ADIS16362/PCBZ Analog Devices Inc, ADIS16362/PCBZ Datasheet - Page 9
ADIS16362/PCBZ
Manufacturer Part Number
ADIS16362/PCBZ
Description
Inertial Sensor Interface Board
Manufacturer
Analog Devices Inc
Series
iMEMS®, iSensor™r
Datasheet
1.ADIS16362PCBZ.pdf
(20 pages)
Specifications of ADIS16362/PCBZ
Silicon Manufacturer
Analog Devices
Application Sub Type
Accelerometer / Gyroscope
Kit Application Type
Sensing - Motion / Vibration / Shock
Silicon Core Number
ADIS16362
Kit Contents
Board
Sensor Type
Accelerometer, Gyroscope, 3 Axis
Sensing Range
±1.7g, ±75°/sec, ±150°/sec, ±300°/sec
Sensitivity
0.333mg/LSB, 0.0125 ~ 0.05°/sec/LSB
Voltage - Supply
4.75 V ~ 5.25 V
Embedded
No
Utilized Ic / Part
ADIS16362
Lead Free Status / RoHS Status
Lead free / RoHS compliant by exemption
Interface
-
Lead Free Status / RoHS Status
Lead free / RoHS compliant by exemption
THEORY OF OPERATION
BASIC OPERATION
The ADIS16362 is an autonomous sensor system that starts up
after it has a valid power supply voltage and begins producing
inertial measurement data at the factory default sample rate
setting of 819.2 SPS. After each sample cycle, the sensor data is
loaded into the output registers, and DIO1 pulses high, which
provides a new data ready control signal for driving system-
level interrupt service routines. In a typical system, a master
processor accesses the output data registers through the SPI
interface, using the connection diagram shown in Figure 9.
Table 6 provides a generic functional description for each pin
on the master processor. Table 7 describes the typical master
processor settings that are normally found in a configuration
register and used for communicating with the ADIS16362.
Table 6. Generic Master Processor Pin Names and Functions
Pin Name
SS
IRQ
MOSI
MISO
SCLK
Table 7. Generic Master Processor SPI Settings
Processor Setting
Master
SCLK Rate ≤ 2 MHz
SPI Mode 3
MSB First Mode
16-Bit Mode
1
For burst read, SCLK rate ≤ 1 MHz. For low power mode, SCLK rate ≤ 300 kHz.
SYSTEM
PROCESSOR
SPI MASTER
VDD
DOUT
NOTES
1. DOUT BITS ARE PRODUCED ONLY WHEN THE PREVIOUS 16-BIT DIN SEQUENCE STARTS WITH R/W = 0.
SCLK
Figure 9. Electrical Connection Diagram
DIN
CS
I/O LINES ARE COMPATIBLE WITH
1
SCLK
MOSI
MISO
3.3V OR 5V LOGIC LEVELS
IRQ
SS
D15
Function
Slave select
Interrupt request
Master output, slave input
Master input, slave output
Serial clock
Description
The ADIS16362 operates as a slave
Normal mode, SMPL_PRD[7:0] ≤ 0x09
CPOL = 1 (polarity), CHPA = 1 (phase)
Bit sequence
Shift register/data length
R/W
D14
A6
D13
A5
6
3
5
4
7
CS
SCLK
DIN
DOUT
DIO1
D12
A4
10
13
D11
A3
ADIS16362
5V
SPI SLAVE
11
14
D10
A2
12
15
Figure 11. SPI Communication Bit Sequence
A1
D9
A0
D8
Rev. D | Page 9 of 20
DC7 DC6 DC5 DC4 DC3 DC2 DC1 DC0
D7
D6
D5
The user registers provide addressing for all input/output opera-
tions on the SPI interface. Each 16-bit register has two 7-bit
addresses: one for its upper byte and one for its lower byte.
Table 8 lists the lower byte address for each register, and Figure 10
shows the generic bit assignments.
READING SENSOR DATA
Although the ADIS16362 produces data independently, it oper-
ates as a SPI slave device that communicates with system (master)
processors using the 16-bit segments displayed in Figure 11.
Individual register reads require two of these 16-bit sequences. The
first 16-bit sequence provides the read command bit ( R /W = 0)
and the target register address (A6 to A0). The second sequence
transmits the register contents (D15 to D0) on the DOUT line.
For example, if DIN = 0x0A00, the contents of XACCL_OUT are
shifted out on the DOUT line during the next 16-bit sequence.
The SPI operates in full-duplex mode, which means that the master
processor can read the output data from DOUT while using the
same SCLK pulses to transmit the next target address on DIN.
DEVICE CONFIGURATION
The user register memory map (see Table 8) identifies configu-
ration registers with either a W or R/W. Configuration commands
also use the bit sequence shown in Figure 11. If the MSB = 1, the
last eight bits (DC7 to DC0) in the DIN sequence are loaded into
the memory address associated with the address bits (A6 to A0).
For example, if DIN = 0xA11F, 0x1F is loaded into Address 0x21
(XACCL_OFF, upper byte) at the conclusion of the data frame.
The master processor initiates the backup function by setting
GLOB_CMD[3] = 1 (DIN = 0xBE04). This command copies
the user registers into their assigned flash memory locations
and requires the power supply to stay within its normal operating
range for the entire 50 ms process. The FLASH_CNT register
provides a running count of these events for monitoring the
long-term reliability of the flash memory.
15
D4
14
D3
13
UPPER BYTE
12
D2
Figure 10. Generic Register Bit Assignments
11
D1
10
D0
9
8
7
D15
R/W
6
D14
A6
5
LOWER BYTE
4
D13
A5
ADIS16362
3
2
1
0
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