異なる LED の数の LED ストリップのテストデータの比較

ジェイソン・チェン
2025年12月12日

1. Test Objectives

Validate the impact of varying LED counts (60/120/128) on the brightness, luminous flux, illuminance, and uniformity of flexible LED strips to provide data support for product development.

Test the effect of different power settings on brightness for flexible PCB LED strips with varying widths (8/100).

Validate the feasibility of designing high-brightness フレキシブルLEDストリップ with 128 LEDs per meter.

Verify brightness differences among LED chips with varying color temperatures.

2. Test Sample

項目	Number of LEDs	Pitch of the LED	Length of the LED Strip	Number of Samples
1	60 LEDs/m	16.67	1m	4PCS
2	120 LEDs/m	8.33	1m	4PCS
3	128 LEDs/m	7.81	1m	2PCS

3. Test Method

1. Record the original data of the LEDs.

2. Test LED strips with different specifications (60 LEDs/m, 120 LEDs/m, and 128 LEDs/m) using an integrating sphere and a spectrophotometer. Record corresponding data including luminance, luminous efficacy, color rendering index, and color temperature.

4. Measurement Equipment and Environment

Integrating sphere optical test system / High-precision spectrophotometer
Temperature: 28°C ±5°C
Humidity: 65% ±5%
Test Voltage: DC12V / DC24V

5. Test Date: September 15, 2023

6. LED Integrating Sphere Test Data

LED chip type for this sample: SMD2835; Sample supplier: Smalite LED.

スマライト LED SMD2835 Test Data
CCT	パワー	LED 現在	LED 電圧	輝度	テストします明るさ	電圧	lm/W	CCT	ラー	波 length	備考
3000K	0.2W	60ma	3.1-3.2V	22-24 lm	23.84 lm	3.139V	127 lm/W	3032K	80.9	582.3nm
4000K	0.2W	60ma	3.0-3.1V	24-26 lm	25.82 lm	3.129V	138 lm/W	4080K	81.1	577.6nm
4000K	0.2W	60ma	2.9-3.0V	29-31lm	31.2 lm	2.883V	181.2 lm/W	4112K	81.2	576.8nm	128LEDs/m use

7. Comparison of Test Data for LED Strips with Different Numbers of LEDs

CCT

LED/m

電圧

LED 現在

抵抗

w/m

LED パワー

Flux(lm)

lm/W

波長さ(nm)

ラー

CCT

基板幅

3000K

DC12V

25ma

56+75Ω

6.0w

0.2W

659.0

109.8

583.0

82.50

2955K

8mm

3000K

120

DC12V

21mA

160Ω

9.8W

0.2W

1113.2

113.1

583.1

82.40

2956K

4000K

DC12V

25ma

68+68Ω

5.8W

0.2W

679.4

117.1

577.2

82.60

4085K

8mm

4000K

120

DC12V

20ma

330/360Ω

9.5W

0.2W

1119.1

117.8

577.4

82.80

4087K

3000K

DC12V

50mA

56Ω

11.88W

0.2W

1145.4

98.75

583.2

81.90

2959K

10mm

3000K

120

DC12V

40mA

68Ω

19.3W

0.2W

1953.2

99.86

583.2

82.00

2973K

4000K

DC12V

49mA

62Ω

10.8W

0.2W

1150.8

106.5

577.4

82.00

4058K

10mm

4000K

120

DC12V

41mA

75Ω

18.6W

0.2W

1964.0

106.7

577.5

82.50

4116K

4000K

128

DC24V

31ma

68Ω

11.6W

0.2W

1912.9

165.4

577.9

82.70

4010K

10mm

4000K

128

DC24V

26mA

82Ω

10.0W

0.2W

1696.0

169.6

577.9

82.70

4000K

8. Test Data Analysis

Impact of Different LED Quantities on Brightness (Luminous Flux, Illuminance, Uniformity):
The luminous efficacy difference between 60 LEDs/m at 6W/m and 120 LEDs/m at 10W/m is 3%;
The luminous efficacy of 60 LEDs/m at 12 W/m is close to that of 120 LEDs/m at 20 W/m, with minimal difference between them.
120 LEDs/m achieved the highest luminous efficacy at 169.6 lm/W, with a 4.2 lm/W difference between 12W and 10W power settings.

The table shows a positive correlation between LED count and luminous flux, confirming that “more LEDs result in higher brightness.”

Effect of PCB Width on Brightness
For 60/120-LED designs rated at 6W and 12W/m (lower power), with LED current set below 25mA, an 8mm-wide PCB adequately meets thermal and power requirements.
60/120 LEDs achieving 12W and 20W operate at maximum power with currents near full load. A 10 mm-wide PCB is required to handle higher currents and improve heat dissipation, preventing brightness degradation due to overheating.
128 LEDs achieve 170 lm/m at 10W/m with a current of only 16 mA, indicating low power consumption. An 8 mm-wide PCB can be considered.

PCB width does not affect brightness, but PCB trace width is positively correlated with current carrying capacity: wider traces provide greater cross-sectional area, reducing trace resistance and allowing higher power settings for the light strip.

Power underpins brightness: more LEDs → higher power → greater brightness. PCB width is crucial for stable power delivery. A 10 mm-wide PCB reduces impedance and enhances heat dissipation, indirectly supporting high brightness.

Feasibility of 128 LED/m High-Brightness Flexible Strip Design
The luminous flux of 128 LEDs far exceeds that of 60/120 LEDs, meeting the “high brightness” requirement;
The 128-LED configuration operates at 11.6W and 10.0W, featuring a well-balanced design with manageable power consumption. The 10 mm PCB width provides stable support, while the drive currents of 31 mA and 26 mA remain within reasonable ranges.

Table data confirms the 128-LED design excels in luminous flux, power handling, and color temperature compatibility, validating its feasibility.

Luminous Efficiency Differences Across Color Temperatures
60 LEDs/m at different color temperatures under 6W power: 3000K efficacy is 109.8 lm/W, and 4000K efficacy is 117.1 lm/W, a difference of 7.3 lm/W.
120 LEDs/m at different color temperatures under 10W power: 3000K efficacy is 113.1 lm/W, and 4000K efficacy is 117.8 lm/W, a difference of 4.7 lm/W.

The brightness difference between color temperatures remains significant. For the same chip, 3000K warm-white LEDs are approximately 10% brighter than 4000K warm-white LEDs.

4000K warm white light by approximately 10% (see LED integrating sphere test data above: 3000K brightness: 22-24 lm; 4000K LED brightness: 24-26 lm. Therefore, this factor must be fully considered when designing LED strips with different color temperatures.

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