EL7464CRE-T13 ELANTEC [Elantec Semiconductor], EL7464CRE-T13 Datasheet - Page 9

EL7464CRE-T13

Manufacturer Part Number

EL7464CRE-T13

Description

Monolithic 4 Amp DC:DC Step-down Regulator

Manufacturer

ELANTEC [Elantec Semiconductor]

Datasheet

1.EL7464CRE-T13.pdf (18 pages)

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Applications Information

Circuit Description

General

The EL7564C is a fixed frequency, current mode con-

trolled DC:DC converter with integrated N-channel

power MOSFETs and a high precision reference. The

device incorporates all the active circuitry required to

implement a cost effective, user-programmable 4A syn-

chronous step-down regulator suitable for use in DSP

core power supplies. By combining fused-lead packag-

ing technology with an efficient synchronous switching

architecture, high power output (13W) can be realized

without the use of discrete external heat sinks.

Theory of Operation

The EL7564C is composed of 7 major blocks:

1. PWM Controller

2. NMOS Power FETs and Drive Circuitry

3. Bandgap Reference

4. Oscillator

5. Temperature Sensor

6. Power Good and Power On Reset

7. Auxiliary Supply Tracking

PWM Controller

The EL7564C regulates output voltage through the use

of current-mode controlled pulse width modulation. The

three main elements in a PWM controller are the feed-

back loop and reference, a pulse width modulator whose

duty cycle is controlled by the feedback error signal, and

a filter which averages the logic level modulator output.

In a step-down (buck) converter, the feedback loop

forces the time-averaged output of the modulator to

equal the desired output voltage. Unlike pure voltage-

mode control systems, current-mode control utilizes

dual feedback loops to provide both output voltage and

inductor current information to the controller. The volt-

age loop minimizes DC and transient errors in the output

voltage by adjusting the PWM duty-cycle in response to

changes in line or load conditions. Since the output volt-

age is equal to the time-averaged of the modulator

Monolithic 4 Amp DC:DC Step-down Regulator

output, the relatively large LC time constant found in

power supply applications generally results in low band-

width and poor transient response. By directly

monitoring changes in inductor current via a series sense

resistor the controller's response time is not entirely lim-

ited by the output LC filter and can react more quickly to

changes in line and load conditions. This feed-forward

characteristic also simplifies AC loop compensation

since it adds a zero to the overall loop response. Through

proper selection of the current-feedback to voltage-feed-

back ratio the overall loop response will approach a one-

pole system. The resulting system offers several advan-

tages over traditional voltage control systems, including

simpler loop compensation, pulse by pulse current limit-

ing, rapid response to line variation and good load step

response.

The heart of the controller is an input direct summing

comparator which sum voltage feedback, current feed-

back, slope compensation ramp and power tracking

signals together. Slope compensation is required to pre-

vent system instability that occurs in current-mode

topologies operating at duty-cycles greater than 50%

and is also used to define the open-loop gain of the over-

all system. The slope compensation is fixed internally

and optimized for 500mA inductor ripple current. The

power tracking will not contribute any input to the com-

parator steady-state operation. Current feedback is

measured by the patented sensing scheme that senses the

inductor current flowing through the high-side switch

whenever it is conducting. At the beginning of each

oscillator period the high-side NMOS switch is turned

on. The comparator inputs are gated off for a minimum

period of time of about 150ns (LEB) after the high-side

switch is turned on to allow the system to settle. The

Leading Edge Blanking (LEB) period prevents the

detection of erroneous voltages at the comparator inputs

due to switching noise. If the inductor current exceeds

the maximum current limit (ILMAX) a secondary over-

current comparator will terminate the high-side switch

on time. If ILMAX has not been reached, the feedback

voltage FB derived from the regulator output voltage

VOUT is then compared to the internal feedback refer-

ence voltage. The resultant error voltage is summed with

the current feedback and slope compensation ramp. The

EL7564C

EL7464CRE-T13 ELANTEC [Elantec Semiconductor], EL7464CRE-T13 Datasheet - Page 9

EL7464CRE-T13

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