CS5378 查看數據表(PDF) - Cirrus Logic
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CS5378 Datasheet PDF : 88 Pages
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CS5378
Differential
Sensor
CS5373A
CS3301A
M
CS3302A
U
AMP
X
∆Σ
Modulator
Test
DAC
CS5378
Digital Filter
µController
or
Configuration
EEPROM
System
Telemetry
Figure 9. Single-Channel System Block Diagram
3. SYSTEM DESIGN WITH CS5378
Figure 9 illustrates a simplified block diagram of
the CS5378 in a single channel measurement sys-
tem.
A differential sensor is connected through the
CS3301A/02A differential amplifiers to the
CS5373A ∆Σ modulator, where analog to digital
conversion occurs. The modulator’s 1-bit output
connects to the CS5378 MDATA input, where the
oversampled ∆Σ data is decimated and filtered to
24-bit output samples at a programmed output rate.
These output samples are buffered into an 8-deep
data FIFO and then passed to the system telemetry.
System self tests are performed by connecting the
CS5378 test bit stream (TBS) generator to the
CS5373A test DAC. Analog tests drive differential
signals from the CS5373A test DAC into the mul-
tiplexed inputs of the CS3301A/02A amplifiers or
directly to the differential sensor. Digital loopback
tests internally connect the TBS digital output di-
rectly to the CS5378 modulator input.
3.1 Power Supplies
The system shown in Figure 9 typically operates
from a ±2.5 V analog power supply and a 3.3 V
digital power supply. The CS5378 logic core can
be powered from 2.5 V to minimize power con-
sumption, if required.
3.2 Reset Control
System reset is required only for the CS5378 de-
vice, and is a standard active low signal that can be
generated by a power supply monitor or microcon-
troller. Other system devices default to a power-
down state when the CS5378 is reset.
3.3 PLL and Clock Generation
A PLL is included on the CS5378 to generate an in-
ternal 32.768 MHz master clock from a
1.024 MHz, 2.048 MHz, or 4.096 MHz standard
clock or Manchester encoded input. Clock inputs
for other system devices are driven by clock out-
puts from the CS5378.
DS639F2
18
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