ade7953 Analog Devices, Inc., ade7953 Datasheet - Page 18
ade7953
Manufacturer Part Number
ade7953
Description
Single Phase, Multifunction Metering Ic With Neutral Current Measurement Ade7953
Manufacturer
Analog Devices, Inc.
Datasheet
1.ADE7953.pdf
(68 pages)
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ADE7953
THEORY OF OPERATION
ANALOG INPUTS
The ADE7953 includes three analog inputs that form two current
channels and one voltage channel. In a standard configuration,
Current Channel A is used to measure the phase current, and
Current Channel B is used to measure the neutral current. The
voltage channel input measures the difference between the phase
voltage and the neutral voltage. The ADE7953 can, however, be
used with alternative voltage and current combinations as long as
the analog input specifications described in this section are met.
Current Channel A
Current Channel A is a fully differential voltage input that is
designed to be used with a current sensor. This input is driven
by two pins: IAP (Pin 5) and IAN (Pin 6). The maximum differ-
ential voltage that can be applied to IAP and IAN is ±500 mV.
A common-mode voltage of less than ±25 mV is recommended.
Common-mode voltages in excess of this recommended value
may limit the available dynamic range. A programmable gain
amplifier (PGA) stage is provided on Current Channel A with
gain options of 1, 2, 4, 8, 16, and 22 (see Table 6).
The maximum full-scale input of Current Channel A is ±250 mV
when using a single-ended configuration and, therefore, when
using a gain setting of 1, the dynamic range is limited. The Current
Channel A gain is configured by writing to the PGA_IA register
(Address 0x008). By default, the Current Channel A PGA is set
to 1. A gain option of 22 is offered exclusively on Current
Channel A, allowing high accuracy measurement for signals of
very small amplitude. This configuration is particularly useful
when using small value shunt resistors or Rogowski coils.
Current Channel B
Current Channel B is a fully differential voltage input that is
designed to be used with a current sensor. This input is driven
by two pins: IBP (Pin 9) and IBN (Pin 10). The maximum differ-
ential voltage that can be applied to IBP and IBN is ±500 mV. A
common-mode voltage of less than ±25 mV is recommended.
Common-mode voltages in excess of this recommended value
may limit the available dynamic range. A PGA gain stage is
provided on Current Channel B with gain options of 1, 2, 4, 8,
and 16 (see Table 6). The Current Channel B gain is configured
by writing to the PGA_IB register (Address 0x009). By default,
the Current Channel B PGA is set to 1.
Voltage Channel
The voltage channel input is a single-ended input driven by two
pins: VP (Pin 12) and VN (Pin 11). The maximum single-ended
voltage that can be applied to VP is ±500 mV with respect to VN.
A common-mode voltage of less than ±25 mV is recommended.
Common-mode voltages in excess of this recommended value
may limit the dynamic range capabilities of the ADE7953. A PGA
gain stage is provided on the voltage channel with gain options
of 1, 2, 4, 8, and 16 (see Table 6).
Rev. 0 | Page 18 of 68
The voltage channel gain is configured by writing to the PGA_V
register (Address 0x007). By default, the voltage channel PGA is
set to 1.
Table 6. PGA Gain Settings
Gain
1
ANALOG-TO-DIGITAL CONVERSION
The analog-to-digital conversion in the ADE7953 is performed
by three second-order Σ-Δ modulators. For the sake of clarity,
the block diagram in Figure 36 shows the operation of a first-
order Σ-Δ modulator. The analog-to-digital conversion consists
of a Σ-Δ modulator followed by a low-pass filter stage.
LOW-PASS FILTER
The Σ -Δ modulator converts the input signal into a continuous
serial stream of 1s and 0s at a rate determined by the sampling
clock. The ADE7953 sampling clock is equal to 895 kHz
(CLKIN/4). The 1-bit DAC in the feedback loop is driven by the
serial data stream. The DAC output is subtracted from the input
signal. If the loop gain is high enough, the average value of the
DAC output (and, therefore, the bit stream) can approach that
of the input signal level. For any given input value in a single
sampling interval, the data from the 1-bit ADC is virtually
meaningless. A meaningful result is obtained only when a large
number of samples is averaged. This averaging is carried out in
the second part of the ADC, the digital low-pass filter. By
averaging a large number of bits from the modulator, the low-
pass filter can produce 24-bit data-words that are proportional
to the input signal level.
1
2
4
8
16
22
When a gain of 1 is selected on Current Channel A, the maximum pin input is
limited to ±250 mV. Therefore, when using a single-ended configuration, the
maximum input is ±250 mV with respect to AGND.
ANALOG
R
C
Full-Scale
Differential
Input (mV)
±500
±250
±125
±62.5
±31.25
±22.7
+
Figure 36. Σ-Δ Conversion
–
PGA_IA[2:0]
(Addr 0x008)
000
001
010
011
100
101
INTEGRATOR
1
–V
+V
REF
REF
1-BIT DAC
CLKIN/4
.....10100101.....
+
–
LATCHED
COMPARATOR
PGA_IB[2:0]
(Addr 0x009)
000
001
010
011
100
N/A
LOW-PASS
PGA_V[2:0]
(Addr 0x007)
000
001
010
011
100
N/A
DIGITAL
FILTER
24
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