ADP3331ARTZ-REEL7 Analog Devices Inc, ADP3331ARTZ-REEL7 Datasheet - Page 6
ADP3331ARTZ-REEL7
Manufacturer Part Number
ADP3331ARTZ-REEL7
Description
IC REG LDO ADJ 200MA SOT-23-6
Manufacturer
Analog Devices Inc
Series
anyCAP®r
Datasheet
1.ADP3331ARTZ-REEL7.pdf
(12 pages)
Specifications of ADP3331ARTZ-REEL7
Regulator Topology
Positive Adjustable
Voltage - Output
1.5 ~ 11.75 V
Voltage - Input
2.6 ~ 12 V
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
Primary Input Voltage
12V
Output Voltage Adjustable Range
1.5V To 11.75V
Dropout Voltage Vdo
200mV
No. Of Pins
6
Output Current
140mA
Operating Temperature Range
-40°C To +85°C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Current - Limit (min)
-
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Other names
ADP3331ARTZ-REEL7TR
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
ADP3331ARTZ-REEL7
Manufacturer:
ADI/亚德诺
Quantity:
20 000
ADP3331
THEORY OF OPERATION
The ADP3331 anyCAP LDO uses a single control loop for both
regulation and reference functions, as shown in Figure 2. The
output voltage is sensed by an external resistive voltage divider
consisting of R1 and R2. Feedback is taken from this network
by way of a series diode (D1) and a second resistor divider (R3
and R4) to the input of an amplifier.
A very high gain error amplifier is used to control this loop.
The amplifier is constructed in such a way that at equilibrium it
produces a large, temperature-proportional input offset voltage
that is repeatable and very well controlled. The temperature-
proportional offset voltage is combined with the complementary
diode voltage to form a virtual band gap voltage, implicit in the
network, although it never appears explicitly in the circuit. Ulti-
mately, this patented design makes it possible to control the loop
with only one amplifier. This technique also improves the noise
characteristics of the amplifier by providing more flexibility on
the trade-off of noise sources, which leads to a low noise design.
The R1, R2 divider is chosen in the same ratio as the band gap
voltage to output voltage. Although the R1, R2 resistor divider
is loaded by the diode D1 and a second divider consisting of R3
and R4, the values are chosen to produce a temperature stable
output. This unique arrangement specifically corrects for the
loading of the divider so that the error resulting from the base
current loading in conventional circuits is avoided.
The patented amplifier controls a new and unique noninverting
driver that drives the pass transistor, Q1. The use of this special
noninverting driver enables the frequency compensation to
include the load capacitor in a pole-splitting arrangement to
achieve reduced sensitivity to the value, type, and ESR of the
load capacitor.
Most LDOs place strict requirements on the range of ESR values
for the output capacitor because they are difficult to stabilize due
to the uncertainty of the load capacitance and resistance. More-
over, the ESR value required to keep conventional LDOs stable
changes, depending on load and temperature. These ESR limita-
tions make designing with LDOs more difficult because of their
unclear specifications and extreme variations over temperature.
The ADP3331 solves this problem. It can be used with any good
quality capacitor, with no constraint on the minimum ESR. The
INPUT
NONINVERTING
WIDEBAND
DRIVER
Q1
Figure 2. Functional Block Diagram
ADP3331
COMPENSATION
CAPACITOR
g
m
PTAT
V
OS
R4
GND
ATTENUATION
(V
CURRENT
BANDGAP
PTAT
R3
OUTPUT
D1
/V
OUT
)
R1
(a)
R2
R
C
LOAD
LOAD
–6–
innovative design allows the circuit to be stable with just a small
0.47 mF capacitor on the output. Additional advantages of the
pole-splitting scheme include superior line noise rejection and
very high regulator gain. The high gain leads to excellent regula-
tion, and ± 1.4% accuracy is guaranteed over line, load, and
temperature.
Additional features of the circuit include current limit, thermal
shutdown, and an error flag. Compared to standard solutions that
give a warning after the output has lost regulation, the ADP3331
provides improved system performance by enabling the ERR pin
to give a warning just before the device loses regulation.
As the chip’s temperature rises above +165∞C, the circuit acti-
vates a soft thermal shutdown to reduce the current to a safe
level. The thermal shutdown condition is indicated by the ERR
signal going low.
APPLICATION INFORMATION
Capacitor Selection
Output Capacitor: The stability and transient response of the
LDO is a function of the output capacitor. The ADP3331 is stable
with a wide range of capacitor values, types, and ESR (anyCAP).
A capacitor as low as 0.47 mF is all that is needed for stability;
larger capacitors can be used if high current surges on the output
are anticipated. The ADP3331 is stable with extremely low ESR
capacitors (ESR ª 0), such as multilayer ceramic capacitors
(MLCC) or OSCON. Note that the effective capacitance of some
capacitor types falls below the minimum over temperature or
with dc voltage.
Input Capacitor: An input bypass capacitor is not strictly required
but is recommended in any application involving long input
wires or high source impedance. Connecting a 0.47 mF capacitor
from the input to ground reduces the circuit’s sensitivity to
PC board layout and input transients. If a larger output capacitor
is necessary, a larger value input capacitor is also recommended.
Noise Reduction Capacitor: A noise reduction capacitor can be
used to reduce the output noise by 6 dB to 10 dB. This capaci-
tor limits the noise gain when connected between the feedback
pin (FB) and the output pin (OUT), as shown in Figure 3. Low
leakage capacitors in the 10 pF to 500 pF range provide the best
performance. Since FB 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; long PC board traces
are not recommended. When adding a noise reduction capacitor,
use the following guidelines:
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.
∑ Maintain a minimum load current of 1 mA when not in
∑ For CNR values greater than 500 pF, add a 100 kW series
shutdown.
resistor (RNR).
REV. A
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