ADXL343 查看數據表(PDF) - Analog Devices
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ADXL343 Datasheet PDF : 36 Pages
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Data Sheet
SERIAL COMMUNICATIONS
I2C and SPI digital communications are available. In both cases,
the ADXL343 operates as a slave. I2C mode is enabled if the CS
pin is tied high to VDD I/O. The CS pin should always be tied high
to VDD I/O or be driven by an external controller because there is
no default mode if the CS pin is left unconnected. Therefore, not
taking these precautions may result in an inability to communicate
with the part. In SPI mode, the CS pin is controlled by the bus
master. In both SPI and I2C modes of operation, data transmitted
from the ADXL343 to the master device should be ignored
during writes to the ADXL343.
SPI
For SPI, either 3- or 4-wire configuration is possible, as shown in
the connection diagrams in Figure 24 and Figure 25. Clearing the
SPI bit (Bit D6) in the DATA_FORMAT register (Address 0x31)
selects 4-wire mode, whereas setting the SPI bit selects 3-wire
mode. The maximum SPI clock speed is 5 MHz with 100 pF
maximum loading, and the timing scheme follows clock polarity
(CPOL) = 1 and clock phase (CPHA) = 1. If power is applied to
the ADXL343 before the clock polarity and phase of the host
processor are configured, the CS pin should be brought high
before changing the clock polarity and phase. When using 3-wire
SPI, it is recommended that the SDO pin be either pulled up to
VDD I/O or pulled down to GND via a 10 kΩ resistor.
ADXL343
CS
SDIO
SDO
SCLK
PROCESSOR
CS
MOSI
MISO
SCLK
Figure 24. 3-Wire SPI Connection Diagram
ADXL343
CS
SDI
SDO
SCLK
PROCESSOR
CS
MOSI
MISO
SCLK
Figure 25. 4-Wire SPI Connection Diagram
CS is the serial port enable line and is controlled by the SPI
master. This line must go low at the start of a transmission and
high at the end of a transmission, as shown in Figure 27. SCLK
is the serial port clock and is supplied by the SPI master. SCLK
should idle high during a period of no transmission. SDI and
SDO are the serial data input and output, respectively. Data is
updated on the falling edge of SCLK and should be sampled on
the rising edge of SCLK.
To read or write multiple bytes in a single transmission, the
multiple-byte bit, located after the R/W bit in the first byte transfer
ADXL343
(MB in Figure 27 to Figure 29), must be set. After the register
addressing and the first byte of data, each subsequent set of
clock pulses (eight clock pulses) causes the ADXL343 to point
to the next register for a read or write. This shifting continues
until the clock pulses cease and CS is deasserted. To perform reads or
writes on different, nonsequential registers, CS must be deasserted
between transmissions and the new register must be addressed
separately.
The timing diagram for 3-wire SPI reads or writes is shown
in Figure 29. The 4-wire equivalents for SPI writes and reads
are shown in Figure 27 and Figure 28, respectively. For correct
operation of the part, the logic thresholds and timing parameters
in Table 9 and Table 10 must be met at all times.
Use of the 3200 Hz and 1600 Hz output data rates is only
recommended with SPI communication rates greater than or
equal to 2 MHz. The 800 Hz output data rate is recommended
only for communication speeds greater than or equal to 400 kHz,
and the remaining data rates scale proportionally. For example,
the minimum recommended communication speed for a 200 Hz
output data rate is 100 kHz. Operation at an output data rate
above the recommended maximum may result in undesirable
effects on the acceleration data, including missing samples or
additional noise.
Preventing Bus Traffic Errors
The ADXL343 CS pin is used both for initiating SPI transac-
tions and for enabling I2C mode. When the ADXL343 is used on
a SPI bus with multiple devices, its CS pin is held high while the
master communicates with the other devices. There may be
conditions where a SPI command transmitted to another device
looks like a valid I2C command. In this case, the ADXL343
interprets this as an attempt to communicate in I2C mode, and
may interfere with other bus traffic. Unless bus traffic can be
adequately controlled to assure such a condition never occurs,
it is recommended to add a logic gate in front of the SDI pin
as shown in Figure 26. This OR gate holds the SDA line high
when CS is high to prevent SPI bus traffic at the ADXL343
from appearing as an I2C start command. Note that this
recommendation applies only in cases where the ADXL343
is used on a SPI bus with multiple devices.
ADXL343
CS
SDIO
SDO
SCLK
PROCESSOR
CS
MOSI
MISO
SCLK
Figure 26. Recommended SPI Connection Diagram when Using Multiple SPI
Devices on a Single Bus
Rev. 0 | Page 13 of 36
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