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美国Avtron公司是一家在数字脉冲发生器生产方面占据领先地位超过35年的生产商。为工业控制系统开发了工业标准数字驱动反馈装置,其信誉是建立在所生产的高性能脉冲发生器非常可靠的质量和世界级的生产能力上
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型号表:
M285系列
M28460060-MP1(经常使用型号)
M3系列
M3-4S2R1024P016
M3-4T3D1024W000
M3-4T1D1024T
M485系列
M485L-60-ML1(经常使用型号)
M585系列
M5852D1024BT24(经常使用型号)
M685系列
M685LT51-HT5-HT5(经常使用型号)
M685T-51-HT1-HT1(经常使用型号)
M785系列
M785IR600BC837(经常使用型号)
M945系列
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最新型号表:
HS25A系列
K661系列
M3-1M3-2系列
M4-1M4-2系列
M6-1M6-2系列
M56系列
M85系列
M185系列
M284M285系列
M484M485系列
M627AM628A系列
M740 HANDTach系列
M925系列
M1250系列
TACHTester系列 |
HS35A系列
K662系列
M3-(3-9)系列
M4-(3-9)系列
M6-(4-7)系列
M56SM67系列
M115系列
M193B系列
M460系列
M560系列
M684M685系列
M913系列
M945系列
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The
M285, M485, and the M685 are SMARTachs. All SMARTachs have
special features that make them ideal feedback devices for
continuous process industries where reliability is critical and
downtime is costly. Among these are field-replaceable sensors
with Adaptive Electronics and Fault
Check Outputs with diagnostic LEDs for Predictive Maintenance. |
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M285 SMARTach M485 SMARTach M685
SMARTach |
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Showing field replaceable sensor
Adaptive Electronics: (U. S. Patent #5,502,376) Every SMARTach
is equipped with a microprocessor that monitors and controls the
duty cycle of the output waveform. Pulse generators with
replaceable sensors can have variations in the output when new
sensors are installed. Sensors cannot be perfectly set at the
factory due to unknown field conditions. Adaptive Electronics
will correct for any field variable to ensure a consistent,
accurate waveform throughout the life of the unit. This includes
variations caused by changes in thermal and mechanical
conditions.
Fault Check: If the Adaptive Electronics attempts to correct the
signal but the waveforms continue to be out of specification,
then the Fault Check output will send an early warning signal,
before the problem causes unscheduled downtime. If the unit is
equipped with the diagnostic LED option shown below, the LED
will change from green to red. |
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SMARTach Models are the M285 in the Heavy Mill Duty Class and
the M485 and M685 in the Severe Duty Class. ALL SMARTachs carry
the CE label.
PULSE GENERATOR SELECTION
There are four basic factors that need to be considered when
choosing a pulse generator: The duty class, mechanical mounting,
sensor technology, and the electrical requirements. |
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1.
ENVIRONMENTAL RATINGS
Mill Duty (MD): For use in most industrial environments like
paper, plastics, and metals. Not recommended for environments
with frequent temperature changes and chronically wet
conditions. Models available in this class include the M3 M945.
Heavy Mill Duty (HMD): For more rugged environments with
periodic temperature fluctuations and increased levels of
contamination. Models available in this class include the M285,
M585, and M785.
Severe Duty (SD): This rating is for very wet and dusty
environments with large and frequent temperature extremes. This
includes outdoor applications. Models in this class include the
M485 and M685.
2.
MECHANICAL MOUNTING
Avtron pulse generators can be mounted several different ways.
The standard mounting methods include: |
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NEMA FC Face Mounting: Requires 8.5" C-face flange.
Maximum shaft diameter is 3.500". Model M285. |
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Shaft Mounting: Stub shaft required. Shaft depends
on the pulse generator selected. Models M3, M4 and
M685 |
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NEMA 56C Flange Mounting: Requires 4.5" C-face and
adapter/coupling. Models M945, M785, M3, M4, and
M485. |
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Foot Mounting: This method is usually used when
pulse generators are coupled directly to rolls, gear
boxes, or motors without C-faces. Models M945, M785,
M3, M4, and M485 |
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3.
SENSOR TECHNOLOGY:
Avtron uses two different sensor technologies to generate the
signals in our pulse generators, photoelectric and
magneto-resistive. Both technologies are field proven with
thousands of successful installations. The electrical
requirements, mounting style, and environmental conditions will
influence |
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the choice of sensors.
Photoelectric: Photoelectric sensing technology has been used in
our pulse generators since 1975. It has the capability of
providing precise, reliable waveforms when used in most
industrial environments. The photoelectric sensing circuit uses
an LED light source that shines through a rotating disk. The
disk is made of either metal or plastic. On the opposite side of
the disk is a stationary mask assembly with corresponding slots,
and a photocell. As the disk rotates, the photocell sees an
interrupted light source and generates a corresponding waveform.
A high performance line driver is used to amplify and transmit
the signal to the receiving device.
Photoelectric Models include the M3 and M945 in Mill Duty
Designs and the M585 and M785 in the Heavy Mill Duty Class.
Magneto-resistive: Avtron has used magneto-resistive technology
in our rotary pulse generators since 1983. Because dust or
moisture does not affect it, it is ideal for severe duty
applications like paper mills, mines, and dockside cranes. A
magneto-resistive sensor detects a rotating wheel that is
encoded with a series of magnetic poles on its surface. As the
poles pass the sensor, a small change in resistance is detected
and pulses are generated as a result. A high performance line
driver is used to amplify and transmit the signals to the
receiving device. Magneto-resistive Models include the M4 in the
Heavy Mill Duty Class and the M485 and M685 in the Severe Duty
Class.
4.
ELECTRICAL REQUIREMENTS
The electrical requirements that need to be defined are the
operating voltage, the pulses per revolution (PPR), the number
of outputs, and the marker pulse. The operating voltage options
range from five to 24 volts DC. The PPR choices range from one
to 8,192. See pages 12 and 13 of the Avtron Rotary Pulse
Generator Brochure for more details. |
