ZXLD1370EST16TC Diodes Zetex, ZXLD1370EST16TC Datasheet - Page 28

ZXLD1370EST16TC

Manufacturer Part Number

ZXLD1370EST16TC

Description

IC LED DRVR HIGH BRIGHT TSSOP-16

Manufacturer

Diodes Zetex

Type

HBLED Driverr

Datasheet

1.ZXLD1370EST16TC.pdf (36 pages)

Specifications of ZXLD1370EST16TC

Constant Current

Constant Voltage

Topology

Number Of Outputs

Internal Driver

Type - Primary

Type - Secondary

Frequency

Voltage - Supply

Voltage - Output

Mounting Type

Surface Mount

Package / Case

16-TSSOP Exposed Pad, 16-eTSSOP, 16-HTSSOP

Operating Temperature

Current - Output / Channel

Internal Switch(s)

Efficiency

95%

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

ZXLD1370EST16TCTR

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Current page: 28 of 36
Download datasheet (854Kb)

ZXLD1370

Document number: DS32165 Rev. 4 - 2

Applications Information

Diagnostic signals should be ignored during the device

start – up for 100μs. The device start up sequence will

be initiated both during the first power on of the device

or after the PWM signal is kept low for more than 15ms,

initiating the standby state of the device.

In particular, during the first 100μs the diagnostic is

signaling an over-current then an out-of-regulation

status. These two events are due to the charging of the

inductor and are not true fault conditions.

Boosting V

When the input voltage is lower than 8V, the gate voltage will also be lower 8V. This means that depending on the

characteristics of the external MOSFET, the gate voltage may not be enough to fully enhance the power MOSFET. This

boosting technique is particularly important when the output MOSFET is operating at full current, since the boost circuit

allows the gate voltage to be higher than 12V. This guarantees that the MOSFET is fully enhanced reducing both the power

dissipation and the risk of thermal runaway of the MOSFET itself. An extra diode D2 and decoupling capacitor C3 can be

used, as shown below in figure 36, to generate a boosted voltage at V

This enables the device to operate with full output current when V

voltage threshold MOSFET, the bootstrap circuit is generally not required.

The resistor R2 can be used to limit the current in the bootstrap circuit in order to reduce the impact of the circuit itself on the

LED accuracy. The impact on the LED current is usually a decrease of maximum 5% compared to the nominal current

value set by the sense resistor.

The Zener diode D3 is used to limit the voltage on the V

Due to the increased number of components and the loss of current accuracy, the bootstrap circuit is recommended only

when the system has to operate continuously in conditions of low input voltage (between 6 and 8V) and high load current.

Other circumstances such as low input voltage at low load current, or transient low input voltage at high current should be

evaluated keeping account of the external MOSFET power dissipation.

AUX

supply voltage in Boost and Buck-Boost mode

Fig 37. Bootstrap circuit for Boost and Buck-boost low voltage operations

(Continued)

www.diodes.com

AUX

28 of 36

pin to less than 60V.

V R E F

0 V

0 A

is at the minimum value of 6V. In the case of a low

AUX

Fig 36. Diagnostic during Start-up

when the input supply voltage at V

C u r r e n t

O v e r

1 0 0 u s

Diodes Incorporated

A Product Line of

O u t o f

r e g u l a t i o n

ZXLD1370

is below 8V.

2 2 5 m V / R 1

March 2011

ZXLD1370EST16TC Diodes Zetex, ZXLD1370EST16TC Datasheet - Page 28

ZXLD1370EST16TC

Specifications of ZXLD1370EST16TC

Available stocks

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