ZXLD1322DCCTC Diodes Zetex, ZXLD1322DCCTC Datasheet - Page 8

ZXLD1322DCCTC

Manufacturer Part Number

ZXLD1322DCCTC

Description

IC LED DRIVR WHITE BCKLGT 14-DFN

Manufacturer

Diodes Zetex

Type

Backlight, White LEDr

Datasheet

1.ZXLD1322DCCTC.pdf (17 pages)

Specifications of ZXLD1322DCCTC

Topology

PWM, Step-Down (Buck), Step-Up (Boost)

Number Of Outputs

Internal Driver

Yes

Type - Primary

General Purpose

Type - Secondary

White LED

Frequency

600kHz

Voltage - Supply

2.5 V ~ 15 V

Mounting Type

Surface Mount

Package / Case

14-DFN

Operating Temperature

-40°C ~ 125°C

Current - Output / Channel

700mA

Internal Switch(s)

Yes

Efficiency

80%

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Output

Other names

ZXLD1322DCCTR

Current page: 8 of 17
Download datasheet (274Kb)

ZXLD1322

Document number: DS32166 Rev. 3 - 2

Device Description

The ZXLD1322 is a buck/boost mode inductive DC-DC converter, with an internal switch, designed for driving single or

multiple LEDs in series up to a total of 700mA output current. Depending upon supply voltage (V

drop (V

Applications cover V

The device employs a modified Pulse Frequency Modulation (PFM) control scheme, with variable "ON" and "OFF" time

control and adjustable peak switch current limiting.

General device operation (refer to block diagram)

Normal Operation

Control is achieved by sensing the LED current in a series resistor (R

Current Monitor. This generates a proportional current (I

balanced against a reference discharge current (I

driven from the demand voltage (V

produce an error voltage. A comparator takes a summed version of the voltage at the I

voltage and resets the latch driving the switch when the sum is greater than 50mV. The switch transistor is turned on by the

output of the SR latch, which remains set until the emitter current in the switch transistor produces a voltage drop V

(=50mV nominal) in external resistor R

that a rising error voltage on CFB will effectively lower the voltage required on the I

earlier in the switching cycle. This will reduce the 'ON' time of the switch and reduce the peak current in the switch from its

preset maximum value. Similarly, a falling error voltage will reset the latch later and the peak switch current will be

increased. The control loop therefore reduces or increases the energy stored in the coil during each switching cycle, as

necessary, to force the LED current to the set value. This results in high accuracy, as no error is needed in the LED current

to drive the servo to the required region.

The time taken for the coil current to reach the peak value depends on several factors: the supply voltage, the peak coil

current required at that particular LED power and whether the system operates in "continuous" or "discontinuous" mode.

The time allowed for the coil current to discharge into the LED is fixed by the 'Variable Off Delay' monostable, whose period

is modified by the power demand signal on the ADJ pin. This monostable determines the time for which the latch remains

reset (switch off) and provides a longer "OFF" period at lower power settings, helping to keep the parameters within an

acceptable range.

Note that the "ON" period and the "OFF" period are set by the supply voltage, LED power and external components chosen.

The frequency is therefore determined by these parameters and is NOT fixed. In this modified PFM scheme, the external

components can be chosen to keep the frequency well above the audio range for all extremes of parameters, so no audible

whistling should ever occur.

The 500mV reference voltage defines the nominal V

currents, the ADJ pin can be-driven from an external DC voltage (50mV<V

Modulated (PWM) waveform.

Low voltage operation (start-up mode)

For supply voltages below 2V, the normal control loop will have insufficient headroom to operate reliably. This condition is

detected by the 'under-voltage comparator', which compares a fraction of the internal supply voltage (V

When the comparator output is active (V

'Start-up oscillator and driver' enabled. The start-up oscillator provides a nominal 50kHz fixed frequency drive signal to the

base of the switch transistor, which is independent of V

current in the coil ramps to approximately 25% of the normal value and the "OFF" time is fixed.

The low voltage start-up mode allows the device to operate down to 1.2V nominal. This allows the chip to work from a single

cell.

LED

) and circuit configuration, this can provide up to 12W of output power.

ranging from 2.5V to 15V.

ADJ

SENSE

) on the ADJ pin. The difference between I

<1.8V), the output of the normal switch drive circuit is disabled and an alternative

, defining a preset maximum switch current of 50mV/R

ADJ

www.diodes.com

) generated at the output of a second voltage to current converter

ADJ

voltage and this defines the 100% output current. For lower LED

MON

8 of 17

and the voltage on CFB. Under low voltage conditions, the peak

) that charges the external integrator capacitor CFB. I

), connected between the two inputs of the LED

ADJ

Diodes Incorporated

<500mV) or a low frequency Pulse Width

A Product Line of

SENSE

MON

SENSE

and I

pin and therefore reset the latch

pin and a fraction of this CFB

ADJ

SENCE

is integrated by CFB to

), LED forward voltage

. Operation is such

) against V

ZXLD1322

April 2010

MON

SENSE

REF

ZXLD1322DCCTC Diodes Zetex, ZXLD1322DCCTC Datasheet - Page 8

ZXLD1322DCCTC

Specifications of ZXLD1322DCCTC

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