China High-Tech
Enterprises
.jpg)
XT2001DM XTIOT China 3.3V 12Pin PCBA QR Code Price Scanner Barcode Reader
OEM Barcode Scanner Engine
Features
Integrated Design: Miniaturized design for easy integration into handheld payment terminals.
Supports Multiple Barcode Formats: Capable of reading one-dimensional (1D) and two-dimensional (2D) barcodes, including QR codes.
High-speed Scanning: Capable of quickly identifying and reading barcodes, improving work efficiency.
Durability: Rugged design for long-term use.
Flexible Triggering: Supports manual triggering or automatic induction to start scanning.
Low power consumption: Designed for low power consumption, suitable for mobile devices or battery-powered devices.
Technical Specifications
Scanning Distance: Supports short to medium distance scanning.
Scanning Speed: Capable of reading barcodes quickly and accurately.
Interface Type: 16PIN interface for connection with the main board of the handheld payment terminal.
Compatibility: Compatible with existing hardware systems and software platforms.
Power consumption: Low power design, suitable for use on mobile devices.
Application Scenarios
Retail: Used to read barcodes on product packaging to quickly complete sales transactions.
Catering: Read barcodes on membership cards or coupons to provide membership discounts or points redemption.
Logistics Warehousing: used to track the location and status of packages or goods.
Ticket verification: verifying the barcode on the electronic ticket at cinemas, theaters, sporting events, etc.
OEM Barcode Scanner Engine
Features
Integrated Design: Miniaturized design for easy integration into handheld payment terminals.
Supports Multiple Barcode Formats: Capable of reading one-dimensional (1D) and two-dimensional (2D) barcodes, including QR codes.
High-speed Scanning: Capable of quickly identifying and reading barcodes, improving work efficiency.
Durability: Rugged design for long-term use.
Flexible Triggering: Supports manual triggering or automatic induction to start scanning.
Low power consumption: Designed for low power consumption, suitable for mobile devices or battery-powered devices.
Technical Specifications
Scanning Distance: Supports short to medium distance scanning.
Scanning Speed: Capable of reading barcodes quickly and accurately.
Interface Type: 16PIN interface for connection with the main board of the handheld payment terminal.
Compatibility: Compatible with existing hardware systems and software platforms.
Power consumption: Low power design, suitable for use on mobile devices.
Application Scenarios
Retail: Used to read barcodes on product packaging to quickly complete sales transactions.
Catering: Read barcodes on membership cards or coupons to provide membership discounts or points redemption.
Logistics Warehousing: used to track the location and status of packages or goods.
Ticket verification: verifying the barcode on the electronic ticket at cinemas, theaters, sporting events, etc.
Technical Specifications
| Image Sensor | CMOS |
| DPI(W*H) | 640px*480px |
| 1D | Code128/AIM128/EAN128/NL128, UPC/EAN/ISSN/ISBN, Codabar, Code 39, Code 39,Code 93, Code 11, ITF-25/ITF-14/ITF-6/ Deutsche12/ Deutsche14, Industrial 25, Matrix 25, Japan Matrix 25/NEC 25, Standard 25, DataLogic 25, MSI-Plessey, Plessey, RSS-EXP /RSS_14/GS1 Data, Telepen |
| 2D | AZTEC,Data Matrix, MaxiCode, PDF417, Micro PDF, QR Code, Micro QR, Hanxin code, OCR, DOTCODE |
| Accuracy | 1D≥5mil |
| Contrast Ratio | ≥20% |
| 1D: EAN-13 | (5mil) 60-80mm (13mil) 35-160mm |
| 2D: QR Code | (15mil) 25-130mm (30mil) 30-220mm |
| Tilt | ±65°@ 0°Roll and 0°Skew |
| Rotate | 360°@ 0°Pitch and 0° Skew |
| Deflection | ±55°@ 0°Roll and 0° Pitch |
| Field of View Angle | Horizontal: 66.4° Vertical: 49.8° Diagonal: 83° |
| Data Interface | USB KBW、USB HID POS、USB CDC、TTL 232 |
| Working Voltage | 3.3VDC±5% |
| Working Electric Current | 90mA±15mA |
| Standby Electric Current | 65mA±2mA |
| Working Temperature | 0℃~+50℃ |
| Storage Temperature | -20℃~+60℃ |
| Relative Humidity | 5%~95% (No condensation) |
Actual use cases
Case 1: Restaurant Self-service Ordering System
Background:
A restaurant hopes to improve the efficiency of its self-service ordering system, reduce customer waiting time, and ensure the accuracy and timeliness of order information.
Solution:
The restaurant uses the XTIOT XT2001DM ordering machine universal asynchronous receiver serial communication manual trigger barcode decoding engine, which is integrated into the self-service ordering system for fast entry of menu item barcode information.
Implementation Steps:
Hardware installation: Install the XTIOT XT2001DM barcode decoding engine at key locations of the self-service ordering machine.
Software integration:
Connect the decoding engine to the ordering system through the universal asynchronous receiver (UART) interface and configure serial communication parameters.
System testing:
Conduct comprehensive functional tests to ensure that the decoding engine can accurately read menu item barcodes and support manual triggering functions.
User guide:
Create a simple operation guide to help customers understand how to use the decoding engine for self-service ordering.
Effect:
Improve efficiency: Manual triggering reduces customer waiting time.
Reduce errors: Accurate menu item barcode reading reduces input errors.
User experience: The plug-and-play design simplifies the customer's operation process.
Real-time update: Scanned data is uploaded to the backend management system in real time, which is convenient for order monitoring and data analysis.
Case 2: Fast food restaurant order processing system
Background:
A fast food restaurant needs to improve the efficiency of its order processing system to ensure that customers can place orders quickly and ensure the accuracy and timeliness of order information.
Solution:
The fast food restaurant uses the XTIOT XT2001DM ordering machine universal asynchronous receiver serial communication manual trigger barcode decoding engine, which is integrated into the order processing system for fast entry of customer order information.
Implementation steps:
Hardware installation: Install the XTIOT XT2001DM barcode decoding engine at the key position of the order processing terminal.
Software integration: Connect the decoding engine to the order processing system through the universal asynchronous receiver (UART) interface and configure the serial communication parameters.
System testing: Conduct comprehensive functional tests to ensure that the decoding engine can accurately read the order information barcode and support the manual trigger function.
Staff training: Provide operation training for store staff to ensure that they can correctly use the barcode decoding engine for order processing.
Effect:
Improve efficiency: Manual triggering reduces customer waiting time.
Reduce errors: Accurate order information barcode reading reduces input errors.
User experience: Plug-and-play design simplifies the operation process for store clerks.
Real-time update: Scan data is uploaded to the backend management system in real time, which is convenient for order monitoring and data analysis.
