ANPEC APW7035AKC-TR, APW7035-20KC-TU, APW7035-20KC-TR, APW7035-12KC-TU, APW7035DKC-TR Datasheet

Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jul., 2001

APW7035

www.anpec.com.tw1

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.

Advanced PWM and Linear Power Control

Features

••

••

•

2 Regulated Voltage are provided

− Switching Power for Fixed Voltage (1.25V /

2.05V) or Adjustable Voltage

− Linear Regulator for FBVDDQ(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

− Constant Frequency Operation(200kHz)

− Reduce External Component Count

Applications

••

••

• Motherboard Power Regulation for Computers

••

••

• Low-Voltage Distributed Power Supplies

••

••

• VGA Card Power Regulation

••

••

• Termination Voltage

General Description

The APW7035 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 reference voltage (1.25V) or GPU Voltage
(2.05V) with a synchronous-rectified buck converter.
The linear controller regulates power for Memory
Voltage.

The precision reference and voltage-mode PWM
control provide ±1% static regulation. The linear con­troller drives an external N-channel MOSFET to pro­vide adjustable voltage.

The APW7035 monitors all the output voltages , and
a single Power Good signal is issued when the PWM
Voltage is within ±10% of the DAC setting and the
Linear regulator output levels are above their under­voltage thresholds. Additional built-in over-voltage pro­tection for the PWM output uses the lower MOSFET
to prevent output voltages above 1 15% of the DAC
setting. The PWM over-current function monitors the
output current by using the voltage drop across the
upper MOSFET’s R

DS(ON)

, eliminating the need for a

current sensing resistor.
The APW7035A/B/C/D support a TTL 3-input Digital

to Analog converter that adjusts the synchronous­rectified buck converter output from 1.00V to 3.20V ,
referenc to T able1.

Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jul., 2001

APW7035

www.anpec.com.tw2

Pin Description

Ordering Information

Block Diagram

APW7035-12/19

PGOOD

LGATE

OCSET

PGND

UGATE
PHASEDRIVE

VCC

SS

VSEN1

VAUX

FB
COMP

1

1110

129

13

16

8

14

15

7

6

17

18

19

20

5

4

3

2

NCNC

NC

SD

VSEN2

NC

GND

VID0

LGATE

OCSET

PGND

UGATE
PHASEDRIVE

VCC

SS

VSEN1

VAUX

FB
COMP

1

1110

129

13

16

8

14

15

7

6

17

18

19

20

5

4

3

2

NCNC

VID1

SD

VSEN2

VID2

GND

APW7035A/B/C/D

APW7035

Voltage Code
12 : 1.25V 20 : 2.05V A : 1.00V~1.35V
B : 1.40V~1.75V C : 1.80V~2.40V D : 2.50V~3.20V
Package Code
K : SOP
Temp. Range
C : 0 to 70 C
Handling Code
TU : Tube TR : Tape & Reel

°

Handling Code
Temp. Range
Package Code
Voltage Code

PGOOD

Power-on

Reset (POR)

VCC

200mA



1.10

+

-

GATE

CONTROL

+

­PWM

COMP1

SYNCH

DRIVE

OV

UGATE

PHASE

V

CC

LGATE

PGND

COMPFB

OCSETVSEN1

ERROR

AMP1

PWM1

VCC

INHIBIT

OC1

VAUX

DRIVE

+

-

+

-

+

-

+

-



0.90



1.15

VAUX

GND

VSEN2

+

-



0.75

+

-

1.5V

+

-

DAC

+

-

SOFT

START &

FAULT
LOGIC

SS

OSCILLATOR

INHIBIT

SD

V

CC

28mA

4.5V

DAC

+

-

VID0

VID1VID2

V

DAC

Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jul., 2001

APW7035

www.anpec.com.tw3

Absolute Maximum Ratings

Symbol Parameter Rating Unit

V

CC

Supply Voltage 15 V

VI , V

O

Input , Output or I/O Voltage GND -0.3 V to VCC +0.3 V

T

A

Operating Ambient Te mperature Range 0 to 70

°C

T

J

Junction Temperature Range 0 to 125

°C

T

STG

Storage Temperature Range -65 to +150

°C

T

S

Soldering Temperature 300 ,10 seconds

°C

Electrical Characteristics

Thermal Characteristics

Symbol Parameter Value Unit

R

θ

JA

Thermal Resistance in Free Air

SOIC
SOIC (with 3in

2

of Copper)

75
65

°C/W

(Recommended operating conditions , Unless otherwise noted) Refer to Block and Simplified Power System
Diagrams , and Typical Application Schematic.

APW7035

Symbol Parameter Test Conditions

Min. Typ. Max.

Unit

VCC Supply Current

I

CC

Nominal Supply Current

UGATE, LGATE, DRIVE
open

9mA

Power-on Reset

Rising VCC Threshold Vocset=4.5V 10.7 V
Falling VCC Threshold Vocset=4.5V 8.2 V
Rising VAUX Threshold Vocset=4.5V 2.5 V
VAUX Threshold Hysteresis Vocset=4.5V 0.5 V
Rising V

OCSET

Threshold 1.26 V

Oscillator

F

OCS

Free Running Frequency RT= Open 185 200 215 kHz

∆

V

OSC

Ramp Amplitude RT= Open 1.9 V

P-P

Copyright  ANPEC Electronics Corp.
Rev. A.4 - Jul., 2001

APW7035

www.anpec.com.tw4

Electrical Characteristics Cont.

APW7035

Symbol Parameter Test Conditions

Min. Typ. Max.

Unit

DAC and Bandgap Reference

V

DAC

DACOUT Voltage accuracy -1.0 +1.0 %

V

BG

Bandgap Reference Voltage 1.265 V
Bandgap Reference Tolerance -2.5 +2.5 %

Linear Regulators

Regulation 3 %
Output Drive Current VAUX-V

DRIVE

>0.6V 20 40 mA

Synchronous PWM Controller Error Amplifier

DC Gain 88 dB

GBWP Gain-Bandwidth Produc t 15 MHz

SR Slew Rate COMP=10pF 6

V/µs

PWM Controller Gate Driver

I

UGATE

UGATE Source VCC=12V, V

UGATE

=6V 1 A

R

UGATE

UGATE Sink V

UGATE1-PHASE

=1V 3.5

Ω

I

LGATE

LGATE Source VCC=12V, V

LGATE

=1V 1 A

R

LGATE

LGATE Sink V

LGATE

= 1V 3

Ω

Protection

VSEN1 Over-Voltage VSEN1 Rising 115 120 %

Protection

I

OCSET

OCSET Current Source V

OCSET

= 4.5V

DC

170 200 230

µ

A

I

SS

Soft Start Current 28

µ

A

Power Good

VSEN1 Upper Threshold VSEN1 Rising 109 %
VSEN1 Under Voltage

VSEN1 Rising

93 %

VSEN1 Hysteresis Upper /Lower Threshold 2 %

V

PGOOD

PGOOD Voltage Low I

PGOOD

= -4mA 0.8 V

Functional Pin Description

(Recommended operating conditions , Unless otherwise noted) Refer to Block and Simplified Power System
Diagrams , and Typical Application Schematic.

VCC (Pin 1)

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.

DRIVE (Pin 2)

Connect this pin to the gate of an external MOSFET.
This pin provides the drive for the FBVDDQ
regulator’s pass transistor.