ADIS16250 Analog Devices, ADIS16250 Datasheet - Page 10
ADIS16250
Manufacturer Part Number
ADIS16250
Description
Programmable Low Power Gyroscope
Manufacturer
Analog Devices
Datasheet
1.ADIS16250.pdf
(20 pages)
www.DataSheet4U.com
ADIS16250
THEORY OF OPERATION
OVERVIEW
The core angular rate sensor integrated inside the ADIS16250
is based on the Analog Devices iMEMS technology. This sensor
operates on the principle of a resonator gyro. Two polysilicon
sensing structures each contain a dither frame electrostatically
driven to resonance. This provides the necessary velocity
element to produce a Coriolis force during rotation. At two of
the outer extremes of each frame, orthogonal to the dither
motion, are movable fingers placed between fixed fingers to form
a capacitive pickoff structure that senses Coriolis motion.
The resulting signal is fed to a series of gain and demodulation
stages that produce the electrical rate signal output.
The base sensor output signal is sampled using an ADC, and then
the digital data is fed into a proprietary digital calibration circuit.
This circuit contains calibration coefficients from the factory
calibration, along with user-defined calibration registers that can
be used to calibrate system-level errors.
The calibrated gyro data (GYRO_OUT) is made available
through output data registers along with temperature, power
supply, auxiliary ADC, and relative angle output calculations.
RELATIVE ANGLE ESTIMATE
The ANGL_OUT register offers the integration of the
GYRO_OUT data. In order for this information to be useful,
the reference angle must be known. This can be accomplished
by reading the register contents at the initial time, before
starting the monitoring, or by setting its contents to zero. This
number is reset to zero when the NULL command is used, after
a RESET command is used, and during power-up. This function
can be used to estimate change in angle over a period. The user
is cautioned to fully understand the stability requirements and
the time period over which to use this estimated relative angle
position.
TEMPERATURE SENSOR
An internal temperature sensor monitors the sensor’s junction
temperature. The TEMP_OUT data register provides a digital
representation of this measurement. This sensor provides
a convenient temperature measurement for system-level
characterization and calibration feedback.
Rev. 0 | Page 10 of 20
AUXILIARY ADC FUNCTION
The auxiliary ADC function integrates a standard 12-bit ADC
into the ADIS16250 to digitize other system-level analog
signals. The output of the ADC can be monitored through the
AUX_ADC control register, as defined in Table 6. The ADC is a
12-bit successive approximation converter. The output data is
presented in straight binary format with the full-scale range
extending from 0 V to V
calibrated 2.5 V reference is also provided.
Figure 19 shows the equivalent circuit of the analog input
structure of the ADC. The input capacitor (C1) is typically 4 pF
and can be attributed to parasitic package capacitance. The two
diodes provide ESD protection for the analog input. Care must
be taken to ensure that the analog input signals never exceed
the supply rails by more than 300 mV. This causes the diodes to
become forward-biased and to start conducting. The diodes can
handle 10 mA without causing irreversible damage. The resistor
is a lumped component that represents the on resistance of the
switches. The value of this resistance is typically 100 Ω.
Capacitor C2 represents the ADC sampling capacitor and is
typically 16 pF.
For ac applications, removing high frequency components from
the analog input signal is recommended by the use of a low-pass
filter on the analog input pin.
In applications where harmonic distortion and signal-to-noise
ratio are critical, the analog input must be driven from a low
impedance source. Large source impedances significantly affect
the ac performance of the ADC. This can necessitate the use of
an input buffer amplifier. When no input amplifier is used to drive
the analog input, the source impedance should be limited to
values lower than 1 kΩ.
Figure 19. Equivalent Analog Input Circuit
Conversion Phase: Switch Open
C1
Track Phase: Switch Closed
REF
VDD
. A high precision, low drift, factory
D
D
R1
C2
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