CS5258-1 Datasheet, PDF(7/9 Page) Cherry Semiconductor Corporation – 8A LDO 5-Pin Adjustable Linear Regulator

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CS5258-1 Datasheet, PDF (7/9 Pages) Cherry Semiconductor Corporation – 8A LDO 5-Pin Adjustable Linear Regulator

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Application Notes: continued

While not required, a bypass capacitor connected between

the adjust pin and ground will improve transient response

and ripple rejection. A 0.1ÂµF tantalum capacitor is recom-

mended for Ãfirst cutÃ design. Value and type may be var-

ied to optimize performance vs. price.

Other Adjustable Operation Considerations

The CS5258-1 linear regulator has an absolute maximum

specification of 6V for the voltage difference between VIN

and VOUT. However, the IC may be used to regulate volt-

ages in excess of 6V. The two main considerations in such a

design are the sequencing of power supplies and short cir-

cuit capability.

Power supply sequencing should be such that the VCON-

TROL supply is brought up coincidentally with or before the

VPOWER supply. This allows the IC to begin charging the

output capacitor as soon as the VPOWER to VOUT differential

is large enough that the pass transistor conducts. As VPOW-

ER increases, the pass transistor will remain in dropout, and

current is passed to the load until VOUT is in regulation.

Further increase in the supply voltage brings the pass tran-

sistor out of dropout. In this manner, any output voltage

less than 13V may be regulated, provided the VPOWER to

VOUT differential is less than 6V. In the case where VCON-

TROL and VPOWER are shorted, there is no theoretical limit to

the regulated voltage as long as the VPOWER to VOUT differ-

ential of 6V is not exceeded.

There is a possibility of damaging the IC when VPOWER-VIN

is greater than 6V if a short circuit occurs. Short circuit con-

ditions will result in the immediate operation of the pass

transistor outside of its safe operating area. Over-voltage

stresses will then cause destruction of the pass transistor

before overcurrent or thermal shutdown circuitry can

become active. Additional circuitry may be required to

clamp the VPOWER to VOUT differential to less than 6V if fail

safe operation is required. One possible clamp circuit is

illustrated in Figure 2; however, the design of clamp cir-

cuitry must be done on an application by application basis.

Care must be taken to ensure the clamp actually protects

the design. Components used in the clamp design must be

able to withstand the short circuit condition indefinitely

while protecting the IC.

The capacitor value and type is based on cost, availability,

size and temperature constraints. A tantalum or aluminum

electrolytic capacitor is best, since a film or ceramic capaci-

tor with almost zero ESR can cause instability. The

aluminum electrolytic capacitor is the least expensive solu-

tion. However, when the circuit operates at low tempera-

tures, both the value and ESR of the capacitor will vary

considerably. The capacitor manufacturerÃs data sheet pro-

vides this information.

A 300ÂµF tantalum capacitor will work for most applica-

tions, but with high current regulators such as the

CS5258-1 the transient response and stability improve with

higher values of capacitor. The majority of applications for

this regulator involve large changes in load current so the

output capacitor must supply the instantaneous load cur-

rent. The ESR of the output capacitor causes an immediate

drop in output voltage given by:

ÃV = ÃI Â´ ESR.

For microprocessor applications it is customary to use an

output capacitor network consisting of several tantalum

and ceramic capacitors in parallel. This reduces the overall

ESR and reduces the instantaneous output voltage drop

under transient load conditions. The output capacitor net-

work should be as close to the load as possible for the best

results.

Protection Diodes

When large external capacitors are used with a linear regu-

lator it is sometimes necessary to add protection diodes. If

the input voltage of the regulator gets shorted, the output

capacitor will discharge into the output of the regulator.

The discharge current depends on the value of the capaci-

tor, the output voltage, and the rate at which VCONTROL

drops. In the CS5258-1 regulator, the discharge path is

through a large junction and protection diodes are not usu-

ally needed. If the regulator is used with large values of

output capacitance and the input voltage is instantaneously

shorted to ground, damage can occur. In this case, a diode

connected as shown in Figure 3 is recommended. Use of

the diode has the added benefit of bleeding VOUT to

ground if VCONTROL is shorted. This prevents an unregulat-

ed output from causing system damage.

External Supply

VControl

VSENSE

VPower

VAdjust

VOUT

VCONTROL VOUT

CS5258-1

VPOWER VSENSE

Adjust

Figure 2: Example clamp circuitry for VPOWER - VOUT > 6V.

Stability Considerations

The output compensation capacitor helps determine three

main characteristics of a linear regulator: start-up delay,

load transient response, and loop stability.

Figure 3: Diode protection against VCONTROL short circuit conditions.

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