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Related Manuals for Newland NLS-EM2000
Summary of Contents for Newland NLS-EM2000
- Page 1 NLS-EM2000 Embedded 2D Barcode Scan Engine User Guide...
- Page 2 Do not disassemble the device or remove the seal label from the device. Otherwise, Fujian Newland Auto-ID Tech. Co., Ltd. does not assume responsibility for the warranty or replacement.
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Page 3: Revision History
Revision History Version Description Date V1.0.0 Initial release. April 10, 2015... -
Page 4: Table Of Contents
Table of Contents Revision History ............................3 Chapter 1 Getting Started ..........................1 Introduction ............................1 About This Guide ..........................2 Barcode Scanning ..........................2 Configuring the EM2000 ........................2 Barcode Programming ......................... 2 Command Programming......................3 Read Register ........................3 Write Register ........................ - Page 5 HID-POS ........................... 41 Access the Scanner with Your Program ................42 Acquire Scanned Data ......................42 VID/PID ..........................42 Chapter 3 Scan Mode ..........................43 Manual Mode ........................... 43 Continuous Mode ..........................44 Decode Session Timeout......................44 Timeout between Decodes ......................45 Sense Mode .............................
- Page 6 Enable/Disable All Symbologies ....................59 Enable/Disable 1D Symbologies ....................59 Enable/Disable 2D Symbologies ....................59 Video Reverse ........................... 60 1D Symbologies ..........................61 Code 128 ..........................61 Restore Factory Defaults ....................61 Enable/Disable Code 128 ....................61 UCC/EAN-128 (GS1-128) ......................62 Restore Factory Defaults ....................
- Page 7 Transmit Check Digit ......................72 Add-On Code ........................73 Add-On Code Required ...................... 74 Transmit System Character ....................74 UPC-E Extension ....................... 74 UPC-A ............................75 Restore Factory Defaults ....................75 Enable/Disable UPC-A ....................... 75 Transmit Check Digit ......................75 Add-On Code ........................
- Page 8 Codabar ............................ 91 Restore Factory Defaults ....................91 Enable/Disable Codabar ..................... 91 Check Digit Verification ...................... 92 Transmit Start/Stop Character .................... 92 Start/Stop Character Format ....................93 Code 93 ............................ 94 Restore Factory Defaults ....................94 Enable/Disable Code 93 ..................... 94 Check Digit Verification ......................
- Page 9 Data Matrix ..........................106 Restore Factory Defaults ....................106 Enable/Disable Data Matrix ....................106 Rectangular Barcodes .......................106 Mirror Images ........................107 QR Code ..........................108 Restore Factory Defaults ....................108 Enable/Disable QR Code....................108 Micro QR ...........................108 Mirrored Micro QR ......................109 Appendix ..............................110 Appendix A: Factory Defaults Table ....................110 Appendix B: AIM ID Table .......................116 Appendix C: Code ID Table ......................119 Appendix D: ASCII Table ........................120...
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Page 11: Chapter 1 Getting Started
Chapter 1 Getting Started Introduction The NLS-EM2000 embedded 2D barcode scan engine (hereinafter referred to as “the EM2000” or “the engine”), armed with the Newland patented , a computerized image recognition system, brings about a new era of 2D barcode scan engines. -
Page 12: About This Guide
(**) are factory default values. Barcode Scanning Powered by area-imaging technology and Newland patented technology, the EM2000 features fast scanning and accurate decoding. Barcodes rotated at any angle can still be read with ease. When scanning a barcode, simply center the aiming pattern projected by the EM2000 over the barcode. -
Page 13: Command Programming
Command Programming Besides the barcode programming method, the EM2000 can also be configured by serial commands sent from the host device. Note that communication parameters on the engine and the host must match so that two devices can communicate with each other. The default settings of the engine are 9600bps, no parity check, 8 data bits, 1 stop bit, and no flow control. - Page 14 unsigned int crc_cal_by_bit(unsigned char* ptr, unsigned int len) unsigned int crc = 0; while(len-- != 0) for(unsigned char i = 0x80; i != 0; i /= 2) crc *= 2; if((crc&0x10000) !=0) crc ^= 0x11021; if((*ptr&i) != 0) crc ^= 0x1021; ptr++;...
- Page 15 Reply: {Prefix2} {Types} {Lens} {Datas} {FCS} 1) Success message: Prefix2 : 0x02 0x00 Types : 0x00 (success) Lens : The number of data returned. If Lens=0x00, that means values of 256 contiguous registers are returned. Datas : 0x00~0xFF, data that are returned. : CRC-CCITT checksum.
- Page 16 Example: Read the content (0x3E) of register 0x000A 1) Read operation succeeds: Command sent: 0x7E 0x00 0x07 0x01 0x00 0x0A 0x01 0xEE 0x8A Message received: 0x02 0x00 0x00 0x01 0x3E 0xE4 0xAC 2) CRC check fails: Command sent: 0x7E 0x00 0x07 0x01 0x00 0x0A 0x01 0x11 0x22...
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Page 17: Write Register
Write Register The write command is used to write contiguous registers (1 to 256 registers) in the engine. Syntax: {Prefix1} {Types} {Lens} {Address} {Datas} {FCS} Prefix1 : 0x7E 0x00 (2 bytes) Types : 0x08 (1 byte) Lens : 0x00~0xFF (1 byte), byte count, i.e. number of registers written. When Lens=0x00, 256 contiguous registers are to be written. - Page 18 unsigned int crc_cal_by_bit(unsigned char* ptr, unsigned int len) unsigned int crc = 0; while(len-- != 0) for(unsigned char i = 0x80; i != 0; i /= 2) crc *= 2; if((crc&0x10000) !=0) crc ^= 0x11021; if((*ptr&i) != 0) crc ^= 0x1021; ptr++;...
- Page 19 Reply: {Prefix2} {Types} {Lens} {Datas} {FCS} 1) Success message: Prefix2 : 0x02 0x00 Types : 0x00 (success) Lens : 0x01 Datas : 0x00 : CRC-CCITT checksum (0x33 0x31) 2) CRC check failure message: Prefix2 : 0x02 0x00 Types : 0x01 (CRC check failure) Lens : 0x01 Datas : 0x00...
- Page 20 Example: Write 0x3E into register 0x000A 1) Write operation succeeds: Command sent: 0x7E 0x00 0x08 0x01 0x00 0x0A 0x3E 0x4C 0xCF Message received: 0x02 0x00 0x00 0x01 0x00 0x33 0x31 2) CRC check fails: Command sent: 0x7E 0x00 0x08 0x01 0x00 0x0A 0x3E 0x11 0x22...
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Page 21: Save Register Data In Eeprom
Save Register Data in EEPROM The save command is used to save register data into an external EEPROM. Syntax: {Prefix1} {Types} {Lens} {Address} {Datas} {FCS} Prefix1 : 0x7E 0x00 Types : 0x09 Lens : 0x01 Address: 0x0000 Datas : 0x00 : CRC-CCITT checksum (0xDE 0xC8) Reply: {Prefix2} {Types} {Lens} {Datas} {FCS} 1) Success message:... - Page 22 3) Invalid command message: Prefix2 : 0x02 0x00 Types : 0x03 (invalid command) Lens : 0x01 Datas : 0x00 : CRC-CCITT checksum (0x6A 0x61)
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Page 23: Relationship Between Programming Command And Serial Command
Relationship between Programming Command and Serial Command 1. Program general parameter with serial command A programming command (i.e. the characters under programming barcode) contains 7 characters. The function of each character is described in the table below. 1st Char 2nd Char ~3rd Char 4th Char~5th Char 6th Char~7th Char Remark BITPOSITION ADDR... - Page 24 reply received : 0x02 0x00 0x00 0x01 0xD4 0xB8 0xC8 Step 2: Calculate the value written to the register. Datas = (0xD4 & (! 0x03)) + 0x02 = 0xD5 Step 3: Write the value into the register. serial command sent : 0x7E 0x00 0x08 0x01 0x00 0x00 0xD5 0xEF 0x41...
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Page 25: Registers
Registers 0x0000 Register Feature Bit 7 1: Good read LED on 0: Good read LED off Bit 6 1: Disable the mute mode 0: Enable the mute mode Aiming: Bit 5-4 00: OFF 01: Normal 10/11: Always ON Illumination: Bit 3-2 00: OFF 01: Normal 10/11: Always ON... - Page 26 Register 0x0009 Feature Good Read Beep Frequency Bit 7-0 0xDA: Low 0x4B: Medium 0x25: High Register 0x000A Feature Good Read Beep Duration Bit 7-0 0x1F: 40ms 0x3E: 80ms 0x5D: 120ms Register 0x000C Feature Bit 7-4 Reserved Bit 3 1: Enable Data Matrix 0: Disable Data Matrix Bit 2 1: Enable 1D symbologies...
- Page 27 Register 0x0010 Feature Bit 7-5 Reserved 00: Disable AIM ID prefix for 1D symbologies Bit 4-3 01: Allow to enable/disable AIM ID prefix for individual 1D symbology 10/11: Enable AIM ID prefix for 1D symbologies Bit 2-0 Reserved 0x0011 Register Feature 1: Enable AIM ID prefix for ISSN 0: Disable AIM ID prefix for ISSN...
- Page 28 0x0013 Register Feature Bit 7 Reserved Bit 6 1: Enable EAN-8 zero extend 0: Disable EAN-8 zero extend Bit 5 1: Enable EAN-8 5-digit add-on code 0: Disable EAN-8 5-digit add-on code Bit 4 1: Enable EAN-8 2-digit add-on code 0: Disable EAN-8 2-digit add-on code Bit 3 1: EAN-8 add-on code required...
- Page 29 Register 0x0016 Feature 1: Transmit AIM 128 check digit in the format of “~nnn” (nnn: ASCII decimal value of check digit) Bit 7 0: Do not transmit AIM 128 check digit 1: FNC1 character in AIM 128 transmitted as “~” (ASCII value: 126) Bit 6 0: FNC1 character in AIM 128 transmitted as GS (ASCII value: 29) 1: Enable AIM ID prefix for AIM 128...
- Page 30 Register 0x0018 Feature Bit 7 1: Transmit ITF-14 check digit 0: Do not transmit ITF-14 check digit 1: Enable AIM ID prefix for ITF-14 0: Disable AIM ID prefix for ITF-14 Bit 6 Note: Bit4 and Bit3 of register 0x0010 must be set to “01” in order for this parameter to function. Bit 5 1: Enable ITF-14 0: Disable ITF-14...
- Page 31 Register 0x001A Feature 1: Transmit Standard 2 of 5 check digit 0: Do not transmit Standard 2 of 5 check digit Bit 7 Note: Standard 2 of 5 check digit verification must be enabled for this parameter to function. Bit 6 1: Enable Standard 2 of 5 check digit 0: Disable Standard 2 of 5 check digit 1: Enable AIM ID prefix for Standard 2 of 5...
- Page 32 Register 0x001C Feature Bit 7-6 Reserved Bit 5 1: Enable Code 39 Full ASCII 0: Disable Code 39 Full ASCII 1: Transmit Code 39 check digit 0: Do not transmit Code 39 check digit Bit 4 Note: Code 39 check digit verification must be enabled for this parameter to function. Bit 3 1: Enable Code 39 check digit 0: Disable Code 39 check digit...
- Page 33 Register 0x001E Feature Bit 7-6 Reserved 1: Transmit Codabar check digit 0: Do not transmit Codabar check digit Bit 5 Note: Code 39 check digit verification must be enabled for this parameter to function. Bit 4 1: Enable Codabar check digit 0: Disable Codabar check digit Codabar Start/Stop Character Format: Bit 3-2...
- Page 34 Register 0x0020 Feature Bit 7-3 Reserved 1: Enable AIM ID prefix for MSI-Plessey 0: Disable AIM ID prefix for MSI-Plessey Bit 2 Note: Bit4 and Bit3 of register 0x0010 must be set to “01” in order for this parameter to function. 1: Enable AIM ID prefix for Plessey 0: Disable AIM ID prefix for Plessey Bit 1...
- Page 35 Register 0x004B Feature Bit 7-2 Reserved Bit 1 1: Decode rectangular Data Matrix 0: Do not decode rectangular Data Matrix Bit 0 Reserved Register 0x0060 Feature Bit 7 Reserved Terminating Character Suffix: Bit 6-5 00/11: CR (0x0D) 01: CRLF (0x0D,0x0A) 10: TAB (0x09) Bit 4 Reserved...
- Page 36 Register 0x006F Feature Inter-keystroke delay Bit 7-6 00: No delay 01: Short delay (5ms) 10: Medium delay (10ms) 11: Long delay (15ms) Convert case Bit 5-4 00: No case conversion 10: Convert All to Upper Case 11: Convert All to Lower Case Bit 3 Reserved Bit 2...
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Page 37: Programming Barcode Data
Programming Barcode Data Programming barcode data (e.g. WFFD980) can be transmitted to the Host. To enable this feature, scan the barcode below. After the feature is enabled, programming barcodes will be handled as non-programming barcodes and they cannot be used to configure the scan engine. The barcode data will be sent to the Host when a programming barcode is scanned and decoded. -
Page 38: Chapter 2 Communication Interfaces
Chapter 2 Communication Interfaces The EM2000 provides a TTL-232 interface and a USB interface to communicate with the host device. The host device can receive scanned data and send commands to control the engine or to access/alter the configuration information of the engine via the TTL-232 or USB interface. TTL-232 Interface Serial communication interface is usually used to connect the engine to a host device (like PC, POS). -
Page 39: Baud Rate
Baud Rate Baud rate is the number of bits of data transmitted per second. Set the baud rate to match the Host requirements. ** 9600 1200 19200 2400 38400 4800 57600 14400 115200... -
Page 40: Usb Interface
USB Interface When the EM2000 is connected to a host device through its USB interface, USB DATAPIPE is enabled by default. User can switch between options – USB DATAPIPE, USB HID-KBW, USB COM Port Emulation and HID-POS, upon actual need. USB DATAPIPE A driver is required when using this protocol to communicate with the engine. -
Page 41: Standard Keyboard
Standard Keyboard When the USB HID-KBW feature is enabled, the engine selects Standard Keyboard by default. Besides that, the other two options are provided: Emulate ALT+Keypad and Function Key Mapping. ** Standard Keyboard Emulate ALT+Keypad When Emulate ALT+Keypad is enabled, any ASCII character (0x00 - 0xFF) is sent over the numeric keypad no matter which keyboard type is selected. -
Page 42: Function Key Mapping
Function Key Mapping When Function Key Mapping is enabled, function character (0x00 - 0x1F) are sent as ASCII sequences over the numeric keypad. CTRL Make Press function key (Refer to the ASCII Function Key Mapping Table on the following page) CTRL Break Function Key Mapping... -
Page 43: Ascii Function Key Mapping Table
ASCII Function Key Mapping Table ASCII Value ASCII Value Function Key Function Key (HEX) (HEX)... -
Page 44: Usb Country Keyboard Types
USB Country Keyboard Types Keyboard layouts vary from country to country. All supported keyboard types are listed below. The default setting is US keyboard. ** 1 - U.S. 2 - Belgium 3 - Brazil 4 - Canada 5 - Czech 6 - Denmark 7 - Finland 8 - France... - Page 45 9 - Austria 10 - Greece 11 - Hungary 12 - Israel 13 - Italy 14 - Latin America 15 - Netherland 16 - Norway 17 - Poland 18 - Portugal...
- Page 46 19 - Romania 20 - Russia 21 - Slovakia 22 - Spain 23 - Sweden 24 - Switzerland 25 - Turkey1 26 - Turkey 2 27 - UK 28 - Japan...
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Page 47: Beep On Unknown Character
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. -
Page 48: Caps Lock
Caps Lock The Caps Lock ON option 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’s keyboard. ** Caps Lock OFF Caps Lock ON Note: Emulate ALT+Keypad ON/ Convert All to Upper Case/ Convert All to Lower Case prevails over Caps Lock ON. -
Page 49: Convert Case
Convert Case Scan the appropriate barcode below to convert all bar code data to your desired case. ** No Case Conversion Convert All to Lower Case Convert All to Upper Case Example: When the Convert All to Lower Case feature is enabled, barcode data “AbC” is transmitted as “abc”. -
Page 50: Emulate Numeric Keypad
Emulate Numeric Keypad When this feature is disabled, sending barcode data is emulated as keystroke(s) on main keyboard. To enable this feature, scan the Emulate Numeric Keypad barcode. Sending a number (0-9) is emulated as keystroke on numeric keypad, whereas sending other character like “+”, “_”, “*” , “/” and “.” is still emulated as keystroke on main keyboard. -
Page 51: Usb Com Port Emulation
USB COM Port Emulation If you connect the engine to the Host via a USB connection, the USB COM Port Emulation feature allows the Host to receive data in the way as a serial port does. However, you need to set communication parameters on the engine to match the Host requirements. -
Page 52: Access The Scanner With Your Program
USB uses VID (Vendor ID) and PID (Product ID) to identify and locate a device. The VID is assigned by USB Implementers Forum. Newland’s vendor ID is 1EAB (Hex). A range of PIDs are used for each Newland product family. Every PID contains a base number and interface type (keyboard, COM port, etc.). -
Page 53: Chapter 3 Scan Mode
Chapter 3 Scan Mode Manual Mode Manual Mode (default): A trigger pull activates a decode session. The decode session continues until the barcode is decoded or the trigger is released. **Manual Mode... -
Page 54: Continuous Mode
Continuous Mode Continuous Mode: The engine automatically activates a decode session. The decode session continues until the barcode is decoded or the decode session timeout expires. When a decode session is completed, the engine waits until the timeout between decodes expires and then starts next session. The engine continues to work in this pattern if the following situation does not happen: no barcode is presented to the engine or passed in front of it in a decode session, the engine will automatically suspend barcode reading. -
Page 55: Timeout Between Decodes
Timeout between Decodes This parameter sets the timeout between decode sessions. When a decode session ends, next session will not happen until the timeout between decodes expires. It is programmable in 0.1s increments from 0.1s to 25.5s. The default timeout is 1.0s. To learn how to program this parameter, see Appendix E: Parameter Programming Examples. -
Page 56: Sense Mode
Sense Mode Sense Mode: The engine waits for the image stabilization timeout to expire before activating a decode session every time it detects a change in ambient illumination. Decode session continues until the barcode is decoded or the decode session timeout expires. After a decode session ends, the engine waits for the timeout between decodes to expire before beginning to monitor ambient illumination. -
Page 57: Timeout Between Decodes
Timeout between Decodes After a decode session ends, the engine waits for the timeout between decodes to expire before beginning to monitor ambient illumination. This parameter is programmable in 0.1s increments from 0.1s to 25.5s. The default timeout is 1.0s. To learn how to program this parameter, see Appendix E: Parameter Programming Examples. -
Page 58: Sensitivity
Sensitivity Sensitivity specifies the degree of acuteness of the engine’s response to changes in ambient illumination. The higher the sensitivity, the lower requirement in illumination change to trigger the engine. You can select an appropriate degree of sensitivity that fits the ambient environment. The default setting is Medium Sensitivity. -
Page 59: Command Trigger Mode
Command Trigger Mode Command Trigger Mode: Decode session is activated by a host command (i.e. set the bit0 of register 0x0002 to “1”). The decode session continues until the barcode is decoded or the decode session timeout expires. Command Trigger Mode Decode Session Timeout This parameter sets the maximum time decode session continues during a scan attempt. -
Page 60: Ir Trigger Mode
IR Trigger Mode By default, the EM2000 switches to the IR Trigger scan mode (indicated by beeper) when holding down the trigger for over 10 seconds. In this scan mode, the trigger distance is up to 26cm, but it can be altered to meet customerization needs. -
Page 61: Chapter 4 Illumination & Aiming
Chapter 4 Illumination & Aiming Illumination A couple of illumination options are provided to improve the lighting conditions during every image capture: Normal (default): Illumination LED is turned on during image capture. Always ON: Illumination LED keeps ON after the engine is powered on. OFF: Illumination LED is OFF all the time. -
Page 62: Aiming
Aiming When scanning/capturing image, the engine projects an aiming beam which allows positioning the target barcode within its field of view and thus makes decoding easier. Normal (default): The engine projects an aiming beam only during barcode scanning/capture. Always ON: Aiming beam is constantly ON after the engine is powered on. OFF: Aiming beam is OFF all the time. -
Page 63: Chapter 5 Notification
Chapter 5 Notification Mute Mode Scanning the Enable Mute Mode can turn off all notification beeps. By default, mute mode is disabled. Enable Mute Mode **Disable Mute Mode Good Read Beep ** Good Read Beep On Good Read Beep Off... -
Page 64: Good Read Beep Frequency
Good Read Beep Frequency ** Medium High Good Read Beep Duration 40ms **80ms 120ms... -
Page 65: Good Read Led
Good Read LED Good Read LED On Good Read LED Off Decode Result Notification When enabled, if a barcode does not decode, “F” is transmitted; if a barcode is decoded, “S” is appended to the barcode data as the most left character. Enable Decode Result Notification ** Disable Decode Result Notification... -
Page 66: Chapter 6 Data Formatting
Chapter 6 Data Formatting In many applications, barcode data needs to be edited and distinguished from one another. Usually AIM ID and Code ID can be used as identifiers, but in some special cases terminating character suffix like Carriage Return or Line Feed can also be the alternative. The engine can be configured to transmit barcode data in the following format: [“F”/ “S”] + [Code ID] + [AIM ID] + [DATA] + [terminating character] Note: [DATA] must be transmitted while user can decide whether to transmit any of the rest parts. -
Page 67: Code Id Prefix
CODE ID Prefix Code ID can also be used to identify barcode type. For more information, refer to Appendix C: Code ID Table. Enable CODE ID Prefix ** Disable CODE ID Prefix User can choose to transmit original CODE ID or visible CODE ID by scanning the appropriate barcode below. -
Page 68: Terminating Character Suffix
Terminating Character Suffix A terminating character such as carriage return (CR) or carriage return/line feed pair (CRLF) or horizontal tab (TAB) can be used to mark the end of data. ** Disable Terminating Character Suffix Append CR Append CRLF Append TAB... -
Page 69: Chapter 7 Symbologies
Chapter 7 Symbologies Global Settings Enable/Disable All Symbologies If all symbologies are disabled, the engine can only identify programming barcodes. Enable All Symbologies Disable All Symbologies Enable/Disable 1D Symbologies Enable 1D Symbologies Disable 1D Symbologies Enable/Disable 2D Symbologies Enable 2D Symbologies Disable 2D Symbologies... -
Page 70: Video Reverse
Video Reverse Regular barcode: Dark image on a bright background. Inverse barcode: Bright image on a dark background. The examples of regular barcode and inverse barcode are shown below. Regular Barcode Inverse Barcode Video Reverse is used to allow the engine to read barcodes that are inverted. Video Reverse ON: Read both regular barcodes and inverse barcodes. -
Page 71: 1D Symbologies
1D Symbologies Code 128 Restore Factory Defaults Restore the Factory Defaults of Code 128 Enable/Disable Code 128 ** Enable Code 128 Disable Code 128... -
Page 72: Ucc/Ean-128 (Gs1-128)
UCC/EAN-128 (GS1-128) Restore Factory Defaults Restore the Factory Defaults of UCC/EAN-128 Enable/Disable UCC/EAN-128 ** Enable UCC/EAN-128 Disable UCC/EAN-128... -
Page 73: Aim 128
AIM 128 Restore Factory Defaults Restore the Factory Defaults of AIM 128 Enable/Disable AIM 128 ** Enable AIM 128 Disable AIM 128... -
Page 74: Restore Factory Defaults
EAN-8 Restore Factory Defaults Restore the Factory Defaults of EAN-8 Enable/Disable EAN-8 ** Enable EAN-8 Disable EAN-8 Transmit Check Digit EAN-8 is 8 digits in length with the last one as its check digit used to verify the integrity of the data. ** Transmit EAN-8 Check Digit Do Not Transmit EAN-8 Check Digit... -
Page 75: Add-On Code
Add-On Code An EAN-8 barcode can be augmented with a two-digit or five-digit add-on code to form a new one. In the examples below, the part surrounded by blue dotted line is an EAN-8 barcode while the part circled by red dotted line is add-on code. -
Page 76: Add-On Code Required
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 Required ** EAN-8 Add-On Code Not Required EAN-8 Extension Disable EAN-8 Zero Extend: Transmit EAN-8 barcodes as is. Enable EAN-8 Zero Extend: Add five leading zeros to decoded EAN-8 barcodes to extend to13 digits. -
Page 77: Restore Factory Defaults
EAN-13 Restore Factory Defaults Restore the Factory Defaults of EAN-13 Enable/Disable EAN-13 ** Enable EAN-13 Disable EAN-13 Transmit Check Digit EAN-13 is 13 digits in length with the last one as its check digit used to verify the integrity of the data. ** Transmit EAN-13 Check Digit Do Not Transmit EAN-13 Check Digit... -
Page 78: Add-On Code
Add-On Code An EAN-13 barcode can be augmented with a two-digit or five-digit add-on code to form a new one. In the examples below, the part surrounded by blue dotted line is an EAN-13 barcode while the part circled by red dotted line is add-on code. -
Page 79: Add-On Code Required
Add-On Code Required When EAN-13 Add-On Code Required is selected, the engine will only read EAN-13 barcodes that contain add-on codes. EAN-13 Add-On Code Required ** EAN-13 Add-On Code Not Required... -
Page 80: Issn
ISSN Restore Factory Defaults Restore the Factory Defaults of ISSN Enable/Disable ISSN Enable ISSN ** Disable ISSN... -
Page 81: Isbn
ISBN Restore Factory Defaults Restore the Factory Defaults of ISBN Enable/Disable ISBN ** Enable ISBN Disable ISBN Set ISBN Format ** ISBN-13 ISBN-10... -
Page 82: Upc-E
UPC-E Restore Factory Defaults Restore the Factory Defaults of UPC-E Enable/Disable UPC-E ** Enable UPC-E Disable UPC-E Transmit Check Digit UPC-E is 8 digits in length with the last one as its check digit used to verify the integrity of the data. ** Transmit UPC-E Check Digit Do Not Transmit UPC-E Check Digit... -
Page 83: Add-On Code
Add-On Code A UPC-E barcode can be augmented with a two-digit or five-digit add-on code to form a new one. In the examples below, the part surrounded by blue dotted line is a UPC-E barcode while the part circled by red dotted line is add-on code. -
Page 84: Add-On Code Required
Add-On Code Required When UPC-E Add-On Code Required is selected, the engine will only read UPC-E barcodes that contain add-on codes. UPC-E Add-On Code Required ** UPC-E Add-On Code Not Required Transmit System Character The first character of UPC-E barcode is the system character “0”. Transmit System Character “0”... -
Page 85: Upc-A
UPC-A Restore Factory Defaults Restore the Factory Defaults of UPC-A Enable/Disable UPC-A ** Enable UPC-A Disable UPC-A Transmit Check Digit UPC-A is 13 digits in length with the last one as its check digit used to verify the integrity of the data. ** Transmit UPC-A Check Digit Do Not Transmit UPC-A Check Digit... -
Page 86: Add-On Code
Add-On Code A UPC-A barcode can be augmented with a two-digit or five-digit add-on code to form a new one. In the examples below, the part surrounded by blue dotted line is a UPC-A barcode while the part circled by red dotted line is add-on code. -
Page 87: Add-On Code Required
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 Required ** UPC-A Add-On Code Not Required Transmit Preamble Character Transmit Preamble Character “0” ** Do Not Transmit Preamble Character “0” Note: The preamble character “0”... -
Page 88: Interleaved 2 Of 5
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... -
Page 89: Check Digit Verification
Check Digit Verification A check digit is optional for Interleaved 2 o 5 and can be added as the last digit. 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 Digit After Verification: The engine checks the integrity of all Interleaved 2 of 5 barcodes to verify that the data complies with the check digit algorithm. -
Page 90: Transmit Appended "0
Transmit Appended “0” If an Interleaved 2 of 5 barcode contains an odd number of characters, a leading zero must be appended. Scan the appropriate barcode to choose whether to transmit the appended “0”. ** Transmit Appended “0” Do Not Transmit Appended “0”... - Page 91 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. Restore the Factory Defaults of ITF-6 ** Disable ITF-6 Enable ITF-6 But Do Not Transmit Check Digit Enable ITF-6 and Transmit Check Digit Note: It is advisable not to enable ITF-6 and Interleaved 2 of 5 at the same time.
- Page 92 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. Restore the Factory Defaults of ITF-14 Disable ITF-14 Enable ITF-14 But Do Not Transmit Check Digit Enable ITF-14 and Transmit Check Digit Note: It is advisable not to enable ITF-14 and Interleaved 2 of 5 at the same time.
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Page 93: Matrix 2 Of 5
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... -
Page 94: Check Digit Verification
Check Digit Verification Disable Do Not Transmit Check Digit After Verification Transmit Check Digit After Verification... -
Page 95: Industrial 25
Industrial 25 Restore Factory Defaults Restore the Factory Defaults of Industrial 25 Enable/Disable Industrial 25 ** Enable Industrial 25 Disable Industrial 25... -
Page 96: Check Digit Verification
Check Digit Verification ** Disable Do Not Transmit Check Digit After Verification Transmit Check Digit After Verification... -
Page 97: Standard 25
Standard 25 Restore Factory Defaults Restore the Factory Defaults of Standard 25 Enable/Disable Standard 25 ** Enable Standard 25 Disable Standard 25... -
Page 98: Check Digit Verification
Check Digit Verification ** Disable Do Not Transmit Check Digit After Verification Transmit Check Digit After Verification... -
Page 99: Code 39
Code 39 Restore Factory Defaults Restore the Factory Defaults of Code 39 Enable/Disable Code 39 ** Enable Code 39 Disable Code 39 Transmit Start/Stop Character Transmit Start/Stop Character Do Not Transmit Start/Stop Character... -
Page 100: Check Digit Verification
Check Digit Verification Disable Do Not Transmit Check Digit After Verification Transmit Check Digit After Verification Enable/Disable Code 39 Full ASCII The engine can be configured to identify all ASCII characters by scanning the appropriate barcode below. Enable Code 39 Full ASCII ** Disable Code 39 Full ASCII... -
Page 101: Codabar
Codabar Restore Factory Defaults Restore the Factory Defaults of Codabar Enable/Disable Codabar ** Enable Codabar Disable Codabar... -
Page 102: Check Digit Verification
Check Digit Verification Disable Do Not Transmit Check Digit After Verification Transmit Check Digit After Verification Transmit Start/Stop Character Transmit Start/Stop Character Do Not Transmit Start/Stop Character... -
Page 103: Start/Stop Character Format
Start/Stop Character Format ** ABCD/ABCD as the Start/Stop Character ABCD/TN*E as the Start/Stop Character abcd/abcd as the Start/Stop Character abcd/tn*e as the Start/Stop Character... -
Page 104: Code 93
Code 93 Restore Factory Defaults Restore the Factory Defaults of Code 93 Enable/Disable Code 93 ** Enable Code 93 Disable Code 93... -
Page 105: Check Digit Verification
Check Digit Verification Disable Do Not Transmit Check Digit After Verification Transmit Check Digit After Verification... -
Page 106: Code 11
Code 11 Restore Factory Defaults Restore the Factory Defaults of Code 11 Enable/Disable Code 11 ** Enable Code 11 Disable Code 11... -
Page 107: Check Digit Verification
Check Digit Verification Disable ** One Check Digit, MOD11 Two Check Digits, MOD11/MOD11 Two Check Digits, MOD11/MOD9 One Check Digit, MOD11 (Len <= 11) One Check Digit, MOD11 (Len <= 11) Two Check Digits, MOD11/MOD11 (Len > 11) Two Check Digits, MOD11/MOD9 (Len > 11) ** Transmit Check Digit Do Not Transmit Check Digit... -
Page 108: Plessey
Plessey Restore Factory Defaults Restore the Factory Defaults of Plessey Enable/Disable Plessey ** Enable Plessey Disable Plessey... -
Page 109: Check Digit Verification
Check Digit Verification Disable ** Do Not Transmit Check Digit After Verification Transmit Check Digit After Verification... -
Page 110: Msi-Plessey
MSI-Plessey Restore Factory Defaults Restore the Factory Defaults of MSI-Plessey Enable/Disable MSI-Plessey ** Enable MSI-Plessey Disable MSI-Plessey... -
Page 111: Check Digit Verification
Check Digit Verification Disable ** One Check Digit, MOD10 Two Check Digits, MOD10/MOD10 Two Check Digits, MOD10/MOD11 ** Transmit Check Digit Do Not Transmit Check Digit... -
Page 112: 102
RSS-14 Restore Factory Defaults Restore the Factory Defaults of RSS-14 Enable/Disable RSS-14 ** Enable RSS-14 Disable RSS-14 Transmit Application Identifier “01” ** Transmit Application Identifier “01” Do Not Transmit Application Identifier “01”... -
Page 113: Rss-Limited
RSS-Limited Restore Factory Defaults Restore the Factory Defaults of RSS-Limited Enable/Disable RSS-Limited ** Enable RSS-Limited Disable RSS-Limited Transmit Application Identifier “01” ** Transmit Application Identifier “01” Do Not Transmit Application Identifier “01”... -
Page 114: Rss-Expand
RSS-Expand Restore Factory Defaults Restore the Factory Defaults of RSS-Expand Enable/Disable RSS-Expand ** Enable RSS-Expand Disable RSS-Expand... -
Page 115: 2D Symbologies
2D Symbologies PDF417 Restore Factory Defaults Restore the Factory Defaults of PDF417 Enable/Disable PDF417 **Enable PDF417 Disable PDF417... -
Page 116: Data Matrix
Data Matrix Restore Factory Defaults Restore the Factory Defaults of Data Matrix Enable/Disable Data Matrix **Enable Data Matrix Disable Data Matrix Rectangular Barcodes ** Decode Rectangular Barcodes Do Not Decode Rectangular Barcodes... -
Page 117: Mirror Images
Mirror Images ** Decode Unmirrored DM Only Decode Mirrored DM Only Decode Both... -
Page 118: Qr Code
QR Code Restore Factory Defaults Restore the Factory Defaults of QR Code Enable/Disable QR Code **Enable QR Code Disable QR Code Micro QR **Enable Micro QR Disable Micro QR... -
Page 119: Mirrored Micro Qr
Mirrored Micro QR Decode Mirrored Micro QR ** Do Not Decode Mirrored Micro QR... -
Page 120: Appendix
Appendix Appendix A: Factory Defaults Table Parameter Factory Default Remark Programming Barcode Barcode Programming Enabled If Send Programming Barcode Data Programming Barcode Data Do not send is enabled, barcode programming will be disabled. Communication Interfaces Baud Rate 9600 Parity Check None TTL-232 Interface Number of Data Bits... - Page 121 Parameter Factory Default Remark Decode Session Timeout 3.0s 0.1-25.5s; 0: infinite. Continuous Mode Timeout between Decodes 1.0s 0-25.5s Decode Session Timeout 3.0s 0.1-25.5s; 0: infinite. Timeout between Decodes 1.0s 0-25.5s Sense Mode Image Stabilization Timeout 0.4s 0-25.5s Sensitivity Medium Command Trigger Mode Decode Session Timeout 3.0s 0.1-25.5s;...
- Page 122 Parameter Factory Default Remark Symbologies Video Reverse Disabled Applicable to all symbologies. Code 128 Code 128 Enabled UCC/EAN-128 ( GS1-128 ) UCC/EAN-128 Enabled AIM 128 AIM 128 Enabled EAN-8 EAN-8 Enabled Check Digit Transmit 2-Digit Add-On Code Disabled 5-Digit Add-On Code Disabled Add-On Code Not required...
- Page 123 Parameter Factory Default Remark UPC-E UPC-E Enabled Check Digit Transmit 2-Digit Add-On Code Disabled 5-Digit Add-On Code Disabled Add-On Code Not required Extend to UPC-A Disabled System Character “0” Do not transmit UPC-A UPC-A Enabled Check Digit Transmit 2-Digit Add-On Code Disabled 5-Digit Add-On Code Disabled...
- Page 124 Parameter Factory Default Remark Industrial 25 Industrial 25 Enabled Check Digit Verification Disabled Check Digit Do not transmit Standard 25 Standard 25 Enabled Check Digit Verification Disabled Check Digit Do not transmit Code 39 Code 39 Enabled Check Digit Verification Disabled Check Digit Do not transmit...
- Page 125 Parameter Factory Default Remark Plessey Plessey Enabled Check Digit Verification Enabled Check Digit Do not transmit MSI-Plessey MSI-Plessey Enabled One check digit, Check Digit Verification MOD10 Check Digit Transmit RSS-14 RSS-14 Enabled AI (Application Identifier) Transmit RSS-Limited RSS-Limited Enabled AI (Application Identifier) Transmit RSS-Expand RSS-Expand...
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Page 126: Appendix B: Aim Id Table
Appendix B: AIM ID Table Symbology AIM ID Remark Code 128 Standard Code 128 UCC/EAN 128 FNC1 is the character right after the start character (GS1-128) AIM 128 FNC1 is the 2nd character after the start character Standard EAN-8 EAN-8 ]E4….]E1…... - Page 127 Symbology AIM ID Remark Transmit barcodes as is; Full ASCII disabled; no check digit verification One check digit, MOD 43; transmit check digit Code 39 One check digit, MOD 43; do not transmit check digit Full ASCII enabled; no check digit verification Full ASCII enabled;...
- Page 128 Symbology AIM ID Remark ECC 200; FNC1 is the 1st or 5th character after the start character; ECI supported ECC 200; FNC1 is the 2nd or 6th character after the start character; ECI supported QR1 (comply with AIM ISS 97-001 specifications) QR2 (2005 symbol), ECI protocol not supported QR2 (2005 symbol), ECI protocol supported QR2 (2005 symbol), ECI protocol not supported;...
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Page 129: Appendix C: Code Id Table
Appendix C: Code ID Table Symbology Original Code ID Visible Code ID Code 128 FNC3 A(0x41) Code 128 B(0x42) UCC/EAN 128 C(0x43) EAN-8 D(0x44) EAN-13 E(0x45) UPC-E F(0x46) UPC-A G(0x47) Interleaved 2 of 5 H(0x48) ITF-14 I(0x49) ITF-6 J(0x4A) Code 39 M(0x4D) Codabar O(0x4F) -
Page 130: Appendix D: Ascii Table
Appendix D: ASCII Table Char (Null char.) (Start of Header) (Start of Text) (End of Text) (End of Transmission) (Enquiry) (Acknowledgment) (Bell) (Backspace) (Horizontal Tab) (Line Feed) (Vertical Tab) (Form Feed) (Carriage Return) (Shift Out) (Shift In) (Data Link Escape) (XON) (Device Control 1) (Device Control 2) (XOFF) (Device Control 3) - Page 131 Char (Request to Send) (Unit Separator) (Space) (Exclamation Mark) " (Double Quote) (Number Sign) (Dollar Sign) (Percent) & (Ampersand) (Single Quote) (Right / Closing Parenthesis) (Right / Closing Parenthesis) (Asterisk) (Plus) (Comma) (Minus / Dash) (Dot) (Forward Slash) (Colon) (Semi-colon) <...
- Page 132 Char > (Greater Than) (Question Mark) (AT Symbol) (Left / Opening Bracket) (Back Slash) (Right / Closing Bracket)
- Page 133 Char (Caret / Circumflex) (Underscore) (Grave Accent) (Left/ Opening Brace) (Vertical Bar) (Right/Closing Brace) (Tilde) (Delete)
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Page 134: Appendix E: Parameter Programming Examples
Appendix E: Parameter Programming Examples The following examples show you how to program parameters by scanning programming barcodes. Program the Decode Session Timeout Example: Set the decode session timeout to 5.0s Scan the Decode Session Timeout barcode. Scan the numeric barcodes “5” and “0”. Scan the Save barcode. -
Page 135: Program The Sensitivity Level
Program the Sensitivity Level Example: Set the sensitivity level to 5 Scan the Custom Sensitivity barcode. Scan the numeric barcode “5”. Scan the Save barcode. -
Page 136: Appendix F: Digit Barcodes
Appendix F: Digit Barcodes 0 ~ 5... - Page 137 6~ 9...
- Page 138 A ~ F...
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Page 139: Appendix G: Save/Cancel Barcodes
Appendix G: 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 the Last Digit barcode and then the correct digit, or scan the Cancel All Digits barcode and then the digits you want. -
Page 140: Appendix H: Requently-Used Serial Commands
Appendix H: Requently-Used Serial Commands Feature Serial Command Set baud rate to 9600 7E 00 08 01 00 D9 D3 20 38 Set baud rate to 115200 7E 00 08 01 00 D9 D8 91 53 Save register data in EEPROM 7E 00 09 01 00 00 DE C8 Query the baud rate 7E 00 07 01 00 2A 02 D8 0F... - Page 141 TEL: +31 (0) 345 87 00 33 FAX: +31 (0) 345 87 00 39 Email: sales@newland-id.com WEB: www.newland-id.com Tech Support: tech-support@newland-id.com Newland North America Inc. /北美新大陆有限公司 Address: 46559 Fremont Blvd., Fremont, CA 94538, USA TEL: 510 490 3888 Fax: 510 490 3887 Email: info@newlandna.com WEB: www.newlandna.com...