ADP3330ART-3-REEL Analog Devices Inc, ADP3330ART-3-REEL Datasheet - Page 8

IC REG LDO 200MA 3V SOT-23-6 TR

ADP3330ART-3-REEL

Manufacturer Part Number
ADP3330ART-3-REEL
Description
IC REG LDO 200MA 3V SOT-23-6 TR
Manufacturer
Analog Devices Inc
Series
anyCAP®r
Datasheet

Specifications of ADP3330ART-3-REEL

Rohs Status
RoHS non-compliant
Design Resources
Half-Duplex, Isolated RS-485 Interface (CN0031)
Regulator Topology
Positive Fixed
Voltage - Output
3V
Voltage - Input
Up to 12V
Voltage - Dropout (typical)
0.14V @ 200mA
Number Of Regulators
1
Current - Output
200mA
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
SOT-23-6
Current - Limit (min)
-

Available stocks

Company
Part Number
Manufacturer
Quantity
Price
Part Number:
ADP3330ART-3-REEL7
Manufacturer:
AD
Quantity:
1 947
Part Number:
ADP3330ART-3-REEL7
Manufacturer:
Microsemi
Quantity:
1 948
ADP3330
APPLICATION 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 F 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 Multilayer
Ceramic Capacitors (MLCC) or OSCON. Note that the
effective capacitance of some capacitor types may fall below the
minimum at cold temperature. Ensure that the capacitor
provides more than 0.47 F 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 F
capacitor from IN to ground reduces the circuit’s sensitivity to
PC board layout. If a larger value output capacitor is used, then
a larger value input capacitor is also recommended.
Noise Reduction
A noise reduction capacitor (C
the noise by 6 dB–10 dB (Figure 21). Low leakage capacitors in
10 pF–500 pF range provide the best performance. Since the
noise reduction pin (NR) is internally connected to a high imped-
ance node, any connection to this node should be carefully done
to avoid noise pickup from external sources. The pad connected
to this pin should be as small as possible and long PC board
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
• For CNR values greater than 500 pF, add a 100 k series
It is important to note that as CNR increases, the turn-on time
will be delayed. With CNR values greater than 1 nF, this delay
may be on the order of several milliseconds.
Chip-on-Lead Package
The ADP3330 uses a patented Chip-on-Lead package design to
ensure the best thermal performance in an SOT-23 footprint. In
a standard SOT-23, the majority of the heat flows out of the
ground pin. This new package uses an electrically isolated die
attach that allows all pins to contribute to 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
leadframe. Figure 22 shows the difference between the standard
SOT-23 and the Chip-on-Lead leadframes.
shutdown.
resistor (RNR).
V
0.47 F
IN
C1
+
Figure 21. Noise Reduction Circuit
IN
ADP3330-3
SD
GND
OUT
ERR
NR
NR
R1
) can be used to further reduce
RNR
330k
CNR
+
C2
0.47 F
V
OUT
= +3.3V
–8–
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 (i.e., high ambient temperature and
power dissipation) where die temperature starts to rise above
+165 C, the output current is reduced 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 are intended to protect
the device against accidental overload conditions. For normal
operation, device power dissipation should be externally limited
so that junction temperatures will not exceed +125 C.
Calculating Junction Temperature
Device power dissipation is calculated as follows:
Where I
and V
Assuming I
V
The proprietary package used in the ADP3330 has a thermal
resistance of 165 C/W, significantly lower than a standard
6-lead SOT-23 package. Assuming a 4-layer board, the junction
temperature rise above ambient temperature will be approxi-
mately equal to:
To limit the maximum junction temperature to +125 C,
maximum allowable ambient temperature will be:
OUT
= 3.0 V, device power dissipation is:
OUT
b. Thermally Enhanced Chip-on-Lead Package
LOAD
SILICON DIE WITH
P
D
ELECTRICALLY
are input and output voltages respectively.
LOAD
= (4.2 – 3) 200 mA + 4.2 (4 mA) = 257 mW
DIE ATTACH
and I
∆T
P
ISOLATED
T
D
SILICON
A MAX
a. Normal SOT-23-6 Package
= 200 mA, I
JA
= (V
GND
= 0.257 W × 165 C/W = 42.4 C
DIE
IN
= 125 C – 42.4 C = 82.6 C
are load current and ground current, V
– V
Figure 22.
OUT
GND
) I
= 4 mA, V
LOAD
+(V
IN
IN
) I
= 4.2 V and
GND
REV. A
IN

Related parts for ADP3330ART-3-REEL