Danfoss JS6000 User guide

Type
User guide
COMPLIANT
TM
CONNECTOR MATES
WITH DEUTCH
CONNECTOR #DTM-06-125A
PIN #1
INDICATED
1
12
6
7
47.1 mm
[1.85]
51.6 mm
[2.03]
LED INDICATOR
LIGHTS
CONNECTOR MATES
WITH DEUTCH
CONNECTOR #DTM-06-125A
1
12
6
7
97.0 mm
[3.82]
142.0 mm
[5.59]
144.5 mm
5.69
158.2 mm
6.23
2x 25.2 mm
[1.0]
2x
7.0
[.28]
MOUNTING
DIRECTION
#2
PLUS+1
GUIDE
Software
PLUS+1 Compliant
JS6000 XYP3-Axis
Joystick Function
Block
User Manual
PLUS+1 Compliant JS6000 XYP3-Axis Joystick Function Block
User Manual
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About this Manual
Organization
and Headings
T
o help you quickly find information in this manual, the material is divided into sections,
topics, subtopics, and details, with descriptive headings set in red type. Section titles
appear at the top of every page in large red type.
In the PDF version of this document, clicking an item underlined in blue italic type
jumps
you to the referenced page in the document.
Special Text Formatting Controls and indicators are set in bold black type.
Table of Contents
A Table of Contents (TOC) appears on the next page. In the PDF version of this document,
the TOC entries are hyperlinked.
Revision History
Revision Date Comment
Rev BA September 2011
©2011 Sauer-Danfoss. All rights reserved.
Sauer-Danfoss accepts no responsibility for possible errors in catalogs, brochures and other printed material.
Sauer-Danfoss reserves the right to alter its products without prior notice. This also applies to products already
ordered provided that such alterations can be made without affecting agreed specifications.
All trademarks in this material are properties of their respective owners.
PLUS+1, GUIDE, and Sauer-Danfoss are trademarks of the Sauer-Danfoss Group. The PLUS+1 GUIDE, PLUS+1
Compliant, and Sauer-Danfoss logotypes are trademarks of the Sauer-Danfoss Group.
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Contents
JS6000_XYP3 Function Block ....................................................................................................................... 4
Overview..................................................................................................................................................... 4
Inputs ........................................................................................................................................................... 4
Outputs ....................................................................................................................................................... 6
Connections and Signals Overview ................................................................................................... 6
Status and Fault Logic ............................................................................................................................ 7
Configuration Settings .......................................................................................................................... 8
About Calibration Windows and Default Calibration Values .................................................. 11
About Calibration Values and Deadbands .................................................................................... 13
MC Controller—Input Configuration .............................................................................................. 15
MC Controller—How to Configure a MFIn............................................................................ 15
MC Controller—How to Configure an AnIn ......................................................................... 16
MC Controller—How to Configure a DigAn ......................................................................... 17
SC Controller—Input Configuration ............................................................................................... 18
SC Controller—How to Configure a MFIn ............................................................................. 18
SC Controller—How to Configure a DigAn .......................................................................... 19
About Pushbutton Wiring .................................................................................................................. 20
MC Controller—Pushbutton Input Configuration ..................................................................... 21
MC Controller—How to Configure a DigIn for a +5 VDC Activated Pushbutton
Input ................................................................................................................................................... 21
MC Controller—How to Configure a DigIn for a Ground-Activated Pushbutton
Input ................................................................................................................................................... 22
MC Controller—How to Configure a DigAn for a +5 VDC Activated Pushbutton
Input ................................................................................................................................................... 23
MC Controller—How to Configure a DigAn for a Ground-Activated Pushbutton
Input ................................................................................................................................................... 24
MC Controller—How to Configure a MFIn for a +5 VDC Activated Pushbutton
Input ................................................................................................................................................... 25
MC Controller—How to Configure a MFIn for a Ground-Activated Pushbutton
Input ................................................................................................................................................... 26
SC Controller—Pushbutton Input Configuration ....................................................................... 27
SC Controller—How to Configure a DigAn for a +5 VDC Activated Pushbutton
Input ................................................................................................................................................... 27
SC Controller—How to Configure a DigAn for a Ground-Activated Pushbutton
Input ................................................................................................................................................... 28
SC Controller—How to Configure a MFIn for a +5 VDC Activated Pushbutton Input
............................................................................................................................................................. 29
SC Controller—How to Configure a MFIn for a Ground-Activated Pushbutton Input
............................................................................................................................................................. 30
About the Para Input ............................................................................................................................ 31
About the Name Space Feature ....................................................................................................... 34
How to Enter a Name Space Value .......................................................................................... 34
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JS6000_XYP3 Function Block
Overview
The JS6000_XYP3 function block configures the output of a Sauer-Danfoss JS6000 XYP3-
Axis joystick
This joystick has:
Three-point x and y-axes in its base.
A grip with a P3 (proportional, three-point) rocker switch.
Up to eight pushbuttons in its grip.
See:
Connections and Signals Overview on page 6 for an overview of this function block’s
connections and signals.
About the Name Space Feature on page 34 if you are using more than one of these
function blocks in your application.
Inputs
JS6000_XYP3 Function Block Inputs
Input Type Range Description
Para —— —— Allows common parameters to be applied to multiple joystick function blocks.
See About the Para Input on page 31 for more information.
Snsr Pwr —— 0–5260 mV Inputs the reference voltage that a PLUS+1 controller applies to the 5 V DC Power + pin on the joystick.
Btn 1–8 BOOL —— Input the signals from the grip-mounted pushbuttons.
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JS6000_XYP3 Function Block Inputs
Input Type Range Description
P3 —— 0–5260 mV The voltage input to the P3 pin indicates the position of the P3 switch on the joystick grip.
The default:
CalLow calibration value for P3 is 10% of the SnsrPwr voltage. A P3 input at 10% of the SnsrPwr voltage
outputs a P3_Axis_Psn signal of -100%.
CalMid calibration value for P3 is 50% of the SnsrPwr voltage. A P3 input at 50% of the SnsrPwr voltage
outputs a P3_Axis_Psn signal of 0%.
CalHi calibration value for P3 is 90% of the SnsrPwr voltage. A P3 input at 90% of the SnsrPwr voltage
outputs a P3_Axis_Psn signal of 100%.
The P3, X, and Y inputs have identical configuration and calibration requirements.
X —— 0–5260 mV The voltage input to the X pin indicates the position of the joystick base on its x-axis.
The default:
CalLow calibration value for X is 10% of the SnsrPwr voltage. An X input at 10% of the SnsrPwr voltage
outputs an X_Axis_Psn signal of -100%.
CalMid calibration value for X is 50% of the SnsrPwr voltage. An X input at 50% of the SnsrPwr voltage
outputs an X_Axis_Psn signal of 0%.
CalHi calibration value for X is 90% of the SnsrPwr voltage. An X input at 90% of the SnsrPwr voltage
outputs an X_Axis_Psn signal of 100%.
The P3, X, and Y inputs have identical configuration and calibration requirements.
Y —— 0–5260 mV The voltage input to the Y pin indicates the position of the joystick base on its y-axis.
The default:
CalLow calibration value for Y is 10% of the SnsrPwr voltage. A Y input at 10% of the SnsrPwr voltage
outputs a Y_Axis_Psn signal of -100%.
CalMid calibration value for Y is 50% of the SnsrPwr voltage. A Y input at 50% of the SnsrPwr voltage
outputs a Y_Axis_Psn signal of 0%.
CalHi calibration value for Y is 90% of the SnsrPwr voltage. A Y input at 90% of the SnsrPwr voltage outputs
a Y_Axis_Psn signal of 100%.
P3, X, and Y inputs have identical configuration and calibration requirements.
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Outputs
JS6000_XYP3 Function Block Outputs
Output Type Range Description
Status Reports the function block’s status.
This output uses the standard bitwise scheme described in the Basic Function Blocks Library User’s Manual.
Status_P3,
Status_X,
Status_Y
U16 —— Indicate the calibration and setup condition of the P3, X, and Y inputs.
0x0000 = Block is OK.
0x8001 = Block is not calibrated.
0x8002 = Block is partially calibrated.
0x8008 = Invalid setup/calibration.
Fault Reports the function block’s faults.
This output uses the standard bitwise scheme described in the Basic Function Blocks Library User’s Manual.
Fault_P3,
Fault_X,
Fault_Y
U16 —— Indicate the operating condition of the P3, X, and Y inputs.
0x0000 = Block is OK.
0x8001 = Input value is too low.
0x8002 = Input value is too high.
0x8004 = Short circuit.
0x8008 = Open circuit.
Out Outputs a bus with Psn and Btn signals.
P3_Axis_Psn,
X_Axis_Psn,
Y_Axis_Psn
S16 ±10000 Indicate the position of the joystick grip’s P3 switch and the joystick base’s x and y-axes.
-10000 = -100.00%.
0 = 0%.
+10000 = +100.00%.
Btn1–Btn8 BOOL —— Indicate the state of the joystick grip’s pushbuttons.
Connections and Signals Overview
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Status and Fault Logic
The following table shows how:
The Status output indicates the calibration conditions of the inputs.
During calibration, the related Psn signal on the Out pin is zero.
Status Logic
Condition Status Psn Signal Comment
Block is OK. 0x0000 ±10000. Normal output of all Psn signals.
Block is not calibrated. 0x8001
0*/±10000**.
*Calibration of an input sets its related Psn signal to
0.
**A valid input has a related Psn signal of ±10000.
Block is partially calibrated. 0x8002
Invalid setup/calibration. 0x8008
The following table shows how:
The Fault output indicates fault conditions.
Any fault condition sets its related Psn signal on the Out pin to zero.
Fault Logic
Condition Fault Psn Signal Comment
Block is OK. 0x0000 ±10000. Normal output of both Psn signals.
Input value is too low. 0x8001
0*/±10000**.
*An invalid input sets its related Psn signal to 0.
**A valid input has a related Psn signal of ±10000.
Input value is too high. 0x8002
Short circuit 0x8004
Open circuit. 0x8008
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Configuration Settings
Enter the JS6000_XYP3 page to change the JS6000_XYP3 function block’s configuration
settings.
When working with configuration settings for PLUS+1 compliant joysticks, note that:
Configuration inputs with a _Base suffix configure the joystick base.
Configuration inputs with a _Grip suffix configure the joystick grip.
JS6000_XYP3 Function Block Configuration Settings
Input Type Range Description
CalMode —— 0–3 Selects the CalMode (Calibration Mode) that sets the CalHi, CalMid, and CalLow values.
0—download values with the PLUS+1 GUIDE Service Tool program.
1—capture values using autocalibration or directly download values with the PLUS+1 GUIDE Service Tool
program.
In autocalibration, you operate the joystick and the block captures values that fall within defined windows.
2—the controller uses only the Default calibration values in the Memory page.
3—erases all calibration values.
RturnToNeut BOOL —— RturnToNeut (Return to Neutral) sets when the function block enables its Out signals after a controller startup,
calibration, or a Fault or Status condition.
T—the block enables its Out signals only after all its inputs return to neutral.
F—the block immediately enables its Out signals.
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JS6000_XYP3 Function Block Configuration Settings
Input Type Range Description
LatchPFlt BOOL —— The function block sets a Status condition when it receives an invalid setup or calibration parameter.
The block disables the signal on the Out pin that is related to the abnormal parameter.
The LatchPFlt (Latch Parameter Fault) sets when the block enables the signal after the condition clears.
T—the block enables the Out signal only after you repower the controller.
F—the block immediately enables the Out signal.
LatchInFlt BOOL —— The function block sets a Fault condition when it receives an invalid input.
The block disables the Out signal that is related to the abnormal input.
The LatchInFlt (Latch Input Fault) sets when the block enables the signal after the condition clears.
T—the block enables the Out signal only after you repower the controller.
F—the block immediately enables the Out signal.
CalWindow —— 0–3000 The CalWindow (Calibration Window) sets the width of three calibration windows.
These windows center on the default CalHi, CalMid, and CalLow calibration values.
For more information, see About Calibration Windows and Default Calibration Values on page 11.
The default calibration values are set in the Memory page. They are the Default inputs to the three Non-Volatile
Memory Dynamic with Default components in this page.
During autocalibration, input voltages must be within these windows for the function block to capture them as
valid calibration values.
The CalWindow value is set as percentage of SnsrPwr.
1000 = 10.00%.
CalDetectTm —— 0–65535 The CalDetectTm (Calibration Detect Time) sets the time during autocalibration that input voltages must remain
in each calibration window for the function block to capture them as valid CalHi, CalMid, and CalLow calibration
values.
1000 = 1000 ms.
Dband_Hi —— 0–4999 The Dband_Hi (Deadband High) sets the width of an upper deadband.
An input voltage within this band produces a +100% output.
This deadband extends below the CalHi calibration value.
The function block sets the width of the Dband_Hi as a percentage of the difference between the CalHi and
CalMid calibration values.
For more information, see About Calibration Values and Deadbands on page 13.
1000 =10.00%.
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JS6000_XYP3 Function Block Configuration Settings
Input Type Range Description
Dband_Mid —— 0–4999 The Dband_Mid (Deadband Middle) sets the width of a middle deadband.
An input voltage within this band produces a 0% output.
This deadband has an upper and lower half. The upper half extends above the CalMid calibration value. The
lower half extends below the CalMid calibration value.
The function block sets the width of the upper half of Dband Mid as a percentage of the difference between the
CalHi and CalMid calibration values.
The function block sets the width of the lower half of Dband Mid as a percentage of the difference between the
CalMid and CalLow calibration values.
For more information, see About Calibration Values and Deadbands on page 13.
1000 =10.00%.
Dband_Low —— 0–4999 The Dband_Low (Deadband Low) sets the width of a lower deadband.
This deadband extends above the CalLow calibration value.
An input voltage within this band produces a –100% output.
The function block sets the width of the Dband_Low as a percentage of the difference between the CalMid and
CalLow calibration values.
For more information, see About Calibration Values and Deadbands on page 13.
1000 = 10.00%.
FltDetectTm —— 0–65535 The FltDetectTm (Fault Detect Time) sets the time before an abnormal condition causes the function block to set
a Status or Fault condition.
1000 = 1000 ms.
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About Calibration Windows and Default Calibration Values
The following graph shows the relationship between the default calibration values and the
windows in which the function block captures calibration values during autocalibration.
The JS6000_XYP3 function block’s SnsrPwr is 5000 mV.
The JS6000_XYP3 function block’s default:
CalLow calibration value is 1000, or 10% (500 mV) of SnsrPwr.
CalMid calibration value is 5000, or 50% (2500 mV) of SnsrPwr.
CalHi calibration value is 9000, or 90% (4500 mV) of SnsrPwr.
The JS6000_XYP3 function block’s CalWindow (Calibration window) is 1000, or 500
mV wide (10% of SnsrPwr).
(The Default values for CalLow, CalMid, and CalHi are set in the Memory page. The
CalWindow value is set in the JS6000_XYP3 page.)
The 500 mV wide calibration windows center on the Default values for CalLow,
CalMid, and CalHi.
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During autocalibration, an input voltage must be between:
250–750 mV to be captured as a CalLow calibration value.
2250–2750 mV to be captured as CalMid calibration value.
4250–4750 mV to be captured as a CalHi calibration value.
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About Calibration Values and Deadbands
The following graph shows the:
Formulas used by the function block to calculate high, middle, and low deadband
width.
Relationship between the calibration values captured during autocalibration and the
width of the deadbands.
During autocalibration, the JS6000_XYP3 function block captured the:
CalLo calibration value at 700 mV.
CalMid calibration value at 2300 mV.
CalHi calibration value at 4700 mV.
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An input voltage that falls within the:
Dband_Low deadband produces a -100% output from the function block.
Dband_Mid deadbands produces a 0% output from the function block.
Dband_Hi deadband produces a +100% output from the function block.
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MC ControllerInput Configuration
If you have an SC controller, see SC Controller—Input Configuration on page 18.
You can route the voltage needed by a joystick input though:
A MFIn (Multifunction Input) on your controller.
An AnIn (Analog Input) on your controller.
A DigAn (Digital/Analog input) on your controller.
You must configure the input that you use to accept a voltage input.
MC ControllerHow to Configure a MFIn
1. In the GUIDE template, enter the Inputs page.
2. Enter the MFIn page that routes voltage to the input.
3. Delete the route as shown in the preceding figure.
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MC ControllerHow to Configure an AnIn
1. In the GUIDE template, enter the Inputs page.
2. Enter the AnIn page that routes voltage to the input.
3. Delete the route as shown in the preceding figure.
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MC ControllerHow to Configure a DigAn
1. In the GUIDE template, enter the Inputs page.
2. Enter the DigAn page that routes voltage to the input.
3. Delete the route as shown in the preceding figure.
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SC ControllerInput Configuration
If you have an MC controller, see MC Controller—Input Configuration on page 15.
You can route the voltage needed by a joystick input though:
A MFIn (Multifunction Input) on your controller.
A DigAn (Digital/Analog) input on your controller.
You must configure the input that you use to accept a voltage input.
SC ControllerHow to Configure a MFIn
1. In the GUIDE template, enter the Inputs page.
2. Enter the MFIn page that routes voltage to the input.
3. Delete the routes as shown in the preceding figure.
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SC ControllerHow to Configure a DigAn
1. In the GUIDE template, enter the Inputs page.
2. Enter the DigAn page that routes voltage to the input.
3. Delete the routes as shown in the preceding figure.
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About Pushbutton Wiring
A pushbutton input can be wired to:
+5 VDC common sensor power.
Common sensor power ground.
Pushbutton input wired to +5 VDC common sensor power
Pushbutton input wired to common sensor power ground
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Danfoss JS6000 User guide

Type
User guide

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