MIC5219 Micrel Semiconductor, MIC5219 Datasheet - Page 8
MIC5219
Manufacturer Part Number
MIC5219
Description
500mA-Peak Output LDO Regulator
Manufacturer
Micrel Semiconductor
Datasheet
1.MIC5219.pdf
(12 pages)
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MIC5219
Applications Information
The MIC5219 is designed for 150mA to 200mA output current
applications where a high current spike (500mA) is needed
for short, startup conditions. Basic application of the device
will be discussed initially followed by a more detailed discus-
sion of higher current applications.
Enable/Shutdown
Forcing EN (enable/shutdown) high (> 2V) enables the regu-
lator. EN is compatible with CMOS logic. If the enable/
shutdown feature is not required, connect EN to IN (supply
input). See Figure 5.
Input Capacitor
A 1 F capacitor should be placed from IN to GND if there is
more than 10 inches of wire between the input and the ac filter
capacitor or if a battery is used as the input.
Output Capacitor
An output capacitor is required between OUT and GND to
prevent oscillation. The minimum size of the output capacitor
is dependent upon whether a reference bypass capacitor is
used. 1 F minimum is recommended when C
(see Figure 5). 2.2 F minimum is recommended when C
is 470pF (see Figure 6). For applications <3V, the output
capacitor should be increased to 22 F minimum to reduce
start-up overshoot. Larger values improve the regulator’s
transient response. The output capacitor value may be in-
creased without limit.
The output capacitor should have an ESR (equivalent series
resistance) of about 5
above 1MHz. Ultra-low-ESR capacitors could cause oscilla-
tion and/or underdamped transient response. Most tantalum
or aluminum electrolytic capacitors are adequate; film types
will work, but are more expensive. Many aluminum electrolyt-
ics have electrolytes that freeze at about –30 C, so solid
tantalums are recommended for operation below –25 C.
At lower values of output current, less output capacitance is
needed for stability. The capacitor can be reduced to 0.47 F
for current below 10mA or 0.33 F for currents below 1mA.
No-Load Stability
The MIC5219 will remain stable and in regulation with no load
(other than the internal voltage divider) unlike many other
voltage regulators. This is especially important in CMOS
RAM keep-alive applications.
Reference Bypass Capacitor
BYP is connected to the internal voltage reference. A 470pF
capacitor (C
reference, providing a significant reduction in output noise
(ultra-low-noise performance). C
phase margin; when using C
or greater are generally required to maintain stability.
The start-up speed of the MIC5219 is inversely proportional
to the size of the reference bypass capacitor. Applications
requiring a slow ramp-up of output voltage should consider
larger values of C
consider omitting C
MIC5219
BYP
) connected from BYP to GND quiets this
BYP
BYP
. Likewise, if rapid turn-on is necessary,
.
or less and a resonant frequency
BYP
, output capacitors of 2.2 F
BYP
reduces the regulator
BYP
is not used
BYP
8
Thermal Considerations
The MIC5219 is designed to provide 200mA of continuous
current in two very small profile packages. Maximum power
dissipation can be calculated based on the output current and
the voltage drop across the part. To determine the maximum
power dissipation of the package, use the thermal resistance,
junction-to-ambient, of the device and the following basic
equation.
T
125 C, and T
layout dependent; table 1 shows examples of thermal resis-
tance, junction-to-ambient, for the MIC5219.
The actual power dissipation of the regulator circuit can be
determined using one simple equation.
Substituting P
conditions that are critical to the application will give the
maximum operating conditions for the regulator circuit. For
example, if we are operating the MIC5219-3.3BM5 at room
temperature, with a minimum footprint layout, we can deter-
mine the maximum input voltage for a set output current.
The thermal resistance, junction-to-ambient, for the mini-
mum footprint is 220 C/W, taken from table 1. The maximum
power dissipation number cannot be exceeded for proper
operation of the device. Using the output voltage of 3.3V, and
an output current of 150mA, we can determine the maximum
input voltage. Ground current, maximum of 3mA for 150mA
of output current, can be taken from the Electrical Character-
istics section of the data sheet.
Therefore, a 3.3V application at 150mA of output current can
accept a maximum input voltage of 6.2V in a SOT-23-5
package. For a full discussion of heat sinking and thermal
effects on voltage regulators, refer to the Regulator Thermals
section of Micrel’s Designing with Low-Dropout Voltage Regu-
lators handbook.
Package
MM8™ (MM)
SOT-23-5 (M5)
J(MAX)
P
P
455mW = (V
455mW = (150mA)
950mW = 153mA
V
P
P
D (max)
D(max)
D
D(max)
IN
is the maximum junction temperature of the die,
Table 1. MIC5219 Thermal Resistance
= (V
= 6.2V
A
IN
= 455mW
=
D(MAX)
=
is the ambient operating temperature.
– V
Minimum Footprint
MAX
JA
125 C – 25 C
T
IN
OUT
J(max)
Recommended
– 3.3V)
220
160 C/W
220 C/W
for P
) I
JA
OUT
C/W
V
– T
D
V
IN
IN
and solving for the operating
+ V
A
150mA + V
+ 3mA
IN
I
GND
2 oz. Copper
JA
170 C/W
70 C/W
1" Square
V
IN
IN
– 495mW
3mA
July 2000
130 C/W
30 C/W
Micrel
JC
JA
is
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