Data Sheet AMS2115 - Advanced Monolithic Systems

AMS2115
FAST TRANSIENT RESPONSE LDO CONTROLLER
General Description
Features
The AMS2115 is a single IC controller that drives an
external N Channel MOSFET as a source follower to
produce a fast transient response, low dropout
voltage regulator. The fast transient load
performance is obtained by eliminating expensive
tantalum or bulk electrolytic output capacitors in the
most
demanding
modern
microprocessor
applications. Precision-trimmed adjustable and fixed
output voltage version accommodates any required
microprocessor application. By selecting the Nchannel MOSFET Rds(on) a very low dropout
voltage can be achieve. A protection feature
includes a high side current limit amplifier that
activates a circuit to limit the FET gate drive. A
shutdown pin turns off the gate drive and some
internal circuits to reduce quiescent current.
AMS2115 is offered in 8L SOIC and package.
•
•
•
•
Fast Transient Response
Dropout Voltage Defined by FET Used
Very Tight Load Regulation
High Side Sense Current Limit
Applications
•
•
•
•
Microprocessor Supplies
Video Card Supplies
Low Voltage Logic Supplies
GTL Termination
Typical Application
5V
12V
AMS2115
1
2
3
4
S/D
IPOS
VIN
INEG
GND
GATE
FB
COMP
7 mOhm
8
220uF
7
6
5
Si4160
10
2.5V @ 5A
10k
1nF
1uF
22uF
1nF
10pF
10k
7.5k
gnd
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AMS2115
FAST TRANSIENT RESPONSE LOW DROPOUT REGULATOR
Pin Description (package)
Pin #
1
2
Symbol
Description
S/D
This is a shutdown pin that provides GATE drive latch-off capability. The pin is also the input
to a comparator referenced to VREF (1.25V). When the pin pulls above VREF, the
comparator latches the gate drive to the external MOSFET off. The comparator typically has
150mV of hysteresis and the Shutdown pin can be pulled low to reset the latch-off function.
This pin provides overvoltage protection or thermal shutdown protection when driven from
various resistor divider schemes. S/D pin is clamped at 2.5V.
VIN
This is the input supply for the IC that powers the majority of internal circuitry and provides
sufficient gate drive compliance for the external N-channel MOSFET. The typical supply
voltage is 12 with 4.5 mA of quiescent current. The maximum operating VIN is 20V and the
MOSFET at max. IOUT + 1.6V (worst-case VIN to GATE output swing).
Analog Ground. This pin is also the negative sense terminal for the internal 1.25V reference.
Connect external feedback divider networks that terminate to GND and frequency
compensation components that terminate to GND directly to this pin for best regulation and
performance.
This is the inverting input of the error amplifier for the adjustable voltage AMS 2115. The noninverting input is tied to the internal 1.25V reference. Input bias current for this pin is typically
– 3 µA flowing out of the pin. This pin is normally tied to a resistor
divider network to set output voltage. Tie the top of the external resistor divider directly to the
output voltage at the point of load for best regulation performance. This is the input of the
error amplifier for the fixed voltage AMS 2115-X. The fixed voltage parts contain a divider
network to set output voltage. The typical resistor divider current is 1 mA into the pin. Tie this
pin directly to the output voltage for best regulation performance.
3
GND
4
FB
5
Comp
The error amplifier output is used for external frequency compensation. Frequency
compensation is generally performed with a series RC network to ground.
Gate
This is the output of the error amplifier that drives N-channel MOSFETs with up to 5000pf of
“effective” gate capacitance. The typical open-loop output impedance is 2 Ohms. When using
low input capacitance MOSFETs (1500pF), a small gate resistor of 2 to 10 Ohms dampens
high frequency ringing created by an LC resonance that is created by the MOSFET gate’s
lead inductance and input capacitance. The GATE pin delivers up to 50mA for a few hundred
nanoseconds when slewing the gate of the N-channel MOSFET in response to output load
current transients.
INEG
This is the negative sense terminal of the current limit amplifier. A small sense resistor is
connected in series with the drain of the external MOSFET and is connected between the
IPOS and INEG pins. A 50mV threshold voltage in conjunction with the sense resistor value
sets the current limit level. The current sense resistor can be low value shut or can be made
from a piece of PC board trace. If the current limit amplifier is not used tie the INEG and
IPOS to power input voltage. This action disables the current limit amplifier.
IPOS
This is the positive sense terminal of the current limit amplifier. Tie this pin directly to the
main power input voltage from which the output voltage is regulated. This pin is also the input
to a comparator that monitors the power input voltage and keeps the GATE voltage low until
power input voltage is at least 1V. This prevents the external N Channel MOSFET to turn on
before V power is on thus eliminating possible voltage spikes in the output voltage when
powered up.
6
7
8
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AMS2115
FAST TRANSIENT RESPONSE LOW DROPOUT REGULATOR
Pin Configuration
8L SOIC SO Package (S) (Top View)
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AMS2115
FAST TRANSIENT RESPONSE LOW DROPOUT REGULATOR
Absolute Maximum Ratings
(1)
Recommended Operating Conditions
Input Voltage. ………………………………………...…………….. 20V
Operating Junction Temperature……………….…..…-40⁰C to 125⁰C
ESD .……………..…..……………….………………..…..………2000V
Storage Temperature Range……………….............. -65⁰C to 150⁰C
Lead Temperature (10sec)…………………….………..……… 300⁰C
Junction Temperature………...………………..……..………… 150⁰C
(2)
Input Voltage……………………………………..……….. 1.5V to 15V
Ambient Operating Temperature……………....…… -40⁰C to 125⁰C
Thermal Information
SO-8 package.... θJA ...........................................................130⁰C/W
Electrical Characteristics
TA=25C, VIN=12V, IPOS = INEG = 5V, SHDN = 0V unless otherwise noted.
PARAMETER
Device
CONDITIONS
Min.
Supply Current (Isy)
1.238
1.485
Typ.
Max.
Units
4.5
7
mA
1.26
1.51
5
1.81
V
V
V
V
Reference Voltage (VREF)
AMS2115
Output Voltage (VOUT)
AMS2115-1.5
Output Voltage (VOUT)
AMS2115-1.8
1.782
1.250
1.500
1.0
1.800
Output Voltage (VOUT)
AMS2115-2.5
2.475
2.500
2.52
V
Output Voltage (VOUT)
AMS2115-3.3
3.267
3.300
3.33
V
4.950
Output Voltage (VOUT)
AMS2115-5.0
5.000
5.05
V
Line Regulation
AMS2115-XX
10V≤Vin≤20V
0.01
0.3
%/V
Input Bias Current (Ifb)
AMS2115
FB=VFB
-3.0
-4.0
µA
OUT Divider Current
AMS2115-XX
OUT=VOUT
0.5
1.0
mA
Gate Output Swing Low
AMS2115-XX
IGate=0mA
0.1
0.5
V
1.0
mA
Gate Output Swing High
AMS2115-XX
IGate=0mA
IPOS+INEG Supply Current
AMS2115-XX
3V≤IPOS≤20V
VIN-1.6V
VIN-1V
0.3
0.625
V
Current Limit Threshold Voltage
AMS2115-XX
Current Limit Threshold Voltage
Line Regulation
AMS2115-XX
3V≤IPOS≤20V
-0.20
-0.50
%/V
Shut Down Current
(Input Shut Down – High)
AMS2115-XX
VShutdown=2.0V
5.0
8.0
µA
Shut Down Input Logic
(Shut Down – Low)
AMS2115-XX
LOW (Regulator On)
1.2
1.4
V
Shut Down Input Logic
(Shut Down – High)
AMS2115-XX
High (Regulator Off)
Shut Down Hysteresis
AMS2115-XX
Output Voltage TC (VOUT TC)
Reference Voltage TC (VREF TC)
60
60
2.0
mV
mV
1.5
V
From High to Low
150
mV
AMS2115-XX
∆T=TA to 125°C
30
ppm/°C
AMS2115
∆T=TA to 125°C
30
ppm/°C
Parameters identified with boldface type apply over the full operating temperature range.
Notes:
1.
Absolute maximum ratings indicate limits beyond which damage to the device may occur. For guaranteed specification and test conditions, see the
Electrical Characteristics. The guaranteed specifications apply only for the test conditions listed.
2.
Line regulation is guaranteed up to the maximum input voltage
3.
XX represents all output voltages
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AMS2115
FAST TRANSIENT RESPONSE LOW DROPOUT REGULATOR
Typical Performance Characteristics
haracteristics (TA = 25°C unless otherwise specified)
Shutdown Current
Shutdown Current (µA)
Shutdown Voltage (V)
Shutdown Threshold
2.0
1.6
1.2
0.8
0.4
V OUT=2.5V
0.0
5
10
15
10.0
7.5
5.0
2.5
V OUT=2.5V
0.0
20
5
10
Input Voltage(V)
15
20
Ambient Temperature (ºC)
Shutdown Temperature Variation
Shutdown Voltage (V)
Hystersis Voltage (V)
Shutdown Hystersis
150
100
50
V OUT=2.5V
0
3.0
2.5
2.0
1.5
1.0
V OUT=2.5V
0.5
0.0
5
10
15
20
-50
-10
Input Voltage (V)
Output Voltage (V)
Output Voltage (V)
2
1.5
1
0.5
0
1
2
3
4
Output Current Iout (A)
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110
150
Sense Trip Level vs. Output Voltage
VIN = 5V, VCC=12V
3
2.5
0
70
Ambient Temperature (ºC)
VI Foldback VIN = 5V, VCC=12V,
Vout=2.5V, Rsense=21mOhm
3
30
5
6
2.5
2
1.5
1
0.5
0
0
20
40
60
80
100
120
Trip Voltage (mV)
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AMS2115
FAST TRANSIENT RESPONSE LOW DROPOUT REGULATOR
Trip Voltage (mV)
200
V IN=12V
160
120
80
40
V OUT=2.5V
V IN=5V
Quiescent Current (mA)
Quiescent Current
Current Limit Temperature Variation
0
-50
-10
30
70
110
10
8
6
4
2
0
-50
150
-10
30
70
110
150
Ambient Temperature (ºC)
Output Voltage Temperature
Variation
1.6
FB Voltage Temperature Variation
Output Voltage Error (%)
Output Voltage Error (%)
Ambient Temperature (ºC)
0.8
0.0
-0.8
IOUT=0
V OUT=2.5V
-1.6
-50
-10
30
70
110
1.6
0.8
0.0
-0.8
IOUT=0
V OUT=2.5V
=3.3V
-1.6
150
-50
Ambient Temperature (ºC)
Quiescent Current (mA)
Feedback Current (µA)
8
6
4
IOUT=0
V OUT=2.5V
0
-10
30
70
110
110
150
150
10
8
6
4
2
0
-50
Ambient Temperature (ºC)
11/04/2010
70
Quiescent Current
FB Current Temperature Variation
-50
30
Ambient Temperature (ºC)
10
2
-10
-10
30
70
110
150
Ambient Temperature (ºC)
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AMS2115
FAST TRANSIENT RESPONSE LOW DROPOUT REGULATOR
Load Transient RLoad from 10 Ohm to 0.5 Ohms
Vin=5V, Vcc=12V, Vout=2.5V, Co=22µF
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AMS2115
FAST TRANSIENT RESPONSE LOW DROPOUT REGULATOR
Functional Block Diagram
80mV
SHDN
8
IPOS
7
INEG
1
Vin
2
GND
3
FB
4
Start-Up
Vref
1.21V
6 Gate
5
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AMS2115
FAST TRANSIENT RESPONSE LOW DROPOUT REGULATOR
Device Summary
The AMS2115 is a high speed, high current LDO
controller designed to drive an external N-Channel
MOSFET pass stage. An external resistor senses the
load current to provide current limit. The output
voltage is sensed through an external resistive divider
that feeds the negative input to an internal
transconductance error amplifier. The output of the
error amplifier is pinned out so that external
compensation can be adapted to the specific
application. A separate high voltage Vcc input
provides sufficient gate drive for low input voltage
applications. The error amplifier regulates the output
voltage by modulating the gate voltage of the external
N Channel MOSFET. External compensation allows
the converter to be stabilized with a low ESR ceramic
output capacitor.
Application
Enable
The LDO enable (S/D input pin) threshold is 1.2V with
about 150mV of hysteresis. A high voltage applied to
the S/D input enables the LDO controller.
Fault Protection
A current limit controller senses the pass transistor
current through an external resistor tied to pins IPOS
and INEG. The current limit threshold voltage is about
50mV. The initial current limit current limit point is
50mV divided by the external sense resistor.
Ilimit= Vos Rsense
For applications with large load transients an
additional capacitance may be required to keep the
output voltage within reasonable limits during large
load transients. In this case the required capacitance
can be examined for the load application and load
removal.
Input Capacitor
The bulk input capacitance required in the form of low
cost high ESR aluminum or tantalum electrolytic
capacitors will vary with the load transient
requirements for the specific applications. Small low
ESR ceramic input capacitors ranging from 10 to
22uF placed close to the input of the LDO are typically
a sufficient compliment to the bulk capacitance of the
converter feeding the input to this LDO.
Feedback Resistor Selection
The LDO controller uses a 1.25V reference voltage at
the positive terminal of the internal error amplifier. To
set the output voltage a programming resistor form
the feedback node to ground must first be selected
(R2, R3 of figure 4). A 10kΩ resistor is a good
selection for a programming resistor. A higher value
could result in an excessively sensitive feedback node
while a lower value will draw more current and
degrade the light load efficiency. The equation for
selecting the voltage specific resistor is:
R2= Vout
-1 ·R3
Vref
=
2.5V
1.25V
-1 ·10kΩ=10kΩ
Table 2. Feedback Resistor values
50mV
=7.14A
=
7mΩ
For an accurate current limit, the PCB traces for IPOS
and INEG should connect to the resistor directly at the
resistor in a Kelvin connection manner. This will
prevent the drop associated with the high current PCB
traces creating an error in the sense voltage.
For applications that require extremely low drop
out, and do not require the current limit protection
feature of the AMS2115, the current sense resistor
can be eliminated and Ipos and Ineg shorted together.
Vout (V)
2.5
5.0
3.3
R2 (kΩ)
(R3=10kΩ)
10.0
30.9
16.5
Compensation
External compensation is comprised of a lead-lag
network (R5, C5, and C8 of the schematic shown
figure 3) tied to the output of the internal error
amplifier.
Output Capacitor
A low ESR X5R or X7R type ceramic capacitor is
sufficient for most applications. When selecting a
ceramic output capacitor always consider the voltage
rating and the capacitance voltage coefficient. For
most applications the output capacitor required
ranges from 10 to 22uF.
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AMS2115
FAST TRANSIENT RESPONSE LOW DROPOUT REGULATOR
Figure 1: AMS2115 Evaluation Board Top Side
Figure 2: AMS2115 Evaluation Board Bottom Side
J7
1
2
1
2
Vin
Enable
C1
U1
1
2
Vcc
3
4
S/D
AMS2115
VIN
INEG
GND
GATE
FB
R1
7 mOhm
8
IPOS
22uF
C2
220uF
gnd
7
COMP
6
R2
5
10
Q1
Si4160
Vout
FB
C4
1uF
R3
10k
C8
10pF
C3
1nF
C5
1nF
R5
7.5k
R4
10k
C6
C7
22uF
22uF
gnd
gnd
Figure 3: AMS2115 Evaluation Board Schematic
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AMS2115
FAST TRANSIENT RESPONSE LOW DROPOUT REGULATOR
Table 3: AMS2115 Evaluation Board Bill of Materials
Value
Manufacturer
Manufacturer Part Number
Component
C2
C1,C6,C7
C4
R1,R6
2.5V
R3
5V
1.2V
R4
Q1
U1
220µF, Electrolytic
22µF, 10V, X5R, 0805, Ceramic
1µF
7mΩ 1/4Watt 1206
30.9kΩ, 0.1W, 0603 1%
88.7kΩ, 0.1W, 0603 1%
113kΩ, 0.1W, 0603 1%
10.0kΩ, 0.1W, 0603 1%
Si4160
LDO Controller
Taiyo Yuden
LMK212BJ226MG-T
Vishay/Dale
Various
Various
Various
Various
Diodes Inc.
AMS
WSLC-.007TR
CRCW0603xxKxFKEA
CRCW0603xxKxFKEA
CRCW0603xxKxFKEA
CRCW060310K0FKEA
AMS2115 SO8
Ordering Information
Device
(1)(2)
AMS2115S
Package
SO-8
Voltage Tolerance (VOUT)
±2%
Notes:
1. Available in tape and reel only. A reel contains 2,500 devices.
2. Available in lead-free package only. Device is fully WEEE and RoHS compliant
Outline Drawing and Landing Pattern
Package dimensions are inches (millimeters) unless otherwise noted.
8 LEAD SOIC PLASTIC PACKAGES (S)
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