Robo Cylinder
Data Input Pendant
RCM-P
Operating Manual Second edition
IAI America Inc.
CAUTION
Disconnection of the RC Data Input Pendant from the PCON/ACON/SCON/ERC2 Controller
* After disconnecting the RC Data Input Pendant from the PCON/ACON/SCON controller with the
AUTO/MANU switch, always turn the AUTO/MANU switch to AUTO.
* For the PCON/ACON/ERC2 controller without AUTO/MANU switch, always set the TP Operation Mode to
“Monitor 2” before disconnecting the RC Data Input Pendant from the controller.
(Refer to “8.10 TP Operation Mode.”)
(Note) When the controller is set by connecting the RC Data Input Pendant to ERC2, the conditions
shown below occur.
When the controller is set by connecting the RC Data Input Pendant to the gateway unit/SIO
converter, the conditions shown below occur.
● If the RC Data Input Pendant is disconnected while the setting of “Teach 1” or “Teach 2”
remains, I/O will become invalid and control from PLC will become impossible.
● If the RC Data Input Pendant is disconnected while the setting of “Monitor 1” remains, the
maximum speed will become the safety speed set for the parameter regardless of a command
from PLC.
Support Models
Versions of the RC Data Input Pendant RCM-P which have started support for each model are as follows.
Table 1 List of Support Models
Model Name Support Started Version
RCP *1 V1.00
RCS *1 V1.00
E-Con *1 V1.30
RCP2 *1 V1.63
ERC *1 V1.63
ERC2 V2.00
PCON V2.00
ACON V2.00
SCON V2.00
ROBONET V2.08
*1: This RC Data Input Pendant also supports the RCP, RCS,
E-Con, RCP2, and ERC controllers.
* Confirm the connected model and version of this application (8.1 Initial Screen During Power-UP).
If any unsupported model is connected, it may operate unexpectedly.
* The software reset function is effective for models corresponding to 1.63 or later of the support started
version.
* ERC2, PCON, ACON, SCON, or ROBONET cannot be used by linking to any model of those shown in *1.
Table of Contents
1. Foreword.................................................................................................................................................... 1
2. Before You Begin....................................................................................................................................... 1
3. Safety Precautions ..................................................................................................................................... 2
4. Warranty .................................................................................................................................................... 3
4-1 Warranty Period................................................................................................................................... 3
4-2 Scope of Warranty .............................................................................................................................. 3
4-3 Honoring the Warranty...................................................................................................... .................. 3
4-4 Limited Liability .................................................................................................................................... 3
4-5 Conditions of Conformance with Applicable Standards/Regulations, Etc., and Applications................ 4
4-6 Limited Liability .................................................................................................................................... 4
5. Application Environment ............................................................................................................................ 5
6. RC Data Input Pendant Functions and Specifications................................................................................ 5
6-1 Specifications...................................................................................................................................... 5
6-2 External View ...................................................................................................................................... 6
6-3 Description of Each Part ..................................................................................................................... 7
7. Connection With the Controller .................................................................................................................. 9
7-1 Connection with the RC Data Input Pendant ...................................................................................... 9
7-2 How to Disengage the RC Data Input Pendant................................................................................... 9
8. Operation ................................................................................................................................................. 10
8-1 Initial Screen During Power - UP ...................................................................................................... 12
8-2 Controller Selection (when using multiple units) ............................................................................... 13
8-3 Operation Mode Selection ................................................................................................................ 14
8-4 Edit/Teach......................................................................................................................................... 16
8-4-1 Edit/Teach Screen ..................................................................................................................... 16
8.4.2 Position Data Table Contents for PCON, ACON, SCON, and ERC2......................................... 19
8-4-3 Position Data Table Contents for RCP, RCS, E-Con, and ERC ................................................ 25
8-4-4 Data Input .................................................................................................................................. 27
8-4-5 Clear • All Clear ......................................................................................................................... 33
8-4-6 Data Modification................................................................................................................................ 36
8-5 Monitor.............................................................................................................................................. 37
8-6 Error List ........................................................................................................................................... 39
8-7 User Parameter................................................................................................................................. 41
8-8 Software reset after user parameters are changed........................................................................... 45
8-9 User Adjustment ............................................................................................................................... 46
8-9-1 Pause, servo ON input enable and disable setting, axis number setting ................................... 46
8-9-2 Software Reset .......................................................................................................................... 48
8-9-3 Error List Clear........................................................................................................................... 49
8-10 TP Operation Mode........................................................................................................................... 50
8-11 End ................................................................................................................................................... 51
9. Message Area.......................................................................................................................................... 52
9-1 Warning Label Error (Code No. 000h – 07Fh) .................................................................................. 52
9-2 RC Data Input Pendant Message Level Error.................................................................................. 53
9-3 Controller Error ................................................................................................................................. 53
* Appendix....................................................................................................................................................... 62
Parameter (factory-installed) initializing method.............................................................................................. 62
RC Data Input pendant error table .................................................................................................................. 64
1. Foreword
Thank you very much for purchasing the RC Data Input Pendant (RCA-P) for the Robo Cylinder Controller.
Without knowing beforehand how to correctly use or operate the RC Data Input Pendant, not only will the user
be unable to take full advantage of all the functions built into this product but the user might also inadvertently
cause damage to the Controller or shorten its life. Please carefully read this manual as well as other manuals
pertaining to the product to acquire an understanding of the proper method of handling and operating the
controller. Keep this manual handy so that you can refer to the appropriate sections as the need arises.
For the actuator and controller to be used, be sure to refer to the Instruction Manuals attached to the
products.
Caution: Do not edit position data while the actuator is operating by PLC, etc.
Also, do not edit any position number not actually operated.
2. Before You Begin
(1) Please read this manual carefully to operate the controller properly.
(2) You are not allowed to reproduce this manual or any portion thereof without permission.
(3) For any handling and operating methods other than those described in this Instruction Manual, interpret
them as “don’t
(4) We cannot accept any responsibility for possible damage resulting from the use of this manual.
(5) We reserve the right to change the information contained in this manual without prior notice.
” or “can’t.”
1
3. Safety Precautions
(1) Use a genuine product specified by us for wiring between the actuator and controller.
(2) Stand clear of the operating range of the machine when it is in motion or is ready to operate. Surround
the system with safety partitions if there is a possibility that people can enter the area where the machine
is being used.
(3) When assembling, adjusting, or performing maintenance on the machine, always disengage the power
supply to the controller. During work, display a sign stating work in progress where it is readily visible.
Also, keep the power cable close to the operator so that another person cannot inadvertently switch on
the power. Alternatively, lock the power plug or receptacle and direct the operator to hold the key or
prepare a safety plug.
(4) When more than one person is working on the system, agree on signals beforehand to ensure
everyone's safety before beginning work. In particular, when doing work involving axis movement,
always call out for everyone's safety regardless of whether power is ON or OFF, or the axis is to be
mechanically driven or manually moved.
(5) When the user needs to lengthen the cables, check the wiring carefully to make sure it is correct before
turning the power ON since miswiring can lead to misoperation.
2
4. Warranty
4-1 Warranty Period
One of the following periods, whichever is shorter:
18 months after shipment from our company
12 months after delivery to the specified location
4-2 Scope of Warranty
Our products are covered by warranty when all of the following conditions are met. Faulty products
covered by warranty will be replaced or repaired free of charge:
(1) The breakdown or problem in question pertains to our product as delivered by us or our authorized
dealer.
(2) The breakdown or problem in question occurred during the warranty period.
(3) The breakdown or problem in question occurred while the product was in use for an appropriate
purpose under the conditions and environment of use specified in the operation manual and catalog.
(4) The breakdown of problem in question was caused by a specification defect or problem, or by a
quality issue with our product.
Note that breakdowns due to any of the following reasons are excluded from the scope of warranty:
[1] Anything other than our product
[2] Modification or repair performed by a party other than us (unless we have approved such
modification or repair)
[3] Anything that could not be easily predicted with the level of science and technology available at
the time of shipment from our company
[4] A natural disaster, man-made disaster, incident or accident for which we are not liable
[5] Natural fading of paint or other symptoms of aging
[6] Wear, depletion or other expected result of use
[7] Operation noise, vibration or other subjective sensation not affecting function or maintenance
Note that the warranty only covers our product as delivered and that any secondary loss arising from a
breakdown of our product is excluded from the scope of warranty.
4-3 Honoring the Warranty
As a rule, the product must be brought to us for repair under warranty.
4-4 Limited Liability
(1) We shall assume no liability for any special damage, consequential loss or passive loss such as a
loss of expected profit arising from or in connection with our product.
(2) We shall not be liable for any program or control method created by the customer to operate our
product or for the result of such program or control method.
3
4-5 Conditions of Conformance with Applicable Standards/Regulations, Etc.,
and Applications
(1) If our product is combined with another product or any system, device, etc., used by the customer,
the customer must first check the applicable standards, regulations and/or rules. The customer is also
responsible for confirming that such combination with our product conforms to the applicable
standards, etc. In such a case we will not be liable for the conformance of our product with the
applicable standards, etc.
(2) Our product is for general industrial use. It is not intended or designed for the applications specified
below, which require a high level of safety. Accordingly, as a rule our product cannot be used in these
applications. Contact us if you must use our product for any of these applications:
[1] Medical equipment pertaining to maintenance or management of human life or health
[2] A mechanism or mechanical equipment intended to move or transport people (such as a
vehicle, railway facility or aviation facility)
[3] Important safety parts of mechanical equipment (such as safety devices)
[4] Equipment used to handle cultural assets, art or other irreplaceable items
(3) Contact us at the earliest opportunity if our product is to be used in any condition or environment that
differs from what is specified in the catalog or operation manual.
4-6 Other Items Excluded from Warranty
The price of the product delivered to you does not include expenses associated with programming, the
dispatch of engineers, etc. Accordingly, a separate fee will be charged in the following cases even during
the warranty period:
[1] Guidance for installation/adjustment and witnessing of test operation
[2] Maintenance and inspection
[3] Technical guidance and education on operating/wiring methods, etc.
[4] Technical guidance and education on programming and other items related to programs
4
5. Application Environment
- In order to avoid breakdown, please do not apply any type of machinery impact to the RC Data Input
Pendant.
- Always hold onto the entire RC Data Input Pendant Body so that the RC Data Input Pendant Cable
does not get pulled by unwanted cables.
Caution: This RC Data Input Pendant is designed exclusively for IAI RC Controller, and should not
be used to connect with other devices.
Caution: Turn the controller front side PORT switch OFF before connecting to controller equipped
with a PORT switch.
6. RC Data Input Pendant Functions and Specifications
This RC Data Input Pendant was created exclusively for the RCP, RCS, E-Con, RCP2, ERC, ERC2,
PCON, ACON, and SCON Controllers.
Through the communication between the controller, the RC Data Input Pendant is designed to function
as a Display Operation Unit to edit or display the data (common data, move point data, etc.,) that is stored
inside the controller.
It canat be used for any operation related to axis movement.
LCD: Horizontal 16 characters Vertical 2 lines
6-1 Specifications
noitacificepS metI
Ambient Temperature & Humidity
Operating Environment Free of corrosive gas, especially, no excessive dust
Cable Length 5m
Temperature: 0°~40°C Humidity: 85% RH or less
* RH relative humidity
g083 thgieW
5
6-2 External View
External Dimensions
6
6-3 Description of Each Part
(1) LCD
(Arrow) keys
(2)
(6)
(Numeric) keys
(3)
(4)
(5) (Minus) key
(7)
key
(Return) key
key
7
(1) LCD
This is a liquid crystal display with a maximum of horizontal: 16 characters per column, and vertical: 2
columns per row.
This displays edit and teaching contents of various set values.
(2) (Arrow) keys:
- This is used for selection of the mode, the contents of data and changing position No.
(3)
- By pressing this key for more than 2.5 seconds, the screen will change into the “BEGIN/END” screen
and you will be able to reconnect the axis and execute RC Data Input Pendant configuration.
- If entering data via key pad, you may cancel midway using this key.
- You may clear error warning.
- When an error occurs, a message for this error will appear at the very bottom of the display screen.
Use this key to clear the error and to clear this message.
(4)
key
key
- Although Data Input Pendant operation is composed of several screens, using this key will return the
user to the previous screen.
When you don’t understand the operation, undo the operation by pressing the
(5) (Minus) key
- Position Table Column: When you push this in an area such as positioning width which allows minus
input, the key functions as the “-” (minus), and the rest as “.” (point). When you input either
in the beginning of the number, within the proper area, the key will automatically recognize it as 0.
(6)
- This key is used for numeric input.
(7)
- This is used for data input and operation confirm.
(Numeric) keys
(Return) key
key.
or
8
7. Connection With the Controller
7-1 Connection with the RC Data Input Pendant
(1) Connect the RC Data Input Pendant Cable to the “PORT IN” connector which is located on the front of
the controller. Always turn OFF the controller Port Switch first before connecting with regard to a
controller equipped with a PORT switch.
(2) After connecting, turn the controller PORT Switch ON with regard to a controller equipped with a PORT
switch.
7-2 How to Disengage the RC Data Input Pendant
Hold down the key which is located in the upper of the key pad. Select “Complete” to
finish. Afterwards, turn the controller front SW side to OFF, and remove the Data Input Pendant
connector.
Afterwards, turn the controller front PORT switch to OFF, and remove the RC Data Input Pendant
connector with regard to a controller equipped with a PORT switch.
Operation:
1. Hold down the
2. Use the Arrow keys to select “Complete” Screen, and then press the Return key.
3. Turn the RC Controller PORT SW OFF with regard to a controller equipped with a PORT switch.
4. Remove the RC Data Input Pendant connector.
key for more than 2.5 seconds.
Caution: In the case of PCON, ACON, SCON, or ERC2, an instantaneous stop will be made when
the RC Data Input Pendant is disconnected. However, this is not an error.
Caution: In the case of the PCON, ACON, or ERC2 controller not having the AUTO/MANU switch,
set the TP Operation Mode to “Monitor 2” before disconnecting the RC Data Input Pendant
from the controller. (Refer to “8.10 TP Operation Mode.”)
In the case of ERC2 or when controller setting is made by connecting the RC Data Input
Pendant to the gateway unit or SIO converter:
• If the RC Data Input Pendant is disconnected while the setting of “Teach 1” or “Teach 2”
remains, I/O will become invalid and control from PLC will become impossible.
• If the RC Data Input Pendant is disconnected while the setting of “Monitor 1” remains, the
maximum speed will become the safety speed set for the parameter regardless of a
command from PLC.
9
8. Operation
A
A
A
A
A
A
A
A
(1) Positioner (PCON-PL/PO, ACON-PL/PO, SCON: Mode other than the Pulse Train Mode)
The total picture of operations performed with the RC Data Input Pendant has the tree structure as
shown below. To return to the previous screen, press the ESC key.
Power-ON
Confirming connection
TP operation mode
Reconnect
Axis Select
* This is indicated
only when two or
more axes are
connected.
* Displayed only for PCON, ACON, SCON, and ERC2.
Return
ESC
Mode Select
Operation
Start/End
End
* You will be able to change
to the “Operation Start/End”
screen from any other
screen by using the
BEGIN/END key.
Please, press the
BEGIN/END key for
more than 2.5
seconds.
Servo OFF
Software
confirmation
* Confirm whether to reset software when
going through the mode with the
key if changing the parameter. (Only for
PCON, ACON, SCON, RCP2, ERC, ERC2)
* Content to be indic ated may depend on
type and version of controller to be
connected, version of RC DATA Input
Pendant.
reset
Return
ESC
Edit/Teach
Monitor
Error List
User
Parameter
User
Adjustment
TP operation
mode
* Only PCON, ACON, SCON
and ERC2 are allowed.
Return
ESC
MDI
Clear
ll Clear
Direct Teach
Error No.
Message
xis No.
Minutes ago
occurrence
djustment No.
Distribution No.
PCON, ACON,
SCON, ERC2.
Position
Vel
cc
Dcl
Push
LoTh
Range
Zone +
Zone -
cc/Dcl Mode
BS/INC
Cmnd Mode
Stop Mode
Incorporate
Return
ESC
Return
ESC
RCP,RCS, E-CON,
RCP2, ERC.
Position
Vel
cc/Dcl
Push
Range
Rated speed only MAX
BS/INC
CTL error list
- Error No.
- Message
10
(2) Pulse Train (PCON-PL/PO, ACON-PL/PO, SCON: Pulse Train Mode)
A
A
The total picture of operations performed with the RC Data Input Pendant has the tree structure as
shown below.
To return to the previous screen, press the ESC key.
Power-ON
Confirming connection
TP operation mode
Reconnect
Axis Select
* This is indicated
only when two or
more axes are
connected.
Operation
Start/End
End
* You will be able to change
to the “Operation Start/End”
screen from any other
screen by using the
BEGIN/END key.
Please, press the
BEGIN/END key for
more than 2.5
seconds.
Servo OFF
confirmation
Return
ESC
Mode Select
Software
reset
Return
ESC
Monitor
Error List
User
Parameter
User
Adjustment
TP operation
mode
Return
ESC
Error No.
Message
xis No.
djustment No.
Distribution No.
CTL error list
- Error No.
- Message
Minutes ago
occurrence
Return
ESC
* Confirm whether to reset software when
going through the mode with the
key if changing the parameter.
* Content to be indic ated may depend on
type and version of controller to be
connected, version of RC DATA Input
Pendant.
11
8-1 Initial Screen During Power - UP
When power is connected to the controller and the controller PORT switch is ON, power is supplied
to the RC Data Input Pendant and operation starts.
Once the PORT switch on the controller equipped with the PORT switch is ON, power is supplied to
the RC Data Input Pendant and operation will begin.
Upon power-on, the LCD display screen (hereinafter called the “screen”) displays the RC Data Input
Pendant software version as follows:
Confirming Link
IAI RE DU V. 2.00
Once the RCP, RCS, E-Con, RCP2 and ERC controller connections are complete, the screen will
automatically move to the TP operation mode selection screen.
If a number of RCP, RCS, E-Con, RCP2, ERC controllers are connected, the screen will
automatically move to the controller select screen.
TP OpMode A.00
Slct(←,→) : Teach1
Fig. 8.2 TP operation mode selection screen
The TP operation mode is selected from the following four menus.
- Teach 1
PIO not allowed: It is allowed to write position data and parameters, etc., in the controller
and command for actuator operation system.
With safety speed: The maximum speed is the safety speed set for the parameter
regardless of the position data.
- Teach 2
PIO not allowed: It is allowed to write position data and parameters, etc., in the controller
and command for actuator operation system.
Without safety speed: It is allowed to move at a speed registered on the position data.
- Monitor 1
PIO allowed: Only monitoring is allowed. It is not allowed to write position data and
parameters, etc., in the controller.
With safety speed: The maximum speed is the safety speed set for the parameter
regardless of the command from the PLC.
12
- Monitor 2
PIO allowed: Only monitoring is allowed. It is not allowed to write position data and
parameters, etc., in the controller.
Without safety speed: It is allowed to move at a speed as commanded from the PLC.
8-2 Controller Selection (when using multiple units)
In the case of multiple units connected serially via the communication line, the axis selection screen
will be displayed. For a single unit, since there is no need to select the axis, the first screen below will
not appear (refer to Section 8.3 entitled Operational Mode Selection of this manual). The content
explained here will be based on operation of the selected axis (controller). In addition, the controller can
connect up to 16 units. However, it is impossible to link a group of PCON, ACON, SCON, ERC2
controllers with RCP, RCS, E-Con, RCP2 and ERC controllers for use.
Display a controller to be used, and further press the Return key. The selection is confirmed, and
“8.3 Operation Mode Selection” will appear on the screen.
Slct Axis
* Axis No. 00 (PCON)
Using the keys, select the data inputting axis
(controller), and determine with the Return key.
Only the connecting axis will be displayed.
Slct Axis
* Axis No. 01 (PCON)
Axis number 1
Slct Axis
* Axis No. 02 (PCON)
•
•
•
Caution: In the case of a controller with the PORT switch, when power is supplied with the PORT switch
ON and power is present on the RC Data Input Pendant, only powered controllers will be
detected.
The content explained hereinafter will be based on operation in response to a selected axis (controller).
Type of controller will be displayed.
13
8-3 Operation Mode Selection
p
j
Mode Select
Edit/Teach
Monitor
Error List
User
Parameter
User
Adjustment
RCP, RCS, E-Con, RCP2 and ERC will be displayed as T2.
PCON, SCON, ACON and ERC2 will be displayed as M2.
Slct Mode/M2 A. 00
* Edit/Teach
Slct Mode/M2 A. 00
* Monitor
Slct Mode/M2 A. 00
* Error List
TP Operation
For the modes, select one of the 6 options as it appears on the above screen.
To select, move the
RCP, RCS, E-Con, RCP2,
and ERC will not be
displayed.
Mode
Slct Mode/M2 A. 00
* User Parmameter
Slct Mode/M2 A. 00
* User Ad
Slct Mode/M2 A. 00
* TP O
“* TP Operation Mode” will not be displayed for RCP, RCS,
E-Con, RCP2, and ERC.
keys to the mode desired and confirm using the Return key.
Mode
ustment
Display screen
14
Category of Modes
1. * Edit/Teach Edit and numeric input function for position data table
Note: Not displayed in the case of PCON-PL/PO, ACON-PL/PO and the
pulse sequence modes of SCON.
2. * Monitor RC Controller status display
3. * Error list Alarm content detailed display
4. * User Parameter Setting of axis zone signal output range and axis
5. * User Adjustment Setting for enabling or disabling of temporary stop (hold) input and the axis No.
selection of RC controller.
6. * TP Operation Mode Setting the TP operation mode
Note: Not displayed for RCP, RCS, E-Con, RCP2 and ERC.
15
8-4 Edit/Teach
A
A
8-4-1 Edit/Teach Screen
When “*Edit/Teach” is selected on the Mode Select screen, the Edit/Teach screen is displayed.
The Edit/Teach screen has the 6 items as follows:
* Not displayed in the case of PCON-PL/PO, ACON-PL/PO and the pulse sequence modes of
SCON.
Mode Select
Edit/Teach
Monitor
Parameter
Adjustment
TP Operation
Mode
RCP, RCS, E-Con, RCP2 and
ERC will not be displayed.
Edit/Teach A. 00
* MDI
User
User
MDI
Clear
ll ClearError List
Direct Teach
16
Edit/Teach A. 00
* Clear
Edit/Teach A. 00
*
ll Clear
Edit/Teach A. 00
* Direct Teach
You can change the screens by using the arrow keys ( ) and press the return key.
* MDI: Numerically inputs the position data directly from the ten keys
(input example: Page 28 in this manual).
* Clear: Resets the position data (input example: Page 34 in this manual).
* All Clear: Resets all of the position data (input example: Page 35 in this manual).
The position data table will be displayed by selecting and determining MDI.
(1) PCON, ACON, SCON, ERC2
As the table below shows, in the position table, there are 13 setting contents (Position, Vel, Acc, Dcl, Push,
LoTh, Range, Zone +, Zone -, Acc/Dcl Mode, ABS/INC, Cmnd Mode, Stop Mode) per each position data
number.
* The pulse sequence modes of PCON-PL/PO, ACON-PL/PO and SCON will not be displayed.
No. Position Vel Acc Dcl Push LoTh Range Zone + Zone -
0 * * mm/s * G * G * % * % * mm * mm * mm * * * *
1 * * mm/s * G * G * % * % * mm * mm * mm * * * *
2 * * mm/s * G * G * % * % * mm * mm * mm * * * *
3 * * mm/s * G * G * % * % * mm * mm * mm * * * *
4 * * mm/s * G * G * % * % * mm * mm * mm * * * *
5 * * mm/s * G * G * % * % * mm * mm * mm * * * *
6 * * mm/s * G * G * % * % * mm * mm * mm * * * *
7 * * mm/s * G * G * % * % * mm * mm * mm * * * *
8 * * mm/s * G * G * % * % * mm * mm * mm * * * *
9 * * mm/s * G * G * % * % * mm * mm * mm * * * *
10 * * mm/s * G * G * % * % * mm * mm * mm * * * *
11 * * mm/s * G * G * % * % * mm * mm * mm * * * *
12 * * mm/s * G * G * % * % * mm * mm * mm * * * *
13 * * mm/s * G * G * % * % * mm * mm * mm * * * *
14 * * mm/s * G * G * % * % * mm * mm * mm * * * *
15 * * mm/s * G * G * % * % * mm * mm * mm * * * *
Acc/Dcl
Mode
ABS/INC
Cmnd
Mode
Stop
Mode
Position Data Table
Use either the
key or the key to execute the transfer of the contents. Use either of the keys for
position number changes. In the display screen, only the single content of one position number will be
displayed.
The numbers following “No.” indicate the position number.
MDI No. 000 A. 00
Pos A
*
The numbers following “A” indicate
the axis number.
Indicates the following:
A: ABS (Absolute Coordinate Assign)
I: INC (Relative Coordinate Assign)
17
(2) RCP, RCS, E-Con, RCP2, ERC
As the table below shows, in the position table, there are 7 setting contents (Position, Vel, Acc/Dcl, Push,
Range, Acc only MAX, and ABS/INC) per each position data number.
No. Position Vel Acc/Dcl Push Range Acc only MAX ABS/INC
0 * * mm/s * G * % * mm * 0
1 * * mm/s * G * % * mm * 0
2 * * mm/s * G * % * mm * 0
3 * * mm/s * G * % * mm * 0
4 * * mm/s * G * % * mm * 0
5 * * mm/s * G * % * mm * 0
6 * * mm/s * G * % * mm * 0
7 * * mm/s * G * % * mm * 0
8 * * mm/s * G * % * mm * 0
9 * * mm/s * G * % * mm * 0
10 * * mm/s * G * % * mm * 0
11 * * mm/s * G * % * mm * 0
12 * * mm/s * G * % * mm * 0
13 * * mm/s * G * % * mm * 0
14 * * mm/s * G * % * mm * 0
15 * * mm/s * G * % * mm * 0
Position Data Table
Use either the
key or the key to execute the transfer of the contents. Use either of the keys for
position number changes. In the display screen, only the single content of one position number will be
displayed.
The numbers following “No.” indicate the position number.
MDI No. 000 A. 00
Pos A
*
The numbers following “A” indicate
the axis number.
Indicates the following:
A: ABS (Absolute Coordinate Assign)
I: INC (Relative Coordinate Assign)
18
8.4.2 Position Data Table Contents for PCON, ACON, SCON, and ERC2
The setting items of the position data table are No., Position, Vel, Acc/Dcl, Push, Range, LoTh,
Zone+, Zone-, AccDcl Mode, Cmnd Mode, and Stop Mode. They are displayed in 10 screens.
The items of Zone+, Zone-, AccDcl Mode, and Stop Mode are enabled (ON) or disabled (OFF)
according to the controller type.
List of ON/OFF of Position Table According to Model
AccDcl Mode Stop Mode
Position Table Zone +/-
Trapezoid S-shape
ERC2 ○ PIO pattern: 3 ○ × × ○ ○
ERC2-SE ○ - ○ × × ○ ×
PCON-C/CG/CF ○ PIO pattern: 0, 1, 2, 4, 5 ○ × × ○ ○
-CY ○ PIO pattern: 1 ○ × × ○ ○
-SE ○ - ○ × × ○ ×
ACON-C/CG ○ PIO pattern: 0, 1, 2, 4, 5 ○ ○ ○ ○
-CY ○ PIO pattern: 1 ○ ○ ○ ○
-SE ○ - ○ ○ ○ ×
SCON positioner
○ PIO pattern: 0, 1, 2, 4, 5 ○ ○ ○ ○
(1) No. Indicates the position data number.
(2) Position: Input the target position to move the actuator to, in [mm].
- Absolute Coordinates:
Input the target location by determining the distance between the original point and target
position. No negative value can be input.
- Relative Coordinates:
Input the target location by determining the distance between the current position and
target position. Any negative value can be input (if coordinates are in the negative
direction). In this case (during negative direction of the display coordinate), first select
Relative Positioning using (10) ABS/INC.
First-order
Delay
Full Servo
Auto
Servo
OFF
19
(3) Vel: Input the speed at which the actuator will be moved, in [mm/sec].
The initial value will depend on the actuator type.
(4) Acc/Dcl: Input the acceleration/deceleration at which the actuator will be moved, in [G].
Basically, use acceleration/deceleration within the catalog rated value range.
The input range allows larger value input than the catalog rated values, on the assumption
that the tact time will be reduced if the transfer mass is significantly smaller than the rated
value.
Make the numeric value smaller if transfer work vibrates and causes trouble during
acceleration/deceleration.
Speed
Acceleration Deceleration
Target
position
Target
position
Time
The acceleration will become sudden if the numeric value is made larger, and it
will become gradual if the numeric value is made smaller.
Caution: Enter appropriate values for Vel and Acc/Dcl in such a way as to prevent excessive
impact or vibration from being applied to the actuator in consideration of the installation
conditions and the shape of transferred work by referring to the “List of Actuator
Specifications” in the Appendix.
Increasing such values largely relates to the transfer mass and the actuator
characteristics vary depending on the model, consult IAI regarding the input-limiting
values.
(5) Push:
- Select the positioning operation or push oper ation.
The default value is “0.”
0: Normal positioning operation
Other than 0: Indicates the current-limiting value and indicates the push operation.
Caution: In the case of PCON, ACON, SCON, or ERC2, there are cases where the input value to
“Push” may be rounded off to a multiple of the minimum resolution of the controller (during
data acquisition from the controller).
20
(6) LoTh:
(7) Range:
- This field is invalid.
The default value is 0.
- The “positioning operation” and “push operation” have different meanings.
Positioning operation:
It defines the distance to the target position from a position at which the position
complete signal turns ON.
The default value is 0.1 mm.
Standard type
Timing of position
complete signal turning ON
Since increasing the positioning width value
hastens the next sequence operation, it
becomes a factor for tact time reduction. Set
the optimum value by considering the
balance of the entire equipment.
Positioning width
Target
position
However, it defines the width of the position complete signal for the 3-point type of
PCON-C/CG, ACON-C/CG, and SCON and the proximity switch type of PCON-CY and
ACON-CY.
3-point type and proximity switch type
Position complete signal
ON
Positioning width
Target
position
Push operation:
It defines the maximum push amount from the target position in the push
operation.
Set the positioning width in such a way as to prevent positioning completion
before the actuator contacts work by considering mechanical variations of
work.
Position at which the position complete
signal turns ON when the actuator contacts
Work
Positioning width
Target
position
(maximum push amount)
21
(8) Zone +/-:
- It defines the zone where the zone output signal of the standard type turns ON.
Individual setting is available for each target position to give flexibility.
[Setting example]
No.
Position
[mm]
Zone+
[mm]
Zone-
[mm]
0 5.00 100.00 0.00
1 380.00 400.00 300.00
2 200.00 250.00 150.00 Midpoint
Movement command to backward end
Zone output signal
Home
Backward
end
Movement command to forward end
Zone output signal
Forward
end
+ side limit
Comment
Backward
end
Forward
end
(9) Acc/Dcl Mode:
- It defines the acceleration/deceleration characteristics.
The default value is 0.
0: Trapezoid pattern
1: S-shaped motion
2: First-order delay filter
Movement command to midpoint
Trapezoid pattern
Speed
Acceleration
Midpoint
Zone output signal
Deceleration
22
Time
* Set the acceleration and deceleration in the “Acc” and “Dcl” fiel ds of the position
table.
S-shaped motion
A curve, which is gradual at the beginning of acceleration but rises sharply halfway, is
drawn.
Use it in the applications for which you want to set the acceleration/deceleration high due
to tact time requirement but desire a gradual curve at the beginning of movement or
immediately before stop.
Speed
Time
* Set the degree of the S-shaped motion with the parameter No. 56 [S-shaped motion
ratio setting]. The setting unit is % and the setting range is between 0.0 and 100.0.
(The above is the image graph when 100% setting is made.)
If “0” is set, the S-shaped motion becomes invalid.
However, it will not be reflected in jogging/increment movement by PC or RC Data
Input Pendant operation.
(Note) It cannot be set for the ERC2 or PCON controller. The parameter No. 56 is
reserved.
First-order delay filter
More gradual acceleration/deceleration curves are drawn than the linear
acceleration/deceleration (trapezoid pattern).
Use this in the applications by giving micro vibrations to work during
acceleration/deceleration not desired.
Speed
Time
* Set the degree of the first-order lag with the parameter No. 55 (constant for the
position command first-order filtering). The setting unit is 0.1 msec and the setting
range is between 0.0 and 100.0.
If “0” is set, the first-lag filter will become invalid.
However, it will not be reflected in jogging/increment movement by PC or RC Data
Input Pendant operation.
(Note) It cannot be set for the ERC2 or PCON controller. The parameter No. 55 is
reserved.
(10) ABS/INC - Select either the absolute or incremental positioning.
0: Absolute positioning (ABS)
1: Incremental positioning (INC)
The default value is absolute positioning (ABS).
Warning: Always specify absolute coordinates for the 3-point type of PCON-C/CG, ACON-C/CG, and
SCON-C and the proximity switch type of PCON-CY and ACON-CY.
If you specify relative coordinates, a position data error will occur.
23
(11) Cmnd Mode:
- This field is invalid.
(12) Stop Mode:
- It defines the power saving method on standby after completion of positioning to the
Full servo control method
The holding current can be reduced by servo-controlling the pulse motor.
The degree of reduction varies depending on the actuator model, load condition, etc., but the
holding current decreases approximately by a factor of 2 to 4.
No displacement occurs since this method maintains the servo ON status.
The actual holding current can be checked on the monitoring screen of PC-compatible
software.
Auto servo OFF method
When a given length of time has elapsed after completion of positioning, the servo OFF status
is automatically entered.
(Since the holding current does not flow, the power consumption can be saved by the same
amount.)
When a movement command is subsequently given from PLC, the status returns to the servo
ON and the actuator starts to move.
Movement
command
The factory setting is 0.
target position set in the “Position” field of the position number.
0: Invalid power saving method * The default setting is 0 (invalid).
1: Auto servo OFF method. Delay time defined with the parameter No. 36
2: Auto servo OFF method. Delay time defined with the parameter No. 37
3: Auto servo OFF method. Delay time defined with the parameter No. 38
4: Full servo control method
24
Auto servo OFF
Servo status
Servo ON status
Actuator
movement
Target position
(Green LED flashing)
T: Delay time (sec) until the servo
OFF status is entered after
completion of positioning
It is set with the parameter.
8-4-3 Position Data Table Contents for RCP, RCS, E-Con, and ERC
The columns for the position data table are Position, Vel, Acc/Dcl, Push, Range, Acc only MAX,
and ABS/INS.
(1) No. Shows position data No.
(2) Position: The desired move location from home in millimeters.
- Absolute Positioning:
Moves the actuator to the desired location in reference to the home location. Inputting
negative values is not possible.
- Relative Positioning:
Moves the actuator to the desired position in reference to the current position. Inputting
negatives values is possible. In this case (during negative direction of the display
coordinate), first select Relative Positioning using (7) ABS/INC.
* By pressing the
ABS/INC Input Screen.
key once from the Position Input Screen will move the screen to
Caution: There are cases when the input value may be rounded off to the least common denominator
multiple of the controller.
(3) Vel - The speed when moving the actuator (mm/sec).
The default value will depend on the actuator type.
(4) Acc/Dcl - The acceleration/deceleration setting for the move to the corresponding position (in G’s).
The default value will depend on the actuator type.
(5) Push - Selects the positioning mode or push mode.
The default value is set as 0.
0: Positioning Mode (normal movement)
Besides 0: Push Mode (%)
- In the case of push mode, data number is the servo motor current control value during
push.
Uses a value that matches the actuator type with a maximum value of 100%.
25
(6) Range - As for the range, depending on the setting in the push as either 0 or other than 0, this
function will vary. [mm]
(A) Push = 0 (Positioning Mode)
- The positioning mode uses range value as a location to turn ON the position complete
output prior to reaching the actual data.
The default value will depend on the actuator type. (see diagram A).
(B) Push ≠ besides 0 (Push Mode)
- The push mode uses the range value as the distance of the push. [mm]
- When the push direction is towards home, a “minus” sign should be placed in the range
column.
Speed
(5) When push = 0
(2) Distance up to the position
Speed
(5) When push ≠ 0
(2) Distance up to the position
Transfer distance Transfer distance
(6) Range Value (6) Range Value
Diagram A Diagram B
(7) MAX Acceleration
- Selects either the assigned acceleration or the maximum acceleration. Inputs are either 1
or 0. The default value is set as 0.
0: Assigned acceleration
The value placed in (4) will be used as the actual acceleration value and
deceleration value.
1: Maximum acceleration
This will automatically utilize the maximum acceleration matched to the load.
Deceleration remains as the assigned value in (4).
(7) When acceleration only MAX = 0
Speed
(4) The value set in
acceleration/deceleration
(7) When acceleration only MAX = 1
The maximum acceleration
Speed
matches the load
(4) The value set in
acceleration/deceleration
Transfer
distance
Transfer
distance
(8) ABS/INC - Select either the absolute or incremental positioning.
0: Absolute positioning (ABS)
1: Incremental positioning (INC)
The default value is absolute positioning (ABS).
26
8-4-4 Data Input
There are two methods of inputting the position data.
(1) MDI numerically input ----- Method for numerically inputting the position data directly from
the keypad of the Data Input Pendant.
(2) Direct Teach ----- Method for allowing the position data table to read the position (current
position) by turning off the servo control and manually moving the slider to adjust to the
target position.
In this section, we will explain an example of each operation.
Caution: When the position data is first input by the method of Direct Teach after power-on or alarm
raising, it is required to have homed the actuator in advance.
The Data Input Pendant has no function of homing the actuator.
Execute Direct Teach after completing homing RC by PLC in advance.
27
(1)MDI Numeric Input
Method of numerically inputting the position data directly from the ten keys of the RC Data Input
Pendant.
In this section, we will explain an example of the input procedure according to MDI (numeric input)
for PCON, ACON, SCON and ERC2.
Input the following content in Position Nos. 0 to 3.
Position No. 0
Absolute positioning mode
Position 0mm
Absolute positioning mode
Position No. 1
Position 50mm, Vel 100mm/s, Acc/Dcl 0.1G
Range 0.2mm, Acc MAX 1
Absolute push mode
Position No. 2
Position 80mm, Vel 100mm/s, Acc/Dcl 0.1G
Push 40%, Range 5mm
Position No. 3
Incremental positioning mode
Position 10mm, speed 20mm/s
Data not assigned utilizes default value. The example here is based on initial status during shipment (when
data is all clear).
You may input data from position data table similar to the table below.
Position Data Table
No. Position Vel Acc Dcl Push LoTh Range Zone + Zone -
0 0.00
1 50.00
2 80.00
3 10.00
125
mm/s
100
mm/s
100
mm/s
20
mm/s
0.20 G 0.20 G 0 % 0 % 0.10 mm
0.10 G 0.10 G 0 % 0 % 0.20 mm
0.10 G 0.10 G 40 % 0 % 5.00 mm
0.20 G 0.20 G 0 % 0 % 0.10 mm
0.00
mm
0.00
mm
0.00
mm
0.00
mm
0.00
mm
0.00
mm
0.00
mm
0.00
mm
Acc/Dcl
Mode
ABS/INC
0 0 0 0
0 0 0 0
0 0 0 0
0 1 0 0
Cmnd
Mode
Stop
Mode
Input the data inside the thick lined frames (see above table). The default values will be used for the data
outside the thick-lined frame. By inputting the position data, the default value will be automatically input.
The default values (Vel, Acc/Dcl and LoTh) will vary according to actuator machine type (in this example:
RA4C Low speed type).
Slct Mode/M2 A. 00
* Edit/Teach
Using the keys in the Mode Select Screen,
select Edit/Teach and choose using the Return key.
Edit/Teach A. 00
* MDI
Using the
select MDI and choose using the Return key.
keys in the Edit/Teach Screen,
Input using position number 0.
MDI No. 000 A. 00
Pos A *
MDI No. 000 A. 00
Pos A 0.
The screen will turn into the Input Screen for Position.
Using the Numeric keys, press 0 and the Return key.
28
A
g
A
A
MDI No. 000 A. 00
Vel 125
Input using position number 1
MDI No. 001 A. 00
Pos A *
MDI No. 001 A. 00
Pos A 50
MDI No. 001 A. 00
Vel 100
MDI No. 001 A. 00
cc 0.1 G
MDI No. 001 A. 00
Dcl 0.1
MDI No. 001 A. 00
Push 0
MDI No. 001 A. 00
LoTh 0
MDI No. 001 A. 00
Ran
MDI No. 001 A. 00
Zone + 0.00
MDI No. 001 A. 00
Zone - 0.00
MDI No. 001 A. 00
e 0.2mm
cc/Dcl 0
mm/s
Position number 1
mm/s
G
%
%
mm
mm
MDI No. 001 A. 00
BS Æ 0 INC Æ 1 0
The screen will turn into the Input Screen for Speed.
The default value will be utilized as is. Since other
data will use the default value, input for position
number 0 will end here.
Next, position number 1 input will be executed.
Press the key to advance the position number to
1.
The screen will turn into the Input Screen for Position.
Use the Numeric keys to input 50 and then, press the
Return key.
The screen will turn into the Input Screen for Speed.
Use the Numeric keys to input 100 and then, press
the Return key.
The screen will turn into the Input Screen for Acc.
Use the Numeric keys to input 0.1 and then, press the
Return key.
The screen will turn into the Input Screen for Dcl. Use
the Numeric keys to input 0.1 and then, press the
Return key.
The screen will turn into the Input Screen for Push %.
The default value will be utilized as is, so press the
Return key.
The screen will turn into the Input Screen for Range.
The default value will be utilized as is, so press the
Return key.
The screen will turn into the Input Screen for Range.
Use the Numeric keys to input 0.2 and then, press the
Return key.
The screen will turn into the Input Screen for Zone +.
The default value will be utilized as is, so press the
Return key.
The screen will turn into the Input Screen for Zone -.
The default value will be utilized as is, so press the
Return key.
The screen will turn into the Input Screen for Acc •
Dcl. The default value will be utilized as is, so press
the Return key.
Input for position number 1 will end here.
Next, position number 2 input will be executed.
29
Input using position number 2
A
g
MDI No. 002 A. 00
Pos A *
MDI No. 002 A. 00
Pos A 80
MDI No. 002 A. 00
Vel 100
MDI No. 002 A. 00
cc 0.1 G
MDI No. 002 A. 00
Dcl 0.1
MDI No. 002 A. 00
Push % 40
MDI No. 002 A. 00
LoTh 0
Position number 2
mm/s
G
%
%
Press the key to advance the position number to
2.
The screen will turn into the Input Screen for Position.
Use the Numeric keys to input 80 and then, press the
Return key.
The screen will turn into the Input Screen for Speed.
Use the Numeric keys to input 100 and then, press
the Return key.
The screen will turn into the Input Screen for Acc.
Use the Numeric keys to input 0.1 and then, press the
Return key.
The screen will turn into the Input Screen for Dcl. Use
the Numeric keys to input 0.1 and then, press the
Return key.
The screen will turn into the Input Screen for Push %.
Use the Numeric keys to input 40 and then, press the
Return key.
The screen will turn into the Input Screen for Range.
Use the Numeric keys to input 5 and then, press the
Return key.
MDI No. 002 A. 00
Ran
e 5mm
MDI No. 002 A. 00
Zone + 0.00
mm
The screen will turn into the Input Screen for
Positioning Width. Use the Numeric keys to input 5
and then, press the Return key.
Input for position number 2 will end here.
Next, position number 3 input will be executed.
30
A
Input using position number 3
MDI No. 003 A. 00
Position A *
Input using MDI
MDI No. 003 A. 00
Position A 10
MDI No. 003 A. 00
BS Æ 0 INC Æ 1 1
MDI No. 003 A. 00
Position I 10.00
MDI No. 003 A. 00
Vel 20
INC (Relative positioning)
Position number 3
mm/s
Press the key to advance the position number to
3.
The screen will turn into the Input Screen for Position.
Use the Numeric keys to input 10 and then, press the
Return key.
Press the key to change screen into ABS/INC
Display Screen. Use the Numeric keys to input 1 and
then, press the Return key.
The screen will turn into the Input Screen for Position.
Press the
The screen will turn into the Input Screen for Speed.
Use the Numeric keys to input 20 and then, press the
Return key.
Input for MDI will end here.
key, then position “I” is displayed.
31
(2) Direct Teach
Manually move the slider or rod to adjust it to the target position, and allow the position data table to
read the current position.
In this example, input data in Position No. 4 by Direct Teach.
Slct Mode/M2 A. 00
* Edit/Teach
Using the keys in the Mode Select Screen,
select Edit/Teach and choose using the Return key.
Edit/Teach A. 00
* Direct Teach
Using the keys in the Edit/Teach Screen,
select Direct Teach and choose using the Return
key..
Direct Teach A. 00
Srv OFF 51.23F
Displays the current position.
* Although this is displayed even
when homing is incomplete, it
is not an accurate value.
Position number 4
Acquire? No. 004 A. 00
* Y Æ 1 N Æ 0
Displays the old position data.
It is not the desired position
determined in the previous screen.
The servo is turned off, and the current position is
displayed.
In this condition, manually move the slider or rod to
determine the target position. (In the case of an
actuator with a brake, release the brake.)
When the target position is determined, press the
return key.
Using the keys to make the position No. to be
loaded 4. Press 1 on the numeric keys.
(If the slider or rod is moved before pressing 1,
determine again the target position.)
If the position is cancelled, press 0.
Direct Teach A. 00
Srv OFF 51.23F
In any case, the display returns to the preceding
screen.
Slct Mode/M2 A. 00
* Edit/Teach
Press the ESC key twice to return to the Selct Mode
screen.
Caution: Input any data (speed, acceleration/deceleration, etc.) other than position by MDI.
When the position data is first input by the method of Direct Teach after power-on or alarm
raising, it is required to have homed the actuator in advance.
The Data Input Pendant has no function of homing the actuator.
Execute Direct Teach after completing homing RC by PLC in advance.
32
8-4-5 Clear • All Clear
In this section, we will give specific examples of how to clear data in the position table.
(1) Clear: Resets the assigned position data.
(2) All Clear: Resets all of 16 position data.
33
(1) Clear:
The Clear operation procedure is explained below. The data of any position number is cleared.
In this example, the data of position number 1 is cleared.
The position data table becomes as shown below.
No. Position Vel Acc Dcl Push LoTh Range Zone + Zone -
0 0.00
1 50.00
2 80.00
3 10.00
125
mm/s
100
mm/s
100
mm/s
20
mm/s
0.20 G 0.20 G 0 % 0 % 0.10 mm
0.10 G 0.10 G 0 % 0 % 0.20 mm
0.10 G 0.10 G 40 % 0 % 5.00 mm
0.20 G 0.20 G 0 % 0 % 0.10 mm
0.00
mm
0.00
mm
0.00
mm
0.00
mm
0.00
mm
0.00
mm
0.00
mm
0.00
mm
Acc/Dcl
Mode
ABS/INC
0 0 0 0
0 0 0 0
0 0 0 0
0 1 0 0
Cmnd
Mode
No. Position Vel Acc Dcl Push LoTh Range Zone + Zone -
0 0.00
1 * * mm/s * G * G * % * % * mm * mm * mm * * * *
2 80.00
3 10.00
125
mm/s
100
mm/s
20
mm/s
0.20 G 0.20 G 0 % 0 % 0.10 mm
0.10 G 0.10 G 40 % 0 % 5.00 mm
0.20 G 0.20 G 0 % 0 % 0.10 mm
0.00
mm
0.00
mm
0.00
mm
0.00
mm
0.00
mm
0.00
mm
Acc/Dcl
Mode
ABS/INC
0 0 0 0
0 0 0 0
0 1 0 0
Cmnd
Mode
Slct Mode/M2 A. 00
* Edit/Teach
In the Mode Select Screen, using the keys,
select Edit/Teach and then, press the Return key.
Edit/Teach A. 00
* Clear
Position number 1
Clear? No. 001 A. 00
50.00 Y Æ 1 N Æ 0
Position data for
position number 1
Edit/Teach A. 00
* Clear
In the Edit/Teach screen, using the
select Clear and then, press the Return key.
Using the
keys, change the position number
into 1. Pressing 1 on the Numeric keys will clear
position number 1 and then, the screen will return to
the Edit Screen. To cancel, press 0.
In either case, the screen will return to the previous
screen.
Slct Mode/M2 A. 00
* Edit/Teach
Press the key once to return the screen to the
Mode Select Screen.
Stop
Mode
Stop
Mode
keys,
34
(2) All Clear:
A
A
The data of all the position numbers is cleared.
The position data table becomes as shown below.
No. Position Vel Acc Dcl Push LoTh Range Zone + Zone -
0 0.00
1 50.00
2 80.00
3 10.00
125
mm/s
100
mm/s
100
mm/s
20
mm/s
0.20 G 0.20 G 0 % 0 % 0.10 mm
0.10 G 0.10 G 0 % 0 % 0.20 mm
0.10 G 0.10 G 40 % 0 % 5.00 mm
0.20 G 0.20 G 0 % 0 % 0.10 mm
0.00
mm
0.00
mm
0.00
mm
0.00
mm
0.00
mm
0.00
mm
0.00
mm
0.00
mm
Acc/Dcl
Mode
ABS/INC
0 0 0 0
0 0 0 0
0 0 0 0
0 1 0 0
Cmnd
Mode
No. Position Vel Acc Dcl Push LoTh Range Zone + Zone -
0 * * mm/s * G * G * % * % * mm * mm * mm * * * *
1 * * mm/s * G * G * % * % * mm * mm * mm * * * *
2 * * mm/s * G * G * % * % * mm * mm * mm * * * *
Acc/Dcl
Mode
ABS/INC
Cmnd
Mode
Stop
Mode
Stop
Mode
3 * * mm/s * G * G * % * % * mm * mm * mm * * * *
Slct Mode/M2 A. 00
* Edit/Teach
In the Mode Select Screen, using the
select Edit/Teach and then, press the Return key.
Edit/Teach A. 00
*
ll Clear
All Clear? A. 00
Y Æ 1 N Æ 0
In the Edit/Teach Screen, using the
select All Clear and then, press the Return key.
Pressing 1 on the Numeric keys will clear all data and
then, the screen will return to the Edit Screen. To
cancel, press 0.
In either case, the screen will return to the previous
screen.
Edit/Teach A. 00
*
ll Clear
Slct Mode A. 00
* Edit/Teach
Press the key once to return the screen to the
Mode Select Screen.
keys,
keys,
35
8-4-6 Data Modification
You may write over all of the position data.
(1) Manual Input: Manually e nter the position data directly from the RC Data Input Pendant key pad.
(2) Direct Teach: Turn the servo OFF, manually move the slider to the desired location, and read that
location into the position table.
Caution during data modification:
* As for manual input, the data entered will erase the old data.
* The position will be updated only when the return key is pressed to read the current position by direct
teach. It does not influence speed, etc.
* Once the position data is cleared, the previous data will not remain anywhere, therefore, when the next
position data is set, the positioning mode or absolute coordinate assign is selected as a default.
When clearing to re-set position data of the push assign mode or relative coordinate assign, be sure to
confirm all items of the position data to input required data.
36
8-5 Monitor
A
The I/O status and current position of all controllers connected on the communications line will be
displayed.
Slct Mode/M2 A. 00
* Monitor
The following is a display example of controller PCON-CY. Some of the screen may not be displayed
depending on the type of controller. Items displayed depend on the I/O pattern setting.
Monitor A. 00
Pos 0.00N mm
Monitor A. 00
Error No. 000
Monitor A. 00
Servo ON
Monitor A. 00
Vel 00 mm/s
Monitor A. 00
Cur 0.0 m
Monitor A. 00
in 00 ST0 OFF
Monitor A. 00
in 01 ST1 OFF
Monitor A. 00
in 02 ST2 OFF
Monitor A. 00
in 03 SON OFF
Monitor A. 00
out 00 LS0 OFF
In the Mode Select Screen, using the
select Monitor and then, press the Return key.
Select the displayed item using the Return key or the
keys.
Use the
Displays the current position.
Displays the error code number.
Displays the ON/OFF status of servo.
Displays the speed.
For the pulse modes of PCON-PL/PO, ACON-PL/PO
and SCON, the Screen can be changed to the pulse
(pls) display by pressing the
Displays the current.
The Screen is changed to current ratio (%) display by
pressing the
Displays the ST0 (retract move command) status.
Displays the ST1 (advance move command) status.
Displays the ST1 (intermediate point move
command) status.
Displays the SON (servo ON command) status.
Displays the LS0 (retract end position detection)
status.
keys to change the axis number.
key.
key.
keys,
Monitor A. 00
out 01 LS1 ON
37
Displays the LS1 (advance end position detection)
status.
Monitor A. 00
out 02 LS2 OFF
Monitor A. 00
out 03 SV OFF
Monitor A. 00
out 04 HEND ON
Monitor A. 00
out 05 * ALM ON
Displays special input port hereinafter.
The display depends on the axis (controller) to be connected.
Monitor A. 00
in HMSW OFF
Monitor A. 00
Displays the LS3 (intermediate point end position
detection) status.
Displays the SV (operating preparation completion)
status.
Displays the HEND (homing completion) status.
Displays ON if homing is completed, and displays
OFF if not.
* Displays the ALM (alarm output) status.
Displays ON when it is normal.
Displays the HMSW (homing check sensor) status.
Displays the PORT switch status.
PORT SW ON
Monitor A. 00
Displays the Enable SW status.
Enable SW ON
Monitor A. 00
Displays the software version of the controller.
CTL Ver ae 030000
Slct Mode/M2 A. 00
* Monitor
The Screen returns to the mode select screen by
pressing the
key.
38
A
A
8-6 Error List
As long as the RC Data Input Pendant is connected, this display will show the content of the
controller error.
Slct Mode/M2 A. 00
* Err List
(1) RC Data Input Pendant error list
Displays the error having occurred after the RC Data Input Pendant connection (PORT ON).
Select the displayed item using the Return key or
Change the list number using the
Error list totaled 30 (List No. 0 – 29).
RC Data Input Pendant Error List
Err List List Page 0
Err No. 0E8
Err List List Page 0
, B disconnect
Err List List Page 0
xis No. 00
Err List List Page 0
1 Min
Slct Mode/M2 A. 00
* Err List
keys.
In the Mode Select Screen, using the
select Error List and then, press the Return key.
keys.
Displays the error code number.
Displays the error name.
Displays axis number in which the error occurred.
Displays how many minutes ago the error occurred.
Press the key once to return to the Mode
Select Screen.
keys,
39
(2) Controller error list
(
)
Press any one of the ten keys 0-8 from the screen of the RC Data Input Pendant error list, then the
error that has occurred is displayed after power for the controller is turned ON. For a number of 10 or
more, press the
key and the ten keys of 0-5.
Note) The RC Data Input Pendant FLASH Ver. 1.63 and later make available the display function of
the controller error list.
For PCON, ACON, SCON and ERC2, the content of the alarm list will be kept even if the power
is turned OFF.
Displays the past 8 alarm level errors including the final (most recent) error that has occurred, and one
final detected warning level error.
The relationship between the ten keys and error to be displayed are as follows.
Display of PCON, ACON, SCON and ERC2 Display of RCP, RCS, E-Con, RCP2 and ERC
Ten key Ten key
0 Last detected alarm level error 0 Last detected alarm level error
1 Previously first detected alarm level error 1 Previously first detected alarm level error
2 Previously second detected alarm level error 2 Previously second detected alarm level error
3 Previously third detected alarm level error 3 Previously third detected alarm level error
4 Previously fourth detected alarm level error 4 Previously fourth detected alarm level error
5 Previously fifth detected alarm level error 5 Previously fifth detected alarm level error
6 Previously sixth detected alarm level error 6 Previously sixth detected alarm level error
7 Previously seventh detected alarm level error 7 Previousl y seventh detected alarm level error
8 Previously eighth detected alarm level error 8 Last detected warning level error
9 Previously ninth detected alarm level error
Previously tenth detected alarm level error
0
Previously eleventh detected alarm level error
1
Previously twelfth detected alarm level error
2
Previously thirteenth detected alarm level error
3
Previously fourteenth detected alarm level error
4
Previously fifteenth detected alarm level error
5
The displayed content can be selected with the
The list No. can be changed with the
keys.
keys or return key.
Controller error list
CTL Err List 0 A. 00
Err No. 0B1
Displays the error No.
CTL Err List 0 A. 00
Bank 31 Err
Point
Displays the error name.
The screen returns to the RC Data Input Pendant error list screen by pressing the
40
key.
(
p
A
8-7 User Parameter
The User parameter assigns zone and soft limit ranges, actuator attributes and home direction.
Zone and soft limit are set within ±9999.99 (input unit: mm).
Home and servo parameters are determined by the actuator. Each setting for initial setting value
parameters is the registered default value for position data during teaching.
Slct Mode/M2 A. 00
* User Parm
Select the displayed item using the Return key or
for input and then, press the Return key. Turn on the power again or reset the software (only for applicable
models) after changing the parameters.
Parameter display screens for PCON-CY are shown below. The display depends on the type of controller.
For content to be displayed, refer to the Operating Manual of each controller.
User Parm 01 A. 00
+ Zone 150.30
User Parm 02 A. 00
- Zone -0.30
User Parm 03 A. 00
+ Lmt 150.30
User Parm 04 A. 00
- Lmt -0.30
User Parm 05 A. 00
Home
User Parm 06 A. 00
Push Com
User Parm 07 A. 00
Srv Gain No. 8
User Parm 08 A. 00
Init. Vel 100
User Parm 09 A. 00
Init.
User Parm 10 A. 00
LoTh 0.10
CWO CCW1) 1
255mm/s
cc 0.30G
mm
mm
mm
mm
mm/s
mm
In the Mode Select Screen, using the
select User Parameter and then, press the Return
key.
keys. To change the value, use the Numeric keys
Sets the zone limit +side.
Sets the zone limit -side.
Sets the soft limit + side.
Sets the soft limit - side.
Sets the homing direction
Sets the push stop determination time.
Sets servo gain number.
Sets the initial velocity value.
Sets the initial Acc・Dcl initial value.
Sets the initial positioning width value.
keys,
41
p
p
q
User Parm 12 A. 00
Hold Cur 5
User Parm 13 A. 00
Home Cur 10
User Parm 16 A. 00
Baud 38400b
User Parm 17 A. 00
RTIM 5
User Parm 21 A. 00
SON Disable 1
User Parm 22 A. 00
OFST 0.20
User Parm 23 A. 00
+ Zone 2 9999.99
%
%
s
msec
mm
mm
Sets the current limit value when positioning stops.
Sets the current limit value when homing is carried
out.
Selects and sets the SIO communication speed.
Sets the slave station transmitter activation minimum
delay time.
Sets the servo ON input [0: enable/1: disable].
Sets the homing offset amount.
Sets the zone limit 2 + side.
User Parm 24 A. 00
- Zone 2 9999.99
mm
User Parm 25 A. 00
PIO Ptn 0
User Parm 28 A. 00
Pole Sense Dir 0
User Parm 29 A. 00
Pole Sense 10
msec
User Parm 31 A. 00
Pro
Gain 103
User Parm 32 A. 00
Int Gain 3146
User Parm 33 A. 00
Tr
Filter 0
Sets the zone limit 2 − side.
Sets the PIO pattern.
Sets the excitation phase signal detection operation
initial move direction [0: reverse/1: normal].
Sets the excitation phase signal detection time.
Sets the speed loop proportional gain.
Sets the speed loop integral gain.
Sets the torque filter time constant.
User Parm 34 A. 00
Push Vel 2
42
mm/s
Sets the push speed.
y
A
A
p
A
p
User Parm 35 A. 00
Saft
Vel 250mm/s
User Parm 36 A. 00
uto Srv Off 0s
User Parm 37 A. 00
uto Srv Off 2 0s
User Parm 38 A. 00
uto Srv Off 3 0s
User Parm 39 A. 00
PEND Out
ut Typ 0
User Parm 42 A. 00
Enable Fnc Dis 1
User Parm 43 A. 00
Home Sensor Dis 0
Sets the safety speed.
Sets the auto servo OFF delay time 1.
Sets the auto servo OFF delay time 2.
Sets the auto servo OFF delay time 3.
Sets the positioning complete signal output method
[0: PEND/1: INP].
Sets the enable function [0: enable/1: disable].
Sets the home check sensor input character.
User Parm 45 A. 00
silent Interval 0
User Parm 46 A. 00
Vel Override 100
User Parm 53 A. 00
Sto
Mode Def 0
Sets the silent interval scaling factor.
Sets the speed override.
Sets the stop mode initial value.
43
- When soft limit is modified at the customer site, please set a value which extends 0.3mm outside of the
effective area.
Example: When setting the effective area between 0mm~80mm
Soft limit + side: 80.3
Soft limit - side: -0.3
Soft Limit set in controller
Approx.
0.3mm
Approx.
0.1mm
Effective area
Jog Increment allowable range after homing
Approx.
0.1mm
Approx.
0.3mm
- For RCP, RCS, E-Con, RCP2 and ERC, if the homing direction is changed, all of the inputted position
data will be cleared. As needed, please re-enter the data.
- Reversed homing direction may not be done on the Rod Type Actuator.
- Homing direction setting is reversed on the In-Line Type (SSR • SMR) Actuator (0: Correct, 1: Reversed).
Caution: Please cycle the controller power after making parameter changes.
Although pressing the emergency switch or port switch ON/OFF will rewrite the parameter,
there may be ones that will not be changed.
* Regarding parameter, please refer to the Controller Operating Manual.
44
8-8 Software reset after user parameters are changed
For software reset (re-start) function support model (PCON, ACON, ERC2, RCP2, ERC), the screen
moves to the software reset screen when the key is pressed after the user parameter is changed
or the user adjustment is set.
Soft Reset A. 00
* Reset? Y Æ 1 N Æ 0
Soft Reset A. 00
* Srv OFF? Y Æ 1 N Æ 0
Press 1 when resetting the software.
(Press 0 when interrupting to reset the software. The
screen returns to the mode select screen.)
The screen moves to the check screen of servo OFF
while servo is ON.
Press 1 when restarting. Since servo OFF is
automatically carried out, it is not necessary to turn
OFF the SON input.
(Press 0 when interrupting to reset the software.)
The screen returns to the mode select screen even if
either one of 1 or 2 is pressed.
45
8-9 User Adjustment
Adj
j
Adj
Adj
Adj
8-9-1 Pause, servo ON input enable and disable setting, axis number setting
Sets enable or disable pause.
Sets the axis number of controllers (PCON, ACON, ERC2, RCP-RSI, RCP-RMI, ERC, etc.)
Slct Mode/M2 A. 00
* User Ad
Disable hold input:
ust
User Adjust A. 00
ust 91
Input 91
Enable hold input:
User Adjust A. 00
ust 90
Input 90
Disable the servo ON input (only for E-Con, RCS Series)
User Adjust A. 00
ust 93
Input 93
Enable the servo ON input (only for E-Con, RCS Series)
User Adjust A. 00
ust 92
Input 92
In the Mode Select Screen, using the
select User Adjustment and then, press the Return
key.
Input 91 into the adjustment number and then, press
the Return key. Afterwards, the controller must be
turned OFF.
Input 90 into the adjustment number and then, press
the Return key. Afterwards, the controller must be
turned OFF.
Input 93 into the adjustment number and then, press
the Return key. Afterwards, the controller must be
turned OFF.
Input 92 into the adjustment number and then, press
the Return key. Afterwards, the controller must be
turned OFF.
keys,
46
Setting the controller axis number
Adj
Sets the axis numbers of controllers (RCP, ERC, ERC2) and compact types (PCON-CY, SE, PL/PO,
ACON-CY, SE, PL/PO).
User Adjust A. 00
alloc. 0
User Adjust A. 00
ust 2
Caution: Do not input any numeric values other than 1, 2, 3, 4, 90 and 91, 92, 93 and 5119 into the
adjustment number.
Additionally, when setting the parameter No.25 (PIO pattern)= 0, 2 in the RCP controller
and RCP2 controller (when there is no servo ON input), also do not input 92 into the
adjustment number. Since there is no servo ON input, operation cannot be made.
Input axis number.
Input 2
The adjustment No. and allocation No. are changed
by pressing the Return key or
Input the axis number into the allocation number and
then, press the Return key.
Input 2 into the adjustment number and then, press
the Return key.
If axis No. is set to the controller with axis No. setting
switch, an error No. 061 occurs and the setting is
rejected.
Afterwards, the controller must be turned OFF.
keys.
47
8-9-2 Software Reset
j
Adj
Resets the software (re-start up the controller).
* Version V2.00 or later make available the software reset function.
It is ready for models of PCON, ACON, SCON, RCP2, ERC and ERC2.
Slct Mode/M2 A. 00
* User Ad
User Adjust A. 00
ust 4
Soft Reset A. 00
* Reset? Y Æ 1 N Æ 0
Soft Reset A. 00
* Srv OFF? Y Æ 1 N Æ 0
Soft Reset A. 00
Please Wait. Y Æ 1 N Æ 0
ust
In the mode select screen, using the keys,
select User Adjustment, and then press the Return
key.
Input 4 into the adjustment number, and press the
Return key.
When performing the software reset, press the
key.
(When interrupting the software reset, press the
key. The screen returns to the mode select screen.)
During servo on, if pressing the key, a message
“Srv OFF?” appears on the full screen.
(When interrupting the software reset, press the
key. The screen returns to the mode select screen.)
A message “Please wait.” appears, and the software
reset is carried out.
After carrying out, the screen returns to the mode
select screen.
48
8-9-3 Error List Clear
Adj
Adj
Clears all of the contents of error lists in the controller.
* Version V2.00 and later make available the error list clear function.
This is available for models of PCON, ACON, SCON, and RCP2.
Slct Mode/M2 A. 00
* User
User Adjust A. 00
ust 3
Soft Reset A. 00
* Reset? Y Æ 1 N Æ 0
ust
In the mode select screen, using the keys,
select User Adjustment, and then press the Return
key.
Input 3 into the adjustment number, and press the
Return key.
Press the key.
The error list is cleared.
(When interrupting error list clear, press the
The Screen returns to the mode select screen even
by pressing either the
key or key.
key.)
49
8-10 TP Operation Mode
p
(
Sets operation mode in the manual mode (MANU).
Models of PCON, ACON, SCON, ERC2 are available for this mode.
Slct Mode/M2 A. 00
* TP O
TP Op Mode A. 00
Slct
The TP operation mode is selected from the following four menus using the
- Teach 1
PIO not allowed: It is allowed to write position data and parameters, etc., in the controller and
With safety speed: The maximum speed is the safety speed set on the parameter regardless of the
- Teach 2
PIO not allowed: It is allowed to write position data and parameters, etc., in the controller and
Without safety speed: It is allowed to move at a speed registered on the position data.
- Monitor 1
PIO allowed: Only monitoring is allowed. It is not allowed to write position data and parameters,
With safety speed: The maximum speed is the safety speed set on the parameter regardless of the
- Monitor 2
PIO allowed: Only monitoring is allowed. It is not allowed to write position data and parameters,
Without safety speed: It is allowed to move at a speed as commanded from the PLC.
Mode
Å, Æ): Teach 1
commands for actuator operation system.
position data.
commands for actuator operation system.
etc., in the controller.
command from the PLC.
etc., in the controller.
In the mode select screen, using the
select User Adjustment, and then press the Return
key.
keys.
keys,
50
8-11 End
End is executed to save each setting or registration content of the RC Data Input Pendant.
Before removing the RC Data Input Pendant from the RC controller, be sure to execute End.
Operation:
Press the
In a case that data input ends, and the RC
Data Input Pendant needs to be removed
key for more than 2.5 seconds.
In a case that you reopen the connection from
the initial screen
Op. Start / End
* End DU = Efct
Op. Start / End
* End DU = Non
Turn the RC Controller PORT Switch to OFF.
Then, remove the connector.
Caution: When multiple axes are connected with a controller link cable, after recycling power of a
controller that is not directly connected to the RC Data Input Pendant, please execute a
reconnect.
Op. Start / End
* Reconnection
Confirming Link
IAI RE DU V. 2.00
Select Axis
* Axis No. 00
(in a case of multiple axes connection)
Or
OP Op Mode A. 00
* Select (Å, Æ): Teach 1
(in a case of single axis connection)
Caution: Disconnect the PCON, ACON, ERC2 controllers which are not equipped with the
AUTO/MANU switch after setting the TP operation mode to the “Monitor 2.” (Refer to 8.12 TP
Operation Mode.)
In the case of ERC2, and when the controller is set with the RC Data Input Pendant connected
with the gateway unit, SIO converter
• I/O is disabled and control cannot be carried out from the PLC if they are disconnected
while the “Teach 1” and “Teach 2” are being set.
• The maximum speed becomes a safe speed set on the parameter regardless of command
from the PLC if they are disconnected while the “Monitor 1” are being set.
51
9. Message Area
In the message screen, content during error and warning will be displayed.
Code No. Error Label Error Reset Reference
000~07F Controller Warning Yes Controller rejects command
080-0FF Controller Error Yes Error inside the controller
100~1FF DIP* Message Yes Input error, guide message, etc.
200~2FF DIP* Movement Release Yes Movement continuation impossible
300~3FF DIP Cold Start Error No DIP Power install or reconnect are necessary.
* TB in the table mean RC Data Input Pendant.
* Refer to the “9.3 Controlle r Error.”
* For an error which can be reset, the error is reset by pressing the
And all of the error lists in the controller are cleared by the error list clear on the user adjustment. (Refer
to 8.11.3.)
9-1 Warning Label Error (Code No. 000h – 07Fh)
Warning message is cleared by recovery procedure as follows:
Release operation:
1. First, confirm the cause of the warning and resolve the problem.
2. Press down
Warning is probably due to the following possibilities:
- RS485 communication abnormality
- RC Data Input Pendant operational mistake
a) RS 485 communication related abnormality
Indicates occurrence of any abnormality on the RS485 communication line.
Code No: 05Ah, 05Bh, 05Dh, 05Eh, 05Fh (Communication error detected by the controller)
Cause: (1) RS 485 communication related abnormality
For example, when move command is delivered by PIO signal from teaching
while communicating to other devices (PLC), “075h” will occur.
(2) Influence by foreign noise or connections is not properly installed.
The RC Data Input Pendant and RC controller execute packet communication
(move instruction, data transfer, etc.) at all times. At this time, when data
changes due to noise, the RC controller will determine that it is incorrect data and
will reject the data.
Solution: (1) Confirm the above causes. In the case of frequent warning occurrences, please
separately set the signal cable and power line.
(2) Be sure to use one unit to operate the RC controller.
See to it that the RC Data Input Pendant will not conflict with the PIO signal.
key.
key on the key sheet.
52
9-2 RC Data Input Pendant Message Level Error
RC Data Input Pendant Operational Mistake:
When you attempt to input an incorrect value, the message label error will occur.
Code No: 112h, 113h, 114h, 118h, 11Eh, 11Fh, etc. (Keypad input value is incorrect.)
9-3 Controller Error
An alarm detected from the controller side can be displayed. This is a serious error due to an
abnormality related to servo control and electricity. Please read through the RC Controller operating
manual carefully for error compliance.
Code No: 0B0h, 0B1h, 0B8h, 0B9h, 0BBh, 0BCh, 0BDh, 0BEh
0C0h, 0C1h, 0D0h, 0D1h, 0D8h, 0E0h, 0E8h, 0E9h, 0EAh, 0F8h, etc.
For details of error code, refer to the Operating Manuals of the controller which you use.
53
* Appendix
j
Adj
Parameter (factory-installed) initializing method
Parameter is changed to the factory-installed parameter. (Initialization)
Models of PCON, ACON, SCON, ERC2 are available for this method.
Caution: Note that the parameter set by the user is changed to the factory-installed parameter if the
parameter (factory-installed) is initialized.
Appendix
Slct Mode/M2 A. 00
* User Ad
User Adjust A. 00
ust 5119
Ship Para A. 00
* Reset? Y Æ 1 N Æ 0
Soft Reset A. 00
* Reset? Y Æ 1 N Æ 0
ust
In the mode select screen, using the
set the user adjustment, and then press the Return
key.
Input 5119 into the adjustment number, and press the
Return key.
When initializing the parameter (factory-installed),
press the
When initialization of the parameter (factory-installed)
is completed, the screen moves to the software reset
screen. (When interrupting, press the
screen returns to the mode select screen.)
When executing software reset, press the key.
(When interrupting the software reset, press the
key. The screen returns to the mode select screen.)
key.
keys,
key. The
(Note) Unless the software was reset, the parameters were rewritten to factory-installed
parameters, however, operation is not performed with factory-installed parameters.
The parameters are enabled after the next reset or after power is turned on.
62
Appendix
Soft Reset A. 00
* Srv OFF? Y Æ 1 N Æ 0
Soft Reset A. 00
* Please Wait.
(Note) Unless the software was reset, the parameters were rewritten to factory-installed
parameters, however, operation is not performed with factory-installed parameters.
The parameters are enabled after the next reset or after power is turned on.
When servo is turned ON, you are asked whether
servo off is carried out or not on all screens by
pressing the
(When interrupting the software reset, press the
key. The screen returns to the mode select screen.)
A message “data being obtained” appears, the
software is reset, and operation is performed with
parameters set at shipment from factory.
After executing, the screen returns to the mode select
screen.
key.
63
Appendix
RC Data Input pendant error table
Listed on the table are RC Data Input Pendant specific error.
For error of controller, refer to the Operating Manual of each controller.
Code Message name Description
112 Input Incorrect Error An incorrect value was entered in a parameter.
(Example) 9601 was entered as the serial communication speed by mistake. Reenter an
correct value.
113
Input Under Error
114
Input Over Error
115 Homing Incomplete The current position was written when home return was not yet completed.
117 No Move Data Target position is not set under the selected position number.
11E Pair Data Mismatch The values indicating the magnitude relationship of a pair of data are incorrect.
11F Absolute Value Error The minimum movement toward the target position is determined by the lead length of
121 Push search end over The final position in push & h old operation exceeds the soft limit.
122 Allocate, multi-axes connect Address was assigned when multiple axes were connected.
133 Jig No. change not allowed For PCON-C/CG, ACON-C/CG, SCON controllers, the axis number is set with the rotary
180
Change to axis number OK
181
Controller initialize OK
182
Home Change All Clear
183
IO function has been changed
201 Emergency Stop An emergency stop condition was detected. (This is not an error.)
202 Emergency Stop An emergency stop condition was detected. (This is not an error.)
203 Motor voltage drop In controller of “shut-off relay external type,” motor drive power is shut off due to opening
204 ABS battery voltage drop Battery voltage drops when power is turned on.
20A During movement, Servo OFF This message indicates that the servo ON signal (SON) was turned OFF by the PLC
20C During movement, CST R-ON This message indicates that the start signal (CSTR) became “1” by the PLC while the
The entered value is smaller than the setting range.
The entered value is larger than the setting range.
Refer to the actuator specifications or parameter table and reenter a correct value.
Execute home return again.
Enter the target position first.
(Example) The same value was entered in both the parameters for + and – soft limits.
Reenter correct values.
the drive system and resolution of the encoder.
This message indicates that the entered target value is smaller than the minimum
movement.
(Example) If the lead length is 20mm, the encoder’s resolution is 800 pulses and
accordingly the minimum movement becomes 20 ÷ 800 = 0.025 mm/pulse.
In this case, this message will be displayed if 0.02mm is entered as the target
position.
This has no negative effect if the actuator contacts the work. If the actuator misses the
work, however, the soft limit will be reached and this message is displayed as a warning.
Change either the target position or positioning band.
Assign each address only when one axis is connected.
switch on the front panel. The axis number cannot be set on the RC Data Input Pendant.
These messages are displayed to confirm operation.
(They do not indicate an operation error or other abnormality.)
This is displayed on RCP, RCS, E-Con, RCP2, and ERC.
This is displayed on PCON, ACON, SCON, and ERC2.
between MPI terminal and MPO terminal.
(Note) If this error occurs while closing between MPI terminal and MPO terminal, the
controller is considered to be in failure.
while the actuator was moving, and that the servo turned OFF and the movement was
disabled as a result.
actuator was moving, and that duplicate movement commands occurred as a result.
64
Appendix
Code Message name Description
20D During movement, ST P-OFF This message indicates that the temporary stop signal (*STP) was turned OFF by the
PLC while the actuator was moving, and the movement was disabled as a result.
20E Soft limit over Soft limit is reached.
210 During movement, HOME-ON During movement operation, homing signal (HOME) from PLC side is turned ON, and
movement command is duplicated.
211 During movement, JOG-ON During movement operation, jog movement signal (JOG) from PLC side is turned ON,
and movement command is duplicated.
220 During AUTO, write not
allowed
221 During monitor mode, write
not allowed
222 During AUTO, movement not
allowed
223 During monitor mode,
movement not allowed
301
Over Run Error (M)
302
Framing Error (M)
304
SCI R-QUE OV (M)
305
SCI S-QUE OV (M)
306
Termi R-BF OV (M)
308
Response Time Out (M)
30A
Packet R-QUE
30B
Packet S-QUE OV
307
Memory Command Reject
309
Termi Light Address Error
30C No Connect Error This message indicates that no controller a xis number is recognized.
Parameter writing operation was performed in AUTO mode of PCON-C/CG,
ACON-C/CG, SCON controllers.
Position data, parameter write operation was performed in monitor mode.
Actuator movement operation was performed in AUTO mode of PCON-C/CG,
ACON-C/CG, SCON controllers.
Actuator movement operation was performed in monitor mode.
These messages indicate an error in the serial communication with the controller.
Cause: [1] Garbage data due to the effect of noise
[2] Duplicate slave numbers when multiple controllers are controlled by serial
communication.
Action: [1] Adjust the wiring in a manner eliminating the effect of noise and review the
installation of equipment, etc.
[2] Change the slave numbers to avoid duplicati on.
If the message is still displayed after taking the above actions, please contact IAI.
This message indicates that the command was refused in the serial communication with
the controller.
This message indicates that an indeterminate WRITE address error occurred in the
serial communication with the controller.
These conditions do not occur in normal operation. Should they occur, record the entire
error list before cutting off the power for use in the cause investigation. Also, contact IAI.
Cause: [1] The controller is not operating properly.
[2] Only the supplied communication cable (SGA/SGB) is disconnected.
[3] If a SIO converter is used, 24V is supplied to the converter but the link cable
is not connected.
[4] The ASDRS switch settings are duplicated by mistake when multiple
connectors are linked.
Action: [1] Check if the RDY lamp on the controller is lit. If the lamp is not lit, the
controller is faulty.
[2] If a spare RC Data Input Pendant is available, replace the current pendan t
with the spare unit, or with a PC, and see if the message disappears.
[3] Supply power after connecting the link cable between the converter and
controller.
[4] Make sure the ADRS switch settings are not duplicated.
If the message is still displayed after taking the above actions, please contact IAI.
65
First edition
January 2012 Second edition
Support Models: ROBONET added
P. 3 : Contents changed is Warranty
P. 46: Homing operation deleted
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66
Manual No.: ME0175-2A (January 2012)
Head Office: 577-1 Obane Shimizu-KU Shizuoka City Shizuoka 424-0103, Japan
TEL +81-54-364-5105 FAX +81-54-364-2589
website: www.iai-robot.co.jp/
Technical Support available in USA, Europe and China
Head Office: 2690 W. 237th Street, Torrance, CA 90505
TEL (310) 891-6015 FAX (310) 891-0815
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TEL (678) 354-9470 FAX (678) 354-9471
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TEL 06196-88950 FAX 06196-889524
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TEL 021-6448-4753 FAX 021-6448-3992
website: www.iai-robot.com
The information contained in this document is subject to change without notice for purposes of
product improvement.
Copyright © 2012. Jan. IAI Corporation. All rights reserved.
12.01.000
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