Amphenol Temposonics G Series Benutzerhandbuch - Seite 8
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Seite druckenAppendix A
Appendix A
G-Series Sensor Parameter Definitions
G-Series Sensor Parameter Definitions
1. O O u u t t p p u u t t s s t t y y l l e e ( ( o o p p e e r r a a t t i i o o n n m m o o d d e e ) ) – The operation modes for the digital
Appendix A
pulse type sensors can be start/stop output or PWM output. For analog
type sensors, the operation mode can be voltage or current output.
1. O O u u t t p p u u t t s s t t y y l l e e ( ( o o p p e e r r a a t t i i o o n n m m o o d d e e ) ) – The operation modes for the digital
G-Series Sensor Parameter Definitions
pulse type sensors can be start/stop output or PWM output. For analog
2. I I n n t t e e r r r r o o g g a a t t i i o o n n t t y y p p e e ( ( m m o o d d e e ) ) – Indicates whether the sensor interrogation
type sensors, the operation mode can be voltage or current output.
is generated internally by the sensor hardware or externally by the
1. O O u u t t p p u u t t s s t t y y l l e e ( ( o o p p e e r r a a t t i i o o n n m m o o d d e e ) ) – The operation modes for the digital
controller interface.
2. I I n n t t e e r r r r o o g g a a t t i i o o n n t t y y p p e e ( ( m m o o d d e e ) ) – Indicates whether the sensor interrogation
pulse type sensors can be start/stop output or PWM output. For analog
is generated internally by the sensor hardware or externally by the
type sensors, the operation mode can be voltage or current output.
3. C C i i r r c c u u l l a a t t i i o o n n s s ( ( c c o o m m m m o o n n l l y y r r e e f f e e r r r r e e d d t t o o a a s s r r e e c c i i r r c c u u l l a a t t i i o o n n s s ) ) - Circulations are
controller interface.
the number of times that the sensor element is interrogated to produce a
2. I I n n t t e e r r r r o o g g a a t t i i o o n n t t y y p p e e ( ( m m o o d d e e ) ) – Indicates whether the sensor interrogation
position reading. By using multiple circulations strung together under one
3. C C i i r r c c u u l l a a t t i i o o n n s s ( ( c c o o m m m m o o n n l l y y r r e e f f e e r r r r e e d d t t o o a a s s r r e e c c i i r r c c u u l l a a t t i i o o n n s s ) ) - Circulations are
is generated internally by the sensor hardware or externally by the
internal time measurement, the effective resolution of the controller's
the number of times that the sensor element is interrogated to produce a
controller interface.
clock is increased, thereby increasing position measurement resolution.
position reading. By using multiple circulations strung together under one
The additional interrogations also increase the sensor's update time
internal time measurement, the effective resolution of the controller's
3. C C i i r r c c u u l l a a t t i i o o n n s s ( ( c c o o m m m m o o n n l l y y r r e e f f e e r r r r e e d d t t o o a a s s r r e e c c i i r r c c u u l l a a t t i i o o n n s s ) ) - Circulations are
proportionally.
clock is increased, thereby increasing position measurement resolution.
the number of times that the sensor element is interrogated to produce a
The additional interrogations also increase the sensor's update time
position reading. By using multiple circulations strung together under one
4. S S e e n n s s o o r r f f i i r r m m w w a a r r e e v v e e r r s s i i o o n n – The version of firmware inside the sensor.
proportionally.
internal time measurement, the effective resolution of the controller's
clock is increased, thereby increasing position measurement resolution.
5. S S e e r r i i a a l l n n u u m m b b e e r r – The serial number of the sensor as originally produced.
4. S S e e n n s s o o r r f f i i r r m m w w a a r r e e v v e e r r s s i i o o n n – The version of firmware inside the sensor.
The additional interrogations also increase the sensor's update time
proportionally.
6. G G r r a a d d i i e e n n t t – The gradient is the inverse of the rate at which a sonic strain
5. S S e e r r i i a a l l n n u u m m b b e e r r – The serial number of the sensor as originally produced.
pulse propagates through the magnetostrictive waveguide, (gradient
4. S S e e n n s s o o r r f f i i r r m m w w a a r r e e v v e e r r s s i i o o n n – The version of firmware inside the sensor.
values are about 9 µs/inch or 0.35 µs/mm). The sensor interface
6. G G r r a a d d i i e e n n t t – The gradient is the inverse of the rate at which a sonic strain
hardware used determines the absolute position of the magnet by
pulse propagates through the magnetostrictive waveguide, (gradient
5. S S e e r r i i a a l l n n u u m m b b e e r r – The serial number of the sensor as originally produced.
dividing the difference in time between the Start signal and Stop signal
values are about 9 µs/inch or 0.35 µs/mm). The sensor interface
by the gradient.
hardware used determines the absolute position of the magnet by
6. G G r r a a d d i i e e n n t t – The gradient is the inverse of the rate at which a sonic strain
dividing the difference in time between the Start signal and Stop signal
pulse propagates through the magnetostrictive waveguide, (gradient
7. C C y y c c l l e e t t i i m m e e – The cycle time is the amount of time necessary to perform
by the gradient.
values are about 9 µs/inch or 0.35 µs/mm). The sensor interface
one internal measurement cycle of the sensor.
hardware used determines the absolute position of the magnet by
7. C C y y c c l l e e t t i i m m e e – The cycle time is the amount of time necessary to perform
dividing the difference in time between the Start signal and Stop signal
8. M M a a n n u u f f a a c c t t u u r r e e d d a a t t e e – The date the sensor was originally produced.
one internal measurement cycle of the sensor.
by the gradient.
9. A A u u t t o o m m a a t t i i c c t t h h r r e e s s h h o o l l d d – Refers to sensor circuitry capable of
8. M M a a n n u u f f a a c c t t u u r r e e d d a a t t e e – The date the sensor was originally produced.
7. C C y y c c l l e e t t i i m m e e – The cycle time is the amount of time necessary to perform
automatically adjusting to a specific position magnet.
one internal measurement cycle of the sensor.
9. A A u u t t o o m m a a t t i i c c t t h h r r e e s s h h o o l l d d – Refers to sensor circuitry capable of
10. S S E E t t h h r r e e s s h h o o l l d d v v o o l l t t a a g g e e / / D D i i g g i i t t a a l l t t h h r r e e s s h h o o l l d d l l e e v v e e l l – The voltage level at
automatically adjusting to a specific position magnet.
8. M M a a n n u u f f a a c c t t u u r r e e d d a a t t e e – The date the sensor was originally produced.
which the return signal will be detected.
10. S S E E t t h h r r e e s s h h o o l l d d v v o o l l t t a a g g e e / / D D i i g g i i t t a a l l t t h h r r e e s s h h o o l l d d l l e e v v e e l l – The voltage level at
9. A A u u t t o o m m a a t t i i c c t t h h r r e e s s h h o o l l d d – Refers to sensor circuitry capable of
11. S S u u p p p p l l y y v v o o l l t t a a g g e e - The input voltage detected by the sensor. Refer to
which the return signal will be detected.
automatically adjusting to a specific position magnet.
the sensor model number for the sensor's allowed input voltage range.
11. S S u u p p p p l l y y v v o o l l t t a a g g e e - The input voltage detected by the sensor. Refer to
10. S S E E t t h h r r e e s s h h o o l l d d v v o o l l t t a a g g e e / / D D i i g g i i t t a a l l t t h h r r e e s s h h o o l l d d l l e e v v e e l l – The voltage level at
12. C C h h a a r r g g e e p p u u m m p p s s t t a a g g e e s s – Circuits responsible for generating the
the sensor model number for the sensor's allowed input voltage range.
which the return signal will be detected.
interrogation current applied to the waveguide.
12. C C h h a a r r g g e e p p u u m m p p s s t t a a g g e e s s – Circuits responsible for generating the
11. S S u u p p p p l l y y v v o o l l t t a a g g e e - The input voltage detected by the sensor. Refer to
13. C C o o i i l l r r e e f f l l e e c c t t i i o o n n m m o o d d e e – Refers to a specific method of generating sensor
interrogation current applied to the waveguide.
the sensor model number for the sensor's allowed input voltage range.
output signals. Reserved for an existing OEM interface.
13. C C o o i i l l r r e e f f l l e e c c t t i i o o n n m m o o d d e e – Refers to a specific method of generating sensor
12. C C h h a a r r g g e e p p u u m m p p s s t t a a g g e e s s – Circuits responsible for generating the
14. S S e e n n s s o o r r m m o o d d e e l l n n u u m m b b e e r r ( ( a a s s m m a a n n u u f f a a c c t t u u r r e e d d ) ) – "Boxcar" model
output signals. Reserved for an existing OEM interface.
interrogation current applied to the waveguide.
configuration of the sensor as originally manufactured.
14. S S e e n n s s o o r r m m o o d d e e l l n n u u m m b b e e r r ( ( a a s s m m a a n n u u f f a a c c t t u u r r e e d d ) ) – "Boxcar" model
13. C C o o i i l l r r e e f f l l e e c c t t i i o o n n m m o o d d e e – Refers to a specific method of generating sensor
configuration of the sensor as originally manufactured.
output signals. Reserved for an existing OEM interface.
14. S S e e n n s s o o r r m m o o d d e e l l n n u u m m b b e e r r ( ( a a s s m m a a n n u u f f a a c c t t u u r r e e d d ) ) – "Boxcar" model
configuration of the sensor as originally manufactured.
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G-Series LED Diagnostic Code Definitions
G-Series LED Diagnostic Code Definitions
1. M M i i s s s s i i n n g g ( ( e e x x t t e e r r n n a a l l ) ) i i n n t t e e r r r r o o g g a a t t i i o o n n - If the sensor is a Start/Stop or PWM
output style, with external interrogation, then no interrogation signal has
been received over the timeout period. Standard timeout is 0.5 seconds.
1. M M i i s s s s i i n n g g ( ( e e x x t t e e r r n n a a l l ) ) i i n n t t e e r r r r o o g g a a t t i i o o n n - If the sensor is a Start/Stop or PWM
G-Series LED Diagnostic Code Definitions
output style, with external interrogation, then no interrogation signal has
2. M M a a g g n n e e t t s s i i g g n n a a l l w w e e a a k k - Sensor is still operating, but magnet placement
been received over the timeout period. Standard timeout is 0.5 seconds.
should be corrected to assure continued operation. (May also indicate
1. M M i i s s s s i i n n g g ( ( e e x x t t e e r r n n a a l l ) ) i i n n t t e e r r r r o o g g a a t t i i o o n n - If the sensor is a Start/Stop or PWM
other problems that cause weak magnet return signals.)
2. M M a a g g n n e e t t s s i i g g n n a a l l w w e e a a k k - Sensor is still operating, but magnet placement
output style, with external interrogation, then no interrogation signal has
should be corrected to assure continued operation. (May also indicate
been received over the timeout period. Standard timeout is 0.5 seconds.
3. P P o o w w e e r r o o u u t t o o f f r r a a n n g g e e ( ( h h i i g g h h o o r r l l o o w w ) ) - Supply voltage is nearly beyond the
other problems that cause weak magnet return signals.)
acceptable limits. If voltage is low the sensor is still operating, but the
2. M M a a g g n n e e t t s s i i g g n n a a l l w w e e a a k k - Sensor is still operating, but magnet placement
supply voltage should be corrected to assure continued operation. If the
3. P P o o w w e e r r o o u u t t o o f f r r a a n n g g e e ( ( h h i i g g h h o o r r l l o o w w ) ) - Supply voltage is nearly beyond the
should be corrected to assure continued operation. (May also indicate
voltage is high the sensor is still operating, but the sensor's over-voltage
acceptable limits. If voltage is low the sensor is still operating, but the
other problems that cause weak magnet return signals.)
protection may engage, powering off the sensor temporarily. The over-
supply voltage should be corrected to assure continued operation. If the
voltage should be corrected to assure continued operation and avoid
voltage is high the sensor is still operating, but the sensor's over-voltage
3. P P o o w w e e r r o o u u t t o o f f r r a a n n g g e e ( ( h h i i g g h h o o r r l l o o w w ) ) - Supply voltage is nearly beyond the
possible permanent damage.
protection may engage, powering off the sensor temporarily. The over-
acceptable limits. If voltage is low the sensor is still operating, but the
voltage should be corrected to assure continued operation and avoid
supply voltage should be corrected to assure continued operation. If the
possible permanent damage.
voltage is high the sensor is still operating, but the sensor's over-voltage
protection may engage, powering off the sensor temporarily. The over-
voltage should be corrected to assure continued operation and avoid
possible permanent damage.
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All Temposonics sensors are covered by US patent number 5,545,984. Additional patents are pending.
Temposonics is a registered trademark of MTS Systems Corporation.
Printed in USA. Copyright © 2004 MTS Systems Corporation. All Rights Reserv e d .
All other trademarks are the pro p e rty of their respective owners.
All Temposonics sensors are covered by US patent number 5,545,984. Additional patents are pending.
Printed in USA. Copyright © 2004 MTS Systems Corporation. All Rights Reserv e d .
Temposonics is a registered trademark of MTS Systems Corporation.
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P P a a r r t t N N u u m m b b e e r r : : 0 0 9 9 - - 0 0 4 4 5 5 5 5 0 0 9 9 6 6 6 6 R R e e v v i i s s i i o o n n B B
P P a a r r t t N N u u m m b b e e r r : : 0 0 9 9 - - 0 0 4 4 5 5 5 5 0 0 9 9 6 6 6 6 R R e e v v i i s s i i o o n n B B
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P P a a r r t t N N u u m m b b e e r r : : 0 0 9 9 - - 0 0 4 4 5 5 5 5 0 0 9 9 6 6 6 6 R R e e v v i i s s i i o o n n B B
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