MAX1809EEE+T Maxim Integrated Products, MAX1809EEE+T Datasheet - Page 10

MAX1809EEE+T

Manufacturer Part Number

MAX1809EEE+T

Description

IC DDR TERMINATION 16-QSOP

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX1809EEE.pdf (17 pages)

Specifications of MAX1809EEE+T

Applications

Converter, DDR

Voltage - Input

3 ~ 5.5 V

Number Of Outputs

Voltage - Output

1.1 ~ 5.5 V

Operating Temperature

0°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

16-QSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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3A, 1MHz, DDR Memory Termination Supply

to maximum DC load current. A higher value of LIR

allows smaller inductance but results in higher losses

and ripple. A good compromise between size and losses

is found at approximately a 25% ripple current to load

current ratio (LIR = 0.25).

The peak inductor current at full load is calculated by:

where I

Choose an inductor with a saturation current at least as

high as the peak inductor current. Additionally, verify

the peak inductor current while sourcing output current

limit. The inductor selected should exhibit low losses at

the chosen operating frequency.

The input filter capacitor reduces peak currents and

noise at the voltage source. Use a low-ESR and low-

ESL capacitor located no further than 5mm from IN.

Select the input capacitor according to the RMS input

ripple-current requirements and voltage rating:

where I

The output filter capacitor affects the output voltage

ripple, output load-transient response, and feedback

loop stability. The output filter capacitor must have low

enough ESR to meet output ripple and load transient

requirements, yet have high enough ESR to satisfy sta-

bility requirements. Also, the capacitance value must

be high enough to guarantee stability and absorb the

inductor energy going from a full-load sourcing to full-

load sinking condition without exceeding the maximum

output tolerance.

For stable operation, the MAX1809 requires a minimum

feedback ripple voltage of V

The minimum ESR of the output capacitor should be:

OUT

______________________________________________________________________________________

RIPPLE

= I

OUT

RIPPLE

SOURCE

is the maximum source or sink current.

PEAK

= input RMS current ripple.

OUT

) does not exceed the positive current

ESR

(

SOURCE







Output Capacitor Selection

OUT

> 1%

(

Input Capacitor Selection

OUT

−

(

SINK

RIPPLE

(L / t

OUT

(

OFF

)

OFF

−

)

OFF

≥ 1%

OUT

LIR

)







EXTREF

Stable operation requires the correct output filter

capacitor. When choosing the output capacitor, ensure

that:

In applications where the output is subject to large load

transients, the output capacitor’s size typically depends

on how much ESR is needed to prevent the output from

dipping too low under a load transient. Ignoring the sag

due to finite capacitance:

The actual microfarad capacitance value required is

defined by the physical size needed to achieve low

ESR, and by the chemistry of the capacitor technology.

Thus, the capacitor is usually selected by ESR, size,

and voltage rating rather than by capacitance value

(this is true of tantalums, OS-CONs, and other elec-

trolytics). When using low-capacity filter capacitors

such as ceramic or polymer types, capacitor size is

usually determined by the capacity needed to prevent

transients. Generally, once enough capacitance is

added to meet the overshoot requirement, undershoot

at the rising-load edge is no longer a problem. The

amount of overshoot and undershoot due to stored

inductor energy can be calculated as:

Soft-start allows a gradual increase of the internal current

limit to reduce input surge currents at startup and at exit

from shutdown. A timing capacitor, C

to GND sets the rate at which the internal current limit is

changed. Upon power-up, when the device comes out of

undervoltage lockout (2.6V typ) or after the SHDN pin is

pulled high, a 4µA constant current source charges the

soft-start capacitor and the voltage on SS increases.

When the voltage on SS is less than approximately 0.7V,

the current limit is set to zero. As the voltage increases

from 0.7V to approximately 1.8V, the current limit is

adjusted from 0V to the current-limit threshold (see the

Electrical Characteristics). The voltage across the soft-

start capacitor changes with time according to the

equation:

SAG

and V

SAG

SOAR

= L

SOAR

OUT

= L

ESR

∆I

from causing problems during load

OUT

≤ ∆V

≥

∆I

OUT

OFF

OUT

/[2

OUT

/(2

/ ∆I

OUT

79µ

OUT(MAX)

OUT

, placed from SS

- V

OUT

Soft-Start

OUT

)

)]

MAX1809EEE+T Maxim Integrated Products, MAX1809EEE+T Datasheet - Page 10

MAX1809EEE+T

Specifications of MAX1809EEE+T

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