Omron user manual Appendices Data Capacity Tables V400-H111/211

Page 90

 

 

 

 

 

 

Appendices

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Symbol size

Error correction level

 

Data capacity

 

 

 

 

 

Alphanumerics

8-bit bytes

 

Japanese

 

 

(version)

(ECC level)

Numerals

 

 

 

(uppercase)

Byte

 

characters

 

 

 

 

 

 

 

 

 

L ( 7%)

370

224

154

 

95

 

 

 

 

 

 

 

 

 

 

 

45 45

M (15%)

293

178

122

 

75

 

 

(Version 7)

Q (25%)

207

125

86

 

53

 

 

 

 

 

 

 

 

 

 

 

 

H (30%)

154

93

64

 

39

 

 

 

 

 

 

 

 

 

 

 

 

L ( 7%)

461

279

192

 

118

 

 

 

 

 

 

 

 

 

 

 

49 49

M (15%)

365

221

152

 

93

 

 

(Version 8)

Q (25%)

259

157

108

 

66

 

 

 

 

 

 

 

 

 

 

 

 

H (30%)

202

122

84

 

52

 

 

 

 

 

 

 

 

 

 

 

 

L ( 7%)

552

335

230

 

141

 

 

 

 

 

 

 

 

 

 

 

53 53

M (15%)

432

262

180

 

111

 

 

(Version 9)

Q (25%)

312

189

130

 

80

 

 

 

 

 

 

 

 

 

 

 

 

H (30%)

235

143

98

 

60

 

 

 

 

 

 

 

 

 

 

 

 

L ( 7%)

652

395

271

 

167

 

 

 

 

 

 

 

 

 

 

 

57 57

M (15%)

513

311

213

 

131

 

 

(Version 10)

Q (25%)

364

221

151

 

93

 

 

 

 

 

 

 

 

 

 

 

 

H (30%)

288

174

119

 

74

 

 

 

 

 

 

 

 

 

 

Source: 2D Codes, Basic Specifications for QR Code (JIS X 0510)

Maximum Data Capacity

Even with the same 2D code, the maximum quantity of information that can be stored depends on the symbol size of the code.

In other words, the symbol size must be increased to increase the data capacity.

The data capacity also depends on the type of characters used for the information contained in the code. With QR and DataMatrix Code, the maximum number of characters for the same symbol size will be greatest for numbers only and then for alphanumerics, and will be the least with 2-byte characters.

The data capacity also depends on the character type, and the order and combination of characters used.

Appendices Data Capacity Tables

V400-H111/211

User’s Manual

89

Image 90
Contents USER’S Manual V400-H111/211 Read and Understand this Document Performance Data Meanings of Signal Words Meanings of Alert SymbolsAlert Statements in this Manual Power Supply and Wiring Precautions Precautions for Safe UseInstallation Environment Precautions Other PrecautionsPrecautions for Correct Use How to Use This Manual FormatVisual Aids Contents System Settings Startup Reading 2D Code Outputting Results FunctionsSection Product Overview Features Readable CodesZoom Lens Manual Dual System LightingLiquid Crystal Display Data Conversion on Display Memory Card SlotUseful Functions Data AccumulationOperation Overview Installation and Connections p.17System Settings Reading 2D CodeOperation Overview V400-H111/211 Section Installation and Connections Basic System Configuration Basic system configuration is shown in the following diagramComponent Names and Functions Connecting a Personal Computer V400-W21-2M/5M Cable CableConnecting a Personal Computer V400-W22-2M/5M Cable Connecting a Programmable Controller V400-W20-2M/5M Cable Connecting Cables to the Handheld 2D Code Reader Attach the provided ferrite cores to the cableRemove the cover from the Code Reader Connect the cable Cable Disconnecting the Cable from the Handheld 2D Code Reader Cable Connecting the Cable to the Host Device Removing the Cable from the Host DeviceRemove the cable Recommended Power Supply Power SupplyConnecting the Power Supply V400-W21-2M/5M, V400-W20-2M/5M Connection MethodConnecting the AC Adaptor V400-W22-2M/5M Connect the cable and AC adaptor as shown belowContactor Optional Mounting ProcedureRemoval Procedure Loosen the four screws to detach the contactorOpen the Memory Card slot cover Memory CardsInserting the Memory Card Close the Memory Card slot coverRemoving Memory Cards Push the Memory Card in gently until a click is heardMemo Section Reading 2D Code Startup Turn on the power and start the Handheld 2D Code ReaderBasic Operation Outputting ResultsStartup BuzzerTrigger Buttons Trigger ModeLevel Trigger Factory setting Zoom LeverNormal Outputting ResultsMonitor Description This area displays images taken by the CameraMode a Mode BMode C LED Indicators Output for Unsuccessful ReadingsRead data is output in the following format Functions SleepSection System Settings Backing Up Data Using the LCD monitor Creating the Setting FilesOverview Uploading DataCreating Setting Files Making Settings on the Main Body Basic Operation for Setting ModeNext page, to switch between Making Settings on the Main Body V400-H111/211 Select Setup Starting Setting Mode Setup ScreenStart setting mode Setup window structureDefault settings are indicated with an asterisk Select Communication in the Setup windowChange the setting Changing Communication ConditionsExit communication setting Save the setting dataExit setting mode Setting Functions Select Function in the Setup windowExit function setting Starting Setting Mode Uploading from the Memory CardUploading Setting Data to the 2D Code Reader Select Upload Settings in the menu windowSelect the data setting file Uploading from the Memory Card V400-H111/211 Select Backup Settings in the menu window Backing Up 2D Code Reader DataRestoring the Factory Setting Data Return the settings to the factory settingsInstalling the 2DCR Configear Click the OK button Click the buttonClick the Continue button Click the OK buttonCommunicating Using 2DCR Configear Communication SettingFile Setting ReaderMenu EditDisplay Form Direct Command InputButtons Status DisplayModelV Creating Setting Files Using the 2DCR ConfigearSaves the created data setting file OpenCommunication Settings Function Settings Level Trigger * or AlternateSection System Settings Setting Method Data Conversion on DisplayCreate the CSV file for the display Conversion function Click 1. New Regist Select the desired start position and number of bytesClick the Import button Enter the desired name Click the OK button Select on in Data Conversion on Display fieldDeleting Items and Changing Item Order Deleting the selected itemsSwapping the order of the selected items Save the settings Exit creation of setting data fileSaving Sending the Setting File to the 2D Code Reader Click the ConnectS buttonSelect Setting Reader Send Setting from the menu Exit the 2DCR ConfigearSelect the desired file and click the Open button Memo Section Troubleshooting Section Troubleshooting Appendices Maintenance Handling the Handheld 2D Code ReaderInspection Specifications and Dimensions Handheld 2D Code ReaderV400-H111/211 Appendices Specifications and Dimensions Cable V400-W20-2M/V400-W21-2MV400-W20-5M/V400-W21-5M V400-W22-2M V400-W22-5MV400-AC2 ContactorAC adapter V600-A22Ascii Table Calculation Example for Sending FCS FCS Calculation MethodFCS Calculation Method Header FooterCalculation Programming Example for Sending FCS FCS Check Subroutine Example for Received DataDataMatrix Following diagram, the symbol size is 12 ⋅Data Capacity Tables DataMatrix ECC200Following diagram, the symbol size is 21 ⋅ 21 Version QR CodeQR Code Model Appendices Data Capacity Tables V400-H111/211 Memo Revision History Cat. No. Z228-E1-01V400-H111/211

V400-H111 specifications

The Omron V400-H111 is a state-of-the-art vision sensor designed for a wide range of applications in industrial automation. This high-performing unit is renowned for its advanced features, which enable manufacturers to enhance productivity and improve quality control in their operations.

One of the leading characteristics of the Omron V400-H111 is its sophisticated image processing capabilities. Equipped with an integrated camera, the vision sensor can perform complex inspections and analysis tasks with remarkable accuracy. The sensor utilizes a powerful algorithm that enables it to detect defects and anomalies in products almost instantaneously. This enhances the overall efficiency of production lines by allowing immediate corrective actions to be taken.

In addition to its robust inspection capabilities, the V400-H111 also offers exceptional flexibility in deployment. It features a compact design that can be easily integrated into various machinery and production setups. The sensor's high degree of adaptability enables it to perform optimally in different lighting conditions and on various surfaces, thus catering to diverse manufacturing environments.

The V400-H111 employs cutting-edge technology such as pattern matching and 1D/2D code reading. These technologies allow the sensor to identify and verify product features with extreme precision. Moreover, the sensor is capable of reading barcodes and QR codes, making it ideal for traceability applications in supply chain management.

Another important aspect of the Omron V400-H111 is its user-friendly interface. The system comes with an intuitive software platform that simplifies the setup and configuration processes. Even operators with limited technical knowledge can easily program the sensor for specific tasks, thereby reducing the training time and increasing operational efficiency.

The durability and reliability of the V400-H111 are further enhanced by its robust construction. Built to withstand the rigors of an industrial environment, the sensor is resistant to dust and moisture, ensuring long-term performance and reduced maintenance requirements.

In summary, the Omron V400-H111 vision sensor is a game-changing tool for manufacturers seeking to optimize their quality control systems. With its powerful image processing capabilities, flexible deployment options, advanced reading technologies, user-friendly interface, and robust construction, it stands out as a premier choice for enhancing production processes.