Page 1 Contact-Type Digital Displacement Sensor HG-S Series User's Manual WUME-HGS-11 2023.6 panasonic.net/id/pidsx...
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Page 3 INTRODUCTION Thank you for purchasing an contact-type digital displacement sensor HG-S series. Before using this product, read and understand this User's Manual. Use the product correctly and in the optimum manner. Keep this manual in a safe location for reference whenever necessary.
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Page 5: Table Of Contents
Table of Contents 1 BEFORE USING THIS PRODUCT............1-1 1.1 Safety Cautions (Always observe) ............1-2 1.2 Safety Information................1-3 1.3 Contents of Package................1-5 2 System Configuration and Description of Parts ........2-1 2.1 System Configuration................2-2 2.2 Description of Parts................2-3 2.2.1 Controller ..................2-3 2.2.2 Sensor head (Regular type) .............
Page 6 4.2.3 Teaching Mode................. 4-10 4.2.4 Bank Mode ..................4-17 4.2.5 Key Lock ..................4-20 4.3 Self-monitoring Function ..............4-22 4.3.1 Using the Self-monitoring Function ..........4-22 4.3.2 Statuses and Measures ..............4-23 5 FUNCTION SETTINGS ................5-1 5.1 Overview of Setting Menu..............5-3 5.1.1 Menu Structure ................
Page 7 5.6.1 Bank Save Setting ( ) ............5-88 5.7 Calibration Settings ( ) .............5-90 5.7.1 Calibration Selection ( )............5-90 5.8 Initialization ( )................5-93 5.9 Maintenance ( )..............5-95 6 SPECIFICATIONS ..................6-1 6.1 SPECIFICATIONS ................6-2 6.2 Dimensions ..................6-10 6.2.1 Controller ..................6-10 6.2.2 Contact-Type Digital Displacement Sensor ........
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Page 9: Before Using This Product
1 BEFORE USING THIS PRODUCT 1.1 Safety Cautions (Always observe) ............1-2 1.2 Safety Information................1-3 1.3 Contents of Package................1-5 WUME-HGS-11...
Page 10: Safety Cautions (Always Observe)
1.1 Safety Cautions (Always observe) 1.1 Safety Cautions (Always observe) This section explains important rules that must be observed to prevent human injury and property damage. ■ The following symbols represent the extent of the harm or damage that may occur through improper use.
Page 11: Safety Information
1.2 Safety Information 1.2 Safety Information ● Never use this product as a sensing device for personnel protection. ● When using sensing devices for personnel protection, use products that meet the laws and standards for personnel protection that apply in each region or country, such as OSHA, ANSI and IEC.
Page 12 1.2 Safety Information ● If the Low measuring force type (HG-S1010R/HG-S1110R) is mounted in a lateral position and used with a roller-type probe (HG-SS40U, optional), the joint (optional) cannot be used. Usage environment ● This product is suitable for indoor use only. ●...
Page 13: Contents Of Package
1.3 Contents of Package 1.3 Contents of Package The following accessories are included in the product package. Before using the product, make sure that no items are missing. Controller HG-SC101 / Master unit, high-performance type HG-SC111 / Slave unit, high-performance type HG-SC101-P / Master unit, high-performance type HG-SC111-P / Slave unit, high-performance type ●...
Page 14 1.3 Contents of Package Sensor head (Regular type) ● Nut: 1 pc. ● Nut: 1 pc. ● Sensor head fastening wrench: 1 pc. ● Rubber bellows: 1 pc. ● Sensor head fastening wrench: 1 pc. ● Instruction Manual (English / Japanese, Chinese / Korean): 2 pcs.
Page 15 1.3 Contents of Package Sensor head (Air-driven type) HG-S1010-AC / General purpose, air-driven type HG-S1110-AC / High accuracy, air-driven type ● Controller: 1 pc. ● Nut: 1 pc. ● Sensor head fastening wrench: 1 pc. ● Air tube clamp: 1 pc. ●...
Page 16 1.3 Contents of Package End plate (Option) Joint (Option) ● Joint: 1 pc. ● Instruction manual Probe (Option) (Note 1) Rubber bellows (option) HG-SS10Cx5 / Standard type HG-SGN10x5 / 10 mm type ● Plate: Set of 5 pcs. ● Plate: Set of 5 pcs. HG-SS10H / Super-hard type HG-SGN32x5 / 32 mm type ●...
Page 17: System Configuration And Description Of Parts
2 System Configuration and Description of Parts 2.1 System Configuration................2-2 2.2 Description of Parts................2-3 2.2.1 Controller ..................2-3 2.2.2 Sensor head (Regular type) ............. 2-5 2.2.3 Sensor head (Air-driven type) ............2-6 2.2.4 Sensor head connection cable............2-6 WUME-HGS-11...
Page 18: System Configuration
2.1 System Configuration 2.1 System Configuration The HG-S series consists of controllers, sensor head connection cables, and sensor heads. For the controllers, master units (2 types) and slave units (5 types) are available. Up to 15 slave units can be connected per master unit. (When communication unit consolidated: up to 14 slave units).
Page 19: Description Of Parts
2.2 Description of Parts 2.2 Description of Parts 2.2.1 Controller HG-SC101 / Master unit, high-performance type HG-SC101-P / Master unit, high-performance type HG-SC111 / Slave unit, high-performance type HG-SC111-P / Slave unit, high-performance type HG-SC112 / Slave unit, standard type HG-SC112-P / Slave unit, standard type HG-SC113 / Slave unit, wire-saving type Name...
Page 20 2.2 Description of Parts Name Function Digital display / operation Keep closed when not using. cover ■ Digital display / operation unit Name Function Output 1 indicator (Orange) Lights up when output 1 is ON. Output 2 indicator (Orange) Lights up when output 2 is ON. Output 3 indicator (Orange) Lights up when output 3 is ON.
Page 21: Sensor Head (Regular Type)
2.2 Description of Parts Name Function ● Use to change setting items when configuring settings, and to change numeric set values. 10 DOWN key ● Long-press for 2 seconds in the base screen to enter bank mode. ● Short-press in the base screen to finely adjust the LOW set value. ●...
Page 22: Sensor Head (Air-Driven Type)
2.2 Description of Parts Name Function 4 Rubber bellows Protects the spindle. 5 Probe Ceramic measurement probe. 2.2.3 Sensor head (Air-driven type) Name Function 1 Sensor head connection cable connector Connects the sensor head connection cable. 2 Air tube joint Connects the air tube.
Page 23 2.2 Description of Parts Name Function Sensor head connector Connects to the sensor head cable connector on the sensor head. Controller connector Connects to the sensor head cable connector on the controller. (Note 1) Cannot be connected to an air-driven type. WUME-HGS-11...
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Page 25: Installation And Connections
3 INSTALLATION AND CONNECTIONS 3.1 Mounting the Controller...............3-2 3.1.1 Mounting on a DIN Rail ..............3-2 3.1.2 Removing from a DIN Rail ............... 3-2 3.2 Attaching the Sensor Head ..............3-3 3.3 Wiring the Controller Connector on the Sensor Head Connection Cable.....................3-6 3.3.1 Disassembly Procedure ..............
Page 26: Mounting The Controller
3.1 Mounting the Controller 3.1 Mounting the Controller 3.1.1 Mounting on a DIN Rail Insert the rear of the mounting part into the DIN rail. While pressing down on the rear of the mounting part, insert the front of the mounting part into the DIN rail.
Page 27: Attaching The Sensor Head
3.2 Attaching the Sensor Head 3.2 Attaching the Sensor Head ■ Sensor head accessories Sensor head fastening wrench 10 mm type, air-driven type 32 mm/50 mm type Mounting nut Open a hole in the housing in which the sensor head will be mounted. Mounting hole Housing thickness HG-S1010(R), HG-S1110(R)
Page 28 3.2 Attaching the Sensor Head Mounting bolt / threaded part facing down Mounting bolt / threaded part facing up Housing thickness threaded part facing threaded part facing up down HG-S1010(R), HG-S1110(R) 6.5 to 10 mm 10 to 12.5 mm HG-S1010-AC、HG-S1110-AC HG-S1032 8.5 to 10.5 mm 6.5 to 8.5 mm...
Page 29 3.2 Attaching the Sensor Head Tightening torque HG-S1010(R), HG-S1110(R) 12.5 N⋅m HG-S1010-AC、HG-S1110-AC HG-S1032 15 N⋅m HG-S1050 ● When tightening the mounting nut on the regular type, take care not to damage the rubber bellows. On the regular type, make sure that the rubber bellows have not become deformed as shown below.
Page 30: Wiring The Controller Connector On The Sensor Head Connection Cable
3.3 Wiring the Controller Connector on the Sensor Head Connection Cable 3.3 Wiring the Controller Connector on the Sensor Head Connection Cable 3.3.1 Disassembly Procedure Slide the protective cover in the direction of the arrow. Press down on the wire insertion hole lever (white) with a flat-head screwdriver (tip width 2 mm or less), and remove the wire.
Page 31 3.3 Wiring the Controller Connector on the Sensor Head Connection Cable Insert the wire firmly into the wire insertion hole. Make sure that the jacketed part of the wire has entered the wire insertion hole and the tips of the core wires have passed through the connection part as shown below.
Page 32 3.3 Wiring the Controller Connector on the Sensor Head Connection Cable WUME-HGS-11...
Page 33: Connecting The Controller And Sensor Head
3.4 Connecting the Controller and Sensor Head 3.4 Connecting the Controller and Sensor Head Connect the controller and the sensor head using the sensor head connection cable CN-HS- C□ / CN-HS-C□L. 3.4.1 Attaching the Sensor Head and Sensor Head Connection Cable ●...
Page 34: Removing The Sensor Head And Sensor Head Connection Cable
3.4 Connecting the Controller and Sensor Head 3.4.2 Removing the Sensor Head and Sensor Head Connection Cable Turn the fastening ring on the sensor head connector in the direction of the arrow to loosen the ring. Grasp the sensor head connector and pull up to remove. ●...
Page 35: Disconnecting The Air Tube (Air-Driven Type Only)
3.4 Connecting the Controller and Sensor Head 3.4.4 Disconnecting the Air Tube (Air-Driven Type Only) While loosening the air tube clamp, move it halfway through the air tube. Grasp the sensor head and pull out the air tube. (Note 1) Take care not to lose the air tube clamp.
Page 36: Removing The Controller And Sensor Head Connection Cable
3.4 Connecting the Controller and Sensor Head ● Insert the connector firmly. Risk of sensor head or controller damage if not completely connected. 3.4.7 Removing the Controller and Sensor Head Connection Cable Grasp the controller, and while pressing on the lock release lever on the controller connector of the sensor head connection cable, pull toward you to disconnect.
Page 37: Connecting Controllers
3.5 Connecting Controllers 3.5 Connecting Controllers ● Always shut OFF the power before connecting a slave unit to or disconnecting a slave unit from the master unit. Risk of controller damage if you attempt connection or removal with the power ON. ●...
Page 38: Connection Method
3.5 Connecting Controllers ● Up to 15 slave units can be connected per master unit. (When communication unit consolidated: up to 14 slave units) ● If HG-SC series controllers and HG-TC series controllers are used in combination, connect a slave unit of the same series as the master unit to the side near the master unit and a slave unit of a different series to the far side.
Page 39 3.5 Connecting Controllers Remove the connector cover. Mount each slave unit one at a time on the DIN rail. Remove all connector covers except for the cover on the end slave unit. Slide each slave unit to connect the female and male connectors. Attach end plates MS-DIN-E (optional) with the flat side facing in so as to enclose the connected units at the ends.
Page 40: Removal Method
3.5 Connecting Controllers Tighten the screws to fasten the end plates. The tightening torque should be 0.3 N•m or less. ● Take care if the screw is tightened with a torque of 0.3 N•m or more, this product may get damaged. 3.5.2 Removal Method Loosen the screws on the end plates.
Page 41: Connection Diagrams And I/O Circuit Diagrams
3.6 Connection Diagrams and I/O Circuit Diagrams 3.6 Connection Diagrams and I/O Circuit Diagrams 3.6.1 Connection Diagrams ■ HG-SC101、HG-SC101-P (Note 1) Connect a shielded wire (analog ground) to the ground (0 V) of the analog input device. ■ HG-SC111、HG-SC111-P (Note 1) Connect a shielded wire (analog ground) to the ground (0 V) of the analog input device.
Page 42: I/O Circuit Diagrams
3.6 Connection Diagrams and I/O Circuit Diagrams ■ HG-SC112、HG-SC112-P ● The HG-SC112 and HG-SC112-P cables do not have +V or 0 V. Power is supplied from the connector of the master unit. 3.6.2 I/O Circuit Diagrams ■ HG-SC101 / NPN output type Non-voltage contact or NPN open collector transistor 3-18 WUME-HGS-11...
Page 43 3.6 Connection Diagrams and I/O Circuit Diagrams 0 to +1.2 V DC: Valid +8 V to +V DC or open: Invalid (Note 1) Use shielded wire for the analog output. ● All outlets are equipped with short-circuit protection. If any one of outputs 1 to 3 short-circuits, all outputs temporarily turn OFF.
Page 44 3.6 Connection Diagrams and I/O Circuit Diagrams ■ HG-SC111 / NPN output type Non-voltage contact or NPN open collector transistor 0 to +1.2 V DC: Valid +8 V to +V DC or open: Invalid (Note 1) Use shielded wire for the analog output. ●...
Page 45 3.6 Connection Diagrams and I/O Circuit Diagrams ■ HG-SC111-P / PNP output type Non-voltage contact or PNP open collector transistor +4 V to +V DC: Valid 0 to +0.6 V DC or open: Invalid (Note 1) Use shielded wire for the analog output. ●...
Page 46 3.6 Connection Diagrams and I/O Circuit Diagrams ■ HG-SC112 / NPN output type Non-voltage contact or NPN open collector transistor 0 to +1.2 V DC: Valid +8 V to +V DC or open: Invalid (Note 1) Use shielded wire for the analog output. ●...
Page 47 3.6 Connection Diagrams and I/O Circuit Diagrams ■ HG-SC112-P / PNP output type Non-voltage contact or PNP open collector transistor +4 V to +V DC: Valid 0 to +0.6 V DC or open: Invalid (Note 1) Use shielded wire for the analog output. ●...
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Page 49: Basic Operation
4 BASIC OPERATION 4.1 Explanation of Basic Operation............4-2 4.1.1 From Power ON to Mode Selection ..........4-2 4.1.2 Operation Keys and Display ............4-2 4.2 Explanation of Modes .................4-5 4.2.1 Display Switching Mode ..............4-5 4.2.2 Preset....................4-7 4.2.3 Teaching Mode................. 4-10 4.2.4 Bank Mode ..................
Page 50: Explanation Of Basic Operation
4.1 Explanation of Basic Operation 4.1 Explanation of Basic Operation 4.1.1 From Power ON to Mode Selection This section explains the modes and shortcut functions that can be used from the home screen after the power is turned ON. 4.1.2 Operation Keys and Display ■...
Page 51 4.1 Explanation of Basic Operation ■ Display The display is used as follows. WUME-HGS-11...
Page 52 4.1 Explanation of Basic Operation WUME-HGS-11...
Page 53: Explanation Of Modes
4.2 Explanation of Modes 4.2 Explanation of Modes 4.2.1 Display Switching Mode ■ Overview You can change the display of the digital display / SUB (green) as needed for the task. Using the display switching function, you can display the actual measured value (spindle position) and a judgment value such as a calculation result at the same time for comparison.
Page 54 4.2 Explanation of Modes the master unit. When the "STAND" (standard difference) setting is selected for the calculation function, "CALC" appears on the slave units but not on the master unit. When the calculation function is not used, this does not appear on either the master unit or the slave units. ●...
Page 55: Preset
4.2 Explanation of Modes If you press the ENTER key with "LABEL" selected, you will move to the label setting screen. Press the UP / DOWN key to change the alphanumeric character. Press the LEFT / RIGHT key to change the digit position. Press the ENTER key to finalize the setting and return to the base screen.
Page 56 4.2 Explanation of Modes You can perform reference zero-point adjustment when the sensor head has been replaced or when the workpiece is changed, and set the dimensions of the master workpiece as preset values for use as master values (reference values). Preset Perform master workpiece measurement.
Page 57 4.2 Explanation of Modes ● To set preset values, refer to "5.2.6 Preset Value ( )". ● To set preset values by external input, set external input to preset input. ● For preset input by external input, refer to "5.3.3 External Input ( )".
Page 58: Teaching Mode
4.2 Explanation of Modes 4.2.3 Teaching Mode ■ Overview You can automatically set HIGH and LOW set values and output HIGH / GO / LOW judgment results. ■ Settings Factory Teaching type Setting method default state You can use a master workpiece to automatically set upper and lower limit values.
Page 59 4.2 Explanation of Modes ● To change teaching type, refer to "5.2.4 Teaching Types ( )". 1-point Teaching Long-press the LEFT key for 2 seconds. (The number of lit increments in the circle meter increases.) "SET1" appears in the digital display / SUB (green), and the digital display / MAIN (white) blinks.
Page 60 4.2 Explanation of Modes ● The default setting for the tolerance is "0.1000" (±0.1). ● For the tolerance setting, refer to "5.2.5 Tolerance <±> ( )". ● Judgment results that appear in the display are described in the table below. Digital display / MAIN Description (white)
Page 61 4.2 Explanation of Modes 2-point Teaching Long-press the LEFT key for 2 seconds. (The number of lit increments in the circle meter increases.) "SET.1" appears in the digital display / SUB (green), and the digital display / MAIN (white) blinks. Measure the first workpiece, and press the ENTER key.
Page 62 4.2 Explanation of Modes ● The higher judgment value is set as the HIGH set value and the lower judgment value is set as the LOW set value, regardless of the order of steps "Step 3" "Step 4". 3-point Teaching Long-press the LEFT key for 2 seconds.
Page 63 4.2 Explanation of Modes "SET.2" appears in the digital display / SUB (green). Measure the good workpiece, and press the ENTER key. "SET.3" appears in the digital display / SUB (green). Measure the LOW-side defective workpiece, and press the ENTER key. When teaching is completed, "GOOD"...
Page 64 4.2 Explanation of Modes HIGH Set Value Fine Adjustment Function and LOW Set Value Fine Adjustment Function ■ Overview You can fine adjust the HIGH set value and LOW set value as needed. HIGH Set Value Setting Method Short-press the UP key from the base screen. "HI.SET" appears in the digital display / SUB (green), and the HIGH set value appears in the digital display / MAIN (white).
Page 65: Bank Mode
4.2 Explanation of Modes Press the LEFT / RIGHT key to change the digit position. Press the UP / DOWN key to increase or decrease the value. Press the ENTER key to finalize the setting. ● If you take no action for 5 seconds, the screen will automatically return to the base screen and the setting will be finalized.
Page 66 4.2 Explanation of Modes Setting item Factory default state HIGH set value, LOW set value Default state HIGH set value, LOW set value, preset value ● Setting items saved to and loaded from banks can be changed in setting mode. For the setting procedure, refer to "5.6 Bank Settings ( )".
Page 67 4.2 Explanation of Modes Press the LEFT / RIGHT key to change banks. Press the ENTER key to set the bank. "YES" blinks in the digital display / MAIN (white). Press the LEFT / RIGHT key to switch between "YES" and "NO". Press the ENTER key.
Page 68: Key Lock
4.2 Explanation of Modes Loading by External Input By setting external input to bank A input or bank B input, you can load settings saved in a bank by external input. Using combinations of bank A input and bank B input ON / OFF, you can load settings from each bank.
Page 69 4.2 Explanation of Modes "LOCK" appears in the digital display / SUB (green), and "ON" appears in the digital display / MAIN (white). You then return automatically to the base screen. ● When any key is pressed, "LOCK" appears in the digital display / SUB (green), and "ACT" appears in the digital display / MAIN (white).
Page 70: Self-Monitoring Function
“unstable detection status”, “caution-required status”, and “abnormal status”) within its own device and send the status information to the host device. HG-S series sensors incorporate the self-monitoring function. 4.3.1 Using the Self-monitoring Function By combining the control system connected to PLC or PC via a network, this product, and the specified communication unit, you can easily check the sensor status (normal, notification, caution, or fault).
Page 71: Statuses And Measures
4.3 Self-monitoring Function 4.3.2 Statuses and Measures The statuses judged by the self-monitoring function are classified into the following four categories. When the status is "notification", "caution", or "fault", you must check the installation state or maintain or replace the product. Status Description Remarks...
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Page 73: Function Settings
5 FUNCTION SETTINGS 5.1 Overview of Setting Menu..............5-3 5.1.1 Menu Structure ................5-3 5.1.2 Data Flow ..................5-4 5.1.3 Setting Items and Default Values ............. 5-6 5.2 Basic Settings ( )..............5-10 5.2.1 HIGH Set Value ( )..............5-10 5.2.2 LOW Set Value ( )..............
Page 74 5 FUNCTION SETTINGS 5.5.3 Copy Execution ( ) (Master Unit Only) ........ 5-86 5.5.4 Copy Lock ( ) (Slave Units Only)..........5-87 5.6 Bank Settings ( ) .................5-88 5.6.1 Bank Save Setting ( ) ............5-88 5.7 Calibration Settings ( ) .............5-90 5.7.1 Calibration Selection ( )............
Page 75: Overview Of Setting Menu
5.1 Overview of Setting Menu 5.1 Overview of Setting Menu 5.1.1 Menu Structure WUME-HGS-11...
Page 76: Data Flow
5.1 Overview of Setting Menu 5.1.2 Data Flow For the controllers, up to 15 slave units can be connected per master unit. (When communication unit consolidated: up to 14 slave units). Each can perform independent measurements, as well as calculations on measurement values among controllers.
Page 77 5.1 Overview of Setting Menu Example: Simultaneous use of the "THICK" (thickness measurement) calculation application selection and independent measurement when one master unit and two slave units are connected *1 When a calculation mode is selected: The number of slave units used in the calculation varies depending on the calculation application selection.
Page 78: Setting Items And Default Values
5.1 Overview of Setting Menu 5.1.3 Setting Items and Default Values Setting item Setting range / set values Page You can manually set any HIGH set value (upper limit "P. value). HIGH set value (HI.SET) 5-10 " -199.9999 to -199.9999 (mm) <Default value: 5.0000> You can manually set any LOW set value (lower limit "P.
Page 79 5.1 Overview of Setting Menu Setting item Setting range / set values Page You can set the time until the judgment value (JUDGE.V) is finalized (response time) when the sensor head starts "P. measurement. Response time (SPEED) 5-23 3 (3 ms) / 5 (5 ms) / 10 (10 ms) / 100 (100 ms) 500 (500 "...
Page 80 5.1 Overview of Setting Menu Setting item Setting range / set values Page 3 VAL (HI, GO, LO) / 2 VAL (HI or LO, INRANGE, ALARM) / LOGIC (LOGIC, ALARM) / LOGIC2 <Default value: 3 VAL> You can change the number of digits that appear after the "P.
Page 81 5.1 Overview of Setting Menu Setting item Setting range / set values Page When calculation mode is set to "CALC", you can select the application that is used for calculation. This setting lets you select the application that is used for calculation.
Page 82: Basic Settings ( )
5.2 Basic Settings ( 5.2 Basic Settings ( Structure of basic settings menu 5.2.1 HIGH Set Value ( You can manually set any HIGH set value (upper limit value). If the judgment value (JUDGE.V) is over the set HIGH set value, a HIGH judgment is output. 5-10 WUME-HGS-11...
Page 83: Low Set Value
5.2 Basic Settings ( ● Always set a HIGH set value that is higher than the LOW set value. ● You can have the HIGH set value always appear in the digital display / SUB (green). For details, refer to "4.2.1 Display Switching Mode".
Page 84 5.2 Basic Settings ( ● Always set a LOW set value that is lower than the HIGH set value. ● You can have the LOW set value always appear in the digital display / SUB (green). For details, refer to "4.2.1 Display Switching Mode".
Page 85: Hysteresis ( )
5.2 Basic Settings ( 5.2.3 Hysteresis ( If the judgment value fluctuates near the HIGH or LOW set value, the judgment output may repeat ON / OFF and operation may become unstable. Operation can be stabilized by increasing the hysteresis value. When the hysteresis is "0"...
Page 86 5.2 Basic Settings ( ● Set the hysteresis to a value that is smaller than the difference between the HIGH set value and the LOW set value. If the hysteresis is set to a value that is larger than the difference between the HIGH set value and the LOW set value, a GO judgment will not be output.
Page 87: Teaching Types
5.2 Basic Settings ( 5.2.4 Teaching Types ( You can set the HIGH set value and LOW set value automatically. For the teaching method, you can select from "1-point teaching", "2-point teaching", or "3-point teaching". Factory Teaching type Function default state You can use a master workpiece to automatically set upper and lower limit values.
Page 88: Tolerance
5.2 Basic Settings ( ● For teaching type, refer to "4.2.3 Teaching Mode". ■ Setting method Setting item Set values Default value 1-point teaching (TCH.1) Teaching type (TEACH) 2-point teaching (TCH.2) TCH.1 3-point teaching (TCH.3) 5.2.5 Tolerance <±> ( When performing 1-point teaching, you can set a value equal to the master workpiece judgment value (JUDGE.V) plus a tolerance as the HIGH set value, and a value equal to the master workpiece judgment value minus a tolerance as the LOW set value.
Page 89: Preset Value ( )
5.2 Basic Settings ( ● The tolerance setting (±) is only valid when 1-point teaching is ON. ● For the 1-point teaching method, refer to "4.2.3 Teaching Mode". ■ Setting method Setting Setting range Default value Tolerance (±) (TOL<±>) 0 to 199.9999 0.1000 5.2.6 Preset Value ( When performing preset, you can shift (add or subtract) to any preset value.
Page 90: Preset Data Selection
5.2 Basic Settings ( ● If preset is turned ON when the preset value is "0", zero-point adjustment will take place. ● A preset value setting change will be applied even if the preset has been executed. ● For details, refer to "4.2.2 Preset".
Page 91: Preset Save
5.2 Basic Settings ( ■ Setting method Setting item Set values Default value Normal measured value (NORM.V) Preset data selection (PR.OBJ) NORM.V Judgment value (JUDGE.V) 5.2.8 Preset Save ( You can write preset information to EEPROM by setting preset save to ON. The preset value is saved even when the power is turned OFF.
Page 92: Measurement Direction
5.2 Basic Settings ( ■ Setting method Setting item Set values Default value Preset save OFF (OFF) Preset save (PR.SAVE) Preset save ON (ON) 5.2.9 Measurement Direction ( You can set whether the normal measured value (NORM.V) and judgment value (JUDGE.V) are displayed normally (plus direction) or in reverse (minus direction) when the sensor head spindle is pressed in.
Page 93 5.2 Basic Settings ( ● If you change the measurement direction setting, you must also change the settings below. • HIGH set value • LOW set value • Self trigger edge direction in the hold setting ■ Setting method Setting item Set values Default value Normal display (plus direction) (NORMAL)
Page 94: Lever Ratio ( )
5.2 Basic Settings ( 5.2.10 Lever Ratio ( When using a lever for measurement, you can output the measured value multiplied by the lever ratio as the judgment value (JUDGE.V). ■ Setting method Setting item Setting range Default value Lever ratio (LEVER) 0.1 to 100.0 (times) 5-22 WUME-HGS-11...
Page 95: Response Time
5.2 Basic Settings ( ● If the lever ratio is set to a value outside the range, " " will appear in the digital display / MAIN (white). You will then return to the lever ratio setting screen. Set a valid value for the lever ratio. 5.2.11 Response Time ( You can set the time until the judgment value (JUDGE.V) is finalized (response time) when the sensor head starts measurement.
Page 96: Output Operation
5.2 Basic Settings ( ■ Setting method Setting item Set values Default value 3 ms (3) 5 ms (5) 10 ms (10) Response time (SPEED) 100 ms (100) 500 ms (500) 1,000 ms (1000) 5.2.12 Output Operation ( You can select the judgment output operation. Output operation Function Normal Open (N.O.)
Page 97 5.2 Basic Settings ( Example of output operation setting (GO output) ■ Setting method Setting item Set values Default value Normal Open (N.O.) Output operation (N.O. / N.C.) N.O. Normal Closed (N.C.) WUME-HGS-11 5-25...
Page 98: Advanced Settings ( )
5.3 Advanced Settings ( 5.3 Advanced Settings ( Structure of advanced settings menu 5.3.1 Hold Setting ( Set the hold method for the judgment value (JUDGE.V). To output the regular measured value in real-time, set the measurement mode to sample hold “S-H”, and leave the external input OFF.
Page 99 5.3 Advanced Settings ( Measurement mode External Function Section (MEAS) trigger input Perform hold output of judgment value (JUDGE.V) only when external input is Sample hold (S-H) Valid "Sample Hold" When external input is OFF, update judgment value (JUDGE.V) whenever necessary and output.
Page 100 5.3 Advanced Settings ( For input signal combinations, see "5.3.3 External Input ( )". ■ Sample Hold (Trigger mode: Hold) Hold while external trigger input is ON. Timing chart 1. The judgment value (JUDGE.V) is held while the external trigger input is ON. 2.
Page 101 5.3 Advanced Settings ( Timing chart 1. When the power is turned ON, the indeterminate state is held until the external trigger input turns ON. 2. When the external trigger input turns ON (rising edge), the judgment value (JUDGE.V) is held.
Page 102 5.3 Advanced Settings ( ■ Setting method Peak Hold, Bottom Hold, Peak to Peak Hold, Peak to Peak Hold / 2 When the external trigger turns ON, the data of any sampling interval is held as the judgment value (JUDGE.V). The hold action can be changed with the trigger mode setting.
Page 103 5.3 Advanced Settings ( Timing chart 1. The judgment value (JUDGE.V) is held while the external trigger input is ON. 2. If the reset input turns ON while the external trigger input is OFF, an indeterminate state occurs during the response time. 3.
Page 104 5.3 Advanced Settings ( Timing chart 1. The judgment value (JUDGE.V) is held while the external trigger input is ON. 2. The minimum normal measured value (NORM.V) is updated and bottom hold is performed with this value. 3. If the reset input turns ON while the external trigger input is OFF, an indeterminate state occurs during the response time.
Page 105 5.3 Advanced Settings ( Timing chart 1. Based on the peak to peak setting (peak value to bottom value), the judgment value (JUDGE.V) is gradually updated from 0. 2. The judgment value (JUDGE.V) is held while the external trigger input is ON. 3.
Page 106 5.3 Advanced Settings ( Timing chart 1. Based on the peak to peak / 2 setting (peak value to bottom value), the judgment value (JUDGE.V) is gradually updated from 0. 2. The judgment value (JUDGE.V) is held while the external trigger input is ON. 3.
Page 107 5.3 Advanced Settings ( Timing chart 1. When the power is turned ON, the indeterminate state is held until the external trigger input turns ON. 2. When the external trigger input turns ON (rising edge), the minimum normal measured value (NORM.V) that occurs during the sampling interval is held as the judgment value (JUDGE.V).
Page 108 5.3 Advanced Settings ( Timing chart 1. When the power is turned ON, the indeterminate state is held until the external trigger input turns ON. 2. When the external trigger input turns ON (rising edge), the minimum normal measured value (NORM.V) that occurs during the sampling interval is held as the judgment value (JUDGE.V).
Page 109 5.3 Advanced Settings ( Timing chart 1. When the power is turned ON, the indeterminate state is held until the external trigger input turns ON. 2. When the external trigger input turns ON (rising edge), the difference between the minimum value (B1)and maximum value (P1)of normal measured values (NORM.V) that occur during the sampling interval is held as the judgment value (JUDGE.V).
Page 110 5.3 Advanced Settings ( Timing chart 1. When the power is turned ON, the indeterminate state is held until the external trigger input turns ON. 2. When the external trigger input turns ON (rising edge), half the difference between the minimum value (B1)and maximum value (P1)of normal measured values (NORM.V) that occur during the sampling interval is held as the judgment value (JUDGE.V).
Page 111 5.3 Advanced Settings ( Setting item Set values Default value Hold (HOLD) Trigger mode (TRG) HOLD One-shot (1SHOT) ■ Setting method NG hold If a HIGH judgment or LOW judgment occurs during the interval specified by the external trigger (TRIG input OFF interval), the judgment output is held. The judgment value (JUDGE.V) is not held.
Page 112 5.3 Advanced Settings ( Timing chart 1. The judgment output is held when the external trigger is OFF, but the judgment value (JUDGE.V) is not held. The judgment output hold state is released by reset input. While the external trigger is ON, the judgment value (JUDGE.V) and judgment output are held. 2.
Page 113 5.3 Advanced Settings ( Setting item Set values Default value Self sample hold (SLF.S-H) Self peak hold (SLF.P-H) Self bottom hold (SLF.B-H) ■ Setting method Self Sample Hold (Delay Timer) The normal measured value (NORM.V) can be held automatically as the judgment value (JUDGE.V) when the delay time elapses after the specified self trigger level is exceeded.
Page 114 5.3 Advanced Settings ( Timing chart 1. The previous value is held until the delay time elapses. (When the power is turned ON, the indeterminate state is held.) 2. After the delay time elapses, the normal measured value (NORM.V) is held as the judgment value (JUDGE.V) until the next self trigger action.
Page 115 5.3 Advanced Settings ( ● When self sample hold is selected, external trigger input is invalid. ● When a sensor head not connected error or pressure alarm / error is cleared, the same action as a reset takes place. ■ Setting items Self trigger level (SLF.LV) You can set the delay timer start level.
Page 116 5.3 Advanced Settings ( ■ Setting method 5-44 WUME-HGS-11...
Page 117 5.3 Advanced Settings ( Self Sample Hold (Static Width) The normal measured value (NORM.V) can be held automatically as the judgment value (JUDGE.V) when the measured value becomes less than the specified static width (within the fluctuation stabilization interval) after the specified self trigger level is exceeded. Timing chart 1.
Page 118 5.3 Advanced Settings ( 5. If the reset input turns ON, the indeterminate state is held. If within the sampling interval, the sampling interval ends. 6. Judgment output outputs the judgment result based on the output setting. * When the calculation function is used, calculation value “CALC” is shown instead of normal measured value (NORM.V).
Page 119 5.3 Advanced Settings ( ■ Setting method Self Peak Hold / Self Bottom Hold At the end of self trigger start, the data of the sampling interval is automatically held as the judgment value (JUDGE. V). WUME-HGS-11 5-47...
Page 120 5.3 Advanced Settings ( The hold action can be changed with the trigger mode setting. ■ Self Peak Hold (Trigger mode: Hold) After the end of self trigger, the peak value during the sampling interval (the interval from the end to the start of self trigger) is held as the judgment value (JUDGE.V). The hold state is released at the start of self trigger.
Page 121 5.3 Advanced Settings ( ■ Self Peak Hold (Trigger mode: One-shot) After the end of self trigger, the peak value during the sampling interval (the interval from the end to the start of self trigger) is held as the judgment value (JUDGE.V). When self trigger starts, the next sampling interval starts.
Page 122 5.3 Advanced Settings ( ■ Setting items Trigger mode (TRG) The hold action during the sampling interval can be set. ● When “HOLD” is selected, the peak value is updated whenever necessary during the sampling interval. ● When “1SHOT” is selected, the peak value is held during the sampling interval as well. Setting item Set values / setting range Default value...
Page 123: Input All ( ) (Master Unit Only)
5.3 Advanced Settings ( ■ Setting method 5.3.2 Input All ( ) (Master Unit Only) You can enable ALL IN on the master unit to input trigger input, preset input, and other signals into all connected slave units. WUME-HGS-11 5-51...
Page 124 5.3 Advanced Settings ( Input All Function Perform master and slave unit external input individually. Single (ONE) External signals are input into each slave unit according to the external input setting. When a signal is input into the master unit, the same signal is input into all connected slave units.
Page 125: External Input
5.3 Advanced Settings ( ■ Setting method Setting item Set values Default value Single (ONE) Input all (ALL IN) All (ALL) 5.3.3 External Input ( You can select from four combinations for the signals that are input into input 1 / input 2 / input 3 of external input.
Page 126 5.3 Advanced Settings ( Preset input Reset input Trigger input Bank A / B input *1: Minimum of 50 ms when bank save is set to "ALL". *2: If more than 8 ms elapses, data may be read from bank 1 and then bank 2. ●...
Page 127: External Output
5.3 Advanced Settings ( ■ Setting method Setting item Set values Default value Preset / Reset / Trigger (P/R/T) Bank A / Bank B / Preset (BANK/P) External input (EXT.IN) P/R/T Bank A / Bank B / Reset (BANK/R) Bank A / Bank B / Trigger (BANK/T) 5.3.4 External Output ( You can select from four combinations for the signals that are output into output 1 / output 2 / output 3 of external output.
Page 128 5.3 Advanced Settings ( Output operation External output OUT1 OUT2 OUT3 3-value HIGH 2-value Outside upper / Alarm lower limit Logic Judgme Judgme Alarm nt 1 nt 2 Alarm ALL GO Logic 2 (One of (Conne connect cted (Master controll unit) controll ers)
Page 129 5.3 Advanced Settings ( External Output 1 indicator Output 2 indicator Output 3 indicator Output operation output (Orange) (Orange) (Orange) Judgment 1 Lights up Turns OFF Turns OFF Judgment 2 Turns OFF Lights up Turns OFF Logic Lights up → Turns Alarm Turns OFF Turns OFF...
Page 130: Number Of Digits Displayed ( )
5.3 Advanced Settings ( Setting item Set values Default value Logic 2 (LOGIC2) 5.3.5 Number of Digits Displayed ( You can change the number of digits that appear after the decimal point of the digital display. 4 digits after decimal point 3 digits after decimal point 2 digits after decimal point 1 digit after decimal point...
Page 131: Analog Scaling
5.3 Advanced Settings ( ■ Setting method Setting item Set values Default value 4 digits (0.0001) 3 digits (0.001) Number of digits displayed (DIGIT) 0.0001 2 digits (0.01) 1 digit (0.1) ■ Reference: ● Changes to the number of digits displayed setting apply only to the display of normal measured values (NORM.V), LOW set value, HIGH set value, sensor head measured values, calculated values, and judgment values (JUDGE.V).
Page 132 5.3 Advanced Settings ( Analog scaling Function For the setting procedure, refer to "5.3.7 Scaling Upper Limit Value / Scaling Lower Limit Value ( )". ■ When default (DEFALT) is set The upper limit value varies by sensor head. The lower limit value is "0.0000", regardless of the sensor head. Analog output specifications Current output range 4 to 20 mA...
Page 133: Scaling Upper Limit Value / Scaling Lower Limit Value
5.3 Advanced Settings ( ■ Setting method Setting item Set values Default value Default (DEFALT) Analog scaling (ANALOG) DEFALT Free (FREE) 5.3.7 Scaling Upper Limit Value / Scaling Lower Limit Value ( When analog scaling is set to “FREE”, you can set the upper limit value and lower limit value of scaling.
Page 134 5.3 Advanced Settings ( When scaling lower limit value > scaling upper limit value When scaling lower limit value = scaling upper limit value 5-62 WUME-HGS-11...
Page 135 5.3 Advanced Settings ( ■ Setting method Scaling upper limit value setting Setting item Setting range Default value Scaling upper limit value (ANA.HI) -199.9999 to 199.9999 (mm) 10.0000 WUME-HGS-11 5-63...
Page 136: Eco Mode ( )
5.3 Advanced Settings ( Scaling lower limit value setting Setting item Setting range Default value Scaling lower limit value (ANA.LO) -199.9999 to 199.9999 (mm) 0.0000 5.3.8 Eco Mode ( You can save power by having the backlight of the controller display turn OFF when idle. When Eco mode is set to ON, the display backlight turns off 30 seconds after the last key operation is performed.
Page 137: Alarm Setting
5.3 Advanced Settings ( ■ Setting method Setting item Set values Default value Eco OFF (OFF) Eco mode (ECO) Eco ON (ON) 5.3.9 Alarm Setting ( You can set whether or not alarms are detected and the conditions for alarm detection. ■...
Page 138 5.3 Advanced Settings ( ■ Pressure Check / Pressure Check Set Value / Alarm Delay Count If the spindle is pressed in too far, sensor head damage may result. By turning ON pressure check, an alarm is output to help prevent sensor head damage. When the sensor head value exceeds the pressure check set check value, an alarm is output after sampling cycle (1 ms) ×...
Page 139 5.3 Advanced Settings ( ■ Setting method Alarm delay count Setting item Setting range Default value Alarm delay count (DELAY) 1 to 1000 1000 WUME-HGS-11 5-67...
Page 140 5.3 Advanced Settings ( Pressure check Setting item Set values Default value Regular type: ON Check ON (ON) Pressure check (PRS.CHK) Air-driven type: Check OFF (OFF) ● When the controller is started by turning on the power, or the sensor head is reconnected, the pressure check default value is reset.
Page 141 5.3 Advanced Settings ( Pressure check set value Setting item Setting range Default value 10 mm type: 10.0000 32 mm type: 32.0000 Pressure check set value (PRS.SET) -199.9999 to 199.9999 (mm) 50 mm type: 50.0000 Air-driven type: 10.0000 ● If the setting is changed from the default value when the connected sensor head type is changed, the original set value will be held.
Page 142 5.3 Advanced Settings ( The information checked varies depending on whether the type is regular or air-driven. Regular type While the trigger input is ON, the function checks whether or not the spindle extends out fully [whether the normal measured value (NORM.V) is lower than the set LOW set value]. If the measured value never drops below the LOW set value while the trigger input is ON, an alarm occurs.
Page 143 5.3 Advanced Settings ( ● This function can only be used when the measurement mode is set to a mode that has external trigger input enabled in "5.3.1 Hold Setting ( )". WUME-HGS-11 5-71...
Page 144 5.3 Advanced Settings ( ■ Setting method Setting item Set values Default value Check OFF (OFF) Catch check (CAT.CHK) Check ON (ON) ● If the sensor head is reconnected with the value set to ON, the ON state will be maintained, regardless of the sensor head type (regular or air-driven).
Page 145 5.3 Advanced Settings ( ■ Setting method Number of connected controllers check Setting item Set values Default value Check OFF (OFF) Number of connected controllers check (CON.CHK) Check ON (ON) ● The number of connected controllers check can only be turned ON at the master unit. WUME-HGS-11 5-73...
Page 146: Calculation Settings ( ) (Master Unit Only)
5.4 Calculation Settings ( ) (Master Unit Only) 5.4 Calculation Settings ( ) (Master Unit Only) Structure of calculation settings menu You can perform calculation processing based on the measured values of each of the connected controllers, and display the judgment result on the master unit's display or output the judgment result from the master unit.
Page 147: Calculation Application Selection
5.4 Calculation Settings ( ) (Master Unit Only) ■ Setting method Setting item Set values Default value No calculation (NO.CALC) Calculation mode (MODE) NO.CALC Calculate (CALC) 5.4.2 Calculation Application Selection( When calculation mode is set to "CALC", the calculation application selection setting can be configured.
Page 148 5.4 Calculation Settings ( ) (Master Unit Only) Number of Application Function slave units The measured value of the master unit is subtracted from the measured value of the slave unit. The result is output from the slave unit. [Calculated value] = [Slave unit n] - [Master unit] Measures four locations and calculates the amount of torsion.
Page 149 5.4 Calculation Settings ( ) (Master Unit Only) Setting item Set values Default value Maximum value (MAX) Minimum value (MIN) Flatness (FLAT) Average value (AVERAG) Application (APPLI) Standard difference (STAND) Torsion (TORSIN) Curvature (CURVEA) Thickness (THICK) ■ Maximum Value ( This application determines the largest measured value of the master unit and slave units.
Page 150 5.4 Calculation Settings ( ) (Master Unit Only) ● None of the connected slave units output the judgment result. (Always OFF) ● All sensor head indicators show the calculation result of the master unit. ● The response time for judgment output is the response time setting on the master unit and slave units plus 3 ms.
Page 151 5.4 Calculation Settings ( ) (Master Unit Only) ● None of the connected slave units output the judgment result. (Always OFF) ● All sensor head indicators show the calculation result of the master unit. ● The response time for judgment output is the response time setting on the master unit and slave units plus 3 ms.
Page 152 5.4 Calculation Settings ( ) (Master Unit Only) ● The three slave units closest to the master unit do not output a judgment result. (Always OFF) If four or more slave units are connected, the 4th and subsequent slave units perform normal judgment without calculation.
Page 153 5.4 Calculation Settings ( ) (Master Unit Only) ● This application can only be selected when at least two slave units are connected. ■ Thickness ( This function calculates thickness by pressing on both sides of the measured object with two sensor heads.
Page 154: Copy Settings ( )
5.5 Copy Settings ( 5.5 Copy Settings ( Structure of copy settings menu The settings on the master unit can be copied to slave units connected to the master unit. You can select individual settings to be copied from the master unit to the slave units. You can also copy all settings at once.
Page 155: Copy Select Individual ( ) (Master Unit Only)
5.5 Copy Settings ( ● Only current settings can be copied. Settings stored in a bank are not copied. 5.5.1 Copy Select Individual ( ) (Master Unit Only) You can copy selected individual settings from the master unit to the slave unit. Settings copied Settings Item...
Page 156 5.5 Copy Settings ( Indication of settings to be copied Settings selected for copying are indicated by a checkmark in the basic settings (BASIC) screen and advanced settings (ADVANC) screen. ● By executing select all, you can copy all settings at once. ●...
Page 157: Copy Select All ( ) (Master Unit Only)
5.5 Copy Settings ( Setting item Set values Default value Preset data selection (PR.OBJ): YES / NO Preset save (PR.SAVE): YES / NO Measurement direction (DIRECT): YES / NO Lever ratio (LEVER): YES / NO Response time (SPEED): YES / NO Output operation (OUTPUT): YES / NO Hold setting (HOLD): YES / NO External input (EXT.IN): YES / NO...
Page 158: Copy Execution ( ) (Master Unit Only)
5.5 Copy Settings ( Setting item Set values Default value Copy all (YES) Copy select all (CHK.ALL) Do not copy all (NO) 5.5.3 Copy Execution ( ) (Master Unit Only) You can execute copying of individually selected settings or all settings from the master unit to the slave units.
Page 159: (Slave Units Only)
5.5 Copy Settings ( 5.5.4 Copy Lock ( ) (Slave Units Only) Copy lock can only be set on slave units. By setting copy lock on a slave unit, you can prohibit copying from the master unit. ■ Setting method Setting item Set values Default value...
Page 160: Bank Settings ( )
5.6 Bank Settings ( 5.6 Bank Settings ( Structure of bank settings menu 5.6.1 Bank Save Setting ( You can select the settings in a bank that are saved or loaded with the bank save setting. Bank save Function HIGH set value, LOW set value (THRS) Select the HIGH set value and LOW set value.
Page 161 5.6 Bank Settings ( ■ Setting method Setting item Set values Default value HIGH set value, LOW set value (THRS) Bank save setting HIGH set value, LOW set value, preset value THRS (BNK.DAT) (THRS.PR) All (ALL) WUME-HGS-11 5-89...
Page 162: Calibration Settings
5.7 Calibration Settings ( 5.7 Calibration Settings ( Structure of calibration setting menu 5.7.1 Calibration Selection ( You can perform zero-point adjustment and span adjustment when a sensor head is replaced to reduce installation error. Calibration settings Set values Function Default (DEFAUL) Set to the factory default state.
Page 163 5.7 Calibration Settings ( ● In the following cases, calibration cannot be executed. "ERROR" appears in the digital display / MAIN (white). • No magnitude correlation between the target value and detected value (the signs of the target value and detected value do not match). •...
Page 164 5.7 Calibration Settings ( 3. Enter the target value by using the LEFT / RIGHT key ( / ) to move through digits and the UP / DOWN key ( / ) to change values. Setting item Set values Default value Adjustment value 2 User settings (USER) -199.9999 to 199.9999 (mm)
Page 165: Initialization ( )
5.8 Initialization ( 5.8 Initialization ( Structure of initialization menu You can return all controller settings to the factory default state. For the default value of each setting, refer to "5.1.3 Setting Items and Default Values". ● Executing initialization does not initialize settings stored in a bank. ●...
Page 166 5.8 Initialization ( ■ Setting method Setting item Set values Default value Execute (YES) Initialization (RESET) Do not execute (NO) 5-94 WUME-HGS-11...
Page 167: Maintenance
5.9 Maintenance ( 5.9 Maintenance ( Structure of maintenance menu You can display the sensor head operation log and other information. Maintenance Function Shows the cumulative distance the spindle has moved. Total stroke operation log (SUM.REC) Display units are 1 m. Maximum peak value (MAX.VAL) Shows the maximum value during operation.
Page 168 5.9 Maintenance ( Setting item Set values Default value Total stroke operation log (SUM.REC) Maximum peak value (MAX.VAL) Maintenance (MAINTE) ― Maximum peak value operation log (MAX.REC) Over stroke log (OVR.NUM) 5-96 WUME-HGS-11...
Page 169: Specifications
6 SPECIFICATIONS 6.1 SPECIFICATIONS ................6-2 6.2 Dimensions ..................6-10 6.2.1 Controller ..................6-10 6.2.2 Contact-Type Digital Displacement Sensor ........6-12 WUME-HGS-11...
Page 170: Specifications
6.1 SPECIFICATIONS 6.1 SPECIFICATIONS Controller Measured at a supply voltage of +24 V DC and an ambient temperature of +20 °C, unless otherwise indicated. Master unit Slave unit Type High-performance type Standard type Wire-saving type HG-SC101 HG-SC111 HG-SC112 output Model HG-SC113 HG-SC101-P HG-SC111-P...
Page 171 6.1 SPECIFICATIONS Master unit Slave unit Type High-performance type Standard type Wire-saving type HG-SC101 HG-SC111 HG-SC112 output Model HG-SC113 HG-SC101-P HG-SC111-P HG-SC112-P output PNP output type Non-contact input or PNP open-collector transistor ● Input condition: Invalid (0 to +0.6 V DC or open) Valid (+4 V to +V DC) ●...
Page 172 6.1 SPECIFICATIONS Master unit Slave unit Type High-performance type Standard type Wire-saving type HG-SC101 HG-SC111 HG-SC112 output Model HG-SC113 HG-SC101-P HG-SC111-P HG-SC112-P output Shock resistance 98 m/s (approx. 10 G) in X, Y and Z directions 5 times each Material Case: Polycarbonate, Cover: Polycarbonate, Switches: Polyacetal 0.2 mm conductor (brown...
Page 173 6.1 SPECIFICATIONS 10 mm type 32 mm type 50 mm type General purpose High precision General purpose Type Standard measuring Standard measuring Standard force force (Note Model No. HG-S1010 HG-S1010R HG-S1110 HG-S1110R HG-S1032 S1050 1.65 N or 0.35 N or 1.65 N or 0.35 N or 2.97 N or...
Page 174 6.1 SPECIFICATIONS 10 mm type 32 mm type 50 mm type General purpose High precision General purpose Type Standard measuring Standard measuring Standard force force (Note Model No. HG-S1010 HG-S1010R HG-S1110 HG-S1110R HG-S1032 S1050 (Reference (reference value) value) Tip deviation amount 35 µm (typical) 40 µm (typical) Grounding method...
Page 175 Standards EMC Directive/EMC Regulations (Note 1) Connect an HG-S series controller (manufactured in or after February 2019). (Note 2) The position that represents "0" as an absolute value is a position where the spindle is pushed further down from the bottom dead point by 0.1 mm or more. The term "stroke" indicates the total stroke length from the bottom dead point to the top dead point.
Page 176 6.1 SPECIFICATIONS (Note 3) Measuring force changes with the air pressure used. Removing the seal cap enables the product to be used as the low measuring force type. For details on how to remove the seal cap, refer to "7.4.1 How to Remove the Seal Cap".
Page 177 6.1 SPECIFICATIONS (Note 5) Protective structure is not applicable when the sealing portions have deteriorated or become damaged. The protection level is zero when the seal cap is removed. (Note 6) Do not use or store in an environment that has been pressurized to an air pressure higher than the atmospheric pressure at 0 m.
Page 178: Dimensions
6.2 Dimensions 6.2 Dimensions 6.2.1 Controller Master Unit / High-performance Type HG-SC101, HG-SC101-P Unit: mm Slave Unit / High-performance Type, Standard Type HG-SC111, HG-SC111-P (High-performance type) HG-SC112, HG-SC112-P (Standard type) Unit: mm 6-10 WUME-HGS-11...
Page 179 6.2 Dimensions Slave Unit / Wire-saving Type HG-SC113 Unit: mm WUME-HGS-11 6-11...
Page 180: Contact-Type Digital Displacement Sensor
6.2 Dimensions 6.2.2 Contact-Type Digital Displacement Sensor General Purpose 10 mm Type/Standard, Low Measuring Force High- performance 10 mm type/Standard, Low Measuring Force HG-S1010 (General purpose 10 mm type / standard) HG-S1010R (General purpose 10 mm type / low measuring force) HG-S1110 (High-performance 10 mm type / standard) HG-S1110R (High-performance 10 mm type / low measuring force) Unit: mm...
Page 181 6.2 Dimensions General Purpose 50 mm Type / Standard HG-S1050 Unit: mm WUME-HGS-11 6-13...
Page 182 6.2 Dimensions General purpose/Air-driven Type High accuracy/Air-driven Type HG-S1010-AC (General purpose/air-driven type) HG-S1110-AC (High accuracy/air-driven type) Unit: mm 6-14 WUME-HGS-11...
Page 183 6.2 Dimensions When air is No seal cap supplied Seal cap <When CN-HS-C Air tube clamp is installed and air tube is attached> WUME-HGS-11 6-15...
Page 184 (MEMO) 6-16 WUME-HGS-11...
Page 185: Appendix
7 APPENDIX 7.1 Maintenance and Inspection ...............7-2 7.1.1 Maintenance Cautions ..............7-2 7.1.2 Main Inspection Items ..............7-2 7.2 Replacing the Probe ................7-3 7.3 Replacing the Rubber Bellows (Regular Type Only) ......7-4 7.4 Replacing the Seal Cap (Air-Driven Type Only)........7-6 7.4.1 How to Remove the Seal Cap............
Page 186: Maintenance And Inspection
7.1 Maintenance and Inspection 7.1 Maintenance and Inspection 7.1.1 Maintenance Cautions ● Always turn OFF the power before cleaning the controller. ● Never use thinner, benzene, or other organic solvents to clean the controller. ● Use a clean, soft cloth to wipe off any dirt that adheres to the controller. 7.1.2 Main Inspection Items Inspect the controller regularly to maintain performance and enable optimum use.
Page 187: Replacing The Probe
7.2 Replacing the Probe 7.2 Replacing the Probe ● Always secure the spindle to prevent rotation before replacing the probe. Risk of product damage if an excessive torque (0.2 N⋅m or more) is applied to the spindle. ● If the rubber bellows is damaged or deformed during probe replacement, the specifications of the protective structure may not be satisfied.
Page 188: Replacing The Rubber Bellows (Regular Type Only)
7.3 Replacing the Rubber Bellows (Regular Type Only) 7.3 Replacing the Rubber Bellows (Regular Type Only) ● When replacing the rubber bellows, take care that no dirt or other contaminants get on the spindle. If any dirt gets on the spindle, wipe clean with absolute alcohol. Do not allow the rubber bellows to become twisted during attachment.
Page 189 7.3 Replacing the Rubber Bellows (Regular Type Only) Push the rubber bellows up with your finger until the tip of the spindle is exposed as shown below. Attach the probe to the spindle. The tightening torque should be 0.4 N⋅m or less. Make sure that the probe does not come OFF.
Page 190: Replacing The Seal Cap (Air-Driven Type Only)
7.4 Replacing the Seal Cap (Air-Driven Type Only) 7.4 Replacing the Seal Cap (Air-Driven Type Only) Replace the seal cap at appropriate intervals according to the deterioration status of the sealing material. Replace the seal cap when the number of sliding operations reaches approximately five million. ●...
Page 191 7.4 Replacing the Seal Cap (Air-Driven Type Only) WUME-HGS-11...
Page 192: Error Messages
7.5 Error Messages 7.5 Error Messages If an error occurs during configuration of settings or measurement, one of the error numbers below will appear. Error number Cause Solution Both NPN output types and PNP E100 Connect only units of the same output type. output types are connected.
Page 193 7.5 Error Messages ● If the product still does not operate normally after you check the above, consult our technical support center. WUME-HGS-11...
Page 194: Troubleshooting
Check the measurement range of the sensor head you are measurement range. using. When you use the HG-S Series for the first time, or after Zero setting has not been performed. replacing the sensor head, perform zero-point adjustment. If you are using connected controllers, check the calculation The calculation mode is not set correctly.
Page 195 Revision History Revision Revision Revision item History date 1st edition October 2015 - November 2nd edition 2015 November 3rd edition 2015 4th edition May 2016 November 5th edition 2016 6th edition January 2017 - 7th edition March 2019 December 8th edition 2019 October 2020 - 9th edition...
Page 196 (MEMO) WUME-HGS-11...
Page 197 (MEMO) WUME-HGS-11...
Page 198 Panasonic Industrial Devices SUNX Co., Ltd. https://panasonic.net/id/pidsx/global Please visit our website for inquiries and about our sales network. Panasonic Industrial Devices SUNX Co., Ltd. 2023 Unauthorized reproduction of this manual is strictly prohibited. The contents of this manual are current as of June 2023.

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