APE1185 Advanced Power Electronics Corp., APE1185 Datasheet - Page 5
APE1185
Manufacturer Part Number
APE1185
Description
Manufacturer
Advanced Power Electronics Corp.
Datasheet
1.APE1185.pdf
(10 pages)
Specifications of APE1185
Vin(min)
1.2
Vin(max)
14
Vout(min)
1.2
Vout(max)
5
Iout(max)
3
Vref
1.2
Package
TO263-5,TO220-5,TO252-5
3A Ultra Low Dropout Positive Adjustable or Fixed-mode Regulator
The APE1185-ADJ keeps a constant 1.25V between
the Vsense pin and the Adj pin. By placing a
resistor R1 across these two pins and connecting
the Vsense ans Vout pin together, a constant
current flows through R1, adding to the Iadj current
and into the R2 resistor producing a voltage equal
to the (1.25/R1)*R2 + Iadj*R2. This voltage is then
added to the 1.25V to set the output voltage. This is
summarized in the above equation. Since the
minimum
APE1185-ADJ is 10mA, R1 is typically selected to be
a 121 Ω resistor so that it automatically satisfies
this condition. Notice that since the Iadj is typically
in the range of 50uA it only adds a small error to the
Stability
The APE1185-XX requires the use of an output
capacitor as part of the frequency compensation in
order to make the regulator stable. Typical designs
for the microprocessor applications use standard
electrolytic capacitors with typical ESR in the range
of 50 to 100m Ω and an output capacitance of
Functional Descriptions(Continued)
Vctrl
Advanced Power
Electronics Corp.
Vin
load
Vctrl
Vin
Vout = Vref (1+R2/R1) + Iadj * R2 where : Vref = 1.25V & Iadj=50uA Typically
current
requirement
Vin
Vctrl
APE1185-ADJ
Adj
of
APE1185-ADJ
Adj
the
Vsense
Vout
Iadj=50uA
output voltage and should be considered when very
precise output voltage setting is required.
Load Regulation
Since the APE1185 has separate pins for the output
(Vout) and the sense (Vsense), it is ideal for
providing true remote 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 following shows a
typical application of the APE1185-ADJ with remote
sensing.
100uF to 1000uF. Fortunately as the capacitance
increases, the ESR decreases resulting in a fixed
RC
advantage of the phenomena in making the overall
regulator loop stable. For most applications a
minimum of 100uF aluminum electrolytic capacitor
insures both stability and good transient response.
Vsense
time
R1
R2
Vref
constant.
R1+
R2+
The
APE1185-XX
R
L
APE1185
Vout
takes
5/7
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