max5059auit Maxim Integrated Products, Inc., max5059auit Datasheet - Page 15

max5059auit

Manufacturer Part Number

max5059auit

Description

Parallelable, Secondary-side Synchronous Rectifier Driver And Feedback-generator Controller Ics

Manufacturer

Maxim Integrated Products, Inc.

Datasheet

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One benefit of secondary-side synchronous rectifica-

tion is increased efficiency. Another benefit is that it

allows the inductor current to remain continuous

throughout the operating load range. This results in

constant loop dynamics that are easy to compensate.

In some cases, it may be necessary to turn off the free-

wheeling MOSFET when the current through this device

attempts to flow from drain to source. Turning off this

MOSFET can be done to enhance efficiency at low out-

put current. When multiple power supplies are paral-

leled, the power supply with the highest output voltage

has a tendency to source current into the power-supply

outputs with lower output voltage. Turning off the free-

wheeling MOSFET also prevents this current back-flow.

When the inductor current is allowed to become dis-

continuous, the loop dynamics change and the circuit

must be compensated accordingly to accommodate

stable continuous and discontinuous mode operation.

Turning off the freewheeling MOSFET is accomplished

by using the zero-current comparator (pins ZCP and

ZCN). Use this comparator to sense reverse current in

the freewheeling MOSFET and turn off the device by

pulling QSYNC low. An internal latch prevents the free-

wheeling MOSFET from turning on until the off-time of

the next cycle.

The MAX5058/MAX5059 do not have an explicit refer-

ence voltage generator. Instead, they contain a 1%-

accurate trimmed 50µA current source. This allows sig-

nificant flexibility in setting the reference voltage. In

some cases, the output-voltage resistive divider, con-

sisting of R1 and R2 in the Typical Application Circuit,

can be eliminated by selecting a suitable resistor value

at the I

voltage-divider may add. Use a low-value bypass

capacitance at this pin to eliminate noise. Typical values

for this capacitance are calculated by considering the

pole that it presents with R12. This pole must be placed

well beyond the frequency range of interest of the cur-

rent-share loop. Use values less than 2.2nF.

The MAX5058/MAX5059 incorporate a 1.3MHz unity

gain-bandwidth error amplifier with inputs INV, I

and output COMPV. I

also serves as the reference voltage generator with the

internal 50µA current source and the external resistor

Parallelable Secondary-Side Synchronous Rectifier

REF

pin. This reduces the error that the output

Driver and Feedback-Generator Controller ICs

______________________________________________________________________________________

REF

Reverse-Current Prevention

is the noninverting input and

in Synchronous Rectifiers

Reference Current

Error Amplifier

REF

connected from I

and connects to the center of a resistive divider from

OUT to INV to GND. The output of the error amplifier,

COMPV, connects to the cathode of the LED in the

optocoupler to control the diode current that transmits

the error signal back to the primary-side controller. An

open-drain-output error amplifier simplifies interfacing

with the feedback optocoupler. Use this error amplifier

the same way as the industry-standard TL431 shunt ref-

erence. The open-drain output provides flexibility that

may be necessary when additional functionality such

as secondary current-limit regulation is required. Unlike

the TL431, the output of the internal error amplifier of

the MAX5058/MAX5059 is guaranteed to be a maxi-

mum of 200mV with a 5mA drain current, compared to

2.5V for the TL431 and 1.24V for the TLV431.

In some cases, it is possible to avoid the use of the out-

put voltage-divider (R1 and R2) by connecting INV to

the output through just R1. This eliminates the voltage

tolerance errors caused by R1 and R2. Output voltage

in this configuration is set directly by using a suitable

resistor at I

Figure 7. Output Voltage Regulation for 0.5V ≤ V OUT ≤ 2.5V

50μA

REF

E/A

. Figure 7 shows this configuration.

REF

to GND. INV is the inverting input

COMPV

INV

REF

C28

FOR: 0.5V ≤ V

OUT

= (50μA) x R12

R12

OUT

≤ 2.5V

OUT

max5059auit Maxim Integrated Products, Inc., max5059auit Datasheet - Page 15

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