MAX15001AEUB+ Datasheet MAX15001AEUB+, MAX15001AEUB+T, MAX15000AEUB+ | P13-P15

Choose a higher value for R1 than the one calculated in

the previous equation if a longer startup time can be

tolerated to minimize power loss on this resistor.

The above startup method is applicable to a circuit simi-

lar to the one shown in Figure 1. In this circuit, the ter-

tiary winding has the same phase as the output

windings. Thus, the voltage on the tertiary winding at any

given time is proportional to the output voltage and goes

through the same soft-start period as the output voltage.

The minimum discharge time of C1 from 21.6V to 9.74V

must be greater than the soft-start time of 5.6ms.

Another method for bootstrapping the power supply is

to use a bias winding that is in phase with the MOSFET

on-time (see Figure 5). In this case, the amount of

capacitance required at IN (C1) is much smaller.

However, the input voltage cannot have a range

greater than approximately 2:1 (primary winding volt-

age to bias winding voltage ratio).

For hiccup-mode fault protection, make the bias wind-

ing in phase with the output, then the power-supply hic-

cups and soft-starts under output short-circuit

conditions. The power supply does not hiccup if the

bias winding is in phase with the MOSFET on-time.

MAX15000/MAX15001

Current-Mode PWM Controllers with

Programmable Switching Frequency

______________________________________________________________________________________ 13

COMP

GND

NDRV

UVLO/EN

OPTO

TRANS.

UFLG

R15

R12

MAX15000A

TL431

OPTO LED

OUT

R10

Figure 5. Secondary-Side Regulated, Isolated Power Supply

MAX15000/MAX15001

Primary-Side-Regulated,

Isolated Telecom Power Supply

Figure 6 shows a complete circuit of a dual-output

power supply with a telecom voltage range of 36V to

72V. An important aspect of this power supply is that it

is primary-side regulated. The regulation through the

tertiary winding also supplies bias for the MAX15000.

In the circuit of Figure 6, cross-regulation has been

improved (tertiary and 5V outputs) by using chip induc-

tors, L1 and L2, and R7||R12 across C12. R7||R12 pre-

sents enough loading on the tertiary winding output to

allow ±10% load regulation on the 5V output over a

load current range from 150mA to 1.5A (Figure 7).

Current-Mode PWM Controllers with

Programmable Switching Frequency

14 ______________________________________________________________________________________

MAX15000A

+VIN

UFLG

-VIN

VOUT2

15V/100mA

5V/1.5A

SGND

VOUT1

SGND

OPEN

R12

1.2kΩ

0.0047µF

250VAC

68µF

6.3V

12T

C15

1µF

C13

1µF

22µF

6.3V

28T

35µH

15T

IRF7464

1.2kΩ

OPEN

C10

OPEN

0.600Ω

R15

750Ω

C16

1µF

35V

33kΩ

47µF

25V

FB_P

36V TO 72V

+VIN

NDRV

GND

FB_P

COMP

UVLO/EN

UFLG

NOTE: MOSFET N1 = IR IRF7464.

JU1

+VIN

C12

15µF

35V

R14

14.3kΩ

C17

OPEN

100pF

C14

3900pF

51.1kΩ

1.37MΩ

75kΩ

2.49kΩ

22.6kΩ

R13

10kΩ

OPEN

0.22µF

C11

0.22µF

C19

OPEN

C18

0.1µF

R11

100Ω

UFLG_PULL

SHDN

R10

4.7Ω

1µF

100V

1µF

100V

Figure 6. Primary-Side-Regulated, Dual-Output, Isolated Telecom Power Supply

5V OUTPUT LOAD REGULATION

MAX15000 fig07

OUT

(A)

OUT

(V)

1.351.200.30 0.45 0.60 0.900.75 1.05

4.9

5.0

5.1

5.2

5.3

5.4

5.5

5.6

4.8

0.15 1.50

NO LOAD AT 15V

OUTPUT

IN+

= 40V

IN-

= 0V

Figure 7. Output Voltage Regulation for the Circuit in Figure 6

Layout Recommendations

Typically, there are two sources of noise emission in a

switching power supply: high di/dt loops and high dv/dt

surfaces. For example, traces that carry the drain cur-

rent often form high di/dt loops. Similarly, the heatsink

of the MOSFET presents a dv/dt source; therefore, mini-

mize the surface area of the heatsink as much as possi-

ble. Keep all PC board traces carrying switching

currents as short as possible to minimize current loops.

Use a ground plane for best results. The pins of the

µMAX package are positioned to allow easy interfacing

to the external MOSFET.

For universal AC input design, follow all applicable

safety regulations. Offline power supplies may require

UL, VDE, and other similar agency approvals. To avoid

noise coupling of signals from RT to NDRV, route traces

from RT away from NDRV.

MAX15000/MAX15001

Current-Mode PWM Controllers with

Programmable Switching Frequency

______________________________________________________________________________________ 15

COMP

GND

NDRV

UVLO/EN

12V

UFLG

R15

R12

MAX15001

15V

Figure 8. 12V to 15V Output Boost Regulator

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18

MAX15001AEUB+

Mfr. #:

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Manufacturer:

Maxim Integrated

Description:

Switching Controllers w/Programmable Switching Frequency

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MAX15001AEUB+

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