EL7642ILTZ-T13 Intersil, EL7642ILTZ-T13 Datasheet - Page 17

EL7642ILTZ-T13

Manufacturer Part Number

EL7642ILTZ-T13

Description

IC BOOST REG DC/DC TFT-LCD 32QFN

Manufacturer

Intersil

Datasheet

1.EL7640ILTZ-T7.pdf (19 pages)

Specifications of EL7642ILTZ-T13

Applications

Converter, TFT, LCD

Voltage - Input

2.6 ~ 5.5 V

Number Of Outputs

Voltage - Output

5.5 ~ 20 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

32-WQFN, 32-miniQFN

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

EL7642ILTZ-T13

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supplies. A high quality layout/design of the PCB, in respect

of grounding quality and decoupling is necessary to avoid

falsely triggering the fault detection scheme – especially

during start-up. The user is directed to the layout guidelines

and component selection sections to avoid problems during

initial evaluation and prototype PCB generation.

The V

switching the voltage on COM between ground, DRN and

SRC, under control of the start-up sequence and the CTL pin.

During the start-up sequence, COM is held at ground via an

NDMOS FET, with ~1k impedance. Once the start-up

sequence has completed, CTL is enabled and acts as a

multiplexer control such that if CTL is low, COM connects to

DRN through a 5Ω internal MOSFET, and if CTL is high,

COM connects to SRC via a 30Ω MOSFET.

The slew rate of start-up of the switch control circuit is mainly

restricted by the load capacitance at COM pin as in the

following equation:

Where V

circuit, R

including the internal MOSFET r

and the resistor inserted, R

switch control circuit, and C

switch control circuit.

In the Typical Application Circuit, R

bias to DRN based on the following equation:

and R

Op Amps

The EL7640, EL7641 and EL7642 have 1, 3 and 5 amplifiers

respectively. The op amps are typically used to drive the

TFT-LCD backplane (V

divider string. They feature rail-to-rail input and output

capability, they are unity gain stable, and have low power

consumption (typical 600µA per amplifier). The EL7640,

EL7641 and EL7642 have a –3dB bandwidth of 12MHz while

maintaining a 10V/µs slew rate.

Short Circuit Current Limit

The EL7640, EL7641 and EL7642 will limit the short circuit

current to ±180mA if the output is directly shorted to the

positive or the negative supply. If an output is shorted for a

long time, the junction temperature will trigger the Over

Temperature Protection limit and hence the part will shut

down.

∆V

------- -

∆t

DRN

-Slice Circuit

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

(

-slice Circuit functions as a three way multiplexer,

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

can be adjusted to adjust the slew rate.

is the resistance between COM and DRN or SRC

is the supply voltage applied to the switch control

) C

•

VDD

COM

•

) or the gamma-correction

is the load resistance of the

is the load capacitance of the

DS(ON)

, R

, the trace resistance

and C

EL7640, EL7641, EL7642

give the

Driving Capacitive Loads

EL7640, EL7641 and EL7642 can drive a wide range of

capacitive loads. As load capacitance increases, however,

the –3dB bandwidth of the device will decrease and the

peaking will increase. The amplifiers drive 10pF loads in

parallel with 10kΩ with just 1.5dB of peaking, and 100pF

with 6.4dB of peaking. If less peaking is desired in these

applications, a small series resistor (usually between 5Ω and

50Ω) can be placed in series with the output. However, this

will obviously reduce the gain. Another method of reducing

peaking is to add a “snubber” circuit at the output. A snubber

is a shunt load consisting of a resistor in series with a

capacitor. Values of 150Ω and 10nF are typical. The

advantage of a snubber is that it does not draw any DC load

current and reduce the gain.

Over-Temperature Protection

An internal temperature sensor continuously monitors the

die temperature. In the event that the die temperature

exceeds the thermal trip point, the device will be latched off

until either the input supply voltage or enable is cycled.

Layout Recommendation

The device’s performance including efficiency, output noise,

transient response and control loop stability is dramatically

affected by the PCB layout. PCB layout is critical, especially

at high switching frequency.

There are some general guidelines for layout:

1. Place the external power components (the input

2. Place V

3. Reduce the loop with large AC amplitudes and fast slew

4. The feedback network should sense the output voltage

5. The power ground (PGND) and signal ground (SGND)

6. The exposed die plate, on the underneath of the

7. To minimize the thermal resistance of the package when

capacitors, output capacitors, boost inductor and output

diodes, etc.) in close proximity to the device. Traces to

these components should be kept as short and wide as

possible to minimize parasitic inductance and resistance.

rate.

directly from the point of load, and be as far away from LX

node as possible.

pins should be connected at only one point.

package, should be soldered to an equivalent area of

metal on the PCB. This contact area should have multiple

via connections to the back of the PCB as well as

connections to intermediate PCB layers, if available, to

maximize thermal dissipation away from the IC.

soldered to a multi-layer PCB, the amount of copper track

and ground plane area connected to the exposed die

plate should be maximized and spread out as far as

possible from the IC. The bottom and top PCB areas

especially should be maximized to allow thermal

dissipation to the surrounding air.

REF

and V

bypass capacitors close to the pins.

February 22, 2006

FN7415.2

EL7642ILTZ-T13 Intersil, EL7642ILTZ-T13 Datasheet - Page 17

EL7642ILTZ-T13

Specifications of EL7642ILTZ-T13

Available stocks

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