IC-Hersteller MikroE

IC-Hersteller (99)

MikroE ST1S14PHR | Demoboard USB-C SOURCE CLICK

Up to 3 A step-down switching regulator

Details

TopologieUSB
Eingangsspannung5.5-48 V
Schaltfrequenz600-1000 kHz
Ausgang 119 V / 3 A

Beschreibung

USB-C Source Click is a compact add-on board that contains a standalone autonomous USB power delivery controller. This board features the STUSB4700, an independent USB power delivery controller optimized as a provider to negotiate a given amount of power to be sourced to an inquiring consumer device from STMicroelectronics. The main functions of the STUSB4700 are discovery, configuration, and monitoring of the VBUS: Type-C low, medium, or high current mode. Additionally, it offers 5 customizable power data objects (PDOs), several GPIOs, an integrated discharge path, and is natively robust to high voltage peaks. This Click board™ is suitable for any type-C source device, AC adapters, and power supplies for computer, consumer or portable consumer applications, and more.

Eigenschaften

  • 3 A DC output current
  • Operating input voltage from 5.5 V to 48 V
  • 850 kHz internally fixed switching frequency
  • Internal soft-start
  • Power good open collector output
  • Current mode architecture -Embedded compensation network
  • Zero load current operation
  • Internal current limiting
  • Inhibit for zero current consumption
  • 2 mA maximum quiescent current over temperature range
  • 250 mΩ typ. RDS(on)
  • Thermal shutdown

Typische Anwendungen

  • Factory automation
  • Printers

Weiterführende Informationen

Artikeldaten

Artikel Nr. Daten­blatt Simu­lation Downloads Status ProduktserieL
(µH)
IRP,40K
(A)
RDC max.
(mΩ)
fres
(MHz)
BauformVersion Muster
7447709680SPEC
8 Dateien Aktiv i| Produktion ist aktiv. Erwartete Lebenszeit: >10 Jahre.WE-PD SMT-Speicherdrossel 68 3.9 89 5.5 1210 Standard
Artikel Nr. Daten­blatt Simu­lation
7447709680SPEC
Muster
Artikel Nr. Daten­blatt Simu­lation Downloads Status ProduktserieL
(µH)
IRP,40K
(A)
RDC max.
(mΩ)
fres
(MHz)
BauformVersion Muster