ADE7754AR Analog Devices Inc, ADE7754AR Datasheet - Page 26
ADE7754AR
Manufacturer Part Number
ADE7754AR
Description
IC ENERY METER 3PHASE 24-SOIC
Manufacturer
Analog Devices Inc
Datasheet
1.ADE7754ARZRL.pdf
(44 pages)
Specifications of ADE7754AR
Input Impedance
370 KOhm
Measurement Error
0.1%
Voltage - I/o High
2.4V
Voltage - I/o Low
0.8V
Current - Supply
7mA
Voltage - Supply
4.75 V ~ 5.25 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
24-SOIC (0.300", 7.50mm Width)
Meter Type
3 Phase
For Use With
EVAL-ADE7754EBZ - BOARD EVALAUTION FOR ADE7754
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Other names
AD71049AR
AD71049AR
AD71049AR
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
ADE7754ARZ
Manufacturer:
ADI/亚德诺
Quantity:
20 000
ADE7754
APPARENT ENERGY CALCULATION
The apparent energy is given as the integral of the apparent
power.
The ADE7754 achieves the integration of the apparent power
signal by continuously accumulating the apparent power signal
in an internal nonreadable 49-bit register. The apparent energy
register (VAENERGY[23:0]) represents the upper 24 bits of
this internal register. This discrete time accumulation or summa-
tion is equivalent to integration in continuous time. Equation 22
expresses the relationship, where n is the discrete time sample
number and T is the sample period.
The discrete time sample period (T) for the accumulation regis-
ter in the ADE7754 is 1.2 µs (12/10 MHz).
Figure 37 shows a graphical representation of this discrete
time integration or accumulation. The apparent power signal
is continuously added to the internal register. This addition is
a signed addition even if the apparent energy theoretically
always remains positive.
D1B71h
The upper 49-bit value of the internal register is divided by
VADIV. If the value in the VADIV register is 0, then the internal
active energy register is divided by 1. VADIV is an 8-bit unsigned
register. The upper 24-bit values are then written in the 24-bit
apparent energy register (VAENERGY[23:0]). RVAENERGY
register (24 bits long) is provided to read the apparent energy. This
register is reset to 0 after a read operation.
Figure 38 shows this apparent energy accumulation for full-scale
(sinusoidal) signals on the analog inputs. The three curves illus-
trate the minimum time it takes the energy register to roll over
when the individual VA gain registers contents all equal 3FFh,
000h, and 800h. The VA gain registers are used to carry out an
apparent power calibration in the ADE7754. The fastest integra-
tion time occurs when the VA gain registers are set to maximum
full scale (i.e., 3FFh).
00000h
Apparent Energy
TOTAL APPARENT POWER
Apparent Energy
Figure 37. Apparent Energy Calculation
T
TIME (nT)
APPARENT POWER
SIGNAL – P
=
= ∫
T
Lim
→
Apparent Power t dt
0
T
n
∑
∞
=
0
Apparent Power nT
+
+
THE APPARENT ENERGY REGISTER
ACCUMULATED (INTEGRATED) IN
VADIV
TOTAL APPARENT POWER IS
48
( )
VAENERGY[23:0]
48
23
(
%
)
0
×
T
(22)
(21)
0
0
–26–
7F,FFFFh
3F,FFFFh
Note that the apparent energy register contents roll over to full-
scale negative (80,0000h) and continue increasing in value when
the power or energy flow is positive, as shown in Figure 38. By
using the interrupt enable register, the ADE7754 can be config-
ured to issue an interrupt (IRQ) when the apparent energy
register is half full (positive or negative).
Integration Times under Steady Load
As described in the preceding section, the discrete time sample
period (T) for the accumulation register is 1.2 µs (12/CLKIN).
With full-scale sinusoidal signals on the analog inputs and the
VA gain registers set to 000h, the average word value from each
apparent power stage is D1B71h. See the Apparent Power
Calculation section. The maximum value that can be stored in
the apparent energy register before it overflows is 22
FF,FFFFh. As the average word value is added to the internal
register that can store 24
overflows, the integration time under these conditions with
VADIV = 0 is calculated as follows:
When VADIV is set to a value different from 0, the integration
time varies as shown in Equation 23.
LINE APPARENT ENERGY ACCUMULATION
The ADE7754 is designed with a special apparent energy accu-
mulation mode that simplifies the calibration process. By using
the on-chip zero-crossing detection, the ADE7754 accumulates
the apparent power signal in the LVAENERGY register for an
integral number of half cycles, as shown in Figure 39. The line
apparent energy accumulation mode is always active.
Each of three zero-crossing detection phases can contribute to
the accumulation of the half line cycles. Phase A, B, and C zero
crossings are taken into account when counting the number of
half line cycles by setting Bits 4 to 6 of the MMODE register to
Logic 1. Selecting phases for the zero-crossing counting also has
the effect of enabling the zero-crossing detection, zero-crossing
timeout, and period measurement for the corresponding phase
as described in the zero-crossing detection paragraph.
00,0000h
40,0000h
80,0000h
Time
VAENERGY[23:0]
Time Time
Figure 38. Energy Register Roll Over Time for Full-
Scale Power (Minimum and Maximum Power Gain)
=
FFFF FFFF FFFFh
=
65.5
3
131
,
WDIV
×
D B h
TIME (sec)
196.5
1 71
=0
×
8
,
262
VADIV
– 1 or FFFF,FFFF,FFFFh before it
327.5
393
×
1 2
.
µ
s
=
AVAG = BVAG = CVAG = 3FFh
AVAG = BVAG = CVAG = 000h
AVAG = BVAG = CVAG = 800h
131
s
=
3
2
– 1 or
min
REV. 0
11
(23)
s
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