QU302/QU217 2D Barcode Scanner User Guide Version V1.0.0 Description Initial release.
Table of Contents Preface............................................................................................................................................................................................................................... 11 Introduction....................................................................................................................................................................................................... 11 Chapter Description..........................
Image Decoding Timeout.................................................................................................................................................................................. 31 Good Read Delay................................................................................................................................................................................................ 32 Sensitivity (Sense Mode).........................................................................
Introduction....................................................................................................................................................................................................... 51 Baud Rate............................................................................................................................................................................................................52 Parity Check.....................................................................
Enable/Disable 2D Symbologies...............................................................................................................................................................83 1D Twin Code.............................................................................................................................................................................................83 Code 128.............................................................................................................
Restore Factory Defaults.........................................................................................................................................................................102 Enable/Disable UPC-A.............................................................................................................................................................................102 Transmit Check Character..............................................................................................
Codabar.............................................................................................................................................................................................................125 Restore Factory Defaults.........................................................................................................................................................................125 Enable/Disable Codabar.............................................................................
Restore Factory Defaults.........................................................................................................................................................................144 Enable/Disable Standard 25...................................................................................................................................................................144 Set Length Range for Standard 25..........................................................................................
Restore Factory Defaults.........................................................................................................................................................................168 Enable/Disable Data Matrix....................................................................................................................................................................168 Set Length Range for Data Matrix.........................................................................................
Set Custom Prefix.....................................................................................................................................................................................199 AIM ID Prefix....................................................................................................................................................................................................200 Code ID Prefix...................................................................................
Preface Introduction This manual provides detailed instructions for setting up and using the RT217 OEM scan engine (hereinafter referred to as “the RT217” or “the engine”). Chapter Description Chapter 1, Getting Started : Gives a general description of the RT217. Chapter 2, System Settings : Introduces three configuration methods and describes how to configure general parameters of the RT217. Chapter 3, RS-232 Interface : Describes how to configure RS-232 communication parameters.
Explanation of Icons This icon indicates something relevant to this manual. This icon indicates this information requires extra attention from the reader. This icon indicates handy tips that can help you use or configure the engine with ease. This icon indicates practical examples that can help you to acquaint yourself with operations.
Chapter 1 Getting Started Introduction The RT217 OEM scan engines are armed with CMOS image capture and state-of-arttechnology, featuring fast scanning and accurate decoding on barcodes on virtually any medium - paper, magnetic card, mobile phones and LCD displays. The RT217 can be easily integrated into OEM equipment or systems, such as handheld, portable, or stationary barcode scanners.
Chapter 2 Setup / Programming Introduction There are three ways to configure the RT217: Barcode programming, command programming. Barcode Programming The RT217 can be configured by scanning programming barcodes. All user programmable features/options are described along with their programming barcodes/commands in the following sections. This programming method is most straightforward. However, it requires manually scanning barcodes. As a result, errors are more likely to occur.
Programming Barcode/ Programming Command/Function The figure above is an example that shows you the programming barcode and command for the Enter Setup function: 1. The No Case Conversion barcode. 2. The No Case Conversion command. 3. The description of feature/option. 4. ** indicates factory default settings.
Enter Setup Use of Programming Command Besides the barcode programming method, the engine can also be configured by serial commands (HEX) sent from the host device. All commands must be entered in uppercase letters. Query Commands For query commands, the entry in the Data field in the syntax above is one of the following characters means: * (HEX: 2A) What is the engine’s current value for the setting(s). & (HEX: 26) What is the factory default value for the setting(s).
Enter Setup The value of the StoreType field in a query command can be either “@” (HEX: 40) or “#” (HEX: 23). A query command with the SubTag field omitted means to query all the settings concerning a tag. For example, to query all the current settings about Code 11, you should enter 7E 01 30 30 30 30 40 43 31 31 2A 3B 03 (i.e. ~0000@C11*;).
Enter Setup only allow 2 digits), or an invalid query command. (HEX: 05) Indicates an invalid Tag or SubTag command. When responding, the engine echoes back the command sequence with the status character above inserted directly before each of the punctuation marks (the comma or semicolon) in thecommand. Examples Example 1: Enable Code 11, set the minimum and maximum lengths to 12 and 22 respectively.
Enter Setup ** Exit Setup Enter Setup Programming barcode data (i.e. the characters under programming barcode) can be transmitted to the host device. Scan the appropriate barcode below to enable or disable the transmission of programming barcode data to the host device.
Enter Setup Internal Illumination A couple of illumination options are provided to improve the lighting conditions during every image capture: Normal: Illumination LEDs on the engine are turned on during image capture. Always On: Illumination LEDs on the engine keep on after the engine is powered on. Off: Illumination LEDs on the engine are off all the time.
Enter Setup Aiming When scanning/capturing image, the engine projects an aiming pattern which allows positioning the target barcode within its field of view and thus makes decoding easier. Normal: The engine projects an aiming pattern only during barcode scanning/capture. Always On: Aiming pattern is constantly on after the engine is powered on. Off: Aiming pattern is off all the time. ** Normal Off Always On Good Read LED The LED can be programmed to be On or Off to indicate good read.
Enter Setup Good Read LED Duration This parameter sets the amount of time that the Good Read LED to remain on following a good read. It is programmable in 1ms increments from 1ms to 2,500ms. ** Short (20ms) Medium (120ms) Long (220ms) Prolonged (320ms) Custom (1 - 2,500ms) Set the Good Read LED duration to 800ms: 1. Scan the Enter Setup barcode. 2. Scan the Custom barcode. 3. Scan the numeric barcodes “8”, “0” and “0” from the “Digit Barcodes” section inAppendix. 4.
Enter Setup Power On Beep The engine can be programmed to beep when it is powered on. Scan the Off barcode if you do not want a power on beep. ** On Off Good Read Beep Scanning the Off barcode can turn off the beep that indicates successful decode; scanning the On barcode can turn it back on.
Enter Setup Good Read Beep Duration This parameter sets the length of the beep the engine emits on a good read. It is programmable in 1ms increments from 20ms to 300ms. Short (40ms) ** Medium (80ms) Long (120ms) Custom (20 – 300ms) Set the Good Read Beep duration to 200ms: 1. Scan the Enter Setup barcode. 2. Scan the Custom barcode. 3. Scan the numeric barcodes “2”, “0” and “0” from the “Digit Barcodes” section in Appendix. 4. Scan the Save barcode from the “Save/Cancel Barcodes” section in Appendix.
Enter Setup Good Read Beep Frequency This parameter is programmable in 1Hz increments from 20Hz to 20,000Hz. Extra Low (800Hz) Low (1600Hz) ** Medium (2730Hz) High (4200Hz) Custom (20 - 20,000Hz) Set the Good Read Beep frequency to 2,000Hz: 1. Scan the Enter Setup barcode. 2. Scan the Custom barcode. 3. Scan the numeric barcodes “2”, “0”, “0” and “0” from the “Digit Barcodes” section inAppendix. 4. Scan the Save barcode from the “Save/Cancel Barcodes” section in Appendix. 5.
Enter Setup Good Read Beep Volume There are 20 volume levels to choose from. The bigger the value, the louder the Good Read Beep. ** Loud Medium Low Custom Volume (Level 1-20) Set the Good Read Beep volume to Level 8: 1. Scan the Enter Setup barcode. 2. Scan the Custom Volume barcode. 3. Scan the numeric barcode “8” from the “Digit Barcodes” section inAppendix. 4. Scan the Save barcode from the “Save/Cancel Barcodes” section inAppendix. 5. Scan the Exit Setup barcode.
Enter Setup Scan Mode Level Mode: A trigger pull activates a decode session. The decode session continues until a barcode is decoded or you release the trigger. Sense Mode: The engine activates a decode session every time it detects a barcode presented to it. The decode session continues until a barcode is decoded or the decode session timeout expires. Reread Timeout can avoid undesired rereading of same barcode in a given period of time.
Enter Setup Decode Session Timeout Set the decode session timeout to 1,500ms: 1. Scan the Enter Setup barcode. 2. Scan the Decode Session Timeout barcode. 3. Scan the numeric barcodes “1”, “5”, “0” and “0” from the “Digit Barcodes” section inAppendix. 4. Scan the Save barcode from the “Save/Cancel Barcodes” section in Appendix. 5. Scan the Exit Setup barcode.
Enter Setup Image Stabilization Timeout (Sense Mode) This parameter defines the amount of time the enginer will spend adapting to ambient environment after it decodes a barcode and “looks” for another. It is programmable in 1ms increments from 0ms to 3,000ms. The default setting is 500ms. Image Stabilization Timeout Set the image stabilization timeout to 800ms: 1. Scan the Enter Setup barcode. 2. Scan the Image Stabilization Timeout barcode. 3.
Enter Setup Reread Timeout Reread Timeout can avoid undesired rereading of same barcode in a given period of time. This feature is only applicable to the Sense and Continuous modes. Enable Reread Timeout: Do not allow the engine to reread same barcode before the reread timeout expires. Disable Reread Timeout: Allow the engine to reread same barcode. Enable Reread Timeout ** Disable Reread Timeout The following parameter sets the time interval between two successive reads on same barcode.
Enter Setup You may wish to restart the reread timeout when the engine encounters the same barcode that was decoded in the last scan session before the reread timeout expires. Toenable this feature, scan the Reread Timeout Reset On barcode. This feature is only effective when Reread Timeout is enabled. Reread Timeout Reset On ** Reread Timeout Reset Off Image Decoding Timeout Image Decoding Timeout specifies the maximum time the engine will spend decoding an image.
Enter Setup Good Read Delay Good Read Delay sets the minimum amount of time before the engine can read another barcode. This parameter is programmable in 1ms increments from 1ms to 3,600,000ms. The default setting is 500ms. Scan the appropriate barcode below to enable or disable the delay.
Enter Setup Sensitivity (Sense Mode) Sensitivity specifies the degree of acuteness of the engine’s response to changes in images captured. There are 20 levels to choose from. The smaller the value, the higher the sensitivity and the lower requirement in image change to trigger the engine. You can select an appropriate degree of sensitivity that fits the application environment. This feature is only applicable to the Sense mode.
Enter Setup Trigger Commands When Enable Trigger Commands is selected, you can activate and deactivate the engine in the Level mode with serial trigger commands. Sending the Start Scanning command (default: T , user-programmable) to the engine in the Level mode activates a decode session. The decode session continues until a barcode is decoded or the decode session timeout expires or the engine receives the Stop Scanning command (default: P , user- programmable).
Enter Setup Modify Stop Scanning Command The Stop Scanning command can consist of 1-10 characters (HEX values from 0x01 to 0xFF). In this command, the character “?” (HEX: 0x3F) cannot be the first character. The default Stop Scanning command is P . Modify Stop Scanning Command Set the Stop Scanning command to “*P”: 1. Scan the Enter Setup barcode. 2. Scan the Modify Stop Scanning Command barcode. 3. Scan the numeric barcodes “2”, “A”, “5” and “0” from the “Digit Barcodes” section in Appendix.
Enter Setup Turn On Good Read LED You may turn on the external Good Read LED of the engine for a certain period of time with a command sent from the host. When using this feature, you should first query the range of possible values for the setting. Note that the engine cannot scan barcodes when it is executing this command.
Enter Setup Turn On Aimer You may turn on the aimer on the engine for a certain period of time with a command sent from the host. When using this feature, you should first query the range of possible values for the setting. Note that the engine cannot scan barcodes when it is executing this command.
Enter Setup If Surround GS1 AI’s with Parentheses is selected, the barcode above is output as (01)00614141999996(10)10ABCEDF123456. If Do Not Surround GS1 AI’s with Parentheses is selected, the barcode above is output as 01006141419999961010ABCEDF123456.
Enter Setup Read Barcode On/Off Sending the Read Barcode Off command ~0000#SCNENA0; to the engine can disable it from reading barcode, and the engine is unable to scan barcode unless you send the Read Barcode On command ~0000#SCNENA1; to it or power cycle it. By default, Read Barcode is On. Scanning Preference Normal Mode: Select this mode when reading barcodes on paper. Screen Mode: Select this mode when reading barcodes on the screen.
Enter Setup ** Whole Area Decoding Specific Area Decoding Acuread Decoding ** Exit Setup 40
Enter Setup If Specific Area Decoding is enabled, the engine only reads barcodes that intersect the predefined decoding area. The default decoding area is an area of 40% top, 60% bottom, 40% left and 60% right of the engine’s field of view You can define the decoding area using the Top of Decoding Area, Bottom of Decoding Area, Left of Decoding Area and Right of Decoding Area barcodes as well as numeric barcode(s) that represent(s) a desired percentage (0-100).
Enter Setup Barcode 1 Barcode 2 Program the engine to only read Barcode 1 in the figure above by setting the decoding area to 10% top, 45% bottom, 15% left and 30% right: 1. Scan the Enter Setup barcode. 2. Scan the Top of Decoding Area barcode. 3. Scan the numeric barcode “0” from the “Digit Barcodes” section in Appendix. 4. Scan the Save barcode from the “Save/Cancel Barcodes” section in Appendix. 5. Scan the Bottom of Decoding Area barcode. 6.
Enter Setup Image Flipping ** Do Not Flip Flip Horizontally Flip Vertically Flip Horizontally & Vertically ** Exit Setup 43
Enter Setup Example of image not flipped Example of image flipped horizontally Example of image flipped vertically Example of image flipped horizontally & vertically Bad Read Message Scan the appropriate barcode below to select whether or not to send a bad read message (user-programmable) when a good read does not occur before trigger release, or the decode session timeout expires, or the engine receives the Stop Scanning command (For more information, see the “Serial Trigger Command” section in this C
Enter Setup Set Bad Read Message A bad read message can contain up to 7 characters (HEX values from 0x00 to 0xFF). To set a bad read message, scan the Set Bad Read Message barcode, the numeric barcodes representing the hexadecimal values of desired character(s) and the Save barcode. The default setting is “NG”. Set Bad Read Message Set the bad read message to “F” (HEX: 0x46): 1. Scan the Enter Setup barcode. 2. Scan the Set Bad Read Message barcode. 3.
Enter Setup Operating Modes Auto Sleep Auto Sleep allows the engine to automatically enter the sleep mode if no operation or communication is performed for a time period (user programmable). Sending trigger signal can awake the engine. ** Disable Auto Sleep Enable Auto Sleep The following parameter sets how long the engine remains idle (no operation or communication occurs) before it is put into sleep mode. It is programmable in 1s increments from 1s to 36000s. The default setting is 15s.
Enter Setup Default Settings Factory Defaults Scanning the following barcode can restore the engine to the factory defaults. You may need to reset all parameters to the factory defaults when: engine is not properly configured so that it fails to decode barcodes. you forget previous configuration and want to avoid its impact. Restore All Factory Defaults Custom Defaults Scanning the Restore All Custom Defaults barcode can reset all parameters to the custom defaults.
Enter Setup Query Product Information After scanning the barcode below, the product information (including product name, firmware version, decoder version, hardware version, serial number, OEM serial number and manufacturing date) will be sent to the host device.
Enter Setup Query Decoder Version Query Decoder Version Query Hardware Version Query Hardware Version Query Product Serial Number Query Product Serial Number ** Exit Setup 49
Enter Setup Query Manufacturing Date Query Manufacturing Date Query OEM Serial Number Query OEM Serial Number Query Data Formatter Version Query Data Formatter Version ** Exit Setup 50
Enter Setup Chapter 3 RS-232 Interface Introduction Serial communication interface is usually used when connecting the engine to a host device (like PC, POS). However, to ensure smooth communication and accuracy of data, you need to set communication parameters (including baud rate, parity check, data bit and stop bit) to match the host device. The serial communication interface provided by the engine is based on TTL-level signals. TTL-232 can be used for most application architectures.
Enter Setup Baud Rate Baud rate is the number of bits of data transmitted per second. Set the baud rate to match the host requirements.
Enter Setup 2400 1200 Parity Check Set the parity type to match the host requirements. Odd Parity: If the data contains an odd number of 1 bits, the parity bit value is set to 0. Even Parity: If the data contains an even number of 1 bits, the parity bit value is set to 0. None: Select this option when no parity bit is required.
Enter Setup Data Bit Set the number of data bits to match the host requirements. 7 Data Bits ** 8 Data Bits Stop Bit The stop bit(s) at the end of each transmitted character marks the end of transmission of one character and prepares the receiving device for the next character in the serial data stream. Set the number of stop bits to match the host requirements.
Enter Setup Chapter 4 USB Interface Introduction There are four options for USB connection: USB HID Keyboard: The engine’s transmission is simulated as USB keyboard input with no need for command configuration or a driver. Barcode data could be entered by the virtual keyboard directly and it is also convenient for the host device to receive data.
Enter Setup USB HID Keyboard When the engine is connected to the USB port on a host device, you can enable the USB HID Keyboard feature by scanning the barcode below. Then engine’s transmission will be simulated as USB keyboard input. The Host receives keystrokes onthe virtual keyboard. It works on a Plug and Play basis and no driver is required. ** USB HID Keyboard If the host device allows keyboard input, then no extra software is needed for HID Keyboard input.
Enter Setup USB Country Keyboard Types Keyboard layouts vary from country to country. The default setting is U.S. keyboard. ** U.S.
Enter Setup France Germany/ Austria Greece Hungary Israel (Hebrew) Italy Latin America/ South America Netherlands (Dutch) ** Exit Setup 58
Enter Setup Norway Poland Portugal Romania Russia Slovakia Spain Sweden ** Exit Setup 59
Enter Setup Switzerland (German) Turkey_F Turkey_Q UK Japan ** Exit Setup 60
Enter Setup Beep on Unknown Character Due to the differences in keyboard layouts, some characters contained in barcode data may be unavailable on the selected keyboard. As a result, the engine fails to transmit the unknown characters. Scan the appropriate barcode below to enable or disable the emission of beep when an unknown character is detected.
Enter Setup Emulate ALT+Keypad When Emulate ALT+Keypad is turned on, ASCII characters (0x20 - 0xFF) are sent over the numeric keypad no matter which keyboard type is selected. 1. ALT Make 2. Enter the number corresponding to a desired character on the keypad. 3. ALTBreak After Emulate ALT+Keypad ON is selected, you need to choose the code page with which the barcodes were created and to turn Unicode Encoding On or Off depending on the encoding used by the application software.
Enter Setup Code Page Code pages define the mapping of character codes to characters. If the data received does not display with the proper characters, it may be because the barcode being scanned was created using a code page that is different from the one the host program is expecting. If this is the case, select the code page with which the barcodes were created by scanning the appropriate barcode below.
Enter Setup Code Page 1256 (Arabic) Code Page 1257 (Baltic) Code Page 1258 (Vietnamese) Code Page 936 (Simplified Chinese, GB2312,GBK) Code Page 950 (Traditional Chinese, Big5) Code Page 874 (Thai) Code Page 932 (Japanese, Shift-JIS) ** Exit Setup 64
Enter Setup Unicode Encoding Different host program may use different character encodings for handling incoming barcode data. For instance, Microsoft Office Word uses Unicode encoding and therefore you should turn Unicode Encoding on, whereas Microsoft Office Excel or Notepad uses Code Page encoding and therefore you should turn Unicode Encoding off. This feature is only effective when Emulate ALT+Keypad is turned on.
Enter Setup Function Key Mapping When Ctrl+ASCII Mode is selected, function characters (0x00 - 0x1F) are sent as ASCII sequences. ** Disable Ctrl+ASCII Mode Alt+Keypad Mode If Ctrl+ASCII Mode is selected and other parameters of USB HID Keyboard adopt factory defaults, barcode data “A(i.e. Horizontal Tab)F” (0x41/0x09/0x46) is sent as below: “A” - Keystroke “A”. - “Ctrl Make” + Keystroke “I” + “Ctrl Break” “F” - Keystroke “F” For some text editors, “Ctrl I” means italic convert.
Enter Setup ASCII Function Key Mapping Table ASCII Function ASCII Value (HEX) Function Key Mapping Disabled Ctrl+ASCII NUL 00 Null Ctrl+@ SOH 01 Keypad Enter Ctrl+A Caps Lock Ctrl+B STX 02 ETX 03 ALT Ctrl+C Ctrl+D EOT 04 Null ENQ 05 CTRL Ctrl+E ACK 06 Null Ctrl+F BEL 07 Enter Ctrl+G BS 08 Left Arrow Ctrl+H HT 09 Horizontal Tab Ctrl+I LF 0A Down Arrow Ctrl+J VT 0B Vertical Tab Ctrl+K FF 0C Delete Ctrl+L CR 0D Enter Ctrl+M SO 0E Insert Ctrl+N SI
Enter Setup ASCII Function Key Mapping Table (Continued) The last five characters (0x1B~0x1F) in the table above apply to US keyboard layout only. The following chart provides the equivalents of these five characters for other countries. Ctrl+ASCII Country United States Ctrl+[ Ctrl+\ Ctrl+] Ctrl+6 Ctrl+- Belgium Ctrl+[ Ctrl+< Ctrl+] Ctrl+6 Ctrl+- Scandinavia Ctrl+8 Ctrl+< Ctrl+9 Ctrl+6 Ctrl+- France Ctrl+^ Ctrl+8 Ctrl+$ Ctrl+6 Ctrl+= Germany Ctrl+Ã Ctrl++ Ctrl+6 Ctrl+- Italy
Enter Setup Inter-Keystroke Delay This parameter specifies the delay between emulated keystrokes.
Enter Setup Caps Lock The Caps Lock On options can invert upper and lower case characters contained in barcode data. This inversion occurs regardless of the state of Caps Lock key on the host device’s keyboard. To disable this feature, scan the appropriate Caps Lock OFF barcode below based on your keyboard.
Enter Setup Convert Case Scan the appropriate barcode below to convert all bar code data to your desired case. ** No Case Conversion Convert All to Upper Case Convert All to Lower Case When the Convert All to Lower Case feature is enabled, barcode data “AbC” is transmitted as “abc”. If Emulate ALT+Keypad ON is selected, Convert All to Lower Case and Convert All to Upper Case do not function.
Enter Setup Emulate Numeric Keypad Do Not Emulate Numeric Keypad 1: Sending a number (0-9) is emulated as keystroke(s) on main keyboard. Emulate Numeric Keypad 1: Sending a number (0-9) is emulated as keystroke(s) on numeric keypad. The state of Num Lock on the simulated numeric keypad is determined by its equivalent on the host device. If Num Lock on the host device is turned off, the output of simulated numeric keypad is function key instead of number.
Enter Setup ** Do Not Emulate Numeric Keypad 2 Emulate Numeric Keypad 2 Emulate ALT+Keypad ON prevails over Emulate Numeric Keypad. Supposing the Emulate Numeric Keypad 1 feature is enabled: if Num Lock on the host device is ON, “A4.5” is transmitted as “A4.5”; if Num Lock on the host device is OFF, “A4.5” is transmitted as “.A”: 1. “A” is sent on main keyboard; 2. “4” is sent as the function key “Cursor Move to Left”; 3. “.” is sent on main keyboard; 4.
Enter Setup Fast Mode When Fast Mode On is selected, the engine sends characters to the Host faster. If the Host drops characters, turn the Fast Mode off or change the polling rate to a bigger value.
Enter Setup Polling Rate This parameter specifies the polling rate for a USB keyboard. If the Host drops characters, change the polling rate to a bigger value.
Enter Setup 8ms 9ms 10ms ** Exit Setup 76
Enter Setup USB CDC If your engine is connected to the USB port on a host device, the USB CDC feature allows the host device to receive data in the way as a serial port does.
Enter Setup HID POS (POS HID Barcode Scanner) Introduction The HID-POS interface is recommended for new application programs. It can send up to 56 characters in a single USB report and appears more efficient than keyboard emulation. Features: HID based, no custom driver required. Way more efficient in communication than keyboard emulation and traditional RS-232 interface.
Enter Setup Acquire Scanned Data After a barcode is decoded, the engine sends an input report as below: Bit Byte 7 6 5 4 3 0 Report ID = 0x02 1 Barcode Length 2-57 Decoded Data (1-56) 58-61 Reserved 62 Symbology Identifier or N/C: 0x00 63 - - - - - 2 1 0 - - Decoded data continued Send Command to the Engine This output report is used to send commands to the engine. All programming commands can be used.
Enter Setup IBM SurePOS (Tabletop) IBM SurePOS (Tabletop) IBM SurePOS (Handheld) IBM SurePOS (Handheld) VID/PID USB uses VID (Vendor ID) and PID (Product ID) to identify and locate a device. The VID is assigned by USB Implementers Forum.
Enter Setup Adaptive Wired Communication When this feature is on, the engine can automatically adapt its communication configuration to the way it is connected to the host device: Automatically enable USB/serial communication when connected to the host device via USB/serial port, respectively. Note: You must restart the engine before this setting will take effect.
Enter Setup Chapter 5 Symbologies Introduction Every symbology (barcode type) has its own unique attributes. This chapter provides programming barcodes for configuring the engine so that it can identify various symbologies. It is recommended to disable those that are rarely used to increase the efficiency of the engine.
Enter Setup Enable/Disable 2D Symbologies Enable 2D Symbologies Disable 2D Symbologies 1D Twin Code 1D twin code is two 1D barcodes of a symbology or of different symbologies paralleled vertically. Both barcodes must have similar specifications and be placed closely together. There are 3 options for reading 1D twin code: Single 1D Code Only: Read either 1D code. Twin 1D Code Only: Read both 1D codes. Transmission sequence: upper 1D code followed by lower 1Dcode.
Enter Setup ** Single 1D Code Only Twin 1D Code Only Both Single & Twin ** Exit Setup 84
Enter Setup Code 128 Restore Factory Defaults Restore the Factory Defaults of Code 128 Enable/Disable Code 128 ** Enable Code 128 Disable Code 128 If the engine fails to identify Code 128 barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable Code 128 barcode.
Enter Setup Set Length Range for Code 128 The engine can be configured to only decode Code 128 barcodes with lengths that fall between (inclusive) the minimum and maximum lengths. To accomplish it, you need to set the minimum and maximum lengths. Set the Minimum Length (Default: 1) Set the Maximum Length (Default: 48) If minimum length is set to be greater than maximum length, the engine only decodes Code 128 barcodes with either the minimum or maximum length.
Enter Setup EAN-8 Restore Factory Defaults Restore the Factory Defaults of EAN-8 Enable/Disable EAN-8 ** Enable EAN-8 Disable EAN-8 If the engine fails to identify EAN-8 barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable EAN-8 barcode. Transmit Check Character EAN-8 is 8 digits in length with the last one as its check character used to verify the integrity of the data.
Enter Setup 2-Digit Add-On Code An EAN-8 barcode can be augmented with a two-digit add-on code to form a new one. In the example below, the part surrounded by blue dotted line is an EAN-8 barcode while the part circled by red dotted line is a two-digit add-on code. ** Disable 2-Digit Add-On Code Enable 2-Digit Add-On Code Disable 2-Digit Add-On Code: The engine decodes EAN-8 and ignores the add-on code when presented with an EAN-8 plus 2-digit add-on barcode.
Enter Setup 5-Digit Add-On Code An EAN-8 barcode can be augmented with a five-digit add-on code to form a new one. In the example below, the part surrounded by blue dotted line is an EAN-8 barcode while the part circled by red dotted line is a five-digit add-on code. ** Disable 5-Digit Add-On Code Enable 5-Digit Add-On Code Disable 5-Digit Add-On Code: The engine decodes EAN-8 and ignores the add-on code when presented with an EAN-8 plus 5-digit add-on barcode.
Enter Setup Add-On Code Required When EAN-8 Add-On Code Required is selected, the engine will only read EAN-8 barcodes that contain add-on codes. ** EAN-8 Add-On Code Not Required EAN-8 Add-On Code Required Convert EAN-8 to EAN-13 Do Not Convert EAN-8 to EAN-13: EAN-8 decoded data is transmitted as EAN-8 data, without conversion.
Enter Setup EAN-13 Restore Factory Defaults Restore the Factory Defaults of EAN-13 Enable/Disable EAN-13 ** Enable EAN-13 Disable EAN-13 If the engine fails to identify EAN-13 barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable EAN-13 barcode.
Enter Setup Transmit Check Character ** Transmit EAN-13 Check Character Do Not Transmit EAN-13 Check Character 2-Digit Add-On Code An EAN-13 barcode can be augmented with a two-digit add-on code to form a new one. In the example below, the part surrounded by blue dotted line is an EAN-13 barcode while the part circled by red dotted line is a two-digit add-on code.
Enter Setup 5-Digit Add-On Code An EAN-13 barcode can be augmented with a five-digit add-on code to form a new one. In the example below, the part surrounded by blue dotted line is an EAN-13 barcode while the part circled by red dotted line is a five-digit add-on code. ** Disable 5-Digit Add-On Code Enable 5-Digit Add-On Code Disable 5-Digit Add-On Code: The engine decodes EAN-13 and ignores the add-on code when presented with an EAN-13 plus 5-digit add-on barcode.
Enter Setup EAN-13 Beginning with 290 Add-On Code Required This setting programs the engine to require an add-on code (2-digit or 5-digit) on EAN-13 barcodes that begin with “290”. The following settings can be programmed: RequireAdd-On Code:All EAN-13 barcodes that begin with “290” must have a 2-digit or 5-digit add-on code. The EAN-13 barcode with the add-on code is then transmitted.If the required add-oncodeisnotfound, the EAN-13barcodeisdiscarded.
Enter Setup EAN-13 Beginning with 414/419 Add-On Code Required This setting programs the engine to require an add-on code (2-digit or 5-digit) on EAN-13 barcodes that begin with a “414” or “419”. The following settings can be programmed: Require Add-On Code: All EAN-13 barcodes that begin with a “414” or “419” must have a 2-digit or 5-digit add-on code. The EAN-13 barcode with the add-on code is then transmitted. If the required add-on code is not found, the EAN-13 barcode is discarded.
Enter Setup EAN-13 Beginning with 977 Add-On Code Required This setting programs the engine to require an add-on code (2-digit or 5-digit) on EAN-13 barcodes that begin with “977”. The following settings can be programmed: RequireAdd-On Code:All EAN-13 barcodes that begin with “977” must have a 2-digit or 5-digit add-on code. The EAN-13 barcode with the add-on code is then transmitted.If the required add-oncodeisnotfound, the EAN-13barcodeisdiscarded.
Enter Setup EAN-13 Beginning with 979 Add-On Code Required This setting programs the engine to require an add-on code (2-digit or 5-digit) on EAN-13 barcodes that begin with “979”. The following settings can be programmed: RequireAdd-On Code:All EAN-13 barcodes that begin with “979” must have a 2-digit or 5-digit add-on code. The EAN-13 barcode with the add-on code is then transmitted.If the required add-oncodeisnotfound, the EAN-13barcodeisdiscarded.
Enter Setup UPC-E Restore Factory Defaults Restore the Factory Defaults of UPC-E Enable/Disable UPC-E ** Enable UPC-E Disable UPC-E If the scanner fails to identify UPC-E barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable UPC-E barcode.
Enter Setup Transmit Check Character UPC-E is 8 digits in length with the last one as its check character used to verify the integrity of the data. ** Transmit UPC-E Check Character Do Not Transmit UPC-E Check Character 2-Digit Add-On Code A UPC-E barcode can be augmented with a two-digit add-on code to form a new one. In the example below, the part surrounded by blue dotted line is a UPC-E barcode while the part circled by red dotted line is a two-digit add-on code.
Enter Setup 5-Digit Add-On Code A UPC-E barcode can be augmented with a five-digit add-on code to form a new one. In the example below, the part surrounded by blue dotted line is a UPC-E barcode while the part circled by red dotted line is a five-digit add-on code. ** Disable 5-Digit Add-On Code Enable 5-Digit Add-On Code Disable 5-Digit Add-On Code: The engine decodes UPC-E and ignores the add-on code when presented with a UPC-E plus 5-digit add-on barcode.
Enter Setup Transmit Preamble Character Preamble characters (Country Code and System Character) can be transmitted as part of a UPC-E barcode. Select one of the following options for transmitting UPC-E preamble to the host device: transmit system character only, transmit system character and country code (“0” for USA), or transmit no preamble.
Enter Setup UPC-A Restore Factory Defaults Restore the Factory Defaults of UPC-A Enable/Disable UPC-A ** Enable UPC-A Disable UPC-A If the engine fails to identify UPC-A barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable UPC-A barcode. Transmit Check Character UPC-A is 13 digits in length with the last one as its check character used to verify the integrity of the data.
Enter Setup 2-Digit Add-On Code A UPC-A barcode can be augmented with a two-digit add-on code to form a new one. In the example below, the part surrounded by blue dotted line is a UPC-A barcode while the part circled by red dotted line is a two-digit add-on code. ** Disable 2-Digit Add-On Code Enable 2-Digit Add-On Code Disable 2-Digit Add-On Code: The engine decodes UPC-A and ignores the add-on code when presented with a UPC-A plus 2-digit add-on barcode.
Enter Setup 5-Digit Add-On Code A UPC-A barcode can be augmented with a five-digit add-on code to form a new one. In the example below, the part surrounded by blue dotted line is a UPC-A barcode while the part circled by red dotted line is a five-digit add-on code. ** Disable 5-Digit Add-On Code Enable 5-Digit Add-On Code Disable 5-Digit Add-On Code: The engine decodes UPC-A and ignores the add-on code when presented with a UPC-A plus 5-digit add-on barcode.
Enter Setup Add-On Code Required When UPC-A Add-On Code Required is selected, the engine will only read UPC-A barcodes that contain add-on codes. ** UPC-A Add-On Code Not Required UPC-A Add-On Code Required Transmit Preamble Character Preamble characters (Country Code and System Character) can be transmitted as part of a UPC-A barcode.
Enter Setup Interleaved 2 of 5 Restore Factory Defaults Restore the Factory Defaults of Interleaved 2 of 5 Enable/Disable Interleaved 2 of 5 ** Enable Interleaved 2 of 5 Disable Interleaved 2 of 5 If the engine fails to identify Interleaved 2 of 5 barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable Interleaved 2 of 5 barcode.
Enter Setup Set Length Range for Interleaved 2 of 5 The engine can be configured to only decode Interleaved 2 of 5 barcodes with lengths that fall between (inclusive) the minimum and maximum lengths. To accomplish it, you need to set the minimum and maximum lengths. Set the Minimum Length (Default: 6) Set the Maximum Length (Default: 80) If minimum length is set to be greater than maximum length, the engine only decodes Interleaved 2 of 5 barcodes with either the minimum or maximum length.
Enter Setup Check Character Verification A check character is optional for Interleaved 2 of 5 and can be added as the last character. It is a calculated value used to verify the integrity of the data. Disable: The engine transmits Interleaved 2 of 5 barcodes as is. Do Not Transmit Check Character After Verification: The engine checks the integrity of all Interleaved 2 of 5 barcodes to verify that the data complies with the check character algorithm.
Enter Setup Febraban Disable/Enable Febraban ** Disable Febraban Enable Febraban, Do Not Expand Enable Febraban, Expand Transmit Delay per Character Transmit Delay per Character applies to both Expanded and Unexpanded Febraban. This feature is available only when USB HID Keyboard is enabled.
Enter Setup You may select an appropriate delay value from the options below as per your actual needs.
Enter Setup 40ms 45ms 50ms 55ms 60ms 65ms ** 70ms 75ms ** Exit Setup 102 111
Enter Setup Transmit Delay per 12 Characters Transmit Delay per 12 Characters applies to Expanded Febraban only. This feature is available only when USB HID Keyboard is enabled. ** Disable Transmit Delay per 12 Characters Enable Transmit Delay per 12 Characters You may select an appropriate delay value from the options below as per your actual needs.
Enter Setup ** 500ms 600ms 700ms 800ms 900ms ** Exit Setup 104 113
Enter Setup ITF-14 ITF-14 is a special kind of Interleaved 2 of 5 with a length of 14 characters and the last character as the check character. ITF-14 priority principle: Forthe Interleaved 2 of 5 barcodes with a length of 14 characters and the last character as the check character, the ITF-14 configurations shall take precedence over the Interleaved 2 of 5 settings.
Enter Setup ITF-6 ITF-6 is a special kind of Interleaved 2 of 5 with a length of 6 characters and the last character as the check character. ITF-6 priority principle: For the Interleaved 2 of 5 barcodes with a length of 6 characters and the last character as the check character, the ITF-6 configurations shall take precedence over the Interleaved 2 of 5 settings.
Enter Setup Matrix 2 of 5 Restore Factory Defaults Restore the Factory Defaults of Matrix 2 of 5 Enable/Disable Matrix 2 of 5 ** Enable Matrix 2 of 5 Disable Matrix 2 of 5 If the engine fails to identify Matrix 2 of 5 barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable Matrix 2 of 5 barcode.
Enter Setup Set Length Range for Matrix 2 of 5 The engine can be configured to only decode Matrix 2 of 5 barcodes with lengths that fall between (inclusive) the minimum and maximum lengths. To accomplish it, you need to set the minimum and maximum lengths. Set the Minimum Length (Default: 4) Set the Maximum Length (Default: 80) If minimum length is set to be greater than maximum length, the engine only decodes Matrix 2 of 5 barcodes with either the minimum or maximum length.
Enter Setup Check Character Verification A check character is optional for Matrix 2 of 5 and can be added as the last character. It is a calculated value used to verify the integrity of the data. Disable: The engine transmitsMatrix 2 of 5 barcodes as is. Do Not Transmit Check Character After Verification: The engine checks the integrity of all Matrix 2 of 5 barcodes to verify that the data complies with the check character algorithm.
Enter Setup Code 39 Restore Factory Defaults Restore the Factory Defaults of Code 39 Enable/Disable Code 39 ** Enable Code 39 Disable Code 39 If the engine fails to identify Code 39 barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable Code 39 barcode.
Enter Setup Set Length Range for Code 39 The engine can be configured to only decode Code 39 barcodes with lengths that fall between (inclusive) the minimum and maximum lengths. To accomplish it, you need to set the minimum and maximum lengths. Set the Minimum Length (Default: 1) Set the Maximum Length (Default: 48) If minimum length is set to be greater than maximum length, the engine only decodes Code 39 barcodes with either the minimum or maximum length.
Enter Setup Check Character Verification A check character is optional for Code 39 and can be added as the last character. It is a calculated value used to verify the integrity of the data. Disable: The engine transmits Code 39 barcodes as is. Do Not Transmit Check Character After Verification: The engine checks the integrity of all Code 39 barcodes to verify that the data complies with the check character algorithm.
Enter Setup Transmit Start/Stop Character Code 39 uses an asterisk (*) for both the start and the stop characters. You can choose whether or not to transmit the start/stop characters by scanning the appropriate barcode below. ** Do Not Transmit Start/Stop Character Transmit Start/Stop Character Enable/Disable Code 39 Full ASCII The engine can be configured to identify all ASCII characters by scanning the appropriate barcode below.
Enter Setup Enable/Disable Code 32 (Italian Pharma Code) Code 32 is a variant of Code 39 used by the Italian pharmaceutical industry. Scan the appropriate bar code below to enable or disable Code 32. Code 39 must be enabled and Code 39 check character verification must be disabled for this parameter to function. ** Disable Code 32 Enable Code 32 Code 32 Prefix Scan the appropriate barcode below to enable or disable adding the prefix character “A” to all Code 32 barcodes.
Enter Setup Transmit Code 32 Start/Stop Character Code 32 must be enabled for this parameter to function. ** Do Not Transmit Code 32 Start/Stop Character Transmit Code 32 Start/Stop Character Transmit Code 32 Check Character Code 32 must be enabled for this parameter to function.
Enter Setup Codabar Restore Factory Defaults Restore the Factory Defaults of Codabar Enable/Disable Codabar ** Enable Codabar Disable Codabar If the engine fails to identify Codabar barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable Codabar barcode.
Enter Setup Set Length Range for Codabar The engine can be configured to only decode Codabar barcodes with lengths that fall between (inclusive) the minimum and maximum lengths. To accomplish it, you need to set the minimum and maximum lengths. Set the Minimum Length (Default: 2) Set the Maximum Length (Default: 60) If minimum length is set to be greater than maximum length, the engine only decodes Codabar barcodes with either the minimum or maximum length.
Enter Setup Check Character Verification A check character is optional for Codabar and can be added as the last character. It is a calculated value used to verify the integrity of the data. Disable: The engine transmits Codabar barcodes as is. Do Not Transmit Check Character After Verification: The engine checks the integrity of all Codabar barcodes to verify that the data complies with the check character algorithm.
Enter Setup Start/Stop Character You can set the start/stop characters and choose whether or not to transmit the start/stop characters by scanning the appropriate barcode below.
Enter Setup Code 93 Restore Factory Defaults Restore the Factory Defaults of Code 93 Enable/Disable Code 93 Enable Code 93 ** Disable Code 93 If the engine fails to identify Code 93 barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable Code 93 barcode.
Enter Setup Set Length Range for Code 93 The engine can be configured to only decode Code 93 barcodes with lengths that fall between (inclusive) the minimum and maximum lengths. To accomplish it, you need to set the minimum and maximum lengths. Set the Minimum Length (Default: 1) Set the Maximum Length (Default: 48) If minimum length is set to be greater than maximum length, the engine only decodes Code 93 barcodes with either the minimum or maximum length.
Enter Setup Check Character Verification Check characters are optional for Code 93 and can be added as the last two characters, which are calculated values used to verify the integrity of the data. Disable: The engine transmits Code 93 barcodes as is. Do Not Transmit Check Character After Verification: The engine checks the integrity of all Code 93 barcodes to verify that the data complies with the check character algorithm.
Enter Setup GS1-128 (UCC/EAN-128) Restore Factory Defaults Restore the Factory Defaults of GS1-128 Enable/Disable GS1-128 ** Enable GS1-128 Disable GS1-128 If the engine fails to identify GS1-128 barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable GS1-128 barcode.
Enter Setup Set Length Range for GS1-128 The engine can be configured to only decode GS1-128 barcodes with lengths that fall between (inclusive) the minimum and maximum lengths. Toaccomplish it, you need to set the minimum and maximum lengths. Set the Minimum Length (Default: 1) Set the Maximum Length (Default: 48) If minimum length is set to be greater than maximum length, the engine only decodes GS1-128 barcodes with either the minimum or maximum length.
Enter Setup GS1 Databar (RSS) Restore Factory Defaults Restore the Factory Defaults of GS1 Databar Enable/Disable GS1 Databar ** Enable GS1 Databar Disable GS1 Databar If the engine fails to identify GS1 Databar barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable GS1 Databar barcode.
Enter Setup Code 11 Restore Factory Defaults Restore the Factory Defaults of Code 11 Enable/Disable Code 11 Enable Code 11 ** Disable Code 11 If the engine fails to identify Code 11 barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable Code 11 barcode.
Enter Setup Set Length Range for Code 11 The engine can be configured to only decode Code 11 barcodes with lengths that fall between (inclusive) the minimum and maximum lengths. To accomplish it, you need to set the minimum and maximum lengths. Set the Minimum Length (Default: 4) Set the Maximum Length (Default: 48) If minimum length is set to be greater than maximum length, the engine only decodes Code 11 barcodes with either the minimum or maximum length.
Enter Setup Check Character Verification Check characters are optional for Code 11 and can be added as the last one or two characters, which are calculated values used to verify the integrity of the data. If the Disable option is enabled, the engine transmits Code 11 barcodes as is.
Enter Setup Transmit Check Character Do Not Transmit Code 11 Check Character ** Transmit Code 11 Check Character If you select a check character algorithm and the Do Not Transmit Check Character option, Code 11 barcodes with a length that is less than the configured minimum length after having the check character(s) excluded will not be decoded.
Enter Setup ISBN Restore Factory Defaults Restore the Factory Defaults of ISBN Enable/Disable ISBN Enable ISBN ** Disable ISBN If the engine fails to identify ISBN barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable ISBN barcode.
Enter Setup ISSN Restore Factory Defaults Restore the Factory Defaults of ISSN Enable/Disable ISSN Enable ISSN ** Disable ISSN If the engine fails to identify ISSN barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable ISSN barcode.
Enter Setup Industrial 25 Restore Factory Defaults Restore the Factory Defaults of Industrial 25 Enable/Disable Industrial 25 Enable Industrial 25 ** Disable Industrial 25 If the engine fails to identify Industrial 25 barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable Industrial 25 barcode.
Enter Setup Set Length Range for Industrial 25 The engine can be configured to only decode Industrial 25 barcodes with lengths that fall between (inclusive) the minimum and maximum lengths. To accomplish it, you need to set the minimum and maximum lengths. Set the Minimum Length (Default: 6) Set the Maximum Length (Default: 48) If minimum length is set to be greater than maximum length, the engine only decodes Industrial 25 barcodes with either the minimum or maximum length.
Enter Setup Check Character Verification A check character is optional for Industrial 25 and can be added as the last character. It is a calculated value used to verify the integrity of the data. Disable: The engine transmits Industrial 25 barcodes as is. Do Not Transmit Check Character After Verification: The engine checks the integrity of all Industrial 25 barcodes to verify that the data complies with the check character algorithm.
Enter Setup Standard 25 Restore Factory Defaults Restore the Factory Defaults of Standard 25 Enable/Disable Standard 25 Enable Standard 25 ** Disable Standard 25 If the engine fails to identify Standard 25 barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable Standard 25 barcode.
Enter Setup Set Length Range for Standard 25 The engine can be configured to only decode Standard 25 barcodes with lengths that fall between (inclusive) the minimum and maximum lengths. To accomplish it, you need to set the minimum and maximum lengths. Set the Minimum Length (Default: 6) Set the Maximum Length (Default: 48) If minimum length is set to be greater than maximum length, the engine only decodes Standard 25 barcodes with either the minimum or maximum length.
Enter Setup Check Character Verification A check character is optional for Standard 25 and can be added as the last character. It is a calculated value used to verify the integrity of the data. Disable: The engine transmits Standard 25 barcodes as is. Do Not Transmit Check Character After Verification: The engine checks the integrity of all Standard 25 barcodes to verify that the data complies with the check character algorithm.
Enter Setup Plessey Restore Factory Defaults Restore the Factory Defaults of Plessey Enable/Disable Plessey Enable Plessey ** Disable Plessey If the engine fails to identify Plessey barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable Plessey barcode.
Enter Setup Set Length Range for Plessey The engine can be configured to only decode Plessey barcodes with lengths that fall between (inclusive) the minimum and maximum lengths. To accomplish it, you need to set the minimum and maximum lengths. Set the Minimum Length (Default: 4) Set the Maximum Length (Default: 48) If minimum length is set to be greater than maximum length, the engine only decodes Plessey barcodes with either the minimum or maximum length.
Enter Setup Check Character Verification Check characters are optional for Plessey and can be added as the last two characters, which are calculated values used to verify the integrity of the data. Disable: The engine transmits Plessey barcodes as is. Do Not Transmit Check Character After Verification: The engine checks the integrity of all Plessey barcodes to verify that the data complies with the check character algorithm.
Enter Setup MSI-Plessey Restore Factory Defaults Restore the Factory Defaults of MSI-Plessey Enable/Disable MSI-Plessey Enable MSI-Plessey ** Disable MSI-Plessey If the engine fails to identify MSI-Plessey barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable MSI-Plessey barcode.
Enter Setup Set Length Range for MSI-Plessey The engine can be configured to only decode MSI-Plessey barcodes with lengths that fall between (inclusive) the minimum and maximum lengths. To accomplish it, you need to set the minimum and maximum lengths. Set the Minimum Length (Default: 4) Set the Maximum Length (Default: 48) If minimum length is set to be greater than maximum length, the engine only decodes MSI-Plessey barcodes with either the minimum or maximum length.
Enter Setup Check Character Verification Check characters are optional for MSI-Plessey and can be added as the last one or two characters, which are calculated values used to verify the integrity of the data. If the Disable option is enabled, the engine transmits MSI-Plessey barcodes as is.
Enter Setup Transmit Check Character ** Transmit MSI-Plessey Check Character Do Not Transmit MSI-Plessey Check Character If you select a check character algorithm and the Do Not Transmit Check Character option, MSI-Plessey barcodes with a length that is less than the configured minimum length after having the check character(s) excluded will not be decoded.
Enter Setup AIM 128 Restore Factory Defaults Restore the Factory Defaults of AIM 128 Enable/Disable AIM 128 Enable AIM 128 ** Disable AIM 128 If the engine fails to identify AIM 128 barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable AIM 128 barcode.
Enter Setup Set Length Range for AIM 128 The engine can be configured to only decode AIM 128 barcodes with lengths that fall between (inclusive) the minimum and maximum lengths. To accomplish it, you need to set the minimum and maximum lengths. Set the Minimum Length (Default: 1) Set the Maximum Length (Default: 48) If minimum length is set to be greater than maximum length, the engine only decodes AIM 128 barcodes with either the minimum or maximum length.
Enter Setup PDF417 Restore Factory Defaults Restore the Factory Defaults of PDF417 Enable/Disable PDF417 ** Enable PDF417 Disable PDF417 If the engine fails to identify PDF417 barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable PDF417 barcode.
Enter Setup Set Length Range for PDF417 The engine can be configured to only decode PDF417 barcodes with lengths that fall between (inclusive) the minimum and maximum lengths. To accomplish it, you need to set the minimum and maximum lengths. Set the Minimum Length (Default: 1) Set the Maximum Length (Default: 2710) Minimum length is not allowed to be greater than maximum length.
Enter Setup PDF417 Twin Code PDF417 twin code is 2 PDF417 barcodes paralleled vertically or horizontally. They must both be either regular or inverse barcodes. They must have similar specifications and be placed closely together. There are 3 options for reading PDF417 twin codes: Single PDF417 Only: Read either PDF417 code. TwinPDF417 Only: Read both PDF417 codes. Both Single & Twin: Read both PDF417 codes. If successful, transmit as twin PDF417 only. Otherwise, try single PDF417 only.
Enter Setup Character Encoding ** Default Character Encoding UTF-8 ** Exit Setup 159
Enter Setup PDF417 ECI Output Disable PDF417 ECI Output ** Enable PDF417 ECI Output ** Exit Setup 160
Enter Setup QR Code Restore Factory Defaults Restore the Factory Defaults of QR Code Enable/Disable QR Code ** Enable QR Code Disable QR Code If the engine fails to identify QR Code barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable QR Code barcode.
Enter Setup Set Length Range for QR Code The engine can be configured to only decode QR Code barcodes with lengths that fall between (inclusive) the minimum and maximum lengths. Toaccomplish it, you need to set the minimum and maximum lengths. Set the Minimum Length (Default: 1) Set the Maximum Length (Default: 7089) Minimum length is not allowed to be greater than maximum length.
Enter Setup QR Twin Code QR twin code is 2 QR barcodes paralleled vertically or horizontally. They must both be either regular or inverse barcodes. They must have similar specifications and be placed closely together. There are 3 options for reading QR twin codes: Single QR Only: Read either QR code. TwinQR Only: Read both QR codes. Transmission sequence: left (upper) QR code followed by right (lower) QR code. Both Single & Twin: Read both QR codes. If successful, transmit as twin QR only.
Enter Setup Character Encoding ** Default Character Encoding UTF-8 ** Exit Setup 164
Enter Setup QR ECI Output Disable QR ECI Output ** Enable QR ECI Output ** Exit Setup 165
Enter Setup Micro QR Code Restore Factory Defaults Restore the Factory Defaults of Micro QR Enable/Disable Micro QR ** Enable Micro QR Disable Micro QR If the engine fails to identify Micro QR barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable Micro QR barcode.
Enter Setup Set Length Range for Micro QR The engine can be configured to only decode Micro QR barcodes with lengths that fall between (inclusive) the minimum and maximum lengths. To accomplish it, you need to set the minimum and maximum lengths. Set the Minimum Length (Default: 1) Set the Maximum Length (Default: 35) Minimum length is not allowed to be greater than maximum length.
Enter Setup Data Matrix Restore Factory Defaults Restore the Factory Defaults of Data Matrix Enable/Disable Data Matrix ** Enable Data Matrix Disable Data Matrix If the engine fails to identify Data Matrix barcodes, you may first try this solution by scanning the Enter Setup barcode and then Enable Data Matrix barcode.
Enter Setup Set Length Range for Data Matrix The engine can be configured to only decode Data Matrix barcodes with lengths that fall between (inclusive) the minimum and maximum lengths. To accomplish it, you need to set the minimum and maximum lengths. Set the Minimum Length (Default: 1) Set the Maximum Length (Default: 3116) Minimum length is not allowed to be greater than maximum length.
Enter Setup Data Matrix Twin Code Data Matrix twin code is 2 Data Matrix barcodes paralleled vertically or horizontally. They must both be either regular or inverse barcodes. They must have similar specifications and be placed closely together. There are 3 options for reading Data Matrix twin codes: Single Data Matrix Only: Read either Data Matrix code. TwinData Matrix Only: Read both Data Matrix codes. Transmission sequence: left (upper) Data Matrix code followed by right (lower) Data Matrix code.
Enter Setup Rectangular Barcode Data Matrix has two formats: Square barcodes having the same amount of modules in length and width:10*10, 12*12............144*144. Rectangular barcodes having different amounts of models in length and width:6*16, 6*14........ 14*22.
Enter Setup Data Matrix ECI Output Disable Data Matrix ECI Output ** Enable Data Matrix ECI Output ** Exit Setup 172
Enter Setup Chapter 6 Data Formatter Introduction You may use the Data Formatter to modify the engine’s output. For example, you can use the Data Formatter to insert charactersatcertainpoints in barcode data ortosuppress/replace/sendcertaincharacters inbarcode data as itisscanned. Normally, when you scan a barcode, it gets outputted automatically; however, when you create a format, you must use a “send” command (see the “Send Commands” section in this chapter) within the format programming to output data.
Enter Setup Step 2: Scan the Add Data Format barcode. Add Data Format Step 3: Select a label (Format_0 or Format_1 or Format_2 or Format_3). Scan a numeric barcode 0 or 1 or 2 or 3 to label this data format Format_0 or Format_1 or Format_2 or Format_3. Step 4: Select formatter command type. Specify what type of formatter commands will be used. Scan a numeric barcode “6” to select formatter command type 6.
Enter Setup Example: Program a Format_0 data format using formatter command type 6, Code 128 containing 10 characters applicable, send all characters followed by “A”. 1. Scan the Enter Setup barcode Enter the Setup mode 2. Scan the Add Data Format barcode Add a data format 3. Scan the 0 barcode Select Format_0 as the label 4. Scan the 6 barcode Select formatter command type 6 5. Scan the 9 barcode three times All interface types applicable 6. Scan the barcodes 002 Only Code 128 applicable 7.
Enter Setup Programming with Serial Commands A data format can also be created by serial commands (HEX) sent from the host device. All commands must be entered in uppercase letters. The syntax consists of the following elements: Prefix: “~0000” (HEX: 7E 01 30 30 30 30), 6 characters. Storage type: “@” (HEX: 40) or “#” (HEX: 23), 1 character.
Enter Setup Enable/Disable Data Formatter When Data Formatter is disabled, the data format you have enabled becomes invalid. ** Disable Data Formatter You may wish to require the data to conform to a data format you have created. The following settings can be applied to your data format: Enable Data Formatter, Required, Keep Prefix/Suffix: Scanned data that meets your data format requirements is modified accordingly and gets outputted along with prefixes and suffixes (if prefix and suffix are enabled).
Enter Setup Enable Data Formatter, Required, Keep Prefix/Suffix Enable Data Formatter, Required, Drop Prefix/Suffix Enable Data Formatter, Not Required, Keep Prefix/Suffix Enable Data Formatter, Not Required, Drop Prefix/Suffix Non-Match Error Beep If Non-Match Error Beep is turned ON, the engine generates an error beep when a barcode is encountered that does not match your required data format.
Enter Setup Data Format Selection After enabling the Data Formatter, you can select a data format you want to use byscanningthe appropriate barcode below.
Enter Setup Change Data Format for a Single Scan You can switch between data formats for a single scan. The next barcode is scanned using the data format selected here, then reverts to the format you have selected above. For example, you may have set your engine to use the data format you saved as Format_3. You can switch to Format_1 for a single trigger pull by scanning the Single Scan – Format_1 barcode below. The next barcode that is scanned uses Format_1, then reverts back to Format_3.
Enter Setup Clear Data Format There are two methods to remove data format created from your engine: Delete one data format: Scan the Clear One barcode, a numeric barcode (0-3) and the Save barcode. For example, to delete Format_2, you should scan the Clear One barcode, the 2 barcode and the Save barcode Delete all data formats: Scan the Clear All barcode.
Enter Setup Formatter Command Type 6 When working with the Data Formatter, a virtual cursor is moved along your input data string. The following commands are used to both move this cursor to different positions, and to select, replace, and insert data into the final output. For the hex value of ASCII characters involved in the commands, refer to the “ASCII Table” in Appendix.
Enter Setup F3 Send all characters up to a particular character Syntax=F3ssxx (ss: The particular character’s hex value; xx: The insert character’s hex value) Include in the output message all characters from the input message, starting with the character at the current cursor position and continuing to, but not including, the particular character “ss,” followed by character “xx.” The cursor is moved forward to the “ss” character.
Enter Setup B9 Send all characters up to a particular string Syntax=B9nnnns...s (nnnn: The length of the particular string; s...s: The hex value of each character in the particular string) Include in the output message all characters from the input message,starting with the character at the current cursor position and continuing to, but not including, the particular string “s...s.” The cursor is moved forward to the beginning of the “s...s” string.
Enter Setup E9 and F4 Example: Send all but the last characters, followed by 2 tabs Send all characters except for the last 8 from the barcode above, followed by 2 tabs.
Enter Setup B3 and B4 Example: Insert the symbology name and length Send the symbology name and length before the barcode data from the barcode above. Break up these insertions with spaces. End with a carriage return.
Enter Setup F5 Example: Move the cursor forward and send the data Move the cursor forward 3 characters, then send the rest of the barcode data from the barcode above. End with a carriage return.
Enter Setup Search Commands F8 Search forward for a character Syntax=F8xx (xx: The search character’s hex value) Search the input message forward for “xx” character from the current cursor position, leaving the cursor pointing to the “xx” character. F8 Example: Send barcode data that starts after a particular character Search for the letter “D” in barcodes and send all the data that follows, including the “D”.
Enter Setup B0 Search forward for a string Syntax=B0nnnnS (nnnn: The string length (up to 9999); S: The ASCII hex value of each character in the string) Search forward for “S” string from the current cursor position, leaving cursor pointing to “S” string. For example, B0000454657374 will search forward for the first occurrence of the 4-character string “Test.
Enter Setup E6 Search forward for a non-matching character Syntax=E6xx (xx: The search character’s hexvalue) Search the input message forward for the first non-“xx” character from the current cursor position, leaving the cursor pointing to the non-“xx” character. E6 Example: Remove zeros at the beginning of barcode data This example shows a barcode that has been zero filled. You may want to ignore the zeros and send all the data that follows.
Enter Setup Miscellaneous Commands FB Suppress characters Syntax=FBnnxxyy..zz (nn: The numeric value (00-15) for the number of suppressed characters; xxyy..zz: The hex value of the characters to be suppressed) Suppress all occurrences of up to 15 different characters, starting at the current cursor position, as the cursor is advanced by other commands. FB Example: Remove spaces in barcode data This example shows a barcode that has spaces in the data.
Enter Setup E4 Example: Replace zeros with CRs in barcode data If the barcode has characters that the host application does not want included, you can use the E4 command to replace those characters with something else. In this example, you will replace the zeros in the barcode above with carriage returns.
Enter Setup BA Replace a string with another Syntax=BAnnNN1SS1NN2SS 2 nn: The count of replacements to be made, if nn=00 or nn>=the number of occurrences of a string to be replaced, then replace all occurrences of that string. NN1: The length of the string to be replaced, NN1 >0. SS1: The ASCII hex value of each character in the string to be replaced. NN2: The length of replacement string, NN2>=0. To replace string “SS1 ” with NUL (i.e. deIete string “SS1 ”), you should set NN2 to 00 and leave out SS2.
Enter Setup 41 is the hex value for A (character in the replacement string) 42 is the hex value for B (character in the replacement string) 43 is the hex value for C (character in the replacement string) F1 is the “Send all characters” command 00 is the hex value for a NUL The data is output as: 1ABC4AbcABCR01ABCU BA Example: Remove only the first occurrence of “23”s in barcode data If the barcode has a string of characters that the host application wants removed, you can use the BA command to replace the
Enter Setup EF Insert a delay Syntax=EFnnnn (nnnn: The delay in 5ms increments, up to 9999) Inserts a delay of up to 49,995 milliseconds (in multiples of 5), starting from the current cursor position. This command can only be used with USB HID Keyboard. EF Example: Insert a delay of 1s between the 5th and 6th character Send the first 5 characters in a barcode, wait for 1s, then send the rest of the barcode data.
Enter Setup B5 Insert key strokes Syntax=B5nnssxx (nn: The number of keys pressed (without key modifiers); ss: the key modifier from the table below; xx: the key number from the “Unicode Key Maps” in Appendix.) Inserta keystroke orcombination ofkeystrokes. Keystrokesare dependent on yourkeyboard(see the “Unicode KeyMaps” in Appendix). This command can only be used with USB HID Keyboard.
Enter Setup Chapter 7 Prefix & Suffix Introduction A 1D barcode could contain digits, letters, symbols, etc. A 2D barcode could contain more data, such as Chinese characters and other multi-byte characters. However, in real applications, they do not and should not have all information we need, such as barcode type, data acquisition time and delimiter, in order to keep the barcodes short andflexible. Preffix and suffix are how to fulfill the needs mentioned above.
Enter Setup Global Settings Enable/Disable All Prefixes/Suffixes Disable All Prefixes/Suffixes: Transmit barcode data with no prefix/suffix. Enable All Prefixes/Suffixes: Allow to append Code ID prefix, AIM ID prefix, custom prefix/suffixand terminating character to the barcode data before the transmission.
Enter Setup Custom Prefix Enable/Disable Custom Prefix If custom prefix is enabled, you are allowed to append to the data a user-defined prefix that cannot exceed 10 characters. For example, if the custom prefix is “AB” and the barcode data is “123”, the Host will receive “AB123”.
Enter Setup AIM ID Prefix AIM (Automatic Identification Manufacturers) ID defines symbology identifier (For the details, see the “AIM ID Table” section in Appendix). If AIM ID prefix is enabled, the engine will add the symbology identifier before the scanned data after decoding. ** Disable AIM ID Prefix Enable AIM ID Prefix AIM ID is not user programmable.
Enter Setup Code ID Prefix Code ID can also be used to identify barcode type. Unlike AIM ID, Code ID is user programmable. Code ID can only consist of one or two English letters. ** Disable Code ID Prefix Enable Code ID Prefix Restore All Default Code IDs For the information of default Code IDs, see the “Code ID Table” section in Appendix. Restore All Default Code IDs Modify Code ID See the examples below to learn how to modify a Code ID and restore the default Code IDs of all symbologies.
Enter Setup Modify PDF417 Code ID to be “p” (HEX: 0x70): 1. Scan the Enter Setup barcode. 2. Scan the Modify PDF417 Code ID barcode. 3. Scan the numeric barcodes “7” and “0” from the “Digit Barcodes” section inAppendix. 4. Scan the Save barcode from the “Save/Cancel Barcodes” section inAppendix. 5. Scan the Exit Setup barcode. Restore the default Code IDs of all symbologies: 1. Scan the Enter Setup barcode. 2. Scan the Restore All Default Code IDs barcode. 3. Scan the Exit Setup barcode.
Enter Setup 1D symbologies: Modify Code 128 Code ID Modify GS1-128 Code ID Modify EAN-8 Code ID Modify EAN-13 Code ID Modify UPC-E Code ID Modify UPC-A Code ID Modify Interleaved 2 of 5 Code ID ** Exit Setup 203
Enter Setup Modify ITF-14 Code ID Modify ITF-6 Code ID Modify Matrix 2 of 5 Code ID Modify Code 39 Code ID Modify Codabar Code ID Modify Code 93 Code ID Modify AIM 128 Code ID ** Exit Setup 204
Enter Setup Modify ISSN Code ID Modify ISBN Code ID Modify Industrial 25 Code ID Modify Standard 25 Code ID Modify Plessey Code ID Modify Code 11 Code ID Modify MSI-Plessy Code ID ** Exit Setup 205
Enter Setup Modify GS1 Databar Code ID ** Exit Setup 206
Enter Setup 2D symbologies: Modify PDF417 Code ID Modify QR Code ID Modify Data Matrix Code ID ** Exit Setup 207
Enter Setup Modify Micro QR Code ID ** Exit Setup 208
Enter Setup Custom Suffix Enable/Disable Custom Suffix If custom suffix is enabled, you are allowed to append to the data a user-defined suffix that cannot exceed 10 characters. For example, if the custom suffix is “AB” and the barcode data is “123”, the Host will receive “123AB”.
Enter Setup Data Packing Introduction Data packing is designed for a specific group of users who want to have the data packed before transmission. Data packing influences data format, so it is advised to disable this feature when it is notrequired. Data Packing Options Disable Data Packing: Transmit decoded data in raw format (unpacketed). Enable Data Packing, Format 1: Transmit decoded data with the packet format 1 defined below.
Enter Setup ** Disable Data Packing Enable Data Packing, Format 1 Enable Data Packing, Format 2 ** Exit Setup 211
Enter Setup Terminating Character Suffix Enable/Disable Terminating CharacterSuffix A terminating character such as carriage return (CR) or carriage return/line feed pair (CRLF) can only be used to mark the end of data, which means nothing can be added afterit.
Enter Setup Set the terminating character suffix to 0x0A: 1. Scan the Enter Setup barcode. 2. Scan the Set Terminating Character Suffix barcode. 3. Scan the numeric barcodes “0” and “A” from the “Digit Barcodes” section inAppendix. 4. Scan the Save barcode from the “Save/Cancel Barcodes” section in Appendix. 5. Scan the Enable Terminating Character Suffix barcode. 6. Scan the Exit Setup barcode.
Enter Setup Chapter 8 Batch Programming Introduction Batch programming enables users to integrate a batch of commands into a single batch barcode. Listed below are batch programming rules: 1. Command format: Command + Parameter Value. 2. Each command is terminated by a semicolon (;). Note that there is no space between a command and its terminator semicolon. 3. Use the barcode generator software to generate a 2D batchbarcode.
Enter Setup Create a Batch Command A batch command may contain a number of individual commands each of which is terminated by a semicolon (;). For more information, refer to the “Use of Programming Command” section in Chapter 3. Create a Batch Barcode Batch barcodes can be produced in the format of PDF417, QR Code or Data Matrix. Example: Create a batch barcode for inernal lllumination Always On, Sense Mode, Decode Session Timeout = 2s: 1. Input the following commands: @ILLSCN2;SCNMOD2;ORTSET2000; 2.
Enter Setup Use Batch Barcode To put a batch barcode into use, scan the following barcodes. (Use the example above.
Appendix Digit Barcodes 0~9 0 1 2 3 4 5 217
6 7 8 9 218
A~F A B C D E F 219
Save/Cancel Barcodes After reading numeric barcode(s), you need to scan the Save barcode to save the data. If you scan the wrong digit(s), you can either scan the Cancel barcode and then start the configuration all over again, or scan the Delete the Last Digit barcode and then the correct digit, or scan the Delete All Digits barcode and then the digits youwant.
Factory Defaults Table Parameter Factory Default Remark System Settings Barcode Programming Disabled (Exit Setup) Programming Barcode Data Do not transmit Internal Illumination Normal Aiming Normal Good Read LED On Good Read LED Duration Short (20ms) Power On Beep On Good Read Beep On Good Read Beep Duration Medium (80ms) Good Read Beep Frequency Medium (2730Hz) Good Read Beep Volume Loud Scan Mode Sense Mode Decode Session Timeout 3,000ms.
Default Interface USB HID Keyboard RS-232 Interface Baud Rate 9600 Parity Check None Data Bits 8 Stop Bits 1 USB Interface USB Country Keyboard US keyboard USB HID Keyboard Beep on Unknown Character Off USB HID Keyboard Emulate ALT+Keypad Off USB HID Keyboard Code Page Code Page 1252 (West European Latin) USB HID Keyboard Unicode Encoding Off USB HID Keyboard Emulate Keypad with Leading Zero On USB HID Keyboard Function Key Mapping Disable USB HID Keyboard Inter-Keystroke Dela
Convert EAN-8 to EAN-13 Disabled EAN-13 EAN-13 Enabled Check Character Transmit 2-Digit Add-On Code Disabled 5-Digit Add-On Code Disabled Add-On Code Not Required EAN-13 Beginning with 290 Add-On Code Required EAN-13 Beginning with 378/379 Add-On Code Required EAN-13 Beginning with 414/419 Add-On Code Required EAN-13 Beginning with 434/439 Add-On Code Required EAN-13 Beginning with 977 Add-On Code Required EAN-13 Beginning with 978 Add-On Code Required EAN-13 Beginning with 979 Add-On Code Requi
Transmit Preamble Character No Preamble Interleaved 2 of 5 Interleaved 2 of 5 Enabled Maximum Length 80 Minimum Length 6 Check Character Verification Disabled No less than 4 Febraban Febraban Transmit Delay per Character Transmit Delay per 12 Characters Disabled Disabled 70ms Disabled 500ms ITF-14 ITF-14 Disabled ITF-6 ITF-6 Disabled Matrix 2 of 5 Matrix 2 of 5 Enabled Maximum Length 80 Minimum Length 4 Check Character Verification Disabled No less than 4 Code 39 Code 39 Enabled
Check Character Verification Start/Stop Character Disabled Do not transmit ABCD/ABCD Code 93 Code 93 Disabled Maximum Length 48 Minimum Length 1 Check Character Verification Do Not Transmit Check Character After Verification GS1-128 (UCC/EAN-128) GS1-128 Enabled Maximum Length 48 Minimum Length 1 GS1 Databar GS1 Databar Enabled Application Identifier “01” Transmit Code 11 Code 11 Disabled Maximum Length 48 Minimum Length 4 Check Character Verification One Check Character, MOD11 C
Plessey Plessey Disabled Maximum Length 48 Minimum Length 4 Check Character Verification Disabled No less than 4 MSI-Plessey MSI-Plessey Disabled Maximum Length 48 Minimum Length 4 Check Character Verification One Check Character, MOD10 Check Character Transmit No less than 4 AIM 128 AIM 128 Disabled Maximum Length 48 Minimum Length 1 PDF417 PDF417 Enabled Maximum Length 4096 Minimum Length 1 PDF417 Twin Code Single PDF417 Only Character Encoding Default Character Encoding
Maximum Length 4096 Minimum Length 1 Data Matrix Twin Code Single Data Matrix Only Rectangular Barcode Enabled Character Encoding Default Character Encoding Data Matrix ECI Output Enabled Data Formatter Data Formatter Disabled Non-Match Error Beep On Data Format Selection Format_0 Prefix & Suffix All Prefixes/Suffixes Disabled Prefix Sequence Code ID+ Custom +AIM ID Custom Prefix Disabled AIM ID Prefix Disabled Code ID Prefix Disabled Custom Suffix Disabled Data Packing Disabl
ITF-14 ]Im 1, 3 ITF-6 ]Im 1, 3 Matrix 2 of 5 ]X0 Code 39, Code 32 ]Am 0, 1, 3, 4, 5, 7 Codabar ]Fm 0, 2, 4 Code 93 ]G0 AIM 128 ]C2 ISSN ]X0 ISBN ]X0 Industrial 25 ]S0 Standard 25 ]R0 Plessey ]P0 Code 11 ]Hm 0, 1, 3 MSI Plessey ]Mm 0, 1 GS1 Databar (RSS) ]e0 228
Symbology AIM ID Possible AIM ID Modifiers (m) PDF417 ]Lm 0-2 QR Code ]Qm 0-6 Data Matrix ]dm 0-6 Micro QR ]Q1 Note:“m” represents the AIM modifiercharacter. Referto ISO/IEC 15424:2008 Informationtechnology – Automatic identification and data capture techniques – Data Carrier Identifiers (including Symbology Identifiers) forAIM modifier character details.
Code ID Table Symbology Code ID Code128 j GS1-128 (UCC/EAN-128) j EAN-8 d EAN-13 d UPC-E c UPC-A c Interleaved 2 of 5, e ITF-14 e ITF-6 e Matrix 2 of 5 v Code 39, Code 32 b Codabar a Code 93 i AIM 128 X ISSN g ISBN B Industrial 25 I Standard 25 f Plessey n Code 11 H MSI Plessey m GS1 Databar (RSS) R PDF417 r QR Code s Data Matrix u 230
Symbology Micro QR Code ID X 231
Symbology ID Number Symbology ID Number Code 128 002 GS1-128 (UCC/EAN-128) 003 EAN-8 004 EAN-13 005 UPC-E 006 UPC-A 007 Interleaved 2 of 5, 008 ITF-14 009 ITF-6 010 Matrix 2 of 5 011 Code 39, Code 32 013 Codabar 015 Code 93 017 AIM 128 020 ISSN 023 ISBN 024 Industrial 25 025 Standard 25 026 Plessey 027 Code11 028 MSI-Plessey 029 GS1 Databar (RSS) 031 PDF417 032 QR Code 033 Data Matrix 035 232
Symbology Micro QR ID Number 043 233
ASCII Table Hex Dec Char 00 0 NUL (Null char.
Hex Dec Char 1e 30 RS 1f 31 US (Unit Separator) 20 32 SP (Space) 21 33 ! (Exclamation Mark) 22 34 " (Double Quote) 23 35 # (Number Sign) 24 36 $ (Dollar Sign) 25 37 % (Percent) 26 38 & (Ampersand) 27 39 ` (Single Quote) 28 40 ( (Left/ Opening Parenthesis) 29 41 ) (Right/ Closing Parenthesis) 2a 42 * (Asterisk) 2b 43 + (Plus) 2c 44 , (Comma) 2d 45 - (Minus/ Dash) 2e 46 .
Hex Dec Char 3e 62 > (Greater Than) 3f 63 ? (Question Mark) 40 64 @ (ATSymbol) 41 65 A 42 66 B 43 67 C 44 68 D 45 69 E 46 70 F 47 71 G 48 72 H 49 73 I 4a 74 J 4b 75 K 4c 76 L 4d 77 M 4e 78 N 4f 79 O 50 80 P 51 81 Q 52 82 R 53 83 S 54 84 T 55 85 U 56 86 V 57 87 W 58 88 X 59 89 Y 5a 90 Z 5b 91 [ (Left/ Opening Bracket) 5c 92 \ (Back Slash) 5d 93 ] (Right/ Closing Bracket) 236
Hex Dec 5e Char 94 ^ (Caret/ Circumflex) 5f 95 _ (Underscore) 60 96 ' (Grave Accent) 61 97 a 62 98 b 63 99 c 64 100 d 65 101 e 66 102 f 67 103 g 68 104 h 69 105 i 6a 106 j 6b 107 k 6c 108 l 6d 109 m 6e 110 n 6f 111 o 70 112 p 71 113 q 72 114 r 73 115 s 74 116 t 75 117 u 76 118 v 77 119 w 78 120 x 79 121 y 7a 122 z 7b 123 { (Left/ Opening Brace) 7c 124 | (Vertical Bar) 7d 125 } (Right/ Closing Brace) 7e 1
Unicode Key Maps 104 Key U.S. Style Keyboard 105 Key European Style Keyboard For Any Technical Support, please contact us at: kontakt@quio-rfid.
