
Preliminary Technical Data
Overvoltage and Overcurrent Detection ............................ 28
Phase Compensation ................................................................. 29
Reference Circuit ........................................................................ 30
Digital Signal Processor............................................................. 30
Root Mean Square Measurement ............................................. 31
Current RMS Calculation ..................................................... 31
Voltage Channel RMS Calculation ...................................... 32
Voltage RMS Offset Compensation ..................................... 32
Active Power Calculation .......................................................... 33
Total Active Power Calculation ............................................ 33
Active Power Gain Calibration............................................. 34
Active Power Offset Calibration .......................................... 34
Sign of Active Power Calculation......................................... 34
Active Energy Calculation .................................................... 35
Integration Time Under Steady Load .................................. 36
Energy Accumulation Modes ............................................... 36
Line Cycle Active Energy Accumulation Mode ................. 36
Reactive Power Calculation ...................................................... 37
Reactive Power Gain Calibration ......................................... 38
Reactive Power Offset Calibration ....................................... 38
Sign of Reactive Power Calculation ..................................... 38
Reactive Energy Calculation................................................. 39
Integration Time Under Steady Load .................................. 40
Energy Accumulation Modes ............................................... 40
Line Cycle Reactive Energy Accumulation Mode ............. 40
Apparent Power Calculation ..................................................... 41
Apparent Power Gain Calibration ....................................... 41
Apparent Power Offset Calibration ..................................... 42
Apparent Power Calculation using VNOM........................ 42
Apparent Energy Calculation ............................................... 42
Integration Time Under Steady Load .................................. 43
Energy Accumulation Mode................................................. 43
Line Cycle Apparent Energy Accumulation Mode............ 43
Waveform Sampling Mode ....................................................... 43
Energy to Frequency Conversion............................................. 44
Synchronizing energy registers with CFx outputs ............ 45
CF outputs for various accumulation modes ..................... 46
Sign of sum of phase powers in CFx data path .................. 47
No-Load Condition ................................................................... 47
Preliminary Technical Data
No-load detection based on total active and reactive
powers.......................................................................................47
No-load detection based on apparent power ......................48
Checksum Register .....................................................................48
Interrupts......................................................................................49
Using the Interrupts with an MCU ......................................50
Serial Interfaces ...........................................................................50
Serial interface choice .............................................................50
ADE7858
I
2
C Compatible Interface ....................................................... 51
SPI Compatible Interface ....................................................... 52
HSDC Interface ....................................................................... 54
Registers List .................................................................................... 57
Outline Dimensions ........................................................................ 73
Ordering Guide ........................................................................... 73
Rev. PrA | Page 3 of 76
ADE7858
FUNCTIONAL BLOCK DIAGRAM
RESET
Preliminary Technical Data
REFin/out
17
VDD
26
AGND
25
AVDD
24
DVDD
5
DGND
6
AIRMSOS
LPF
4
CLKIN
CLKOUT
27
POR
28
1.2V
REF
LDO
LDO
x
2
LPF
AIRMS
AVAGAIN
2
3
PM0
PM1
x
2
AIGAIN
IAP
IAN
7
8
PGA1
ADC
HPFDIS[23:0]
AVRMS
CF1DEN
Digital
Integrator
AVRMSOS
AWATTOS
LPF
AWGAIN
DFC
APHCAL
AVGAIN
HPF
:
CF2DEN
33
CF1
HPFDIS[23:0]
VAP
23
PGA3
ADC
HPF
Phase
A,B and
C data
AVAROS
AVARGAIN
CF3DEN
DFC
:
34
CF2
IBP
IBN
VBP
9
12
22
PGA1
ADC
TOTAL ACTIVE/ REACTIVE/
APPARENT ENERGIES AND
VOLTAGE/CURRENT RMS
CALCULATION FOR PHASE B
(see phase A for detailed data path)
Computational
Block for Total
Reactive Power
DFC
:
35
CF3/HSCLK
PGA3
ADC
29
ICP
ICN
VCP
VN
13
14
19
18
PGA3
ADC
PGA1
ADC
TOTAL ACTIVE/ REACTIVE/
APPARENT ENERGIES AND
VOLTAGE/CURRENT RMS
CALCULATION FOR PHASE C
(see phase A for detailed data path)
SPI/I2C
32
36
38
IRQ0
IRQ1
SCLK/SCL
MOSI/SDA
MISO/HSD
Digital Signal
Processor
I2C
37
39
SS
/HSA
HSDC
Figure 1. ADE7858 Functional Block Diagram
Rev. PrA| Page 4 of 76
Preliminary Technical Data
SPECIFICATIONS
VDD = 3.3 V ± 10%, AGND = DGND = 0 V, on-chip reference, CLKIN = 16.384 MHz, T
MIN
to T
MAX
= −40°C to +85°C.
Table 1.
Parameter
1, 2
ACCURACY
ACTIVE ENERGY MEASUREMENT
Total Active Energy Measurement Error
(per Phase)
Phase Error Between Channels
PF = 0.8 Capacitive
PF = 0.5 Inductive
AC Power Supply Rejection
Output Frequency Variation
DC Power Supply Rejection
Output Frequency Variation
Total Active Energy Measurement
Bandwidth
REACTIVE ENERGY MEASUREMENT
Total Reactive Energy Measurement
Error (per Phase)
Phase Error Between Channels
PF = 0.8 Capacitive
PF = 0.5 Inductive
AC Power Supply Rejection
Output Frequency Variation
DC Power Supply Rejection
Output Frequency Variation
Total Reactive Energy Measurement
Bandwidth
RMS MEASUREMENTS
IRMS and VRMS Measurement
Bandwidth
IRMS and VRMS Measurement Error
(PSM0 mode
3
)
ANALOG INPUTS
Maximum Signal Levels
Input Impedance (DC)
ADC Offset Error
Gain Error
WAVEFORM SAMPLING
Current and Voltage Channels
Signal-to-Noise Ratio
Signal-to-Noise Plus Distortion
Bandwidth (−3 dB)
Specification
Unit
Test Conditions/Comments
ADE7858
0.1
0.2
0.1
±0.05
±0.05
% typ
% typ
%typ
°max
°max
Over a dynamic range of 1000 to 1, PGA=1,2,4;integrator off
Over a dynamic range of 3000 to 1, PGA=1,2,4; integrator off
Over a dynamic range of 500 to 1, PGA = 8, 16; integrator on
Line frequency = 45 Hz to 65 Hz, HPF on
Phase lead 37°
Phase lag 60°
TBD Conditions
0.01
0.01
2
% typ
TBD Conditions
% typ
kHz typ
0.1
0.2
0.1
±0.05
±0.05
% typ
% typ
%typ
°max
°max
Over a dynamic range of 1000 to 1, PGA=1,2,4;integrator off
Over a dynamic range of 3000 to 1, PGA=1,2,4;integrator off
Over a dynamic range of 500 to 1, PGA = 8, 16; integrator on
Line frequency = 45 Hz to 65 Hz, HPF on
Phase lead 37°
Phase lag 60°
TBD Conditions
0.01
0.01
2
% typ
TBD Conditions
% typ
kHz typ
2
0.1
kHz typ
% typ
Over a dynamic range of 1000:1, PGA=1
±500
400
±25
±4
mV peak,
Max
kΩ min
mV max
% typ
Differential inputs: IAP-IAN, IBP-IBN, ICP-ICN
Single ended inputs: VAP-VN, VBP-VN, VCP-VN
Uncalibrated error, see the Terminology section
External 1.2 V reference
Sampling CLKIN/2048, 16.384 MHz/2048 = 8 kSPS
See Waveform Sampling Mode chapter
55
62
2
dB typ
dB typ
kHz
Rev. PrA | Page 5 of 76
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