LM20136MH/NOPB National Semiconductor, LM20136MH/NOPB Datasheet - Page 10

LM20136MH/NOPB

Manufacturer Part Number

LM20136MH/NOPB

Description

IC REG SYNC BUCK 6A 16-TSSOP

Manufacturer

National Semiconductor

Series

PowerWise®r

Type

Step-Down (Buck)r

Datasheet

1.LM20136MHNOPB.pdf (22 pages)

Specifications of LM20136MH/NOPB

Design Resources

LM20136 Design Spreadsheet

Internal Switch(s)

Yes

Synchronous Rectifier

Yes

Number Of Outputs

Voltage - Output

0.8 ~ 5 V

Current - Output

Frequency - Switching

410kHz

Voltage - Input

2.95 ~ 5.5 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

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

Power - Output

2.6W

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

LM20136MH

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Operation Description

GENERAL

The LM20136 switching regulator features all of the functions

necessary to implement an efficient low voltage buck regula-

tor using a minimum number of external components. This

easy to use regulator features two integrated switches and is

capable of supplying up to 6A of continuous output current.

The regulator utilizes peak current mode control with nonlin-

ear slope compensation to optimize stability and transient

response over the entire output voltage range. Peak current

mode control also provides inherent line feed-forward, cycle-

by-cycle current limiting and easy loop compensation. The

internal oscillator can synchronize up to 1.5 MHz minimizing

the inductor size while still achieving efficiencies up to 96%.

The precision internal voltage reference allows the output to

be set as low as 0.8V. Fault protection features include: cur-

rent limiting, thermal shutdown, over voltage protection, and

shutdown capability. The device is available in the

eTSSOP-16 package featuring an exposed pad to aid thermal

dissipation. The LM20136 can be used in numerous applica-

tions to efficiently step-down from a 5V or 3.3V bus. The

typical application circuit for the LM20136 is shown in Figure

3 in the design guide.

PRECISION ENABLE

The enable (EN) pin allows the output of the device to be en-

abled or disabled with an external control signal. This pin is a

precision analog input that enables the device when the volt-

age exceeds 1.18V (typical). The EN pin has 66 mV of hys-

teresis and will disable the output when the enable voltage

falls below 1.11V (typical). If the EN pin is not used, it should

be connected to V

on threshold it can be used along with an external resistor

divider network from V

a precise input voltage. The precision enable circuitry will re-

main active even when the device is disabled.

FREQUENCY SYNCHRONIZATION

The frequency synchronization pin (SYNC) allows the switch-

ing frequency of the device to be controlled with an external

clock signal. This feature allows the user to synchronize mul-

tiple converters, avoiding undesirable frequency bands of

operation. Multiple devices can be configured to switch out of

phase reducing input capacitor requirements and EMI of the

power supply system.

The turn on of the high-side switch will lock-on to the rising

edge of the SYNC pin input. The logic low level for the input

clock must be below 0.8V and the logic high level must exceed

2.0V to guarantee proper operation. The device will synchro-

nize to frequencies from 500 kHz to 1.5 MHz. If the synchro-

nization clock is removed or not present during startup, the

oscillator of the device will run at approximately 410 kHz. If

the SYNC pin is not used it should be connected to ground.

PEAK CURRENT MODE CONTROL

In most cases, the peak current mode control architecture

used in the LM20136 only requires two external components

to achieve a stable design. The compensation can be select-

ed to accommodate any capacitor type or value. The external

compensation also allows the user to set the crossover fre-

quency and optimize the transient performance of the device.

For duty cycles above 50% all current mode control buck

converters require the addition of an artificial ramp to avoid

sub-harmonic oscillation. This artificial linear ramp is com-

monly referred to as slope compensation. What makes the

. Since the enable pin has a precise turn

to configure the device to turn on at

LM20136 unique is the amount of slope compensation will

change depending on the output voltage. When operating at

high output voltages the device will have more slope com-

pensation than when operating at lower output voltages. This

is accomplished in the LM20136 by using a non-linear

parabolic ramp for the slope compensation. The parabolic

slope compensation of the LM20136 is much better than the

traditional linear slope compensation because it optimizes the

stability of the device over the entire output voltage range.

CURRENT LIMIT

The precise current limit of the LM20136 is set at the factory

to be within 10% over the entire operating temperature range.

This enables the device to operate with smaller inductors that

have lower saturation currents. When the peak inductor cur-

rent reaches the current limit threshold, an over current event

is triggered and the internal high-side FET turns off and the

low-side FET turns on allowing the inductor current to ramp

down until the next switching cycle. For each sequential over-

current event, the reference voltage is decremented and

PWM pulses are skipped resulting in a current limit that does

not aggressively fold back for brief over-current events, while

at the same time providing frequency and voltage foldback

protection during hard short circuit conditions.

SOFT-START AND VOLTAGE TRACKING

The SS/TRK pin is a dual function pin that can be used to set

the start up time or track an external voltage source. The start

up or Soft-Start time can be adjusted by connecting a capac-

itor from the SS/TRK pin to ground. The Soft-Start feature

allows the regulator output to gradually reach the steady state

operating point, thus reducing stresses on the input supply

and controlling start up current. If no Soft-Start capacitor is

used the device defaults to the internal Soft-Start circuitry re-

sulting in a start up time of approximately 1ms. For applica-

tions that require a monotonic start up or utilize the PGOOD

pin, an external Soft-Start capacitor is recommended. The

SS/TRK pin can also be set to track an external voltage

source. The tracking behavior can be adjusted by two external

resistors connected to the SS/TRK pin as shown in Figure 8

in the design guide.

PRE-BIAS START UP CAPABILITY

The LM20136 is in a pre-biased state when the device starts

up with an output voltage greater than zero. This often occurs

in many multi-rail applications such as when powering an FP-

GA, ASIC, or DSP. In these applications the output can be

pre-biased through parasitic conduction paths from one sup-

ply rail to another. Even though the LM20136 is a syn-

chronous converter it will not pull the output low when a pre-

bias condition exists. During start up the LM20136 will not sink

current until the Soft-Start voltage exceeds the voltage on the

FB pin. Since the device can not sink current it protects the

load from damage that might otherwise occur if current is

conducted through the parasitic paths of the load.

POWER GOOD AND OVER VOLTAGE FAULT HANDLING

The LM20136 has built in under and over voltage compara-

tors that control the power switches. Whenever there is an

excursion in output voltage above the set OVP threshold, the

part will terminate the present on-pulse, turn on the low-side

FET, and pull the PGOOD pin low. The low-side FET will re-

main on until either the FB voltage falls back into regulation

or the zero cross detection is triggered which in turn tri-states

the FETs. If the output reaches the UVP threshold the part will

continue switching and the PGOOD pin will be asserted and

go low. Typical values for the PGOOD resistor are on the or-

LM20136MH/NOPB National Semiconductor, LM20136MH/NOPB Datasheet - Page 10

LM20136MH/NOPB

Specifications of LM20136MH/NOPB

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