Analog Devices AN-383 Application Notes
AN-383
a
ONE TECHNOLOGY WAY • P.O. BOX 9106
Embedded Shock and Temperature Recorder
Whenever a package is shipped, whether it contains an
expensive piece of equipment or perishable food items,
shocks and extreme temperatures can adversely affect
its contents. Many types of equipment, no matter how
ruggedly designed or carefully packaged, can be susceptible to mishandling. Sophisticated shipping recorders
are sometimes attached to the container to monitor and
time-stamp mishandling for insurance claims.
A similar shipping recorder can be embedded directly
into any microprocessor-based equipment, not only for
insurance purposes, but also for warranty, contractual
and field service reasons. When equipment arrives at a
customer’s facility, knowing that it was mishandled, and
how, will help in getting the equipment up and running
faster.
•
by Robert Briano
APPLICATION NOTE
NORWOOD, MASSACHUSETTS 02062-9106
mechanical systems, printers, copiers, robotics, and
many other types of equipment requiring proper alignment for reliable operation. Even if a system has no
mechanical components, mishandling can cause calibration problems or cause electrical interconnects to
come loose, creating intermittence. For these reasons
scheduled maintenance is not always adequate.
The block diagram of Figure 1 illustrates the concept of a
shock and temperature recorder that can be implemented with minimum additional cost and design effort.
In some cases, all that is needed are the temperature
and acceleration sensors and battery backup; the balance of the circuitry may already be present in the existing system. The design details will depend on various
aspects of your system.
•
617/329-4700
The recorder, described here, can be used for more than
just monitoring shipping problems. For example, this
function is valuable in portable medical equipment for
which calibration can be of critical importance. Shocks
during use or misuse can cause misalignment for
ADXL50
X
ADXL50
Y
ADXL50
Z
AD22100
MUX
AD820
Figure 1. Shock and Temperature Recorder for Shipping and Transport
AD7777
10-BIT
T/H
LEVEL
COMPARATOR
FOR WAKE-UP
(OPTIONAL)
The sensing functions are accomplished using integrated circuit sensors which are mounted directly onto
PC boards along with all the other electrical components. To measure shock levels, three ADXL50
accelerometers are used, one on each axis, to determine
REAL
CLOCK
A/D
TIME
µP
I/O
DEVICE
MEMORY
POWER
CYCLING
SWITCH
BATTERY
when and how the system might have been mishandled.
An AD22100 temperature sensor is used to measure
potentially damaging temperature changes.
In order to adequately couple the shock signal to the
ADXL50, some care must be used both in the placement
of the ADXL50 and the PC board as well as the securing
of the board to the chassis of the equipment. Application Note AN-379 gives some helpful hints on this topic.
A microprocessor is at the heart of the recorder, controlling all the data acquisition and recording functions. The
data acquisition can be done with a microprocessorcompatible ADC, such as the AD7777. The ADXL50s
should be sampled at a rate of approximately 100 Hz,
which is adequate to detect a signal from a drop or
bump. When a shock signal is detected, the sampling
rate can be increased to capture the transient signal with
more resolution. Sampling from the AD22100 temperature sensor can be done at a much lower rate. In order to
record the time of any shock or temperature event, a
real-time clock is necessary.
Under most conditions, transient shocks will not last
more than 1–2 seconds. Data can be stored during the
event and stopped when the transient event has ended.
Enough memory should be allocated to record a series
of damaging events.
As with any system that is battery powered, current consumption is critical. The ADXL50 typically consumes
10 mA and the AD22100 consumes 0.5 mA from a 5 V
power supply. For example, sampling at 100 Hz will allow cycling of the power supply where the sensors are
on for only 10% of the time, reducing the average current to 1 mA. (Application Note AN-376 describes this in
more detail.)
Another option for conserving power is to use one of the
ADXL50s (Z axis in Figure 1) to trigger system wake-up
when a shock level above a preset trigger level is detected. A low power comparator can be made from a
low power, single supply op amp, such as the AD820.
This technique can be used whenever the microprocessor has a higher power consumption than the
ADXL50.
The shock and temperature recorder can often be
embedded in your equipment using the existing electronics architecture with minimal additional components. This inexpensive system enhancement will help
increase the reliability of equipment while being relatively easy to implement.
For additional technical information, contact Chuck
Kitchin at (617) 937-1665. For additional literature call
(617) 461-3392.
E1943–25–8/94
–2–
PRINTED IN U.S.A.
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