EL7566DRE-EVAL Intersil, EL7566DRE-EVAL Datasheet - Page 9

EL7566DRE-EVAL

Manufacturer Part Number

EL7566DRE-EVAL

Description

DEMO BOARD FOR EL7566

Manufacturer

Intersil

Datasheets

1.EL7566DREZ.pdf (14 pages)

2.EL7566DRE-EVAL.pdf (3 pages)

Specifications of EL7566DRE-EVAL

Main Purpose

DC/DC, Step Down

Outputs And Type

1, Non-Isolated

Voltage - Output

1.8V

Current - Output

Voltage - Input

3 ~ 6V

Regulator Topology

Buck

Frequency - Switching

500kHz

Board Type

Fully Populated

Utilized Ic / Part

EL7566

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Power - Output

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Waveforms

Detailed Description

The EL7566 is a 6A capable buck regulator operating from

an input voltage range of 3V to 6V. The duty cycle can be

adjusted from 0% to 100% allowing for a wide range of

programmable output voltages. Patented on-chip

resistorless current-sensing enables current mode control

for excellent step load response. Overcurrent, Overvoltage,

input Undervoltage, and thermal protection is integrated

along with soft-start and power-up sequencing features to

produce an overall robust power solution for general

purpose applications.

EL7566DRE vs. EL7566AIRE

The EL7566AIRE includes the following feature changes

from the EL7566DRE:

• Up to 6A Current Sinking Capability

• Expanded Temperature Range: -40

• No Overvoltage Protection

Start-Up

The EL7566 employs a digital soft-start feature to suppress

the in-rush current needed to charge the output capacitance

and smoothly ramp the output voltage to regulation (See

Figure 12). The normal start-up process begins when the

input voltage reaches the rising POR threshold (~2.8V) and

EN pin is transitioned HIGH by an internal 2.5µA current

source. The output voltage is then digitally ramped to

regulation over a 2ms period. The 2ms soft start-up time can

be extended if needed by configuring the STP and STN pins.

(refer to Full Start-Up Control section).

If the input voltage is ramped slowly, soft-start may be

initiated before the input supply has reached regulation. The

lower input voltage will have increased current demand

during start-up and may risk an overcurrent event. To

prevent such an event from occurring, a capacitor can be

= V

= 5V, V

FIGURE 18. ADJUSTABLE START-UP

= 2.5V, I

5ms/DIV

= 6A, f

= 500kHz, L = 2.7µH, C

C to 85

(2A/DIV)

(2V/DIV)

(5V/DIV)

= 100µF, C

EL7566

OUT

placed from the EN pin to GND to program a delay between

when the rising POR threshold for VIN is met and when soft-

start begins. The programmable delay time, T

by Equation 1.

where:

• C

• V

• I

Steady-State Operation

Under all steady-state conditions the converter will operate

in fixed frequency continuous-conduction mode. For fast

transient response and ease of controllability, a peak

current-mode control method is employed. The inductor

current is sensed from the upper PMOS. This current signal

serves as the ramp to the PWM comparator and is compared

against the difference signal generated by the

transconductance error amplifier. Slope compensation for

the ramp is used to allow for 100% duty cycle operation (see

Figure 20). The pulse-width modulated square wave output

of the PWM comparator is amplified and serves as the gate

drive signals for the switching power FETs.

100% DUTY RATIO

EL7566 uses CMOS as internal synchronous power

switches. The upper and lower switches are PMOS and

NMOS respectively. The upper PMOS saves the need for a

boot capacitor normally seen in NMOS/NMOS half-bridges.

= 150µF, T

see Figure 5)

EN_HI

is the EN pin pull-up current, nominal 2.5µA

is the capacitance at EN pin

is the EN input high level (function of V

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

= 25°C unless otherwise noted. (Continued)

FIGURE 19. TRACKING START-UP

EN_HI

5ms/DIV

, is governed

(5V/DIV)

=2.5V

=1.8V

May 8, 2006

voltage,

FN7102.7

EL7566DRE-EVAL Intersil, EL7566DRE-EVAL Datasheet - Page 9

EL7566DRE-EVAL

Specifications of EL7566DRE-EVAL

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