IC-Hersteller Analog Devices

IC-Hersteller (99)

Analog Devices LTC3310-1 | Demoboard DC3043A

3.3V to 1.0V at 10A, 2MHz Automotive Low EMI Buck Regulator in a 2.11cm2 Solution

Details

TopologieAbwärtswandler
Eingangsspannung2.25-5.5 V
Schaltfrequenz500-5000 kHz
Ausgang 11 V / 10 A

Beschreibung

Demonstration Circuit 3043A shows the LTC3310-1 10A,1V fixed output, synchronous step-down Silent Switcher®operating as a 2MHz 3.3V to 1.0V 10A buck regulator. TheLTC3310-1 supports operating frequencies from 500kHz up to 5MHz. The LTC3310-1 is a compact, ultralow emission,high efficiency, and high speed synchronous monolithic step-down switching regulator. The LTC3310-1 has Active Voltage Positioning (AVP) where the output voltage is dependent on load current. At light loads the output voltage is regulated above the nominal value. At full load the output voltage is regulated below the nominal value.The DC load regulation is adjusted to improve transient performance and reduce output capacitor requirements.DC3043A is set up to run in forced continuous mode with a 2MHz switching frequency but can be configured to pulse skip mode and different switching frequencies. RT is connected to VIN which sets the MODE/SYNC pin as an input and allows the LTC3310-1 to sync from an external clock. Connecting the MODE/SYNC pin to VIN sets the mode to pulse skip mode and connecting the MODE/SYNC pin to GND sets the mode to forced continuous mode.The DC3043A also has an EMI filter to reduce conducted EMI. This EMI filter can be included by applying the input voltage at the VIN EMI terminal. The EMI performance of the board is shown in the EMI TEST RESULTS section.The red lines in the EMI performance graphs illustrate the CISPR25 Class 5 peak limits for the conducted and radiated emission tests.

Eigenschaften

  • Silent Switcher Architecture:UItralow EMI Emissions(LTC3310S and LTC3310S-1)
  • High Efficiency: 4.5mΩ NMOS and 16mΩ PMOS
  • Wide Bandwidth, Fast Transient Response
  • Safely Tolerates Inductor Saturation in Overload
  • VIN Range: 2.25V to 5.5V
  • VOUT Range: 0.5V to VIN
  • VOUT Accuracy: ±1% with Remote Sense
  • Peak Current Mode Control
  • 35ns Minimum On-Time
  • Programmable Frequency to 5MHz
  • Shutdown Current: 1µA
  • Precision 400mV Enable Threshold
  • Output Soft-Start with Voltage Tracking
  • Power Good Output
  • Die Temperature Monitor
  • Configurable for Paralleling Power Stages
  • Thermally-Enhanced 3mm × 3mm LQFN Package
  • AEC-Q100 Qualified for Automotive Applications

Typische Anwendungen

  • Communications
  • Servers, Telecom Power Supplies, Distributed DC Power Systems (POL), FPGA, ASIC, µP Core Supplies.
  • Industrial
  • Automotive

Weiterführende Informationen

Artikeldaten

Artikel Nr. Daten­blatt Simu­lation Downloads Status ProduktserieCTol. CVR
(V (DC))
BauformBetriebstemperaturDF
(%)
RISOKeramiktypL
(mm)
W
(mm)
Fl
(mm)
Z @ 100 MHz
(Ω)
Zmax
(Ω)
Testbedingung ZmaxIR
(mA)
Z @ 1 GHz
(Ω)
H
(mm)
TypPins (Value)
(pcs)
ReihenGenderVerpackung Muster
885012205053SPEC
8 Dateien Aktiv i| Produktion ist aktiv. Erwartete Lebenszeit: >10 Jahre.WCAP-CSGP MLCCs 25 V(DC)33 nF ±10% 25 0402 -55 °C up to +125 °C 3.510 GΩ X7R Klasse II 1 0.5 0.25 0.5 7" Tape & Reel
74279226101SPEC
8 Dateien Aktiv i| Produktion ist aktiv. Erwartete Lebenszeit: >10 Jahre.WE-MPSB EMI Multilayer Power Suppression Bead 1812 -55 °C up to +125 °C 4.5 3.2 0.46 100 160 1100 MHz 8000 150 2.3 High Current
60800213421SPEC
3 Dateien Aktiv i| Produktion ist aktiv. Erwartete Lebenszeit: >10 Jahre.WR-PHD 2.00 mm Jumper with Test Point -25 °C up to +105 °C1000 MΩ 3000 2 Jumper Beutel
62000311121SPEC
6 Dateien Aktiv i| Produktion ist aktiv. Erwartete Lebenszeit: >10 Jahre.WR-PHD 2.00 mm THT Pin Header -40 °C up to +105 °C1000 MΩ 6 2000 Gerade 3 Single Pin Header Beutel
Artikel Nr. Daten­blatt Simu­lation
885012205053SPEC
74279226101SPEC
60800213421SPEC
62000311121SPEC
Muster
Artikel Nr. Daten­blatt Simu­lation Downloads Status ProduktserieCTol. CVR
(V (DC))
BauformBetriebstemperaturDF
(%)
RISOKeramiktypL
(mm)
W
(mm)
Fl
(mm)
Z @ 100 MHz
(Ω)
Zmax
(Ω)
Testbedingung ZmaxIR
(mA)
Z @ 1 GHz
(Ω)
H
(mm)
TypPins (Value)
(pcs)
ReihenGenderVerpackung Muster