3.0 x 2.5 mm SURFACE MOUNT LED LAMP # Technical Datasheet: KPB3025NSGC Bi-Color LED Array
Manufacturer: KINGBRIGHT
Component: KPB3025NSGC (Bi-Color, Common-Cathode, 2x5 LED Array)
Document Version: 1.0
Date: 2023-10-27
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## 1. Application Scenarios
### Typical Use Cases
The KPB3025NSGC is a 10-element, bi-color (typically red/green) LED array arranged in a 2×5 matrix with a common-cathode configuration. Its integrated design makes it suitable for applications requiring compact, multi-indicator status displays.
* Status and Fault Indication Panels: Ideal for industrial control systems, telecommunications equipment, and power distribution units where multiple system states (normal, warning, fault) need to be visualized simultaneously. The bi-color capability allows a single position to show two states (e.g., Green=OK, Red=Fault).
* Level or Progress Indicators: Can be used to visually represent quantitative levels such as signal strength, battery charge status, pressure, or temperature ranges by illuminating a sequential number of LEDs.
* Consumer Electronics Displays: Found in audio equipment (VU meters), instrument clusters, and appliance control panels for mode selection and operational feedback.
* Backlighting for Legends & Icons: Used to backlight key labels, icons, or segmented areas on front panels, providing dynamic color-coded context to static markings.
### Industry Applications
* Industrial Automation & HMI: Machine status panels, PLC I/O state indicators, and process control system dashboards.
* Telecommunications: Channel status indicators on routers, switches, and patch panels.
* Automotive: Aftermarket accessory status displays (not for primary safety-critical clusters).
* Test & Measurement Equipment: Visual feedback for channel activity, range selection, or calibration status.
* Medical Devices: Non-critical status indication on monitoring or diagnostic equipment front panels.
### Practical Advantages and Limitations
Advantages:
* Space Efficiency: Replaces twenty discrete LEDs (for ten bi-color positions), significantly saving PCB real estate and reducing assembly complexity.
* Simplified Assembly: A single surface-mount component reduces pick-and-place time versus multiple discrete parts.
* Consistent Optical Performance: LEDs from the same production batch ensure uniform luminous intensity and color chromaticity across all elements.
* Design Flexibility: Common-cathode design simplifies driver circuit design, particularly when using microcontroller GPIO pins or standard current-sink drivers.
Limitations:
* Limited Individual Control: The matrix structure (2 rows, 5 columns per color) requires multiplexed driving for individual LED control, which complicates the driving circuitry compared to discretes.
* Single Point of Failure: Physical damage to the array package will affect multiple indicators simultaneously.
* Thermal Coupling: Heat generated by one LED element can affect the performance of adjacent elements within the package, potentially leading to brightness variations at very high drive currents.
* Color Limitation: Fixed to two predefined colors (e.g., Red and Green). Amber or other colors require a different part number.
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## 2. Design Considerations
### Common Design Pitfalls and Solutions
* Pitfall 1: Excessive Current Without Multiplexing. Attempting to drive multiple LEDs in the array continuously at their maximum DC current can exceed the package's total power dissipation rating.
* Solution: Implement time-division multiplexing (TDM). Drive LEDs in a scanned sequence at a higher pulsed current (within peak ratings) but with a lower duty cycle. This maintains perceived brightness while reducing average power dissipation.
* Pitfall 2: Insufficient Current Limiting. Connecting the array directly to a voltage source without series
