mic4782 Micrel Semiconductor, mic4782 Datasheet - Page 10
mic4782
Manufacturer Part Number
mic4782
Description
1.8 Mhz Dual 2a Integrated Switch Buck Regulator
Manufacturer
Micrel Semiconductor
Datasheet
1.MIC4782.pdf
(23 pages)
Micrel, Inc.
Application Information
The MIC4782 is a dual 2A PWM non-synchronous buck
regulator. By switching an input voltage supply, and
filtering the switched voltage through an inductor and
capacitor, a regulated DC voltage is obtained. Figure 1
shows a simplified example of a non-synchronous buck
converter.
For a non-synchronous buck converter, there are two
modes of operation; continuous and discontinuous.
Continuous or discontinuous refer to the inductor
current. If current is continuously flowing through the
inductor throughout the switching cycle, it is in
continuous operation. If the inductor current drops to
zero during the off time, it is in discontinuous operation.
Critically continuous is the point where any decrease in
output current will cause it to enter discontinuous
operation. The critically continuous load current can be
calculated as follows;
Continuous or discontinuous operation determines how
we calculate peak inductor current.
Continuous Operation
Figure 2 illustrates the switch voltage and inductor
current during continuous operation.
The output voltage is regulated by pulse width
August 2009
Figure 1. Example of Non-synchronous Buck Converter
I
OUT
Figure 2. Continuous Operation
=
⎡
⎢
⎢
⎣
V
OUT
fsw
−
×
2
V
OUT
×
V
IN
L
2
⎤
⎥
⎥
⎦
10
modulating (PWM) the switch voltage to the average
required output voltage. The switching can be broken up
into two cycles; On and Off.
During the On-Time, Figure 3 illustrates the high-side
switch is turned on, current flows from the input supply
through the inductor and to the output. The inductor
current is charged at the rate;
To determine the total on-time, or time at which the
inductor charges, the duty cycle needs to be calculated.
The duty cycle can be calculated as;
and the On time is;
Therefore, peak-to-peak ripple current is;
Since the average peak-to-peak current is equal to the
load current. The actual peak (or highest current the
inductor will see in a steady-state condition) is equal to
the output current plus ½ the peak-to-peak current.
D =
I
I
T
(
pk
pk
V
ON
−
IN
=
pk
=
V
I
−
OUT
=
V
L
OUT
fsw
V
D
IN
(
V
OUT
+
IN
(
Figure 3. On-Time
−
V
V
IN
)
fsw
OUT
−
2
V
×
×
)
OUT
×
L
fsw
V
V
OUT
)
×
IN
×
L
V
V
OUT
IN
M9999-081709-D
MIC4782
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