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ReferenzdesignMCP1661 | Demoboard ADM00566

Microchip MCP1661 | Demoboard ADM00566

MCP1661 High-Voltage Boost and SEPIC Converters Evaluation Board User’s Guide

Details

TopologieSEPIC Buck-Boost Topologie
Eingangsspannung2.4-5.5 V
Ausgang 13.3 V / 0.45 A
IC-RevisionA

Beschreibung

The MCP1661 High-Voltage Boost and SEPIC Converters Evaluation Board is used toevaluate and demonstrate Microchip Technology’s MCP1661 product. This boarddemonstrates the MCP1661 capabilities in two different topologies:• 12V output Boost Converter application supplied from an external voltage source(VIN < 5.5V e.g. two cell boost to 12V)• 3.3V output SEPIC Converter application supplied from a Li-Ion Cell.It can be used to evaluate the SOT-23-5 package. The MCP1661 High-Voltage Boost and SEPIC Converters Evaluation Board was developed to help engineers reduce product design cycle time.In both the MCP1661 Boost Application and MCP1661 SEPIC Application, the output voltage is set to the proper value using an external resistor divider, resulting in a simple and compact solution.In the MCP1661 SEPIC Application, a switch is used to enable and disable the converter. When enabled, the MCP1661 will regulate the output voltage; whendisabled, the MCP1661 SEPIC Application will disconnect the path from input to output.

Eigenschaften

  • MCP1661 device can be evaluated in two separate applications: Boost and SEPIC
  • Under voltage Lockout (UVLO)
  • Start-up Voltage: 2.3V (UVLO Start)
  • Input Voltage range (VIN) after start-up: 2.4V to 5.5V, with VIN  VOUT
  • Output Voltage:
  • 12V (for MCP1661 Boost Application)
  • 3.3V (for MCP1661 SEPIC Application)
  • Output Current: typical 125 mA @ 12V Output, 3.3VInput (for the Boost Converter)
  • PWM Operation
  • PWM Switching Frequency: 500 kHz
  • Enable state selectable using EN switch (for MCP1661 SEPIC Application)
  • Peak Input Current Limit of 1.3A
  • Internal Compensation
  • Soft Start
  • Over temperature Protection (if the die temperatureexceeds +150°C, with 15°Chysteresis)

Weiterführende Informationen

Artikeldaten

Artikel Nr. Daten­blatt Simu­lation Downloads Status ProduktseriePolesL
(mm)		DampfphasenprozessL1
(µH)		L2
(µH)		IR 1
(A)		IR 2
(A)		ISAT 1
(A)		RDC1 typ
(Ω)		RDC2 typ
(Ω)		RDC1 max
(Ω)		RDC2 max
(Ω)		fres
(MHz)		Typ Muster
418121270801SPEC
6 Dateien

EDA-Modelle: Bauteile
ZIP

CAD-Dateien
ZIP

Alle 6 Dateien als ZIP herunterladen
ZIP

 Aktiv i| Produktion ist aktiv. Erwartete Lebenszeit: >10 Jahre.WS-DISV Small Compact SMT with Raised Actuator 2.54 mm 1 3.48 nicht spezifiziert
744878004SPEC
8 Dateien

EDA-Modelle: Bauteile
ZIP

CAD-Dateien
ZIP

Elektrische Modelle
ZIP

Alle 8 Dateien als ZIP herunterladen
ZIP

 Aktiv i| Produktion ist aktiv. Erwartete Lebenszeit: >10 Jahre.WE-DD SMT-Doppeldrossel 7.3 4.7 4.7 1.3 1.3 3 0.065 0.065 0.075 0.075 46 Gerade
Artikel Nr. Daten­blatt Simu­lation
418121270801SPEC
744878004SPEC
Muster
Artikel Nr. Daten­blatt Simu­lation Downloads Status ProduktseriePolesL
(mm)		DampfphasenprozessL1
(µH)		L2
(µH)		IR 1
(A)		IR 2
(A)		ISAT 1
(A)		RDC1 typ
(Ω)		RDC2 typ
(Ω)		RDC1 max
(Ω)		RDC2 max
(Ω)		fres
(MHz)		Typ Muster