MAX5068BAUE+ Maxim Integrated Products, MAX5068BAUE+ Datasheet - Page 15

MAX5068BAUE+

Manufacturer Part Number

MAX5068BAUE+

Description

IC CNTRLR PWM CRNT MD 16TSSOP

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX5068FAUE.pdf (20 pages)

Specifications of MAX5068BAUE+

Pwm Type

Current Mode

Number Of Outputs

Frequency - Max

1.25MHz

Duty Cycle

50%

Voltage - Supply

10.8 V ~ 24 V

Buck

Boost

Flyback

Yes

Inverting

Doubler

Divider

Cuk

Isolated

Yes

Operating Temperature

-40°C ~ 125°C

Package / Case

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

Frequency-max

1.25MHz

Duty Cycle (max)

50 %

Output Current

1000 mA

Mounting Style

SMD/SMT

Switching Frequency

25 KHz to 1250 KHz

Maximum Operating Temperature

+ 125 C

Minimum Operating Temperature

- 40 C

Synchronous Pin

Yes

Topology

Flyback, Forward

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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where I

tion time during which current-limit events from the cur-

rent-limit comparator are ignored. For example, a 0.1µF

capacitor gives a fault-integration time of 4.7ms.

This is an approximate formula. Some testing may be

required to fine-tune the actual value of the capacitor. To

calculate the recovery time, use the following formula:

where t

Choose t

a few hundred microseconds to a few milliseconds.

The MAX5068 soft-start feature allows the load voltage

to ramp up in a controlled manner, eliminating output-

voltage overshoot. Soft-start begins after UVLO is

deasserted. The voltage applied to the noninverting

node of the amplifier ramps from 0 to 1.23V in 2047

oscillator clock cycles (soft-start timeout period). Unlike

other devices, the MAX5068 reference voltage to the

internal amplifier is soft-started. This method results in

superior control of the output voltage under heavy- and

light-load conditions.

Two internal linear regulators power the MAX5068 inter-

nal and external control circuits. V

nal N-channel MOSFET and is internally set to

approximately 9.5V. The REG5 5V regulator has a 1mA

sourcing capability and may be used to provide power

to external circuitry. Bypass V

and 0.1µF high quality capacitors, respectively. Use

lower value ceramics in parallel to bypass other

unwanted noise signals. Bootstrapped operation

requires startup through a bleed resistor. Do not exces-

sively load the regulators while the MAX5068 is in the

power-up mode. Overloading the outputs can cause

the MAX5068 to fail upon startup.

NDRV drives an external N-channel MOSFET. The NDRV

output is supplied by the internal regulator (V

is internally set to approximately 9.5V. For the universal

input-voltage range, the MOSFET used must be able to

withstand the DC level of the high-line input voltage plus

the reflected voltage at the primary of the transformer.

For most applications that use the discontinuous flyback

topology, a MOSFET rated at 600V is required. NDRV

can source/sink in excess of 650mA/1000mA peak cur-

High-Frequency, Current-Mode PWM Controller

FLTINT

is the desired recovery time.

= 10 x t

FLTINT

N-Channel MOSFET Switch Driver

= 60µA, t

______________________________________________________________________________________

with Accurate Programmable Oscillator

≅

. Typical values for t

0 595

is the desired fault-integra-

Internal Regulators

FLTINT

and REG5 with 1µF

powers the exter-

Soft-Start

range from

), which

rent. Therefore, select a MOSFET that yields acceptable

conduction and switching losses.

The MAX5068 includes an internal error amplifier that

can regulate the output voltage in the case of a noniso-

lated power supply

age using the following equation:

where V

internally connects to a digital soft-start reference voltage.

This forces the output voltage to come up in an orderly

and well-defined manner under all load conditions.

The MAX5068C/D/E/F use an internal-ramp generator

for slope compensation. The internal-ramp signal resets

at the beginning of each cycle and slews at the rate

programmed by the external capacitor connected at

SCOMP and the resistor at RT. Adjust the MAX5068

slew rate up to 90mV/µs using the following equation:

where R

lator frequency and C

The PWM comparator uses the instantaneous current,

the error amplifier, and the slope compensation to

determine when to switch NDRV off. In normal opera-

tion, the N-channel MOSFET turns off when:

where I

MOSFET, V

amplifier, V

ing at the programmed slew rate (SR). When using the

MAX5068 in a forward-converter configuration, the fol-

lowing conditions must be met to avoid current-loop

subharmonic oscillations:

where K = 0.75 and N

on the secondary and primary side of the transformer,

respectively. L is the secondary filter inductor. When

SCOMP

Slope Compensation (MAX5068C/D/E/F)

PRIMARY

REF

is the ramp function starting at zero and slew-

is the external resistor at RT that sets the oscil-

OFFSET

= 1.23V. The amplifier’s noninverting input

OUT

x R

is the output voltage of the internal

is the current through the N-channel

(Figure 1). Calculate the output volt-

is the 1.6V internal DC offset and

165

SCOMP

> V

⎛

⎜

⎝

and N

SCOMP

is the capacitor at SCOMP.

– V

−

OFFSET

are the number of turns

⎞

⎟

⎠

OUT

PWM Comparator

x V

(

Error Amplifier

REF

- V

SCOMP

)

MAX5068BAUE+ Maxim Integrated Products, MAX5068BAUE+ Datasheet - Page 15

MAX5068BAUE+

Specifications of MAX5068BAUE+

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