Gyd-9e - Datasheet
With RθJA = 45°C/W, temperature rise = 171°C → . Solution: Add a heatsink or forced airflow, or reduce input voltage to 12V. This example shows the importance of checking thermal limits in the datasheet. 13. Frequently Asked Questions (FAQ) Q1: Is the GYD-9E isolated? A: No. It is a non-isolated buck converter. The input ground and output ground are common.
[ V_OUT = 0.8V \times \left(1 + \fracR1R2\right) ] gyd-9e datasheet
A: Only if you add a constant-current/constant-voltage (CC-CV) control loop. The GYD-9E is a voltage source, not a charger. Conclusion The GYD-9E is a versatile, efficient, and compact step-down converter suitable for a wide range of DIY and industrial applications. While its official datasheet can be difficult to locate due to the generic branding, the electrical characteristics and pinout described above follow the de facto standard for this module. With RθJA = 45°C/W, temperature rise = 171°C →
Where R2 is connected between ADJ pin and GND, and R1 between VOUT and ADJ. It is a non-isolated buck converter
| Module | Input Range | Output Current | Efficiency | Key Advantage | |--------|-------------|----------------|------------|----------------| | | 4.5-28V | 3A | 96% | Good balance of size and power | | LM2596 module | 4.5-40V | 3A | 85% | Higher input voltage | | MP1584 module | 4.5-28V | 3A | 94% | Smaller size, lower cost | | XL4005 module | 5-32V | 5A | 92% | Higher current |
The GYD-9E is often preferred for its stable 500kHz switching frequency (reduces output ripple compared to 150kHz LM2596) and better transient response. Even with a good GYD-9E datasheet , practical issues can arise. Here are solutions:
Choose R2 = 1kΩ. Then R1 = (5V/0.8V – 1) * 1kΩ = 5.25kΩ (use 5.1kΩ + 150Ω in series).
