AD7690 Analog Devices, AD7690 Datasheet - Page 16
AD7690
Manufacturer Part Number
AD7690
Description
Manufacturer
Analog Devices
Datasheet
1.AD7690.pdf
(24 pages)
Specifications of AD7690
Resolution (bits)
18bit
# Chan
1
Sample Rate
400kSPS
Interface
Ser,SPI
Analog Input Type
Diff-Uni
Ain Range
(2Vref) p-p
Adc Architecture
SAR
Pkg Type
CSP,SOP
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AD7690
POWER SUPPLY
The AD7690 uses two power supply pins: a core supply, VDD, and
a digital input/output interface supply, VIO. VIO allows a direct
interface with any logic between 1.8 V and V
number of supplies needed, the VIO and VDD pins can be tied
together. The AD7690 is independent of power supply sequencing
between VIO and VDD. Additionally, it is very insensitive to power
supply variations over a wide frequency range, as shown in Figure 31.
The AD7690 powers down automatically at the end of each
conversion phase and, therefore, the power scales linearly with
the sampling rate. This makes the part ideal for low sampling
rates (even of a few hertz) and low battery-powered applications.
SUPPLYING THE ADC FROM THE REFERENCE
For simplified applications, the AD7690, with its low operating
current, can be supplied directly using the reference circuit
shown in Figure 33. The reference line can be driven by
•
•
•
The system power supply directly.
A reference voltage with enough current output capability,
such as the ADR43x.
A reference buffer, such as the AD8031, which can also
filter the system power supply, as shown in Figure 33.
10000
0.001
1000
0.01
100
95
90
85
80
75
70
65
0.1
10
1
1
10
Figure 32. Operating Current vs. Sample Rate
100
Figure 31. PSRR vs. Frequency
10
SAMPLING RATE (SPS)
FREQUENCY (kHz)
1k
100
VDD = 5V
10k
VIO
1000
DD
100k
. To reduce the
10000
1M
Rev. B | Page 16 of 24
DIGITAL INTERFACE
Though the AD7690 has a reduced number of pins, it offers
flexibility in its serial interface modes.
When in CS mode, the AD7690 is compatible with SPI, QSPI,
digital hosts, and DSPs, for example, Blackfin® ADSP-BF53x or
ADSP-219x. In this mode, the AD7690 can use either a 3-wire
or 4-wire interface. A 3-wire interface using the CNV, SCK, and
SDO signals minimizes wiring connections useful, for instance,
in isolated applications. A 4-wire interface using the SDI, CNV,
SCK, and SDO signals allows CNV, which initiates the conversions,
to be independent of the readback timing (SDI). This is useful
in low jitter sampling or simultaneous sampling applications.
When in chain mode, the AD7690 provides a daisy-chain
feature using the SDI input for cascading multiple ADCs on a
single data line similar to a shift register.
The mode in which the part operates depends on the SDI level
when the CNV rising edge occurs. The CS mode is selected if
SDI is high, and the chain mode is selected if SDI is low. The
SDI hold time is such that when SDI and CNV are connected
together, the chain mode is selected.
In either mode, the AD7690 offers the option of forcing a start
bit in front of the data bits. This start bit can be used as a busy
signal indicator to interrupt the digital host and trigger the data
reading. Otherwise, without a busy indicator, the user must
timeout the maximum conversion time prior to readback.
The busy indicator feature is enabled
•
•
1
5V
OPTIONAL REFERENCE BUFFER AND FILTER.
In CS mode if CNV or SDI is low when the ADC conversion
ends (see
In chain mode if SCK is high during the CNV rising edge
(see Figure 45).
10kΩ
1µF
Figure 37
Figure 33. Example of Application Circuit
5V
AD8031
and
1
10µF
Figure 41
5V
REF
).
10Ω
AD7690
VDD
1µF
VIO
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