AD7329BRUZ データシートの表示(PDF) - Analog Devices
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AD7329BRUZ
Analog Devices
AD7329BRUZ Datasheet PDF : 40 Pages
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REFERENCE
The AD7329 can operate with either the internal 2.5 V on-chip
reference or an externally applied reference. The internal reference
is selected by setting the REF bit in the control register to 1. On
power-up, the REF bit is 0, which selects the external reference for
the AD7329 conversion. Suitable reference sources for the AD7329
include AD780, AD1582, ADR431, REF193, and ADR391.
The internal reference circuitry consists of a 2.5 V band gap
reference and a reference buffer. When operating the AD7329 in
internal reference mode, the 2.5 V internal reference is available
at the REFIN/REFOUT pin, which should be decoupled to AGND
using a 680 nF capacitor. It is recommended that the internal
reference be buffered before applying it elsewhere in the system.
The internal reference is capable of sourcing up to 90 μA.
On power-up, if the internal reference operation is required for
the ADC conversion, a write to the control register is necessary
to set the REF bit to 1. During the control register write, the
conversion result from the first initial conversion is invalid. The
reference buffer requires 500 μs to power up and charge the
680 nF decoupling capacitor during the power-up time.
The AD7329 is specified for a 2.5 V to 3 V reference range.
When a 3 V reference is selected, the ranges are ±12 V, ±6 V,
±3 V, and 0 V to +12 V. For these ranges, the VDD and VSS supply
must be equal to or greater than the maximum analog input
range selected.
VDRIVE
The AD7329 has a VDRIVE feature to control the voltage at which
the serial interface operates. VDRIVE allows the ADC to easily
interface to both 3 V and 5 V processors. For example, if the
AD7329 is operated with a VCC of 5 V, the VDRIVE pin can be
powered from a 3 V supply. This allows the AD7329 to accept
large bipolar input signals with low voltage digital processing.
AD7329
TEMPERATURE INDICATOR
The AD7329 has an on-chip temperature indicator. The tem-
perature indicator can be used to provide local temperature
measurements on the AD7329. To access the temperature indicator,
the ADC should be configured in pseudo differential mode,
Mode 1 = Mode 0 = 1, which sets Channel Bits ADD2, ADD1,
and ADD0 to 1. VIN7 must be tied to AGND or to a small dc
voltage within the specified pseudo differential input range for
the selected analog input range. When a conversion is initiated in
this configuration, the output code represents the temperature
(see Figure 50 and Figure 51). When using the temperature
indicator on the AD7329, the part should be operated at low
throughput rates, such as approximately 30 kSPS for the ±2.5 V
range. The throughput rate is reduced for the temperature indicator
mode because the AD7329 requires more acquisition time for
this mode.
5450
5400
5350
VCC = VDRIVE = 5V
VDD = 12V, VSS = –12V
±2.5V RANGE
INTERNAL REFERENCE
30kSPS
5300
5250
5200
5150
5100
5050
–40
–20
0
20
40
60
80
TEMPERATURE (°C)
Figure 50. ADC Output Code vs. Temperature for ±2.5 V Range
4420
4410
VCC = VDRIVE = 5V
VDD/VSS = ±12V
50kSPS
4400
4390
±10V RANGE, INT REF
4380
4370
4360
4350
4340
–40
–20
0
20
40
60
80
100
TEMPERATURE (°C)
Figure 51. ADC Output Code vs. Temperature for ±10 V Range
Rev. A | Page 31 of 40
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