What new trends stood out? technologies like D4i, NFC, Zhaga, Casambi, Xiaomi Smart Home, and Matter were prominently featured and attracted significant attention this year. These terms are frequently mentioned by customers but seem to lack clear understanding. So, what do these technologies represent, and what roles do they play in lighting applications?
The DALI protocol is specified in the international standard IEC 62386, which consists of multiple parts, and in the guidelines provided by the DALI Alliance. For a detailed analysis of DALI
DALI-2 is the latest version of the DALI protocol, featuring many improvements over DALI version-1. It includes more stringent and comprehensive testing procedures, enhances product interoperability, and introduces new functional commands.
D4i technology is an extension of the DALI-2 protocol, specifically designed for smart IoT (Internet of Things) lighting. It not only inherits all the advantages of DALI-2 but also adds support for data-related features, such as the collection and analysis of luminaire asset, energy usage, and diagnostic data. This means that all D4i-certified products are also DALI-2 certified. These products can display either the D4i logo, the DALI-2 logo, or both.
Advantages of D4i Technology
- Integrated DALI Bus: This feature can be enabled or disabled, simplifying the system for plug-and-play functionality.
- Self-Contained Systems: Traditionally, DALI-2 applications require a DALI bus to connect multiple DALI devices into a system. D4i integrates the bus within the driver, allowing a luminaire with a D4i driver to function as a standalone system.
- Luminaire Asset Data Collection: This feature stores detailed luminaire information, assisting users in understanding product details. Data includes manufacturer’s GTIN code, production date, color temperature, and nominal input power, aiding in product traceability and maintenance.
4.Energy Monitoring: Reads the luminaire's energy consumption data to help users understand and optimize energy usage.Examples include:
- ·Luminaire Energy Consumption: The amount of electricity the luminaire consumes (theoretical value = power output).
- ·Driver Consumption: The electricity consumed by the driver (theoretical value = output/efficiency).
- ·Electricity Supplied by the Grid: The amount of electricity provided by the grid (theoretical value = driver consumption/PF).
- Diagnostics and Maintenance: Monitors the operating status of the driver and luminaire, reads maintenance data, and enables data-driven management.Examples include: Driver Diagnostics: Checks for issues such as input undervoltage, input overvoltage, overheating, and counts the number of faults.
Luminaire Diagnostics: Checks for conditions such as short circuits, open circuits, overloads, overheating, and counts the number of faults.
- 24V Auxiliary Power Supply: This is not a mandatory feature for D4i products but an optional one.
D4i also defines interfaces with sensors and wireless modules, requiring a typical voltage of 24V DC and an auxiliary power supply of 125 mA, with an average power of 3W and a peak power of 6W. This enhances application reliability and facilitates the connection of external modules.