Omron ZS-MDC user manual Select TASK1 Application Setting Examples, Set the expression of TASK1

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Section 4

Measuring the Warp of a Workpiece

Press MENU key - ESC key.

2. Select [TASK1].

Section 4 APPLICATION SETTING EXAMPLES

▲[SENSING]-[CALC]-[CALC]-[K+mX+nY]

3. Set the expression of TASK1.

INPUT K:0

INPUT m:1

INPUT n:1

INPUT X: INPUT A

INPUT Y: INPUT C

4. Following the same procedure as 2 to 3, set up TASK2.

INPUT K:0

INPUT m:1

INPUT n:-0.5

INPUT X: INPUT B

INPUT Y:TASK1

1 TASK12 TASK2

3 TASK34 TASK4

 

1

INPUT A

2

INPUT B

 

 

 

 

 

3

INPUT C

 

 

 

 

 

 

 

Input A

Input B

Input C

Input A

Input B

Input C

4-18

ZS-MDC

User’s Manual

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Contents Smart Sensor How to Switch the Display Language to English IntroductionEction Smart Sensors Multi-Controller ZS-MDCRead and Understand this Document Suitability for USE Dimensions and Weights Others Installation EnvironmentPower Supply and Wiring Precautions for Correct Use Installation SiteWarming Up Orientation when Installing the Multi-ControllerMaintenance and Inspection Editors Note FormatMeaning of Symbols Visual AidsMemo Contents Introduction Contents Features Wide Range of Logic Operation Functions Multi-Controller FeaturesSupports Connection to Up to 9 Sensor Controllers Completely Digitally Based Logic Operation ProcessingDedicated Software SmartMonitor Zero Same Compact Size as Sensor ControllerUSB Connection Measurement of Stepped Workpieces Multi-Controller ApplicationsMeasurement of Workpiece Thickness at Multiple Locations Measurement of Average Workpiece HeightBatch-acquisition of Multi-point Measurement Data Measurement of Workpiece FlatnessMeasurement of Workpiece Strain Gang-mounted Sensor Controllers can be set up State of gang-mounted Sensor Controllers can be monitoredBasic Configuration ZS-MDC11/MDC41Part Names and Functions LOW indicator Mode SwitchThreshold Selector Switch Pass indicatorMemo Installation & Connection Installation & ConnectionChecking the installation site About Installation and ConnectionChecking the installation environment About the power supplyMulti-Controller Attaching the ferrite coreCH0 CH1 CH2 CH3 CH9 Installing the Multi-ControllerAbout channel No. when controllers are gang-mounted PFP-M Installing on the DIN trackInstallation procedure Install the cover on the coupler of the controller Open the connector cover on the con- trollerRemoval procedure Installation & Connection Installation Mounting on a panelAttached onto the panel from the front Install the Multi-Controller and SensorController with Panel Mount Adapters Hook the hooks of the mounting fixtureWiring the I/O cable About the I/O cableLinear output OUT3 Enable outputOUT4 Busy output Linear GNDCircuit Diagrams NPN type ZS-MDC11 Installation & ConnectionPNP type ZS-MDC41 Memo Setup Setting Flow Installation and ConnectionWhen a Problem Occurs Basic Knowledge for Operation About SetupSwitching Modes FUN Mode Displays and Key OperationsPress function key 2 representing on Press the Menu key to return to the top menuVoltage Current RUN ModeThresh ResoluTeach Mode Teaching DirectWhen TASK1 is selected List of Setting ItemsFUN Mode COM Mode TimerAdjust SET NO-MEASWhen other than TASK1 is selected Bank SystemRUN Mode Teach ModeSelecting Tasks Setting Assignments Setting Logic Operation Methods Setting I/O Assignments Switching banks by external signal inputAbout Digital Output Changing Output AssignmentsChanging Linear Output Assignments TASK3 TASK4Memo Application Setting Examples Application Setting ExamplesApplication Setting ExamplesSelect TASK1 Set the expression of TASK1SENSING-CALC-CALC-MAX-MIN Measuring the Relative Difference between Steps ApplicationFollowing the same procedure as 2 to 3, set Up TASK3 Set the expression of TASK1To linear-output the operation result I/O SET-I/O SET-ANALOG Measuring the Reference Difference between Steps Details to be output Following the same procedure as 2 to 3, set Up TASK2Select TASK1 or TASK2 depending on Measuring Flatness CH0 CH1 CH2 CH3 CH9TASK12 TASK2 TASK34 TASK4 Input a Input B Input C Measuring the Average Height Average to ON, and other inputs to OFF Select TASK1 so that the average value can be linear-outputMeasuring the Twist of a Workpiece CH0 CH1 CH2 CH3 CH4Input X Input D Input Y Input C Select TASK3 so that the judgment on the twist can be output Select TASK3 so that the twist value can be linear-outputMeasuring the Warp of a Workpiece CH0 CH1 CH2 CH3Select TASK1 Application Setting Examples Select TASK2 so that the judgment on the warp can be output Select TASK2 so that the warp value can be linear-outputMemo Appendix Troubleshooting When all digits on the main display and sub-display blink Error Messages and CountermeasuresWhen Error Is Displayed on the Main Display OthersOr more of the rated measuring range Glossary Specifications and External Dimensions Multi-ControllerZS-MDC11 ZS-MDC41 PASS/LOWShock resistance destructive Panel Mount Adapters ZS-XPM1/XPM2RS-232C Cable for Connecting to a Personal Computer ZS-XRS2Controller Link Unit ZS-XCNVer1.50 to Ver2.00 Version Up InformationVer1.00 to Ver1.50 Index Section IndexUSB Memo Revision History Z209-E1-01Terms and Conditions of Sale Omron Electronics LLC

ZS-MDC specifications

The Omron ZS-MDC is a sophisticated multi-functional device designed to enhance the efficiency and reliability of industrial automation systems. Equipped with a variety of features, this device caters to various applications including packaging, assembly, and material handling. Its versatility and advanced technology make it an ideal choice for industries seeking to optimize their operations.

One of the main features of the Omron ZS-MDC is its comprehensive sensor integration capability. The device can accommodate multiple sensors and actuators, allowing for flexible configurations tailored to specific applications. This modularity ensures that manufacturers can adapt the device to meet their unique requirements while maintaining high performance.

Another significant feature is the built-in communication interfaces. The ZS-MDC supports various communication protocols like EtherCAT, PROFINET, and Ethernet/IP, which makes it highly compatible with existing automation systems. This ability to seamlessly connect enhances overall system performance and facilitates real-time data exchange, allowing for improved monitoring, control, and diagnostics.

The device is also characterized by its robust design, built to withstand challenging industrial environments. With an IP67 rating, the ZS-MDC is resistant to dust and water, making it suitable for harsh conditions where exposure to contaminants is a concern. Additionally, its durable construction ensures longevity and reduces the need for frequent maintenance, translating to cost savings for manufacturers.

Technologically, the Omron ZS-MDC incorporates advanced processing capabilities enabling it to handle complex tasks with ease. It features high-speed processing and data handling, reducing response times in critical applications. This performance is further enhanced by the integration of intelligent algorithms that enable predictive maintenance and failure detection, ultimately leading to minimized downtime.

User-friendliness is another key characteristic of the ZS-MDC. The device is designed with an intuitive user interface that simplifies configuration and monitoring, thereby reducing the time and expertise required for setup. Moreover, it supports remote access functionality, allowing operators to manage and troubleshoot the device from anywhere, which boosts overall operational efficiency.

In summary, the Omron ZS-MDC stands out with its versatile sensor integration, robust communication capabilities, durable design, advanced processing, and user-friendly interface. These features make it a valuable asset in the realm of industrial automation, helping businesses drive productivity and enhance operational reliability.