E-CMOS EC8320 2a low dropout regulator with enable Datasheet

2A Low Dropout Regulator with Enable
General Description
EC8320
Features
The EC8320 is a high performance positive voltage
● Adjustable Output Low to 0.8V
regulator designed for use in applications requiring very
● Input Voltage as Low as 1.6V and VPP Voltage 5V
low Input voltage and very low dropout voltage at up to 2
● 240mV Dropout @ 2A
amps. It operates with a VIN as low as 1.6V and VPP
● Over Current and Over Temperature Protection
voltage 5V with output voltage programmable as low as
● Enable Pin
0.8V. The EC8320 features ultra low dropout, ideal for
● Low Reverse Leakage (Output to Input )
applications where VOUT is very close to VIN.
● Power SOP-8(EP) Packages with Thermal Pad
Additionally, the EC8320 has an enable pin to further
● ±2% Output Voltage
reduce power dissipation while shutdown. The EC8320
● VO Power OK Signal
provides excellent regulation over variations in line,
● 1.2V, 1.5V, 1.8V, 2.5V Options and Adjustable
load and temperature. The EC8320 provides a power OK
● Externally Using Resistors
signal to indicate if the voltage level of VO reaches
● VO Pull Low Resistance when Disable
92% of its rating value.
The EC8320 is available in the power SOP-8(Exposed
PAD) package. It is available with 1.2V, 1.5V, 1.8V and
2.5V internally preset outputs that are also adjustable
using external resistors.
Applications
● Motherboards
● Peripheral Cards
● Network Cards
● Set Top Boxes
● Notebook Computers
Pin Assignments
E-CMOS Corp. (www.ecmos.com.tw)
Page 1 of 16
3G18N-Rev.P001
2A Low Dropout Regulator with Enable
EC8320
Pin Description
PIN
NAME
Description
1
PGOOD
Assert high once VO reaches 92% of its rating voltage. Open-drain output.
2
EN
Enable Input. (Active High)
3
VIN
Input voltage. Large bulk capacitance should be placed closely to this pin.
A 10µF ceramic capacitor is recommended at this pin.
4
VDD
Input voltage for controlling circuit.
5
NC
Not connected.
6
VOUT
The power output of the device. A pull low resistance exists when deactivate
device by VEN.
7
ADJ
This pin, EC8320A/B when grounded, sets the output voltage by the internal
feedback resistors.If external feedback resistors are used, the output voltage
will be VO = 0.8(R1+R2)/R2 Volts.
8
GND
Reference ground.
Ordering Information
Part Number
Package
Marking
8320A
XXLLL
YYWWT
EC8320AXXMHR
SOP-8
(Exposed PAD)
EC8320BXXMHR
E-CMOS Corp. (www.ecmos.com.tw)
8320B
XXLLL
YYWWT
Page 2 of 16
Marking Information
1.XX: Output Voltage(Ex- 12:1.2V;AJ:ADJ)
2. LLL: Last three number of Lot No
3. YYWW: Date Code
4. T: Internal Tracking Code
3G18N-Rev.P001
2A Low Dropout Regulator with Enable
EC8320
Package Types
Figure 1. Package Types of EC8320
Function Block Diagram
Figure2:Functional Block Diagram of EC8320
E-CMOS Corp. (www.ecmos.com.tw)
Page 3 of 16
3G18N-Rev.P001
2A Low Dropout Regulator with Enable
EC8320
Absolute Maximum Ratings
Parameter
Rating
Unit
VCNTL Supply Voltage (VCNTL to GND)
-0.3 ~ 6
V
VIN Supply Voltage (VIN to GND)
-0.3 ~ 6
V
VOUT to GND Voltage
-0.3 ~ VIN+0.3
V
PGOOD to GND Voltage
-0.3 ~ 7
V
EN, ADJ to GND Voltage
-0.3 ~ VCNTL+0.3
V
Power Dissipation
Internally Limited
Maximum Junction Temperature
150
℃
Storage Temperature Range
-65°C ≤TJ ≤ +150
℃
Lead Temperature (soldering, 10sec)
260
℃
Thermal Resistance Junction to Ambient
50
℃/W
Thermal Resistance Junction to Case
20
℃/W
Operating Temperature Range
-40 to +125
℃
Storage Temperature
-65 to +150
℃
ESD Rating (Human Body Model)
2000
V
Note1: Stresses greater than those listed under Maximum Ratings may cause permanent damage to the device. This is a stress rating only and
functional operationof the device at these or any other conditions above those indicated in the operation is not implied. Exposure to absolute
maximum rating conditions for extended periods may affect reliability.
Recommended Operating Conditions
Symbol
Parameter
Range
Unit
VDD
VCNTL Supply Voltage
3.0 ~ 5.5
V
VIN
VIN Supply Voltage
1.2 ~ 5.5
V
VOUT
VOUT Output Voltage (when VCNTL-VOUT>1.7V)
0.8 ~ VIN – VDROP
V
IOUT
VOUT Output Current
0~2
A
R2
ADJ to GND
1K ~ 24K
Ω
COUT
VOUT Output Capacitance
IOUT = 2A at 25% nominal VOUT
8~770
IOUT = 1A at 25% nominal VOUT
8~1400
IOUT = 0.5A at 25% nominal VOUT
8~1700
uF
ESRCOUT
ESR of VOUT Output Capacitor
0 ~ 200
mΩ
TA
Ambient Temperature
-40 ~ 85
ºC
TJ
Junction Temperature
-40 ~ 125
ºC
E-CMOS Corp. (www.ecmos.com.tw)
Page 4 of 16
3G18N-Rev.P001
2A Low Dropout Regulator with Enable
EC8320
Electrical Characteristics
Note:Refer to the typical application circuits. These specifications apply over VCNTL=5V, VIN=1.8V, VOUT=1.2V, and TA= -40 ~ 85℃,
unless otherwise specified.Typical values are at TJ=25℃.
Symbol
Parameter
Test Conditions
Min.
Typ.
Max.
Unit
POR Threshold
2.4
2.7
3
V
POR Hysteresis
0.15
0.2
VTH_ADJ
Adjustable Pin Threshold
IOUT=1mA
VADJ
Reference Voltage
IOUT=1mA
ΔVOUT
Fixed Output Voltage Range
ΔVLINE_IN
Line Regulation(VIN)
V
0.2
0.4
V
0.784
0.8
0.816
V
-2
0
+2
%
0.2
0.6
%
0.1
1
%
VIN=VOUT+0.5V TO 5V
IOUT=1mA
ΔVLOAD
Load Regulation
VIN=VOUT+1V
IOUT=1mA TO 2A
VDROP
Dropout Voltage
IOUT= 2A
150
250
mV
IQ
Quiescent Current
VDD=5.5V
0.6
1.2
mA
ILIM
Current Limit
2.8
3.2
A
0.5
1.8
A
Short Circuit Current
VOUT<0.2V
In-rush Current
COUT=10uF,Enable Start-up
0.6
A
VOUT Pull-Low Resistance
VEN=0V
150
Ω
uA
Chip Enable
IEN
EN Input Bias Current
VEN=0V
12
ISHDN
VDD Shutdown Current
EC8320A
10
EC8320B
VENL
EN Threshold
20
uA
1
Logic-Low Voltage
-
-
0.2
V
Logic-High Voltage
1.2
90
93
%
10
-
%
0.2
0.4
V
0.5
1.5
5
mS
Power Good
PGOOD Rising Threshold
PGOOD Hysteresis
3
PGOOD Sink Capability
IPGOOD=10mA
PGOOD Delay
Thermal Protection
TSD
Thermal Shutdown Temperature
-
160
-
℃
ΔTSD
Thermal Shutdown Hysteresis
-
30
-
℃
-
110
-
℃
Thermal
Shutdown
Temperature
VOUT<0.4V
Fold-back
E-CMOS Corp. (www.ecmos.com.tw)
Page 5 of 16
3G18N-Rev.P001
2A Low Dropout Regulator with Enable
EC8320
Typical Operating Characteristics
Short Current-Limit vs.
Junction Temperature
Current-Limit vs.
Junction Temperature
Dropout Voltage vs. Output Current
E-CMOS Corp. (www.ecmos.com.tw)
Dropout Voltage vs. Output Current
Page 6 of 16
3G18N-Rev.P001
2A Low Dropout Regulator with Enable
EC8320
Typical Operating Characteristics(Cont.)
Dropout Voltage vs. Output Current
Dropout Voltage vs. Output Current
Reference Voltage vs.
Junction Temperature
Dropout Voltage vs. Output Current
E-CMOS Corp. (www.ecmos.com.tw)
Page 7 of 16
3G18N-Rev.P001
2A Low Dropout Regulator with Enable
EC8320
Typical Operating Characteristics(Cont.)
VCNTL Power Supply
Rejection Ratio(PSRR)
E-CMOS Corp. (www.ecmos.com.tw)
VIN Power Supply Rejection
Ratio(PSRR)
Page 8 of 16
3G18N-Rev.P001
2A Low Dropout Regulator with Enable
EC8320
Operating Waveforms
Refer to the typical application circuit. The test condition is VIN=1.5V, VCNTL=5V, VOUT=1.2V, TA= 25℃ unless otherwise specified
Power On
Power Off
COUT=10uF, CIN=10uF, RL=0.6Ω /TIME: 5ms/Div
COUT=10uF, CIN=10uF, RL=0.6Ω / TIME: 10ms/Div
CH1: VCNTL, 5V/Div, DC/CH2: VIN, 1V/Div, DC
CH1: VCNTL, 5V/Div, DC/CH2: VIN, 1V/Div, DC
CH3: VOUT, 1V/Div, DC/CH4: VPOK, 5V/Div, DC
CH3: VOUT, 1V/Div, DC/CH4: VPOK, 5V/Div, DC
Load Transient Response
Over Current Protection
IOUT=10mA to 2A to 10mA (rise / fall time = 1us) COUT=10uF, CIN=10uF
COUT=10mF, CIN=10mF, IOUT=1A to 3.4A
CH1: VOUT, 50mV/Div, AC/CH4: IOUT, 1A/Div, DC/ TIME: 20us/Div
CH1: VOUT, 1V/Div, DC/ CH4: IOUT, 1A/Div, DC/ TIME: 0.2ms/Div
E-CMOS Corp. (www.ecmos.com.tw)
Page 9 of 16
3G18N-Rev.P001
2A Low Dropout Regulator with Enable
EC8320
Operating Waveforms(Cont.)
Refer to the typical application circuit. The test condition is VIN=1.5V, VCNTL=5V, VOUT=1.2V, TA= 25℃ unless otherwise specified
Shutdown
Enable
COUT=10mF, CIN=10mF, RL=0.6W/ TIME: 5us/Div
COUT=10mF, CIN=10mF, RL=0.6W/ TIME: 0.5ms/Div
CH1: VEN, 5V/Div, DC/CH2: VOUT, 1V/Div, DC
CH1: VEN, 5V/Div, DC/CH2: VOUT, 1V/Div, DC
CH3: VPOK, 5V/Div, DC/CH4: IOUT, 2A/Div, DC
CH3: VPOK, 5V/Div, DC/CH4: IOUT, 2A/Div, DC
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Page 10 of 16
3G18N-Rev.P001
2A Low Dropout Regulator with Enable
EC8320
Typical Application Circuit
Figure3:Fixed Voltage Regulator Application Circuit of EC8320A/B
Figure4:Adjustable Voltage Regulator Application Circuit of EC8320A/B
E-CMOS Corp. (www.ecmos.com.tw)
Page 11 of 16
3G18N-Rev.P001
2A Low Dropout Regulator with Enable
EC8320
Function Description
Power-On-Reset
A Power-On-Reset (POR) circuit monitors both of supply
Short Current-Limit Protection
voltages on VCNTL and VIN pins to prevent wrong logic
controls. The POR function initiates a soft-start process
The short current-limit function reduces the current-limit
after both of the supply voltages exceed their rising POR
level down to 0.8A (typical) when the voltage on ADJ pin
voltage thresholds during powering on. The POR
falls below 0.2V (typical) during current overload or
function also pulls low the POK voltage regardless of the
shortcircuit conditions.
output status when one of the supply voltages falls below
The short current-limit function is disabled for successful
its falling POR voltage threshold.
start-up during soft-start.
Internal Soft-Start
Thermal Shutdown
An internal soft-start function controls rise rate of the
A thermal shutdown circuit limits the junction temperature
Output voltage to limit the current surge during start-up.
of EC8320. When the junction temperature exceeds +170 ℃,
The typical soft-start interval is about 0.6ms.
a thermal sensor turns off the output NMOS, allowing the
device to cool down.
Output Voltage Regulation
The regulator regulates the output again through initiation
of a new soft-start process after the junction temperature
An error amplifier working with a temperature
compensated 0.8V reference and an output NMOS
cools by 50℃, resulting in a pulsed output during
continuous thermal overload conditions. The thermal
is designed with high bandwidth and DC gain provides
shutdown is designed with a 50 ℃ hysteresis to lower the
average junction temperature during continuous thermal
overload conditions, extending lifetime of the device.
very fast transient response and less load regulation. It
For normal operation, the device power dissipation
compares the reference with the feedback voltage and
should be externally limited so that junction temperatures
amplifies the difference to drive the output NMOS which
will not exceed +125 ℃.
regulates output to the preset voltage. The error amplifier
provides load current from VIN to VOUT.
Enable Control
Current-Limit Protection
The EC8320A/B has a dedicated enable pin (EN).
The EC8320 monitors the current flowing through the
EC8320A:A logic low signal applied to this pin shuts
output NMOS and limits the maximum current to prevent
down the output. Following a shutdown, a logic high
load and EC8320 from damages during current overload
signal re-enables the output through initiation of a new
conditions.
soft-start cycle. When left open, this pin is pulled up by
an internal current source (5uA typical) to enable normal
operation. It’s not necessary to use an external transistor
to Save Cost.
E-CMOS Corp. (www.ecmos.com.tw)
Page 12 of 16
3G18N-Rev.P001
2A Low Dropout Regulator with Enable
EC8320
Function Description(Cont.)
EC8320B: A logic low signal applied to this pin shuts
down the output. Following a shutdown, a logic high
signal re-enables the output through initiation of a new
soft-start cycle. When left open, this pin is pulled up by
an internal current source (5uA typical) to turn off
operation.
Power-OK and Delay
The EC8320 indicates the status of the output voltage by
monitoring the feedback voltage (VADJ) on ADJ pin. As the
VADJ rises and reaches the rising Power-OK voltage
threshold(VTHPOK), an internal delay function starts to
work. At the end of the delay time, the IC turns off the
internal NMOS of the POK to indicate the output is ok. As
the VADJ falls and reaches the falling Power-OK voltage
threshold, the IC turns on the NMOS of the POK ( after a
debounce time of 10ms typical ).
E-CMOS Corp. (www.ecmos.com.tw)
Page 13 of 16
3G18N-Rev.P001
2A Low Dropout Regulator with Enable
EC8320
Application Information
Input Capacitor
Power Sequencing
The EC8320 requires proper input capacitors to supply
The power sequencing of VIN and VCNTL is not
necessary to be concerned. However, do not apply a voltage
to VOUT for a long time when the main voltage applied at
VIN is not present. The reason is the internal parasitic diode
from VOUT to VIN conducts and dissipates power without
protections due to the forward-voltage.
current surge during stepping load transients to prevent
the input voltage rail from dropping. Because the
parasitic inductor from the voltage sources or other bulk
capacitors to the VIN pin limit the slew rate of the surge
currents, more parasitic inductance needs more input
capacitance.
Ultra-low-ESR capacitors (such as ceramic chip capacitors)
Output Capacitor
and low-ESR bulk capacitors (such as solid tantalum, POSCap,
The EC8320 requires a proper output capacitor to
and Aluminum electrolytic capacitors can all be used as
maintain stability and improve transient response. The
an input capacitor of VIN.
output capacitor selection is dependent upon ESR
For most applications, the recommended input capacitance
(equivalent series resistance) and capacitance of the
of VIN is 10uF at least. However, if the drop of the input
output capacitorover the operating temperature.
voltage is not cared, the input capacitance can be less
u
than 10uF.
More capacitance reduces the variations of the
Ultra-low-ESR capacitors (such as ceramic chip
supply voltage on VIN pin.
capacitors) and low-ESR bulk capacitors (such as solid
tantalum, POSCap, and Aluminum electrolytic capacitors)
Setting The Output Voltage
can all be used as output capacitors.
During load transients, the output capacitors which is
The output voltage is programmed by the resistor divider
depending on the stepping amplitude and slew rate of load
connected to ADJ pin. The preset output voltage is
current, are used to reduce the slew rate of the current seen
calculated by the following equation :
by the EC8320 and help the device to minimize the variations
of output voltage for good transient response. For the
applications with large stepping load current, the low-ESR bulk
capacitors are normally recommended.
where R1 is the risistor connected from VOUT to ADJ with
Decoupling ceramic capacitors must be placed at the load and
Kelvin sensing connection and R2 is the risistor connected
ground pins as close as possible and the impedance of the
from ADJ to GND. A bypass capacitor(C1) may be connected
layout must be minimized.
with R1 in parallel to improve load transient response and
stability.
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Page 14 of 16
3G18N-Rev.P001
2A Low Dropout Regulator with Enable
EC8320
Layout Consideration(See Figure A)
1. Please solder the Exposed Pad on the system ground pad
on the top-layer of PCBs. The ground pad must have wide size
to conduct heat into the ambient air through the system ground
plane and PCB as a heat sink.
2. Please place the input capacitors for VIN and VCNTL pins
near the pins as close as possible for decoupling
Thermal Consideration
Refer to the figure B, the SOP-8(EP) is a cost-effective
package featuring a small size like a standard SOP-8 and
a bottom exposed pad to minimize the thermal resistance
of the package, being applicable to high current applications
The exposed pad must be soldered to the top-layer ground
high-frequency ripples.
3. Ceramic decoupling capacitors for load must be placed
near the load as close as possible for decoupling
plane. It is recommended to connect the top-layer ground
pad to the internal ground plan by using vias. The copper of
the ground plane on the top-layer conducts heat into the PCB
high-frequency ripples.
and ambient air. Please enlarge the area of the top-layer pad
4. To place EC8320 and output capacitors near the load
reduces parasitic resistance and inductance for excellent load
transient response.
and the ground plane to reduce the case-to-ambient
resistance (θCA).
5. The negative pins of the input and output capacitors and the
GND pin must be connected to the ground plane of the load.
6. Large current paths, shown by bold lines on the figure A,
must have wide tracks.
7. Place the R1, R2, and C1 (option) near the EC8320 as clos
as to avoid noise coupling.
8. Connect the ground of the R2 to the GND pin by using a
dedicated track.
9. Connect the one pin of the R1 to the load for Kelvin sensing.
10. Connect one pin of the C1 (option) to the VOUT pin
Figure B.
Figure A.
E-CMOS Corp. (www.ecmos.com.tw)
Page 15 of 16
3G18N-Rev.P001
2A Low Dropout Regulator with Enable
EC8320
Package Information
SOP-8(Exposed PAD) Package Outline Dimensions
E-CMOS Corp. (www.ecmos.com.tw)
Page 16 of 16
3G18N-Rev.P001
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