參數資料
型號: ADXL05AH
廠商: ANALOG DEVICES INC
元件分類: 模擬信號調理
英文描述: Circular Connector; No. of Contacts:11; Series:LJTP02R; Body Material:Aluminum; Connecting Termination:Crimp; Connector Shell Size:21; Circular Contact Gender:Socket; Circular Shell Style:Box Mount Receptacle
中文描述: SPECIALTY ANALOG CIRCUIT, MBCY10
封裝: HERMETIC SEALED, METAL CAN, TO-100, 10 PIN
文件頁數: 16/20頁
文件大?。?/td> 281K
代理商: ADXL05AH
ADXL05
REV. B
–16–
control of system and mounting resonances are critical to proper
measurement. Refer to the application note AN-379, available
from Analog Devices.
CALIBRAT ING T HE ADX L05
If a calibrated shaker is not available, both the 0
g
level and scale
factor of the ADX L05 may be easily set to fair accuracy by using
a self-calibration technique based on the 1
g
(average) accelera-
tion of the earth’s gravity. Figure 30 shows how gravity and
package orientation affect the ADX L05’s output. Note that the
output polarity is that which appears at V
PR
; the output at V
OUT
will have the opposite sign. With its axis of sensitivity in the
vertical plane, the ADX L05 should register a 1
g
acceleration,
either positive or negative, depending on orientation. With the
axis of sensitivity in the horizontal plane, no acceleration (the
0
g
bias level) should be indicated.
0g
(a)
0g
(b)
–1g
(c)
+1g
(d)
INDICATED POLARITY IS THAT
OCCURRING AT V
PR
.
Figure 30. Using the Earth’s Gravity to Self-Calibrate the
ADXL05
T o self-calibrate the ADX L05, place the accelerometer on its
side with its axis of sensitivity oriented as shown in “a.” T he 0
g
offset potentiometer, Rt, is then roughly adjusted for midscale:
+2.5 V at the buffer output (see Figure 25).
Next, the package axis should be oriented as in “c” (pointing
down) and the output reading noted. T he package axis should
then be rotated 180
°
to position “d” and the scale factor poten-
tiometer, R1a, adjusted so that the output voltage indicates a
change of 2
g
s in acceleration. For example, if the circuit scale
factor at the buffer output is 400 mV per
g
, then the scale factor
trim should be adjusted so that an output change of 800 mV is
indicated.
Adjusting the circuit’s scale factor will have some effect on its
0
g
level so this should be readjusted, as before, but this time
checked in both positions “a” and “b.” If there is a difference in
the 0
g
reading, a compromise setting should be selected so that
the reading in each direction is equidistant from +2.5 V. Scale
factor and 0
g
offset adjustments should be repeated until both
are correct.
RE DUCING POWE R CONSUMPT ION
T he use of a simple power cycling circuit provides a dramatic
reduction in the ADX L05’s average current consumption. In
low bandwidth applications such as shipping recorders, this
simple, low cost circuit can provide substantial power reduction.
If a microprocessor is available, only the circuit of Figure 31 is
needed. T he microprocessor supplies a T T L clock pulse to gate
buffer transistor Q1 which inverts the output pulse from the
μ
P
to a 5
°
tilt error over the entire temperature range. Straight-
forward calibration schemes discussed in this data sheet may be
used to reduce or compensate for temperature drift to improve
the absolute accuracy of the measurement.
Using the ADX L05 in Inertial Measurement Applications
Inertial measurement refers to the practice of measuring accel-
eration for the purpose of determining the velocity of an object
and its change in position, or distance traveled. T his technique
has previously required expensive inertial guidance systems of
the type used in commercial aircraft and military systems. T he
availability of a low cost precision dc accelerometer such as the
ADX L05 enables the use of inertial measurement for more cost
sensitive industrial and commercial applications.
Inertial measurement makes use of the fact that the integral of
acceleration is velocity and the integral of velocity is distance.
By making careful measurements of acceleration and math-
ematically integrating the signals, one can determine both veloc-
ity and the distance traveled. T he technique is useful for
applications where a traditional speed and distance measure-
ment is impractical, or where a non-contact, relative position
measurement must be made.
A practical inertial measurement system uses multiple acceler-
ometers to measure acceleration in three axes, and gyroscopes to
measure rotation in three axes, the requirement for a 6 degree of
freedom system. For simpler systems where one or more of the
axes can be constrained, it is possible to build a system with
fewer accelerometers and gyros.
T he measurement system must take the acceleration sensor and
calibrate out all static errors including any initial inaccuracy or
temperature drift. A mathematical model is used to describe the
performance of the sensor in order to calibrate it. If these errors
are not removed, then the process of double integration will
quickly cause any small error to dominate the result. Most prac-
tical systems use microprocessors for error correction and a tem-
perature sensor for temperature drift compensation. Another
approach is to maintain all of the sensors at a controlled tem-
perature. T he microprocessors have the additional advantage of
providing a low cost method of performing the single and
double integration of the acceleration signal.
T he stability and repeatability of the accelerometer is the most
important specification in an inertial system. T he ADX L05 is
“well behaved” that is, its response and temperature characteris-
tics are easy to model and correct, and once modeled they are
very repeatable. For example, temperature performance can be
adequately modeled using first order, (straight line) approxima-
tions for most applications, and other errors such as on-axis and
pendulous rectification are minimal. T his greatly simplifies the
math required to correct the sensor.
Vibration and Shock Measurement Applications
T he ADX L05 can measure shocks and vibrations from dc to
4 kHz. T ypical signal processing for vibration signals includes
fast Fourier transforms, and single and double integration for
velocity and displacement. It is possible to build a single inte-
grator stage using the ADX L05’s output buffer amplifier in
order to provide a velocity output.
T he sensitivity of the accelerometer will typically vary only
±
0.5% over the full industrial temperature range, making it one
of the most stable vibration measurement devices available. In
vibration measurement applications, mechanical mounting and
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相關代理商/技術參數
參數描述
ADXL05BH 制造商:未知廠家 制造商全稱:未知廠家 功能描述:Acceleration Detector
ADXL05EM-1 制造商:Rochester Electronics LLC 功能描述:- Bulk 制造商:Analog Devices 功能描述:
ADXL05JH 制造商:AD 制造商全稱:Analog Devices 功能描述:+-1 g to +-5 g Single Chip Accelerometer with Signal Conditioning
ADXL05KH 制造商:未知廠家 制造商全稱:未知廠家 功能描述:Acceleration Detector
ADXL05TH 制造商:未知廠家 制造商全稱:未知廠家 功能描述:Acceleration Detector
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