SPT7835 Ver la hoja de datos (PDF) - Signal Processing Technologies
Número de pieza
componentes Descripción
Fabricante
SPT7835 Datasheet PDF : 12 Pages
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Figure 2 – Typical Interface Circuit
Ref In
(+4 V)
VIN
CLK IN
VRHF
VRHS
VRLS
VRLF
VIN
VCAL
CLK
DAV
AVDD
D10
D9
D8
D7
D6
SPT7835
D5
OVDD
OGND
D4
D3
D2
D1
D0
EN
AGND DGND* DVDD
3.3/5 Interfacing
Logics
3.3/5
Enable/Tri-State
+A5
(Enable = Active Low)
+A5
AGND
L1
DGND
3.3/5
+
10 µF
+5 V
Analog
+5 V
Analog
RTN
*To reduce the possibility of latch-up, avoid
connecting the DGND pins of the ADC to the
digital ground of the system.
10 µF
+5 V
Digital
RTN
+5 V
Digital
NOTES: 1) L1 is to be located as closely to the device as possible.
2) All capacitors are 0.1 µF surface-mount unless otherwise specified.
3) L1 is a 10 µH inductor or a ferrite bead.
TYPICAL INTERFACE CIRCUIT
OPERATING DESCRIPTION
Very few external components are required to achieve the
stated device performance. Figure 2 shows the typical in-
terface requirements when using the SPT7835 in normal
circuit operation. The following sections provide descrip-
tions of the major functions and outline critical perfor-
mance criteria to consider for achieving the optimal device
performance.
The general architecture for the CMOS ADC is shown in
the block diagram. The design contains eight identical
successive approximation ADC sections, all operating in
parallel, a 16-phase clock generator, an 11-bit 8:1 digital
output multiplexer, correction logic, and a voltage refer-
ence generator that provides common reference levels for
each ADC section.
POWER SUPPLIES AND GROUNDING
SPT suggests that both the digital and the analog supply
voltages on the SPT7835 be derived from a single analog
supply as shown in figure 2. A separate digital supply
should be used for all interface circuitry. SPT suggests
using this power supply configuration to prevent a possible
latch-up condition on powerup.
The high sample rate is achieved by using multiple SAR
ADC sections in parallel, each of which samples the input
signal in sequence. Each ADC uses 16 clock cycles to
complete a conversion. The clock cycles are allocated as
shown in table II.
SPT
7
SPT7835
6/27/01
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