led-driver-dat
https://w.electrodragon.com/w/LED_Drive
chip
AMC7135 SOT-89 恒流350mA/2.7-6V 大功率LED驱动芯片
The AMC7135 is a low dropout current regulator rated for 350mA constant sink current. The low quiescent current and low dropout voltage is achieved by advancedBi-CMOS process.
FEATURES
- 350mA constant sink current.
- Output short / open circuit protection.
- Low dropout voltage.
- Low quiescent current
- Supply voltage range 2.7V ~ 6V 2KV HBM ESD protection
- Advanced Bi-CMOS process.
SOT-89 and TO-252 package
SY7201 - 30V High Current Boost LED Driver - silergy-dat
fan5333b-d
High Efficiency, High Current Serial LED Driver with 30 V Integrated Switch FAN5333A, FAN5333B
boards
tech
Common questions
This is a buck (step-down) constant-current LED driver. Input: 5–32 V.
- The input voltage must be at least 1 V higher than the LED string voltage required. This is a constant-current driver, not a constant-voltage regulator.
- People often ask "what is the output voltage?" — the board controls current, not voltage. The output voltage will adjust to whatever the LEDs require.
- Example: if one LED requires ~3 V, the LED voltage stays ~3 V. Two in series ~6 V, etc.
- Do not measure output voltage with no load. No-load output reads the input voltage (a phantom voltage).
- This is a step-down (buck) constant-current driver, not a boost driver.
- If two LEDs in series require 6 V to light, and you supply 5 V, they will not light. You must supply at least ~7 V (6 V + ~1 V headroom).
- Output current formula: I = 0.1 / R_CS (R_CS = current sense resistor).
driver options
integrated chip solutions
mosfet control options
The FQP30N06L MOSFET (datasheet) is an N-channel MOSFET designed for switching high-speed circuits, and it’s perfect for switching LEDs. It can control up to a 60V, 30A load and can be switched from 3.3V or 5V.
https://cdn.sparkfun.com/datasheets/Components/General/FQP30N06L.pdf
mosfet PWM control
futher concern
high speed switching
- writing .. == mosfet-driver-dat
LCD backlight drive
option 1
chip
option 3
背光驱动
该部分用于驱动RGB屏幕背光,标准40Pin RGB屏幕基本采用串联背光,由于本身开发板供电只有5V,所以我们需要使用背光驱动芯片升压到合适的电压,来驱动屏幕背光。同时,背光驱动芯片采用恒流控制,可以避免电流过大导致背光LED烧毁,该部分原理图如下所示:
其中:
C19 C20为滤波电容,C19电容的耐压需要特别考虑,一般的RGB屏背光电压基本在18V以上(白光LED压降3V*6串),过低的电容耐压会导致电容损坏。
BL_CTR为芯片背光控制引脚,此处直接接入了上拉,再开发时可以将BL_CTR引脚接入F1C200S的PWM引脚上,这样可以灵活控制屏幕亮度,同时,有恒流驱动的存在,控制亮度时,背光也不存在明显的频闪。
L1 为升压电路的电感,按照要求一般取10uh或22uh即可,不需要使用公式详细计算,但是需要注意电流不能超过电感额定电流。
R5为芯片的反馈电阻,用于调节输出的电流,计算公式可参考下方:
图2.13反馈电阻计算公式
此处我们选择20ma,所以R1=0.25/0.020(Ω) = 12.5Ω,就近取12Ω。
选择的20ma电流可以参考屏幕数据手册:
图2.14 屏幕数据手册线路原理图
如上图,下方说明了LED为2并5串,额定电流为40ma,我们为了保险,选择了20ma,亮度会有所损失。
12V button-MCU-transistor driver
button buttons on the back side, low-side control white and warm white LED strips
driver AOA3 ?
unsort
- MIC2871YMK-T5 - LED Driver IC 1 Output DC DC Regulator Step-Up (Boost) Single-Wire Dimming 1.2A (Flash) 14-LDFN (3x2)
driving method
Current Push vs Pull: Power Supply & LED
1️⃣ Conceptual difference
| Term | Meaning | Direction of Current | Notes |
|---|---|---|---|
| Current Push | Source actively drives current into a load | From power supply → load | Standard operation of most DC power supplies: source “pushes” electrons into the device. |
| Current Pull | Load draws current from the source | From load → source | Seen when load is voltage-controlled, like LEDs with a series resistor on a constant voltage supply. |
In practice:
- Power supply: pushes current.
- LED: draws (pulls) current according to its forward voltage and series resistor/driver.
2️⃣ Relation to LEDs
-
LED is a current-driven device:
- Brightness is determined by current, not voltage.
- Excess current → LED damage.
-
Power supply types:
-
Constant Voltage (CV, e.g., 12V)
- Supply pushes voltage → LED pulls current through series resistor.
- Resistor needed to limit current.
- Supply pushes voltage → LED pulls current through series resistor.
-
Constant Current (CC, e.g., 350mA)
- Supply pushes fixed current → LED sets voltage automatically.
- Stable brightness, no extra resistor needed.
- Supply pushes fixed current → LED sets voltage automatically.
-
Constant Voltage (CV, e.g., 12V)
3️⃣ Practical Examples
12V LED with resistor:
12V (push) → resistor → LED (pull)
- Power supply pushes 12V.
- LED pulls current: I = (12V - Vf) / R
- If R too small → LED pulls too much → burns out.
Constant current driver:
12V CC driver (pushes 350mA) → LED (accepts 350mA)
- Driver maintains current automatically.
- LED adjusts voltage accordingly.
- No resistor needed.
4️⃣ Key Takeaways
-
LEDs are current-driven; control current rather than voltage.
-
Push vs Pull is perspective: supply pushes, LED pulls.
-
Use constant current drivers to protect LEDs.
- With voltage supply, always use a series resistor to limit current.
SCH
