ADE7880ACPZ-RL(RevA) View Datasheet(PDF) - Analog Devices
Part Name
Description
Manufacturer
ADE7880ACPZ-RL
(Rev.:RevA)
(Rev.:RevA)
Analog Devices
ADE7880ACPZ-RL Datasheet PDF : 104 Pages
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ADE7880
Data Sheet
If Bit 19 (SEQERR) in the MASK1 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 ADE7880 is connected in a 3-phase, 4-wire, three voltage
sensors configuration (Bits[5:4], CONSEL[1:0] in the ACCMODE
register, set to 00). In all other configurations, only two voltage
sensors are used; therefore, it is not recommended to use the
detection circuit. In these cases, use the time intervals between
phase voltages to analyze the phase sequence (see the Time
Interval Between Phases section for details).
Figure 52 presents the case in which Phase A voltage is not
followed by Phase B voltage but by Phase C voltage. Every time
a negative-to-positive zero crossing occurs, Bit 19 (SEQERR) in
the STATUS1 register is set to 1 because such zero crossings on
Phase C, Phase B, or Phase A cannot come after zero crossings
from Phase A, Phase C, or respectively, Phase B zero crossings.
PHASE A
PHASE C
PHASE B
PHASE A
PHASE B
PHASE C
ZX A
ZX B
ZX C
Figure 53. Regular Succession of Phase A, Phase B, and Phase C
When the ANGLESEL[1:0] bits are set to 00, the default value,
the delays between voltages and currents on the same phase are
measured. The delay between Phase A voltage and Phase A
current is stored in the 16-bit unsigned ANGLE0 register (see
Figure 54 for details). In a similar way, the delays between
voltages and currents on Phase B and Phase C are stored in the
ANGLE1 and ANGLE2 registers, respectively.
PHASE A
VOLTAGE
PHASE A
CURRENT
A, B, C PHASE
VOLTAGES AFTER
LPF1
ANGLE0
Figure 54. Delay Between Phase A Voltage and Phase A Current Is
Stored in the ANGLE0 Register
ZX A
ZX C
ZX B
BIT 19 (SEQERR) IN
STATUS1 REGISTER
IRQ1
STATUS1[19] SET TO 1
STATUS1[19] CANCELLED
BY A WRITE TO THE
STATUS1 REGISTER WITH
SEQERR BIT SET
Figure 52. SEQERR Bit Set to 1 When Phase A Voltage Is Followed by
Phase C Voltage
Once a phase sequence error has been detected, the time
measurement between various phase voltages (see the Time
Interval Between Phases section) can help to identify which
phase voltage should be considered with another phase current
in the computational data path. Bits[9:8] (VTOIA[1:0]),
Bits[11:10] (VTOIB[1:0]), and Bits[13:12] (VTOIC[1:0]) in the
CONFIG register can be used to direct one phase voltage to the
data path of another phase. See the Changing Phase Voltage
Data path section for details.
When the ANGLESEL[1:0] bits are set to 01, the delays between
phase voltages are measured. The delay between Phase A
voltage and Phase C voltage is stored into the ANGLE0 register.
The delay between Phase B voltage and Phase C voltage is
stored in the ANGLE1 register, and the delay between Phase A
voltage and Phase B voltage is stored in the ANGLE2 register
(see Figure 55 for details).
When the ANGLESEL[1:0] bits are set to 10, the delays between
phase currents are measured. Similar to delays between phase
voltages, the delay between Phase A and Phase C currents is
stored into the ANGLE0 register, the delay between Phase B and
Phase C currents is stored in the ANGLE1 register, and the
delay between Phase A and Phase B currents is stored into the
ANGLE2 register (see Figure 55 for details).
PHASE A
PHASE B
PHASE C
Time Interval Between Phases
The ADE7880 has the capability to measure the time delay
between phase voltages, between phase currents, or between
voltages and currents of the same phase. The negative-to-positive
transitions identified by the zero-crossing detection circuit are
used as start and stop measuring points. Only one set of such
measurements is available at one time, based on Bits[10:9]
(ANGLESEL[1:0]) in the COMPMODE register.
ANGLE2
ANGLE1
ANGLE0
Figure 55. Delays Between Phase Voltages (Currents)
The ANGLE0, ANGLE1, and ANGLE2 registers are 16-bit
unsigned registers with 1 LSB corresponding to 3.90625 μs
(256 kHz clock), which means a resolution of 0.0703° (360° ×
50 Hz/256 kHz) for 50 Hz systems and 0.0843° (360° × 60 Hz/
Rev. A | Page 32 of 104
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