MMA7455LT Freescale Semiconductor, MMA7455LT Datasheet - Page 18

Board Mount Accelerometers 3-AXIS DIGITAL 2 4 8G

MMA7455LT

Manufacturer Part Number
MMA7455LT
Description
Board Mount Accelerometers 3-AXIS DIGITAL 2 4 8G
Manufacturer
Freescale Semiconductor
Datasheet

Specifications of MMA7455LT

Sensing Axis
X, Y, Z
Acceleration
2 g, 4 g, 8 g
Supply Voltage (max)
3.6 V
Supply Voltage (min)
2.4 V
Supply Current
400 uA
Maximum Operating Temperature
+ 85 C
Minimum Operating Temperature
- 40 C
Sensitivity
64 LSB/g
Package / Case
LGA-14
Output Type
Digital
Acceleration Range
± 2g, ± 4g, ± 8g
No. Of Axes
3
Sensor Case Style
LGA
No. Of Pins
14
Supply Voltage Range
2.4V To 3.6V
Operating Temperature Range
-40°C To +85°C
Filter Terminals
SMD
Rohs Compliant
Yes
Ic Interface Type
I2C, SPI
Lead Free Status / RoHS Status
Lead free / RoHS Compliant

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18 300
Part Number:
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SPI Slave Interface
The MMA7455L also uses serial peripheral interface communication as a digital communication. The SPI communication is pri-
marily used for synchronous serial communication between a master device and one or more slave devices. See
an example of how to configure one master with one MMA745xL device. The MMA7455L is always operated as a slave device.
Typically, the master device would be a microcontroller which would drive the clock (SPC) and chip select (CS) signals.
The SPI interface consists of two control lines and two data lines: CS, SPC, SDI, and SDO. The CS, also known as Chip Select,
is the slave device enable which is controlled by the SPI master. CS is driven low at the start of a transmission. CS is then driven
high at the end of a transmission. SPC is the Serial Port Clock which is also controlled by the SPI master. SDI and SDO are the
Serial Port Data Input and the Serial Port Data Output. The SDI and SDO data lines are driven at the falling edge of the SPC and
should be captured at the rising edge of the SPC.
Read and write register commands are completed in 16 clock pulses or in multiples of 8, in the case of a multiple byte read/write.
SPI Read Operation
A SPI read transfer consists of a 1-bit Read/Write signal, a 6-bit address, and 1-bit don’t care bit. (1-bit R/W=0 + 6-bits address
+ 1-bit don’t care). The data to read is sent by the SPI interface during the next transfer. See
timing diagram for an 8-bit read in 4 wire and 3 wire modes, respectively.
SPI Write Operation
In order to write to one of the 8-bit registers, an 8-bit write command must be sent to the MMA7455L. The write command consists
of an MSB (0=read, 1=write) to indicate writing to the MMA7455L register, followed by a 6-bit address and 1 don’t care bit.
The command should then be followed the 8-bit data transfer. See
18
MMA7455L
Figure 11. SPI Timing Diagram for 8-Bit Register Read (4 Wire Mode)
Figure 12. SPI Timing Diagram for 8-Bit Register Read (3 Wire Mode)
Figure 13. SPI Timing Diagram for 8-Bit Register Write (3 Wire Mode)
Figure 13
for the timing diagram for an 8-bit data write.
Figure 11
Freescale Semiconductor
and
Figure 12
Figure 16
for the
Sensors
for

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