CM2593 Datasheet, PDF(6/12 Page) Champion Microelectronic Corp.

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CM2593 Datasheet, PDF (6/12 Pages) Champion Microelectronic Corp. – 2A Step Down VOLTAGE REGULATOR

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CM2593/P

2A Step Down VOLTAGE REGULATOR

FUNCTIONAL DESCRIPTION

Pin Functions

+VIN

This is the positive input supply for the IC switching

regulator. A suitable input bypass capacitor must be

present at this pin to minimize voltage transients and to

supply the switching currents needed by the regulator.

Out

Internal switch and power output. The voltage at this pin

switches between (+VIN â VSAT) and approximately â

0.5V, with a duty cycle of approximately VOUT / VIN. The

PC board copper area connected to this pin should be

kept a minimum in order to reduce the coupling

sensitivity to the circuitry

Ground

Circuit ground.

Feedback

Complete the feedback loop by sensing the regulated

output voltage

ON /OFF

Allows the switching regulator circuit to be shutdown

using logic level signals thus dropping the total input

supply current to approximately 100uA. Pulling this pin

below a threshold voltage of approximately 1.3V turns

the regulator on, and pulling this pin above 1.3V (up to a

maximum of 25V) shuts the regulator down. If this

shutdown feature is not needed, the ON /OFF pin can

be wired to the ground pin or it can be left open, in either

case the regulator will be in the ON condition.

Thermal Considerations

The SOP-8 package needs a heat sink under most

conditions . The size of the heat-sink depends on the

input voltage, the output voltage, the load current and the

ambient temperature. The CM2593/P junction

temperature rises above ambient temperature for a 2A

load and different input and output voltages. The data

for these curves was taken with the CM2593/P (SOP-8

package) operating as a buck switching regulator in an

ambient temperature of 25oC (still air). These temperature

increments are all approximate and are affected by many

factors. Some of these factors include board size,

shape ,thickness ,position ,location, and even board

temperature. Other factors are trace width, total printed

circuit copper area, copper thickness , single or

double-sided, multi-layer board and amount of solder on

the board. Higher ambient temperatures require more

heat sinking.

For the best thermal performance ,wide copper traces

and generous amounts of printed circuit board copper

should be used in the board layout. (One exception is the

out(switch) pin, which should not have large areas of

copper.) Large areas of copper provide the best transfer

of heat(lower thermal resistance) to the surrounding air,

and moving air lowers the thermal resistance even

further.

The effectiveness of the PC board to dissipate heat also

depends on the size, quantity and spacing of other

components on the board , as well as whether the

surrounding air is still or moving. Furthermore, some of

these components such as the catch diode will add heat

to the PC board and heat can vary as the input voltage

changes. For the inductor, depending on the physical

size, type of core material and the DC resistance, it could

either act as a heat sink taking heat away from the board,

or it could add heat to the board.

2007/01/25 Rev. 1.4

Champion Microelectronic Corporation

Page 6

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