MAX1639 Datasheet, PDF(10/13 Page) Maxim Integrated Products – High-Speed Step-Down Controller with Synchronous Rectification for CPU Power

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MAX1639 Datasheet, PDF (10/13 Pages) Maxim Integrated Products – High-Speed Step-Down Controller with Synchronous Rectification for CPU Power

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High-Speed Step-Down Controller with

Synchronous Rectification for CPU Power

Overvoltage Protection

When the output exceeds the set voltage, the synchro-

nous rectifier output (DL) is driven high (and DH is dri-

ven low). This causes the inductor to quickly dissipate

any stored energy and force the fault current to flow to

ground. Current is limited by the source impedance

and parasitic resistance of the current path, so a fuse is

required in series with the +5V input to protect against

low-impedance faults, such as a shorted high-side

MOSFET. Otherwise, the low-side MOSFET will eventu-

ally fail. DL will go low if the input voltage drops below

the undervoltage lockout point.

Internal Soft-Start

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

rent limit at start-up to reduce input surge currents. An

internal DAC raises the current-limit threshold from 0V

to 100mV in four steps (25mV, 50mV, 75mV, and

100mV) over the span of 1536 oscillator cycles.

__________________Design Procedure

Setting the Output Voltage

Set the output voltage by connecting R7 and R8 (Figure 6)

to the FB pin from the output to AGND. R7 is given by the

following equation:

ï£«

ï£ï£¬

VOUT

VFB

ï£¶

1 ï£¸ï£·

where VFB = 1.1V. Since the input bias current at FB

has a maximum value of Â±0.1ÂµA, values up to 10kâ¦

can be used for R8 with no significant accuracy loss.

Values under 1kâ¦ are recommended to improve noise

immunity. Place R7 and R8 very close to the MAX1639,

within 0.2in (5mm) of the FB pin.

Feed-Forward Compensation

An optional compensation capacitor (C8), typically

220pF, may be needed across the upper feedback

resistor to counter the effects of stray capacitance on the

FB pin, and to help ensure stable operation when high-

value feedback resistors are used (Figure 6). Empirically

adjust the feed-forward capacitor as needed.

Specifying the Inductor

Three key inductor parameters must be specified:

inductance value (L), peak current (IPEAK), and DC

resistance (RDC). The following equation includes a

constant LIR, which is the ratio of inductor peak-to-

peak AC current to DC load current. Typically LIR can

be between 0.1 to 0.5. A higher LIR value allows for

smaller inductors and better transient response, but

0.1ÂµF

10ÂµF

VCC

CSH

MAX1639

CSL

10â¦

4.7nF

C10

4.7nF

39â¦

R10

39â¦

VIN

Figure 5. High-Side Current Sense

MAX1639

AGND

C8 (OPTIONAL)

VOUT

LOAD

PLACE VERY CLOSE

TO MAX1639

Figure 6. Output Selection

results in higher losses and output ripple. A good com-

promise between size and loss is a 30% ripple current

to load current ratio (LIR = 0.30), which corresponds to

a peak inductor current 1.15 times higher than the DC

load current.

10 ______________________________________________________________________________________

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