Data Sheet ADP3330
APPLICATIONS INFORMATION
CAPACITOR SELECTION
Output Capacitors
As with any micropower device, output transient response is a
function of the output capacitance. The ADP3330 is stable with
a wide range of capacitor values, types, and ESR (anyCAP). A
capacitor as low as 0.47 µF is all that is needed for stability;
larger capacitors can be used if high output current surges are
anticipated. The ADP3330 is stable with extremely low ESR
capacitors (ESR ≈ 0), such as MLCC or OSCON. Note that the
effective capacitance of some capacitor types may fall less than
the minimum at cold temperature. Ensure that the capacitor
provides more than 0.47 µF at minimum temperature.
Input Bypass Capacitor
An input bypass capacitor is not strictly required, but it is
advisable in any application involving long input wires or high
source impedance. Connecting a 0.47 µF capacitor from IN to
GND reduces the sensitivity of the circuit to printed circuit
board (PCB) layout. If a larger value output capacitor is used, a
larger value input capacitor is also recommended.
NOISE REDUCTION
A noise reduction capacitor (C
NR
) can be used to further reduce
the noise by 6 dB to 10 dB (see Figure 23). Low leakage
capacitors in the 10 pF to 500 pF range provide the best
performance. Carefully connect to this node to avoid noise
pickup from external sources because the noise reduction pin
(NR) is internally connected to a high impedance node. The
pad connected to this pin must be as small as possible and long
PCB traces are not recommended.
When adding a noise reduction capacitor, use the following
guidelines:
• Maintain a minimum load current of 1 mA when not in
shutdown.
• For C
NR
values greater than 500 pF, add a 100 kΩ series
resistor (R
NR
).
It is important to note that as C
NR
increases, the turn on time is
delayed. When C
NR
values are greater than 1 nF, this delay may
be in the order of several milliseconds.
Figure 23. Noise Reduction Circuit
CHIP-ON-LEAD PACKAGE
The ADP3330 uses a Chip-on-Lead package design (protected
by U.S. Patent 5929514 A) to ensure the best thermal performance
in the 6-lead SOT-23 footprint. In a standard 6-lead SOT-23
package, the majority of the heat flows out of the ground pin.
The Chip-on-Lead package uses an electrically isolated die
attachment that allows all pins to contribute to the heat
conduction. This technique reduces the thermal resistance to
190°C/W on a 2-layer board as compared to >230°C/W for a
standard SOT-23 lead frame. Figure 24 and Figure 25 show the
difference between the standard 6-lead SOT-23 and the Chip-on-
Lead lead frames.
Figure 24. Normal 6-Lead SOT-23 Package
Figure 25. Thermally Enhanced, Chip-on-Lead Package
THERMAL OVERLOAD PROTECTION
The ADP3330 is protected against damage due to excessive
power dissipation by its thermal overload protection circuit,
which limits the die temperature to a maximum of 165°C.
Under extreme conditions, (that is, high ambient temperature
and power dissipation) where die temperature starts to rise
more than 165°C, the output current decreases until the die
temperature has dropped to a safe level. The output current is
restored when the die temperature is reduced.
Current and thermal limit protections protect the device against
accidental overload conditions. For normal operation, device
power dissipation must be externally limited so that the
junction temperatures do not exceed 125°C.
V
IN
+
–
C1
0.47µF
V
OUT
= 3.3V
NR
OUT
GND
IN
C2
0.47µF
+
–
ERR
SD
R1
330kΩ
C
NR
R
NR
ADP3330-3
12098-023
SILICON DIE WITH
ELECTRICALLY
ISOLATED
DIE ATTACH
12098-025
Rev. C | Page 11 of 16