ADE7569ASTZF16-RL Analog Devices Inc, ADE7569ASTZF16-RL Datasheet - Page 42
ADE7569ASTZF16-RL
Manufacturer Part Number
ADE7569ASTZF16-RL
Description
IC,Power Metering,QFP,64PIN,PLASTIC
Manufacturer
Analog Devices Inc
Specifications of ADE7569ASTZF16-RL
Applications
Energy Measurement
Core Processor
8052
Program Memory Type
FLASH (16 kB)
Controller Series
ADE75xx
Ram Size
512 x 8
Interface
I²C, SPI, UART
Number Of I /o
20
Voltage - Supply
3.135 V ~ 3.465 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
64-LQFP
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
ADE7569ASTZF16-RL
Manufacturer:
Analog Devices Inc
Quantity:
10 000
ADE7566/ADE7569
ANALOG-TO-DIGITAL CONVERSION
Each ADE7566/ADE7569 has two Σ-Δ analog-to-digital converters
(ADCs). The outputs of these ADCs are mapped directly to
waveform sampling SFRs (Address 0xE2 to Address 0xE7) and
are used for energy measurement internal digital signal processing.
In PSM1 (battery mode) and PSM2 (sleep mode), the ADCs are
powered down to minimize power consumption.
For simplicity, the block diagram in Figure 33 shows a first-
order Σ-Δ ADC. The converter is made up of the Σ-Δ modulator
and the digital low-pass filter.
A Σ-∆ modulator converts the input signal into a continuous
serial stream of 1s and 0s at a rate determined by the sampling
clock. In the ADE7566/ADE7569, the sampling clock is equal to
MCLK/5. 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. Only when a large
number of samples are averaged is a meaningful result obtained.
This averaging is carried into 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.
The Σ-Δ converter uses two techniques to achieve high resolution
from what is essentially a 1-bit conversion technique. The first
is oversampling. Oversampling means that the signal is sampled
at a rate (frequency) that is many times higher than the bandwidth
of interest. For example, the sampling rate in the ADE7566/
ADE7569 is MCLK/5 (819.2 kHz), and the band of interest is
LOW-PASS FILTER
ANALOG
R
C
+
–
Figure 33. First-Order
Rev. PrA | Page 42 of 136
INTEGRATOR
V
REF
1-BIT DAC
MCLK/5
40 Hz to 2 kHz. Oversampling has the effect of spreading the
quantization noise (noise due to sampling) over a wider
bandwidth. With the noise spread more thinly over a wider
bandwidth, the quantization noise in the band of interest is
lowered (see Figure 32).
However, oversampling alone is not efficient enough to improve
the signal-to-noise ratio (SNR) in the band of interest. For example,
an oversampling ratio of four is required to increase the SNR by
only 6 dB (1 bit). To keep the oversampling ratio at a reasonable
level, it is possible to shape the quantization noise so that the
majority of the noise lies at the higher frequencies. In the Σ-Δ
modulator, the noise is shaped by the integrator, which has a
high-pass-type response for the quantization noise. The result is
that most of the noise is at the higher frequencies where it can
be removed by the digital low-pass filter. This noise shaping is
shown in Figure 32.
SIGNAL
SIGNAL
... 10100101 ...
Σ
-∆ ADC
COMPARATOR
NOISE
NOISE
LATCHED
0
0
Figure 32. Noise Reduction Due to Oversampling and
OUTPUT FROM DIGITAL
2
2
Noise Shaping in the Analog Modulator
HIGH RESOLUTION
Preliminary Technical Data
DIGITAL
FILTER
LPF
LOW-PASS
DIGITAL
FILTER
FREQUENCY (kHz)
FREQUENCY (kHz)
FILTER (RC)
ANTI ALIAS
409.6
409.6
24
SHAPED
NOISE
FREQUENCY
SAMPLING
819.2
819.2
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