EL7630IWTZ-T7A Intersil, EL7630IWTZ-T7A Datasheet - Page 6

EL7630IWTZ-T7A

Manufacturer Part Number

EL7630IWTZ-T7A

Description

IC LED DRIVR WHITE BCKLGT TSOT-5

Manufacturer

Intersil

Type

Backlight, White LEDr

Datasheet

1.EL7630ICZ-T7A.pdf (7 pages)

Specifications of EL7630IWTZ-T7A

Topology

PWM, Step-Up (Boost)

Number Of Outputs

Internal Driver

Yes

Type - Primary

Backlight

Type - Secondary

White LED

Frequency

1.35MHz

Voltage - Supply

2.7 V ~ 5.5 V

Voltage - Output

27V

Mounting Type

Surface Mount

Package / Case

TSOT-23-5, TSOT-5, TSOP-5

Operating Temperature

-40°C ~ 85°C

Current - Output / Channel

30mA

Internal Switch(s)

Yes

Efficiency

86%

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

EL7630IWTZ-T7A

Manufacturer:

INTERSIL

Quantity:

20 000

Company:

Euro Chip Distribution

Part Number:

EL7630IWTZ-T7A

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Current page: 6 of 7
Download datasheet (223Kb)

For a required LED current I

and R

It is clear that as the required LED current I

the rate current V

required LED current is lower than the rate current, the

dimming DC voltage V

Open-Voltage Protection

In some applications, it is possible that the output is

opened, e.g. when the LEDs are disconnected from the

circuit or the LEDs fail. In this case the feedback voltage

will be zero. The EL7630 will then switch to a high duty

cycle resulting in a high output voltage, which may cause

the LX pin voltage to exceed its maximum 27V rating. To

implement overvoltage protection, a zener diode Dz and a

resistor R

voltage on the LX pin as shown in Figure 10. It is clear that

as the zener is turned on, due to the overvoltage, the zener

diode’s current will set up a voltage on R

voltage is applied on FB pin as the feedback node. This

feedback will prevent the output from reaching the

overvoltage condition. In the overvoltage protection circuit

design, the zener voltage should be larger than the

maximum forward voltage of the LED string.

Dim

FIGURE 10. LED DRIVER WITH OVERVOLTAGE

FIGURE 9. ANALOG DIMMING CONTROL APPLICATION

2.7V~5.5V

OFF/ON

, the dimming DC voltage V

OFF/ON

1µF

can be used at the output and FB pin to limit the

1µF

CIRCUIT

PROTECTION CIRCUIT

(

–

VDD

ENAB

VDD

ENAB

LED

SET

Dim

EL7630

GND

22µH

⋅

, V

is increased in R

LED

SET

Dim

)

and chosen values of R

is closed to V

⋅

------ -

Dim

4.75

SET

can be expressed as:

DIMMING SIGNAL

Ω

and R

LEDs

LED

LEDs

SET

is closed to

factor.

0.22µF

. As the

0.22µF

and this

(EQ. 5)

EL7630

Components Selection

The input capacitance is normally 0.22µF~4.7µF and the

output capacitor is 0.22µF~1µF. X5R or X7R type of ceramic

capacitor with the correct voltage rating is recommended.

The output capacitor value will affect PWM dimming

performance. For lower output capacitor values, the range of

PWM dimming is wider than for higher values of output

capacitor.

When choosing an inductor, make sure the inductor can

handle the average and peak currents given by the following

formulas (80% efficiency assumed):

Where:

• ∆I

• L inductance in H.

• f

The boost inductor can be chosen in a wide range of

inductance (10µH~82µH). For 10µH inductor value, the

boost inductor current will be in discontinuous mode. As the

inductor value decreases further, the ripple of the boost

inductor current is increased and can even trigger

overcurrent protection. For high boost inductor value, the

boost inductor current will be in continuous mode. For

general boost converter, as the converter operates in

continuous mode, there is right half plane zero (RHPZ). If

RHPZ frequency is less than or close to the control loop

crossover frequency, there is a stability issue. In EL7630, the

compensation network is well designed and there is no

RHPZ stability issue even if the inductor value is over 82µH.

For the same series of inductors, a lower inductance has

lower DC resistance (DCR), which causes less conducting

loss, but higher peak to peak current variation, which

generates more RMS current loss. Figure 11 shows the

efficiency of the demo board with different LED load for a

specific series of inductor.

The diode used should be a schottky type with minimum

reverse voltage of 28V. The diode’s peak current is the same

as the inductor’s peak current. The schottky RMS current is:

∆

LPK

RMS

LAVG

OSC

is the peak-to-peak inductor current ripple in Ampere

-------------------------------------------------- -

L V

switching frequency, typically 1.2MHz

LAVG

-------------------------------- -

⋅

LED

⋅

(

0.8 V

OUT

⋅





OUT

2 I

⋅

-- -

⋅

OUT

LAVG

⋅

–

OSC

∆

)

-- -

⋅

∆





February 22, 2006

(EQ. 6)

(EQ. 7)

(EQ. 8)

(EQ. 9)

FN7371.1

EL7630IWTZ-T7A Intersil, EL7630IWTZ-T7A Datasheet - Page 6

EL7630IWTZ-T7A

Specifications of EL7630IWTZ-T7A

Available stocks

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