APU1160 Datasheet, PDF(4/5 Page) Advanced Power Electronics Corp.

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APU1160 Datasheet, PDF (4/5 Pages) Advanced Power Electronics Corp. – 6A ULTRA LOW DROPOUT POSITIVE

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APU1160

APPLICATION INFORMATION

Introduction

The APU1160 adjustable regulator is a five-terminal de-

vice designed specifically to provide extremely low drop-

out voltages comparable to the PNP type without the

disadvantage of the extra power dissipation due to the

base current associated with PNP regulators. This is

done by bringing out the control pin of the regulator that

provides the base current to the power NPN and con-

necting it to a voltage that is grater than the voltage present

at the VIN pin. This flexibility makes the APU1160 ideal

for applications where dual inputs are available such as

a computer mother board with an ATX style power sup-

ply that provides 5V and 3.3V to the board. One such

application is the new graphic chip sets that require any-

where from 2.4V to 2.7V supply such as the Intel I740

chip set. The APU1160 can easily be programmed with

the addition of two external resistors to any voltages

within the range of 1.25 to 5.5 V. Another major require-

ment of these graphic chips such as the Intel I740 is the

need to switch the load current from zero to several amps

in tens of nanoseconds at the processor pins, which

translates to an approximately 300 to 500ns of current

step at the regulator. In addition, the output voltage tol-

erances are also extremely tight and they include the

transient response as part of the specification.

The APU1160 is specifically designed to meet the fast

current transient needs as well as providing an accurate

initial voltage, reducing the overall system cost with the

need for fewer number of output capacitors. Another fea-

ture of the device is its true remote sensing capability

which allows accurate voltage setting at the load rather

than at the device.

Output Voltage Setting

The APU1160 can be programmed to any voltages in the

range of 1.25V to 5.5V with the addition of R1 and R2

external resistors according to the following formula:

( ) VOUT

VREF3

+IADJ3R2

Where:

VREF = 1.25V Typically

IADJ = 50mA Typically

R1 & R2 as shown in Figure 3:

VIN

VC T R L

V IN

V OUT

APU1160

VCTRL

V SENSE

Adj

VREF R1

IADJ = 50uA

VOUT

Figure 3 - Typical application of the APU1160

for programming the output voltage.

The APU1160 keeps a constant 1.25V between the V SENSE

pin and the VADJ pin. By placing a resistor R1 across

these two pins and connecting the VSENSE and VOUT pin

together, a constant current flows through R1, adding to

the IADJ current and into the R2 resistor producing a volt-

age equal to the (1.25/R1)3R2 + IADJ3R2. This voltage

is then added to the 1.25V to set the output voltage.

This is summarized in the above equation. Since the

minimum load current requirement of the APU1160 is

10mA, R1 is typically selected to be a 121V resistor so

that it automatically satisfies this condition. Notice that

since the IADJ is typically in the range of 50mA, it adds a

small error to the output voltage and should be consid-

ered when very precise output voltage setting is required.

Load Regulation

Since the APU1160 has separate pins for the output (V OUT )

and the sense (VSENSE), it is ideal for providing true re-

mote sensing of the output voltage at the load. This

means that the voltage drops due to parasitic resistance

such as PCB traces between the regulator and the load

are compensated for using remote sensing. Figure 4

shows a typical application of the APU1160 with remote

sensing.

VI N

V IN

VOUT

APU1160

VC T R L

V CTRL

V SENSE

Adj

Figure 4 - Schematic showing connection

for best load regulation.

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