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2012 EU ALSA Training P8P67 Series

Confidential

Agenda • • • • • • • • •

P67 Platform Introduce New Feature P8P67, H67 and H61 Architecture Clock Distribution Power Flow & Critical Power P67 platform Power Sequence Cougar Point & EC Introduce Repair Notice & Trouble Shooting Guide Experience Sharing

Agenda • • • • • • • • •

P67 Platform Introduce New Feature P8P67, H67 and H61 Architecture Clock Distribution Power Flow & Critical Power P67 platform Power Sequence Cougar Point & EC Introduce Repair Notice & Trouble Shooting Guide Experience Sharing

P67 Platform • Sandy Bridge CPU Architecture – – – – – –

LGA 1155 Integrated Memory Controller (IMC) Integrated Graphics support (P67 chipset) Dual-channel DDR3 Intel Turbo Boost 2.0 Technology Intel Hyper-Threading Technology (up to 4 cores, 8 threads) – PCIE Gen2 for 1x16 & 2x8 option

• Intel P67/H67 Chipset Features – – – – – –

2 ports SATA 6Gb/s Support 4 ports SATA 3Gb/s Support RAID 0, 1, 5, 10 Support 14 ports USB2.0 8 Lane PCIE gen2 for x4 & x2 & x1 No PCI support

Agenda • • • • • • • • •

P67 Platform Introduce New Feature P8P67, H67 and H61 Architecture Clock Distribution Power Flow & Critical Power P67 platform Power Sequence Cougar Point & EC Introduce Repair Notice & Trouble Shooting Guide Experience Sharing

New Feature

DIGI+ VRM

DIGI+ VRM Load-line Calibration Change Load-line slope Regular, Medium, High, Ultra High, Extreme

DIGI + Current Capability Increase over current protect point 100%, 110%, 120%, 130%, 140%

DIGI + VRM Frequency Change switch frequency Auto: SSC on or off, Fix: 300MHz~500MHz with 10MHz/step

DIGI+ VRM Phase Control VCORE phase number switch by different setting Standard: by CPU P-state, Optimize: load best profile, Extreme: full phase, Manual: user decide interval value

New Feature

EFI BIOS

• Graphical Interface & OS-like Operation • Mouse-controlled Support

More Settings

Display System Information

System Performance Settings

Boot Priority

New Feature

ASUS BT GO!

Agenda • • • • • • • • •

P67 Platform Introduce New Feature P8P67, H67 and H61 Architecture Clock Distribution Power Flow & Critical Power P67 platform Power Sequence Cougar Point & EC Introduce Repair Notice & Trouble Shooting Guide Experience Sharing

P8P67 Deluxe Architecture

P8H67-M LE Architecture

P8H61-M LX Architecture

P8P67 Series SPEC Table P8P67 Deluxe CPU Socket

P8P67 EVO

P8P67 PRO

P8P67

LGA1155 socket for 2nd Generation Intel® Core™ i7/Core™ i5/Core™ i3 Processors

Chipset

Intel® P67 Express Chipset

Memory

DDR3 2133(O.C.)/1866(O.C.)/1600/1333MHz

Power Design PCIex16 Slots

Multi-GPU Gbit LAN

DIGI+ VRM

DIGI+ VRM

DIGI+ VRM

DIGI+ VRM

4+1

3

3

3

2

2

CrossFireX/SLI

CrossFireX/SLI

CrossFireX/SLI

CrossFireX

CrossFireX

2 (Intel/Realtek)

2 (Intel/Realtek)

1 (Intel)

1

1

16+2

Bluetooth Audio

Storage

USB 1394a

P8P67 LE

12+2

12+2

12+2

Bluetooth v2.1 + EDR 8-ch HD, DTS

8-ch HD, DTS

8-ch HD, DTS

4* SATA 6Gb/s 4* SATA 3Gb/s 2* eSATA (1*PWR eSATA)

-8-ch HD, DTS

8-ch HD

4* SATA 6Gb/s 4* SATA 3Gb/s 1* eSATA (by bracket)

1* Ultra DMA 3* SATA 6Gb/s 4* SATA 3Gb/s 1* eSATA

4* USB 3.0 (2 ports at back panel, 2 ports at mid-board) 12* USB 2.0 2 ports (one at mid-board, one at back panel)

2* USB 3.0 (back)

Agenda • • • • • • • • •

P67 Platform Introduce New Feature P8P67, H67 and H61 Architecture Clock Distribution Power Flow & Critical Power P67 platform Power Sequence Cougar Point & EC Introduce Repair Notice & Trouble Shooting Guide Experience Sharing

P67 Chipset Introduction

P8P67 Deluxe Clock Distribution

P8P67 Deluxe Clock Distribution

P8P67 Deluxe – PCI Buffer

(6G SATA)

+1V_CG +2.5V_DA S_PLTRST#

(PCI)

(PESATA)

Agenda • • • • • • • • •

P67 Platform Introduce New Feature P8P67, H67 and H61 Architecture Clock Distribution Power Flow & Critical Power P67 platform Power Sequence Cougar Point & EC Introduce Repair Notice & Trouble Shooting Guide Experience Sharing

P8P67 Deluxe Critical Power On

Ex: P8P67 PRO

P8H61-M LX Critical Power On

P8P67 Deluxe Critical Power On  CPU:  VCORE • • • •

Processor core power with VRM 12 design Default voltage base on SVID Offset mode: ±0.005~ ±0.635V, 0.005V/step Manual mode: 0.8~1.99V, 0.005V/step

 VCCIO • Processor I/O supply voltage for other than DDR3 (PCIE, DMI, Processor hot..) • Default 1.05V for Sandy Bridge processor (1.00V for future CPU) • OV range: 0.8V~1.7V, 0.00625V/step

 VCCSA • Voltage for the system agent (memory controller) • Default 0.925V for Sandy Bridge processor (0.85V for future CPU) • OV range: 0.8V~1.7V, 0.00625V/step

LGA 1155 Socket

P8P67 Deluxe Critical Power On  CPU: 

1.5VDUAL • • • •



1.8SFR • • •



Processor I/O supply voltage for DDR3 DRAM Device voltage Default value is 1.5V OV range: 1.2V~2.2V, 0.00625V/step

PLL supply voltage Default value is 1.8V OV range: 1.2V~2.2V, 0.00625V/step

VTTDDR • • •

DDR3 termination voltage Default value is 0.75V OV range: None

LGA 1155 Socket

P8P67 Deluxe Critical Power On • PCH: – 1.05PCH: • • • •

Core power for Cougar Point SATA, USB, DMI PLL power source Default value is 1.05V OV range: 0.8V~1.7V, 0.01V/step

– 3VSB: • Power for suspend I/O buffers • Shut off only in G3 state (unless EuP S5) • Default value is 3.33V

– 3V: • Power for core I/O buffers • Shut off in all state unless S0 • Default value is 3.33V

f

P8P67 Deluxe Critical Power On – VCCIO: • Power to drive the processor interface signals • Default value is 1.05V (Base on CPU type) • OV range: 0.8V~1.7V, 0.00625V/step

– 1.8SFR • PLL supply voltage • Default value is 1.8V • OV range: 1.2V~2.2V, 0.00625V/step

f

P8P67 Deluxe Critical Power On • OV Method: – From EC SMBUS: • VCORE: Set SVID by EC SMBUS

– From EC DAC circuit: • • • •

1.8SFR: Set reference voltage by EC DAC output VCCIO: Set reference voltage by EC DAC output VCCSA: Set reference voltage by EC DAC output 1.5VDUAL: Set reference voltage by EC DAC output

– From 3933: • 1.05PCH: Sink or source current to adjust feedback voltage

P8P67 Deluxe Critical Power On • HW Monitor – From EC: • • • •

1.05PCH: Detect by EC AD input VCCIO: Detect by EC AD input 1.8SFR: Detect by EC AD input 1.5VDUAL: Detect by EC AD input

– From SIO: • • • •

VCORE: Detect by SIO CPUVCORE input pin directly +3V: Detect by SIO VCC input pin +5V: Divide to 1V and detect by VIN1 input pin +12V: Divide to 1V and detect by VIN0 input pin

Agenda • • • • • • • • •

P67 Platform Introduce New Feature P8P67, H67 and H61 Architecture Clock Distribution Power Flow & Critical Power P67 platform Power Sequence Cougar Point & EC Introduce Repair Notice & Trouble Shooting Guide Experience Sharing

P8 Power Sequence

P8P67 Deluxe Power Sequence 1. Battery: Battery

a. RTCRST# b. S_RTCRST#

Signal

2. AC Power: a. 5VSB_ATX, 3VSB_ATX

b. 5VSB, 3VSB_ADV, 3VSB

3. RSMRST SIO

4. REF Voltage:

a. P_1.5VDUAL_REF_10 b. P_+VCCSA_REF_10 c. P_+VCCIO_REF_10 d. P_1.8SFR_REF_10

RSMRST

3.2VCC

EC O2_ECRST#

P_1.5VDUAL P_+VCCSA P_+VCCIO P_1.8SFR

P8P67 Deluxe PowerPower Sequence P8P67 Deluxe Sequence 5. Power On: a. O_PWRBTN#IN b. O_PWRBTN#

SIO

PANEL

6. SLP_S3&S4: SIO

7. PS_ON: SIO

8. 12V, 5V, 3V 9. ATX_PWRGD 10. VCCIO, 1.5V_DUAL, VTTDDR, 1.8SFER, 1.1V, 1.05PCH

Power Supply

P8P67 Deluxe - Power Sequence P8P67 Deluxe Power Sequence 11. H_VCCIOPWRGD

1156 CPU

12. S_DRAMPWRGD 13. All Clock 14. VCORE (initial is 1V), VCCSA

15. P_VCORE_VRRDY_6 16. VRMPWRGD#

17. SIO_PWROK 18. O_PWROK

MB Logic Circuit

SIO

P8P67 Deluxe - Power Sequence P8P67 Deluxe Power Sequence 19. H_CPUPWRGD

20. H_VIDALERT#, H_VIDCLK, H_VIDDATA

21. S_SPLRST 22. O_PCIRST#_PCIEX16_1&2&3 23. H_CPURST# 24. VAUX

1156 CPU

1156 CPU

Agenda • • • • • • • • •

P67 Platform Introduce New Feature P8P67, H67 and H61 Architecture Clock Distribution Power Flow & Critical Power P67 platform Power Sequence Cougar Point & EC Introduce Repair Notice & Trouble Shooting Guide Experience Sharing

P67 Chipset Introduction

P67 Chipset Introduction Power Interface: RTC, Power Mgmt, Misc Signals, Processor Interface

Communication Interface/ Main Signals: SPI, Direct Media Interface, LPC Interface, SMBus Interface, Interrupt Interface, Clock

Function Interface: PCI, USB, Serial ATA, Audio, PCI Express Interface, FAN Control

P67 Chipset Power/ RTC Interface (1) 1. RTC: S_ICH_RTCX1 S_ICH_RTCX2 input clock (the real-time clock) Connect with a 32.768 Crystal & 3V Battery

2. Processor Interface: H_THERMTRIP Thermal Trip: When low, this signal indicates that a thermal trip from the processor occurred, and the Cougar Point will immediately transition to a S5 state

H_CPUPWRGD PCH send signal for processor and processor will give the real VID to produce real VCORE for processor

3. Misc Signal: S_INTVRMEN/ S_DSWVRMEN This signal enables the internal 1.05V regulators. It must be always pulled-up to VccRTC.

RTCRST#/ SRTCRST# This signal resets the manageability register bits in the RTC well when the RTC battery is removed. INIT3_3V#

P67 Chipset Power/ RTC Interface (2) 4. Power Mgmt: SLP_S3, SLP_S4 SLP_S3# is for power plane control. This signal shuts off power to all non-critical systems when in S3 (Suspend To RAM), S4 (Suspend to Disk), or S5 (Soft Off) states.

S_PDWROK Power OK Indication for the VccDSW3_3 voltage rail. This input is tied together with RSMRST# on platforms that do not support Deep status.

DRAMPWROK This signal should connect to the Processor’s SM_DRAMPWROK pin. The PCH asserts this pin to indicate when DRAM power is stable.

PLTRST# Platform Reset: The Cougar Point asserts PLTRST# to reset devices on the platform (e.g., SIO, FWH, LAN, Processor, etc.)

PWRBTN#

P67 Chipset Power/ RTC Interface (3) 4. Power Mgmt: O_PWROK PWROK can be driven asynchronously. When PWROK is negated, the cougar Point asserts PLTRST#.

O_RING# This signal is an input from a modem. It can be enabled as a wake event, and this is preserved across power failures.

RSMRST# Resume Well Reset: This signal is used for resetting the resume power plane logic

VRMPWRGD SYS_PWROK is used to inform the Cougar Point that power is stable to some other system component(s) and the system is ready to start the exit from reset.

O_RSTCON S_SUSACK# S_SUSWARN# S_SLPSUS#

Communication Interface/ Main Signals (1) 1. DMI: H_DMI_TXP[3:0] H_DMI_TXN[3:0] H_DMI_RXP[3:0] H_DMI_RXN[3:0] Direct Media Interface (DMI) is the chip-to-chip connection between the processor and Cougar Point chipset.

H_DMI_COMP Impedance Compensation and it connects with 1.05V

2. LPC: F_LAD#[3:0] F_FRAME# F_DRQ0#

3. Interrupt Interface: F_SERIRQ

Communication Interface/ Main Signals (2) 4.

SPI:

SPI_CS# SPI_MISO SPI Master IN Slave OUT: Data input pin for Cougar Point.

SPI_MOSI SPI Master OUT Slave IN: Data output pin for Cougar Point.

SPI_CLK

5.

SMBus:

S_SMBDATA_PCI / S_SMBCLK_PCI

6.

Clock:

P67 Chipset Function Interface & Others 1. 2. 3. 4.

SATA: USB: Audio: Fan Speed Control

5.

PCI Express Interface

P67 Chipset support 8 PCIE USB3.0 X1 USB3.0 X1 LAN X1 PCIE Buffer X1 PCIEX16 X4

P67 Chipset Power +1.05PCH

+BAT_3V +1.05PCH +3VSB +1.8SFR +1.05PCH +1.05PCH

+3V

P67 Chipset Power +5V +5VSB +1.05PCH

+3V +1.05ME +VCCIO +VCCIO

+VCCIO 3VSB_SB

P67 Chipset PIN Strap Pin Straps: When booting on, some pins CPU/PCH/SIO will detect high/ low status. According these status, CPU/PCH/SIO will set different response. If strap is abnormal, it would cause CPU/PCH do the wrong action=>can’t boot up

BIOS Straps: EX: P8P67 Deluxe Bit11: K_GNT_#1_PCH Bit10: N14465937 Bit11

Bit10

Boot BIOS Destination

0

1

Reserved

1

0

PCI

1

SPI

0

LPC

1 0

+VCCIO

P8P67 Deluxe – EC Introduce

Power PIN: PIN6, 18, 54, 61: +O2_3.2V_AVCC PIN35: +3VSB Clock PIN: PIN9, (C_PCI_EC) PIN58, 59 (O2_XCLI) 32.769 Crystal Reset PIN: PIN22 (O2_ECRST) PIN10 (S_PLTRST#)

P8P67 Deluxe – EC Introduce SPI Flash : PIN56, 67, 62, 64 MISO 56 (read control signal) MOSI 57 (write control signal) SPICLK 62 (clock output) SPICS# 64 (chip select signal) SMB Bus : PIN45, 46 SCL0 45 (SMBUS clock) SDA0 46 (SMBUS data) Low Pin Count PIN:

P8P67 Deluxe – EC Introduce

P8P67 Deluxe – EC Introduce Digital-to-Analog Converter : PIN36, 38, 39, 40 (8bit D/A converter output) P_1.5VDUAL_REF_10 P_VCCA_REF_10 P_VCCIO_REF_10 P_1.8FSR_REF_10 Others Signals: PIN24: O2_TP_TEST (High: normal mode using 32KHz oscillator) PIN29: O2_DAC_SWITCH PIN51: J_SILENT# PIN13: SMB_SWITCH

PIN63: H_VCCIO_SEL# (Let EC to choose this PIN to be low or high) If VCCIO_SEL is low, VCCIO must be 1V; If VCCIO_SEL is high, VCCIO must be 1.05V.

Agenda • Repair Notice & Trouble Shooting Guide – – – – – –

RTC/Battery Power on VCORE Display/VGA/DVI Memory LAN/USB/other function

• Experience Sharing

P8P67 Deluxe Power – RTC/CMOS/Battery Repair Process & Analysis: 1. Visually Inspect: 2. CLR_COMS: Check CMOS button is normal or not 3. Voltage: 3V(+BAT_3V>2.4V) 4. Frequency: (1)Check 32.768 (SX1), voltage and CLK of 2 pins need to be normal (2)If SX1 has no power and CLK, check PCH BAT/VSB voltage and related circuit is normal first. 5. Others signal: (1)Measure 1Kohm+BAT_R(SR73) (2)Measure the leakage current at SR100 (1uA~10uA) (3) S_SRTCRST# (4)S_RSTRST#

P8P67 Deluxe Power – Can’t Power On (1) Repair Process & Analysis: 1. Visually Inspect: 2. Press power switch: (1)Check PWRBTN can be pulled low (2)Check PSON# can be pulled low 3. Voltage: (1)BAT (2)5VSB_ATX, 3VSB_ATX (3)5VSB, 3VSB_ADV, 3VSB If BIOS enable EuP, only ATX exist at S5 state 4. Signals: (1)SIO: a. RSMRST# b. O_PWRBTN# c. O_PWRBTN#IN _R d. PSON#

P8P67 Deluxe Power – Can’t Power On (2) Repair Process & Analysis: (2)EC: a. O_PWRBTN#IN b. P_1.5VDUAL_REF_10 (About 1.5V) c. P_VCCA_REF_10 (About 0.7V) d. P_VCCIO_REF_10 (About 0.7V) e. P_1.8FSR_REF_10 (About 1.8V) f. O2_ECRST g. O2_DAC_SWITCH (3)PCH: a. S_SLPS3# b. S_SLPS4# c. DSWVRMEN g. INTVRMEN

(above 2V) (above 2V)

(4)Others: a. 32.768 Crystal b. H_SKTOCC# When installing CPU, this pin should be low. Normal is under 0.8V.

P8P67 Deluxe Power – Can’t Power On (3) Repair Process & Analysis: (4)Others: a. 32.768 Crystal b. H_SKTOCC# When installing CPU, this pin should be low. Normal is under 0.8V.

Status

Level (H_SKTOCC#)

Level (O_CPU_REMOVE#)

Without CPU

High

High

Installing CPU

Low

Low

P8P67 Deluxe Power – DEEPS5 to S5 (1) • Some high end MB will be set S5 status at default. • Other MB are set in DeepS5 status to save the power energy

SIO

SIO

Power

S5 with EuP off S5 with EuP on (DeepS5)

5VSB_ATX, 3VSB_ATX

O

O

+5VSB

O

X

+3VSB_ADV

O

X

+3VSB

O

X

+5V_DUAL_USBKB

O

X

+3V_DUAL_LAN

O

X

P8P67 Deluxe Power – DEEPS5 to S5 (2) 5VSB

3. Low level

1.Pull low

2. Low level (0.42V)

P8P67 Deluxe Power – 5VSB to 3VSB • 5VSB through the circuit to provide voltage for +3VSB_ADV • +3VSB_ADV through the circuit to transfer power for 3VSB

Low level

P8P67 Deluxe Power – USBKB Voltage

1

2

3

4

P8P67 Deluxe – VCORE (1) +12V

Before P8 VCORE Design

BOOT VCC

UGATE

Drive PHASE PWM

FB Circuit

LGATE

+5V

+12V

+5V +Vcore

BOOT VFB VCC

COMP

VCC

1K PWM1

VSEN

10K

VIDn

PWM2

PGOOD

…..

CPU

VCORE_EN

Drive PHASE PWM LGATE

Main Control

VID2 VID1 VID0

VCORE

UGATE

VID

PWM3 . . . . ISEN1 ISEN2

FS

EX: 0 0 1 1 0 1 1

+12V

ISEN3 . . . BOOT

GND VCC

VCC PWM

UGATE

Drive PHASE LGATE

PWM Control

P8P67 Deluxe – VCORE (2)

4

2 Low POQ1014 can’t be conducted

1

3

X

P8P67 Deluxe – VCORE (3) +12V

P8 VCORE Design

BOOT VCC

UGATE

Drive PHASE PWM

FB Circuit

LGATE

+12V

+5V +Vcore

BOOT VFB VCC

COMP

PWM1

VSEN

VCORE_EN PWM2

PGOOD

CPU

H_VIDALERT# H_VIDCLK H_VIDDATA

VCC

Drive PHASE PWM LGATE

Main Control

PWM3 . . . . ISEN1 ISEN2 +12V

ISEN3 . . .

FS

BOOT

GND VCC

VCC PWM

UGATE

Drive PHASE LGATE

PWM Control

VCORE

UGATE

P8P67 Deluxe - VCORE (4)

4

X

2 3

Low POQ101 can’t be conducted

1

P8P67 Deluxe – VCCSA

2

1

Low POQ1014 can’t be conducted

3

X 4

P8P67 Deluxe – No VCORE (1) Repair Process & Analysis: 1. Visually inspect: 2. VCORE MOS: Check MOS is normal or not. 3. Voltage can’t be short: (Check signals as below are normal) (1) The impedance of VCORE (2) The impedance of 12V_8PIN (3) The impedance of 12V_8PIN & VCORE 4. VCORE IC & driver main power: PU100 PIN4 P_VRMVCC_20 3V PU102~109 PIN3 12V, P_VCORE_BST*_20 12V 5. Enable signal: Measure PU100 PIN21 has 1.1V

P8P67 Deluxe - No VCORE (2) Repair Process & Analysis: 6. VID signal: Measure the impedance of H_VIDALERT#, H_VIDCLK, H_VIDDATA and compare with golden sample 7. PWM signal: P_VCORE_PWM*_5 need to have Square wave 8. PWRGD signal: P_VCORE_VRRDY_6 has 1.1V

P8P67 Deluxe PCIEX16 Slot Repair Process & Analysis:

PCIEX16 SLOT1,2 1156 CPU

1. Visually inspect:

2. Voltage : (1) 12V (2) 3V (3) 3VSB

PCIEX16 SLOT 3

3. CLK signal: A13, 14 has C_PCIEX16_1, C_PCIEX16#_1 (PCH send these signal to PCIEX16) 4. Reset signal: Check PCIEX16 Slot Pin A11 O_PCIRST#_PCIEX16_1, SIO PIN79 send O_PCIRST#_PCIEX16_1 for PCIEX16

Check the capacitors

Compare with P8P67 Deluxe Display Repair Process & Analysis: 1. Visually inspect: 2. Voltage : Main Power is GFX voltage 3. Control signal: Check each device impedance for normal (Power, RGB signals, …)

Control signal

4. FDI Bus Signal: H_FDI_COMP H_FDI_FSYNC0 H_FDI_FSYNC1 H_FDI_INT H_FDI_LSYNC0 H_FDI_LSYNC1

Display Port, Like: VGA, DVI, HDMI

GFX

FDI BUS

For P8H61, P8H67 Series chipset

P8P67 Deluxe Memory (1) Repair Process & Analysis: 1. Visually inspect: (1) check memory slot if it has break line or PIN impairment (CID). (2) check if memory’s capacitors, inductors, resistances and other components are lost or damaged. (3) check if transmission line between memory and CPU is broken.

S_SMBDATA_MAIN

1.5VDUAL 3V

VTT_DDR S_SMBCLK_MAIN

2. BIOS setting :

3. Voltage (1)Check 1.5VDUAL, normal is1.5V. (2)Check +VTTDDR(PU202 PIN4) is 0.75 (3) Check DIMM_A1/A2 PIN67 D3_VREFCA_A, ,normal is 0.75V Check DIMM_B1/B2 PIN67 D3_VREFCA_B, ,normal is 0.75V Check DIMM_A1/A2 PIN1 D3_VREFDQ_A, normal is 0.75V Check DIMM_B1/B2 PIN1 D3_VREFDQ_B, normal is 0.75V；

P8P67 Deluxe Memory (2)

(4)checkPIN238 (5)check each slot of PIN118 S_SMBCLK_MAIN , after d3 is 3.3V (6)check each slot of PIN238 S_SMBDATA_MAIN , after d3 is 3.3V (7)Check S_DRAMPWRGD signal is good (connect with 1.5VDUAL) 4. Frequency memory clock is controlled by CPU : D3_MA_CLK0 ~ D3_MA_CLK3 ; D3_MA_CLK#0 ~ D3_MA_CLK#3 D3_MB_CLK0 ~ D3_MB_CLK3 ; D2_MB_CLK#0 ~ D2_MB_CLK#3 5. Address, Data and Control Line check Ad signal and control signal for good: D3_DQ_A0~D3_DQ_A63 ; D3_DQS_A0~D3_DQS_A17 ; D3_DQS_A#0~D3_DQS_A#17 D3_DQ_B0~D3_DQ_B63 ; D3_DQS_B0~D3_DQS_B17 ; D3_DQS_B#0~D3_DQS_B#17

P8P67 Deluxe KB/MS Repair Process & Analysis: 1. Visually inspect: 2. BIOS : (1)UPDATE BIOS (2) COMS 3. Voltage: Check PS/2 Working voltage +O_KBMS_5V_F

4. Signal:

5. Reset signal: O_KB_RST# (Form SIO)

P8P67 Deluxe Serial ATA Repair Process & Analysis: 1. Visually inspect: 2. BIOS : (1)UPDATE BIOS (2) COMS 3. CLK: Check SX2，T2X1 25MHZ 4. Signal: Check SATA Capacitors which connecting with T2U1/PCH is short or not (TXP,TXN,RXN,RXP ) 5. T2U1 Check Power and CLK with PEX8608 BUS and check PEX8608 working condition and S_PLTRST# are normal 6.

PCH Check VCCSATA_PLL_PCH, S_SATA3_RCOMP, SATA_RBIAS, SATA3_RBIAS

P8P67 Deluxe LAN (1)

P8P67 Deluxe LAN (2) Repair Process & Analysis: 1. Visually inspect: 2. BIOS : (1)UPDATE BIOS (2) COMS 3. Voltage: (1.)Check PQ885 PIN2 3V_DUAL_LAN; (2.)Check L2R16 PIN2 +L2_EVDD(1.05V) 4. CLK: (1.)Network card frequency 25MHz(L2X1); (2)PCI-EX1 main line frequency C_PCIE_L2#, C_PCIE_L2 (PIN20,19)

5. reset signal network card PIN25 S_PLTRST# is the 3V 6. Other signals (1) If can’t recognize the network card, check the PCIEX1 BUS signal (the figure above blue color); (2) 10/100/1000M pay attention to check the MDI signal (the figure above brown)

P8P67 Deluxe USB (1) Repair Process & Analysis: 1. Visually inspect: 2. BIOS : (1)UPDATE BIOS (2) COMS 3. Voltage: Check USB power supply fuse both sides whether voltage is 5V (U3QF2, U3QF1) 4. Signal: U3RXDN, U3RXDP, U3TXDN, U3TXDP, U2DN2, the U2DP2

P8P67 Deluxe USB (2) Repair Process & Analysis: 5. UPD720200 (1)voltages: +3VSB_ADV,+U3_+1.05V_DVDD

(2)frequency: 24MHz crystal oscillator, C_PCIE_U3#, C_PCIE_U3 (3)PCI-EX1 main BUS: X_U3X1_RXN, X_U3X1_RXP, X_U3X1_TXN, X_U3X1_TXP and S_PLTRST# Other signals: FLASH ROM power is normal

If the starting prompt over current protects 15second to shut down, check the USB overflow protection circuit

Agenda • • • • • • • • •

P67 Platform Introduce New Feature P8P67, H67 and H61 Architecture Clock Distribution Power Flow & Critical Power P67 platform Power Sequence Cougar Point & EC Introduce Repair Notice & Trouble Shooting Guide Experience Sharing

P8P67 Deluxe

~Q &A~

~THANK YOU~