European countries have specific requirements for currency detectors, covering technology, efficiency, security, and sustainability, as detailed below:
- High-Precision Counterfeit Detection
- Multispectral Detection: The currency detectors should utilize multispectral technology, including ultraviolet (UV), infrared (IR), and visible light detection. UV detects fluorescent marks, IR identifies special inks and paper characteristics, and visible light is used to observe patterns and color details. This allows the detection of counterfeit notes by spotting missing or unclear UV marks, or differences in ink absorption and reflection under IR light.
- Magnetic Detection: Magnetic sensors are used to detect magnetic inks on banknotes, a common feature in European currencies. The detector should assess the uniformity and strength of the magnetic properties to differentiate between real and counterfeit notes.
- Watermark and Security Thread Detection: The machine must accurately recognize watermarks and embedded security threads, which are difficult to forge. Authentic banknotes have clear and detailed watermarks, while counterfeit versions often lack this quality.
- Fast Response and Processing Capability
- High-Speed Banknote Counting with Simultaneous Counterfeit Detection: In Europe’s commercial environment, efficiency is critical. The detector should perform high-speed counting while verifying the authenticity of each note, which is essential for fast-paced environments like banks and retail stores.
- Real-Time Feedback: The machine should provide instant feedback to the operator, notifying them immediately when a counterfeit note is detected. This can be done via screen displays, sound alerts, or signal lights.
- Adaptation to a Multi-Currency System
- Recognition of Multiple Currencies: Given the use of different currencies across European countries, the detector must recognize various currencies such as the Euro, British Pound, and Swiss Franc, and identify their denominations and authenticity.
- Automatic Currency Switching: The machine should automatically switch between detection modes for different currencies without manual intervention, especially useful in border regions or tourist areas.
- Upgradable Software: The detector should have upgradeable software to accommodate new currency versions and counterfeit types, ensuring continued accuracy in changing monetary environments.
- User-Friendly and Ergonomic Design
- Intuitive User Interface: A clear display that shows the number of notes, denominations, and authenticity status is essential. Simple and intuitive button and menu designs allow operators to easily configure settings like currency selection and counting speed.
- Portability and Flexibility: A compact design is preferable for small shops, mobile vendors, or users who need to use the detector in different locations. Adjustable settings like counting speed and sensitivity to different situations, such as low-noise operation in quiet environments, are also important.
- Data Management and Security
- Data Logging and Statistics: The detector should log transaction details such as the number of notes counted, denominations, authenticity, and timestamps, providing valuable data for financial management and risk control.
- Data Security: Data must be encrypted for storage and transmission, preventing unauthorized access or tampering. User access levels can be controlled through a permission system, ensuring only authorized personnel can operate the machine.
- Environmental Friendliness and Sustainability
- Low Power Consumption: Energy-saving modes and efficient power management systems should reduce the machine’s energy use, especially when idle.
- Recyclable Materials and Eco-Friendly Manufacturing: The detector should prioritize recyclable materials and be manufactured using environmentally friendly processes, minimizing the ecological footprint.
These requirements highlight the importance of advanced technology, user convenience, and sustainability in currency detectors across European countries.
