Simple explainations of terminologies about LED Strip Lights:

1. PCB Width:
   The PCB width refers to the width of the printed circuit board (PCB) that the LEDs are mounted on. As shown in the picture, a wider PCB can accommodate more LEDs and help dissipate heat more effectively, improving performance and lifespan.

2. LED Quantity per Cut:
   LED quantity per cut indicates how many individual LEDs are present within a specific segment or cut of the strip. As shown in the picture, each section is typically marked for easy cutting, and the LED quantity within each section depends on the strip’s design and intended use. Above example shows 3 LEDs per cut.

3. Cutting Distance:
   The cutting distance refers to the distance between two solder pads (or copper pads) where the LED strip can be cut safely without damaging the circuit. As shown in the picture, these markings help you cut the strip to the desired length while maintaining its electrical integrity.

4. Solder Pad (Copper Pad or Cut Point):
   The solder pad (also referred to as a copper pad or cut point) is the area on the PCB where you can safely solder wires to connect or extend the LED strip. As shown in the picture, it’s the designated spot for electrical connections, and cutting the strip at the solder pad ensures that the circuit remains functional.

5. Color Temperature:
   Color temperature defines the warmth or coolness of the light emitted by the LED strip. It’s measured in Kelvin (K). As shown in the picture, a lower color temperature (e.g., 2700K) produces a warm, yellowish light, while a higher color temperature (e.g., 6500K) creates a cooler, bluish light.

6. Output Power:
   Output power refers to the amount of electrical power the LED strip consumes, typically measured in watts (W). As shown in the picture, this determines how much energy the strip uses to produce light, affecting its brightness and energy efficiency.

7. Lighting Efficacy:
   Lighting efficacy measures how efficiently the LED strip converts electrical power into light, typically expressed in lumens per watt (lm/W). As shown in the picture, a higher efficacy means the LED strip provides more light for less energy consumption, making it more efficient.

8. CRI (Color Rendering Index):
   CRI refers to how accurately the light from the LED strip displays the true colors of objects compared to natural light. As shown in the picture, a higher CRI (e.g., 90+) indicates better color accuracy and is important for environments where color distinction is critical, such as in art galleries or retail settings.

9. SDCM (Standard Deviation of Color Matching):
   SDCM measures the color consistency of the LEDs across different strips or batches. As shown in the picture, a lower SDCM value indicates better color uniformity, ensuring the LED strips emit consistent and accurate light across different production batches.

These terms help define the characteristics that influence the performance, color quality, and flexibility of LED strips, allowing you to make informed choices for your lighting projects.