EPC

EPC2036
Demoboard EPC9121

Development Board EPC9121 Rev. 1.0 Quick Start Guide

Topologie: SEPIC
Eingangsspannung (min.): 17.00 V
Eingangsspannung (max.): 24.00 V
Schaltfrequenz (min.): 165.00 kHz
Schaltfrequenz (max.): 6780.00 kHz
Ausgang 1: 38.00 V / 1.500 A

Erstveröffentlichung am 30.06.2016, Version 1.0 vom

Beschreibung

The EPC9121 is a high efficiency, power demonstration system capable of operating to multiple wireless power standards. It is compatible with the Qi standard of the Wireless Power Consortium (WPC), thePower Matters Alliance (PMA) standard (now merged with AirFuel™ Alliance) and AirFuel (formerly A4WP) wireless power standards. In AirFuel resonant mode, hence referred to as AirFuel mode, the EPC9121system operates at 6.78 MHz with the amplifier circuit configured for ZVS operation. In this mode, the system can deliver up to 10 W of power into the source coil. In Qi/PMA inductive mode, the system operates at 165 kHz with the amplifier circuit configured for hard-switching operation and can deliver up to 5 W of load power into the device. The purpose of the EPC9121 is to simplify the evaluation process of both resonant and inductive wireless power technologies using eGaN® FETs and eGaN® ICs.

Artikel

  Artikel Nr. SPEC Produktserie C
(pF)
Tol. C VR
(V (DC))
Keramiktyp H
(mm)
Technische Artikelnummer DF
(%)
RISO
(GΩ)
Betriebstemperatur L1
(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 1
(MHz)
L
(µH)
ISAT
(mA)
RDC
(mΩ)
fres
(MHz)
Typ Pins P
(mm)
Gender Montageart IR 1
(A)
Arbeitsspannung
(V (AC))
PCB/Kabel/Panel Kontaktwiderstand
(mΩ)
Tol. R L
(mm)
Verpackung Pins Reihen Emitting Color λDom typ.
(nm)
IV typ.
(mcd)
50% typ.
(°)
Muster
885012005061 PDF WCAP-CSGP MLCCs 0402 100 ±5% 50 NP0 Klasse I 0.5 NP00402101J050DFCT10000
885012005057 PDF WCAP-CSGP MLCCs 0402 22 ±5% 50 NP0 Klasse I 0.5 NP00402220J050DFCT10000
885012105012 PDF WCAP-CSGP MLCCs 0402 1 ±20% 10 X5R Klasse II 0.5 X5R0402105M010DFCT10000 15 0.05 -55 °C up to +85 °C
885012205037 PDF WCAP-CSGP MLCCs 0402 100 ±10% 16 X7R Klasse II 0.5 X7R0402104K016DFCT10000 5
885012205052 PDF WCAP-CSGP MLCCs 0402 22 ±10% 25 X7R Klasse II 0.5 X7R0402223K025DFCT10000 3.5
885012205054 PDF WCAP-CSGP MLCCs 0402 47 ±10% 25 X7R Klasse II 0.5 X7R0402473K025DFCT10000 3.5
885012205061 PDF WCAP-CSGP MLCCs 0402 1 ±10% 50 X7R Klasse II 0.5 X7R0402102K050DFCT10000 2.5
885012105018 PDF WCAP-CSGP MLCCs 0402 100 ±20% 25 X5R Klasse II 0.5 X5R0402104M025DFCT10000 10
885012205067 PDF WCAP-CSGP MLCCs 0402 10 ±10% 50 X7R Klasse II 0.5 X7R0402103K050DFCT10000 2.5
885012207103 PDF WCAP-CSGP MLCCs 0805 1 ±10% 50 X7R Klasse II 1.25 X7R0805105K050DFCT10000 10
885012209048 PDF WCAP-CSGP MLCCs 1210 4.7 ±10% 50 X7R Klasse II 2.5 X7R1210475K050DFCT10000 5
744871101 PDF WE-DD SMT-Doppeldrossel 100 100 1.5 1.5 1.8 0.293 0.293 0.36 0.36 4
74479778310 PDF WE-PMI Power-Multilayer-Induktivität 1.1 700 1000 10 150 250 32 Low RDC
645002114822 PDF WR-WTB 3.96 mm Male Vertical Locking Header Vertikal 2 3.96 Männlich THT 7 250 PCB 20 max. 7.92 Beutel
61300211121 PDF WR-PHD 2.54 mm THT Pin Header Gerade Pin Header 3 Beutel 2 Single
61300111121 PDF WR-PHD 2.54 mm THT Pin Header Gerade Pin Header 3 Beutel 1 Single
61300411121 PDF WR-PHD 2.54 mm THT Pin Header Gerade Pin Header 3 Beutel 4 Single
60900213421 PDF WR-PHD 2.54 mm Multi-Jumper Jumper with Test Point Jumper 3 Beutel 1
150060RS75000 PDF Chip LED – Top View Rot 625 250 140
150060YS75000 PDF Chip LED – Top View Gelb 590 120 140
150060VS75000 PDF Chip LED – Top View Bright Green 570 40 140