Richtek RT8015GSP, RT8015PSP Schematic [ru]
2A, 2MHz, Synchronous Step-Down Regulator
RT8015
General Description
The RT8015 is a high efficiency synchronous, step-down
DC/DC converter. Its input voltage range is from 2.6V to
5.5V and provides an adjustable regulated output voltage
from 0.8V to 5V while delivering up to 2A of output current.
The internal synchronous low on-resistance power
switches increase efficiency and eliminate the need for
an external Schottky diode. Switching frequency is set
by an external resistor or can be synchronized to an
external clock. 100% duty cycle provides low dropout
operation extending battery life in portable systems.
Current mode operation with external compensation
allows the transient response to be optimized over a wide
range of loads and output capacitors.
RT8015 operation in forced continuous PWM Mode which
minimizes ripple voltage and reduces the noise and RF
interference. 100% duty cycle in Low Dropout Operation
further maximize battery life.
Features
l High Efficiency : Up to 95%
l Low R
l Programmable Frequency : 300kHz to 2MHz
l No Schottky Diode Required
l 0.8V Reference Allows Low Output Voltage
l Forced Continuous Mode Operation
l Low Dropout Operation : 100% Duty Cycle
l RoHS Compliant and 100% Lead (Pb)-Free
Internal Switches : 110mΩ
DS(ON)
Applications
l Portable Instruments
l Battery-Powered Equipment
l Notebook Computers
l Distributed Power Systems
l IP Phones
l Digital Cameras
Pin Configurations
Ordering Information
RT8015
Package Type
SP : SOP-8 (Exposed Pad-Option 2)
Lead Plating System
P : Pb Free
G : Green (Halogen Free and Pb Free)
Note :
Richtek products are :
} RoHS compliant and compatible with the current require-
ments of IPC/JEDEC J-STD-020.
} Suitable for use in SnPb or Pb-free soldering processes.
(TOP VIEW)
SHDN/RT
GND
PGND
2
3
LX
4
SOP-8 (Exposed Pad)
GND
8
COMP
7
FB
6
VDD
9
5
PVDD
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RT8015
Typical Application Circuit
L1
2.6V to 5.5V
V
IN
C
IN
22uF
R
OSC
332k
5
PVDD
6
VDD
4
PGND
1
SHDN/RT
RT8015
LX
FB
COMP
GND
Note : Using all Ceramic Capacitors
Recommended Component for Different Output V oltage Applications
V
L1 (uH) C
OUT
(uF) R1 (kΩ) R2 (kΩ) R
OUT
3.3V 2.2 22 750 240 13 1
2.5V 2.2 22 510 240 13 1
1.8V 1.0 22 300 240 7.5 1.5
1.2V 1.0 22 120 240 7.5 1.5
2.2uH
3
7
R
COMP
8
2,
Exposed
Pad (9)
COMP
13k
(kΩ) C
C
COMP
1nF
COMP
(nF)
R1
510k
R2
240k
C
OUT
22uF
V
OUT
2.5V/2A
Functional Pin Description
Pin No. Pin Name Pin Fu nction
1 SHDN/RT
2,
9 (Ex posed Pad)
3 LX Internal Power MOSFET Switches Output. Connect this pin to the inductor.
4 PGND Power Ground. Connect this pin close to the (−) terminal of CIN and C
5 PVDD Power Input Supply. Decouple this pin to PGND with a capac itor.
6 VDD
7 FB
8 COMP
GND
Oscillator Resistor Input. Connecting a resistor to ground from this pin sets the
switching frequency. For cing this pin to V
Signal Ground. All small-signal components and compensation components should
connect to this ground, which in turn connects to PGND at one point. The exposed
pad must be soldered to a large P CB and connected to GND for maximum power
dissipation.
Signal Input Supply. Decouple this pin to GND with a capacitor. Normally V
equal to PVD D.
Feedback Pin. Receives the feedback voltage from a resistive divider connected
across the output.
Error Amplifier Compensation Point. The current comparator threshold increases
with this control voltage. Connect external compensation elements to this pin to
stabilize the control loop.
causes the device to be shut down.
DD
OUT
.
is
DD
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Function Block Diagram
RT8015
SHDN/RT
COMP
FB
0.8V
POR
VDD
EA
Int-SS
SD
Output
Clamp
0.9V
0.7V
0.4V
OSC
Slope
Com
ISEN
OC
Limit
Driver
Control
Logic
NISEN
NMOS I Limit
REF
OTP
V
PVDD
LX
PGND
GND
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RT8015
Operation
Main Control Loop
The RT8015 is a monolithic, constant-frequency, current
mode step-down DC/DC converter. During normal
operation, the internal top power switch (P-Channel
MOSFET) is turned on at the beginning of each clock
cycle. Current in the inductor increases until the peak
inductor current reach the value defined by the voltage on
the COMP pin. The error amplifier adjusts the voltage on
the COMP pin by comparing the feedback signal from a
resistor divider on the FB pin with an internal 0.8V
reference. When the load current increases, it causes a
reduction in the feedback voltage relative to the reference.
The error amplifier raises the COMP voltage until the
average inductor current matches the new load current.
When the top power MOSFET shuts off, the synchronous
power switch (N-Channel MOSFET) turns on until either
the bottom current limit is reached or the beginning of the
next clock cycle.
The operating frequency is set by an external resistor
connected between the RT pin and ground. The practical
switching frequency can range from 300kHz to 2MHz.
Power Good comparators will pull the PGOOD output low
if the output voltage comes out of regulation by 12.5%. In
an over-voltage condition, the top power MOSFET is turned
off and the bottom power MOSFET is switched on until
either the over-voltage condition clears or the bottom
MOSFET's current limit is reached.
Frequency Synchronization
The internal oscillator of the RT8011 can be synchronized
to an external clock connected to the SYNC pin. The
frequency of the external clock can be in the range of
300kHz to 2MHz. For this application, the oscillator timing
resistor should be chosen to correspond to a frequency
that is about 20% lower than the synchronization
frequency.
The output voltage will then be determined by the input
voltage minus the voltage drop across the internal
P-Channel MOSFET and the inductor.
Low Supply Operation
The RT8015 is designed to operate down to an input supply
voltage of 2.6V. One important consideration at low input
supply voltages is that the R
N-Channel power switches increases. The user should
calculate the power dissipation when the RT8015 is used
at 100% duty cycle with low input voltages to ensure that
thermal limits are not exceeded.
Slope Compensation and Inductor Peak Current
Slope compensation provides stability in constant
frequency architectures by preventing sub-harmonic
oscillations at duty cycles greater than 50%. It is
accomplished internally by adding a compensating ramp
to the inductor current signal. Normally, the maximum
inductor peak current is reduced when slope compensation
is added. In the RT8015, however, separated inductor
current signals are used to monitor over current condition.
This keeps the maximum output current relatively constant
regardless of duty cycle.
Short Circuit Protection
When the output is shorted to ground, the inductor current
decays very slowly during a single switching cycle. A
current runaway detector is used to monitor inductor
current. As current increasing beyond the control of current
loop, switching cycles will be skipped to prevent current
runaway from occurring.
of the P-Channel and
DS(ON)
Dropout Operation
When the input supply voltage decreases toward the output
voltage, the duty cycle increases toward the maximum
on-time. Further reduction of the supply voltage forces
the main switch to remain on for more than one cycle
eventually reaching 100% duty cycle.
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DS8015-03 March 2011www.richtek.com
RT8015
Absolute Maximum Ratings (Note 1)
l Supply Input Voltage, VDD, PVDD---------------------------------------------------------------------------−0.3V to 6V
l LX Pin Switch Voltage------------------------------------------------------------------------------------------−0.3V to (PVDD + 0.3V)
l Other I/O Pin Voltages------------------------------------------------------------------------------------------−0.3V to (VDD + 0.3V)
l LX Pin Switch Current-------------------------------------------------------------------------------------------4A
l Power Dissipation, P
SOP-8 (Exposed Pad)-----------------------------------------------------------------------------------------1.33W
l Package Thermal Resistance (Note 2)
SOP-8 (Exposed Pad), θJA------------------------------------------------------------------------------------75°C/W
SOP-8 (Exposed Pad), θJC------------------------------------------------------------------------------------15°C/W
l Junction Temperature-------------------------------------------------------------------------------------------150°C
l Lead Temperature (Soldering, 10 sec.)----------------------------------------------------------------------260°C
l Storage Temperature Range-----------------------------------------------------------------------------------−65°C to 150°C
l ESD Susceptibility (Note 3)
HBM (Human Body Mode)-------------------------------------------------------------------------------------2kV
MM (Machine Mode)--------------------------------------------------------------------------------------------200V
Recommended Operating Conditions (Note 4)
@ TA = 25°C
D
l Supply Input Voltage--------------------------------------------------------------------------------------------2.6V to 5.5V
l Junction Temperature Range----------------------------------------------------------------------------------
l Ambient Temperature Range----------------------------------------------------------------------------------
−40°C to 125°C
−40°C to 85°C
Electrical Characteristics
(V
= 3.3V, T
DD
Input Voltage Range VDD 2.6 -- 5.5 V
Feedback Reference Voltage V
DC Bias Current
Output Voltage Line Regulation VIN = 2.7V to 5.5V -- 0.04 -- %/V
Output Voltage Load Regulation 0A < I
Error Amplifier
Transconductance
Current Sense Transresistance RT -- 0.4 -- Ω
Power Good Range -- ±12.5 ±15 %
Power Good Pull-Down
Resistance
Switching Frequency
= 25°C, unless otherwise specified)
A
Parameter Symbol
0.784 0.8 0.816
REF
Active , VFB = 0.78V, Not Switching -- 460 -- µA
Shutdown -- -- 1 µA
gm -- 800 -- us
-- -- 120 Ω
R
Switching Frequency 0.3 -- 2 MHz
Test Conditions Min Typ Max Unit
< 2A -- 0.25 -- %
LOAD
= 332k 0.8 1 1.2 MHz
OSC
V
Sync Frequency Range 0.3 -- 2 MHz
To be continued
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