FINTEK F72820

F72820
F72820
Synchronous Buck PWM DC-DC Controller
Release Date: July, 2007
Version: V0.24P
Jul 2007
V0.24P
F72820
F72820 Datasheet Revision History
Version
Date
Page
Revision History
0.21P
Mar/2005
0.22P
Jun/2005
14
Update application circuit
0.23P
Mar/2006
15
Correct application circuit
0.24P
Jul 2007
13
Update company address
Preliminary version
Please note that all data and specifications are subject to change without notice. All the trade marks of products
and companies mentioned in this data sheet belong to their respective owners.
LIFE SUPPORT APPLICATIONS
These products are not designed for use in life support appliances, devices, or systems where malfunction of these
products can reasonably be expected to result in personal injury. Customers using or selling these products for
use in such applications do so at their own risk and agree to fully indemnify Fintek for any damages resulting from
such improper use or sales.
Jul 2007
V0.24P
F72820
Table of Content
1.
General Description ..................................................................................................................... 1
2.
Feature List .................................................................................................................................. 1
3.
Pin Configuration ......................................................................................................................... 2
4.
Block Diagram.............................................................................................................................. 2
5.
Pin Description ............................................................................................................................. 3
6.
Function Description .................................................................................................................... 4
6.1 Bootstrap Operation ................................................................................................................. 4
6.2 Dual Power Operation.............................................................................................................. 4
6.3 Soft-Start .................................................................................................................................. 5
6.4 Over-current Protection............................................................................................................ 5
6.5 Under-voltage Protection ......................................................................................................... 6
6.6 Output Voltage Selection.......................................................................................................... 7
6.7 Converter Shut Down............................................................................................................... 7
6.8 PWM Controller Feedback Compensation............................................................................... 7
6.9 Typical Characteristic ............................................................................................................... 9
7.
Electrical Characteristic.............................................................................................................. 11
8.
Ordering Information .................................................................................................................. 12
9.
Package Dimensions (8-SOP/150 mil)....................................................................................... 13
10.
Application Circuit ...................................................................................................................... 14
Jul 2007
V0.24P
F72820
1. General Description
The F72820 is a single PWM DC-DC converter controller for application requiring high current such as motherboard,
graphic card etc. The F72820 uses voltage mode PWM controller with fast transient response (driving two external
N-channel MOSFETs in a synchronous rectified buck converter topology) and integrates some functions such as
soft-start, over current and short circuit protections etc. Over current protection is achieved by monitoring the voltage
drops across the high side MOSFET without the need for a current sensing resistor and short circuit condition is
detected through FB pin. If fault conditions occur, the F72820 will initiate the soft start cycle. After three cycles and
the fault conditions persist, the controller will go into shut down status. In shut down status, both gate drive signals
will be low. To restart the controller, either recycling the Vcc supply or momentarily pulling OCSET pin below 1.25V.
The F72820 is available in 8-SOP package.
2. Feature List
‹
Provides one synchronous rectified buck DC-DC PWM controller
„
Fast transient response (high bandwidth error amplifier; full 0~100% duty cycle)
„
Fixed operation frequency : 300KHz
„
Single loop voltage-mode control
„
Few external components
„
Output range adjustable down to 0.8V
‹
Operation is under 5V input
‹
Drives external N-channel MOSFETs
‹
Over current monitor is used by MOSFET RDS(ON)
‹
0.8V internal reference voltage
„
F72820
±2% accuracy over line, load and temperature
‹
Internal soft-start (typically 3 ms)
‹
Internal loop compensation
‹
Under voltage fault monitoring and protection
‹
Over voltage protection
‹
8-SOP package (150 mil)
-1-
Jul 2007
V0.24P
F72820
3. Pin Configuration
BOOT
UGATE
1
2
GND
3
LGATE
4
F72820
8
7
PHASE
OCSET
6
FB
5
VCC
4. Block Diagram
Regulator
VCC
Reference
Voltage
Bias & SS
BOOT
Power On
Reset
40uA
1.1V
OVP
OCSET
OCP
0.5V
Control
Logic
UVP
PHASE
0.8V
UGATE
Error
Amp
Comp
FB
VCC
GND
LGATE
300KHz
Tri-OSC
Figure 1: Block Diagram
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F72820
VIN
BOOT
5V
Q1
PWM
CONTROLLER
VOUT
Q2
Figure 2: Simplified power system diagram
5. Pin Description
AIN
- Input pin(Analog)
AOUT
- Output pin(Analog)
P
- Power
Pin No
Pin Name
TYPE
1
BOOT
P
PWR
Description
Provide ground reference voltage for high side MOSFET by bootstrap
circuit or ATX 12V.
2
UGATE
AOUT
BOOT
Higher gate drive output. Connect this pin to gate of the high side
MOSFET
3
GND
P
4
LGATE
AOUT
Power ground pin for the chip
VCC
Lower gate drive output. Connect this pin to gate of the low side
MOSFET
5
VCC
P
6
FB
AIN
IC supply voltage. This voltage is monitored for power-on-reset purpose.
VCC
Inverting input of the error amplifier used to compensate the feedback
loop of the PWM controller.
7
OCSET/SD
AOUT/AIN
VCC
This is multi-function pin. Connecting a resistor from this pin to drain of
high side MOSFET and an internal 40uA current source to ground.
OCSET voltage is reference for over current detect. When OCSET
voltage is under 1.25V, shut down function will be enabled.
8
PHASE
AIN
VCC
Connect to high side MOSFET source and monitor its voltage drop for
over current protection.
F72820
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Jul 2007
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F72820
6. Function Description
The F72820 is a single PWM DC-DC converter controller for application requiring high current such as motherboard,
graphic card etc. The F72820 uses voltage mode PWM controller with fast transient response (driving two external
N-channel MOSFETs in a synchronous rectified buck converter topology) and integrates some functions such as
soft-start, over current and short circuit protections etc. Over current protection is achieved by monitoring the voltage
drop across the high side MOSFET, eliminating the need for a current sensing resistor and short circuit condition is
detected through the FB pin. If fault conditions occur, the F72820 would initiate the soft start cycle. After three cycles
and the fault condition persist, the controller will go into shut down status. In shut down, both gate drive signals will
be low. To restart the controller, either recycle the Vcc supply or momentarily pull the OCSET pin below 1.25V.
6.1 Bootstrap Operation
In single power supply system, the UGATE is powered by an external bootstrap circuit as Fig 3. The Boot capacitor,
CBOOT is charged and generated a floating reference voltage at phase pin. Typically a 0.1uF CBOOT is enough for the
most of applications. The CBOOT capacitor is refreshed and charged to a voltage of “VCC – Diode Drop” while low
side power MOS turning on.
5V
BOOT
VCC
UGATE
Q1
VOUT
PHASE
LGATE
Q2
Fig 3. Single 5V Power Supply Operation.
6.2 Dual Power Operation
The F72820 Power-on-reset monitors VCC supply voltage and input voltage at the OCSET pin. POR level is 3.8V
with 0.5V hysteresis at VCC voltage and 1.25V at OCSET voltage, The POR function initiates soft-start operation
and reset control logic after these supply voltages exceed their POR threshold voltages.
F72820
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Jul 2007
V0.24P
F72820
VCC
BOOT
Regulator
12V
5V
UGATE
Q1
VOUT
PHASE
LGATE
Q2
Figure 4
6.3 Soft-Start
The POR function initiates the digital soft-start sequence; the soft start function is used to prevent surge current from
power supply input during power on. When soft start event, PWM error amplifier reference inputs are forced to track
a voltage level proportional to the soft-start voltage. As the soft-start voltage slews up, the PWM comparator
regulates the output relative to the tracked soft-start voltage, slowly charging the output capacitor(s), the soft start
duration is 3mS in typical case.
6V
VCC
3V
VOUT
0V
3mS
TIME
Figure 5
6.4 Over-current Protection
The over current protection function of the F72820 is trigger when the voltage across the RDS (ON) of upper side
MOSFET the developed by drain current exceeds over-current tripping level. An external resistor (ROCSET)
programs the over-current tripping level of the PWM converter. As show on Figure 6, the internal 40uA current sink
develops a voltage across ROCSET that is reference to VIN. The over current comparator detect over current event
when UGATE is high and PHASE voltage is under OCSET voltage. When OC be detected, over current protect
function will soft start three times and check over current again. If over current event is true, the F72820 will be shut
down.
F72820
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Jul 2007
V0.24P
F72820
OVER-CURRENT TRIP:
VDS > VSET
I D x R DS(ON) > I OCSET x R OCSET
V PHASE = VIN
V OCSET = VIN
-
VDS
VSET
OCSET
R OCSET
I OCSET
BOOT
40uA
VIN = 5V
iD
VSET
UGATE
VDS
Q1
OC
PHASE
VOUT
LGATE
Q2
Figure 6
6.5 Under-voltage Protection
Pins FB are monitored during converter operation by under-voltage (UV) comparators. If the FB voltage drops below
0.5V, a fault signal is generated. The internal fault logic shut down regulator simultaneously when the fault signal
triggers a restart. At time t0, VOUT has dropped below 0.5V of the nominal output voltage. Output is quickly shut
down and the internal soft-start function begins producing soft-start ramps. The delay interval, t0 to 3*tss, seen by
the output is equivalent to three soft-start cycles. After a short delay interval of 10.5ms, the fourth internal soft-start
cycle initiates a normal soft-start ramp of the output, at time 3*tss. Both outputs are brought back into regulation by
time 4*tss, as long as the UV event has cleared. When the cause of the UV still been present after the delay interval.
A fault signal could then be generated and the outputs once again shutdown.
3V
1.5V
0V
VOUT
t0
tss
2tss
3tss
4tss
TIME
Delay interval
Figure 7
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Jul 2007
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F72820
6.6 Output Voltage Selection
The output voltage of the PWM converter can be programmed to any level between VIN (i.e. 5+V) and the internal
reference, 0.8V. An external resistor divider is used to scale the output voltage relative to the reference voltage and
feed it back to the inverting input of the error amplifier, see Figure 8. Depending on the value chosen for R1 (the
resistor connected between VOUT1 and FB), R4 (the resistor connected from FB to GND) can be calculated based
on the following equation:
R4 =
R1× 0.8V
VOUT − 0.8V
(EQ1)
If the desired output voltage is 0.8V, simply route VOUT back to FB through R1, but do not populate R4.
5V
BOOT
VCC
UGATE
Q1
PHASE
LGATE
FB
VOUT
Q2
R1
R4
Figure 8: Output voltage selection
6.7 Converter Shut Down
Pulling low the OCSET pin by a small signal transistor can shutdown the F72820 PWM controller as show is typical
application circuit.
6.8 PWM Controller Feedback Compensation
The F72820 is a voltage mode step down PWM controller. The gain of error amp is fixed at 34dB for simplified
design and saving external components. The amplitude of internal Tri-wave OSC is 1.75V. The loop gain and loop
Zero/Pole are calculated as follow equations.
F72820
-7-
Jul 2007
V0.24P
F72820
5
0.8
×
1.8 Vout
1
DC_Loop_Ga in = 34dB ×
Pole_of_LC _Filter =
2π LC
Pole_of_EA = 130kHz
Zero_of_Ou tput_Cap_E SR =
1
2π × ESR × C
VIN
UGATE
VREF
Error
Amp
L
comp
VOUT
LGATE
1.75V
ESR
C
The F72820 Bode plot as shown Figure 9
Gain ( dB )
40
Cout=1000u ( ESR=30m )
Lout=4.7u
Vout=1.6V
Pole of LC Filter
Zero of Cout ESR
30
20
10
Pole of EA
0.1k
F72820
1k
10k
100k
f ( Hz )
1M
-8-
Jul 2007
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F72820
6.9
Typical Characteristic
Dead time
Dead time
UGATE
UGATE
LGATE
LGATE
Power up
Power off
UGATE
UGATE
OCSET
OCSET
FB
VOUT
FB
VOUT
Load transient response
Load transient response
UGATE
UGATE
LGATE
UGATE
VOUT
VOUT
F72820
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Jul 2007
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F72820
Bootstrap Wave Form
Over-Current Protect
UGATE
UGATE
LGATE
LGATE
BOOT
OCSET
PHASE
VOUT
Reference VS Temperature
Iocset VS. Temperature
42.5
794.6
Iocset (uA)
Reference (mV)
794.8
794.4
794.2
794
42
41.5
41
40.5
793.8
40
25℃ 35℃ 45℃ 55℃ 65℃ 75℃ 85℃
25℃ 35℃ 45℃ 55℃ 65℃ 75℃ 85℃
Temperature (℃)
Temperature (℃)
Frequency (kHz)
Oscillator Frequency VS. Temperature
316
314
312
310
308
306
304
302
25℃ 35℃ 45℃ 55℃ 65℃ 75℃ 85℃
Temperature (℃)
F72820
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F72820
7. Electrical Characteristic
Absolute Maximum Ratings
PARAMETER
SYMBOL
RATINGS
UNIT
VCC
7
V
12VCC
15
V
IC supply voltage
Gate drivers supply voltage
PWM controller outputs
UGATE, LGATE
Feedback voltages of both regulators
FB, FB2, COMP
GND - 0.3-17
V
HBM
2
kV
Tj
150
°C
TSTO
-65 ~ 150
°C
260
°C
ESD classification
Maximum junction temperature (plastic package)
Maximum storage temperature
V
Maximum lead temperature (soldering 10s)
Note: If ICs are stressed beyond the limits listed in the “absolute maximum ratings”, they may be permanently destroyed. These are stress
ratings only and functional operation of the device at these or any other condition beyond those indicated under “recommended operating
conditions” is not implied. Exposure to absolute maximum rated conditions for extended periods may affect device reliability.
Package thermal information
PARAMETER
SYMBOL
SOIC
UNIT
Rth_ja
133
°C/W
Thermal resistance junction-ambient
DC and AC electrical characteristics
PARAMETER
SYMBOL
TEST CONDITIONS
MIN.
TYP.
MAX.
UNIT
2
4
mA
5.5
6
V
3.8
4.0
V
VCC SUPPLY CURRENT/Regulated Voltage
Nominal supply current 5VCC
ICC
UGATE, LGATE and DRIVE2 open
Regulated Voltage from BOOT
VCC
VBOOT = 12V
5.0
POWER-ON RESET
Rising VCC threshold
VOCSET = 4.5V
Falling VCC threshold
VOCSET1 = 4.5V
Rising VOCSET Threshold
3.1
3.3
V
0.8
1.25
2.0
V
250
300
350
kHz
OSCILLATOR AND Protection
Free running frequency
Ramp Amplitude
FB Over Voltage Trip
F72820
FOSC
VCC=5V
△VOSC
1.75
FB Rising
-11-
1.0
1.1
*
VP-P
1.2
V
Jul 2007
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F72820
PARAMETER
SYMBOL
MIN.
TYP.
MAX.
UNIT
FB Falling
0.4
0.5
0.6
V
VOCSET = 4.5V
35
40
45
uA
TSS
1
3
6
ms
VREF
0.784
0.8
0.816
V
FB Under Voltage Trip
OCSET Current Source
Soft-start interval
IOCSET
TEST CONDITIONS
REFERENCE VOLTAGE
Reference voltage
PWM CONTROLLER GATE DRIVERS
Upper Drive Source
RUGATE
BOOT = 12V ; BOOT – VUGATE = 1V
8
12
Ω
Upper Drive Sink
RUGATE
VUGATE = 1V
4
6
Ω
Lower Drive Source
RLGATE
VCC – VLGATE = 1V
3
4.5
Ω
Lower Drive Sink
RLGATE
VLGATE = 1V
2
3
Ω
Error Amplifier
DC Gain
34
*
dB
Note: Design Guarantee
8. Ordering Information
F72820
Part Number
Package Type
Production Flow
F72820 SG
8-SOP (Green Package)
Commercial, 0°C to +70°C
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Jul 2007
V0.24P
F72820
9. Package Dimensions (8-SOP/150 mil)
8
5
c
E
HE
L
4
1
0.25
D
O
A
Y
e
SEATING PLANE
GAUGE PLANE
A1
b
Control demensions are in milmeters .
SYMBOL
A
A1
b
c
E
D
e
HE
Y
L
θ
DIMENSION IN MM
MIN.
MAX.
1.35
1.75
0.10
0.25
0.33
0.51
0.19
0.25
3.80
4.00
4.80
5.00
1.27 BSC
6.20
5.80
0.10
0.40
1.27
0
10
DIMENSION IN INCH
MIN.
MAX.
0.053
0.069
0.010
0.004
0.013
0.020
0.008
0.010
0.150
0.157
0.188
0.196
0.050 BSC
0.228
0.016
0
0.244
0.004
0.050
10
Feature Integration Technology Inc.
Headquarters
Taipei Office
3F-7, No 36, Tai Yuan St.,
Bldg. K4, 7F, No.700, Chung Cheng Rd.,
Chupei City, Hsinchu, Taiwan 302, R.O.C.
Chungho City, Taipei, Taiwan 235, R.O.C.
TEL : 886-3-5600168
TEL : 866-2-8227-8027
FAX : 886-3-5600166
FAX : 866-2-8227-8037
www: http://www.fintek.com.tw
Please note that all datasheet and specifications are subject to change without notice. All the
trade marks of products and companies mentioned in this datasheet belong to their respective
F72820
-13-
Jul 2007
V0.24P
F72820
10. Application Circuit
14
F72820
15