Ac-dc converter powers IoT from mains at up to 60mA
- Autor:Ella Cai
- Lassen Sie auf:2018-07-13
Diodes is aiming at non-isolated mains-powered IoT nodes with an ac-dc power chip that can deliver 60mA at 3.3V.
AL17050 is a universal (85-265Vac) universal off-line buck converter with an integrated 500V 30Ω mosfet.
Static consumption is 100μA, which my calculator tels me is 24mW at 240V.
“The device automatically adjusts to low loads, so it delivers excellent overall efficiency,” claimed the firm. “The AL17050 delivers a constant 3.3V/5V at up to 60mA, making it ideal for devices based on low power MCUs that integrated IoT connectivity such as Bluetooth LE or Zigbee.”
That said, efficiency of >50% is claimed rather than anything higher is claimed on this document, as is an an operating range of -40 to +105°C, a 3% accurate reference and switching at 70kHz – the latter of which will vary depending on operating conditions.
Also integrated is protection against over-temperature, over-load, output-short, and open-loop conditions.
It comes in a SOT25 package.
The chips own Vcc is maintained between 5.3 and 5.6V by switching on and off an internal high-voltage regulator to charge the Vcc capacitor (see diagram).
Output voltage regulation
The output voltage is sampled onto C5 via D4 (see diagram) and is set using the formula:
Vout=2.5(R1+R2)/R2
AL17050 is a universal (85-265Vac) universal off-line buck converter with an integrated 500V 30Ω mosfet.
Static consumption is 100μA, which my calculator tels me is 24mW at 240V.
“The device automatically adjusts to low loads, so it delivers excellent overall efficiency,” claimed the firm. “The AL17050 delivers a constant 3.3V/5V at up to 60mA, making it ideal for devices based on low power MCUs that integrated IoT connectivity such as Bluetooth LE or Zigbee.”
That said, efficiency of >50% is claimed rather than anything higher is claimed on this document, as is an an operating range of -40 to +105°C, a 3% accurate reference and switching at 70kHz – the latter of which will vary depending on operating conditions.
Also integrated is protection against over-temperature, over-load, output-short, and open-loop conditions.
It comes in a SOT25 package.
The chips own Vcc is maintained between 5.3 and 5.6V by switching on and off an internal high-voltage regulator to charge the Vcc capacitor (see diagram).
Output voltage regulation
The output voltage is sampled onto C5 via D4 (see diagram) and is set using the formula:
Vout=2.5(R1+R2)/R2