ZXLD1321DCATC Diodes Zetex, ZXLD1321DCATC Datasheet - Page 14

ZXLD1321DCATC

Manufacturer Part Number

ZXLD1321DCATC

Description

IC LED DRVR WHITE BCKLGT 14-TDFN

Manufacturer

Diodes Zetex

Type

Backlight, White LEDr

Datasheet

1.ZXLD1321DCATC.pdf (20 pages)

Specifications of ZXLD1321DCATC

Topology

PWM, Step-Up (Boost)

Number Of Outputs

Internal Driver

Yes

Type - Primary

Flash/Torch

Type - Secondary

High Brightness LED (HBLED), White LED

Frequency

600kHz

Voltage - Supply

2 V ~ 12 V

Mounting Type

Surface Mount

Package / Case

14-TDFN

Operating Temperature

-40°C ~ 125°C

Current - Output / Channel

Internal Switch(s)

Yes

Efficiency

85%

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Output

Other names

ZXLD1321DCATR

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

ZXLD1321DCATC

Manufacturer:

Quantity:

165

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ZXLD1321

Typical operating conditions

Inductive converters can operate in either CONTINUOUS mode, where current always flows in

the inductor, but rises during the ON period and falls during the OFF period, or DISCONTINUOUS

mode, where the current falls to zero during the OFF period. The mode depends on several

factors, including supply voltage, output (LED) voltage and the choice of peak current and

inductor value. Calculations need to be done to determine which mode the converter will be in.

The circuit should be designed to give slightly more LED current than required under the lowest

supply voltage, so the control loop can regulate the current accurately. If the theoretical LED

current is less than that required, the control loop will not be able to reach the required value. The

calculations will give an idea of the ON and OFF times and hence the operating frequency, but

bear in mind that the control loop will reduce the peak current to achieve the exact programmed

LED current and this will raise the operating frequency. In general, values in the discontinuous

mode are simpler to calculate because the current can go from zero to the theoretical maximum

during the ON period and fall to zero during the OFF period. In continuous mode the current will

start from some value, so the ON time will be lower to reach the theoretical maximum and lower

still when the control loop reduces the peak current below the maximum.

Circuit operation

Operation of boost LED driver

The input voltage must always be lower than the LED voltage. This circuit has an ON phase,

where the coil is connected from the supply to ground and an OFF phase, where the coil current

flows through the LED via a Schottky diode. The current therefore only flows into the LED circuit

during the OFF phase, although the reservoir capacitor C3 should keep current flowing in the

LED(s) continuously.

ADJ is set between 50mV and 500mV to give between 10% and 100% power respectively. Making

R2 = zero gives a base current to the output transistor of 50mA nominal and making R2 = 1.68k

gives 10mA nominal. The reduced base current will lower supply current and hence improve

efficiency in lower power applications. Making R1 = 25m

gives a peak coil current of 2 Amps.

The internal power transistor turns on until the coil current builds up to the peak value. At this

point the transistor switches off and the coil current continues to flow in the LED(s) via Schottky

diode D1.

Issue 1 - January 2008

www.zetex.com

ZXLD1321DCATC Diodes Zetex, ZXLD1321DCATC Datasheet - Page 14

ZXLD1321DCATC

Specifications of ZXLD1321DCATC

Available stocks

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