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AMS1510CT-3.0 Datasheet(PDF) 5 Page - Advanced Monolithic Systems

Part # AMS1510CT-3.0
Description  10A LOW DROPOUT VOLTAGE REGULATORS
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Manufacturer  ADMOS [Advanced Monolithic Systems]
Direct Link  http://www.advanced-monolithic.com
Logo ADMOS - Advanced Monolithic Systems

AMS1510CT-3.0 Datasheet(HTML) 5 Page - Advanced Monolithic Systems

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Advanced Monolithic Systems, Inc.
www.advanced-monolithic.com
Phone (925) 443-0722
Fax (925) 443-0723
AMS1510
APPLICATION HINTS
CONTROL
POWER
SENSE
AMS1510
OUTPUT
ADJ
LOAD
+
-
V
OUT
R
P
R
P
R1
R2
5V
3.3V
Figure 2. Remote Load Sensing
(
∆I
OUT)(RP)
TIME
V
OUT
FIGURE 1
V
OUT
FIGURE 2
I
OUT
Figure 3. Remote Sensing Improves Load Regulation
Voltage drops due to RP are not eliminated; they will add to the
dropout voltage of the regulator regardless of whether they are
inside or outside the regulation loop. The AMS1510 can control
the voltage at the load as long as the input-output voltage is
greater than the total of the dropout voltage of the device plus the
voltage drop across RP.
Stability
The circuit design used in the AMS1510 series requires the use of
an output capacitor as part of the device frequency compensation.
The addition of 150
µF aluminum electrolytic or a 22µF solid
tantalum on the output will ensure stability for all operating
conditions. For best frequency response use capacitors with an
ESR of less than 1
Ω.
In order to meet the transient requirements of the processor larger
value capacitors are needed. Tight voltage tolerances are required
in the power supply. To limit the high frequency noise generated
by the processor high quality bypass capacitors must be used. In
order to limit parasitic inductance (ESL) and resistance (ESR) in
the capacitors to acceptable limits, multiple small ceramic
capacitors in addition to high quality solid tantalum capacitors are
required.
When the adjustment terminal is bypassed to improve the ripple
rejection, the requirement for an output capacitor increases. The
Adjust pin is brought out on the fixed voltage device specifically
to allow this capability. To ensure good transient response with
heavy load current changes capacitor values on the order of 100
µF
are used in the output of many regulators. To further improve
stability and transient response of these devices larger values of
output capacitor can be used.
The modern processors generate large high frequency current
transients. The load current step contains higher order frequency
components than the output coupling network must handle until
the regulator throttles to the load current level. Because they
contain parasitic resistance and inductance, capacitors are not
ideal elements. These parasitic elements dominate the change in
output voltage at the beginning of a transient load step change.
The ESR of the output capacitors produces an instantaneous step
in output voltage (
∆V=∆I)(ESR). The ESL of the output
capacitors produces a droop proportional to the rate of change of
the output current (V= L)(
∆I/∆t). The output capacitance produces
a change in output voltage proportional to the time until the
regulator can respond (
∆V=∆t) (∆I/C). Figure 4 illustrates these
transient effects.
CAPACITANCE
EFFECTS
ESR
EFFECTS
ESL
EFFECTS
POINT AT WHICH REGULATOR
TAKES CONTROL
SLOPE, V/t =
∆I/C
Figure 4.
Output Voltage
The AMS1510 series develops a 1.25V reference voltage between
the Sense pin and the Adjust pin (Figure5). Placing a resistor
between these two terminals causes a constant current to flow
through R1 and down through R2 to set the overall output voltage.
In general R1 is chosen so that this current is the specified
minimum load current of 10mA.The current out of the Adjust pin
is small, typically 50
µA and it adds to the current from R1.
Because IADJ is very small it needs to be considered only when
very precise output voltage setting is required. For best regulation
the top of the resistor divider should be connected directly to the
Sense pin.
CONTROL
POWER
OUTPUT
AMS1510
SENSE
ADJ
R1
R2
V
OUT
V
REF
V
POWER
I
ADJ
50
µA
+
+
+
V
CONTROL
VOUT = VREF
(1+ R2/R1)+I
ADJR2
Figure 5. Setting Output Voltage


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