187
Pulse Outputs
Section 5-2
Independent Mode (Positioning)
Starting a Pulse Output
Note
Triangular Control
If the specified number of pulses is less than the number required just to
reach the target frequency and return to zero, the function will automatically
reduce the acceleration/deceleration time and perform triangular control
(acceleration and deceleration only.) An error will not occur.
Operation
Example
application
Frequency changes
Description
Procedure
Instruction
Settings
Output with
specified
speed
Positioning
without accel-
eration or
deceleration
Starts outputting
pulses at the speci-
fied frequency and
stops immediately
when the specified
number of pulses
has been output.
Note
The target
position
(specified
number of
pulses) can-
not be
changed dur-
ing position-
ing.
PULS(886)
↓
SPED(885)
• Number of
pulses
• Relative or
absolute
pulse spec-
ification
• Port
• “CW/CCW”
or “Pulse +
direction”
• Indepen-
dent
• Target fre-
quency
Simple trap-
ezoidal con-
trol
Positioning
with trapezoi-
dal accelera-
tion and
deceleration
(Same rate
used for
acceleration
and decelera-
tion; no start-
ing speed)
The number
of pulses can-
not be
changed dur-
ing position-
ing.
Accelerates and
decelerates at the
same fixed rate and
stops immediately
when the specified
number of pulses
has been output.
(See note.)
Note
The target
position
(specified
number of
pulses) can-
not be
changed dur-
ing position-
ing.
PULS(886)
↓
ACC(888)
(Indepen-
dent)
• Number of
pulses
• Relative or
absolute
pulse spec-
ification
• Port
• “CW/CCW”
or “Pulse +
direction”
• Indepen-
dent
• Accelera-
tion and
decelera-
tion rate
• Target fre-
quency
Complex
trapezoidal
control
Positioning
with trapezoi-
dal accelera-
tion and
deceleration
(Separate
rates used for
acceleration
and decelera-
tion; starting
speed)
The number
of pulses can
be changed
during posi-
tioning.
Accelerates and
decelerates at a
fixed rates. The
pulse output is
stopped when the
specified number of
pulses has been
output. (See note.)
Note
The target
position
(specified
number of
pulses) can
be changed
during posi-
tioning.
PLS2(887)
• Number of
pulses
• Relative or
absolute
pulse spec-
ification
• Port
• “CW/CCW”
or “Pulse +
direction”
• Accelera-
tion rate
• Decelera-
tion rate
• Target fre-
quency
• Starting
frequency
Pulse frequency
Target
frequency
Specified number of
pulses (Specified with
PULS(886).)
Execution of
SPED(885)
Outputs the specified
number of pulses
and then stops.
Time
Pulse frequency
Target
frequency
Specified number of
pulses (Specified
with PULS(886).)
Acceleration/
deceleration
rate
Execution of
ACC(888)
Outputs the specified
number of pulses and
then stops.
Time
Pulse frequency
Target
frequency
Starting
frequency
Acceler-
ation
rate
Specified number
of pulses
Deceleration
rate
Execution of
PLS2(887) Target
frequency
reached.
Deceleration point
Output stops.
Stop
frequency
Time
Pulse frequency
Target
frequency
Specified number
of pulses
(Specified with
PULS(886).)
Execution of
ACC(888)
Time
Pulse frequency
Target
frequency
Specified number
of pulses
(Specified with
PULS(887).)
Execution of
PLS2(887)
Summary of Contents for CP1L - 12-2007
Page 3: ...iv...
Page 9: ...x...
Page 13: ...xiv TABLE OF CONTENTS...
Page 21: ...xxii...
Page 33: ...xxxiv Conformance to EC Directives 6...
Page 65: ...32 Function Blocks Section 1 5...
Page 428: ...395 Clock Section 6 9...
Page 429: ...396 Clock Section 6 9...
Page 523: ...488 Troubleshooting Unit Errors Section 9 4...
Page 531: ...496 Replacing User serviceable Parts Section 10 2...
Page 563: ...528 Auxiliary Area Allocations by Function Appendix C...
Page 611: ...576 Auxiliary Area Allocations by Address Appendix D...
Page 638: ...603 Connections to Serial Communications Option Boards Appendix F Connecting to Unit...
Page 639: ...604 Connections to Serial Communications Option Boards Appendix F...
Page 669: ...634 Index...
Page 671: ...636 Revision History...