MAX1630 Datasheet, PDF(17/28 Page) Maxim Integrated Products – Multi-Output, Low-Noise Power-Supply Controllers for Notebook Computers

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MAX1630 Datasheet, PDF (17/28 Pages) Maxim Integrated Products – Multi-Output, Low-Noise Power-Supply Controllers for Notebook Computers

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Multi-Output, Low-Noise Power-Supply

Controllers for Notebook Computers

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 â3.3V outputâ to a lower voltage than the

â5V output.â The 3.3V output must always be less than

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

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

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

early regulating, and as low as 4.2V when automatically

bootstrapped to CSH5.

Secondary Feedback Regulation Loop

(SECFB or VDD)

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 VDD or SECFB falls

below its regulation threshold, the low-side switch is

turned on for an extra 1Âµs. This reverses the inductor

(primary) current, pulling current from the output filter

capacitor and causing the flyback transformer to oper-

ate in forward mode. The low impedance presented by

the transformer secondary in forward mode dumps cur-

rent into the secondary output, charging up the sec-

ondary capacitor and bringing VDD or SECFB back into

regulation. The secondary feedback loop does not

improve secondary output accuracy in normal flyback

mode, where the main (primary) output is heavily

loaded. In this condition, secondary output accuracy is

determined by the secondary rectifier drop, transformer

turns ratio, and accuracy of the main output voltage. A

linear post-regulator may still be needed to meet strict

output-accuracy specifications.

Devices with a 12OUT linear regulator have a VDD pin

that regulates at a fixed 13.5V, set by an internal resis-

tor divider. The MAX1631/MAX1634 have an adjustable

secondary output voltage set by an external resistor

divider on SECFB (Figure 5). Ordinarily, the secondary

regulation point is set 5% to 10% below the voltage nor-

mally produced by the flyback effect. For example, if

the output voltage as determined by turns ratio is 15V,

set the feedback resistor ratio to produce 13.5V.

Otherwise, the SECFB one-shot might be triggered

unintentionally, unnecessarily increasing supply current

and output noise.

1-SHOT

TRIG

SECFB

2.5V REF V+

DH_

MAX1631

MAX1634

DL_

POSITIVE

SECONDARY

OUTPUT

MAIN

OUTPUT

( ) +VTRIP = VREF

1 + âRâ1â

WHERE VREF (NOMINAL) = 2.5V

Figure 5. Adjusting the Secondary Output Voltage with SECFB

12OUT

VDD

0.1ÂµF

2N3906

10â¦

+12V OUTPUT

200mA

10ÂµF

MAX1630

0.1ÂµF

V+

MAX1632

MAX1633

MAX1635 DH_

DL_

VDD OUTPUT

2.2ÂµF

MAIN

OUTPUT

Figure 6. Increased 12V Linear Regulator Output Current

12V Linear Regulator Output

(MAX1630/MAX1632/MAX1633/MAX1635)

The MAX1630/MAX1632/MAX1633/MAX1635 include a

12V linear regulator output capable of delivering 120mA

of output current. Typically, greater current is available

at the expense of output accuracy. If an accurate output

of more than 120mA is needed, an external pass tran-

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