Datasheet ALT80800 (Allegro) - 10

HerstellerAllegro
BeschreibungAutomotive-Grade, Constant-Current 2.0 A PWM Dimmable Synchronous Buck LED Driver
Seiten / Seite23 / 10 — Automotive-Grade, Constant-Current 2.0 A. ALT80800. PWM Dimmable …
Dateiformat / GrößePDF / 2.2 Mb
DokumentenspracheEnglisch

Automotive-Grade, Constant-Current 2.0 A. ALT80800. PWM Dimmable Synchronous Buck LED Driver. OUTPUT VOLTAGE AND DUTY CYCLE

Automotive-Grade, Constant-Current 2.0 A ALT80800 PWM Dimmable Synchronous Buck LED Driver OUTPUT VOLTAGE AND DUTY CYCLE

Modelllinie für dieses Datenblatt

Textversion des Dokuments

Automotive-Grade, Constant-Current 2.0 A ALT80800 PWM Dimmable Synchronous Buck LED Driver OUTPUT VOLTAGE AND DUTY CYCLE
During SW on-time: The figure below provides simplified equations for approximat- ing output voltage. The output voltage of a buck converter is iRIPPLE = (VIN – VOUT) / L × tON = (VIN – VOUT) / L × t × D approximately given as: where D = tON / t. VOUT ≈ VIN × D , D = tON / (tON + tOFF) During SW off-time: where D is the duty cycle. iRIPPLE = VOUT / L × tOFF = VOUT / L × t × (1 – D)
V
Simplified equation for output voltage:
IN
V MOS OUT = VIN × D HS CIN More precisely: L VOUT = (VIN – iAVG × RDSON(HS)) × D – (1 – D) × RDSON(LS) × iAVG
SW
– (DCR + RSENSE) × iAVG where DCR is the internal resistance of the inductor, RSENSE is i the current sensing resistance, RDSON(HS) is the on-resistance L RSENSE of high-side switch, R
V
DSON(LS) is the on-resistance of low-side
OUT
MOS switch, i LS AVG is the average current through inductor and equal to LED current.
GND
VSW VIN 0 t –VD iL i –VD RIPPLE t tON tOFF Period, t Note: VD = RDSON(LS) × IL
Figure 9: Simplified Waveforms for a Buck Converter
10 Allegro MicroSystems 955 Perimeter Road Manchester, NH 03103-3353 U.S.A. www.allegromicro.com Document Outline Features and Benefits Description Applications Package Typical Application Circuit Selection Guide Specifications Absolute Maximum Ratings Thermal Characteristics Pinout Diagrams and Terminal List Tables Functional Block Diagrams Electrical Characteristics Functional Description Application Circuit Diagrams