MAX8741EAI+T Maxim Integrated, MAX8741EAI+T Datasheet - Page 19

MAX8741EAI+T

Manufacturer Part Number

MAX8741EAI+T

Description

Current & Power Monitors & Regulators 500kHz Multi-Out Pwr Supply Controller

Manufacturer

Maxim Integrated

Datasheet

1.MAX8741EAIT.pdf (34 pages)

Specifications of MAX8741EAI+T

Rohs

yes

Product

Power Monitors

Supply Voltage - Max

30 V

Supply Voltage - Min

4.2 V

Input Voltage Range

4.2 V to 30 V

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current to reverse at light loads. This results in fixed-fre-

quency operation and continuous inductor-current flow.

This eliminates discontinuous-mode inductor ringing

and improves cross-regulation of transformer-coupled

multiple-output supplies, particularly in circuits that do

not use additional secondary regulation through SECFB

or V

In most applications, connect SKIP to GND to minimize

quiescent supply current. V

high is typically 30mA, depending on external MOSFET

gate capacitance and switching losses.

Soft-start allows a gradual increase of the internal cur-

rent-limit level at startup to reduce input surge currents.

Both SMPSs contain internal digital soft-start circuits,

each controlled by a counter, a digital-to-analog con-

verter (DAC), and a current-limit comparator. In shut-

down or standby mode, the soft-start counter is reset to

zero. When an SMPS is enabled, its counter starts

counting oscillator pulses, and the DAC begins incre-

menting the comparison voltage applied to the current-

limit comparator. The DAC output increases from 0 to

100mV in five equal steps as the count increases to

512 clocks. As a result, the main output capacitor

charges up relatively slowly. The exact time of the out-

put rise depends on output capacitance and load cur-

rent, and is typically 600µs with a 500kHz oscillator.

Dropout (low input-output differential operation) is

enhanced by stretching the clock pulse width to

increase the maximum duty factor. The algorithm fol-

lows: if the output voltage (V

tion without the current limit having been reached, the

SMPS skips an off-time period (extending the on-time).

At the end of the cycle, if the output is still out of regula-

tion, the SMPS skips another off-time period. This

action can continue until three off-time periods are

skipped, effectively dividing the clock frequency by as

much as four.

The typical PWM minimum off-time is 300ns, regardless

of the operating frequency. Lowering the operating fre-

quency raises the maximum duty factor above 97%.

Fixed, preset output voltages are selected when FB_ is

connected to ground. Adjusting the main output volt-

age with external resistors is simple for any of the

MAX8741/MAX8742, through resistor-dividers connect-

500kHz Multi-Output Power-Supply Controllers

Internal Digital Soft-Start Circuit

______________________________________________________________________________________

Adjustable-Output Feedback

OUT

supply current with SKIP

Dropout Operation

with High Impedance in Shutdown

) drops out of regula-

(Dual-Mode FB)

ed to FB3 and FB5 (Figure 2). Calculate the output volt-

age with the following formula:

where V

The nominal output should be set approximately 1% or

2% high to make up for the MAX8741/MAX8742 -2% typ-

ical load-regulation error. For example, if designing for a

3.0V output, use a resistor ratio that results in a nominal

output voltage of 3.05V. This slight offsetting gives the

best possible accuracy. Recommended normal values

for R2 range from 5kΩ to 100kΩ. To achieve a 2.5V nom-

inal output, connect FB_ directly to CSL_.

Remote output-voltage sensing, while not possible in

fixed-output mode due to the combined nature of the

voltage-sense and current-sense inputs (CSL3 and

CSL5), is easy to do in adjustable mode by using the top

of the external resistor-divider as the remote sense point.

When using adjustable mode, it is a good idea to

always set the “3.3V output” to a lower voltage than the

“5V output.” The 3.3V output must always be less than

common-mode range of the current-sense inputs. While

ly regulating, and as low as 4.2V when automatically

bootstrapped to CSH5.

A flyback-winding control loop regulates a secondary

winding output, improving cross-regulation when the

primary output is lightly loaded or when there is a low

input-output differential voltage. If V

below its regulation threshold, the low-side switch is

turned on for an extra 0.75µs. This reverses the induc-

tor (primary) current, pulling current from the output fil-

ter capacitor and causing the flyback transformer to

operate in forward mode. The low impedance present-

ed by the transformer secondary in forward mode

dumps current into the secondary output, charging up

the secondary capacitor and bringing V

back into regulation. The secondary feedback loop

does not improve secondary output accuracy in normal

flyback mode, where the main (primary) output is heavi-

ly loaded. In this condition, secondary output accuracy

is determined by the secondary rectifier drop, trans-

former turns ratio, and accuracy of the main output

, so that the voltage on CSH3 and CSL3 is within the

is nominally 5V, it can be as low as 4.7V when linear-

Secondary Feedback Regulation Loop

REF

= 2.5V nominal.

OUT

= V

REF

(1 + R1 / R2)

(SECFB or V

or SECFB falls

or SECFB

)

MAX8741EAI+T Maxim Integrated, MAX8741EAI+T Datasheet - Page 19

MAX8741EAI+T

Specifications of MAX8741EAI+T

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