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Figure 1.9 – Intelligent mechatronic modules
The synergetic integration of these elements constitutes the structural basis
of mechatronics. The mechatronic idea of synergetic integration of elements
of various physical natures is becoming more popular among developers and
consumers of high technology products. The first samples of intelligent mecha-
tronic modules appeared in the mid-90s of the XX century, and in recent years
their share on the market is rapidly increasing. Thus, according to Packaging
Digest [10], currently integrated motion controllers are used in 35.1% of mecha-
tronic packaging machines.
Within the next 1...2 years, the share of this class of vehicles is expected to
increase by 8...10%. A similar trend is observed in other areas of application of
mechatronic systems, in particular, in automated engineering.
Let’s consider the basic advantages which application of intellectual mecha-
tronic modules:
• the ability of the IMM to perform complex movements independently,
without resorting
to an upper level of control, which increases the
autonomy of the modules, the flexibility and survivability of mechatronic
systems operating in changing and uncertain environmental conditions;
• simplification of communications between modules and the central
control device (up to the transition to wireless communications), which
allows to achieve increased noise immunity of the mechatronic system
and its ability to quickly reconfigure, increase the reliability and safety
of mechatronic systems due to computer fault
diagnosis and automatic
protection in emergency and abnormal operation modes;
• creation on the basis of IMM of distributed control systems using network
methods, hardware and software platforms based on personal computers
and related software;
• use of modern methods of control theory (program, adaptive, intellectual,
optimal) directly at the executive level, which significantly improves the
quality of management processes in specific implementations;
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• intellectualization of power converters included in the IMM for
implementation directly in the mechatronic module of intelligent
functi-
ons
for motion control, module protection in emergency modes and fault
diagnosis;
• intellectualization of sensors for mechatronic modules allows achieving
higher measurement accuracy by programmatically providing noise
sensor, calibration, linearization of input/output characteristics, compen-
sation of cross-links, hysteresis and zero drift in the sensor module itself.
The main factor restraining the use of intelligence mechanical modules in
serial products is their high price, although in recent years it has been steadily
declining. It is due to a number of technological factors:
• the rapid development of hardware devices and in recent times formation
technologies oriented to the tasks of movement management;
• the emergence of new generation semiconductor devices (power field
effect transistors, bipolar transistors with isolated gate, thyristors with
field control);
• transition to a new element base in
control systems motion are
digital signal processors (DSP-processors) and blocks FPGAs (Field
Programmable Gate Arrays);
• development of hybrid mechatronics technologies that allow to integrate
electronic and computing devices into mechanics sided nodes.
From the point of view of functional and structural analysis, intellectual
mechatronic modules realize all seven functions transformations. The structure
of IMM includes electromechanical and the control subsystem, as well as the
power converter and the corresponding interfaces.
The intelligent mechatronic module consists of the following main elements:
• the electric motor (although it is possible to use thrusters and other types,
for example, hydraulic ones);
• mechanical converter;
• feedback sensors and sensor devices;
• the managing controller;
•
power converter;
• interface and communication devices.
In modern IMM use different types of electric motors: angular and linear
motion, variable and permanent current, collector and valve, continuous motion
and stepper. As a motion transducer used toothed, screw and other transmission.
In the designs of some IMMs built on the basis of high torque motors, there are
no motion transducers.
In intelligent mechatronic modules, various position and speed sensors
(photo-pulsed, rotating transformers, tachogenerators) and sensors (current and
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torque sensors temperature and vibration), which
transmit information to the
computer control unit about the actual state of the subsystems of the module.
Built-in controllers implemented on a modern element base allow to obtain
compact and reliable mechatronic products with intelligent functions and to
build multi-coordinate mechatronic systems with decentralized control based
on them.
In combination with the open architecture of control systems such as PC-NC
it allows to give qualitatively new control systems that have a principle new
characteristic of speed, accuracy and functional flexibility.
It is of fundamental importance that all listed elements were structurally
incorporated by the developer in a single package. When this makes the
com-
munication
devices
become internal units, not available for the user. When
developing IMM, it is necessary to consistently perform the stages of functional
structural and structural-constructive analysis and then proceed to the design
implementation of the chosen option.
It should be noted that the essence of intellectual mechatronics modules
is not determined by the type of structural elements used in this design, but
primarily by their functional purpose.
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