ZXLD1371QESTTC Diodes Inc. / Zetex, ZXLD1371QESTTC Datasheet - Page 20

ZXLD1371QESTTC

Manufacturer Part Number

ZXLD1371QESTTC

Description

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

Manufacturer

Diodes Inc. / Zetex

Datasheet

1.ZXLD1371EST16TC.pdf (42 pages)

Specifications of ZXLD1371QESTTC

Rohs

yes

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ZXLD1371

Document number: DS35436 Rev. 1 - 2

Applications Information

The ZXLD1371 is a high accuracy hysteretic inductive buck/boost/buck-boost controller designed to be used with an

external NMOS switch for current-driving single or multiple series-connected LEDs. The device can be configured to

operate in buck, boost, or buck-boost modes by suitable configuration of the external components as shown in the

schematics shown in the device operation description.

DEVICE DESCRIPTION

a) Buck mode – the most simple buck circuit is shown in Figure 1

The average current in the sense resistor, LED and coil is

equal to the average of the maximum and minimum

threshold currents. The ripple current (hysteresis) is equal

to the difference between the thresholds. The control loop

maintains the average LED current at the set level by

adjusting the switch duty cycle continuously to force the

average sense resistor current to the value demanded by

the voltage on the ADJ pin.

output current with changes in operating conditions.

The control loop also regulates the switching frequency by

varying the level of hysteresis. The hysteresis has a defined

minimum (typ 5%) and a maximum (typ 30%).

frequency may deviate from nominal in some conditions.

This depends upon the desired LED current, the coil

inductance and the voltages at the input and the load. Loop

compensation is achieved by a single external capacitor C2,

connected between SHP and SGND.

Control of the LED current buck mode is achieved by

sensing the coil current in the sense resistor Rs, connected

between the two inputs of a current monitor within the

control loop block. An output from the control loop drives

the input of a comparator which drives the gate of the

external NMOS switch transistor Q1 via the internal Gate

Driver. When the switch is on, the drain voltage of Q1 is

near zero. Current flows from VIN, via Rs, LED, coil and

switch to ground. This current ramps up until an upper

threshold value is reached (see Figure 2). At this point

GATE goes low, the switch is turned off and the drain

voltage increases to VIN plus the forward voltage, V

schottky diode D1. Current flows via Rs, LED, coil and D1

back to VIN. When the coil current has ramped down to a

lower threshold value, GATE goes high, the switch is

turned on again and the cycle of events repeats, resulting

in continuous oscillation. The feedback loop adjusts the

NMOS switch duty cycle to stabilize the LED current in

response to changes in external conditions, including input

voltage and load voltage.

The control loop sets the duty cycle so that the sense

voltage is

Therefore,

Equation 1

If the ADJ pin is connected to the REF pin, this simplifies to

LED

SENSE

0.218

= 0.218

(Buck mode).

ADJ

REF

ADJ

(Buck mode)

This minimizes variation in

www.diodes.com

, of the

20 of 42

The

voltage

GATE

voltage

current

Drain

voltage

Coil &

Sense

LED

Figure 2. Operating waveforms (Buck mode)

- V

15V typ.

+11V to

VIN + VF

ISM

Figure 1. Buck configuration

Diodes Incorporated

A Product Line of

OFF

Mean = 218mV

February 2012

ZXLD1371

ZXLD1371QESTTC Diodes Inc. / Zetex, ZXLD1371QESTTC Datasheet - Page 20

ZXLD1371QESTTC

Specifications of ZXLD1371QESTTC

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