AIC AIC1568

AIC1568
4-bit DAC, Simple PWM Power Regulator
FEATURE
DESCRIPTION
Compatible with HIP6008.
The AIC1568 is a high power, high efficiency
Simple Voltage-Mode PWM Control.
switching regulator controller optimized for high
Fast Transient Response.
performance microprocessor applications. It is
±1.5% 4-Bit Digital-to-Analog Output Voltage.
designed to drive an N-channel MOSFET in a
Adjustable Current Limit without External Sense
standard buck topology. Featuring a digitally
Resistors.
programmable switching regulator, the AIC1568
Full 0% to 100% Duty Ratio.
includes monitoring and protection capabilities in
200KHz Free-Running Oscillator, Programmable
addition to all the essential PWM control
up to 350KHz.
functions.
Power-Good Output Voltage Monitor.
Short Circuit Protection with Low Short Circuit
The internal 4-bit Digital-to-Analog Converter
Output Current.
(DAC) adjusts the output voltage from 2.0V to
3.5V in 0.1V increments. The precision reference
and voltage-mode control can provide output
APPLICATIONS
Power Supply for Pentium, Pentium Pro, Power
PC and Alpha Microprocessors.
High-Power 5V to 3.xV DC/DC Regulators.
Low-Voltage Distributed Power Supplies.
regulation within ±1.5% over temperature and line
voltage shifts.
The internal oscillator of the AIC1568 free-runs at
200KHz and can be adjusted up to 350KHz. The
resulting PWM duty ratio ranges from 0% to 100%.
The error amplifier features a 11MHz bandwidth
and 6V/µS slew rate, which enables high
converter bandwidth for fast transient response.
The AIC1568 provides adjustable over current
and short circuit protections. It senses the output
current across the on resistance of the N-channel
MOSFET without an external low value sense
resistor. It also monitors the output voltage with a
window comparator and issues a power good
signal when the output is within 10% of the rated
output voltage.
Analog Integrations Corporation
4F, 9, Industry E. 9th Rd, Science Based Industrial Park, Hsinchu Taiwan, ROC
DS-1568-00
TEL: 886-3-5772500
FAX: 886-3-5772510
www.analog.com.tw
1
AIC1568
ORDERING INFORMATION
AIC1568 XX
PIN CONFIGURATION
ORDER NUMBER
AIC1568CS
(PLASTIC SO)
PACKAGE TYPE
S: SMALL OUTLINE
TOP VIEW
16 VSEN
OCSET 1
15 RT/OVP
SS 2
TEMPERATURE RANGE
C: 0°C~70°C
VID0 3
14 VCC
VID1 4
13 BOOT
VID2 5
12 UGATE
VID3 6
11 PHASE
10 PGOOD
COMP 7
9 GND
FB 8
TYPICAL APPLICATION CIRCUIT
C9
1000P
10
C2
0.1µF
2.2K
C8
0.1µF
JUMPER
C7
VSEN
OCSET
RT/OVP
SS
VCC
VID0
BOOT
VID1
UDRI
VID2
PHASE
VID3
COMP PGOOD
GND
FB
90.9K
12V
L1
RFP45N03L
M1
VIN
1µH
5V
C3
1000µF x 2
L2
2.0V≤VOUT≤3.5V
at 10A
7µH
AIC1568
BYV118
R4
15K
C6
1000P
C1
1µF
+
33P
R6
VDRI
R1
R2
R5
D1
+
C4
1000µF x 6
R3 47K
3.01K
R7
C5
1.2M
0.1µF
Switching Regulator for Pentium VCORE Supply
2
AIC1568
ABSOLUTE MAXIMUM RATINGS
Supply Voltage, VCC
....…...............................................……………............................. 15V
Boot Voltage, VBOOT
……….......................…...........…………........................................ 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) ……………..…………......….........
Note 1: θJA
300°C
is measured with the component mounted on an evaluation PC board in free air.
TEST CIRCUIT
Refer to TYPICAL APPLICATION CIRCUIT.
3
AIC1568
ELECTRICAL CHARACTERISTICS
PARAMETER
(VCC= 12V, Ta=25°°C, unless otherwise specified.)
TEST CONDITIONS
SYMBOL
MIN.
TYP.
MAX.
UNIT
VCC Supply Current
Nominal Supply
UGATE Open
IVCC
2
mA
Power-On Reset
VCC Threshold
VOCSET=4.5V
7
Rising VOCSET Threshold
8.5
1.26
V
V
Oscillator
Free Running Frequency
RT Open
170
Total Variation
6KΩ<RT<200KΩ
-20
Ramp Amplitude
RT Open
∆VOSC
200
230
KHz
+20
%
1.5
VP-P
DAC Output Voltage
DAC Output Voltage Accuracy
-1.5
+1.5
%
Error Amplifier
DC Gain
76
dB
GBW
11
MHz
SR
6
V/µS
Upper Gate Source
RUGATE
8
12
Ω
Upper Gate Sink
RUGATE
5.5
10
Ω
106
115
125
%
IOCSET
170
200
230
µA
IOVP
30
Gain-Bandwidth Product
Slew Rate
Gate Driver
Protection
Over-Voltage Trip (VVSEN/VDAC)
OCSET Current Source
VOCSET =4.5VDC
OVP Sourcing Current
VVSEN =5.5V, VOVP=0V
SS Current
ISS
SS Sink Current under
VVSEN =VDAC, VOCSET=5.0V,
Current Limit
VPHASE=0V, VFB=VDAC - 50mV
SS Sink Current under Hard
VVSEN=0, VOCSET =5.0V,
Current Limit
VPHASE =0V, VFB=0V
mA
10
µA
130
µA
65
mA
Power Good
Upper Threshold (VVSEN /VDAC)
VVSEN rising
106
114
%
Lower Threshold (VVSEN /VDAC)
VVSEN falling
84
94
%
Hysteresis (VVSEN /VDAC)
Upper and lower threshold
PGOOD Voltage Low
IPGOOD=5mA
VPGOOD
2
%
0.5
V
4
AIC1568
BLOCK DIAGRAM
115%
+
=-
110%
VSEN
90%
POWER-ON
RESET
OVP
+
=POWER GOOD
PGOOD
+
-
50%
−
+
+
-
1µA
VCC
OVER
CURRENT
SS
OCSET
IOCSET
200µA
4V
PHASE
SOFT
SATRT
BOOT
REFERENCE
VID0
VID1
VID2
VID3
VDAC
+
+
−
+
-
4BITS
DAC
ERROR
AMP
FB
CONTROL
LOGIC
PWM
COMPARATOR
UGATE
GND
COMP
RT/OVP
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 200
µA current source (IOCSET), and
the external MOSFET onresistance (RDS(ON)) jointly set the
over current trip point according
to the following equation:
IPEAK =
IOCSET × ROCSET
RDS(ON)
If 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: SS
- Soft start pin. Connect a
capacitor from this pin to ground.
An internal 10µA current source
provides soft start function for
the converter.
PIN 3:
PIN 4:
PIN 5:
PIN 6:
VID0
VID1
VID2
VID3
- 4-bit DAC voltage select pin. TTL
inputs used to set the internal
voltage reference VDAC. When
left open, these pins are
internally pulled up to 5V and
provide logic ones. The level of
VDAC sets the converter output
voltage as well as the PGOOD
and OVP thresholds.
Table 1 specifies the VDAC
voltage for the 16 combinations
of DAC inputs.
5
AIC1568
Table 1. Output Voltage Program
VID0
VID1
VID2
VID3 VDAC
0
0
0
0
3.5V
1
0
0
0
3.4V
0
1
0
0
3.3V
1
1
0
0
3.2V
0
0
1
0
3.1V
1
0
1
0
3.0V
0
1
1
0
2.9V
1
1
1
0
2.8V
0
0
0
1
2.7V
1
0
0
1
2.6V
0
1
0
1
2.5V
1
1
0
1
2.4V
0
0
1
1
2.3V
1
0
1
1
2.2V
0
1
1
1
2.1V
1
1
1
1
2.0V
PIN 7: COMP - External compensation pin. This
pin is connected to error
amplifier output and PWM
comparator. An RC network is
connected to FB pin to
compensate the voltage-control
feedback loop of the converter.
PIN 8: FB
PIN 9: GND
- The error amplifier inverting
input pin. The FB pin and COMP
pin are used to compensate the
voltage-control feedback loop.
- Signal GND. It also serves as
the power GND for the upper
gate driver.
PIN 10: PGOOD-Power good indicator pin.
PGOOD is an open drain output.
This pin is pulled low when the
converter output is ±10% out of
the VDAC reference voltage.
the PHASE pin to source of the
external MOSFET. This pin detects
the voltage drop across the MOSFET
RDS(ON) for over-current protection.
PIN 12: UGATE- External MOSFET gate drive pin.
Connect this pin to gate of the
external MOSFET.
PIN 13: BOOT - External MOSFET driver power
supply pin. To convert 5V main power
to VCORE power by driving N-channel
MOSFET,
supply voltage of no
higher than 12V is recommended
since the negative power terminal of
the internal driver is internally tied to
GND.
PIN 14: VCC
- The chip power supply pin.
Recommended supply voltage is 12V.
PIN 15: RT/OVP- Frequency
adjustment
and
overvoltage indicator pin. This pin is
multiplexed to provide two functions.
The first function is oscillator
switching frequency adjustment.
Connecting a resistor (RT) from this
pin to GND increases the frequency
according to the following equation:
FS ≅ 2 0 0 K H z +
5 × 105
lo g RT
The second function for this pin is to
drive an external SCR in the event of
an over voltage fault.
PIN 16: VSEN - Converter output voltage sense pin.
Connect this pin to the converter
output. The PGOOD and OVP
comparator circuits use this signal to
report output voltage status and
perform
overvoltage
protection
function.
PIN 11: PHASE - Over current detection pin. Connect
6
AIC1568
PHYSICAL DIMENSION
16 LEAD PLASTIC SO (150 mil) (unit: mm)
D
E
H
SYMBOL
MIN
MAX
A
1.35
1.75
A1
0.10
0.25
B
0.33
0.51
C
0.19
0.25
D
9.80
10.00
E
3.80
4.00
e
e
A
1.27 (TYP)
H
5.80
6.20
L
0.40
1.27
A1
B
C
L
7