ADE7878ACPZ Analog Devices Inc, ADE7878ACPZ Datasheet - Page 30
ADE7878ACPZ
Manufacturer Part Number
ADE7878ACPZ
Description
IC ENERGY METERING 3PH 40LFCSP
Manufacturer
Analog Devices Inc
Specifications of ADE7878ACPZ
Input Impedance
400 KOhm
Measurement Error
0.1%
Voltage - I/o High
2.4V
Voltage - I/o Low
0.4V
Current - Supply
22mA
Voltage - Supply
3 V ~ 3.6 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
40-WFQFN, CSP Exposed Pad
Meter Type
3 Phase
Supply Voltage Range
3V To 3.6V
Operating Temperature Range
-40°C To +85°C
Digital Ic Case Style
LFCSP
No. Of Pins
40
Msl
MSL 1 - Unlimited
Peak Reflow Compatible (260 C)
Yes
Supply Voltage Min
3V
Rohs Compliant
Yes
Leaded Process Compatible
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
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ADE7878
The digital filter has a pole at 80 Hz and is clocked at 256 kHz.
As a result, there is a phase lag between the analog input signal
(one of IA, IB, IC, VA, VB, and VC) and the output of LPF1.
The error in ZX detection is 0.0703° for 50 Hz systems (0.0843°
for 60 Hz systems). The phase lag response of LPF1 results in a
time delay of approximately 31.4° or 1.74 ms (at 50 Hz) between
its input and output. The overall delay between the zero crossing
on the analog inputs and ZX detection obtained after LPF1 is
about 39.6° or 2.2 ms (at 50 Hz). The ADC and HPF introduce
the additional delay. The LPF1 cannot be disabled to assure a
good resolution of the ZX detection. Figure 40 shows how the
zero-crossing signal is detected.
To provide further protection from noise, input signals to the
voltage channel with amplitude lower than 10% of full scale do not
generate zero-crossing events at all. The Current Channel ZX
detection circuit is active for all input signals independent of their
amplitudes.
The ADE7878 contains six zero-crossing detection circuits, one
for each phase voltage and current channel. Each circuit drives
one flag in the STATUS1[31:0] register. If a circuit placed in the
Phase A voltage channel detects one zero-crossing event, then
Bit 9 (ZXVA) in the STATUS1[31:0] register is set to 1.
Similarly, the Phase B voltage circuit drives Bit 10 (ZXVB), the
Phase C voltage circuit drives Bit 11 (ZXVC), and circuits placed
in the current channel drive Bit 12 (ZXIA), Bit 13 (ZXIB), and
Bit 14 (ZXIC). If a ZX detection bit is set in the MASK1[31:0]
register, the IRQ1 interrupt pin is driven low and the corres-
ponding status flag is set to 1. The status bit is cleared and the
IRQ1 pin is set to high by writing to the STATUS1 register with
the status bit set to 1.
Zero-Crossing Timeout
Every zero-crossing detection circuit has an associated timeout
register. This register is loaded with the value written into the
16-bit ZXTOUT register and is decremented (1 LSB) every
62.5 μs (16 kHz clock). The register is reset to the ZXTOUT
value every time a zero crossing is detected. The default value of
this register is 0xFFFF. If the timeout register decrements to 0
before a zero crossing is detected, then one of Bits[8:3] of the
VA, VB, VC
IA, IB, IC,
OR
Figure 40. Zero-Crossing Detection on Voltage and Current Channels
PGA
REFERENCE
OR VA, VB, VC
ADC
IA, IB, IC,
0.855
DSP
GAIN[23:0]
0V
1
ZX
HPFDIS
[23:0]
39.6° OR 2.2ms @ 50Hz
HPF
ZX
ZX
LPF1
LPF1 OUTPUT
ZX
ZX
DETECTION
Rev. 0 | Page 30 of 92
STATUS1[31:0] register is set to 1. Bit 3 (ZXTOVA), Bit 4
(ZXTOVB), and Bit 5 (ZXTOVC) refer to Phase A, Phase B, and
Phase C of the voltage channel; Bit 6 (ZXTOIA), Bit 7
(ZXTOIB), and Bit 8 (ZXTOIC) refer to Phase A, Phase B, and
Phase C of the current channel.
If a ZXTOUT bit is set in the MASK1[31:0] register, the IRQ1
interrupt pin is driven low when the corresponding status bit is set
to 1. The status bit is cleared and the IRQ1 pin is returned to high
by writing to the STATUS1 register with the status bit set to 1.
The resolution of the ZXOUT register is 62.5 μs (16 kHz clock)
per LSB. Thus, the maximum timeout period for an interrupt is
4.096 sec: 2
Figure 41 shows the mechanism of the zero-crossing timeout
detection when the voltage or the current signal stays at a fixed
dc level for more than 62.5 × ZXTOUT μs.
Phase Sequence Detection
TheADE7878 has an on-chip phase sequence error detection
circuit. This detection works on phase voltages and considers
only the zero crossings determined by their negative to positive
transitions. The regular succession of these zero-crossing events is
Phase A followed by Phase B followed by Phase C (see Figure 43).
If the sequence of zero-crossing events is, instead, Phase A followed
by Phase C followed by Phase B, then Bit 19 (SEQERR) in the
STATUS1[31:0] register is set.
If Bit 19 (SEQERR) in the MASK1[31:0] register is set to 1 and a
phase sequence error event is triggered, the IRQ1 interrupt pin
is driven low. The status bit is cleared and the IRQ1 pin is set
high by writing to the STATUS1 register with the Status Bit 19
(SEQERR) set to 1.
The phase sequence error detection circuit is functional only
when the ADE7878 is connected in a 3-phase, 4-wire, three voltage
sensors configuration (Bits[5:4], CONSEL in ACCMODE[7:0], set
to 00). In all other configurations, only two voltage sensors are
STATUS1[31:0], x = V, A
IRQ1 INTERRUPT PIN
ZXZOxy FLAG IN
REGISTER VALUE
16-BIT INTERNAL
CURRENT
y = A, B, C
VOLTAGE
SIGNAL
OR
16
/16 kHz.
ZXTOUT
Figure 41. Zero-Crossing Timeout Detection
0V
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