ml4866 ETC-unknow, ml4866 Datasheet - Page 6
ml4866
Manufacturer Part Number
ml4866
Description
Manufacturer
ETC-unknow
Datasheet
1.ML4866.pdf
(8 pages)
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ML4866
DESIGN CONSIDERATIONS
FREQUENCY COMPENSATION
Frequency compensation of the ML4866 is required when
the converter is operating in PWM mode. Two simple
methods are provided to ensure the converter is frequency
stable. Both these methods will work only if the inductor
current is selected to be in CCM at the maximum load
current (see Inductor Selection). The first, called dominant
pole compensation, is used when non-varying loads are
expected. This method requires a single capacitor
connected from the error amplifier output (COMP Pin) to
ground.
For loads which change suddenly, the transient response
(or bandwidth) of the circuit must be increased to prevent
the output voltage from going outside of the regulation
band. The method used to accomplish this is called
zero/pole compensation and requires a series resistor
capacitor network from COMP to ground.
To determine which method works best for a given
application, apply the components found from the
zero/pole compensation method to an actual circuit
and examine the output voltage variation. If the voltage
variation is acceptable, connect the simpler, single
capacitor and re-check the output voltage for acceptable
load transient response.
NON-VARYING LOAD CURRENT
For the best possible response to load transients using only
a single capacitor, dominant pole compensation is
implemented with a single capacitor value of:
Where f
g
18nF or 22nF capacitor). The value of C
increased but at the risk of increased output voltage
variations with transient loads.
6
m
CAPACITANCE
Table 2. ESR Values for Low Cost Tantalum Capacitors
= 62.5µmho, and C
C
100µF
4.7µF
COMP
10µF
22µF
33µF
47µF
COMP
=
2
is the unity gain crossover point (640Hz),
™
g
f
COMP
m
VOLTAGE
RATING
6.3V
6.3V
6.3V
16V
16V
10V
COMP
> 15.5nF (choose a standard
3216
3216
7343
6032
7343
7343
SIZE
COMP
(Continued)
can be
100kHz
0.490
0.368
0.149
0.291
0.144
0.088
ESR @
(6)
VARYING LOAD CURRENT
To minimize output voltage variations due to rapidly
changing load currents, use the series RC zero
compensation method to find the compensation network
component values that will improve the output voltage
response to load transients.
The unity gain bandwidth of the converter is extended to
15kHz using an RC network determined by:
Where f
390k , 5%), and C
Either method of compensation for CCM mode with result
in continued stability as the ML4866 changes to DCM
mode at lighter load currents. Figure 3 shows a typical
application circuit for the ML4866.
15nF
100nF
390k
R
C
COMP
COMP
0
= 15kHz, f
Figure 3. Typical Application Circuit
>
=
BURST
15nF
COMP
g
V OUT
50
G
V REF
m
p
,
™
where G
1
R
COMP
COMP
COMP
1
2
3
4
ML4866
100µH
= 16nF (use 15nF).
= 640Hz, R
=
8
7
6
5
f
COMP
f
100µF
O
GND
V L
SHDN
V IN
COMP
33µF
> 375k
100nF
V OUT
3.3V
V IN
3.5V to 6.5V
(use
(7)
(8)
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