ZXLD1371EST16TC Diodes Inc. / Zetex, ZXLD1371EST16TC Datasheet - Page 27

ZXLD1371EST16TC

Manufacturer Part Number

ZXLD1371EST16TC

Description

MOSFET LED Controller TSSOP TSSOP-16EP T&R 2.5K

Manufacturer

Diodes Inc. / Zetex

Datasheet

1.ZXLD1371EST16TC.pdf (42 pages)

Specifications of ZXLD1371EST16TC

Rohs

yes

Current page: 27 of 42
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As the regulated frequency is known, and we have already found D from Equation 7 or the approximation Equation 7b , this

allows calculation of t

ZXLD1371

Document number: DS35436 Rev. 1 - 2

Applications Information

Inductor Selection and frequency Control

The selection of the inductor coil, L1, requires knowledge of the switching frequency and current ripple, and also depends on

the duty cycle to some extent. In the hysteretic converter, the frequency depends upon the input and output voltages and

the switching thresholds of the current monitor. The peak-to-peak coil current is adjusted by the ZXLD1371 to control the

frequency to a fixed value. This is done by controlling the switching thresholds within particular limits. This effectively much

reduces the overall frequency range for a given input voltage range. Where the input voltage range is not excessive, the

frequency is regulated to approximately 390kHz. This is helpful in terms of EMC and other system requirements. Figure 7

shows practical results of switching frequency driving 8 LEDs at 350mA.

For larger input voltage variation, or when the choice of coil inductance is not optimum, the switching frequency may depart

from the regulated value, but the regulation of LED current remains successful. If desired, the frequency can to some extent

be increased by using a smaller inductor, or decreased using a larger inductor. The web Calculator will evaluate the

frequency across the input voltage range and the effect of this upon power efficiency and junction temperatures.

Determination of the input voltage range for which the frequency is regulated may be required. This calculation is very

involved, and is not given here. However the performance in this respect can be evaluated within the web Calculator for the

chosen inductance.

The inductance is given as follows in terms of peak-to-peak ripple current in the coil, ΔI

Therefore In order to calculate L1, we need to find I

estimated.

L1 = V

is estimated from Equation 9 .

is related to switching frequency, f, and duty cycle, D, as follows:

- N V

- I

- (I

LED

+ I

DSON

OUT

- I

OUT

500

450

400

350

300

250

200

150

100

) R

+ R

DSON

COIL

Figure 7. Frequency vs. V

DSON

350mA LED Current and Various Inductor Values

+ R

(cont.)

+ R

L = 33µH

COIL

+ R

∆I

+ R

L = 68µH

L = 100µH

www.diodes.com

∆I

, t

27 of 42

, and ΔI

for Buck

for Boost

for Buck-boost

V (V)

for Boost LED Driver with

. The effects of the resistances are small and will be

Diodes Incorporated

T = 25 C, V

8 LEDs, R = 150m ,

R9 = 120k , R10 = 36k ,

A Product Line of

= 100µF

and the MOSFET on time, t

AUX

= V

Equation 19

February 2012

ZXLD1371

Equation 18

ZXLD1371EST16TC Diodes Inc. / Zetex, ZXLD1371EST16TC Datasheet - Page 27

ZXLD1371EST16TC

Specifications of ZXLD1371EST16TC

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