EUP3010A EUTECH [Eutech Microelectronics Inc], EUP3010A Datasheet - Page 9
EUP3010A
Manufacturer Part Number
EUP3010A
Description
1.5MHz,1A Synchronous Step-Down Converter with Soft Start
Manufacturer
EUTECH [Eutech Microelectronics Inc]
Datasheet
1.EUP3010A.pdf
(12 pages)
Application Information
Main Control Loop
The EUP3010/A uses a slope-compensated constant
frequency, current mode architecture. Both the main
(P-Channel MOSFET) and synchronous (N-channel
MOSFET) switches are internal. During normal
operation, the EUP3010/A regulates output voltage by
switching at a constant frequency and then modulating
the power transferred to the load each cycle using PWM
comparator. The duty cycle is controlled by three
weighted differential signals: the output of error
amplifier, the main switch sense voltage and the
slope-compensation ramp. It modulates output power by
adjusting the inductor-peak current during the first half
of each cycle. An N-channel, synchronous switch turns
on during the second half of each cycle (off time). When
the inductor current starts to reverse or when the PWM
reaches the end of the oscillator period, the synchronous
switch turns off. This keeps excess current from flowing
backward through the inductor, from the output
capacitor to GND, or through the main and synchronous
switch to GND.
Inductor Selection
The output inductor is selected to limit the ripple current
to some predetermined value, typically 20%~40% of the
full load current at the maximum input voltage. Large
value inductors lower ripple currents. Higher V
V
equation. A reasonable starting point for setting ripple
current is ∆I
The DC current rating of the inductor should be at least
equal to the maximum load current plus half the ripple
current to prevent core saturation. Thus, a 1.2A rated
inductor should be enough for most applications
(1A+200mA). For better efficiency, choose a low
DC-resistance inductor.
C
In continuous mode, the source current of the top
MOSFET is a square wave of duty cycle V
primary function of the input capacitor is to provide a
low impedance loop for the edges of pulsed current
drawn by the EUP3010/A. A low ESR input capacitor
sized for the maximum RMS current must be used. The
size required will vary depending on the load, output
voltage
characteristics. A typical value is around 4.7µF.
The input capacitor RMS current varies with the input
voltage and the output voltage. The equation for the
maximum RMS current in the input capacitor is:
DS3010/A Ver1.4 Feb. 2009
OUT
IN
and C
also increases the ripple current as shown in
∆I
OUT
and
L
L
=400mA (40% of 1A).
=
Selection
(f)(L)
input
1
×
V
OUT
voltage
×
1
−
source
V
V
OUT
IN
OUT
impedance
/V
IN
IN
. The
or
9
The output capacitor C
stability.
The selection of C
series resistance (ESR).
ESR is a direct function of the volume of the capacitor,
that is, physically larger capacitors have lower ESR.
Once the ESR requirement for C
RMS current rating generally far exceeds the I
requirement. The output ripple ∆V
When choosing the input and output ceramic capacitors,
choose the X5R or X7R dielectric formulations. These
dielectrics have the best temperature and voltage
characteristics of all the ceramics for a given value and
size.
Output Voltage Programming
The output voltage is set by a resistive divider according
to the following formula:
For adjustable voltage package, the external resistive
divider is connected to the output, allowing remote
voltage sensing as shown in below figure.
C1 is a feedforward cap which can speed loop response
and reduce output ripple during load transient. Choose
C1 value between 220pF and 680pF for most
applications.
I
∆V
RMS
OUT
V
=
OUT
OUT
I
≅
O
∆I
×
is driven by the required effective
=
L
OUT
0.6V
EUP3010/A
V
×
V
IN
O
has a strong effect on loop
ESR
×
×
1
1
OUT
OUT
+
+
−
8fC
R2
R1
V
is determined by:
V
has been met, the
IN
O
OUT
1
RIPPLE(P-P)
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