SSC SS6580

SS6580/L
Step-Down DC/DC Controller with Shutdown
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FEATURES
Operating Voltage up to 15V.
Simple Voltage-Mode PWM Control.
Fast Transient Response.
2V and 1.3V ± 2% Feedback Voltage Reference
Options.
Adjustable Current Limit without External Sense
Resistors.
200 KHz Switching Oscillator.
Short-Circuit Protection with Low Short-Circuit
Output Current.
Low Shutdown Current
Built-in Soft Start.
DESCRIPTION
The SS6580 is a high-power, high-efficiency
voltage-mode switching regulator controller for
motherboard VI/O power supply applications.
Designed to drive an N-channel MOSFET in a
standard buck topology, the SS6580 features
a
high
voltage
CMOS
output
driver
with
short-circuit protection in an 8-pin package.
An external 4-bit Digital-to-Analog Converter (DAC)
can be used along with the SS6580 to adjust
the output voltage from 2.0V to 3.5V in 0.1V
increments. Table 1 on the following page
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specifies the corresponding output voltage for 16
APPLICATIONS
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Power Supply for Motherboard VGTL (1.5V Output)
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Power Supply for Motherboard VI/O.
High-Power 5V to 3.xV DC/DC Regulators.
Low-Voltage Distributed Power Supplies.
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combinations of DAC inputs as shown in the
typical application circuit.
The 200 KHz switching frequency allows the use
of small external components while maintaining
high conversion efficiency. The 11MHz bandwidth
and the 6V/µS slew rate of the error amplifier
ensure high converter bandwidth and fast transient
response.
The
SS6580
provides
both
adjustable
over-current and adjustable short-circuit protection
by sensing the output current across the onresistance of the external N-channel MOSFET,
rather than an external low value sense resistor.
The SS6580L provides a lower reference
voltage (1.30V) than the default SS6580
(2.00V) for lower VOUT requirements.
Rev.2.01 6/26/2003
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SS6580/L
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ORDERING INFORMATION
SS6580XCXXX
PACKING TYPE
TR: TAPE & REEL
TB: TUBE
PIN CONFIGURATION
SO-8
TOP VIEW
PACKAGING TYPE
N: PLASTIC DIP
S: SMALL OUTLINE
OCSET 1
REFERENCE VOLTAGE
8 VCC
SD 2
7 UGATE
COMP 3
6 PHASE
DEFAULT: 2.00V
L: 1.30V
FB* 4
5 GND
*SS6580: 2.00V
SS6580L: 1.30V
Example: SS6580CSTR
à 2.00V in SO-8 Package & Tape & Reel Packing Type
(CN is not available in TR packing)
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TYPICAL APPLICATION CIRCUIT
VIN1
VOUT
L1
5V
1.5µH
VIN2
12V
R1
10
C1
1µF
1
2
C7
3
33P
90.9K
R6
C6
1nF
4
C9
1nF
VCC 8
OCSET
UGATE
COMP
PHASE 6
GND
FB
SS6580
5
C3
1000µF*2
M1
CEB6030L
7
SD
+
R2
2K2
R9
L2
4K7
7µH
D1
SB1020
+
C4
1000µF*6
Optional Circuit
R7
SW0 VID0
6.04K
R8
R5
SW1 VID1
30.1k
3.01K
SW2 VID2
15K
R3
SW3 VID3
7.5K
R4
*C1 must be very close to VCC pin
Supply DC-DC Step Down Circuit
Rev.2.01 6/26/2003
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SS6580/L
Table 1. Output Voltage Program
VID3
VID2
VID1
1
1
1
1
1
1
1
1
0
1
1
0
1
0
1
1
0
1
1
0
0
1
0
0
0
1
1
0
1
1
0
1
0
0
1
0
0
0
1
0
0
1
0
0
0
0
0
0
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VID0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
VOUT
2.00V
2.10V
2.20V
2.30V
2.40V
2.50V
2.60V
2.70V
2.80V
2.90V
3.00V
3.10V
3.20V
3.30V
3.40V
3.50V
ABSOLUTE MAXIMUM RATINGS
Supply Voltage, VCC ....…...………............................…………......................................... 15V
Input, Output, or I/O Voltage ...............………………....……......... GND - 0.3V to VCC+0.3V
ESD Classification .............................………….....……..............……......................... Class 2
Recommended Operating Conditions
Supply Voltage, VCC....…......................………….......……….................................. 12V ±10%
Ambient Temperature Range .…................................………….……….................. 0°C~70°C
Junction Temperature Range ....…............……….........…..……......................... 0°C~ 100°C
Thermal Information
Thermal Resistance, θJA (Typical, Note 1)
SOIC Package ...............................………………………..……………........…. 100°C/W
SOIC Package (with 3 in2 of Copper) ……………………………………......….. 90°C/W
Maximum Junction Temperature (Plastic Package) ……….……..………................... 150°C
Maximum Storage Temperature Range …………..…………......…….…......... –65°C~150°C
Maximum Lead Temperature (Soldering 10 Sec) …………………...……......…......... 300°C
Note 1: θJA is measured with the component mounted on an evaluation PC board in free air.
Rev.2.01 6/26/2003
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SS6580/L
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TEST CIRCUIT
Refer to TYPICAL APPLICATION CIRCUIT.
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ELECTRICAL CHARACTERISTICS
(VCC=12V, TA=25°C, unless otherwise
specified.)
PARAMETER
TEST CONDITIONS
SYMBOL
MIN.
TYP.
MAX.
UNIT
VCC Supply Current
Nominal Supply
UGATE Open
IVCC
2
mA
9.5
V
Frequency
200
KHz
Duty Cycle
88
%
Power-On Reset
VCC Threshold
VOCSET=4.5V
Oscillator
Internal Reference Voltage
Reference Voltage
SS6580
SS6580L
1.96
1.27
2.00
1.30
2.04
1.33
V
Error Amplifier
DC Gain
76
dB
GBW
11
MHz
SR
6
V/µS
Upper Gate Source
RUGATE
7
Ω
Upper Gate Sink
RUGATE
5
Ω
IOCSET
200
µA
ISS
10
µA
Gain-Bandwidth Product
Slew Rate
Comp=10pF
Gate Driver
Protection
OCSET Current Source
SS Current
VOCSET =4.5VDC
Shutdown
Shutdown Low Input
VINL
Shutdown High Input
VINH
Shutdown Mode Current
Rev.2.01 6/26/2003
0.35
2
V
1
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V
µA
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SS6580/L
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TYPICAL PERFORMANCE CHARACTERISTICS
100
Vo=3.5V
80
200
Vo=2.0V
OCSET (µA)
Efficiency (%)
90
70
Vo=1.3V
60
50
198
Tc=134ppm/ C@ 0~100°C
196
194
40
192
30
1
2
3
Fig. 1
4
5
6
IOUT (A)
7
8
9
10
Efficiency vs. Load Current
Fig. 3
Over-Current Operation
11
-40
-20
Fig. 2
0
20
40
60
80
100
120
140
160
Temperature (°C)
OCSET Current vs. Temperature
Fig. 4 Output Clamped by Built-In Soft Start
VOUT NOISE
Fig. 5
Rev.2.01 6/26/2003
Transient Response
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SS6580/L
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BLOCK DIAGRAM
Over Current
-
PHASE
+
SD
200µA
Power-On
Reset
Built-In Soft Start
+
REF
Error AMP
VCC
PWM Comparator
+
Gate Control
UGATE
-
FB
GND
COMP
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OCSET
Oscillator
PIN DESCRIPTIONS
PIN 1: OCSET - Current limit sense pin. Connect a
resistor ROCSET from this pin to the
drain of the external MOSFET.
ROCSET, an internal 200µA current
source (IOCSET), and the external
MOSFET on-resistance (RDS(ON))
jointly set the over-current trip point
according
to
the
following
equation:
IPEAK =
IOCSET × ROCSET
RDS(ON)
If the FB pin voltage is sensed to
be below 50% of the internal
voltage reference VDAC, the
over-current comparator cycles the
soft-start function.
PIN 2: SD
PIN 3:COMP
Rev.2.01 6/26/2003
- Shutdown pin. Connect this pin to
ground for shutdown.
connected to the FB pin to
compensate the voltage-control
feedback loop of the converter.
PIN 4: FB
- The error amplifier inverting input
pin. The FB pin and COMP pin are
used
to
compensate
the
voltage-control feedback loop.
PIN 5: GND
- Ground pin.
PIN 6: PHASE - Over-current
detection
pin.
Connect the PHASE pin to the
source of the external N-MOSFET.
This pin detects the voltage drop
across the MOSFET RDS(ON) for
over-current protection.
PIN 7: UGATE - External MOSFET gate drive pin.
Connect this pin to the gate of the
external MOSFET.
PIN 8: VCC
- External compensation pin. This
pin is connected to the error
amplifier
output
and
PWM
comparator. An RC network is
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- The chip power supply pin.
Recommended supply voltage is
12V.
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SS6580/L
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APPLICATION CIRCUIT
C9
R1
*C1
1µF
1000P
R2
C7
33P
SD
UGATE
COMP
PHASE
90.9K
C6
L1
5V
1.5µF
+
VCC
M1
C3
1000µF*3
R9
L2
4K7
7µF
GND
FB
R6
12V
*C1 must be very
close to VCC PIN
2.2K
OCSET
10
SS6580L
D1
SB1020
1000P
R7
R5
13K
2K
VOUT
+
1.5V/10A
C4
1000µF*6
*VOUT=1.3V(R5+R7)/R7
Fig. 6 DC/DC Step Down Circuit
Rev.2.01 6/26/2003
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SS6580/L
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PHYSICAL DIMENSIONS
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8 LEAD PLASTIC SO (unit: mm)
D
SYMBOL
MIN
MAX
A
1.35
1.75
A1
0.10
0.25
B
0.33
0.51
C
0.19
0.25
D
4.80
5.00
E
3.80
4.00
H
E
e
e
A
A1
C
B
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1.27(TYP)
H
5.80
6.20
L
0.40
1.27
L
8 LEAD PLASTIC DIP (unit: mm)
D
E1
E
A2
A1
eB
e
MIN
MAX
A1
0.381
—
A2
2.92
4.96
b
0.35
0.56
C
0.20
0.36
D
9.01
10.16
E
7.62
8.26
E1
6.09
7.12
C
L
b
SYMBOL
e
2.54 (TYP)
eB
—
10.92
L
2.92
3.81
Information furnished by Silicon Standard Corporation is believed to be accurate and reliable. However, Silicon Standard Corporation makes no
guarantee or warranty, express or implied, as to the reliability, accuracy, timeliness or completeness of such information and assumes no
responsibility for its use, or for infringement of any patent or other intellectual property rights of third parties that may result from its
use. Silicon Standard reserves the right to make changes as it deems necessary to any products described herein for any reason, including
without limitation enhancement in reliability, functionality or design. No license is granted, whether expressly or by implication, in relation to
the use of any products described herein or to the use of any information provided herein, under any patent or other intellectual property rights of
Silicon Standard Corporation or any third parties.
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