LM25037MT/NOPB National Semiconductor, LM25037MT/NOPB Datasheet - Page 9

LM25037MT/NOPB

Manufacturer Part Number

LM25037MT/NOPB

Description

IC CTLR PWM C/V MODE 16-TSSOP

Manufacturer

National Semiconductor

Series

PowerWise®r

Datasheet

1.LM25037MTNOPB.pdf (24 pages)

Specifications of LM25037MT/NOPB

Pwm Type

Voltage/Current Mode

Number Of Outputs

Frequency - Max

578kHz

Duty Cycle

88%

Voltage - Supply

5.5 V ~ 75 V

Buck

Boost

Flyback

Inverting

Doubler

Divider

Cuk

Isolated

Operating Temperature

-40°C ~ 125°C

Package / Case

16-TSSOP

Frequency-max

578kHz

For Use With

LM25037EVAL - BOARD EVAL FOR LM25037

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

LM25037MT

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Functional Description

The LM25037 PWM controller contains all the features nec-

essary to implement double-ended power converter topolo-

gies such as push-pull, half-bridge and full-bridge. The unique

architecture allows the modulator to be configured for either

voltage-mode or current-mode control. The LM25037 pro-

vides two alternative gate driver outputs to drive the primary

side power MOSFETs with programmable forced dead-time.

The LM25037 can be configured to operate with bias voltages

ranging from 5.5V to 75V. Additional features include line un-

der-voltage lockout, cycle-by-cycle current limit, voltage feed-

forward compensation, and hiccup mode fault protection with

adjustable delays, soft-start, and a 2MHz capable oscillator

with synchronization capability, precision reference and ther-

mal shutdown. These rich set of features simplify the design

of double ended topologies. The functional block diagram is

shown in

HIGH-VOLTAGE START-UP REGULATOR

The LM25037 contains an internal high voltage, low drop-out

start-up regulator that allows the input pin (VIN) to be con-

nected directly to the supply voltage over a range of 5.5V to

a maximum of 75V. The regulator output at VCC (7.7V) is

internally current limited with a guaranteed minimum of 20

mA. When the UVLO pin potential is greater than 0.45V, the

VCC regulator is enabled to charge an external capacitor

connected to the VCC pin. The VCC regulator provides power

to the voltage reference (REF) and the gate drivers (OUTA

and OUTB). When the voltage on the VCC pin exceeds its

Under Voltage (VCC UV) threshold of 5.0V nominal, the in-

ternal voltage reference (REF) reaches its regulation set point

of 5V and the UVLO voltage is greater than 1.25V, the con-

troller outputs are enabled. The value selected for the VCC

capacitor depends on the total system design, and its start-

up characteristics. The recommended range of values for the

VCC capacitor is 0.47 µF to 10 µF.The internal power dissi-

pation of the LM25037 can be reduced by powering VCC from

an external supply. In typical applications, an auxiliary trans-

former winding is connected through a diode to the VCC pin.

This winding must raise the VCC voltage above 8.2V to shut

off the internal start-up regulator. Powering VCC from an aux-

iliary winding improves efficiency while reducing the

controller’s power dissipation. The VCC UV circuit will still

function in this mode, requiring that VCC never falls below

5.0V nominal during the start-up sequence. The VCC regu-

lator series pass transistor includes a diode between VCC

and VIN that should not be forward biased in normal opera-

tion. Therefore the auxiliary VCC voltage should never ex-

ceed the VIN voltage.

An external DC bias voltage can be used instead of the inter-

nal regulator by connecting the external bias voltage to both

the VCC and the VIN pins. In this particular case, the external

bias must be greater than max VCC UV of 5.4V and less than

the VCC maximum operating voltage rating (14V).

LINE UNDER-VOLTAGE DETECTOR

The LM25037 contains a dual level line Under-Voltage Lock

Out (UVLO) circuit. When the UVLO pin voltage is below

0.45V, the controller is in a low current shutdown mode. When

the UVLO pin voltage is greater than 0.45V but less than

1.25V, the controller is in standby mode. In standby mode the

VCC and REF bias regulators are active while the controller

outputs are disabled. When the VCC and REF outputs exceed

their respective under-voltage thresholds and the UVLO pin

voltage is greater than 1.25V, the outputs are enabled and

normal operation begins. An external set-point voltage divider

Figure

from VIN to GND can be used to set the minimum operating

voltage of the converter. The divider must be designed such

that the voltage at the UVLO pin will be greater than 1.25V

when VIN enters the desired operating range. UVLO hystere-

sis is accomplished with an internal 22 µA current source that

is switched on or off into the impedance of the set-point di-

vider. When the UVLO pin voltage exceeds 1.25V threshold,

the current source is activated to quickly raise the voltage at

the UVLO pin. When the UVLO pin voltage falls below the

1.25V threshold, the current source is disabled causing the

voltage at the UVLO pin to quickly fall. The hysteresis of the

0.45V shutdown comparator is internally fixed at 100 mV.

The UVLO pin can also be used to implement various remote

enable/disable functions. Turning off the converter by forcing

the UVLO pin to standby condition provides a controlled soft-

stop. See the Soft-Start section for more details.

REFERENCE

The REF pin is the output of a 5V linear regulator that can be

used to bias an opto-coupler transistor and external house-

keeping circuits. The regulator output is internally current

limited to 10 mA (typical).

ERROR AMPLIFIER

An internal high gain error amplifier is provided within the

LM25037. The amplifier’s non-inverting reference is tied to a

1.25V reference. In non-isolated applications the power con-

verter output is connected to the FB pin via the voltage setting

resistors and loop compensation is connected between the

COMP and FB pins. A typical gain/phase plot is shown in

performance curves section.

For most isolated applications the error amplifier function is

implemented on the secondary side. Since the internal error

amplifier is configured as an open drain output, it can be dis-

abled by connecting FB to ground. The internal 5K pull-up

resistor connected between the COMP pin and the 5V refer-

ence can be used as the pull-up for an opto-coupler or other

isolation device .

CYCLE-BY-CYCLE CURRENT LIMIT

The CS pin is to be driven by a signal representative of the

transformer primary current. The current sense signal can be

generated by using a sense resistor or a current sense trans-

former. If the voltage sensed at the CS pin exceeds 0.255V,

the current sense comparator terminates the output driver

pulse. If the high current condition persists, the controller op-

erates in a cycle-by-cycle current limit mode with duty cycle

determined by the current sense comparator instead of the

PWM comparator. Cycle-by-cycle current limiting may even-

tually trigger the hiccup mode restart cycle; depending on the

configuration of the RES pin (see Overload Protection Timer

below). To suppress noise, a small R-C filter connected to the

CS pin and located near the controller is recommended. An

internal 21Ω MOSFET discharges the external current sense

filter capacitor at the conclusion of every cycle. The discharge

MOSFET remains on for an additional 65 ns after either OUTA

or OUTB driver switches high to blank leading edge transients

in the current sensing circuit. Discharging the CS pin filter

each cycle and blanking leading edge spikes reduces the fil-

tering requirements and improves the current sense response

time. The current sense comparator is very fast and may re-

spond to short duration noise pulses. Layout considerations

are critical for the current sense filter and sense resistor. The

capacitor associated with the CS filter must be placed very

close to the device and connected directly to the CS and AG-

ND pins. If a sense resistor located in the source of the main

MOSFET switch is used for current sensing, a low inductance

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LM25037MT/NOPB National Semiconductor, LM25037MT/NOPB Datasheet - Page 9

LM25037MT/NOPB

Specifications of LM25037MT/NOPB

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