NCV4390DR2G

onsemi
863-NCV4390DR2G
NCV4390DR2G

Mfr.:

Description:
Switching Controllers Automotive Advanced Secondary Side LLC Resonant Converter Controller

Datasheet:
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Learn more about onsemi NCV4390DR2G

In Stock: 2.472

Stock:
2.472 Can Dispatch Immediately
Factory Lead Time:
19 Weeks Estimated factory production time for quantities greater than shown.
Minimum: 1   Multiples: 1
Unit Price:
-,-- €
Ext. Price:
-,-- €
Est. Tariff:
Packaging:
Full Reel (Order in multiples of 2500)

Pricing (EUR)

Qty. Unit Price
Ext. Price
Cut Tape / MouseReel™
2,37 € 2,37 €
2,22 € 22,20 €
2,11 € 52,75 €
2,06 € 206,00 €
1,99 € 497,50 €
1,94 € 970,00 €
1,73 € 1.730,00 €
Full Reel (Order in multiples of 2500)
1,65 € 4.125,00 €
1,61 € 8.050,00 €
† A MouseReel™ fee of 5,00 € will be added and calculated in your basket. All MouseReel™ orders are non-cancellable and non-returnable.

Product Attribute Attribute Value Select Attribute
onsemi
Product Category: Switching Controllers
RoHS:  
Boost
2 Output
39 kHz to 690 kHz
50 %
6 V
150 mA
- 40 C
+ 125 C
SMD/SMT
Reel
Cut Tape
MouseReel
Brand: onsemi
Product Type: Switching Controllers
Series: NCV4390
Factory Pack Quantity: 2500
Subcategory: PMIC - Power Management ICs
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Attributes selected: 0

Datasheet

PCN

CNHTS:
8542399000
USHTS:
8542310030
ECCN:
EAR99

NCV4390 Automotive Resonant Converter Controllers

onsemi NCV4390 Automotive Resonant Converter Controllers are designed for LLC resonant converters with Synchronous Rectification (SR). The controller offers best-in-class efficiency for isolated DC/DC converters. The NCV4390 employs a current mode control technique based on a charge control, where the triangular waveform from the oscillator is combined with the integrated switch current information to determine the switching frequency. This provides a better control-to-output transfer function of the power stage simplifying the feedback loop design while allowing true input power limit capability. Closed-loop soft-start prevents saturation of the error amplifier and allows monotonic rising of the output voltage regardless of load condition. A dual-edge tracking adaptive dead-time control minimizes the body diode conduction time thus maximizing efficiency.

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