ETC RE027

Features
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Low-noise Low Drop Out Voltage Regulator
2.8V Fixed Output Voltage
3V to 5.5V Supply Operation
130 mA Maximum Load Current
Power-down Mode Consumption Less Than 1 µA
More Than 70 dB (Typical) PSRR at 1 kHz
29 µVRMS Output Noise
0.35 µm CMOS Technology
Typical Application: Radio Section Supply in Mobile Terminals
Description
RE027 is a Low Drop Out (LDO) voltage regulator macrocell with a fixed 2.8V output
voltage, rated for loads up to 130 mA. It is designed to be integrated with other analog
cells, digital logic, microcontrollers, DSP cores and memory blocks into system-onchip products.
The circuit consists of a PMOS pass device, an error amplifier and a feedback resistive network, sized to achieve the required closed loop gain. These blocks make up
the regulating loop. An over-current and short circuit protection circuit has been
included to limit the output current delivered by the regulator, thus avoiding destruction
in case of a short circuit.
An external reference voltage (bandgap voltage) is necessary for correct functionality.
The target reference voltage is 1.231V delivered, for example, by BG019. Double pads
on the supply voltage VBAT3B/VBAT3BB and output voltage VCRADIOA/VCRADIOAA are used
to reduce the total output resistance. Current reference is generated inside the cell
through a circuit supplied by a 2.5V ± 0.1V regulated input voltage on VSAUVC. Remote
sense terminal VCRADIOS provides regulation at the load by connecting it to the output
terminal near a critical point to improve performance of the regulator (e.g., connecting
them at the package pin by double-bonding, thus avoiding the bonding resistance
influence). A capacitor of 2.2 µF connected from V CRADIOA/V CRADIOAA to ground is
needed as external compensation.
Figure 1. Symbol(1)
vsauvc
vbg
Embedded ASIC
Macrocell:
Power
Management for
Mobile
Terminals (PM)
RE027
Fixed 2.8V
130 mA
Low-noise LDO
Voltage
Regulator
vbat3b
vbat3bb
vcradioa
vcradioaa
on6
vcradioc
Note:
vcradios
gnd3
1. Pin names are written as they appear on the user screen when the symbol is
opened in the design tool environment.
Rev. 2701B-PMGMT–02/03
1
Functional Diagram
Figure 2. Functional Diagram
VBAT3B
VBAT3BB
VSAUVC
ON6
ON6
IBIAS
VBG
ON6
Pass
Device
VCRADIOC
VCRADIOA
GND3
VCRADIOAA
VCRADIOS
GND3
ON6
Current
Sensing and
Limiter
R1
GND3
R2
ON6
GND3
Pin Description
Pin Name
I/O
Type
Function
Value
VBAT3B
Power supply
External pad
Power supply
3V to 5.5V
VBAT3BB
Power supply
External pad
Power supply
3V to 5.5V
VCRADIOA
Analog output
External pad
Output voltage
2.75V to 2.85V
VCRADIOAA
Analog output
External pad
Output voltage
2.75V to 2.85V
VCRADIOS
Analog input
External pad
Sense voltage
2.75V to 2.85V
VCRADIOC
Analog output
Internal pin
Output voltage
2.75V to 2.85V
GND3
Ground
Internal pin
Ground
0
VSAUVC
Power supply
Internal pin
Power supply
2.5V ± 0.1V
VBG
Analog input
Internal pin
Voltage reference
1.231V
ON6
Digital input
Internal pin
Enable command
0V or VBAT3B/VBAT3BB
2
RE027 2.8V 130 mA LDO Voltage Regulator
2701B–PMGMT–02/03
RE027 2.8V 130 mA LDO Voltage Regulator
Absolute Maximum Ratings*
VIN .......................................................... -0.3V to 6.5V
*NOTICE:
Digital Signals......................................... -0.3V to 5.5V
Output Current..................................Internally Limited
Junction Temperature ..........................-40°C to 150°C
Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the
device. This is a stress rating only and functional
operation of the device at these or other conditions
beyond those indicated in the operational sections of
this specification is not implied. Exposure to absolute
maximum rating conditions for extended periods may
affect device reliability.
Electrical Specifications(1)
TJ = -20°C to 125°C, VBAT3B/VBAT3BB = 3V to 5.5V unless otherwise specified, output capacitance = 2.2 µF.
Table 1. Electrical Characteristics
Symbol
Parameter
Condition
Max
Unit
VBAT3B/VBAT3BB
Operating Supply Voltage
3
5.5
V
VSAUVC
Auxiliary Operating Supply
Voltage
2.4
2.6
V
TJ
Junction Temperature Range
-20
125
°C
VCRADIOA/
VCRADIOAA
Output Voltage
2.75
2.85
V
ICRADIOA/
ICRADIOAA
Output Current
130
mA
IQQ
Quiescent Current
195
236
µA
∆VDC
Line Regulation
ICRADIOA/ICRADIOAA = 130 mA
2
3
mV
∆VTRAN
Transient Line Regulation
ICRADIOA/ICRADIOAA = 130 mA
rise time = fall time = 5 µs
2
3
mV
∆VDC
Load Regulation
10% - 90% of max ICRADIOA/ICRADIOAA;
VBAT3B/VBAT3BB = 5.5V
2
3
mV
∆VTRAN
Transient Load Regulation
10% - 90% of max ICRADIOA/ICRADIOAA;
rise time = fall time = 5 µs
2
3
mV
VBAT = 3V
PSRR
Power Supply Rejection Ratio
at Full Load
VBAT = 4.25V
VBAT = 5.5V
Min
Typ
2.5
2.8
@100 Hz
-75
dB
@1 kHz
-75
dB
@20 kHz
-50
dB
@100 kHz
-40
dB
@100 Hz
-75
dB
@1 kHz
-75
dB
@20 kHz
-70
dB
@100 kHz
-55
dB
@100 Hz
-75
dB
@1 kHz
-75
dB
@20 kHz
-70
dB
@100 kHz
-55
dB
3
2701B–PMGMT–02/03
Table 1. Electrical Characteristics (Continued)
Symbol
Parameter
Condition
(2)
VN
Output Noise
TR
Rise Time
ISD
Shut Down Current
ICC
Short-circuit Current Threshold
Notes:
4
Min
Bandwidth = 10 Hz to 100 kHz;
output current = 130 mA
100% of ICRADIOA/ICRADIOAA;
10% - 90% of VCRADIOA/VCRADIOAA
Typ
Max
Unit
29
37
µ VRMS
50
µs
1
µA
460
mA
1. Obtained by considering the parasitics of a TFBGA100 Package.
2. Obtained by using BG019 as reference voltage generator.
RE027 2.8V 130 mA LDO Voltage Regulator
2701B–PMGMT–02/03
RE027 2.8V 130 mA LDO Voltage Regulator
Control Modes
All digital signals are referred to the supply voltage VBAT3B/BAT3BB.
Table 2. Truth Table
Application
Example
ON6
VCRADIOA/VCRADIOAA
0
Power down (High-Z)
1
Power on, VCRADIOA/VCRADIOAA = 2.8V
A ceramic capacitor of 2.2 µF with ESR between 20 mΩ and 250 mΩ connected from
VCRADIOA/VCRADIOAA to ground is needed for external compensation.
Description
Min
Typ
Max
Units
Capacitor (CL)
1.8
2.2
2.6
µF
Figure 3. Application Example
2.5V Regulator
(e.g., RE031)
2.5V
VSAUVC
VBAT3B
VBAT3BB
1.231V Bandgap
(e.g., BG019)
VBG
Battery
Pack
VCRADIOA
VCRADIOAA
VCRADIOS
Digital
Core
CL
ON6
VCRADIOC
GND3
5
2701B–PMGMT–02/03
Typical Performance Characteristics (Conditions specified on page 8)
Static Line Regulation at Full Load
S ta tic L o a d R e g u la tio n
3.5
3.0
0.05
O u tp u t V o lta g e C h a n g e [m V ]
Output Voltage Change [mV]
0.10
0.00
-0.05
-0.10
-0.15
2.5
2.0
1.5
V B A T = 4.25V
1.0
0.5
V B A T = 5.5V
0.0
-0.5
V B A T = 3V
-0.20
-1.0
3
3.5
4
4.5
5
5.5
0
10
20
30
40
Battery Voltage [V]
50
60
70
80
90
100 110 120 130
O u tp u t C u rre n t [m A ]
Transient Load Regulation
Transient Line Regulation at Full Load
2.806
2.802
2.801
Output Voltage [V]
Output Voltage [V]
2.805
2.800
2.799
2.804
2.803
2.802
VBAT = 3V
VBAT = 5.5V
2.801
2.800
2.799
VBAT = 4.25V
2.798
0.35
0.4
0.45
Time [ms]
6
0.5
0.55
2.798
0.35
0.4
0.45
0.5
0.55
Time [ms]
RE027 2.8V 130 mA LDO Voltage Regulator
2701B–PMGMT–02/03
RE027 2.8V 130 mA LDO Voltage Regulator
Typical Performance Characteristics (Conditions specified on page 8)
P o w e r S u p p ly R e je ctio n Ra tio a t F u ll L o a d
P o w e r S u p p ly R e je ctio n R a ti o a t F u ll L o a d
ve rsu s B a tte ry V o lta g e
10
100
1000
10000
100000
3.0
-30
-35
4.0
4.5
5.0
5.5
-40
V B A T = 3V
-40
-50
-45
-60
-50
-55
P S RR [d B]
PSRR [ d B]
3.5
-30
V B A T = 4.25V
-60
V B A T = 5.5V
-65
-70
F req = 1 k Hz
-80
-90
F req = 20 k Hz
F req = 100 k Hz
-100
-70
-110
-75
F req = 100 Hz
-120
-80
B a tte ry V o lta g e [V ]
Fr e q [ Hz ]
O u tp u t N o ise S p e ctru m a t F u ll L o a d a n d V B AT = 4.25V
L D O S ta rtu p a t F u ll L o a d fo r V B AT = 4 . 25 V
1.0E -11
5
O u tp u t N o ise [V /sq rt(H z )]
4.5
4
V o l ta g e [V ]
3.5
O N6
3
2.5
2
O utput V oltage
1.5
1
Total Output Nois e 29 µ V R MS
1.0E -12
1.0E -13
1.0E -14
0.5
1.0E -15
0
0
20
40
60
T i m e [ µ s]
80
100
10
100
1000
10000
100000
F re q [Hz ]
7
2701B–PMGMT–02/03
Terminology
Line Regulation
Measures the maximum transient and DC variations of the output voltage of the LDO when the
supply changes between two specified values with fixed load current; minimum rise time and
fall time is 5 µs.
Figure 4. Line Regulation
3.4V
VBAT3B/VBAT3BB
3V
5 µs
5 µs
VCRADIOA/VCRADIOAA ∆VTRAN
∆VDC
Load Regulation
Measures the maximum transient and DC variations of the output voltage of the LDO when the
load current changes between two specified values with fixed power supply; minimum rise
time and fall time is 5 µs.
Figure 5. Load Regulation
90% of max ICRADIOA/ICRADIOAA
ICRADIOA/ICRADIOAA
10% of max ICRADIOA/ICRADIOAA
5 µs
5 µs
∆VTRAN
VCRADIOA/VCRADIOAA
∆VDC
8
RE027 2.8V 130 mA LDO Voltage Regulator
2701B–PMGMT–02/03
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Printed on recycled paper.
2701B–PMGMT–02/03
0M