ADIS16003PCB AD [Analog Devices], ADIS16003PCB Datasheet - Page 12

ADIS16003PCB

Manufacturer Part Number

ADIS16003PCB

Description

Manufacturer

AD [Analog Devices]

Datasheet

1.ADIS16003PCB.pdf (16 pages)

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ADIS16003

Accelerometer Conversion Details

Every time the accelerometer is sampled, the sampling function

discharges the internal C

of their initial values (assuming no additional external filtering

capacitors have been added). The recovery time for the filter

capacitor to recharge is approximately 10 μs. Thus, sampling the

accelerometer at a rate of 10 kSPS or less does not induce a

sampling error. However, as sampling frequencies increase

above 10 kSPS, one can expect sampling errors to attenuate the

actual acceleration levels.

TEMPERATURE SENSOR SERIAL INTERFACE

Read Operation

Figure 4 shows the timing diagram for a serial read from the

temperature sensor. The TCS line enables the SCLK input. Ten

bits of data and a leading zero are transferred during a read

operation. Read operations occur during streams of 16 clock

pulses. The serial data is accessed in a number of bytes if 10 bits

of data are being read. At the end of the read operation, the

DOUT line remains in the state of the last bit of data clocked

out until TCS goes high, at which time the DOUT line from

the temperature sensor goes three-state.

Write Operation

Figure 4 also shows the timing diagram for the serial write

to the temperature sensor. The write operation takes place at

the same time as the read operation. Data is clocked into the

control register on the rising edge of SCLK. DIN should remain

low for the entire cycle.

Temperature Sensor Control Register

MSB

ZERO

Table 7. Temperature Sensor Control Register Bit Functions

Bit

7 to 0

ZERO

ZERO is defined as the logic low level.

Output Data Format

The output data format for the temperature sensor is twos

complement. Table 8 shows the relationship between the digital

output and the temperature.

Temperature Sensor Conversion Details

The ADIS16003 features a 10-bit digital temperature sensor

that allows an accurate measurement of the ambient device

temperature to be made.

The conversion clock for the temperature sensor is internally

generated so no external clock is required except when reading

from and writing to the serial port. In normal mode, an internal

clock oscillator runs the automatic conversion sequence.

ZERO

Mnemonic

ZERO

or C

Comments

All bits should be held low.

filtering capacitors by up to 2%

ZERO

LSB

ZERO

Rev. 0 | Page 12 of 16

A conversion is initiated approximately every 350 μs. At this

time, the temperature sensor wakes up and performs a tempera-

ture conversion. This temperature conversion typically takes

25 μs, at which time the temperature sensor automatically shuts

down. The result of the most recent temperature conversion is

available in the serial output register at any time. Once the

conversion is finished, an internal oscillator starts counting and

is designed to time out every 350 μs. The temperature sensor

then powers up and does a conversion. Note that if the TCS is

brought low every 350 μs (±30%) or less, then the same

temperature value is output onto the DOUT line every time

without changing. It is recommended that the TCS line not be

brought low every 350 μs (±30%) or less. The ±30% covers

process variation. The TCS should become active (high to low)

outside this range.

The device is designed to auto convert every 350 μs. If the

temperature sensor is accessed during the conversion process,

an internal signal is generated to prevent any update of the

temperature value register during the conversion. This prevents

the user from reading back spurious data. The design of this

feature results in this internal lockout signal being reset only at

the start of the next auto conversion. Therefore, if the TCS line

goes active before the internal lockout signal is reset to its

inactive mode, the internal lockout signal is not reset. To ensure

that no lockout signal is set, bring TCS low at a greater time

than 350 μs (±30%). As a result, the temperature sensor is not

interrupted during a conversion process.

In the automatic conversion mode, every time a read or write

operation takes place, the internal clock oscillator is restarted at

the end of the read or write operation. The result of the conver-

sion is typically available 25 μs later. Reading from the device

before conversion is complete provides the same set of data.

Table 8. Temperature Sensor Data Format

Temperature

–40°C

–25°C

–0.25°C

0°C

+0.25°C

+10°C

+25°C

+50°C

+75°C

+100°C

+125°C

Digital Output (DB9 … DB0)

11 0110 0000

11 1001 1100

11 1111 1111

00 0000 0000

00 0000 0001

00 0010 1000

00 0110 0100

00 1100 1000

01 0010 1100

01 1001 0000

01 1111 0100

ADIS16003PCB AD [Analog Devices], ADIS16003PCB Datasheet - Page 12

ADIS16003PCB

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