ANPEC APW7045N

APW7045
Advanced PWM and Linear Power Controller
Features
General Description
•
The APW7045 integrates PWM controller and linear
controller, as well as the monitoring and protection
functions into a single package, which provides two
controlled power outputs with over-voltage and overcurrent protections. The PWM controller regulates
the DDR termination voltage (1.25V) or GPU Voltage
(2.05V) with a synchronous-rectified buck converter.
The linear controller regulates the Memory Voltage
(2.5V). The pre cision reference and voltage-mode
PWM control provide ±1% static regulation. The linear controller drives an external N-channel MOSFET
to provide adjustable voltage. The APW7045 monitors two output voltages, and a single Power Good
signal is issued when the PWM voltage is within ±10%
of the DAC setting and the lineat regulator output level
is above under-voltage threshold. Additional built-in
over-voltage protection for the PWM output uses the
lower MOSFET to prevent output voltages above 115%
of the DAC setting. The PWM over-current function
monitors the output current by using the voltage drop
across the upper MOSFET’s RDS(ON), eliminating the
need for a current sensing resistor.
2 Regulated Voltage are provided
−Switching Power for Fixed Voltage (1.0V)
−Linear Regulator for VMEM(2.5V)
•
Simple Single-Loop Control Design
−Voltage-Mode PWM Control
•
Excellent Output Voltage Regulation
−PWM Output: ±1%
−Linear Output: ±3%
•
Fast Transient Response
−High-Bandwidth Error Amplifier
−Full 0% to 100% Duty Ratio
•
•
•
Power-Good Output Voltage Monitor
Over-Voltage and Over-Current Fault Monitors
Small Converter Size
−200KHz Free-Running Oscillator ;
Progammable from 50KHz to 800KHz
−Reduce External Component Count
Pin Description
Applications
•
•
•
•
Motherboard Power Regulation for Computers
Low-Voltage Distributed Power Supplies
VGA Card Power Regulation
DDR SDRAM Power Regulation
VC C
1
16
UG ATE
DR IVE
2
15
PH AS E
PG O O D
3
14
LG ATE
SD
4
13
PG ND
FB2
5
12
O C SE T
SS
6
11
VS EN 1
FAULT
7
10
FB1
GND
8
9
CO M P
ANPEC reserves the right to make changes to improve reliability or manufacturability without notice, and advise
customers to obtain the latest version of relevant information to verify before placing orders.
Copyright  ANPEC Electronics Corp.
Rev.A.5 - Jan., 2003
1
www.anpec.com.tw
APW7045
Ordering and Marking Information
V o lta g e C o d e
1 0 : 1 .0 V
P ackage C ode
K : S O P - 1 6 (1 5 0 m il)
Tem p. R ange
C : 0 to 7 0 ° C
H a n d lin g C o d e
T U : Tube
A P W 7 04 5
H a n d lin g C o d e
Tem p. R ange
P ackage C ode
V o lta g e C o d e
A P W 7045
XXXXX
A P W 7 0 4 5 K /N :
N : S S O P -1 6
T R : T ape & Reel
X X X X X - D a te C o d e
Block Diagram
V SEN1
FB2
VCC
OC SET
Power-on
Reset
(POR)
X1.10
-
-
+
DRIVE
200 µ A
+
+
X0.90
X 0.75
+
PGO OD
+
1.5V
X 1.15
+
-
VCC
INHIBIT
SD
OV
SO FT
ST ART &
FA ULT
LOGIC
UG ATE
OC1
+
-
PHASE
INHIBIT
+
-
-
V CC
DAC
OS CILLATO R
GA TE
CONTROL
+
ERROR
AM P1
PW M
COM P 1
V CC
PW M 1
SY NCH
DRIV E
+
LGATE
PGN D
GN D
FAULT
SS
Copyright  ANPEC Electronics Corp.
Rev.A.5 - Jan., 2003
FB1
CO MP
2
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APW7045
Absolute Maximum Ratings
Symbol
VCC
Parameter
Rating
Unit
15
V
GND -0.3 V to VCC +0.3
V
Supply Voltage
VI , VO
Input , Output or I/O Voltage
TA
Operating Ambient Temperature Range
0 to 70
°C
TJ
Junction Temperature Range
0 to 125
°C
TSTG
Storage Temperature Range
-65 to +150
°C
300 ,10 seconds
°C
Value
Unit
75
65
°C/W
TS
Soldering Temperature
Thermal Characteristics
Symbol
θJA
Parameter
Thermal Resistance in Free Air
SOIC
SOIC (with 3in2 of Copper)
Electrical Characteristics
(Recommended operating conditions , Unless otherwise noted) Refer to Block and Simplified Power System
Diagrams , and Typical Application Schematic.
Symbol
Parameter
Test Conditions
APW7045
Min. Typ. Max.
Unit
4
mA
VCC Supply Current
ICC
Nominal Supply Current
UGATE, LGATE, DRIVE
open
Power-on Reset
VCC
VOCSET
VSD
Rising VCC Threshold
Vocset=4.5V
Falling VCC Threshold
Vocset=4.5V
10.7
V
8.2
Rising VOCSET Threshold
1.26
Shutdown Input High Voltage
2.0
Shutdown Input Low Voltage
0.8
V
Oscillator
FOSC
∆VOSC
Free Running Frequency
Fault= Open
Ramp Amplitude
Fault= Open
Copyright  ANPEC Electronics Corp.
Rev.A.5 - Jan., 2003
3
185
200
1.9
215
kHz
VP-P
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APW7045
Electrical Characteristics (Cont.)
(Recommended operating conditions, Unless otherwise noted) Refer to Block and Simplified Power System
Diagram, and Typical Application Schematic.
Symbol
Parameter
Test Conditions
DAC Reference Voltage
VDAC Reference Voltage APW7045-10
Reference Voltage accuracy
Linear Regulator
Reference Voltage
Regulation
Output Drive Current
VDRIVE=4V
Synchronous PWM Controller Error Amplifier
DC Gain
GBWP Gain-Bandwidth Product
SR
Slew Rate
COMP=10pF
PWM Controller Gate Driver
IUGATE UGATE Source
VCC=12V, VUGATE =6V
RUGATE UGATE Sink
VUGATE1 =1V
ILGATE LGATE Source
VCC=12V, VLGATE =1V
RLGATE LGATE Sink
VLGATE= 1V
Protection
VSEN1 Over-Voltage
VSEN1 Rising
VSEN1 Over-Voltage Hysteresis
IOCSET OCSET Current Source
VOCSET= 4.5V
ISS
Soft Start Current
Power Good
VSEN1 Upper Threshold
VSEN1 Rising
VSEN1 Under Voltage
VSEN1 Rising
VSEN1 Hysteresis
Upper /Lower Threshold
VPGOOD PGOOD Voltage Low
IPGOOD= -4mA
APW7045
Min. Typ. Max.
1.00
-1.0
20
170
+1.0
Unit
V
%
1.5
3
40
V
%
mA
88
15
6
dB
MHz
V/µs
1
2.1
1
1.6
A
115
2
200
28
109
93
2
0.2
3.5
3
Ω
A
Ω
120
%
%
230
µA
µA
0.8
%
%
%
V
Functional Pin Description
VCC (Pin 1)
DRIVE (Pin 2)
Provide a 12V bias supply for the IC to this pin. This
pin also provides the gate bias charge for all the
MOSFETs controlled by the IC. The voltage at this
pin is monitored for Power-On Reset (POR) purposes.
Connect this pin to the gate of an external MOSFET.
This pin provides the drive for the VMEM regulator’s pass
transistor.
Copyright  ANPEC Electronics Corp.
Rev.A.5 - Jan., 2003
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APW7045
Functional Pin Description (Cont.)
(RT to GND, RT ≥ 10kΩ is more accurate)
Conversely, connecting a resistor from this pin to +12V
reduces the switching frequency according to the
following equation :
PGOOD (Pin 3)
PGOOD is an open collector output used to indicate
the status of the output voltages. This pin is pulled
low when the synchronous regulator output is not within
±10% of the DAC reference voltage or linear regulator output is below under-voltage threshold.
Fs =200 +
SD (Pin 4)
(RT to 12V, RT ≥ 250 kΩ is more accurate)
Nominally, the voltage at this pin is 1.26V. In the event
of an over-voltage or over-current condition, this pin
The pin shuts down all the outputs. A TLL-compatible
, logic level high signal applied at this pin immediately
discharges the soft-start capacitor , disabling all the
outputs . Left open , this pin is pulled low by an internal pull-down resistor , enabling operation.
is internally pulled to VCC.
GND (Pin 8)
FB2 (Pin 5)
Signal ground for the IC. All voltage levels are
measured with respect to this pin.
Connect this pin to a resistor divider to set the linear
regulator output voltage (VMEM). The output voltage
COMP and FB1 (Pin 9, and 10)
set by the resistor divider is determined using the
following formula :
VMEM= 1.5V x (1 +
COMP and FB1 are the available external pins of the
PWM converter error amplifier. The FB1 pin is the
inverting input of the error amplifier. Similarly , the
COMP pin is the error amplifier output. These pins are
used to compensate the voltage-mode control feedback loop of the synchronous PWM converter.
ROUT
)
RGND
Where ROUT is the resistor connected from VMEM to
FB2, and RGND is the resistor connected from FB2 to
ground. The voltage at this pin is also monitored for
Under-Voltage protection.
VSEN1 (Pin 11)
This pin is connected to the PWM converter’s output
voltage. The PGOOD and OVP comparator circuits
use this signal to report output voltage status and for
over- voltage protection.
SS (Pin 6)
Connect a capacitor from this pin to ground. This
capacitor , along with an internal 28uA current source
, sets the soft-start interval of the converter.
OCSET (Pin 12)
Connect a resistor (ROCSET ) from this pin to the drain
FAULT (Pin 7)
of PWM converter’s upper MOSFET. ROCSET, an internal 200µA current source (I OCSET ), and the
MOSFET’s on-resistance(RDS(ON)) set the converter’s
over-current (OC) trip point according to the following equation:
This pin provides oscillator switching frequency
adjustment, referring to the typical performence. By
placing a resistor (RT, kΩ) from this pin to GND, the
nominal 200kHz switching frequency is increased
according to the following equation :
Fs =200 +
47920
(kHz)
RT
IPEAK =
IOCSET x ROCSET
RDS(ON)
4000
x (1.16 - 1.4 ) (kHz)
RT
RT-1
Copyright  ANPEC Electronics Corp.
Rev.A.5 - Jan., 2003
5
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APW7045
Functional Pin Description (Cont.)
OCSET (Pin 12)
PHASE (Pin 15)
An over-current trip cycles the soft-start function. The
voltage at this pin is monitored for Power-On Reset
(POR) purpose and pulling this pin low with an open
drain device will shutdown the IC.
Connect the PHASE pin to the PWM converter’s upper MOSFET source. This pin is used to monitor the
voltage drop across the upper MOSFET for over-current protection.
UGATE (Pin 16)
PGND (Pin 13)
Connect UGATE pin to the PWM converter’s upper
MOSFET gate. This pin provides the gate drive for
the upper MOSFET.
This is the power ground connection. Tie the synchronous PWM converter’s lower MOSFET source
to this pin.
LGATE (Pin 14)
Connect LGATE to the PWM converter’s lower
MOSFET gate. This pin provides the gate drive for
the lower MOSFET.
Simplified Power System Diagram
+ 3.3 V IN
5.0V IN
Q3
Q1
V MEM
PW M
C ontroller
Linea r C ontroller
V TT
Q2
A P W 7045
Copyright  ANPEC Electronics Corp.
Rev.A.5 - Jan., 2003
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APW7045
Typical Performance Curve
RT(KΩ) vs. Switching frequency
10000
RT(KΩ)
1000
100
RT Pull up to 12V
10
RT Pull down to GND
1
0
100
200
300
400
500
600
700
800
900
Switching frequency
Typical Application Circuit
R8
12V
10R
C9
1uF
C3
L1
5.0V
C2
330uF
220pF
1uH
C1
10uF
R1
1KR
3.3V
C10
330uF
2
Q7
APM3055L
3
4
R9
VMEM
(2.5V)
Q6A
APM7312
R2
1
5
67RF
C11
330uF
6
R10
100RF
7
C8
0.1uF
8
VCC
UGATE
DRIVE
PHASE
PGOOD
LGATE
SD
PGND
FB2
OCSET
SS
VSEN1
FAULT
GND
FB1
COMP
16
L2
5.1R
15
14
VTT
(1.25V)
7.8uH
13
R3
12
11
Q6B
APM7312
C4
330uF
R4
100RF
5.1R
10
C5
330uF
9
R11
APW7045
R12
NC
OR
R6
C6
C7
2700pF
Copyright  ANPEC Electronics Corp.
Rev.A.5 - Jan., 2003
7
10pF
R5
400RF
3KR
R7
150KR
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APW7045
Package Informaion
SOP-16 (150mil)
D
N
H
GAUGE
PLANE
E
1 2 3
A
e
Dim
A
A1
B
D
E
e
H
L
N
φ1
B
L
1
A1
Millimeters
Min.
0.313
0.024
Inches
Max.
0.407
0.059
Min.
0.053
0.004
2.327
0.927
0.386
0.150
0.094 typ.
2.279
0.886
Max.
0.069
0.010
0.016typ.
0.394
0.157
0.295typ.
0.050typ.
0.165
1.441
0.094
0.295
See variations
0°
8°
0.028
0.244
0.016
0.050
See variations
0°
8°
Copyright  ANPEC Electronics Corp.
Rev.A.5 - Jan., 2003
8
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APW7045
Package Informaion
SSOP-16
D
N
H
GAUGE
PLANE
E
1 2 3
A
Millimeters
1
A1
B
e
L
Variations- D
Dim
Min.
Max.
Variations
Min.
A
1.350
1.75
SSOP-16
4.75
A1
0.10
B
0.20
Inches
Variations- D
Max.
Dim
Min.
Max. Variations Min. Max.
5.05
A
0.053
0.069
0.25
A1
0.004
0.010
0.30
B
0.008
0.012
D
See variations
D
See variations
E
3.75
E
0.147
e
4.05
0.625 TYP.
e
0.160
0.025 TYP.
H
5.75
6.25
H
0.226
0.246
L
0.4
1.27
L
0.016
0.050
See variations
N
See variations
N
φ1
0°
φ1
8°
Copyright  ANPEC Electronics Corp.
Rev.A.5 - Jan., 2003
9
SSOP-16 0.187 0.199
0°
8°
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APW7045
Physical Specifications
Terminal Material
Lead Solderability
Solder-Plated Copper (Solder Material : 90/10 or 63/37 SnPb)
Meets EIA Specification RSI86-91, ANSI/J-STD-002 Category 3.
Reflow Condition
(IR/Convection or VPR Reflow)
temperature
Reference JEDEC Standard J-STD-020A APRIL 1999
Peak temperature
183°C
Pre-heat temperature
Time
Classification Reflow Profiles
Convection or IR/
Convection
Average ramp-up rate(183°C to Peak)
3°C/second max.
120 seconds max
Preheat temperature 125 ± 25°C)
60 – 150 seconds
Temperature maintained above 183°C
Time within 5°C of actual peak temperature 10 –20 seconds
Peak temperature range
220 +5/-0°C or 235 +5/-0°C
Ramp-down rate
6 °C /second max.
6 minutes max.
Time 25°C to peak temperature
VPR
10 °C /second max.
60 seconds
215-219°C or 235 +5/-0°C
10 °C /second max.
Package Reflow Conditions
pkg. thickness ≥ 2.5mm
and all bgas
Convection 220 +5/-0 °C
VPR 215-219 °C
IR/Convection 220 +5/-0 °C
pkg. thickness < 2.5mm and
pkg. volume ≥ 350 mm³
Copyright  ANPEC Electronics Corp.
Rev.A.5 - Jan., 2003
10
pkg. thickness < 2.5mm and pkg.
volume < 350mm³
Convection 235 +5/-0 °C
VPR 235 +5/-0 °C
IR/Convection 235 +5/-0 °C
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APW7045
Reliability test program
Test item
SOLDERABILITY
HOLT
PCT
TST
ESD
Latch-Up
Method
MIL-STD-883D-2003
MIL-STD-883D-1005.7
JESD-22-B, A102
MIL-STD-883D-1011.9
MIL-STD-883D-3015.7
JESD 78
Description
245°C , 5 SEC
1000 Hrs Bias @ 125 °C
168 Hrs, 100 % RH , 121°C
-65°C ~ 150°C, 200 Cycles
VHBM > 2KV, VMM > 200V
10ms , Itr > 100mA
Carrier Tape & Reel Dimensions
t
D
P
Po
E
P1
Bo
F
W
Ko
Ao
D1
T2
J
C
A
B
T1
Application
SOP- 16
(150mil)
Application
SSOP-16
A
B
C
J
330 ± 3
100 + 2
13 + 0.5
2 ± 0.5
F
D
D1
Po
7.5 ± 0.1
P1
1.5 + 0.1 1.5 + 0.25 4.0 ± 0.1
A
B
6.95
5.4
T
T2
W
0.3±0.05
2.2
12.0±0.3
Copyright  ANPEC Electronics Corp.
Rev.A.5 - Jan., 2003
D0
T1
T2
16.4 + 0.3 2.5 ± 0.5
- 0.2
D1
2.0 ± 0.1
Ao
W
16 ± 0.3
Bo
P
E
8.0 ± 0.1 1.75 ± 0.1
Ko
t
6.5 ± 0.1 10.3 ± 0. 1 2.1 ± 0.1 0.3 ± 0.05
E
F
P0
P1
P2
1.75±0.1
5.5±0.05
4.0±0.1
8.0±0.1
2.0±0.05
W1
C1
C2
T1
T2
C
9.5
13±0.3
21±0.8
13.5±0.5
2.0±0.2
80±1
1.55±0.05 1.55±0.1
11
(mm)
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APW7045
Cover Tape Dimensions
Application
SOP- 16
SSOP-16
Carrier Width
24
16.8
Cover Tape Width
21.3
12.3
Devices Per Reel
1000
2500
Customer Service
Anpec Electronics Corp.
Head Office :
5F, No. 2 Li-Hsin Road, SBIP,
Hsin-Chu, Taiwan, R.O.C.
Tel : 886-3-5642000
Fax : 886-3-5642050
Taipei Branch :
7F, No. 137, Lane 235, Pac Chiao Rd.,
Hsin Tien City, Taipei Hsien, Taiwan, R. O. C.
Tel : 886-2-89191368
Fax : 886-2-89191369
Copyright  ANPEC Electronics Corp.
Rev.A.5 - Jan., 2003
12
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