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www..com F71882 F71882 Super Hardware Monitor + LPC I/O Release Date: Nov., 2006 Version: V0.24P Nov., 2006 V0.24P www..com F71882 F71882 Datasheet Revision History Version 0.20P 0.21P Date 2005/10/14 2005/12/08 Page 8 13 50 53 103 105 106 107 0.21P 0.22P 2005/12/14 2005/12/19 10 11 12 47 56 111 59 Revision History Release Version Added New SPI Function of Pin1 Added New SPI Function Description of Power on Strapping Option (Pin1 & Pin5) Added F1 Register Description of SPI Device Config. Registers. Modified ROM Address Select Register Index 27h Bit5 Description. Added Output Voltage Control Register 3 Index 09h Description. Added SPI Timeout Register Index F1h Added SPI Status Register Index F3h Bit 6-5 Description. Added SPI Memory Mapping Register Index F7h Description. Updated the schematics Added description of Pin 26 Modified Pin 77 that GPIO23 be the default function Added SST/PECI Function on Pin 57/58 Multi Function Select 4 Register Index 2Ch bit3 default is 1 Multi Function Select 4 Register Index 2Ch bit3 default is 1 ACPI Control Register Index F5h bit 5 be set 0 Added ALERT# function on Pin 64 Added FAN60_100 power on strap pin on Pin 121 Added WDTRST# function on Pin56 Updated register description Updated application circuits Modified the description of Wakeup Control Register 2Dh bit 7(SPI_CS1_EN) 0.23P 2006/1/19 0.24P 2006/11/23 Please note that all data and specifications are subject to change without notice. All the trade marks of products and companies mentioned in this data sheet belong to their respective owners. LIFE SUPPORT APPLICATIONS These products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be expected to result in personal injury. Customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Fintek for any damages resulting from such improper use or sales. Nov., 2006 V0.24P www..com F71882 Table of Content 1. 2. 3. 4. 5. 6. 7. 8. General Description ........................................................................................................................1 Feature List .....................................................................................................................................1 Key Specification............................................................................................................................4 Block Diagram ................................................................................................................................4 Pin Configuration............................................................................................................................5 Pin Description................................................................................................................................5 6.1 Power Pin ....................................................................................................................................6 6.2 LPC Interface ..............................................................................................................................6 6.3 FDC.............................................................................................................................................6 6.4 UART and SIR ............................................................................................................................7 6.5 Parallel Port.................................................................................................................................9 6.6 Hardware Monitor.....................................................................................................................10 6.7 ACPI Function Pins ..................................................................................................................11 6.8 VID Controller ..........................................................................................................................12 6.9 KBC Function ...........................................................................................................................13 Function Description.....................................................................................................................14 7.1 Power on Strapping Option.......................................................................................................14 7.2 FDC...........................................................................................................................................14 7.3 UART........................................................................................................................................29 7.4 Parallel Port...............................................................................................................................32 7.5 Hardware Monitor.....................................................................................................................36 7.6 Keyboard Controller .................................................................................................................45 7.7 SPI Interface..............................................................................................................................46 7.8 ACPI Function ..........................................................................................................................47 7.9 AMDSI and Intel SST PECI Function......................................................................................49 Register Description......................................................................................................................51 8.1 Global Control Registers...........................................................................................................55 8.2 FDC Registers (CR00)..............................................................................................................60 8.3 UART1 Registers (CR01) .........................................................................................................63 8.4 UART 2 Registers (CR02) ........................................................................................................64 8.5 Parallel Port Registers (CR03)..................................................................................................66 8.6 Hardware Monitor Registers (CR04)........................................................................................68 8.6.2.1 HW Monitor Config. Register Index 01h .....................................................................69 Nov., 2006 V0.24P www..com F71882 8.6.2.2 8.6.2.3 8.6.2.4 8.6.2.5 8.6.2.6 8.6.2.7 8.6.2.8 8.6.2.9 8.6.2.10 8.6.2.11 8.6.2.12 8.6.2.13 8.6.2.14 8.6.2.15 8.6.2.16 8.6.2.17 8.6.2.18 8.6.2.19 8.6.2.20 8.6.2.21 8.6.2.22 8.6.2.23 8.6.2.24 8.6.2.25 8.6.2.26 8.6.2.27 8.6.2.28 8.6.2.29 8.6.2.30 8.6.2.31 8.6.2.32 8.6.2.33 8.6.2.34 8.6.2.35 8.6.2.36 8.6.2.37 8.6.2.38 BEEP OVT ALERTConfig. Register Index 02h............................................................69 Case Open Config. Register Index 03h..........................................................................69 PECI AMDSI Select Register Index 0Ah ......................................................................70 PECI CPU Select Register Index 0Bh (MEAS_TYPE == 2'b01)..............................70 AMDSI Version Register Index 0Bh (MEAS_TYPE ==2'b10).................................70 TCC Temp. Register Index 0Ch (MEAS_TYPE == 2'b01) .......................................70 AMDSI Node ID Register Index 0Ch (MEAS_TYPE ==2'b10) ...............................70 SST Address Register Index 0Dh ..................................................................................70 VID Divide Register Index 0Eh...................................................................................71 Configuration Register Index 0Fh................................................................................71 Voltage1 PME# Enable Register Index 10h.................................................................72 Voltage1 Interrupt Status Register Index 11h ..............................................................72 Voltage1 Exceeds Real Time Status Register 1 Index 12h ..........................................72 Voltage1 BEEP Enable Register Index 13h .................................................................72 Voltage reading and limit Index 20h- 4Fh ....................................................................72 Temperature PME# Enable Register Index 60h...........................................................73 Temperature Interrupt Status Register Index 61h ........................................................73 Temperature Real Time Status Register Index 62h......................................................74 Temperature BEEP Enable Register Index 63h ...........................................................75 OVT Output Enable Register 1 Index 66h...................................................................75 Temperature Sensor Type Register Index 6Bh ............................................................75 TEMP1 Limit Hystersis Select Register -- Index 6Ch.....................................................76 TEMP2 and TEMP3 Limit Hystersis Select Register -- Index 6Dh ................................76 DIODE OPEN Status Register -- Index 6Fh....................................................................76 Temperature Filter Select Register -- Index 8Eh .............................................................77 FAN PME# Enable Register Index 90h .......................................................................78 FAN Interrupt Status Register Index 91h.....................................................................78 FAN Real Time Status Register Index 92h ..................................................................79 FAN BEEP# Enable Register Index 93h .....................................................................79 Fan Type Select Register -- Index 94h.............................................................................79 Fan mode Select Register -- Index 96h............................................................................80 Auto Fan1 and Fan2 Boundary Hystersis Select Register -- Index 98h ..........................81 Auto Fan3 and Fan4 Boundary Hystersis Select Register -- Index 99h ..........................82 Auto Fan3 and Fan4 Boundary Hystersis Select Register -- Index 9Bh..........................82 FAN1 and FAN2 START UP DUTY-CYCLE/VOLTAGE Index 9Ch ........................82 FAN3 and FAN4 START UP DUTY-CYCLE/VOLTAGE Index 9Dh ........................83 Fan Fault Time Register -- Index 9Fh..............................................................................83 Nov., 2006 V0.24P www..com F71882 8.6.2.39 8.6.2.40 8.6.2.41 8.6.2.42 8.6.2.43 8.6.2.44 8.6.2.45 8.6.2.46 8.6.2.47 8.6.2.48 8.6.2.49 8.6.2.50 8.6.2.51 8.6.2.52 8.6.2.53 8.6.2.54 8.6.2.55 8.6.2.56 8.6.2.57 8.6.2.58 8.6.2.59 8.6.2.60 8.6.2.61 8.6.2.62 8.6.2.63 8.6.2.64 8.6.2.65 8.6.2.66 8.6.2.67 8.6.2.68 8.6.2.69 8.6.2.70 8.6.2.71 8.6.2.72 8.6.2.73 8.6.2.74 8.6.2.75 VT1 BOUNDARY 1 TEMPERATURE - Index A6h......................................................84 VT1 BOUNDARY 2 TEMPERATURE - Index A7........................................................84 VT1 BOUNDARY 3 TEMPERATURE - Index A8h......................................................85 VT1 BOUNDARY 4 TEMPERATURE - Index A9........................................................85 FAN1 SEGMENT 1 SPEED COUNT - Index AAh ....................................................85 FAN1 SEGMENT 2 SPEED COUNT - Index ABh.....................................................86 FAN1 SEGMENT 3 SPEED COUNT - Index ACh...................................................86 FAN1 SEGMENT 4 SPEED COUNT - Index ADh ..................................................86 FAN1 SEGMENT 5 SPEED COUNT - Index AEh...................................................86 FAN1 Temperature Mapping Select - Index AFh.......................................................86 VT2 BOUNDARY 1 TEMPERATURE - Index B6h......................................................88 VT2 BOUNDARY 2 TEMPERATURE - Index B7........................................................88 VT2 BOUNDARY 3 TEMPERATURE - Index B8h......................................................88 VT2 BOUNDARY 4 TEMPERATURE - Index B9........................................................88 FAN2 SEGMENT 1 SPEED COUNT - Index BAh ....................................................89 FAN2 SEGMENT 2 SPEED COUNT - Index BBh.....................................................89 FAN2 SEGMENT 3 SPEED COUNT - Index BCh...................................................89 FAN2 SEGMENT 4 SPEED COUNT - Index BDh ..................................................89 FAN2 SEGMENT 5 SPEED COUNT - Index BEh...................................................90 FAN2 Temperature Mapping Select - Index BFh.......................................................90 VT3 BOUNDARY 1 TEMPERATURE - Index C6h......................................................91 VT3 BOUNDARY 2 TEMPERATURE - Index C7........................................................91 VT3 BOUNDARY 3 TEMPERATURE - Index C8h......................................................92 VT3 BOUNDARY 4 TEMPERATURE - Index C9........................................................92 FAN3 SEGMENT 1 SPEED COUNT - Index CAh ....................................................92 FAN3 SEGMENT 2 SPEED COUNT - Index CBh.....................................................93 FAN3 SEGMENT 3 SPEED COUNT - Index CCh...................................................93 FAN3 SEGMENT 4 SPEED COUNT - Index CDh ..................................................93 FAN3 SEGMENT 5 SPEED COUNT - Index CEh...................................................93 FAN3 Temperature Mapping Select - Index CFh.......................................................93 VT4 BOUNDARY 1 TEMPERATURE - Index D6h .....................................................95 VT4 BOUNDARY 2 TEMPERATURE - Index D7 .......................................................95 VT4 BOUNDARY 3 TEMPERATURE - Index D8h .....................................................95 VT4 BOUNDARY 4 TEMPERATURE - Index D9 .......................................................95 FAN4 SEGMENT 1 SPEED COUNT - Index DAh ....................................................96 FAN4 SEGMENT 2 SPEED COUNT - Index DBh ....................................................96 FAN4 SEGMENT 3 SPEED COUNT - Index DCh ..................................................96 Nov., 2006 V0.24P www..com F71882 8.6.2.76 FAN4 SEGMENT 4 SPEED COUNT - Index DDh ..................................................96 8.6.2.77 FAN4 SEGMENT 5 SPEED COUNT - Index DEh...................................................97 8.6.2.78 FAN4 Temperature Mapping Select - Index DFh ......................................................97 8.7 KBC Registers (CR05) .............................................................................................................98 8.8 GPIO Registers (CR06) ..........................................................................................................100 8.9 VID Registers (CR07).............................................................................................................107 8.10 SPI Registers (CR08)..............................................................................................................111 8.11 PME and ACPI Registers (CR0A)..........................................................................................115 9. Electron Characteristic................................................................................................................118 9.1 Absolute Maximum Ratings ...................................................................................................118 9.2 DC Characteristics ..................................................................................................................118 9.3 DC Characteristics Continued.................................................................................................118 10. Ordering Information ..................................................................................................................119 11. Package Dimensions ...................................................................................................................120 12. Application Circuit......................................................................................................................121 Nov., 2006 V0.24P www..com F71882 1. General Description The F71882 is the featured IO chip for PC system. Equipped with one IEEE 1284 parallel port, two UART ports, KBC, Serial Peripheral Interface (SPI), SIR and one FDC. The F71882 integrated with hardware monitor, 9 sets of voltage sensor, 4 sets of creative auto-controlling fans and 4 temperature sensor pins for the accurate dual current type temp. measurement for CPU thermal diode or external transistors 2N3906. The F71882 provides flexible features for multi-directional application. For instance, supports 6/12 pins CPU VID controlling for VRM9.0/10.0/11* and CPU VID OTF (On The Fly), provides 32 GPIO pins (multi-pin), IRQ sharing function also designed in UART feature for particular usage and accurate current mode H/W monitor will be worth in measurement of temperature, provides 3 modes fan speed control mechanism included Manual Mode/Speed Mode/Temperature Mode for users' selection Additionally, provides easy voltage sensor input (VSI) function for sensing Vcore voltage, then output (VSO) the offset voltage for over/under voltage change use. Further, the F71882 supports an automatic/dynamic over-voltage function for application of over-clocking or under-clocking. This function provides a pin by external trigger signal to improve the CPU's performance by voltage offset automatically when system is going to run over-clocking or under-clocking. Due to achieve this action, suggest F75133S Loading Gauge chip can be the part which detects system/CPU loading to decide when issues the over-clocking/under-clocking signal for system executing. Briefly, user can gain more features on motherboard by these two parts which improve performance and efficiency. The F71882 also integrated SPI interface. The SPI interface is for BIOS usage including bridge function and back up function. Others, the F71882 supports newest AMDSI and Intel PECI/SST interfaces for temperature use. These features as above description will help you more and improve product value. Finally, the F71882 is powered by 3.3V voltage, with the LPC interface in the package of 128-PQFP. 2. Feature List General Functions Comply with LPC Spec. 1.0 Support DPM (Device Power Management), ACPI 6/12 VID pins for VRM9.0/10.0/11.0* and CPU VID OTF (On The Fly) Easy voltage sensor I/O (VSI/VSO) for Vcore change use. Support automatic and dynamic voltage change function (2 Turbo pins Turbo1# and Turbo2# for VID usage) Provides one FDC, two UARTs, KBC and Parallel Port -1Nov., 2006 V0.24P www..com F71882 H/W monitor functions SPI interface for BIOS usage Support AMD SID/SIC interface and Intel SST/PECI interface 32 GPIO Pins for flexible application 24/48 MHz clock input Packaged in 128-PQFP and powered by 3.3VCC FDC Compatible with IBM PC AT disk drive systems Variable write pre-compensation with track selectable capability Support vertical recording format DMA enable logic 16-byte data FIFOs Support floppy disk drives and tape drives Detects all overrun and under run conditions Built-in address mark detection circuit to simplify the read electronics Completely compatible with industry standard 82077 360K/720K/1.2M/1.44M/2.88M format; 250K, 300K, 500K, 1M, 2M bps data transfer rate UART Two high-speed 16C550 compatible UART with 16-byte FIFOs Fully programmable serial-interface characteristics Baud rate up to 115.2K Support IRQ sharing Infrared Support IrDA version 1.0 SIR protocol with maximum baud rate up to 115.2K bps Parallel Port One PS/2 compatible bi-directional parallel port Support Enhanced Parallel Port (EPP) - Compatible with IEEE 1284 specification Support Extended Capabilities Port (ECP) - Compatible with IEEE 1284 specification Enhanced printer port back-drive current protection Keyboard Controller 8042 based with optional F/W from AMIKKEYTM-2, with 2K bytes of programmable ROM, and 256 bytes of RAM Asynchronous Access to Two Data Registers and One status Register -2- Nov., 2006 V0.24P www..com F71882 Software compatibility with the 8042 Support PS/2 mouse Support both interrupt and polling modes Fast Gate A20 and Hardware Keyboard Reset 6 MHz, 8 MHz, 12 MHz, or 16 MHz operating frequency Hardware Monitor Functions 3 dual current type (3J ) thermal inputs for CPU thermal diode and 2N3906 transistors Temperature range -20J ~145J (One is from -20~127J , others are from 0~ 145J ) 9 sets voltage monitoring (6 external and 3 internal powers) High limit signal (SMI#) for Vcore level 4 fan speed monitoring inputs 4 fan speed PWM/DC control outputs(support 3 wire and 4 wire fans) Issue PME# and OVT# hardware signals output Case intrusion detection circuit WATCHDOG# comparison of all monitored values Support AMDSI interface Serial Peripheral Interface Compatible Support SPI bridge function for BIOS use Support Back Up BIOS function Integrate AMD SI Interface Integrate Intel PECI/SST Interface Package 128-pin PQFP Green Package Noted: Patented TW207103 TW207104 TW220442 US6788131 B1 TWI235231 TW237183 TWI263778 -3- Nov., 2006 V0.24P www..com F71882 3. Key Specification Supply Voltage Operating Supply Current 3.0V to 3.6V ----- mA typ. 4. Block Diagram CPU Chipset (NB+SB) Super H/W Monitor + F71882 IDE USB AC'97 Temperature Voltage Fan AMDSI PECI A SST KBC IrDA Parallel ACPI SPI I/O LED(GPIO) COM Floppy VID Controller -4- Nov., 2006 V0.24P www..com F71882 5. Pin Configuration 6. Pin Description I/O12t I/OOD12t I/OD16t5v OD16-u10-5v I/OD12ts5v ILv/OD8-S1 ILv/OD12 - TTL level bi-directional pin with 12 mA source-sink cap ability. - TTL level bi-directional pin, can select to OD or OUT by register, with 12 mA source-sink capability. - TTL level bi-directional pin,Open-drain output with 16 mA source-sink capability, 5V tolerance. - Open-drain output pin with 16 mA sink capability, pull-up 10k ohms, 5V tolerance. - TTL level bi-directional pin and schmitt trigger, Open-drain output with 12 mA sink capability, 5V tolerance. - Low level bi-directional pin (VIH 0.9V, VIL 0.6V.). Output with 8mA drive and 1mA sink capability. - Low level bi-directional pin (VIH 0.9V, VIL 0.6V.). Output with 12mA sink -5Nov., 2006 V0.24P www..com F71882 O8-u47-5v O8 O12 O30 AOUT OD12 OD12-5v OD24 INt5v INts INts5v AIN P capability. - Open-drain pin with 8 mA source-sink capability, pull-up 47k ohms, 5V tolerance. - Output pin with 8 mA source-sink capability. - Output pin with 12 mA source-sink capability. - Output pin with 30 mA source-sink capability. - Output pin(Analog). - Open-drain output pin with 12 mA sink capability. - Open-drain output pin with 12 mA sink capability, 5V tolerance. - Open-drain output pin with 24 mA sink capability. - TTL level input pin,5V tolerance. - TTL level input pin and schmitt trigger. - TTL level input pin and schmitt trigger, 5V tolerance. - Input pin(Analog). - Power. 6.1 Power Pin Pin Name VCC VSB VBAT AGND(D-) GND Type P P P P P Description Power supply voltage input with 3.3V Stand-by power supply voltage input 3.3V Battery voltage input Analog GND Digital GND Pin No. 4,37,99 68 86 88 20, 48, 73, 117 6.2 Pin No. 29 30 31 32 36-33 LPC Interface Pin Name LRESET# LDRQ# SERIRQ LFRAM# LAD[3:0] Type INts5v O12 I/O12t INts I/O12t PWR VCC VCC VCC VCC VCC Description Reset signal. It can connect to PCIRST# signal on the host. Encoded DMA Request signal. Serial IRQ input/Output. Indicates start of a new cycle or termination of a broken cycle. These signal lines communicate address, control, and data information over the LPC bus between a host and a peripheral. 33MHz PCI clock input. System clock input. According to the input frequency 24/48MHz. 38 39 PCICLK CLKIN INts INts VCC VCC 6.3 Pin No. 7 FDC Pin Name DENSEL# Type OD24 PWR VCC Description Drive Density Select. Set to 1 - High data rate.(500Kbps, 1Mbps) Set to 0 - Low data rate. (250Kbps, 300Kbps) Motor A On. When set to 0, this pin enables disk drive 0. This is an open drain output. -6Nov., 2006 V0.24P 8 MOA# OD24 VCC www..com F71882 9 10 DRVA# WDATA# OD24 OD24 VCC VCC Drive Select A. When set to 0, this pin enables disk drive A. This is an open drain output. Write data. This logic low open drain writes pre-compensation serial data to the selected FDD. An open drain output. Direction of the head step motor. An open drain output. Logic 1 = outward motion Logic 0 = inward motion Step output pulses. This active low open drain output produces a pulse to move the head to another track. Head select. This open drain output determines which disk drive head is active. Logic 1 = side 0 Logic 0 = side 1 Write enable. An open drain output. The read data input signal from the FDD. Track 0. This Schmitt-triggered input from the disk drive is active low when the head is positioned over the outermost track. This Schmitt-triggered input from the disk drive is active low when the head is positioned over the beginning of a track marked by an index hole. Write protected. This active low Schmitt input from the disk drive indicates that the diskette is write-protected. Diskette change. This signal is active low at power on and whenever the diskette is removed. 11 DIR# OD24 VCC 12 13 STEP# HDSEL# OD24 OD24 VCC VCC 14 15 16 WGATE# RDATA# TRK0# OD24 INts5v INts5v VCC VCC VCC 17 INDEX# INts5v VCC 18 19 WPT# DSKCHG# INts5v INts5v VCC VCC 6.4 Pin No. 27 28 118 119 120 121 UART and SIR Pin Name IRTX GPIO42 IRRX GPIO43 DCD1# RI1# CTS1# DTR1# Type O12 I/OOD12t INts I/OOD12t INt5v INt5v INt5v O8-u47,5v PWR VCC VSB VCC VCC VCC VCC Description Infrared Transmitter Output. General Purpose IO Infrared Receiver input. General Purpose IO. Data Carrier Detect. An active low signal indicates the modem or data set has detected a data carrier. Ring Indicator. An active low signal indicates that a ring signal is being received from the modem or data set. Clear To Send is the modem control input. UART 1 Data Terminal Ready. An active low signal informs the modem or data set that controller is ready to communicate. Internal 47k ohms pulled high and disable after power on strapping. Power on strapping pin: 1(Default): (Internal pull high) Power on fan speed default duty is 60%.(PWM) 0: (External pull down) -7Nov., 2006 V0.24P FAN60_100 INt5v www..com F71882 Power on fan speed default duty is 100%.(PWM) 122 RTS1# O8-u47,5v VCC UART 1 Request To Send. An active low signal informs the modem or data set that the controller is ready to send data. Internal 47k ohms pulled high and disable after power on strapping. Power on strapping pin: 1(Default) : 1. VIDIN[5-0]/OUT[5-0] pins will be VIDIN function. 2. VIDOUT[5-0]/GPIO0[5-0] pins will be VIDOUT function 0: 1. VIDIN[5-0]/OUT[5-0] pins will be VIDIN[5-0]/OUT[5-0] function.(In-Out on the same pins) 2. VIDOUT[5-0]/GPIO0[5-0] pins will be GPIO0 function. VIDOUT_TRAP INt5v 123 DSR1# INt5v VCC 124 SOUT1 O8-u47,5v VCC Data Set Ready. An active low signal indicates the modem or data set is ready to establish a communication link and transfer data to the UART. UART 1 Serial Output. Used to transmit serial data out to the communication link. Internal 47k ohms pulled high and disable after power on strapping. Power on strapping: 1(Default)Configuration register:4E 0 Configuration register:2E Serial Input. Used to receive serial data through the communication link. Data Carrier Detect. An active low signal indicates the modem or data set has detected a data carrier. Ring Indicator. An active low signal indicates that a ring signal is being received from the modem or data set. Clear To Send is the modem control input. UART 2 Data Terminal Ready. An active low signal informs the modem or data set that controller is ready to communicate. Internal 47k ohms pulled high and disable after power on strapping. Power on strapping : 1(Default): SPI as a backup BIOS 0 : SPI as a primary BIOS UART 2 Request To Send. An active low signal informs the modem or data set that the controller is ready to send data. Internal 47k ohms pulled high and disable after power on strapping. Power on strapping : 1 (Default): Fan control method will be PWM Mode 0 Drive :Fan control method will be Linear Mode Data Set Ready. An active low signal indicates the modem or data set is ready to establish a communication link and transfer data to the UART. -8Nov., 2006 V0.24P Config4E_2E 125 126 127 128 1 SIN1 DCD2# RI2# CTS2# DTR2# INt5v INt5v INt5v INt5v INt5v O8-u47,5v VCC VCC VCC VCC VCC FWH_TRAP INt5v 2 RTS2# O8-u47,5v VCC HPWM_DC INt5v 3 DSR2# INt5v VCC www..com F71882 5 SOUT2 O8-u47,5v VCC UART 2 Serial Output. Used to transmit serial data out to the communication link. Internal 47k ohms pulled high and disable after power on strapping. Power on strapping: 1(Default) : SPI function disable 6 66 SIN2 GPIO17 INt5v I/OOD12t VCC VSB 0 : SPI function enable Serial Input. Used to receive serial data through the communication link. General Purpose IO SPI_TRAP INt5v 6.5 Pin No. 100 Parallel Port Pin Name SLCT Type INts5v PWR VCC Description An active high input on this pin indicates that the printer is selected. Refer to the description of the parallel port for definition of this pin in ECP and EPP mode. An active high input on this pin indicates that the printer has detected the end of the paper. Refer to the description of the parallel port for the definition of this pin in ECP and EPP mode. An active high input indicates that the printer is not ready to receive data. Refer to the description of the parallel port for definition of this pin in ECP and EPP mode. An active low input on this pin indicates that the printer has received data and is ready to accept more data. Refer to the description of the parallel port for the definition of this pin in ECP and EPP mode. Output line for detection of printer selection. Refer to the description of the parallel port for the definition of this pin in ECP and EPP mode. Output line for the printer initialization. Refer to the description of the parallel port for the definition of this pin in ECP and EPP mode. An active low input on this pin indicates that the printer has encountered an error condition. Refer to the description of the parallel port for the definition of this pin in ECP and EPP mode. An active low output from this pin causes the printer to auto feed a line after a line is printed. Refer to the description of the parallel port for the definition of this pin in ECP and EPP mode. An active low output is used to latch the parallel data into the printer. Refer to the description of the parallel port for the definition of this pin in ECP and EPP mode. 101 PE INts5v VCC 102 BUSY INts5v VCC 103 ACK# INts5v VCC 104 SLIN# OD12-5v VCC 105 INIT# OD12-5v VCC 106 ERR# INts5v VCC 107 AFD# OD12-5v VCC 108 STB# OD12-5v VCC -9- Nov., 2006 V0.24P www..com F71882 109 PD0 I/O12ts5v VCC Parallel port data bus bit 0. Refer to the description of the parallel port for the definition of this pin in ECP and EPP mode. Parallel port data bus bit 1. Parallel port data bus bit 2. Parallel port data bus bit 3. Parallel port data bus bit 4. Parallel port data bus bit 5. Parallel port data bus bit 6. Parallel port data bus bit 7. 110 111 112 113 114 115 116 PD1 PD2 PD3 PD4 PD5 PD6 PD7 I/O12ts5v I/O12ts5v I/O12ts5v I/O12ts5v I/O12ts5v I/O12ts5v I/O12ts5v VCC VCC VCC VCC VCC VCC VCC 6.6 Pin No. 93-97 98 21 22 23 24 25 26 Hardware Monitor Pin Name VIN6~VIN2 Vcore(VIN1) FANIN1 FAN_CTL1 FANIN2 FAN_CTL2 FANIN3 GPIO40 FAN_CTL3* Type AIN AIN INt s 5 v OD12-5v AOUT INt s 5 v OD12-5v AOUT INt s 5 v I/OOD12t OD12-5V AOUT PWR VCC VCC VCC VCC VCC VCC VCC VCC Description Voltage Input 2 ~ 6. Voltage Input for Vcore. Fan 1 tachometer input. Fan 1 control output. This pin provides PWM duty-cycle output or a voltage output. Fan 2 tachometer input. Fan 2 control output. This pin provides PWM duty-cycle output or a voltage output. Fan 3 speed input. General purpose IO. Fan 3 control output. This pin provides PWM duty-cycle output or a voltage output. *This pin default function is FANCTL (PWM signal output), please take care the application if user want to implement GPIO function. General purpose IO. Thermal diode/transistor temperature sensor input for system use. Thermal diode/transistor temperature sensor input. CPU thermal diode/transistor temperature sensor input. This pin is for CPU use. Voltage sensor output. Generated PME event. It supports the PCI PME# interface. This signal allows the peripheral to request the system to wake up from the S3 state. General Purpose IO. General purpose IO. Serial clock output pin for SPI device. Fan 4 tachometer input General purpose IO. Function A: When using firmware hub BIOS for primary BIOS and SPI BIOS for second BIOS, please -10Nov., 2006 V0.24P GPIO41 89 90 91 92 79 D3+(System) D2+ D1+(CPU) VREF PME# I/OOD12t AIN AIN AIN AOUT OD12-5v VCC VCC VCC VCC VSB 59 GPIO25 GPIO10 SPI_SLK FANIN4 GPIO11 SPI_CS0# I/OOD12t I/OOD12t O12 INt s 5 v I/OOD12t O12 VSB 60 VSB www..com F71882 connect this pin to SPI BIOS chip select pin. Function B: When using two SPI Flashes for primary and back up BIOS, please connect this pin to primary BIOS chip select pin. Fan 4 control output. This pin provides PWM duty-cycle output or a voltage output. General purpose IO. SPI master in/slave out pin. Fan 1 control output. This pin provides PWM duty-cycle open drain output for Intel 4-pin Fan. VSB General purpose IO. SPI master out/slave in pin. Beep pin. VSB General purpose IO. Firmware hub disable Watch dog timer signal output. When using two SPI Flashes for primary and back up BIOS, please connect this pin to back up BIOS chip select pin. Over temperature signal output. FANCTL4 61 GPIO12 SPI_MISO FANCTL1_1 62 GPIO13 SPI_MOSI BEEP 63 GPIO14 FWH_DIS WDTRST# SPI_CS1# OD12-5v AOUT I/OOD12t INt 5 v OD12-5v I/OOD12t O12 OD24 I/OOD12t O12 OD12-5v O12 VSB 67 OVT# OD12-5v VSB 6.7 Pin No. 64 ACPI Function Pins Pin Name GPIO15 LED_VSB ALERT# GPIO16 LED_VCC Turbo2# PCIRST1# GPIO20 PCIRST2# GPIO21 PCIRST3# GPIO22 GPIO23 RSTCON# Type I/OOD12t OD12 OD12 I/OOD12t OD12 INts5v OD12 I/OOD12 O12 I/OOD12 O12 I/OOD12 I/OOD12 OD12 PWR VSB Description General purpose IO. Power LED for VSB. Alert a signal when temperature over limit setting. General purpose IO. Power LED for VCC. VID Turbo 2 enable control pin. (Patent Issue) It is a output buffer of RSTCON# and LRESET#. General purpose IO. It is a output buffer of RSTCON# and LRESET#. General purpose IO. It is a output buffer of RSTCON# and LRESET#. General purpose IO. General purpose IO. (Default) RESET Connect# with 50ms debouce function, it connects to reset button, and also other reset source on the motherboard. ATX Power Good input. General purpose IO. PWROK function, It is power good signal of VCC, which is delayed 400ms (default) as VCC arrives at -11Nov., 2006 V0.24P 65 VSB 74 75 76 77 VSB VSB VSB VSB 78 84 ATXPG_IN GPIO24 PWROK AIN I/OOD12t OD12 VSB VSB www..com F71882 80 81 GPIO32 PWSIN# GPIO26 PWSOUT# GPIO27 S3# GPIO30 PSON# GPIO31 RSMRST# GPIO33 COPEN# I/OOD12t INts5v I/OOD12t OD12 I/OOD12t INts5v I/OOD12t OD12-5v I/OOD12t OD12 I/OOD12t INts5v VSB VSB 2.8V. General purpose IO. Main power switch button input. General purpose IO. Panel Switch Output. This pin is low active and pulse output. It is power on request output#. General purpose IO. S3# Input is Main power on-off switch input. General purpose IO. Power supply on-off control output. Connect to ATX power supply PS_ON# signal. General purpose IO. Resume Reset# function, It is power good signal of VSB, which is delayed 66ms as VSB arrives at 2.3V. General purpose IO. Case Open Detection #. This pin is connected to a specially designed low power CMOS flip-flop backed by the battery for case open state preservation during power loss. 82 83 VSB VSB 85 VBAT 87 VBAT 6.8 Pin No. 46-42 VID Controller Pin Name VIDIN[4:0] OUT[4:0] Type INts5v O12 PWR VCC Description CPU VID input pins. Special level input VIH 0.9, VIL 0.6 CPU VID output pins. (These is for VID in-out function at the same pin) (Power On Trapping by pin 122) CPU VID input pins. Special level input VIH 0.9, VIL 0.6 CPU VID output pins. (These is for VID in-out function at the same pin) (Power On Trapping by pin 122) AMDSI interface data input. CPU VID output pins. General purpose pin. (Power On Trapping by pin 122) CPU VID output pins. General purpose pin. (Power On Trapping by pin 122) AMDSI interface clock output. CPU SLOTOCC# input. General purpose pin. General purpose pin. VID Turbo 1 enable control pin. (Patent Issue) Watch dog timer signal output. Easy voltage sensor input for Vcore change use. Intel SST hardware monitor interface. Easy voltage sensor output for Vcore change use. 47 VIDIN5 OUT5 INts5v O12 VCC 53-49 54 SID VIDOUT[4:0] GPIO[4:0] VIDOUT5 GPIO5 SIC SLOTOCC# GPIO06 GPIO07 Turbo1# WDTRST# ILv/OD12 OD12 I/OOD12t OD12 I/OOD12t OD12 INts5v I/OOD12t I/OOD12t INts5v OD12-5v VSB VSB 55 56 VSB VSB 57 58 VSI SST VSO VSB AIN ILv/OD8-S1 AOUT VSB -12- Nov., 2006 V0.24P www..com F71882 PECI ILv/OD8-S1 Intel PECI hardware monitor interface. 6.9 Pin No. 40 41 69 70 71 72 KBC Function Pin Name KBRST# GA20 KDATA KCLK MDAT MCLK Type OD16-u10,5V OD16-u10,5V I/OD16t,5V I/OD16t,5V I/OD16t,5V I/OD16t,5V PWR VCC VCC VSB VSB VSB VSB Description Keyboard reset. This pin is high after system reset. Internal pull high 3.3V with 10k ohms. (KBC P20) Gate A20 output. This pin is high after system reset. Internal pull high 3.3V with 10k ohms. (KBC P21) Keyboard Data. Keyboard Clock. PS2 Mouse Data. PS2 Mouse Clock. -13- Nov., 2006 V0.24P www..com F71882 7. Function Description 7.1 Power on Strapping Option The F71882 provides four pins for power on hardware strapping to select functions. There is a form to describe how to set the functions you want. Pin No. 1 2 5 121 122 Symbol FWH_TRAP HPWM_DC SPI_TRAP FAN60_100 VIDOUT Value 1 0 1 0 1 0 1 0 1 0 1 0 Description SPI as a backup BIOS (Default) SPI as a primary BIOS Fan control mode: PWM mode. ( Default) Fan control mode: Linear mode. SPI function disable (Default) SPI function enable Power on Fan speed default duty is 60%(PWM)(Default) Power on Fan speed default duty is 100%(PWM) 6 pins VIDIN and 6 pins VIDOUT (Default) VIDIN/OUT on 6 pins , Original VIDOUT pins will be GPIO pins. Configuration Register I/O port is 4E/4F. (Default) Configuration Register I/O port is 2E/2F. 124 Config4E_2E 7.2 FDC The Floppy Disk Controller provides the interface between a host processor and one floppy disk drives. It integrates a controller and a digital data separator with write pre-compensation, data rate selection logic, microprocessor interface, and a set of registers. The FDC supports data transfer rates of 250 Kbps, 300 Kbps, 500 Kbps, and 1 Mbps. It operates in PC/AT mode and supports 3-mode type drives. The FDC configuration is handled by software and a set of Configuration registers. Status, Data, and Control registers facilitate the interface between the host microprocessor and the disk drive, providing information about the condition and/or state of the FDC. These configuration registers can select the data rate, enable interrupts, drives, and DMA modes, and indicate errors in the data or operation of the FDC/FDD. The controller manages data transfers using a set of data transfer and control commands. These commands are handled in three phases: Command, Execution, and Result. Not all commands utilize all these three phases. The below content is about the FDC device register descriptions. All the registers are for software porting reference. -14- Nov., 2006 V0.24P www..com F71882 Status Register A (PS/2 mode) Base + 0 Bit 7 6 5 4 3 Name INTPEND DRV2_N STEP TRK0_N HDSEL R/W Default R R R R R 0 0 0 Description This bit indicates the state of the interrupt output. 0: a second drive has been installed. 1: a second drive has not been installed. This bit indicates the complement of STEP# disk interface output. This bit indicates the state of TRK0# disk interface input. This bit indicates the complement of HDSEL# disk interface output. 0: side 0. 1: side 1. This bit indicates the state of INDEX# disk interface input. This bit indicates the state of WPT# disk interface input. 0: disk is write-protected. 1: disk is not write-protected. This bit indicates the complement of DIR# disk interface output. 2 1 INDEX_N WPT_N R R - 0 DIR R 0 Status Register A (Model 30 mode) Base + 0 Bit 7 6 5 4 3 Name INTPEND DRQ STEP_FF TRK0 HDSEL_N R/W Default R R R R R 0 0 0 1 Description This bit indicates the state of the interrupt output. This bit indicates the state of the DRQ signal. This bit indicates the complement of latched STEP# disk interface output. This bit indicates the complement of TRK0# disk interface input. This bit indicates the state of HDSEL# disk interface output. 0: side 0. 1: side 1. This bit indicates the complement of INDEX# disk interface input. This bit indicates the complement of WPT# disk interface input. 0: disk is write-protected. 1: disk is not write-protected. This bit indicates the state of DIR# disk interface output. 0: head moves in inward direction. 1: head moves in outward direction. 2 1 INDEX WPT R R - 0 DIR_N R 1 Status Register B (PS/2 Mode) Base + 1 Bit Name R/W Default R R R R R R 11 0 0 0 0 0 Description Reserved. Return 11b when read. Drive select 0. This bit reflects the bit 0 of Digital Output Register. This bit changes state at every rising edge of WDATA#. This bit changes state at every rising edge of RDATA#. This bit indicates the complement of WGATE# disk interface output. This bit indicates the complement of MOB# disk interface output. Not support in this design. 7-6 Reserved 5 4 3 2 1 DR0 WDATA RDATA WGATE MOTEN1 -15- Nov., 2006 V0.24P www..com F71882 0 MOTEN0 R 0 This bit indicates the complement of MOA# disk interface output. Status Register B (Model 30 Mode) Base + 1 Bit 7 6 5 4 3 2 1 0 Name DRV2_N DSB_N DSA_N WDATA_FF RDATA_FF WGATE_FF DSD_N DSC_N R/W Default R R R R R R R R 1 1 0 0 0 1 1 Description 0: a second drive has been installed. 1: a second drive has not been installed. This bit indicates the state of DRVB# disk interface output. Not support in this design. This bit indicates the state of DRVA# disk interface output. This bit is latched at the rising edge of WDATA# and is cleared by a read from the Digital Input Register. This bit is latched at the rising edge of RDATA# and is cleared by a read form the Digital Input Register. This bit is latched at the falling edge of WGATE# and is cleared by a read from the Digital Input Register. This bit indicates the complement of DRVD# disk interface output. Not support in this design. This bit indicates the complement of DRVC# disk interface output. Not support in this design. Digital Output Register Base + 2 Bit 7 6 5 4 3 Name MOTEN3 MOTEN2 MOTEN1 MOTEN0 DAMEN R/W Default R R R/W R/W R/W 0 0 0 0 0 Description Motor enable 3. Not support in this design. Motor enable 2. Not support in this design. Motor enable 1. Used to control MOB#. MOB# is not support in this design. Motor enable 0. Used to control MOA#. DMA enable. This bit has two mode of operation. PC-AT and Model 30 mode: write 1 will enable DMA and IRQ, write 0 will disable DMA and IRQ. PS/2 mode: This bit is reserved. DMA and IRQ are always enabled in PS/2 mode. Write 0 to this bit will reset the controller. I will remain in reset condition until a 1 is written. This bit indicates the complement of DRVD# disk interface output. Not support in this design. This bit indicates the complement of DRVC# disk interface output. Not support in this design. 2 1 0 RESET DSD_N DSC_N R R R 0 1 1 Tape Drive Register Base + 3 Bit Name R/W Default R R 00 11 Description Reserved. Return 00b when read. Reserved in normal function, return 11b when read. If 3 mode FDD function is enabled. These bits indicate the drive type ID. 7-6 Reserved 5-4 TYPEID -16- Nov., 2006 V0.24P www..com F71882 3-2 Reserved 1-0 TAPESEL R R/W 11 0 Reserved. Return 11b when read in normal function. Return 00b when read in 3 mode FDD function. These bits assign a logical drive number to be a tape drive. Main Status Register Base + 4 Bit 7 6 RQM DIO Name R/W Default R R 0 0 Description Request for Master indicates that the controller is ready to send or receive data from the uP through the FIFO. Data I/O (direction): 0: the controller is expecting a byte to be written to the Data Register. 1: the controller is expecting a byte to be read from the Data Register. Non DMA Mode: 0: the controller is in DAM mode. 1: the controller is interrupt or software polling mode. This bit indicate that a read or write command is in process. FDD number 3 is in seek or calibration condition. FDD number 3 is not support in this design. FDD number 2 is in seek or calibration condition. FDD number 2 is not support in this design. FDD number 1 is in seek or calibration condition. FDD number 1 is not support in this design. FDD number 0 is in seek or calibration condition. 5 NON_DMA R 0 4 3 2 1 0 FDC_BUSY DRV3_BUSY DRV2_BUSY DRV1_BUSY DRV0_BUSY R R R R R 0 0 0 0 0 Data Rate Select Register Base + 4 Bit 7 6 Name SOFTRST PWRDOWN R/W Default W W W 0 0 000 Description A 1 written to this bit will software reset the controller. Auto clear after reset. A 1 to this bit will put the controller into low power mode which will turn off the oscillator and data separator circuits. Return 0 when read. Select the value of write precompensation: 250K-1Mbps 2Mbps 000: default delays default delays 001: 41.67ns 20.8ns 010: 83.34ns 41.17ns 011: 125.00ns 62.5ns 100: 166.67ns 83.3ns 101: 208.33ns 104.2ns 110: 250.00ns 125.00ns 111: 0.00ns (disabled) 0.00ns (disabled) The default value of corresponding data rate: 250Kbps: 125ns 300Kbps: 125ns 500Kbps: 125ns 1Mbps: 41.67ns 2Mbps: 20.8ns 5 Reserved 4-2 PRECOMP -17- Nov., 2006 V0.24P www..com F71882 1-0 DRATE W 10 Data rate select: MFM 00: 500Kbps 01: 300Kbps 10: 250Kbps 11: 1Mbps FM 250Kbps 150Kbps 125Kbps illegal Data (FIFO) Register Base + 5 Bit 7-0 DATA Name R/W Default R/W 00h Description The FIFO is used to transfer all commands, data and status between controller and the system. The Data Register consists of four status registers in a stack with only one register presented to the data bus at a time. The FIFO is default disabled and could be enabled via the CONFIGURE command. Status Registers 0 Bit 7-6 IC Name R/W Default R Description Interrupt code : 00: Normal termination of command. 01: Abnormal termination of command. 10: Invalid command. 11: Abnormal termination caused by poling. Seek end. Set when a SEEK or RECALIBRATE or a READ or WRITE with implied seek command is completed. Equipment check. 0: No error 1: When a fault signal is received form the FDD or the TRK0# signal fails to occur after 77 step pulses. Not ready. 0: Drive is ready 1: Drive is not ready. Head address. The current head address. Drive select. 00: Drive A selected. 01: Drive B selected. 10: Drive C selected. 11: Drive D selected. 5 SE R - 4 EC R - 3 NR R - 2 HD R R - 1-0 DS Status Registers 1 Bit 7 6 EN DE Name R/W Default R R Description End of Track. Set when the FDC tries to access a sector beyond the final sector of a cylinder. Data Error. The FDC detect a CRC error in either the ID field or the data field of a sector. -18- Nov., 2006 V0.24P www..com F71882 4 OR R Overrun/Underrun. Set when the FDC is not serviced by the host system within a certain time interval during data transfer. Unused. This bit is always "0" No Data. Set when the following conditions occurred: 1. The specified sector is not found during any read command. 2. The ID field cannot be read without errors during a READ ID command. 3. The proper sector sequence cannot be found during a READ TRACK command. No Writable Set when WPT# is active during execution of write commands. Missing Address Mark. Set when the following conditions occurred: 1. Cannot detect an ID address mark at the specified track after encountering the index pulse form the INDEX# pin twice. 2. Cannot detect a data address mark or a deleted data address mark on the specified track. 3 2 Reserved ND R - 1 0 NW MA R R - Status Registers 2 Bit 7 6 Name Reserved CM R/W Default R Unused. This bit is always "0". Control Mark. Set when following conditions occurred: 1. Encounters a deleted data address mark during a READ DATA command. 2. Encounters a data address mark during a READ DELETED DATA command. Data Error in Data Field. The FDC detects a CRC error in the data field. Wrong Cylinder. Set when the track address from the sector ID field is different from the track address maintained inside the FDC. Scan Equal. Set if the equal condition is satisfied during execution of the SCAN command. Scan Not Satisfied. Set when the FDC cannot find a sector on the track which meets the desired condition during any scan command. Bad Cylinder. The track address from the sector ID field is different from the track address maintained inside the FDC and is equal to FFh which indicates a bad track. Missing Data Address Mark. Set when the FDC cannot detect a data address mark or a deleted data address mark. Description 5 4 DD WC R R - 3 2 SE SN R R - 1 BC R - 0 MD R - -19- Nov., 2006 V0.24P www..com F71882 Status Registers 3 Bit 7 6 5 4 3 2 1 0 Name Reserved WP Reserved T0 Reserved. HD DS1 DS0 R/W Default R R R R R R R Unused. This bit is always "0". Write Protect. Indicates the status of WPT# pin. Unused. This bit is always "1". Track 0. Indicates the status of the TRK0# pin. Unused. This bit is always "1". Head Address. Indicates the status of the HDSEL# pin. Drive Select. These two bits indicate the DS1, DS0 bits in the command phase. Description Digital Input Register (PC-AT Mode) Base + 7 Bit 7 Name DSKCHG R/W Default R R Description This bit indicates the complement of DSKCHG# disk interface input. Reserved. 6-0 Reserved Digital Input Register (PS/2 Mode) Base + 7 Bit 7 Name DSKCHG R/W Default R R R 10 1 Description This bit indicates the complement of DSKCHG# disk interface input. Reserved. These bits indicate the status of the DRATE programmed through the Data Rate Select Register or Configuration Control Register. 0: 1Mbps or 500Kbps data rate is chosen. 1: 300Kbps or 250Kbps data rate is chosen. 6-3 Reserved 2-1 DRATE 0 HIGHDEN_N Digital Input Register (Model 30 Mode) Base + 7 Bit 7 Name DSKCHG_N R/W Default R R R R 0 0 10 Description This bit indicates the state of DSKCHG# disk interface input. Reserved. This bit reflects the DMA bit in Digital Output Register. This bit reflects the NOPRE bit in Configuration Control Register. These bits indicate the status of DRATE programmed through the Data Rate Select Register or Configuration Control Register. 6-4 Reserved 3 2 DMAEN NOPRE 1-0 DRATE -20- Nov., 2006 V0.24P www..com F71882 Configuration Control Register (PC-AT and PS/2 Mode) Base + 7 Bit Name R/W Default W 10 Reserved. These bit determine the data rate of the floppy controller. See DRATE bits in Data Rate Select Register. Description 7-2 Reserved 1-0 DRATE Configuration Control Register (Model 30 Mode) Base + 7 Bit Name R/W Default W 0 Reserved. This bit could be programmed through Configuration Control Register and be read through the bit 2 in Digital Input Register in Model 30 Mode. But it has no functionality. These bit determine the data rate of the floppy controller. See DRATE bits in Data Rate Select Register. Description 7-3 Reserved 2 NOPRE 1-0 DRATE W 10 FDC Commands Terminology: Cylinder Number 0 -256 Data Pattern Step Direction 0: step out 1: step in DS0 Drive Select 0 DS1 Drive Select 1 DTL Data Length EC Enable Count EOT End of Track EFIFO Enable FIFO 0: FIFO is enabled. 1: FIFO is disabled. EIS Enable Implied Seek FIFOTHR FIFO Threshold GAP Alters Gap Length GPL Gap Length H/HDS Head Address HLT Head Load Time HUT Head Unload Time LOCK Lock EFIFO, FIFOTHR, PTRTRK bits. Prevent these bits from being affected by software reset. MFM MFM or FM mode 0: FM 1: MFM MT Multi-Track N Sector Size Code. All values up to 07h are allowable. 00: 128 bytes 01: 256 bytes .. .. 07 16 Kbytes C D DIR -21- Nov., 2006 V0.24P www..com F71882 NCN ND OW PCN POLL New Cylinder Number Non-DMA Mode Overwritten Present Cylinder Number Polling disable 0: polling is enabled. 1: polling is disabled. Precompensation Start Track Number Sector address Relative Cylinder Number Sector per Cylinder Skip deleted data address mark Step Rate Time Status Register 0 Status Register 1 Status Register 2 Status Register 3 Write Gate alters timing of WE. PRETRK R RCN SC SK SRT ST0 ST1 ST2 ST3 WGATE Read Data Phase Command R/W W W W W W W W W W D7 MT 0 D6 MFM 0 D5 SK 0 D4 0 0 D3 0 0 D2 1 HDS D1 1 DS1 D0 0 DS0 Remark Command code ----------------------------- C ------------------------------------------------------- H ------------------------------------------------------- R -------------------------------------------------------- N ------------------------------------------------------ EOT ----------------------------------------------------- GPL ----------------------------------------------------- DTL -------------------------- Sector ID information prior to command execution Execution Result R R R R R R R ---------------------------- ST0 ------------------------------------------------------ ST1 ----------------------------------------------------- ST2 ------------------------------------------------------ C ------------------------------------------------------- H ------------------------------------------------------- R ------------------------------------------------------- N --------------------------- Data transfer between the FDD and system Status information after command execution. Sector ID information after command execution. Read Deleted Data Phase R/W Command W D7 MT D6 MFM D5 SK D4 0 D3 1 D2 1 D1 0 D0 0 Remark Command code -22- Nov., 2006 V0.24P www..com F71882 W W W W W W W W Execution Result R R R R R R R ---------------------------- ST0 ------------------------------------------------------ ST1 ----------------------------------------------------- ST2 ------------------------------------------------------ C ------------------------------------------------------- H ------------------------------------------------------- R ------------------------------------------------------- N --------------------------Sector ID information after command execution. 0 0 0 0 0 HDS DS1 DS0 Sector ID information prior to command execution ----------------------------- C ------------------------------------------------------- H ------------------------------------------------------- R -------------------------------------------------------- N ------------------------------------------------------ EOT ----------------------------------------------------- GPL ----------------------------------------------------- DTL -------------------------Data transfer between the FDD and system Status information after command execution. Read A Track Phase R/W Command W W W W W W W W W Execution D7 0 0 D6 MFM 0 D5 0 0 D4 0 0 D3 0 0 D2 0 HDS D1 1 DS1 D0 0 DS0 Remark Command code ----------------------------- C ------------------------------------------------------- H ------------------------------------------------------- R -------------------------------------------------------- N ------------------------------------------------------ EOT ----------------------------------------------------- GPL ----------------------------------------------------- DTL -------------------------- Sector ID information prior to command execution Result R R R R ---------------------------- ST0 ------------------------------------------------------ ST1 ----------------------------------------------------- ST2 ------------------------------------------------------ C --------------------------- Data transfer between the FDD and system. FDD reads contents of all cylinders from index hole to EOT. Status information after command execution. Sector ID information after -23- Nov., 2006 V0.24P www..com F71882 R R R ----------------------------- H ------------------------------------------------------- R ------------------------------------------------------- N --------------------------command execution. Read ID Phase Command R/W W W Execution D7 0 0 D6 MFM 0 D5 0 0 D4 0 0 D3 1 0 D2 0 HDS D1 1 DS1 D0 0 DS0 The first correct ID information on the cylinder is stored in Data Register. R R R R R R R ---------------------------- ST0 ------------------------------------------------------ ST1 ----------------------------------------------------- ST2 ------------------------------------------------------ C ------------------------------------------------------- H ------------------------------------------------------- R ------------------------------------------------------- N --------------------------Disk status after the command has been completed. Status information after command execution. Remark Command code Result Verify Phase Command R/W W W W W W W W W W Execution Result R R R R R ---------------------------- ST0 ------------------------------------------------------ ST1 ----------------------------------------------------- ST2 ------------------------------------------------------ C ------------------------------------------------------- H --------------------------Sector ID information after command D7 MT EC D6 MFM 0 D5 SK 0 D4 1 0 D3 0 0 D2 1 HDS D1 1 DS1 D0 0 DS0 Sector ID information prior to command execution Remark Command code ----------------------------- C ------------------------------------------------------- H ------------------------------------------------------- R -------------------------------------------------------- N ------------------------------------------------------ EOT ----------------------------------------------------- GPL --------------------------------------------------- DTL/SC ------------------------ No data transfer Status information after command execution. -24- Nov., 2006 V0.24P www..com F71882 R R ----------------------------- R ------------------------------------------------------- N --------------------------execution. Version Phase Command Result R/W W R D7 0 1 D6 0 0 D5 0 0 D4 1 1 D3 0 0 D2 0 0 D1 0 0 D0 0 0 Remark Command code Enhanced controller Write Data Phase Command R/W W W W W W W W W W Execution D7 MT 0 D6 MFM 0 D5 0 0 D4 0 0 D3 0 0 D2 1 HDS D1 0 DS1 D0 1 DS0 Sector ID information prior to command execution Remark Command code ----------------------------- C ------------------------------------------------------- H ------------------------------------------------------- R -------------------------------------------------------- N ------------------------------------------------------ EOT ----------------------------------------------------- GPL ----------------------------------------------------- DTL -------------------------- Data transfer between the FDD and system. R R R R R R R ---------------------------- ST0 ------------------------------------------------------ ST1 ----------------------------------------------------- ST2 ------------------------------------------------------ C ------------------------------------------------------- H ------------------------------------------------------- R ------------------------------------------------------- N --------------------------Sector ID information after command execution. Status information after command execution. Result Write Deleted Data Phase Command R/W W W W W D7 MT 0 D6 MFM 0 D5 0 0 D4 0 0 D3 1 0 D2 0 HDS D1 0 DS1 D0 1 DS0 Sector ID information prior to command Remark Command code ----------------------------- C ------------------------------------------------------- H --------------------------- -25- Nov., 2006 V0.24P www..com F71882 W W W W W Execution ----------------------------- R -------------------------------------------------------- N ------------------------------------------------------ EOT ----------------------------------------------------- GPL ----------------------------------------------------- DTL -------------------------Data transfer between the FDD and system. R R R R R R R ---------------------------- ST0 ------------------------------------------------------ ST1 ----------------------------------------------------- ST2 ------------------------------------------------------ C ------------------------------------------------------- H ------------------------------------------------------- R ------------------------------------------------------- N --------------------------Sector ID information after command execution. Status information after command execution. execution Result Format A Track Phase Command R/W W W W W W W Execution for each sector ( repeat ) D7 0 0 D6 MFM 0 D5 0 0 D4 0 0 D3 1 0 D2 1 HDS D1 0 DS1 D0 1 DS0 Bytes/Sector Sectors/Cylinder Gap 3 Length Data Pattern Input sector parameter. Remark Command code ------------------------------ N ------------------------------------------------------ SC ----------------------------------------------------- GPL ------------------------------------------------------ D -------------------------------------------------------- C --------------------------- W W W ------------------------------ H -------------------------------------------------------- R ------------------------------------------------------- N ----------------------------------------------------- ST0 ------------------------------------------------------ ST1 ----------------------------------------------------- ST2 -------------------------------------------------- Undefined ---------------------------------------------- Undefined ----------------------------------------------- Undefined ----------------------------------------------- Undefined ---------------------- Result R R R R R R R Status information after command execution. -26- Nov., 2006 V0.24P www..com F71882 Recalibrate Phase Command R/W W W Execution D7 0 0 D6 0 0 D5 0 0 D4 0 0 D3 0 0 D2 1 0 D1 1 DS1 D0 1 DS0 Head retracted to track 0 Remark Command code Sense Interrupt Status Phase Command Result R/W W R R D7 0 D6 0 D5 0 D4 0 D3 1 D2 0 D1 0 D0 0 Remark Command code ---------------------------- ST0 ----------------------------------------------------- PCN -------------------------- Specify Phase Command R/W W W W D7 0 D6 0 D5 0 D4 0 D3 0 D2 0 D1 1 D0 1 Remark Command code |------------------ SRT -------------------| |------------------ HUT -------------------| ND |------------------------------------- SRT ---------------------------------------| Seek Phase Command R/W W W W Execution D7 0 0 D6 0 0 D5 0 0 D4 0 0 D3 1 0 D2 1 HDS D1 1 DS1 D0 1 DS0 Remark Command code ---------------------------- NCN -------------------------Head positioned over proper cylinder on diskette Configure Phase Command R/W W W W W Execution D7 0 0 0 D6 0 0 EIS D5 0 0 EFIFO D4 1 0 POLL D3 0 0 D2 0 HDS D1 1 DS1 D0 1 DS0 Remark Command code |---------------- FIFOTHR ---------------| ---------------------------- PRETRK -------------------------Internal registers written Relative Seek Phase Command R/W W D7 1 D6 DIR D5 0 D4 0 D3 1 D2 1 D1 1 D0 1 Remark Command code -27- Nov., 2006 V0.24P www..com F71882 W W 0 0 0 0 0 HDS DS1 DS0 ---------------------------- RCN -------------------------- Perpendicular Mode Phase Command R/W W W D7 0 OW D6 0 0 D5 0 D3 D4 1 D2 D3 0 D1 D2 0 D0 D1 1 GAP D0 0 WGATE Remark Command code Lock Phase Command Result R/W W R D7 LOCK 0 D6 0 0 D5 0 0 D4 1 LOCK D3 0 0 D2 1 0 D1 0 0 D0 0 0 Remark Command code Dumpreg Phase Command Result R/W W R R R R R R R R R R LOCK 0 0 EIS D7 0 D6 0 D5 0 D4 0 D3 1 D2 1 D1 1 D0 0 Remark Command code -------------------------- PCN ( Drive 0 ) ------------------------------------------------- PCN ( Drive 0 ) ------------------------------------------------- PCN ( Drive 0 ) ------------------------------------------------- PCN ( Drive 0 ) -----------------------|------------------ SRT -------------------| |------------------ HUT -------------------| ND |------------------------------------- SRT ---------------------------------------| -------------------------- SC/EOT -----------------------D3 EFIFO D2 POLL D1 D0 GAP WGATE |---------------- FIFOTHR ---------------| ---------------------------- PRETRK -------------------------- Sense Drive Status Phase Command R/W W W Result R D7 0 0 D6 0 0 D5 0 0 D4 0 0 D3 0 0 D2 1 HDS D1 0 DS1 D0 0 DS0 Status information abut disk drive Remark Command code ---------------------------- ST3 -------------------------- Invalid Phase Command Result R/W W R D7 D6 D5 D4 D3 D2 D1 D0 Remark FDC goes to standby state. ST0 = 80h ---------------------------- Invalid Codes ----------------------------------------------------- ST0 -------------------------- -28- Nov., 2006 V0.24P www..com F71882 7.3 UART The F71882 provides two UART ports and supports IRQ sharing for system application. The UARTs are used to convert data between parallel format and serial format. They convert parallel data into serial format on transmission and serial format into parallel data on receiver side. The serial format is formed by one start bit, followed by five to eight data bits, a parity bit if programmed and one ( 1.5 or 2 ) stop bits. The UARTs include complete modem control capability and an interrupt system that may be software trailed to the computing time required to handle the communication link. They have FIFO mode to reduce the number of interrupts presented to the host. Both receiver and transmitter have a 16-byte FIFO. The below content is about the UART1 and UART2 device register descriptions. All the registers are for software porting reference. Receiver Buffer Register Base + 0 Bit 7-0 RBR Name R/W Default R 00h The data received. Read only when LCR[7] is 0 Description Transmitter Holding Register Base + 0 Bit 7-0 THR Name R/W Default W 00h Data to be transmitted. Write only when LCR[7] is 0 Description Divisor Latch (LSB) Base + 0 Bit 7-0 DLL Name R/W Default R/W 01h Baud generator divisor low byte. Access only when LCR[7] is 1. Description Divisor Latch (MSB) Base + 1 Bit 7-0 DLM Name R/W Default R/W 00h Description Baud generator divisor high byte. Access only when LCR[7] is 1. Interrupt Enable Register Base + 1 Bit 3 2 1 0 EDSSI ELSI ETBFI ERBFI Name R/W Default R/W R/W R/W R/W 0 0 0 0 Reserved. Enable Modem Status Interrupt. Access only when LCR[7] is 0. Enable Line Status Error Interrupt. Access only when LCR[7] is 0. Enable Transmitter Holding Register Empty Interrupt. Access only when LCR[7] is 0. Enable Received Data Available Interrupt. Access only when LCR[7] is 0. Description 7-4 Reserved -29- Nov., 2006 V0.24P www..com F71882 Interrupt Identification Register Base + 2 Bit 7 6 Name FIFO_EN FIFO_EN R/W Default R R R 0 0 000 0: FIFO is disabled 1: FIFO is enabled. 0: FIFO is disabled 1: FIFO is enabled. Reserved. 000: Interrupt is caused by Modem Status 001: Interrupt is caused by Transmitter Holding Register Empty 010: Interrupt is caused by Received Data Available. 110: Interrupt is caused by Character Timeout 011: Interrupt is caused by Line Status. 1: Interrupt is not pending. 0: Interrupt is pending. Description 5-4 Reserved 3-1 IRQ_ID 0 IRQ_PENDN R 1 FIFO Control Register Base + 2 Bit Name R/W Default W 00 Description 00: Receiver FIFO trigger level is 1. 01: Receiver FIFO trigger level is 4. 10: Receiver FIFO trigger level is 8. 11: Receiver FIFO trigger level is 14. Reserved. Reset the transmitter FIFO. Reset the receiver FIFO. 0: Disable FIFO. 1: Enable FIFO. 7-6 RCV_TRIG 5-3 Reserved 2 1 0 CLRTX CLRRX FIFO_EN R R R 0 0 0 Line Control Register Base + 3 Bit 7 6 5 4 3 2 DLAB SETBRK STKPAR EPS PEN STB Name R/W Default R/W R/W R/W R/W R/W R/W 0 0 0 0 0 0 Description 0: Divisor Latch can't be accessed. 1: Divisor Latch can be accessed via Base and Base+1. 0: Transmitter is in normal condition. 1: Transmit a break condition. XX0: Parity Bit is disable 001: Parity Bit is odd. 011: Parity Bit is even 101: Parity Bit is logic 1 111: Parity Bit is logic 0 0: Stop bit is one bit 1: When word length is 5 bit stop bit is 1.5 bit else stop bit is 2 bit 00: Word length is 5 bit 01: Word length is 6 bit 10: Word length is 7 bit 11: Word length is 8 bit 1-0 WLS R/W 00 -30- Nov., 2006 V0.24P www..com F71882 MODEM Control Register Base + 4 Bit 4 3 2 1 0 LOOP OUT2 OUT1 RTS DTR Name R/W Default R/W R/W R/W R/W R/W 0 0 0 0 0 Reserved. 0: UART in normal condition. 1: UART is internal loop back 0: All interrupt is disabled. 1: Interrupt is enabled (disabled) by IER. Read from MSR[6] is loop back mode 0: RTS# is forced to logic 1 1: RTS# is forced to logic 0 0: DTR# is forced to logic 1 1: DTR# is forced to logic 0 Description 7-5 Reserved Line Status Register Base + 5 Bit 7 6 5 4 3 2 1 0 Name RCR_ERR TEMT THRE BI FE PE OE DR R/W Default R R R R R R R R 0 1 1 0 0 0 0 0 Description 0: No error in the FIFO when FIFO is enabled 1: Error in the FIFO when FIFO is enabled. 0: Transmitter is in transmitting. 1: Transmitter is empty. 0: Transmitter Holding Register is not empty. 1: Transmitter Holding Register is empty. 0: No break condition detected. 1: A break condition is detected. 0: Data received has no frame error. 1: Data received has frame error. 0: Data received has no parity error. 1: Data received has parity error. 0: No overrun condition occurred. 1: An overrun condition occurred. 0: No data is ready for read. 1: Data is received. MODEM Status Register Base + 6 Bit 7 6 5 4 3 2 1 DCD RI DSR CTS DDCD TERI DDSR Name R/W Default R R R R R R R 0 0 0 Description Complement of DCD# input. In loop back mode, this bit is equivalent to OUT2 in MCR. Complement of RI# input. In loop back mode , this bit is equivalent to OUT1 in MCR Complement of DSR# input. In loop back mode , this bit is equivalent to DTR in MCR Complement of CTS# input. In loop back mode , this bit is equivalent to RTS in MCR 0: No state changed at DCD#. 1: State changed at DCD#. 0: No Trailing edge at RI#. 1: A low to high transition at RI#. 0: No state changed at DSR#. 1: State changed at DSR#. -31- Nov., 2006 V0.24P www..com F71882 0 DCTS R 0 0: No state changed at CTS#. 1: State changed at CTS#. Scratch Register Base + 7 Bit 7-0 SCR Name R/W Default R/W 00h Scratch register. Description 7.4 Parallel Port The parallel port in F71882 supports an IBM XT/AT compatible parallel port ( SPP ), bi-directional paralle port ( BPP ), Enhanced Parallel Port ( EPP ), Extended Capabilities Parallel Port ( ECP ) mode. Refer to the configuration registers for more information on selecting the mode of operation. The below content is about the Parallel Port device register descriptions. All the registers are for software porting reference. Parallel Port Data Register Base + 0 Bit 7-0 DATA Name R/W Default R/W 00h Description The output data to drive the parallel port data lines. ECP Address FIFO Register Base + 0 Bit Name R/W Default R/W 00h Description Access only in ECP Parallel Port Mode and the ECP_MODE programmed in the Extended Control Register is 011. The data written to this register is placed in the FIFO and tagged as an Address/RLE. It is auto transmitted by the hardware. The operation is only defined for forward direction. It divide into two parts : Bit 7 : 0: bits 6-0 are run length, indicating how many times the next byte to appear (0 = 1time, 1 = 2times, 2 = 3times and so on). 1: bits 6-0 are a ECP address. Bit 6-0 : Address or RLE depends on bit 7. 7-0 ECP_AFIFO Device Status Register Base + 1 Bit 7 6 5 Name BUSY_N ACK_N PERROR R/W Default R R R Description Inverted version of parallel port signal BUSY. Version of parallel port signal ACK#. Version of parallel port signal PE. -32- Nov., 2006 V0.24P www..com F71882 4 3 SELECT ERR_N R R R R 11 Version of parallel port signal SLCT. Version of parallel port signal ERR#. Reserved. Return 11b when read. This bit is valid only in EPP mode. Return 1 when in other modes. It indicates that a 10uS time out has occurred on the EPP bus. 0: no time out error. 1: time out error occurred, write 1 to clear. 2-1 Reserved 0 TMOUT Device Control Register Base + 2 Bit Name R/W Default R/W 11 0 Description Reserved. Return 11b when read. 0: the parallel port is in output mode. 1: the parallel port is in input mode. It is auto reset to 0 when in SPP mode. Enable an interrupt at the rising edge of ACK#. Inverted and then drives the parallel port signal SLIN#. When read, the status of inverted SLIN# is return. Drives the parallel port signal INIT#. When read, the status of INIT# is return. Inverted and then drives the parallel port signal AFD#. When read, the status of inverted AFD# is return. Inverted and then drives the parallel port signal STB#. When read, the status of inverted STB# is return. 7-6 Reserved 5 DIR 4 3 2 1 0 ACKIRQ_EN SLIN INIT_N AFD STB R/W R/W R/W R/W R/W 0 0 0 0 0 EPP Address Register Base + 3 Bit Name R/W Default R/W 00h Description Write this register will cause the hardware to auto transmit the written data to the device with the EPP Address Write protocol. Read this register will cause the hardware to auto receive data from the device by with the EPP Address Read protocol. 7-0 EPP_ADDR EPP Data Register Base + 4 - Base + 7 Bit Name R/W Default R/W 00h Description Write this register will cause the hardware to auto transmit the written data to the device with the EPP Data Write protocol. Read this register will cause the hardware to auto receive data from the device by with the EPP Data Read protocol. 7-0 EPP_DATA Parallel Port Data FIFO Base + 400h Bit Name R/W Default Description -33- Nov., 2006 V0.24P www..com F71882 7-0 C_FIFO R/W 00h Data written to this FIFO is auto transmitted by the hardware to the device by using standard parallel port protocol. It is only valid in ECP and the ECP_MODE is 010b.The operation is only for forward direction. ECP Data FIFO Base + 400h Bit Name R/W Default R/W 00h Description Data written to this FIFO when DIR is 0 is auto transmitted by the hardware to the device by using ECP parallel port protocol. Data is auto read from device into the FIFO when DIR is 1 by the hardware by using ECP parallel port protocol. Read the FIFO will return the content to the system. It is only valid in ECP and the ECP_MODE is 011b. 7-0 ECP_DFIFO ECP Test FIFO Base + 400h Bit 7-0 T_FIFO Name R/W Default R/W 00h Description Data may be read, written from system to the FIFO in any Direction. But no hardware handshake occurred on the parallel port lines. It could be used to test the empty, full and threshold of the FIFO. It is only valid in ECP and the ECP_MODE is 110b. ECP Configuration Register A Base + 400h Bit 7 Name IRQ_MODE R/W Default R 0 Description 0: interrupt is ISA pulse. 1: interrupt is ISA level. Only valid in ECP and ECP_MODE is 111b. 000: the design is 16-bit implementation. 001: the design is 8-bit implementation (default). 010: the design is 32-bit implementation. 011-111: Reserved. Only valid in ECP and ECP_MODE is 111b. Reserved. 0: when transmitting there is 1 byte waiting in the transceiver that does not affect the FIFO full condition. 1: when transmitting the state of the full bit includes the byte being transmitted. Only valid in ECP and ECP_MODE is 111b. Return 00 when read. Only valid in ECP and ECP_MODE is 111b. 6-4 IMPID R 001 3 2 Reserved BYTETRAN_N R 1 1-0 Reserved R 00 ECP Configuration Register B Base + 401h Bit Name R/W Default Description -34- Nov., 2006 V0.24P www..com F71882 7 COMP R 0 0: only send uncompressed data. 1: compress data before sending. Only valid in ECP and ECP_MODE is 111b. Reserved. Return 1 when read. Only valid in ECP and ECP_MODE is 111b. 000: the interrupt selected with jumper. 001: select IRQ 7 (default). 010: select IRQ 9. 011: select IRQ 10. 100: select IRQ 11. 101: select IRQ 14. 110: select IRQ 15. 111: select IRQ 5. Only valid in ECP and ECP_MODE is 111b. Return the DMA channel of ECP parallel port. Only valid in ECP and ECP_MODE is 111b. 6 Reserved R R 1 001 5-3 ECP_IRQ_CH 2-0 ECP_DMA_CH R 011 Extended Control Register Base + 402h Bit Name R/W Default R/W 000 Description 000: SPP Mode. 001: PS/2 Parallel Port Mode. 010: Parallel Port Data FIFO Mode. 011: ECP Parallel Port Mode. 100: EPP Mode. 101: Reserved. 110: Test Mode. 111: Configuration Mode. Only valid in ECP. 0: disable the interrupt generated on the falling edge of ERR#. 1: enable the interrupt generated on the falling edge of ERR#. 0: disable DMA. 1: enable DMA. DMA starts when SERVICEINTR is 0. 0: enable the following case of interrupt. DMAEN = 1: DMA mode. DMAEN = 0, DIR = 0: set to 1 whenever there are writeIntrThreshold or more bytes are free in the FIFO. DMAEN = 0, DIR = 0: set to 1 whenever there are readIntrThreshold or more bytes are valid to be read in the FIFO. 0: The FIFO has at least 1 free byte. 1: The FIFO is completely full. 0: The FIFO contains at least 1 byte. 1: The FIFO is completely empty. 7-5 ECP_MODE 4 3 2 ERRINTR_EN DAMEN SERVICEINTR R/W R/W R/W 0 0 1 1 0 FIFOFULL FIFOEMPTY R R 0 0 -35- Nov., 2006 V0.24P www..com F71882 7.5 Hardware Monitor For the 8-bit ADC has the 8mv LSB, the maximum input voltage of the analog pin is 2.048V. Therefore the voltage under 2.048V (ex:1.5V) can be directly connected to these analog inputs. The voltage higher than 2.048V should be reduced by a factor with external resistors so as to obtain the input range. Only 3Vcc is an exception for it is main power of the F71882. Therefore 3Vcc can directly connect to this chip's power pin and need no external resistors. There are two functions in this pin with 3.3V. The first function is to supply internal analog power of the F71882 and the second function is that voltage with 3.3V is connected to internal serial resistors to monitor the +3.3V voltage. The internal serial resistors are two 150K ohm, so that the internal reduced voltage is half of +3.3V. There are four voltage inputs in the F71882 and the voltage divided formula is shown as follows: VIN = V+12V x R2 R1 + R2 where V+12V is the analog input voltage, for example. If we choose R1=27K, R2=5.1K, the exact input voltage for V+12v will be 1.907V, which is within the tolerance. As for application circuit, it can be refer to the figure shown as follows. 3Vcc Voltage Inputs VIN (Lower than 2.304V) VIN(Higher than (directly connect to the chip) (directly connect to the chip) VIN1(Max2.304V) R1 R2 150K VIN3.3 150K VREF Pin 1 R 10K, 1% Pin 3, 4 or 5 Typical BJT Connection 2N3906 D+ D- 8-bit ADC with 8 mV LSB RTHM 10K, 25 C Typical Thermister Connection Fig 7-1 SMI# interrupt for voltage is shown as figure. Voltage exceeding or going below high limit will cause an interrupt if the previous interrupt has been reset by writing "1" all the interrupt Status Register. Voltage exceeding or going below low limit will result the same condition as voltage exceeding or going below high limit. -36- Nov., 2006 V0.24P www..com F71882 (pulse mode) (level mode) * * * * * * * * *Interrupt Reset when Interrupt Status Registers are written 1 Voltage SMI# Mode Fig 7-2 The F71882 monitors three remote temperature sensors. One of these sensors can be measured from -20C to 127C. The others can be measured from 0C to 145C (2 Sets) .More detail please refer register description. Remote-sensor transistor manufacturers Manufacturer Panasonic Philips Monitor Temperature from "thermistor" The F71882 can connect three thermistor to measure environment temperature or remote temperature. The specification of thermistor should be considered to (1) value is 3435K (2) resistor value is 10K ohm at 25C. In the Figure 7-1, the thermistor is connected by a serial resistor with 10K ohm, then connected to VREF. Model Number 2SB0709 2N3906 PMBT3906 Monitor Temperature from "thermal diode" Also, if the CPU, GPU or external circuits provide thermal diode for temperature measurement, the F71882 is capable to these situations. The build-in reference table is for PNP 2N3906 transistor. In the Figure 7-1, the transistor is directly connected into temperature pins. ADC Noise Filtering The ADC is integrating type with inherently good noise rejection. Micro-power operation places constraints on high-frequency noise rejection; therefore, careful PCB board layout and suitable external filtering are required for high-accuracy remote measurement in electronically noisy environment. High frequency EMI is best filtered at D+ and D- with an external 2200pF -37Nov., 2006 V0.24P www..com F71882 capacitor. Too high capacitance may introduce errors due to the rise time of the switched current source. Nearly all noise sources tested cause the ADC measurement to be higher than the actual temperature, depending on the frequency and amplitude. Over Temperature Signal (OVT#) OVT# alert for temperature is shown as figure 7-3. When monitored temperature exceeds the over-temperature threshold value, OVT# will be asserted until the temperature goes below the hysteresis temperature. To T HYST OVT# Fig 7-3 Temperature PME# PME# interrupt for temperature is shown as figure 7-4. Temperature exceeding high limit or going below hysteresis will cause an interrupt if the previous interrupt has been reset by writing "1" all the interrupt Status Register. To T HYST SMI# (pulse mode) (level mode active low) * * * * *Interrupt Reset when Interrupt Status Registers are written 1 Fig 7-4 Fan speed count -38Nov., 2006 V0.24P www..com F71882 Inputs are provided by the signals from fans equipped with tachometer outputs. The level of these signals should be set to TTL level, and maximum input voltage cannot be over 5V. If the input signals from the tachometer outputs are over the 5V, the external trimming circuit should be added to reduce the voltage to obtain the input specification. The normal circuit and trimming circuits are shown as follows: +12V Pull-up resister 4.7K Ohms Pull-up resister < 1K or totem-pole output +12V FAN Out GND 10K 22K~30K Fan Input +12V FANIN 1 FAN Out GND > 1K +12V Fan Input FANIN 1 F71882 3.3V Zener FAN Connector F71882 Fan with Tach Pull-Up to +12V, or Totern-Pole Output and Register Attenuator Fan with Tach Pull-Up to +12V, or Totem-Pole Putput and Zener Clamp Fig 7-5 / 7-6 +5V Pull-up resister 4.7K Ohms Pull-up resister < 1K or totem-pole output +5V FAN Out GND 10K 1K~2.7K Fan Input +5V FANIN1 FAN Out GND > 1K +5V Fan Input FANIN1 F71882 3.3V Zener FAN Connector F71882 Fan with Tach Pull-Up to +5V, or Totern-Pole Output and Register Attenuator Fan with Tach Pull-Up to +5V, or Totem-Pole Putput and Zener Clamp Fig 7-7 / 7-8 Determine the fan counter according to: Count = 1.5 x 10 6 RPM In other words, the fan speed counter has been read from register, the fan speed can be evaluated by the following equation. As for fan, it would be best to use 2 pulses tachometer output per round. RPM = 1.5 x 10 6 Count -39- Nov., 2006 V0.24P www..com F71882 Fan speed control The F71882 provides 2 fan speed control methods: 1. LINEAR FAN CONTROL 2. PWM DUTY CYCLE Linear Fan Control The range of DC output is 0~3.3V, controlled by 8-bit register. 1 LSB is about 0.013V. The output DC voltage is amplified by external OP circuit, thus to reach maximum FAN OPERATION VOLTAGE, 12V. The output voltage will be given as followed: Programmed 8bit Register Value 255 Output_voltage (V) = 3.3 x And the suggested application circuit for linear fan control would be: 12V 3 DC OUTPUT VOLTAGE 2 8 + 4 1 LM358 PMOS D1 1N4148 R 4.7K JP1 R 10K C 47u 3 2 1 CON3 R 27K FANIN MONITOR C 0.1u R 10K R 3.9K DC FAN Control with OP Fig 7-9 PWM duty Fan Control The duty cycle of PWM can be programmed by a 8-bit register. The default duty cycle is set to 100%, that is, the default 8-bit registers is set to FFh. The expression of duty can be represented as follows. Duty_cycle(%) = Programmed 8bit Register Value x 100% 255 -40- Nov., 2006 V0.24P www..com F71882 +12V +5V R1 R2 D G PWM Clock Input NMOS S + C FAN PWM Clock Input G NMOS S + C FAN PNP Transistor D R1 R2 PNP Transistor Fig 7-10 Fan speed control mechanism There are some modes to control fan speed and they are 1.Manual mode, 2.Stage auto mode, 3. Linear auto mode. More detail, please refer the description of registers. Manual mode For manual mode, it generally acts as software fan speed control. Stage auto mode At this mode, the F71882 provides automatic fan speed control related to temperature variation of CPU/GPU or the system. The F71882 can provide four temperature boundaries and five intervals, and each interval has its related fan speed count. All these values should be set by BIOS first. Take figure 7-11 as example. When temperature boundaries are set as 45, 55, 65, and 75C and there are five intervals (each interval is 10(C). The related desired fan speed counts for each interval are 0500h, 0400h, 0300h, 0200h and 0100h. When the temperature is within 55~65(C, the fan speed count 300h will be load into FAN EXPECT COUNT that define in registers. Then, the F71882 will adjust PWMOUT duty-cycle to meet the expected value. It can be said that the fan will be turned on with a specific speed set by BIOS and automatically controlled with the temperature variation. The F71882 will take charge of all the fan speed control and need no software support. Desired Counts 75 Degree C 65 Degree C 0300h 55 Degree C 0400h 45 Degree C 0500h 0100h 0200h Figure 7-11 -41- Nov., 2006 V0.24P www..com F71882 There are some examples as below: A. Stage auto mode (PWM Duty) Set temperature as 60XC, 50XC, 40XC, 30XC and Duty as 100%, 90%, 80%, 70%, 60% PWM duty 60 Degree C 50 Degree C hysteresis 47 Degree C 40 Degree C 70% 30 Degree C 60% 0xB2 0x99 100% 90% 80% 0xFF 0xE5 0xCC Temp. Fan Speed a b c d a. Once temp. is under 30XC, the lowest fan speed keeps 60% PWM duty b. Once temp. is over 30XC,40XC,50XC, the fan speed will vary from 60% to 90% PWM duty and increase with temp. level. c. Once temp. keeps in 55XC, fan speed keeps in 90% PWM duty reduces to 80% PWM duty and stays there. B. Stage auto mode (RPM%) Set temperature as 60XC, 50XC, 40XC, 30XC and assume the Full Speed is 6000rpm, set 90% of full speed RPM(5400rpm), 80%(4800rpm), 70%(4200rpm), 60%(3600rpm) of full speed RPM 60 Degree C 50 Degree C hysteresis 47 Degree C 40 Degree C 70%(4200RPM) 30 Degree C 60%(3600RPM) 6000RPM 90%(5400RPM) 80%(4800RPM) d. If set the hysteresis as 3XC (default 4XC), once temp reduces under 47XC, fan speed a b c d a. Once temp. is under 30XC, the lowest fan speed keeps 60% of full speed (3600RPM). b. Once temp. is over 30XC,40XC,50XC, the fan speed will vary from 3600RPM to 5400RPM and increase with temp. level. c. Once temp. keeps in 55XC, fan speed keeps in 90% of full speed (5400RPM) d. If set the hysteresis as 3XC (default 4XC), once temp reduces under 47XC, fan speed reduces to 4800RPM and stays there. -42Nov., 2006 V0.24P Temp. Fan Speed www..com F71882 Linear auto mode Otherwise, F71882 supports linear auto mode. Below has two examples to describe this mode. More detail, please refer the register description. A. Linear auto mode (PWM Duty I) Set temperature as 70XC, 60XC, 50XC, 40XC and Duty as 100%, 70%, 60%, 50%, 40% PWM duty 70 Degree C hysteresis 65 Degree C 60 Degree C 60% 50 Degree C 50% 40 Degree C 40% 100% 70% Temp. Fan Speed a b c d a. Once temp. is under 40XC, the lowest fan speed keeps 40% PWM duty b. Once temp. is over 40XC,50XC,60XC, the fan speed will vary from 40% to 70% PWM duty and linearly increase with temp. variation. interval is 1sec. c. Once temp. goes over 70XC, fan speed will directly increase to 100% PWM duty (full speed) d. If set the hysteresis as 5XC(default is 4XC), once temp reduces under 65XC (not 70XC), fan speed reduces from 100% PWM duty and decrease linearly with temp.. B. Linear auto mode (RPM%) Set temperature as 70XC, 60XC, 50XC, 40XC and if full speed is 6000RPM, setting 100%, 70%, 60%, 50%, 40% of full speed. 70 Degree C hysteresis 65 Degree C 60 Degree C 60%(3600RPM) 50 Degree C 50%(3000RPM) 40 Degree C 40%(2400RPM) 6000RPM 70%(4200RPM) The temp.-fan speed monitoring and flash a b c d a. Once temp. is under 40XC, the lowest fan speed keeps 40% of full speed (2400RPM) b. Once temp. is over 40XC,50XC,60XC, the fan speed will vary from 40% to 70% of full -43Nov., 2006 V0.24P Temp. Fan Speed www..com F71882 speed and almost linearly increase with temp. variation. monitoring and flash interval is 1sec. c. Once temp. goes over 70XC, fan speed will directly increase to full speed 6000RPM. d. If set the hysteresis as 5XC, once temp reduces under 65XC (not 70XC), fan speed reduces from full speed and decrease linearly with temp.. The temp.-fan speed PWMOUT Duty-cycle operating process In both "Manual RPM" and "Temperature RPM" modes, the F71882 adjust PWMOUT duty-cycle according to current fan count and expected fan count. It will operate as follows: (1). When expected count is 0xFFF, PWMOUT duty-cycle will be set to 0x00 to turn off fan. (2). When expected count is 0x000, PWMOUT duty-cycle will be set to 0xFF to turn on fan with full speed. (3). If both (1) and (2) are not true, (4). When PWMOUT duty-cycle decrease to MIN_DUTY( 00h), obviously the duty-cycle will decrease to 00h next, the F71882 will keep duty-cycle at 00h for 1.6 seconds. After that, the F71882 starts to compare current fan count and expected count in order to increase or decrease its duty-cycle. This ensures that if there is any glitch during the period, the F71882 will ignore it. Start Duty Stop Duty Fig 7-12 FAN_FAULT# Fan_Fault# will be asserted when the fan speed doesn't meet the expected fan speed within a programmable period (default is 11 seconds) or when fan stops with respect to PWM duty-cycle which should be able to turn on the fan. There are two conditions may cause the FAN_FAULT# event. (1). When PWM_Duty reaches 0xFF, the fan speed count can't reach the fan expected count in time. (Figure 7-13) -44- Nov., 2006 V0.24P www..com F71882 11 sec(default) Current Fan Count Expected Fan Count 100% Duty-cycle Fan_Fault# Fig 7-13 (2). After the period of detecting fan full speed, when PWM_Duty > Min. Duty, and fan count still in 0xFFF. 7.6 Keyboard Controller The KBC provides the functions included a keyboard and a PS/2 mouse, and can be used with IBM(-compatible personal computers or PS/2-based systems. The controller receives serial data from the keyboard or PS/2 mouse, checks the parity of the data, and presents the data to the system as a byte of data in its output buffer. The controller will assert an interrupt to the system when data are placed in its output buffer. The below content is about the KBC device register descriptions. All the registers are for software porting reference. Status Register The status register is an 8 bits register at I/O address 64h that provides information about the status of the KBC Bit 7 6 5 4 3 2 1 0 Name Parity error Time out Auxiliary device OBF Inhinit Command/data SYSTEM_FLAG IBF OBF R/W Default R R R R R R R R 0 0 0 0 0 0 0 0 0:odd parity 1:even parity 0:no time out error 1:time out error 0: Auxiliary output buffer empty 1: Auxiliary output buffer full 0:keyboard is inhibited 1: keyboard is not inhibited 0:data byte 1:command byte This bit is set or clear by command byte of KBC 0:input buffer empty 1: input buffer full 0:output buffer empty 1: output buffer full Description -45- Nov., 2006 V0.24P www..com F71882 Command register The internal KBC operation is controlled by the KBC command byte (KCCB). The KCCB resides in I/O address 64h that is read with a 20h command and written with a 60h command data. Bit 7 6 5 4 3 2 1 Name Reserved Translate code Disable Auxiliary Device Disable Keyboard Reserved System flag Enable Auxiliary Interrupt Enable keyboard Interrupt R/W Default R/W R/W R/W R/W R/W 1 0 0 1 1 Reserved 0: Pass un-translated scan code. 1: Translate scan code to IBM PC standard. 1: Disable Auxiliary inhibit function. 1: Disable keyboard inhibit function. Reserved 0: The system is executing POST as a result of a cold boot. 1: The system is executing POST as a result of a shutdown or warm boot. 0: Ao interrupt 1: A system interrupt is generated when a byte is placed in output buffer (IRQ12). 0:No interrupt 1: A system interrupt is generated when a byte is placed in output buffer (IRQ1). Description 0 R/W 1 DATA register The DATA register is an 8 bits register at I/O address 60h. the KBC used the output buffer to send the scan code received from keyboard and data byte replay by command to the system. Power on default <7:0> = 00000000 binary 7.7 SPI Interface Communication between the two devices is handling the serial peripheral interface (SPI). Every SPI system consist of one master and one or more slaves, where a master provides the SPI clock and slave receives clock from the master. This design is only master function, for basic signal, master-out/slave-in (MOSI), master-in/slave-out (MISO), serial clock (SCK), and 4 slaves select (SS), are needed for SPI interface. Each of slave select supports from 512kbits to 4096kbits flash is decided by configuration register. Serial clock (SCK) signal frequency is varied from 24MHz to 187.5 KHz. The serial data (MOSI) for SPI interface translates to depend on SCK rising edge or falling edge is decided by configuration register. -46- Nov., 2006 V0.24P www..com F71882 7.8 ACPI Function The Advanced Configuration and Power Interface (ACPI) is a system for controlling the use of power in a computer. It lets computer manufacturer and user to determine the computer's power usage dynamically. There are three ACPI states that are of primary concern to the system designer and they are designated S0, S3 and S5. S0 is a full-power state; the computer is being actively used in this state. The other two are called sleep states and reflect different power consumption when power-down. S3 is a state that the processor is powered down but the last procedural state is being stored in memory which is still active. S5 is a state that memory is off and the last procedural state of the processor has been stored to the hard disk. Take S3 and S5 as comparison, since memory is fast, the computer can quickly come back to full-power state, the disk is slower than the memory and the computer takes longer time to come back to full-power state. However, since the memory is off, S5 draws the minimal power comparing to S0 and S3. It is anticipated that only the following state transitions may happen: S0S3, S0S5, S5S0, S3S0 and S3S5. Among them, S3S5 is illegal transition and won't be allowed by state machine. It is necessary to enter S0 first in order to get to S5 from S3. As for transition S5S3 will occur only as an immediate state during state transition from S5S0. It isn't allowed in the normal state transition. The below diagram described the timing, the always on and always off, keep last state could be set in control register. In keep last state mode, one register will keep the status of before power loss. If it is power on before power loss, it will remain power on when power is resumed, otherwise, if it is power off before power loss, it will remain power off when power is resumed. VBAT VSB RSMRST# S3# PS_ON# PSIN# PSOUT# VCC3V DEFAULT TIMING Always off -47- Nov., 2006 V0.24P www..com F71882 VBAT VSB RSMRST# S3# PS_ON# PSIN# PSOUT# VCC3V ALways ON TIMING PCI Reset and PWROK Signals The F71882 supports 3 output buffers for 3 reset signals. If the register RSTCON_EN is set to 1, the pin RSTCON# will infect PCIRST1# ~ PCIRST3# outcome. Then, the result of PCIRST# outcome will be affected by conditions as below: PCIRST1# Output buffer of RSTCON# and LRESET#. PCIRST2# Output buffer of RSTCON# and LRESET#. PCIRST3# Output buffer of RSTCON# and LRESET#. +3.3V ATXPG Delay PWROK RSTCON# LRESET# PCIRST1~3# RSTCON# So far as the PWROK issue is as the figure above. PWROK is delayed 400ms (default) as VCC arrives 2.8V, and the delay timing can be programmed by register. (100ms ~ 400ms) In the figure, the RSTCON# will be implemented by register RSTCON_EN. If RSTCON_EN be set to 0, the RSTCON# pin will affect PWROK outputs(Default). If RSTCON_EN be set to 1, the RSTCON# pin will affect PCIRST outputs. -48- Nov., 2006 V0.24P www..com F71882 VCC3 CPU 5 7 PWOK 6 4.7K 8 4.7K VCORE NORTH BRIDGE VSI VSO to PWM VCORE SENSE IDE ATA 133 PCIRST3# SOUTH BRIDGE SATA*2 PCIRST2# VCC3 1 R89 1K 2 PCIRST# LRESET# SUSB# PWSOUT# RSMRST# S3# FRONT PANEL VSB3 VSB3 1 2 RSTCON# PWSIN# R88 4.7K R90 1 33 Front Panel 2 7 RESET PSW8 R91 12 2 Feature Integration Technology Inc. Document Number ACPI & VSI/VSO Monday , July 11, 2005 Sheet 5 of 6 Rev 0.1 C42 0.1UF 5 RSTGND PSW+ 6 -PWR_BTN 1 2 R86 4.7K F71882 F71882 ATXPG_IN PS_ON# PCI PCLK_1,2,3(33MHz) PCIRST1# 1 3 1 1K VSB5 1 R85 4.7K -12V 2 ATX1 3V3 3V3 -12V 3V3 GND GND PS-ON 5V GND GND GND 5V GND GND -5V PW-OK 5V 5VSB 5V 12V 2 4.7K 4 4.7K 2 VSB3 VCC3 VCC5 1 11 12 13 14 15 16 17 18 19 20 1 2 3 4 5 6 7 8 9 10 VCC3 VCC5 VSB5 1 VSB5 2 R87 4.7K 1 +12V Title Size A Date: ATX CONNECTOR ATX CONNECTOR ACPI Reference Circuit 7.9 AMDSI and Intel SST PECI Function The F71882 provides Intel SST/PECI/AMDSI interfaces for new generational CPU temperature sensing. In AMDSI interface, there are SIC and SID signals for temperature information reading from AMD CPU. The SIC signal is for clocking use, the other is for data transferring. More detail please refer register description. 2 TC1 22uF -49- Nov., 2006 V0.24P www..com F71882 VDDIO 300 300 SIC SID AMD CPU SIC SID F71882 In Intel SST and PECI interfaces, the F71882 can connect to CPU/SST directly. The F71882 can read the temperature data from CPU, than the fan control machine of F71882 can implement the Fan to cool down CPU temperature. As same as PECI, chipset can get information from F71882 including CPU temperature, system temperature (F71882 provides D+/D- for system temperature sensing), fan speed status by SST. The application circuit is as below. More detail please refer the register description. Intel ICH8 SST 100K SST F71882 avoid pre-BIOS floating Intel CPU PECI avoid pre-BIOS floating F71882 PECI 100K -50- Nov., 2006 V0.24P www..com F71882 8. Register Description The configuration register is used to control the behavior of the corresponding devices. To configure the register, using the index port to select the index and then writing data port to alter the parameters. The default index port and data port are 0x4E and 0x4F respectively. Pull down the SOUT1 pin to change the default value to 0x2E/0x2F. To enable configuration, the entry key 0x87 must be written to the index port. To disable configuration, write exit key 0xAA to the index port. Following is a example to enable configuration and disable configuration by using debug. -o 4e 87 -o 4e 87 -o 4e aa ( enable configuration ) ( disable configuration ) The Following is a register map (total devices) grouped in hexadecimal address order, which shows a summary of all registers and their default value. Please refer each device chapter if you want more detail information. Global Control Registers "-" Reserved or Tri-State Global Control Registers Register 0x[HEX] 02 07 20 21 23 24 25 26 27 28 29 2A 2B 2C Register Name MSB Software Reset Register Logic Device Number Register (LDN) Chip ID Register Chip ID Register Vender ID Register Vender ID Register Software Power Down Register UART IRQ Sharing Register ROM Address Select Register Power LED Function Select Register Multi Function Select 1 Register Multi Function Select 2 Register Multi Function Select 3 Register Multi Function Select 4 Register 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0/1 1/0 0 0 0 0 0 0 0 0 1 0 1/0 0/1 0 0 0 0 0 0 0 1 1 0 1/0 0 0 0 0 0 0 0 0 1 0 0 0/1 0 0 0 0 1 0 1 0 0 1 0 0/1 0 0 0 0 0 0 0 0 0 0 0 0 0/1 0 0 0 0 0 Default Value LSB 0 0 1 1 1 0 0 0 0 0 0 0 0 0 -51- Nov., 2006 V0.24P www..com F71882 2D Wakeup Control Register 0 1 0 0 0 Device Configuration Registers "-" Reserved or Tri-State FDC Device Configuration Registers (LDN CR00) Register 0x[HEX] 30 60 61 70 74 F0 F2 F4 Register Name MSB FDC Device Enable Register Base Address High Register Base Address Low Register IRQ Channel Select Register DMA Channel Select Register FDD Mode Register FDD Drive Type Register FDD Selection Register 0 1 0 1 0 1 0 1 0 0 0 0 1 0 0 0 1 0 1 1 0 1 1 1 1 0 Default Value LSB 1 1 0 0 0 0 1 0 UART1 Device Configuration Registers (LDN CR01) Register 0x[HEX] 30 60 61 70 F0 Register Name MSB UART1 Device Enable Register Base Address High Register Base Address Low Register IRQ Channel Select Register RS485 Enable Register 0 1 0 1 0 1 0 1 0 0 1 0 0 0 1 1 0 0 Default Value LSB 1 1 0 0 - UART2 Device Configuration Registers (LDN CR02) Register 0x[HEX] 30 60 61 70 F0 F1 Register Name MSB UART2 Device Enable Register Base Address High Register Base Address Low Register IRQ Channel Select Register RS485 Enable Register SIR Mode Control Register 0 1 0 1 0 1 0 1 0 0 0 1 0 0 0 0 0 0 0 1 1 0 1 0 Default Value LSB 1 0 0 1 0 Parallel Port Device Configuration Registers (LDN CR03) Register 0x[HEX] 30 60 61 Register Name MSB Parallel Port Device Enable Register Base Address High Register Base Address Low Register 0 0 0 1 0 1 0 1 0 1 0 0 1 0 Default Value LSB 1 1 0 -52- Nov., 2006 V0.24P www..com F71882 70 74 F0 IRQ Channel Select Register DMA Channel Select Register PRT Mode Select Register 0 1 0 0 0 0 0 1 0 0 1 1 1 1 1 0 Hardware Monitor Device Configuration Registers (LDN CR04) Register 0x[HEX] 30 60 61 70 Register Name MSB H/W Monitor Device Enable Register Base Address High Register Base Address Low Register IRQ Channel Select Register 0 1 0 0 0 0 0 1 0 0 0 0 1 0 1 0 0 Default Value LSB 1 0 1 0 KBC Device Configuration Registers (LDN CR05) Register 0x[HEX] 30 60 61 70 72 F0 Register Name MSB KBC Device Enable Register Base Address High Register Base Address Low Register KB IRQ Channel Select Register Mouse IRQ Channel Select Register Clock Select Register 0 0 1 0 1 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 Default Value LSB 1 0 0 0 0 1 GPIO Device Configuration Registers (LDN CR06) Register 0x[HEX] F0 F1 F2 F3 E0 E1 E2 E3 D0 D1 D2 D3 C0 C1 C2 C3 Register Name MSB GPIO Output Enable Register GPIO Output Data Register GPIO Pin Status Register GPIO Drive Enable Register GPIO1 Output Enable Register GPIO1 Output Data Register GPIO1 Pin Status Register GPIO1 Drive Enable Register GPIO2 Output Enable Register GPIO2 Output Data Register GPIO2 Pin Status Register GPIO2 Drive Enable Register GPIO3 Output Enable Register GPIO3 Output Data Register GPIO3 Pin Status Register GPIO3 Drive Enable Register 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0 1 0 Default Value LSB 0 1 0 0 1 0 0 1 0 0 1 0 -53- Nov., 2006 V0.24P www..com F71882 B0 B1 B2 B3 GPIO4 Output Enable Register GPIO4 Output Data Register GPIO4 Pin Status Register GPIO4 Drive Enable Register 0 1 0 0 1 0 0 1 0 0 1 0 VID Device Configuration Registers (LDN CR07) Register 0x[HEX] 30 60 61 Register Name MSB VID Device Enable Register Base Address High Register Base Address Low Register 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Default Value LSB 0 0 0 SPI Device Configuration Registers (LDN CR08) Register 0x[HEX] F0 F1 F2 F3 F4 F5 F6 F7 F8 FA FB FC FD FE FF Register Name MSB SPI Control Register SPI Timeout Value Register SPI Baud Rate Divisor Register SPI Status Register SPI High Byte Data Register SPI Command Data Register SPI Chip Select Register SPI Memory Mapping Register SPI Operate Register SPI Low Byte Data Register SPI Address High Byte Register SPI Address Medium Byte Register SPI Address Low Byte Register SPI Program Byte Register SPI Write Data Register 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Default Value LSB 0 0 1 0 0 0 0 0 0 0 0 0 0 PME and ACPI Device Configuration Registers (LDN CR0A) Register 0x[HEX] 30 F0 F1 F4 F5 Register Name MSB PME Device Enable Register PME Event Enable Register PME Event Status Register ACPI Control Register ACPI Control Register 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 1 0 0 1 1 0 0 1 Default Value LSB 0 0 1 0 - -54- Nov., 2006 V0.24P www..com F71882 8.1 8.1.1 Bit Global Control Registers Software Reset Register Index 02h Name R/W Default R/W 0 Reserved Write 1 to reset the register and device powered by VDD ( VCC ). Description 7-1 Reserved 0 SOFT_RST 8.1.2 Bit Logic Device Number Register (LDN) Index 07h Name R/W Default R/W 00h Description 00h: Select FDC device configuration registers. 01h: Select UART 1 device configuration registers. 02h: Select UART 2 device configuration registers. 03h: Select Parallel Port device configuration registers. 04h: Select Hardware Monitor device configuration registers. 05h: Select KBC device configuration registers. 06h: Select GPIO device configuration registers. 07h: Select VID device configuration registers. 08h: Select SPI device configuration registers. 0ah: Select PME & ACPI device configuration registers. Chip ID Register Index 20h Name R/W Default R 05h Chip ID 1 of F71882. Description 7-0 LDN 8.1.3 Bit 7-0 CHIP_ID1 8.1.4 Bit Chip ID Register Index 21h Name R/W Default R 41h Chip ID2 of F71882. Description 7-0 CHIP_ID2 8.1.5 Bit Vendor ID Register Index 23h Name R/W Default R 19h Vendor ID 1 of Fintek devices. Description 7-0 VENDOR_ID1 8.1.6 Bit Vendor ID Register Index 24h Name R/W Default R 34h Vendor ID 2 of Fintek devices. Description 7-0 VENDOR_ID2 -55- Nov., 2006 V0.24P www..com F71882 8.1.7 Bit Software Power Down Register Index 25h Name R/W Default R/W R/W R/W R/W R/W R/W 0 0 0 0 0 0 Reserved Power down the KBC device. This will stop the KBC clock. Power down the Hardware Monitor device. This will stop the Hardware Monitor clock. Power down the Parallel Port device. This will stop the Parallel Port clock. Power down the UART 2 device. This will stop the UART 2 clock. Power down the UART 1 device. This will stop the UART 1 clock. Power down the FDC device. This will stop the FDC clock. Description 7-6 Reserved 5 4 3 2 1 0 SOFTPD_KBC SOFTPD_HM SOFTPD_PRT SOFTPD_UR2 SOFTPD_UR1 SOFTPD_FDC 8.1.8 Bit 7 UART IRQ Sharing Register Index 26h Name CLK24M_SEL R/W Default R/W R/W R/W 0 0 0 0: CLKIN is 48MHz 1: CLKIN is 24MHz Reserved. 0: PCI IRQ sharing mode (low level). 1: ISA IRQ sharing mode (low pulse). 0: disable IRQ sharing of two UART devices. 1: enable IRQ sharing of two UART devices. ROM Address Select Register Index 27h Name ROM_WR_EN SPI_EN R/W Default R/W R/W 0 0: disable ROM writing 1: enable ROM writing 0: SPI disable 1: SPI enable This register is power on trapped by SOUT2/SPI_TRAP. Pull down to enable SPI. 0: use SPI as primary BIOS 1: use SPI as backup BIOS This register is power on trapped by DTR2#/FWH_TRAP. Pull down to select SPI as primary BIOS. 0: The configuration register port is 2E/2F. 1: The configuration register port is 4E/4F. This register is power on trapped by SOUT1/ Config4E_2E. Pull down to select port 2E/2F. 0: disable address 0x000E0000 - 0x000EFFFF decode 1: enable address 0x000E0000 - 0x000EFFFF decode This register is power on trapped by SOUT2/SPI_DIS. Pull down to enable. Description Description 6-2 Reserved 1 o IRQ_MODE IRQ_SHAR 8.1.9 Bit 7 6 5 BACKUP_BIOS_EN R/W - 4 PORT_4E_EN R/W - 3 SEG_000E_EN R/W - -56- Nov., 2006 V0.24P www..com F71882 2 SEG_FFF8_EN R/W 0: disable address 0xFFF80000 - 0xFFFFFFFF and 0x000F0000 - 0x000FFFFF decode 1: enable address 0xFFF80000 - 0xFFFFFFFF and 0x000F0000 - 0x000FFFFF decode This register is power on trapped by SOUT2/SPI_DIS. Pull down to enable. 0: disable address 0xFFEE - 0xFFEFFFFF decode 1: enable address 0xFFEE0000 - 0xFFEFFFFF decode This register is power on trapped by SOUT2/SPI_DIS. Pull down to enable. 0: disable address 0xFFF00000 - 0xFFF7FFFF decode 1: enable address 0xFFF00000 - 0xFFF7FFFF decode 1 SEG_FFEF_EN R/W - 0 SEG_FFF0_EN R/W 0 8.1.10 Bit 7 6 Power LED Function Select Register Index 28h Name R/W Default R/W Reserved. 0: The VID_OUT[5:0]/GPIO0[5:0] functions SLOTOTCC#/GPIO06 functions as GPIO06. as GPIO0[5:0], and the Description Reserved VIDOUT_EN 1: The VID_OUT[5:0]/GPIO0[5:0] functions as VID_OUT[5:0], and the SLOTOTCC#/GPIO06 functions as SLOTOCC#. This register is power on trapped by RTS1#/VIDOUT_TRAP. Pull down to select GPIOs function. 5-4 Reserved 3 2 1 0 GPIO43_SEL GPIO42_SEL GPIO41_SEL GPIO40_SEL R/W R/W R/W R/W R/W 0 0 0 0 Reserved 0: IRRX/GPIO43 functions as IRRX. 1: IRRX/GPIO43 functions as GPIO43. 0: IRTX/GPIO42 functions as IRTX. 1: IRTX/GPIO42 functions as GPIO42. 0: FANCTRL3/GPIO41 functions as FANCTRL3. 1: FANCTRL3/GPIO41 functions as GPIO41. 0: FANIN3/GPIO40 functions as FANIN3. 1: FANIN3/GPIO40 functions as GPIO40. Multi Function Select 1 Register Index 29h (Powered by VSB3V) Name R/W Default R/W R/W R/W 0 0 0 Reserved 0: GPIO07/Turbo1#/WDTRST# will function as GPIO07/Turbo1#. 1: GPIO07/Turbo1#/WDTRST# will function as WDTRST#. 0 ALERT_GP_EN 0: GPIO15/LED_VSB/ALERT# will function as GPIO15/LED_VSB controlled by GPIO15_SEL register. 1: GPIO15/LED_VSB/ALERT# will function as ALERT#. Multi Function Select 2 Register Index 2Ah (Powered by VSB3V) Name R/W Default Description Description 8.1.11 Bit 7-2 Reserved 1 WDT_GP07_EN 8.1.12 Bit -57- Nov., 2006 V0.24P www..com F71882 7-6 VSBLED_SEL R/W 2'b00 VSBLED function select, powered by VSB. 00: VSBLED always output low. 01: VSBLED tri-state 10: VSBLED output 0.5Hz clock. 11: VSBLED output 1Hz clock. ( clock output is inverse with VDDLED clock output ) 5-4 VDDLED_SEL R/W 2'b00 VDDLED function select, powered by VDD. 00: VDDLED always output low. 01: VDDLED tri-state 10: VDDLED output 0.5Hz clock. 11: VDDLED output 1Hz clock. ( clock output is inverse with VSBLED clock output ) 3 2 1 0 GPIO33_SEL GPIO32_SEL GPIO31_SEL GPIO30_SEL R/W R/W R/W R/W 0 0 0 0 0: RSMRST#/GPIO33 functions as RSMRST#. 1: RSMRST#/GPIO33 functions as GPIO33. 0: PWROK/GPIO32 functions as PWROK. 1: PWROK/GPIO32 functions as GPIO32. 0: PS_ON#/GPIO31 functions as PS_ON#. 1: PS_ON#/GPIO31 functions as GPIO31. 0: S3#/GPIO30 functions as S3#. 1: S3#/GPIO30 functions as GPIO30. Multi Function Select 3 Register Index 2Bh (Powered by VSB3V) Name Reserved GPIO16_SEL GPIO15_SEL R/W Default R/W R/W R/W 0 0 0 Dummy register. 0: GPIO16/LED_VCC functions as GPIO16. 1: GPIO16/LED_VCC functions as LED_VCC. 5 When register ALERT_GP_EN is 0, the register functions as: 0: GPIO15/LED_VSB/ALERT# functions as GPIO15. 1: GPIO15/LED_VSB/ALERT# functions as LED_VSB. 4 GPIO14_SEL R/W 0 0: GPIO14/FWH_DIS/WDTRST# functions as GPIO14 when SPI is disabled. 1: GPIO14/FWH_DIS/WDTRST# functions as WDTRST# when SPI is disabled. 3 2 GPIO13_SEL GPIO12_SEL R/W R/W 0 0 0: GPIO13/SPI_MOSI/BEEP functions as GPIO13 when SPI is disabled. 1: GPIO13/SPI_MOSI/BEEP functions as BEEP when SPI is disabled. 0: GPIO12/SPI_MISO/FANCTRL1_1 functions as GPIO12 when SPI is disabled. 1: GPIO12/SPI_NISO/FANCTRL1_1 functions as FANCTRL1_1 when SPI is disabled. 1 GPIO11_SEL R/W 0 0: GPIO11/SPI_CS0#/FANCTRL4 functions as GPIO11 when SPI is disabled. 1: GPIO11/SPI_CS0#/FANCTRL4 functions as FANCTRL4 when SPI is disabled. 0 GPIO10_SEL R/W 0 0: GPIO10/SPI_CLK/FANIN4 functions as GPIO10 when SPI is disabled. 1: GPIO10/SPI_CLK/FANIN4 functions as FANIN4 when SPI is disabled. Description 8.1.13 Bit 7 6 -58- Nov., 2006 V0.24P www..com F71882 8.1.14 Bit 7 6 5 4 3 2 1 0 Multi Function Select 4 Register Index 2Ch (Powered by VSB3V) Name GPIO27_SEL GPIO26_SEL GPIO25_SEL GPIO24_SEL GPIO23_SEL GPIO22_SEL GPIO21_SEL GPIO20_SEL R/W Default R/W R/W R/W R/W R/W R/W R/W R/W 0 0 0 0 1 0 0 0 Description 0: PWSOUT#/GPIO27 functions as PWSOUT#. 1: PWSOUT#/GPIO27 functions as GPIO27. 0: PWSIN#/GPIO26 functions as PWSIN#. 1: PWSIN#/GPIO26 functions as GPIO26. 0: PME#/GPIO25 functions as PME#. 1: PME#/GPIO25 functions as GPIO25. 0: ATXPG_IN/GPIO24 functions as ATXPG_IN. 1: ATXPG_IN/GPIO24 functions as GPIO24. 0: GPIO23/RSTCON# functions as RSTCON#. 1: GPIO23/RSTCON# functions as GPIO23. 0: PCIRST3#/GPIO22 functions as PCIRST3#. 1: PCIRST3#/GPIO22 functions as GPIO22. 0: PCIRST2#/GPIO21 functions as PCIRST2#. 1: PCIRST2#/GPIO21 functions as GPIO21. 0: PCIRST1#/GPIO20 functions as PCIRST1#. 1: PCIRST1#/GPIO20 functions as GPIO20. Wakeup Control Register Index 2Dh (Powered by VBAT) Name SPI_CS1_EN R/W Default R/W 0 Description This register decides the architecture of SPI when used as primary BIOS. 1: use two 4Mbits. (FWH_DIS will multi-functions as SPI_CS1#) 0: use one 8Mbits. (Divided into two 4Mbits. Originally use the higher part. If the higher part is booting fail, the memory address will be auto mapped to lower part.) 6-4 Reserved 3 WAKEUP_EN R/W R/W R/W 0 1 00 Reserved. 0: disable keyboard/mouse wake up. 1: enable keyboard/mouse wake up. 2-1 KEY_SEL This registers select the keyboard wake up key. 00: Wake up key is Ctrl + Esc. 01: Wake up key is Ctrl + F1. 10: Wake up key is Ctrl + Space. 11: Wake up key is any key. 0 MO_SEL R/W 0 This register select the mouse wake up key. 0: Wake up by click. 1: Wake up by click and movement. 8.1.15 Bit 7 -59- Nov., 2006 V0.24P www..com F71882 8.2 FDC Registers (CR00) 8.2.1 FDC Configuration Registers FDC Device Enable Register Index 30h Bit Name R/W Default R/W 1 Reserved 0: disable FDC. 1: enable FDC. Description 7-1 Reserved 0 FDC_EN Base Address High Register Index 60h Bit Name R/W Default R/W 03h The MSB of FDC base address. Description 7-0 BASE_ADDR_HI Base Address Low Register Index 61h Bit Name R/W Default R/W F0h The LSB of FDC base address. Description 7-0 BASE_ADDR_LO IRQ Channel Select Register Index 70h Bit Name R/W Default R/W 06h Reserved. Select the IRQ channel for FDC. Description 7-4 Reserved 3-0 SELFDCIRQ DMA Channel Select Register Index 74h Bit Name R/W Default R/W 010 Reserved. Description 7-3 Reserved 2-0 SELFDCDMA Select the DMA channel for FDC. -60- Nov., 2006 V0.24P www..com F71882 FDD Mode Register Index F0h Bit Name R/W Default R/W 11 Reserved. 00: Model 30 mode. 01: PS/2 mode. 10: Reserved. 11: AT mode (default). Description 7-4 Reserved 3-2 IF_MODE 1 FDMAMODE R/W 1 0: enable burst mode. 1: non-busrt mode (default). 0 EN3MODE R/W 0 0: normal floppy mode (default). 1: enhanced 3-mode FDD. FDD Drive Type Register Index F2h Bit Name R/W Default R/W 11 Reserved. FDD drive type. Description 7-2 Reserved 1-0 FDD_TYPE FDD Selection Register Index F4h Bit Name R/W Default R/W 00 Reserved. Description 7-5 Reserved 4-3 FDD_DRT Data rate table select, refer to table A. 00: select regular drives and 2.88 format. 01: 3-mode drive. 10: 2 mega tape. 11: reserved. 2 Reserved R/W 00 Reserved. Drive type select, refer to table B. 1-0 FDD_DT -61- Nov., 2006 V0.24P www..com F71882 TABLE A Data Rate Table Select FDD_DRT[1] FDD_DRT[0] Data Rate DATARATE1 0 0 0 0 1 1 0 0 1 0 1 1 0 1 0 0 1 1 TABLE B Drive Type FDD_DT1 FDD_DT0 0 0 DRVDEN0 DENSEL Remark 4/2/1 MB 3.5" 2/1 MB 5.25" 1/1.6/1 MB 3.5" (3-Mode ) 0 1 1 1 0 1 DATARATE1 DENSEL# DATARATE0 DATARATE0 0 1 0 1 0 1 0 1 0 1 0 1 Selected Data Rate MFM 500K 300K 250K 1Meg 500K 500K 250K 1Meg 500K 2Meg 250K 1Meg FM 250K 150K 125K --250K 250K 125K --250K --125K --1 0 0 1 1 0 0 1 1 0 0 1 DENSEL -62- Nov., 2006 V0.24P www..com F71882 8.3 UART1 Registers (CR01) 8.3.1 UART 1 Configuration Registers UART 1 Device Enable Register Index 30h Bit Name R/W Default R/W 1 Reserved 0: disable UART 1. 1: enable UART 1. Description 7-1 Reserved 0 UR1_EN Base Address High Register Index 60h Bit Name R/W Default R/W 03h Description The MSB of UART 1 base address. 7-0 BASE_ADDR_HI Base Address Low Register Index 61h Bit Name R/W Default R/W F8h Description The LSB of UART 1 base address. 7-0 BASE_ADDR_LO IRQ Channel Select Register Index 70h Bit Name R/W Default R/W 4h Reserved. Description 7-4 Reserved 3-0 SELUR1IRQ Select the IRQ channel for UART 1. RS485 Enable Register Index F0h Bit Name R/W Default R/W 0 Reserved. Description 7-5 Reserved 4 RS485_EN 0: RS232 driver. 1: RS485 driver. Auto drive RTS# low when transmitting data. Reserved. 3-0 Reserved -63- Nov., 2006 V0.24P www..com F71882 8.4 UART 2 Registers (CR02) 8.4.1 UART 2 Configuration Registers UART 2 Device Enable Register Index 30h Bit Name R/W Default R/W 1 Reserved 0: disable UART 2. 1: enable UART 2. Description 7-1 Reserved 0 UR2_EN Base Address High Register Index 60h Bit Name R/W Default R/W 02h Description The MSB of UART 2 base address. 7-0 BASE_ADDR_HI Base Address Low Register Index 61h Bit Name R/W Default R/W F8h Description The LSB of UART 2 base address. 7-0 BASE_ADDR_LO IRQ Channel Select Register Index 70h Bit Name R/W Default R/W 3h Reserved. Description 7-4 Reserved 3-0 SELUR2IRQ Select the IRQ channel for UART 2. RS485 Enable Register Index F0h Bit Name R/W Default R/W 0 Reserved. 0: RS232 driver. Description 7-5 Reserved 4 RS485_EN 1: RS485 driver. Auto drive RTS# low when transmitting data. -64- Nov., 2006 V0.24P www..com F71882 3 RXW4C_IR R/W 0 0: No reception delay when SIR is changed form TX to RX. 1: Reception delays 4 characters time when SIR is changed form TX to RX. 2 TXW4C_IR R/W 0 0: No transmission delay when SIR is changed form RX to TX. 1: Transmission delays 4 characters time when SIR is changed form RX to TX. 1-0 Reserved Reserved. SIR Mode Control Register Index F1h Bit 7 6 5 Name Reserved Reserved Reserved R/W Default R/W 00 Reserved. Reserved. Reserved. 00: disable IR function. 01: disable IR function. Description 4-3 IRMODE 10: IrDA function, active pulse is 1.6uS. 11: IrDA function, active pulse is 3/16 bit time. 2 HDUPLX R/W 1 0: SIR is in full duplex mode for loopbak test. TXW4C_IR and RXW4C_IR are of no use. 1: SIR is in half duplex mode. 1 TXINV_IR R/W 0 0: IRTX is in normal condition. 1: inverse the IRTX. 0 RXINV_IR R/W 0 0: IRRX is in normal condition. 1: inverse the IRRX. -65- Nov., 2006 V0.24P www..com F71882 8.5 Parallel Port Registers (CR03) 8.5.1 Parallel Port Configuration Registers Parallel Port Device Enable Register Index 30h Bit Name R/W Default R/W 1 Reserved 0: disable Parallel Port. 1: enable Parallel Port. Description 7-1 Reserved 0 PRT_EN Base Address High Register Index 60h Bit Name R/W Default R/W 03h Description The MSB of Parallel Port base address. 7-0 BASE_ADDR_HI Base Address Low Register Index 61h Bit Name R/W Default R/W 78h Description The LSB of Parallel Port base address. 7-0 BASE_ADDR_LO IRQ Channel Select Register Index 70h Bit Name R/W Default R/W 7h Reserved. Description 7-4 Reserved 3-0 SELPRTIRQ Select the IRQ channel for Parallel Port. DMA Channel Select Register Index 74h Bit Name R/W Default R/W R/W 0 011 Reserved. 0: non-burst mode DMA. 1: enable burst mode DMA. Reserved. Description 7-5 Reserved 4 3 ECP_DMA_MODE Reserved 2-0 SELPRTDMA Select the DMA channel for Parallel Port. -66- Nov., 2006 V0.24P www..com F71882 PRT Mode Select Register Index F0h Bit 7 Name SPP_IRQ_MODE R/W Default R/W 0 Description Interrupt mode in non-ECP mode. 0: Level mode. 1: Pulse mode. ECP FIFO threshold. 000: Standard and Bi-direction (SPP) mode. 001: EPP 1.9 and SPP mode. 010: ECP mode (default). 011: ECP and EPP 1.9 mode. 100: Printer mode. 101: EPP 1.7 and SPP mode. 110: Reserved. 111: ECP and EPP1.7 mode. 6-3 ECP_FIFO_THR 2-0 PRT_MODE R/W R/W 1000 010 -67- Nov., 2006 V0.24P www..com F71882 8.6 Hardware Monitor Registers (CR04) 8.6.1 Hardware Monitor Configuration Registers Hardware Monitor Device Enable Register Index 30h Bit Name R/W Default R/W 1 Reserved 0: disable Hardware Monitor. 1: enable Hardware Monitor. Description 7-1 Reserved 0 HM_EN Base Address High Register Index 60h Bit Name R/W Default R/W 02h Description The MSB of Hardware Monitor base address. 7-0 BASE_ADDR_HI Base Address Low Register Index 61h Bit Name R/W Default R/W 95h Description The LSB of Hardware Monitor base address. 7-0 BASE_ADDR_LO IRQ Channel Select Register Index 70h Bit Name R/W Default R/W 0000 Reserved. Description 7-4 Reserved 3-0 SELHMIRQ Select the IRQ channel for Hardware Monitor. 8.6.2 Device Registers Before the device registers, the following is a register map order which shows a summary of all registers. Please refer each one register if you want more detail information. Register CR01 ~ CR03 Register CR10 ~ CR4F Configuration Registers Voltage Setting Register -68- Nov., 2006 V0.24P www..com F71882 Register CR60 ~ CR8E Register CR90 ~ CRDF Temperature Setting Register Fan Control Setting Register Fan1 Detail Setting CRA0 ~ CRAF Fan2 Detail Setting CRB0 ~ CRBF Fan3 Detail Setting CRC0 ~ CRCF Fan4 Detail Setting CRD0 ~ CRDF 8.6.2.1 HW Monitor Config. Register Index 01h Bit 7-3 2 1 Name Reserved POWER_DOWN FAN_START R/W Default 0h R/W R/W 1 0 V_T_START R/W 0 0 1 Reserved Hardware monitor function power down. Set one to enable startup of fan monitoring operations; a zero puts the part in standby mode. Set one to enable startup of temperature and voltage monitoring operations; a zero puts the part in standby mode. Description 8.6.2.2 BEEP OVT ALERT Config. Register Index 02h Bit 7 6 Name Reserved CASE_BEEP_EN R/W Default R/W R/W 0 5-4 3 2 OVT_MODE Reserved CASE_SMI_EN R/W R/W R/W 0 1-0 ALERT_MODE R/W 0 0 0 0 Dummy register. 0: Disable case open event output via BEEP. 1: Enable case open event output via BEEP. 00: The OVT# will be low active level mode. 01: The OVT# will be high active level mode. 10: The OVT# will indicate by 1Hz LED function. 11: The OVT# will indicate by (400/800HZ) BEEP output. Dummy register. 0: Disable case open event output via PME. 1: Enable case open event output via PME. 00: The ALERT# will be low active level mode. 01: The ALERT# will be high active level mode. 10: The ALERT# will indicate by 1Hz LED function. 11: The ALERT# will indicate by (400/800HZ) BEEP output. Description 8.6.2.3 Case Open Config. Register Index 03h Bit 7-1 0 Name Reserved CASE_STS R/W Default R/W R/W 0 0 Return 0 when read. Case open event status, write 1 to clear if case open event cleared. Description -69- Nov., 2006 V0.24P www..com F71882 8.6.2.4 PECI AMDSI Select Register Index 0Ah Bit 7-6 5 4 Name Reserved T1_IIR_EN SST_EN R/W Default R/W R/W 00 0 0 0 3-2 VTT_SEL R/W Reserved. Set 1 to enable IIR for AMDSI/PECI reading. The reading will be more stable. Set 1 to enable SST interface. PECI (Vtt) voltage select. 00: Vtt is 1.23V 01: Vtt is 1.13V 10: Vtt is 1.00V 11: Vtt is 1.00V CPU Temperature Measurement method. 00: with external diode. 01: with PECI interface. 10: with AMDSI interface. 11: reserved. Description 00 1-0 MEAS_TYPE R/W 8.6.2.5 PECI CPU Select Register Index 0Bh Bit Name R/W Default 0 (MEAS_TYPE == 2'b01) Description 7-4 CPU_SEL R/W 3-1 0 Reserved DOMAIN1_EN R/W 0 0 Select the Intel CPU socket number. 0000: no CPU presented. PECI host will use Ping() command to find CPU address. 0001: CPU is in socket 0, i.e. PECI address is 0x30. 0010: CPU is in socket 0, i.e. PECI address is 0x31. 0100: CPU is in socket 0, i.e. PECI address is 0x32. 1000: CPU is in socket 0, i.e. PECI address is 0x33. Otherwise are reserved. Reserved. If the CPU selected is dual core. Set this register 1 to read the temperature of domain1. 8.6.2.6 AMDSI Version Register Index 0Bh Bit 7-0 Name AMDSI_VER R/W Default R - (MEAS_TYPE ==2'b10) Description Return the AMDSI version. 8.6.2.7 TCC Temp. Register Index 0Ch Bit 7-0 Name TCC_TEMP R/W Default R/W (MEAS_TYPE == 2'b01) Description 8'h55 TCC Activation Temperature. The absolute value of CPU temperature is calculated by the equation: CPU_TEMP = TCC_TEMP + PECI Reading. The range of this register is 0 ~ 255. 8.6.2.8 AMDSI Node ID Register Index 0Ch Bit 7-0 Name NODE_ID R/W Default R - (MEAS_TYPE ==2'b10) Description Return the AMDSI node id. 8.6.2.9 SST Address Register Index 0Dh Bit Name R/W Default Description -70- Nov., 2006 V0.24P www..com F71882 7-0 SST_ADDR R/W 8'h4C Address for SST interface. Programmable. 8.6.2.10 VID Divide Register Index 0Eh Bit Name R/W Default 0 7-6 VIN6_DIV R/W Description The value indicates the divisor of the voltage source. 00: voltage source is directly connected to VIN6. 01: voltage source is divided by 2 and connect to VIN6. 10: voltage source is divided by 4 and connect to VIN6. 11: voltage source is divided by 16 and connect to VIN6. The value indicates the divisor of the voltage source. 00: voltage source is directly connected to VIN5. 01: voltage source is divided by 2 and connect to VIN5. 10: voltage source is divided by 4 and connect to VIN5. 11: voltage source is divided by 16 and connect to VIN5. This register is used to indicate how to calculate the PECI reading with PECI_SCALE register. 0: The real value is the reading adds the value calculated by PECI_SCALE. 1: The real value is the reading adds the value calculated by PECI_SCALE. This register is used to control the PECI reading slope. See also PECI_SCALE_ADD register. 000: The real value is the PECI reading. 001: The real value is (1 1/2) PECI reading. 010: The real value is (1 1/4) PECI reading. 011: The real value is (1 1/8) PECI reading. 100: The real value is (1 1/16) PECI reading. 101: The real value is (1 1/32) PECI reading. 110: The real value is (1 1/64) PECI reading. 111: The real value is (1 1/128) PECI reading. 0 5-4 VIN5_DIV R/W 0 3 PECI_SCALE_ADD R/W 0 2-0 PECI_SCALE R/W 8.6.2.11 Configuration Register Index 0Fh Bit Name R/W Default 0 7-6 VIN4_DIV R/W Description The value indicates the divisor of the voltage source. 00: voltage source is directly connected to VIN4. 01: voltage source is divided by 2 and connect to VIN4. 10: voltage source is divided by 4 and connect to VIN4. 11: voltage source is divided by 16 and connect to VIN4. The value indicates the divisor of the voltage source. 00: voltage source is directly connected to VIN3. 01: voltage source is divided by 2 and connect to VIN3. 10: voltage source is divided by 4 and connect to VIN3. 11: voltage source is divided by 16 and connect to VIN3. The value indicates the divisor of the voltage source. 00: voltage source is directly connected to VIN2. 01: voltage source is divided by 2 and connect to VIN2. 10: voltage source is divided by 4 and connect to VIN2. 11: voltage source is divided by 16 and connect to VIN2. The value indicates the divisor of the voltage source. 00: voltage source is directly connected to VIN1. 01: voltage source is divided by 2 and connect to VIN1. 10: voltage source is divided by 4 and connect to VIN1. 11: voltage source is divided by 16 and connect to VIN1. 0 5-4 VIN3_DIV R/W 0 3-2 VIN2_DIV R/W 0 1-0 VIN1_DIV R/W -71- Nov., 2006 V0.24P www..com F71882 Voltage Setting 8.6.2.12 Voltage1 PME# Enable Register Index 10h Bit 7-2 1 0 Name Reserved EN_V1_PME R/W Default -R/W -0 0 0 Reserved A one enables the corresponding interrupt status bit for PME# interrupt. Set this bit 1 to enable PME# function for VIN1. Reserved Description Reserved 8.6.2.13 Voltage1 Interrupt Status Register Index 11h Bit 7-2 1 0 Name Reserved V1_ EXC _STS Reserved R/W Default -R/W -0 0 0 Reserved This bit is set when the VIN1 is over the high limit. Write 1 to clear this bit, write 0 will be ignored. Reserved Description 8.6.2.14 Voltage1 Exceeds Real Time Status Register 1 Index 12h Bit 7-2 1 0 Name Reserved V1_EXC Reserved R/W Default -RO -0 0 0 Reserved A one indicates VIN1 exceeds the high or low limit. A zero indicates VIN1 is in the safe region. Reserved Description 8.6.2.15 Voltage1 BEEP Enable Register Index 13h Bit 7-2 1 0 Name Reserved EN_V1_BEEP R/W Default -R/W -0 0 0 Reserved A one enables the corresponding interrupt status bit for BEEP output of VIN1. Reserved Description Reserved 8.6.2.16 Voltage reading and limit Index 20h- 4Fh Address 20h 21h 22h Attribute RO RO RO Default Value ---Description VCC3V reading. The unit of reading is 8mV. V1 (Vcore) reading. The unit of reading is 8mV. V2 reading. The unit of reading is 8mV. -72- Nov., 2006 V0.24P www..com F71882 23h 24h 25h 26h 27h 28h 29~2Fh 30~31h 32h 33h 34~4Fh RO RO RO RO RO RO RO RO R/W RO RO ------FF FF FF FF FF V3 reading. The unit of reading is 8mV. V4 reading. The unit of reading is 8mV. V5 reading. The unit of reading is 8mV. V6 reading. The unit of reading is 8mV. VSB3V reading. The unit of reading is 8mV. VBAT reading. The unit of reading is 8mV. Reserved Reserved V1 High Limit setting register. The unit is 8mV. Reserved Reserved Temperature Setting 8.6.2.17 Temperature PME# Enable Register Index 60h Bit 7 Name EN_ T3_OVT_PME R/W Default 0 R/W R/W 0 Description If set this bit to 1, PME# signal will be issued when TEMP3 exceeds OVT limit setting. If set this bit to 1, PME# signal will be issued when TEMP2 exceeds OVT setting. 0 R/W R/W R/W R/W 0 0 0 If set this bit to 1, PME# signal will be issued when TEMP1 exceeds OVT setting. Reserved If set this bit to 1, PME# signal will be issued when TEMP3 exceeds high limit setting. If set this bit to 1, PME# signal will be issued when TEMP2 exceeds high limit setting. 0 R/W R/W 0 If set this bit to 1, PME# signal will be issued when TEMP1 exceeds high limit setting. Reserved 6 EN_ T2_ OVT_PME EN_ T1_ OVT_PME 5 4 3 Reserved EN_ T3_EXC_PME 2 EN_ T2_EXC_PME EN_ T1_EXC_PME 1 0 Reserved 8.6.2.18 Temperature Interrupt Status Register Index 61h Bit Name R/W Default Description -73- Nov., 2006 V0.24P www..com F71882 0 7 T3_OVT_STS R/W A one indicates TEMP3 temperature sensor has exceeded OVT limit or below the "OVT limit -hysteresis". Write 1 to clear this bit, write 0 will be ignored. 0 6 T2_OVT _STS R/W A one indicates TEMP2 temperature sensor has exceeded OVT limit or below the "OVT limit -hysteresis". Write 1 to clear this bit, write 0 will be ignored. 0 5 T1_OVT _STS R/W A one indicates TEMP1 temperature sensor has exceeded OVT limit or below the "OVT limit -hysteresis". Write 1 to clear this bit, write 0 will be ignored. 4 Reserved R/W 0 0 3 T3_EXC _STS R/W Reserved A one indicates TEMP3 temperature sensor has exceeded high limit or below the "high limit -hysteresis". Write 1 to clear this bit, write 0 will be ignored. 0 2 T2_EXC _STS R/W A one indicates TEMP2 temperature sensor has exceeded high limit or below the "high limit -hysteresis" limit. Write 1 to clear this bit, write 0 will be ignored. 0 1 T1_EXC _STS R/W A one indicates TEMP1 temperature sensor has exceeded high limit or below the "high limit -hysteresis" limit. Write 1 to clear this bit, write 0 will be ignored. 0 Reserved R/W 0 Reserved 8.6.2.19 Temperature Real Time Status Register Index 62h Bit 7 Name T3_OVT R/W Default 0 R/W 0 6 T2_OVT R/W 0 5 4 3 T1_OVT Reserved T3_EXC R/W R/W R/W 0 2 T2_EXC R/W 0 1 T1_EXC R/W 0 0 Description Set when the TEMP3 exceeds the OVT limit. Clear when the TEMP3 is below the "OVT limit -hysteresis" temperature. Set when the TEMP2 exceeds the OVT limit. Clear when the TEMP2 is below the "OVT limit -hysteresis" temperature. Set when the TEMP1 exceeds the OVT limit. Clear when the TEMP1 is below the "OVT limit -hysteresis" temperature. Reserved Set when the TEMP3 exceeds the high limit. Clear when the TEMP3 is below the "high limit -hysteresis" temperature. Set when the TEMP2 exceeds the high limit. Clear when the TEMP2 is below the "high limit -hysteresis" temperature. Set when the TEMP1 exceeds the high limit. Clear when the TEMP1 is below the "high limit -hysteresis" temperature. -74- Nov., 2006 V0.24P www..com F71882 0 Reserved R/W 0 Reserved 8.6.2.20 Temperature BEEP Enable Register Index 63h Bit 7 Name EN_ T3_OVT_BEEP R/W Default 0 R/W R/W 0 Description If set this bit to 1, BEEP signal will be issued when TEMP3 exceeds OVT limit setting. If set this bit to 1, BEEP signal will be issued when TEMP2 exceeds OVT limit setting. 0 R/W R/W R/W R/W 0 0 0 If set this bit to 1, BEEP signal will be issued when TEMP1 exceeds OVT limit setting. Reserved If set this bit to 1, BEEP signal will be issued when TEMP3 exceeds high limit setting. If set this bit to 1, BEEP signal will be issued when TEMP2 exceeds high limit setting. 0 R/W R/W 0 If set this bit to 1, BEEP signal will be issued when TEMP1 exceeds high limit setting. Reserved 6 EN_ T2_ OVT_BEEP EN_ T1_ OVT_BEEP 5 4 3 Reserved EN_ T3_EXC_BEEP 2 EN_ T2_EXC_BEEP EN_ T1_EXC_BEEP 1 0 Reserved 8.6.2.21 OVT Output Enable Register 1 Index 66h Bit 7 6 5 4 3 2 1 0 Name EN_T3_ALERT EN_T2_ALERT EN_T1_ALERT Reserved EN_T3_OVT EN_T2_OVT EN_T1_OVT Reserved R/W Default R R R R R/W R/W R/W R 0 0 0 0 0 0 1 0h Description Enable temperature 3 alert event (asserted when temperature over high limit) Enable temperature 2 alert event (asserted when temperature over high limit) Enable temperature 1 alert event (asserted when temperature over high limit) Reserved Enable over temperature (OVT) mechanism of temperature3. Enable over temperature (OVT) mechanism of temperature2. Enable over temperature (OVT) mechanism of temperature1. Reserved. 8.6.2.22 Temperature Sensor Type Register Index 6Bh Bit 7-4 3 Name Reserved T3_MODE R/W Default RO R/W 0 1 -0: TEMP3 is connected to a thermistor 1: TEMP3 is connected to a BJT.(default) Description -75- Nov., 2006 V0.24P www..com F71882 2 1 0 T2_MODE T1_MODE Reserved R/W R/W R 1 1 0h 0: TEMP2 is connected to a thermistor. 1: TEMP2 is connected to a BJT. (default) 0: TEMP1 is connected to a thermistor 1: TEMP1 is connected to a BJT.(default) -- 8.6.2.23 TEMP1 Limit Hystersis Select Register -- Index 6Ch Bit 7-4 3-0 Name TEMP1_HYS Reserved R/W Default 4h R/W R 0h Description Limit hysteresis. (0~15 degree C) Temperature and below the ( boundary - hysteresis ). -- 8.6.2.24 TEMP2 and TEMP3 Limit Hystersis Select Register -- Index 6Dh Bit 7-4 Name TEMP3_HYS R/W Default 2h R/W 4h 3-0 TEMP2_HYS R/W Description Limit hysteresis. (0~15 degree C) Temperature and below the ( boundary - hysteresis ). Limit hysteresis. (0~15 degree C) Temperature and below the ( boundary - hysteresis ). 8.6.2.25 DIODE OPEN Status Register -- Index 6Fh Bit 7-4 3 2 1 Name Reserved T3_DIODE_OPEN T2_DIODE_OPEN T1_DIODE_OPEN R/W Default RO RO RO RO 0h 0h 0h 0h Reserved External diode 3 is open External diode 2 is open This register indicates the abnormality of temperature 1 measurement. When AMDSI interface is enabled, it indicates the error of not receiving ACK bit when read TCON command is asserted. When PECI interface is enabled, it indicates an error code is received from PECI slave. When external diode is used, it indicates the BJT is open or short. -Description 0 Reserved R 0h Temperature Index 70h- 8Fh Address 70h 71h Attribute Reserved Reserved Default Value FFh FFh Reserved Reserved Description -76- Nov., 2006 V0.24P www..com F71882 72h 73h 74h 75h 76h 77-7Bh 7C-7Fh 80h 81h 82h 83h 84h 85h 86h 87h 88-8Bh 8C~8Dh RO RO RO RO RO RO RO Reserved Reserved R/W R/W R/W R/W R/W R/W RO RO ------FFh FFh FFh 64h 55h 64h 55h 55h 46h -FFH Temperature 1 reading. The unit of reading is 1 C.At the moment of reading this register. Reserved Temperature 2 reading. The unit of reading is 1 C.At the moment of reading this register. Reserved Temperature 3 reading. The unit of reading is 1 C.At the moment of reading this register. Reserved Reserved Reserved Reserved Temperature sensor 1 OVT limit. The unit is 1C. Temperature sensor 1 high limit. The unit is 1C. Temperature sensor 2 OVT limit. The unit is 1C. Temperature sensor 2 high limit. The unit is 1C. Temperature sensor 3 OVT limit. The unit is 1C. Temperature sensor 3 high limit. The unit is 1C. Reserved Reserved 8.6.2.26 Temperature Filter Select Register -- Index 8Eh Bit Name R/W Default Description The queue time for second filter to quickly update values. 00: disable. 7-6 IIR-QUEUR3 R/W 0h 01: 16 times. 10: 32 times. (default) 11: 48 times. -77- Nov., 2006 V0.24P www..com F71882 The queue time for second filter to quickly update values. 00: disable. 5-4 IIR-QUEUR2 R/W 0h 01: 16 times. 10: 32 times. (default) 11: 48 times. The queue time for second filter to quickly update values. 00: disable. 3-2 IIR-QUEUR1 R/W 0h 01: 16 times. 10: 32 times. (default) 11: 48 times. 0 Reserved R 0h -- Fan Control Setting 8.6.2.27 FAN PME# Enable Register Index 90h Bit Name R/W Default RO R/W R/W 0h 0h 0h 3 EN_FAN4_PME EN_FAN3_PME Reserved A one enables the corresponding interrupt status bit for PME# interrupt. Set this bit 1 to enable PME# function for Fan4. A one enables the corresponding interrupt status bit for PME# interrupt.. Set this bit 1 to enable PME# function for Fan3. 0h 1 EN_FAN2_PME EN_FAN1_PME R/W R/W 0h A one enables the corresponding interrupt status bit for PME# interrupt. Set this bit 1 to enable PME# function for Fan2. A one enables the corresponding interrupt status bit for PME# interrupt. Set this bit 1 to enable PME# function for Fan1. Description 7-4 Reserved 2 0 8.6.2.28 FAN Interrupt Status Register Index 91h Bit 7-4 3 Name Reserved FAN4_STS R/W Default RO R/W 0 -Reserved This bit is set when the fan4 count exceeds the count limit. Write 1 to clear this bit, write 0 will be ignored. This bit is set when the fan3 count exceeds the count limit. Write 1 to clear this bit, write 0 will be ignored. This bit is set when the fan2 count exceeds the count limit. Write 1 to clear this bit, write 0 will be ignored. Description 2 FAN3_STS R/W -- 1 FAN2_STS R/W -- -78- Nov., 2006 V0.24P www..com F71882 0 FAN1_STS R/W -This bit is set when the fan1 count exceeds the count limit. Write 1 to clear this bit, write 0 will be ignored. 8.6.2.29 FAN Real Time Status Register Index 92h Bit 7-4 3 Name Reserved FAN4_EXC R/W Default -RO 0 -Reserved This bit set to high mean that fan4 count can't meet expect count over than SMI time(CR9F) or when duty not zero but fan stop over then 3 sec. This bit set to high mean that fan3 count can't meet expect count over than SMI time(CR9F) or when duty not zero but fan stop over then 3 sec. This bit set to high mean that fan2 count can't meet expect count over than SMI time(CR9F) or when duty not zero but fan stop over then 3 sec. This bit set to high mean that fan1 count can't meet expect count over than SMI time(CR9F) or when duty not zero but fan stop over then 3 sec. Description 2 FAN3_EXC RO -- 1 FAN2_EXC RO -- 0 FAN1_EXC RO -- 8.6.2.30 FAN BEEP# Enable Register Index 93h Bit 7 6 5 4 3 2 1 0 Name R/W Default 0 0 0 0 0 0 0 0 Description Set one will enable FAN to force full speed when T3 over high limit. Set one will enable FAN to force full speed when T2 over high limit. Set one will enable FAN to force full speed when T1 over high limit. Reserved for local temperature. A one enables the corresponding interrupt status bit for BEEP. A one enables the corresponding interrupt status bit for BEEP. A one enables the corresponding interrupt status bit for BEEP. A one enables the corresponding interrupt status bit for BEEP. FULL_WITH_T3_EN R/W FULL_WITH_T2_EN R/W FULL_WITH_T1_EN R/W Reserved EN_FAN4_BEEP EN_FAN3_ BEEP EN_FAN2_ BEEP EN_FAN1_ BEEP R/W R/W R/W R/W R/W 8.6.2.31 Fan Type Select Register -- Index 94h Bit Name R/W Default Description 00: Output PWM mode (pushpull) to control fans. 01: Use linear fan application circuit to control fan speed by fan's power 7-6 FAN4_TYPE R/W 2'b0S terminal . 10: Output PWM mode (open drain) to control Intel 4-wire fans. 11: Reserved. -79- Nov., 2006 V0.24P www..com F71882 00: Output PWM mode (pushpull) to control fans. 01: Use linear fan application circuit to control fan speed by fan's power 5-4 FAN3_TYPE R/W 2'b 0S terminal . 10: Output PWM mode (open drain) to control Intel 4-wire fans. 11: Reserved. 00: Output PWM mode (pushpull) to control fans. 01: Use linear fan application circuit to control fan speed by fan's power 3-2 FAN2_TYPE R/W 2'b 0S terminal . 10: Output PWM mode (open drain) to control Intel 4-wire fans. 11: Reserved. 00: Output PWM mode (push pull) to control fans. 01: Use linear fan application circuit to control fan speed by fan's power 1-0 FAN1_TYPE R/W 2'b 0S terminal . 10: Output PWM mode (open drain) to control Intel 4-wire fans. 11: Reserved. S: Register default values are decided by trapping. 8.6.2.32 Fan mode Select Register -- Index 96h Bit Name R/W Default Description 00: Auto fan speed control, fan speed will follow different temperature by different RPM that define in 0xD6-0xDE. 01: Auto fan speed control, fan speed will follow different temperature by different duty cycle that define in 0xD6-0xDE. 7-6 FAN4_MODE R/W 1h 10: Manual mode fan control, user can write expect RPM count to 0xD2-0xD3, and F71882 will auto control duty cycle (PWM fan type) or voltage(linear fan type) to control fan speed. 11: Manual mode fan control, user can write expect duty cycle (PWM fan type) or voltage(linear fan type) to 0xD3, and F71882 will output this value duty or voltage to control fan speed. -80- Nov., 2006 V0.24P www..com F71882 00: Auto fan speed control, fan speed will follow different temperature by different RPM that define in 0xC6-0xCE. 01: Auto fan speed control, fan speed will follow different temperature by different duty cycle that define in 0xC6-0xCE. 5-4 FAN3_MODE R/W 1h 10: Manual mode fan control, user can write expect RPM count to 0xC2-0xC3, and F71882 will auto control duty cycle (PWM fan type) or voltage(linear fan type) to control fan speed. 11: Manual mode fan control, user can write expect duty cycle (PWM fan type) or voltage(linear fan type) to 0xC3, and F71882 will output this value duty or voltage to control fan speed. 00: Auto fan speed control, fan speed will follow different temperature by different RPM that define in 0xB6-0xBE. 01: Auto fan speed control, fan speed will follow different temperature by different duty cycle (voltage) 3-2 FAN2_MODE R/W 1h that define in 0xB6-0xBE. 10: Manual mode fan control, user can write expect RPM count to 0xB2-0xB3, and F71882 will auto control duty cycle (PWM fan type) or voltage (linear fan type) to control fan speed. 11: Manual mode fan control, user can write expect duty cycle (PWM fan type) or voltage (linear fan type) to 0xB3, and F71882 will output this value duty or voltage to control fan speed. 00: Auto fan speed control, fan speed will follow different temperature by different RPM that define in 0xA6-0xAE. 01: Auto fan speed control, fan speed will follow different temperature by different duty cycle that define in 0xA6-0xAE. 1-0 FAN1_MODE R/W 1h 10: Manual mode fan control, user can write expect RPM count to 0xA2-0xA3, and F71882 will auto control duty cycle (PWM fan type) or voltage(linear fan type) to control fan speed. 11: Manual mode fan control, user can write expect duty cycle (PWM fan type) or voltage(linear fan type) to 0xA3, and F71882 will output this value duty or voltage to control fan speed. 8.6.2.33 Auto Fan1 and Fan2 Boundary Hystersis Select Register -- Index 98h Bit Name R/W Default 4h 7-4 FAN2_HYS R/W Description 0000: Boundary hysteresis. (0~15 degree C) Segment will change when the temperature over the boundary temperature and below the ( boundary - hysteresis ). -81- Nov., 2006 V0.24P www..com F71882 4h 3-0 FAN1_HYS R/W 0000: Boundary hysteresis. (0~15 degree C) Segment will change when the temperature over the boundary temperature and below the ( boundary - hysteresis ). 8.6.2.34 Auto Fan3 and Fan4 Boundary Hystersis Select Register -- Index 99h Bit Name R/W Default 2h 7-4 FAN4_HYS R/W Description 0000: Boundary hysteresis. (0~15 degree C) Segment will change when the temperature over the boundary temperature and below the ( boundary - hysteresis ). 2h 3-0 FAN3_HYS R/W 0000: Boundary hysteresis. (0~15 degree C) Segment will change when the temperature over the boundary temperature and below the ( boundary - hysteresis ). 8.6.2.35 Auto Fan3 and Fan4 Boundary Hystersis Select Register -- Index 9Bh Bit Name R/W Default 1h 7-6 FAN4_RATE_SEL R/W 1h 5-4 FAN3_RATE_SEL R/W 1h 3-2 FAN2_RATE_SEL R/W 1h 1-0 FAN1_RATE_SEL R/W Fan4 duty update rate: 00: 2Hz 01: 5Hz (default) 10: 10Hz 11: 20Hz Fan3 duty update rate: 00: 2Hz 01: 5Hz (default) 10: 10Hz 11: 20Hz Fan2 duty update rate: 00: 2Hz 01: 5Hz (default) 10: 10Hz 11: 20Hz Fan1 duty update rate: 00: 2Hz 01: 5Hz (default) 10: 10Hz 11: 20Hz Description 8.6.2.36 FAN1 and FAN2 START UP DUTY-CYCLE/VOLTAGE Index 9Ch Bit Name R/W Default 5h 7-4 FAN2_STOP_DUTY R/W Description When fan start, the FAN_CTRL2 will increase duty-cycle from 0 to this (value x 8) directly. And if fan speed is down, the FAN_CTRL 2 will decrease duty-cycle to 0 when the PWM duty cycle is less than this (value x 4). -82- Nov., 2006 V0.24P www..com F71882 5h 3-0 FAN1_STOP_DUTY R/W When fan start, the FAN_CTRL 1 will increase duty-cycle from 0 to this (value x 8 directly. And if fan speed is down, the FAN_CTRL 1 will decrease duty-cycle to 0 when the PWM duty cycle is less than this (value x 4). 8.6.2.37 FAN3 and FAN4 START UP DUTY-CYCLE/VOLTAGE Index 9Dh Bit Name R/W Default 5h 7-4 FAN4_STOP_DUTY R/W Description When fan start, the FAN_CTRL 4 will increase duty-cycle from 0 to this (value x 8) directly. And if fan speed is down, the FAN_CTRL 4 will decrease duty-cycle to 0 when the PWM duty cycle is less than this (value x 4). 5h 3-0 FAN3_STOP_DUTY R/W When fan start, the FAN_CTRL 3 will increase duty-cycle from 0 to this (value x 8 directly. And if fan speed is down, the FAN_CTRL 3 will decrease duty-cycle to 0 when the PWM duty cycle is less than this (value x 4). 8.6.2.38 Fan Fault Time Register -- Index 9Fh Bit 7-5 4 Name Reserved FULL_DUTY_SEL R/W Default -R/W --Reservd 0: the full duty is 100%. 1: the full duty is 60% (default). This register is power on trap by DTR1#. This register determines the time of fan fault. The condition to cause fan fault event is: When PWM_Duty reaches FFh, if the fan speed count can't reach the fan expect count in time. 3-0 F_FAULT_TIME R/W Ah The unit of this register is 1 second. The default value is 11 seconds. (Set to 0 , means 1 seconds. ; Set to 1, means 2 seconds. Set to 2, means 3 seconds. .... ) Another condition to cause fan fault event is fan stop and the PWM duty is greater than the minimum duty programmed by the register index 9C-9Dh. Description Fan1 Index A0h- AFh Default Address Attribute Value Description -83- Nov., 2006 V0.24P www..com F71882 A0h RO 8'h0f FAN1 count reading (MSB). At the moment of reading this register, the LSB will be latched. This will prevent from data updating when reading. To read the fan count correctly, read MSB first and followed read the LSB. FAN1 count reading (LSB). RPM mode(CR96 bit0=0): FAN1 expect speed count value (MSB), in auto fan mode (CR96 bit1 A2h R/W 8'h00 register is auto updated by hardware. Duty mode(CR96 bit0=1): This byte is reserved byte. RPM mode(CR96 bit0=0): FAN1 expect speed count value (LSB) or expect PWM duty, in auto fan mode this register is auto updated by hardware and read only. A3h R/W 8'h01 Duty mode(CR96 bit0=1): The Value programming in this byte is duty value. In auto fan mode(CR96 bit1 Ex: 5 255 A4h A5h R/W R/W 8'h03 8'hff 0) this register is updated by hardware. 5*100/255 % 100% 0) this A1h RO 8'hff FAN1 full speed count reading (MSB). At the moment of reading this register, the LSB will be latched. This will prevent from data updating when reading. To read the fan count correctly, read MSB first and followed read the LSB. FAN1 full speed count reading (LSB). 8.6.2.39 VT1 BOUNDARY 1 TEMPERATURE - Index A6h Bit 7 Name Reserved R/W Default RO 0 Return 0 when read. Description 3Ch The 1st BOUNDARY temperature for VT1 in temperature mode. (60oC) When VT1 temperature is exceed this boundary, FAN1 expect value will 6-0 BOUND1TMP1 R/W load from segment 1 register (index AA)h. When VT1 temperature is below this boundary - hysteresis, FAN1 expect value will load from segment 2 register (index AAh). 8.6.2.40 VT1 BOUNDARY 2 TEMPERATURE - Index A7 Bit 7 Name Reserved R/W Default RO 0 Return 0 when read. Description -84- Nov., 2006 V0.24P www..com F71882 st 32 The 2 BOUNDARY temperature for VT1 in temperature mode. o (50 C) When VT1 temperature is exceed this boundary, FAN1 expect value will 6-0 BOUND2TMP1 R/W load from segment 2 register (index AB)h. When VT1 temperature is below this boundary - hysteresis, FAN1 expect value will load from segment 3 register (index ABh). 8.6.2.41 VT1 BOUNDARY 3 TEMPERATURE - Index A8h Bit 7 Name Reserved R/W Default RO 0 Return 0 when read. Description 28h The 3st BOUNDARY temperature for VT1 in temperature mode. (40oC) When VT1 temperature is exceed this boundary, FAN1 expect value will 6-0 BOUND3TMP1 R/W load from segment 3 register (index AC)h. When VT1 temperature is below this boundary - hysteresis, FAN1 expect value will load from segment 4 register (index ACh). 8.6.2.42 VT1 BOUNDARY 4 TEMPERATURE - Index A9 Bit 7 Name Reserved R/W Default RO 0 Return 0 when read. Description 1Eh The 4st BOUNDARY temperature for VT1 in temperature mode. (30oC) When VT1 temperature is exceed this boundary, FAN1 expect value will 6-0 BOUND4TMP1 R/W load from segment 4 register (index ADh). When VT1 temperature is below this boundary - hysteresis, FAN1 expect value will load from segment 5 register (index ADh). 8.6.2.43 FAN1 SEGMENT 1 SPEED COUNT - Index AAh Bit Name R/W Default Description FFh The meaning of this register is depending on the FAN1_MODE(CR96) (100%) 2'b00: The value that set in this byte is the relative expect fan speed % of the full speed in this temperature section. Ex: 7-0 SEC1SPEED1 R/W 100%:full speed: User must set this register to 0. 60% full speed: (100-60)*32/60, so user must program 21 to this reg. X% full speed: The value programming in this byte is (100-X)*32/X 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. -85- Nov., 2006 V0.24P www..com F71882 8.6.2.44 FAN1 SEGMENT 2 SPEED COUNT Bit Name R/W Default - Index ABh Description D9h The meaning of this register is depending on the FAN1_MODE(CR96) (85%) 2'b00: The value that set in this byte is the relative expect fan speed % of 7-0 SEC2SPEED1 R/W the full speed in this temperature section. 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. 8.6.2.45 FAN1 SEGMENT 3 SPEED COUNT Bit Name R/W Default - Index ACh Description B2h The meaning of this register is depending on the FAN1_MODE(CR96) (70%) 2'b00: The value that set in this byte is the relative expect fan speed % of 7-0 SEC3SPEED1 R/W the full speed in this temperature section. 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. 8.6.2.46 FAN1 SEGMENT 4 SPEED COUNT Bit Name R/W Default - Index ADh Description 99h The meaning of this register is depending on the FAN1_MODE(CR96) (60%) 2'b00: The value that set in this byte is the relative expect fan speed % of 7-0 SEC4SPEED1 R/W the full speed in this temperature section. 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. 8.6.2.47 FAN1 SEGMENT 5 SPEED COUNT Bit Name R/W Default - Index AEh Description 80h The meaning of this register is depending on the FAN1_MODE(CR96) (50%) 2'b00: The value that set in this byte is the relative expect fan speed % of 7-0 SEC5SPEED1 R/W the full speed in this temperature section. 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. 8.6.2.48 FAN1 Temperature Mapping Select Bit 7-6 5 Name Reserved FAN1_UP_T_EN R/W Default -R/W 0 0 - Index AFh Description Reserved Set 1 to force FAN1 to full speed if any temperature over its high limit. -86- Nov., 2006 V0.24P www..com F71882 4 FAN1_INTERPOLATION_EN R/W 0 0 Set 1 will enable the interpolation of the fan expect table. This register controls the FAN1 duty movement when temperature over highest boundary. 0: The FAN1 duty will increases with the slope selected by FAN1_RATE_SEL register. 1: The FAN1 duty will directly jumps to the value of SEC1SPEED1 register. This bit only activates in duty mode. This register controls the FAN1 duty movement when temperature under (highest boundary - hysteresis). 0: The FAN1 duty will decreases with the slope selected by FAN1_RATE_SEL register. 1: The FAN1 duty will directly jumps to the value of SEC2SPEED1 register. This bit only activates in duty mode. 0: reserved. 3 FAN1_JUMP_HIGH_EN R/W 0 2 FAN1_JUMP_LOW_EN R/W 1-0 Fan1_temp_sel R/W 1 1: fan1 follow temperature 1. 2: fan1 follow temperature 2. 3: fan1 follow temperature 3. Fan2 Index B0h- BFh Default Address Attribute Value FAN2 count reading (MSB). At the moment of reading this register, the LSB will be latched. This will prevent from data updating when reading. To read the fan count correctly, read MSB first and followed read the LSB. FAN2 count reading (LSB). RPM mode(CR96 bit2=0): FAN2 expect speed count value (MSB), in auto fan mode(CR96 bit3 B2h R/W 8'h00 register is auto updated by hardware. Duty mode(CR96 bit2=1): This byte is reserved byte. RPM mode(CR96 bit2=0): FAN2 expect speed count value (LSB) or expect PWM duty , in auto fan mode this register is auto updated by hardware and read only. B3h R/W 8'h01 Duty mode(CR96 bit2=1): The Value programming in this byte is duty value. In auto fan mode(CR96 bit3 Ex: 5 255 0) this register is updated by hardware. 5*100/255 % 100% 0) this Description B0h RO 8'h0f B1h RO 8'hff -87- Nov., 2006 V0.24P www..com F71882 B4h B5h R/W R/W 8'h03 8'hff FAN2 full speed count reading (MSB). At the moment of reading this register, the LSB will be latched. This will prevent from data updating when reading. To read the fan count correctly, read MSB first and followed read the LSB. FAN2 full speed count reading (LSB). 8.6.2.49 VT2 BOUNDARY 1 TEMPERATURE - Index B6h Bit 7 Name Reserved R/W Default RO 0 Return 0 when read. Description 3Ch The 1st BOUNDARY temperature for VT2 in temperature mode. (60oC) When VT2 temperature is exceed this boundary, FAN2 expect value will 6-0 BOUND1TMP2 R/W load from segment 1 register (index BA)h. When VT2 temperature is below this boundary - hysteresis, FAN2 expect value will load from segment 2 register (index BAh). 8.6.2.50 VT2 BOUNDARY 2 TEMPERATURE - Index B7 Bit 7 Name Reserved R/W Default RO 0 Return 0 when read. Description st 32 The 2 BOUNDARY temperature for VT2 in temperature mode. o (50 C) When VT2 temperature is exceed this boundary, FAN2 expect value will 6-0 BOUND2TMP2 R/W load from segment 2 register (index BB)h. When VT2 temperature is below this boundary - hysteresis, FAN2 expect value will load from segment 3 register (index BBh). 8.6.2.51 VT2 BOUNDARY 3 TEMPERATURE - Index B8h Bit 7 Name Reserved R/W Default RO 0 Return 0 when read. Description 28h The 3st BOUNDARY temperature for VT2 in temperature mode. (40oC) When VT2 temperature is exceed this boundary, FAN2 expect value will 6-0 BOUND3TMP2 R/W load from segment 3 register (index BC)h. When VT2 temperature is below this boundary - hysteresis, FAN2 expect value will load from segment 4 register (index BCh). 8.6.2.52 VT2 BOUNDARY 4 TEMPERATURE - Index B9 Bit 7 Name Reserved R/W Default RO 0 Return 0 when read. Description -88- Nov., 2006 V0.24P www..com F71882 1Eh The 4st BOUNDARY temperature for VT2 in temperature mode. (30oC) When VT2 temperature is exceed this boundary, FAN2 expect value will 6-0 BOUND4TMP2 R/W load from segment 4 register (index BDh). When VT2 temperature is below this boundary - hysteresis, FAN2 expect value will load from segment 5 register (index BDh). 8.6.2.53 FAN2 SEGMENT 1 SPEED COUNT Bit Name R/W Default - Index BAh Description FFh The meaning of this register is depending on the FAN2_MODE(CR96) (100%) 2'b00: The value that set in this byte is the relative expect fan speed % of the full speed in this temperature section. Ex: 7-0 SEC1SPEED2 R/W 100%:full speed: User must set this register to 0. 60% full speed: (100-60)*32/60, so user must program 21 to this reg. X% full speed: The value programming in this byte is (100-X)*32/X 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. 8.6.2.54 FAN2 SEGMENT 2 SPEED COUNT - Index BBh Bit Name R/W Default Description D9h The meaning of this register is depending on the FAN2_MODE(CR96) (85%) 2'b00: The value that set in this byte is the relative expect fan speed % of 7-0 SEC2SPEED2 R/W the full speed in this temperature section. 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. 8.6.2.55 FAN2 SEGMENT 3 SPEED COUNT Bit Name R/W Default - Index BCh Description B2h The meaning of this register is depending on the FAN2_MODE(CR96) (70%) 2'b00: The value that set in this byte is the relative expect fan speed % of 7-0 SEC3SPEED2 R/W the full speed in this temperature section. 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. 8.6.2.56 FAN2 SEGMENT 4 SPEED COUNT Bit Name R/W Default - Index BDh Description -89- Nov., 2006 V0.24P www..com F71882 99h The meaning of this register is depending on the FAN2_MODE(CR96) (60%) 2'b00: The value that set in this byte is the relative expect fan speed % of 7-0 SEC4SPEED2 R/W the full speed in this temperature section. 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. 8.6.2.57 FAN2 SEGMENT 5 SPEED COUNT Bit Name R/W Default - Index BEh Description 80h The meaning of this register is depending on the FAN2_MODE(CR96) (50%) 2'b00: The value that set in this byte is the relative expect fan speed % of 7-0 SEC5SPEED2 R/W the full speed in this temperature section. 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. 8.6.2.58 FAN2 Temperature Mapping Select Bit 7-6 5 4 Name Reserved FAN2_UP_T_EN R/W Default -R/W 0 0 0 0 - Index BFh Description Reserved Set 1 to force FAN2 to full speed if any temperature over its high limit. Set 1 will enable the interpolation of the fan expect table. This register controls the FAN2 duty movement when temperature over highest boundary. 0: The FAN2 duty will increases with the slope selected by FAN2_RATE_SEL register. 1: The FAN2 duty will directly jumps to the value of SEC1SPEED2 register. This bit only activates in duty mode. This register controls the FAN2 duty movement when temperature under (highest boundary - hysteresis). 0: The FAN2 duty will decreases with the slope selected by FAN2_RATE_SEL register. 1: The FAN2 duty will directly jumps to the value of SEC2SPEED2 register. This bit only activates in duty mode. 0: reserved. FAN2_INTERPOLATION_EN R/W 3 FAN2_JUMP_HIGH_EN R/W 0 2 FAN2_JUMP_LOW_EN R/W 1-0 Fan2_temp_sel R/W 2 1: fan2 follow temperature 1. 2: fan2 follow temperature 2. 3: fan2 follow temperature 3. Fan3 Index C0h- CFh -90Nov., 2006 V0.24P www..com F71882 Default Address Attribute Value FAN3 count reading (MSB). At the moment of reading this register, the LSB will be latched. This will prevent from data updating when reading. To read the fan count correctly, read MSB first and followed read the LSB. FAN3 count reading (LSB). RPM mode(CR96 bit4=0): FAN3 expect speed count value (MSB), in auto fan mode(CR96 bit5 C2h R/W 8'h00 register is auto updated by hardware. Duty mode(CR96 bit4=1): This byte is reserved byte. RPM mode(CR96 bit4=0): FAN3 expect speed count value (LSB) or expect PWM duty , in auto fan mode this register is auto updated by hardware and read only. C3h R/W 8'h01 Duty mode(CR96 bit4=1): The Value programming in this byte is duty value. In auto fan mode(CR96 bit5 Ex: 5 255 C4h C5h R/W R/W 8'h03 8'hff 0) this register is updated by hardware. 5*100/255 % 100% 0) this Description C0h RO 8'h0F C1h RO 8'hff FAN3 full speed count reading (MSB). At the moment of reading this register, the LSB will be latched. This will prevent from data updating when reading. To read the fan count correctly, read MSB first and followed read the LSB. FAN3 full speed count reading (LSB). 8.6.2.59 VT3 BOUNDARY 1 TEMPERATURE - Index C6h Bit 7 Name Reserved R/W Default RO 0 Return 0 when read. Description 3Ch The 1st BOUNDARY temperature for VT3 in temperature mode. (60oC) When VT3 temperature is exceed this boundary, FAN3 expect value will 6-0 BOUND1TMP3 R/W load from segment 1 register (index CA)h. When VT3 temperature is below this boundary - hysteresis, FAN3 expect value will load from segment 2 register (index CAh). 8.6.2.60 VT3 BOUNDARY 2 TEMPERATURE - Index C7 Bit 7 Name Reserved R/W Default RO 0 Return 0 when read. Description -91- Nov., 2006 V0.24P www..com F71882 st 32 The 2 BOUNDARY temperature for VT3 in temperature mode. o (50 C) When VT3 temperature is exceed this boundary, FAN3 expect value will 6-0 BOUND2TMP3 R/W load from segment 2 register (index CB)h. When VT3 temperature is below this boundary - hysteresis, FAN3 expect value will load from segment 3 register (index CBh). 8.6.2.61 VT3 BOUNDARY 3 TEMPERATURE - Index C8h Bit 7 Name Reserved R/W Default RO 0 Return 0 when read. Description 28h The 3st BOUNDARY temperature for VT3 in temperature mode. (40oC) When VT3 temperature is exceed this boundary, FAN3 expect value will 6-0 BOUND3TMP3 R/W load from segment 3 register (index CC)h. When VT3 temperature is below this boundary - hysteresis, FAN3 expect value will load from segment 4 register (index CCh). 8.6.2.62 VT3 BOUNDARY 4 TEMPERATURE - Index C9 Bit 7 Name Reserved R/W Default RO 0 Return 0 when read. Description 1Eh The 4st BOUNDARY temperature for VT3 in temperature mode. (30oC) When VT3 temperature is exceed this boundary, FAN3 expect value will 6-0 BOUND4TMP3 R/W load from segment 4 register (index CDh). When VT3 temperature is below this boundary - hysteresis, FAN3 expect value will load from segment 5 register (index CDh). 8.6.2.63 FAN3 SEGMENT 1 SPEED COUNT Bit Name R/W Default - Index CAh Description FFh The meaning of this register is depending on the FAN3_MODE(CR96) (100%) 2'b00: The value that set in this byte is the relative expect fan speed % of the full speed in this temperature section. Ex: 7-0 SEC1SPEED3 R/W 100%:full speed: User must set this register to 0. 60% full speed: (100-60)*32/60, so user must program 21 to this reg. X% full speed: The value programming in this byte is (100-X)*32/X 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. -92- Nov., 2006 V0.24P www..com F71882 8.6.2.64 FAN3 SEGMENT 2 SPEED COUNT - Index CBh Bit Name R/W Default Description D9h The meaning of this register is depending on the FAN3_MODE(CR96) (85%) 2'b00: The value that set in this byte is the relative expect fan speed % of 7-0 SEC2SPEED3 R/W the full speed in this temperature section. 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. 8.6.2.65 FAN3 SEGMENT 3 SPEED COUNT Bit Name R/W Default - Index CCh Description B2h The meaning of this register is depending on the FAN3_MODE(CR96) (70%) 2'b00: The value that set in this byte is the relative expect fan speed % of 7-0 SEC3SPEED3 R/W the full speed in this temperature section. 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. 8.6.2.66 FAN3 SEGMENT 4 SPEED COUNT Bit Name R/W Default - Index CDh Description 99h The meaning of this register is depending on the FAN3_MODE(CR96) (60%) 2'b00: The value that set in this byte is the relative expect fan speed % of 7-0 SEC4SPEED3 R/W the full speed in this temperature section. 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. 8.6.2.67 FAN3 SEGMENT 5 SPEED COUNT Bit Name R/W Default - Index CEh Description 80h The meaning of this register is depending on the FAN3_MODE(CR96) (50%) 2'b00: The value that set in this byte is the relative expect fan speed % of 7-0 SEC5SPEED3 R/W the full speed in this temperature section. 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. 8.6.2.68 FAN3 Temperature Mapping Select Bit 7-6 5 Name Reserved FAN3_UP_T_EN R/W Default -R/W 0 0 - Index CFh Description Reserved Set 1 to force FAN3 to full speed if any temperature over its high limit. -93- Nov., 2006 V0.24P www..com F71882 4 FAN3_INTERPOLATION_ R/W EN 0 0 Set 1 will enable the interpolation of the fan expect table. This register controls the FAN3 duty movement when temperature over highest boundary. 0: The FAN3 duty will increases with the slope selected by FAN3_RATE_SEL register. 1: The FAN3 duty will directly jumps to the value of SEC1SPEED3 register. This bit only activates in duty mode. This register controls the FAN3 duty movement when temperature under (highest boundary - hysteresis). 0: The FAN3 duty will decreases with the slope selected by FAN3_RATE_SEL register. 1: The FAN3 duty will directly jumps to the value of SEC2SPEED3 register. This bit only activates in duty mode. 0: reserved. 1-0 Fan3_temp_sel R/W 3 1: fan3 follow temperature 1. 2: fan3 follow temperature 2. 3: fan3 follow temperature 3. 3 FAN3_JUMP_HIGH_EN R/W 0 2 FAN3_JUMP_LOW_EN R/W Fan4 Index D0h- DFh Default Address Attribute Value FAN4 count reading (MSB). At the moment of reading this register, the LSB will be latched. This will prevent from data updating when reading. To read the fan count correctly, read MSB first and followed read the LSB. FAN4 count reading (LSB). RPM mode(CR96 bit6=0): FAN4 expect speed count value (MSB), in auto fan mode(CR96 bit7 D2h R/W 8'h00 register is auto updated by hardware. Duty mode(CR96 bit6=1): This byte is reserved byte. RPM mode(CR96 bit6=0): FAN4 expect speed count value (LSB) or expect PWM duty , in auto fan mode D3h R/W 8'h01 this register is auto updated by hardware and read only. Duty mode(CR96 bit6=1): The Value programming in this byte is duty value. In auto fan mode(CR96 0) this Description D0h RO 8'h0f D1h RO 8'hff -94- Nov., 2006 V0.24P www..com F71882 bit7 Ex: 5 255 D4h D5h R/W R/W 8'h03 8'hff 0) this register is updated by hardware. 5*100/255 % 100% FAN4 full speed count reading (MSB). At the moment of reading this register, the LSB will be latched. This will prevent from data updating when reading. To read the fan count correctly, read MSB first and followed read the LSB. FAN4 full speed count reading (LSB). 8.6.2.69 VT4 BOUNDARY 1 TEMPERATURE - Index D6h Bit 7 Name Reserved R/W Default RO 0 Return 0 when read. Description 3Ch The 1st BOUNDARY temperature for VT4 in temperature mode. (60oC) When VT4 temperature is exceed this boundary, FAN4 expect value will 6-0 BOUND1TMP4 R/W load from segment 1 register (index DA)h. When VT4 temperature is below this boundary - hysteresis, FAN4 expect value will load from segment 2 register (index DAh). 8.6.2.70 VT4 BOUNDARY 2 TEMPERATURE - Index D7 Bit 7 Name Reserved R/W Default RO 0 Return 0 when read. Description st 32 The 2 BOUNDARY temperature for VT4 in temperature mode. o (50 C) When VT4 temperature is exceed this boundary, FAN4 expect value will 6-0 BOUND2TMP4 R/W load from segment 2 register (index DB)h. When VT4 temperature is below this boundary - hysteresis, FAN4 expect value will load from segment 3 register (index DBh). 8.6.2.71 VT4 BOUNDARY 3 TEMPERATURE - Index D8h Bit 7 Name Reserved R/W Default RO 0 Return 0 when read. Description 6-0 BOUND3TMP4 R/W st 28h The 3 BOUNDARY temperature for VT4 in temperature mode. (40oC) When VT4 temperature is exceed this boundary, FAN4 expect value will load from segment 3 register (indexDC)h. When VT4 temperature is below this boundary - hysteresis, FAN4 expect value will load from segment 4 register (index DCh). 8.6.2.72 VT4 BOUNDARY 4 TEMPERATURE - Index D9 Bit 7 Name Reserved R/W Default RO 0 Return 0 when read. Description -95- Nov., 2006 V0.24P www..com F71882 6-0 BOUND4TMP4 R/W 1Eh The 4 BOUNDARY temperature for VT4 in temperature mode. (30oC) When VT4 temperature is exceed this boundary, FAN4 expect value will load from segment 4 register (index ADh). When VT4 temperature is below this boundary - hysteresis, FAN4 expect value will load from segment 5 register (index DDh). st 8.6.2.73 FAN4 SEGMENT 1 SPEED COUNT Bit Name R/W Default - Index DAh Description 7-0 SEC1SPEED4 FFh The meaning of this register is depending on the FAN4_MODE(CR96) (100%) 2'b00: The value that set in this byte is the relative expect fan speed % of the full speed in this temperature section. Ex: 100%:full speed: User must set this register to 0. R/W 60% full speed: (100-60)*32/60, so user must program 21 to this reg. X% full speed: The value programming in this byte is (100-X)*32/X 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. 8.6.2.74 FAN4 SEGMENT 2 SPEED COUNT - Index DBh Bit Name R/W Default Description 7-0 SEC2SPEED4 R/W D9h The meaning of this register is depending on the FAN4_MODE(CR96) (85%) 2'b00: The value that set in this byte is the relative expect fan speed % of the full speed in this temperature section. 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. 8.6.2.75 FAN4 SEGMENT 3 SPEED COUNT Bit Name R/W Default - Index DCh Description 7-0 SEC3SPEED4 R/W B2h The meaning of this register is depending on the FAN4_MODE(CR96) (70%) 2'b00: The value that set in this byte is the relative expect fan speed % of the full speed in this temperature section. 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. 8.6.2.76 FAN4 SEGMENT 4 SPEED COUNT Bit Name R/W Default - Index DDh Description 99h The meaning of this register is depending on the FAN4_MODE(CR96) (60%) 2'b00: The value that set in this byte is the relative expect fan speed % of 7-0 SEC4SPEED4 R/W the full speed in this temperature section. 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. -96- Nov., 2006 V0.24P www..com F71882 8.6.2.77 FAN4 SEGMENT 5 SPEED COUNT Bit Name R/W Default - Index DEh Description 80h The meaning of this register is depending on the FAN4_MODE(CR96) (50%) 2'b00: The value that set in this byte is the relative expect fan speed % of 7-0 SEC5SPEED4 R/W the full speed in this temperature section. 2'b01: The value that set in this byte is mean the expect PWM duty-cycle in this temperature section. 8.6.2.78 FAN4 Temperature Mapping Select Bit 7-6 5 4 Name Reserved FAN4_UP_T_EN R/W Default -R/W 0 0 0 0 - Index DFh Description Reserved Set 1 to force FAN4 to full speed if any temperature over its high limit. Set 1 will enable the interpolation of the fan expect table. This register controls the FAN4 duty movement when temperature over highest boundary. 0: The FAN4 duty will increases with the slope selected by FAN4_RATE_SEL register. 1: The FAN4 duty will directly jumps to the value of SEC1SPEED4 register. This bit only activates in duty mode. This register controls the FAN4 duty movement when temperature under (highest boundary - hysteresis). 0: The FAN4 duty will decreases with the slope selected by FAN4_RATE_SEL register. 1: The FAN4 duty will directly jumps to the value of SEC2SPEED4 register. This bit only activates in duty mode. 0: reserved. FAN4_INTERPOLATION_ R/W EN 3 FAN4_JUMP_HIGH_EN R/W 0 2 FAN4_JUMP_LOW_EN R/W 1-0 Fan4_temp_sel R/W 0 1: fan4 follow temperature 1. 2: fan4 follow temperature 2. 3: fan4 follow temperature 3. -97- Nov., 2006 V0.24P www..com F71882 8.7 KBC Registers (CR05) 8.7.1 KBC Configuration Registers KBC Device Enable Register Index 30h Bit Name R/W Default R/W 1 Reserved 0: disable KBC. 1: enable KBC. Description 7-1 Reserved 0 KBC_EN When the DTR1# is pulled down. KBC_EN is reset to 0.DTR1# is internal pull up. Base Address High Register Index 60h Bit Name R/W Default R/W 00h Description The MSB of KBC command port address. The address of data port is command port address + 4; 7-0 BASE_ADDR_HI Base Address Low Register Index 61h Bit Name R/W Default R/W 60h Description The LSB of KBC command port address. The address of data port is command port address + 4. 7-0 BASE_ADDR_LO KB IRQ Channel Select Register Index 70h Bit Name R/W Default R/W 0h Reserved. Description 7-4 Reserved 3-0 SELKIRQ Select the IRQ channel for keyboard interrupt. -98- Nov., 2006 V0.24P www..com F71882 Mouse IRQ Channel Select Register Index 72h Bit Name R/W Default R/W 0h Reserved. Description 7-4 Reserved 3-0 SELMIRQ Select the IRQ channel for PS/2 mouse interrupt. Clock Select Register Index F0h Bit Name R/W Default R/W 10 Description 00: select 6MHz clock as KBC clock input. 01: select 8MHz clock as KBC clock input. 10: select 12MHz clock as KBC clock input (default). 11: select 16MHz clock as KBC clock input. 7-6 SELCLK_KBC 5-2 Reserved 1 GA20_EN R/W 1 Reserved. 0: GATE20# software control. 1: GATE20# hardware speed up. 0 HKBRST R/W 1 0: KBRST# software control. 1: KBRST# hardware speed up. -99- Nov., 2006 V0.24P www..com F71882 8.8 GPIO Registers (CR06) 8.8.1 Configuration Registers GPIO Output Enable Register Index F0h Bit 7 6 5 4 3 2 1 0 Name GPIO7_OE GPIO6_OE GPIO5_OE GPIO4_OE GPIO3_OE GPIO2_OE GPIO1_OE GPIO0_OE R/W Default R/W R/W R/W R/W R/W R/W R/W R/W 0 0 0 0 0 0 0 0 0: GPIO7 is in input mode. 1: GPIO7 is in output mode. 0: GPIO6 is in input mode. 1: GPIO6 is in output mode. 0: GPIO5 is in input mode. 1: GPIO5 is in output mode. 0: GPIO4 is in input mode. 1: GPIO4 is in output mode. 0: GPIO3 is in input mode. 1: GPIO3 is in output mode. 0: GPIO2 is in input mode. 1: GPIO2 is in output mode. 0: GPIO1 is in input mode. 1: GPIO1 is in output mode. 0: GPIO0 is in input mode. 1: GPIO0 is in output mode. Description GPIO Output Data Register Index F1h Bit 7 6 5 4 3 2 1 0 Name GPIO7_VAL GPIO6_VAL GPIO5_VAL GPIO4_VAL GPIO3_VAL GPIO2_VAL GPIO1_VAL GPIO0_VAL R/W Default R/W R/W R/W R/W R/W R/W R/W R/W 1 1 1 1 1 1 1 1 Description 0: GPIO7 outputs 0 when in output mode. 1: GPIO7 outputs1 when in output mode. 0: GPIO6 outputs 0 when in output mode. 1: GPIO6 outputs1 when in output mode. 0: GPIO5 outputs 0 when in output mode. 1: GPIO5 outputs 1 when in output mode. 0: GPIO4 outputs 0 when in output mode. 1: GPIO4 outputs 1 when in output mode. 0: GPIO3 outputs 0 when in output mode. 1: GPIO3 outputs 1 when in output mode. 0: GPIO2 outputs 0 when in output mode. 1: GPIO2 outputs 1 when in output mode. 0: GPIO1 outputs 0 when in output mode. 1: GPIO1 outputs 1 when in output mode. 0: GPIO0 outputs 0 when in output mode. 1: GPIO0 outputs 1 when in output mode. GPIO Pin Status Register Index F2h Bit Name R/W Default Description -100- Nov., 2006 V0.24P www..com F71882 7 6 5 4 3 2 1 0 GPIO7_IN GPIO6_IN GPIO5_IN GPIO4_IN GPIO3_IN GPIO2_IN GPIO1_IN GPIO0_IN R R R R R R R R The pin status of GPIO07/Turbo1#. The pin status of SLOTOCC#/GPIO06. The pin status of VIDOUT5/GPIO05/SIC. The pin status of VIDOUT4/GPIO04. The pin status of VIDOUT3/GPIO03. The pin status of VIDOUT2/GPIO02. The pin status of VIDOUT1/GPIO01. The pin status of VIDOUT0/GPIO00. GPIO Drive Enable Register Index F3h Bit 7 6 5 4 3 2 1 0 Name GPIO7_DRV_EN GPIO6_DRV_EN GPIO5_DRV_EN GPIO4_DRV_EN GPIO3_DRV_EN GPIO2_DRV_EN GPIO1_DRV_EN GPIO0_DRV_EN R/W Default R/W R/W R/W R/W R/W R/W R/W R/W 0 0 0 0 0 0 0 0 Description 0: GPIO7 is open drain in output mode. 1: GPIO7 is push pull in output mode. 0: GPIO6 is open drain in output mode. 1: GPIO6 is push pull in output mode. 0: GPIO5 is open drain in output mode. 1: GPIO5 is push pull in output mode. 0: GPIO4 is open drain in output mode. 1: GPIO4 is push pull in output mode. 0: GPIO3 is open drain in output mode. 1: GPIO3 is push pull in output mode. 0: GPIO2 is open drain in output mode. 1: GPIO2 is push pull in output mode. 0: GPIO1 is open drain in output mode. 1: GPIO1 is push pull in output mode. 0: GPIO0 is open drain in output mode. 1: GPIO0 is push pull in output mode. GPIO1 Output Enable Register Index E0h Bit 7 6 5 4 3 2 1 Name GPIO17_OE GPIO16_OE GPIO15_OE GPIO14_OE GPIO13_OE GPIO12_OE GPIO11_OE R/W Default R/W R/W R/W R/W R/W R/W R/W 0 0 0 0 0 0 0 0: GPIO16 is in input mode. 1: GPIO16 is in output mode. 0: GPIO16 is in input mode. 1: GPIO16 is in output mode. 0: GPIO15 is in input mode. 1: GPIO15 is in output mode. 0: GPIO14 is in input mode. 1: GPIO14 is in output mode. 0: GPIO13 is in input mode. 1: GPIO13 is in output mode. 0: GPIO12 is in input mode. 1: GPIO12 is in output mode. 0: GPIO11 is in input mode. 1: GPIO11 is in output mode. Description -101- Nov., 2006 V0.24P www..com F71882 0 GPIO10_OE R/W 0 0: GPIO10 is in input mode. 1: GPIO10 is in output mode. GPIO1 Output Data Register Index E1h Bit 7 6 5 4 3 2 1 0 Name GPIO17_VAL GPIO16_VAL GPIO15_VAL GPIO14_VAL GPIO13_VAL GPIO12_VAL GPIO11_VAL GPIO10_VAL R/W Default R/W R/W R/W R/W R/W R/W R/W R/W 1 1 1 1 1 1 1 1 Description 0: GPIO16 outputs 0 when in output mode. 1: GPIO16 outputs1 when in output mode. 0: GPIO16 outputs 0 when in output mode. 1: GPIO16 outputs1 when in output mode. 0: GPIO15 outputs 0 when in output mode. 1: GPIO15 outputs 1 when in output mode. 0: GPIO14 outputs 0 when in output mode. 1: GPIO14 outputs 1 when in output mode. 0: GPIO13 outputs 0 when in output mode. 1: GPIO13 outputs 1 when in output mode. 0: GPIO12 outputs 0 when in output mode. 1: GPIO12 outputs 1 when in output mode. 0: GPIO11 outputs 0 when in output mode. 1: GPIO11 outputs 1 when in output mode. 0: GPIO10 outputs 0 when in output mode. 1: GPIO10 outputs 1 when in output mode. GPIO1 Pin Status Register Index E2h Bit 7 6 5 4 3 2 1 0 Name GPIO17_IN GPIO16_IN GPIO15_IN GPIO14_IN GPIO13_IN GPIO12_IN GPIO11_IN GPIO10_IN R/W Default R R R R R R R R The pin status of GPIO17. The pin status of GPIO16/LED_VCC/Turbo2# The pin status of GPIO15/LED_VSB. The pin status of GPIO14/FWH_DIS/WDTRST#. The pin status of GPIO13/SPI_MOSI/BEEP. The pin status of GPIO12/SPI_MISO/FANCTRL1_1. The pin status of GPIO11/SPI_CS0#/FANCTRL4. The pin status of GPIO10/SPI_CLK/FANIN4. Description GPIO1 Drive Enable Register Index E3h Bit 7 6 5 4 Name GPIO17_DRV_EN GPIO16_DRV_EN GPIO15_DRV_EN GPIO14_DRV_EN R/W Default R/W R/W R/W R/W 0 0 0 0 Description 0: GPIO17 is open drain in output mode. 1: GPIO17 is push pull in output mode. 0: GPIO16 is open drain in output mode. 1: GPIO16 is push pull in output mode. 0: GPIO15 is open drain in output mode. 1: GPIO15 is push pull in output mode. 0: GPIO14 is open drain in output mode. 1: GPIO14 is push pull in output mode. -102- Nov., 2006 V0.24P www..com F71882 3 2 1 0 GPIO13_DRV_EN GPIO12_DRV_EN GPIO11_DRV_EN GPIO10_DRV_EN R/W R/W R/W R/W 0 0 0 0 0: GPIO13 is open drain in output mode. 1: GPIO13 is push pull in output mode. 0: GPIO12 is open drain in output mode. 1: GPIO12 is push pull in output mode. 0: GPIO11 is open drain in output mode. 1: GPIO11 is push pull in output mode. 0: GPIO10 is open drain in output mode. 1: GPIO10 is push pull in output mode. GPIO2 Output Enable Register Index D0h Bit 7 6 5 4 3 2 1 0 Name GPIO27_OE GPIO26_OE GPIO25_OE GPIO24_OE GPIO23_OE GPIO22_OE GPIO21_OE GPIO20_OE R/W Default R/W R/W R/W R/W R/W R/W R/W R/W 0 0 0 0 0 0 0 0 0: GPIO27 is in input mode. 1: GPIO27 is in output mode. 0: GPIO26 is in input mode. 1: GPIO26 is in output mode. 0: GPIO25 is in input mode. 1: GPIO25 is in output mode. 0: GPIO24 is in input mode. 1: GPIO24 is in output mode. 0: GPIO23 is in input mode. 1: GPIO23 is in output mode. 0: GPIO22 is in input mode. 1: GPIO22 is in output mode. 0: GPIO21 is in input mode. 1: GPIO21 is in output mode. 0: GPIO20 is in input mode. 1: GPIO20 is in output mode. Description GPIO2 Output Data Register Index D1h Bit 7 6 5 4 3 2 1 Name GPIO27_VAL GPIO26_VAL GPIO25_VAL GPIO24_VAL GPIO23_VAL GPIO22_VAL GPIO21_VAL R/W Default R/W R/W R/W R/W R/W R/W R/W 1 1 1 1 1 1 1 Description 0: GPIO27 outputs 0 when in output mode. 1: GPIO27 outputs1 when in output mode. 0: GPIO26 outputs 0 when in output mode. 1: GPIO26 outputs1 when in output mode. 0: GPIO25 outputs 0 when in output mode. 1: GPIO25 outputs 1 when in output mode. 0: GPIO24 outputs 0 when in output mode. 1: GPIO24 outputs 1 when in output mode. 0: GPIO23 outputs 0 when in output mode. 1: GPIO23 outputs 1 when in output mode. 0: GPIO22 outputs 0 when in output mode. 1: GPIO22 outputs 1 when in output mode. 0: GPIO21 outputs 0 when in output mode. 1: GPIO21 outputs 1 when in output mode. -103- Nov., 2006 V0.24P www..com F71882 0 GPIO20_VAL R/W 1 0: GPIO20 outputs 0 when in output mode. 1: GPIO20 outputs 1 when in output mode. GPIO2 Pin Status Register Index D2h Bit 7 6 5 4 3 2 1 0 Name GPIO27_IN GPIO26_IN GPIO25_IN GPIO24_IN GPIO23_IN GPIO22_IN GPIO21_IN GPIO20_IN R/W Default R R R R R R R R Description The pin status of PWSOUT#/GPIO27. The pin status of PWSIN#/GPIO26. The pin status of PME#/GPIO25. The pin status of ATXPG_IN/GPIO24. The pin status of GPIO23/RSTCON#. The pin status of PCIRST3#/GPIO22. The pin status of PCIRST2#/GPIO21. The pin status of PCIRST1#/GPIO20. GPIO2 Drive Enable Register Index D3h Bit 7 6 5 4 3 2 1 0 Name GPIO27_DRV_EN GPIO26_DRV_EN GPIO25_DRV_EN GPIO24_DRV_EN GPIO23_DRV_EN GPIO22_DRV_EN GPIO21_DRV_EN GPIO20_DRV_EN R/W Default R/W R/W R/W R/W R/W R/W R/W R/W 0 0 0 0 0 0 0 0 Description 0: GPIO27 is open drain in output mode. 1: GPIO27 is push pull in output mode. 0: GPIO26 is open drain in output mode. 1: GPIO26 is push pull in output mode. 0: GPIO25 is open drain in output mode. 1: GPIO25 is push pull in output mode. 0: GPIO24 is open drain in output mode. 1: GPIO24 is push pull in output mode. 0: GPIO23 is open drain in output mode. 1: GPIO23 is push pull in output mode. 0: GPIO22 is open drain in output mode. 1: GPIO22 is push pull in output mode. 0: GPIO21 is open drain in output mode. 1: GPIO21 is push pull in output mode. 0: GPIO20 is open drain in output mode. 1: GPIO20 is push pull in output mode. GPIO3 Output Enable Register Index C0h Bit 3 2 1 0 Name GPIO33_OE GPIO32_OE GPIO31_OE GPIO30_OE R/W Default R/W R/W R/W R/W 0 0 0 0 Reserved. 0: GPIO33 is in input mode. 1: GPIO33 is in output mode. 0: GPIO32 is in input mode. 1: GPIO32 is in output mode. 0: GPIO31 is in input mode. 1: GPIO31 is in output mode. 0: GPIO30 is in input mode. 1: GPIO30 is in output mode. Description 7-4 Reserved -104- Nov., 2006 V0.24P www..com F71882 GPIO3 Output Data Register Index C1h Bit 3 2 1 0 Name GPIO33_VAL GPIO32_VAL GPIO31_VAL GPIO30_VAL R/W Default R/W R/W R/W R/W 1 1 1 1 Reserved. 0: GPIO33 outputs 0 when in output mode. 1: GPIO33 outputs 1 when in output mode. 0: GPIO32 outputs 0 when in output mode. 1: GPIO32 outputs 1 when in output mode. 0: GPIO31 outputs 0 when in output mode. 1: GPIO31 outputs 1 when in output mode. 0: GPIO30 outputs 0 when in output mode. 1: GPIO30 outputs 1 when in output mode. Description 7-4 Reserved GPIO3 Pin Status Register Index C2h Bit 3 2 1 0 Name GPIO33_IN GPIO32_IN GPIO31_IN GPIO30_IN R/W Default R R R R Reserved. The pin status of RSMRST#/GPIO33. The pin status of PWROK/GPIO32. The pin status of PS_ON#/GPIO31. The pin status of S3#/GPIO30. Description 7-4 Reserved GPIO3 Drive Enable Register Index C3h Bit 3 2 1 0 Name GPIO33_DRV_EN GPIO32_DRV_EN GPIO31_DRV_EN GPIO30_DRV_EN R/W Default R/W R/W R/W R/W 0 0 0 0 Reserved. 0: GPIO33 is open drain in output mode. 1: GPIO33 is push pull in output mode. 0: GPIO32 is open drain in output mode. 1: GPIO32 is push pull in output mode. 0: GPIO31 is open drain in output mode. 1: GPIO31 is push pull in output mode. 0: GPIO30 is open drain in output mode. 1: GPIO30 is push pull in output mode. Description 7-4 Reserved GPIO4 Output Enable Register Index B0h Bit 3 2 1 0 Name GPIO43_OE GPIO42_OE GPIO41_OE GPIO40_OE R/W Default R/W R/W R/W R/W 0 0 0 0 Reserved. 0: GPIO43 is in input mode. 1: GPIO43 is in output mode. 0: GPIO42 is in input mode. 1: GPIO42 is in output mode. 0: GPIO41 is in input mode. 1: GPIO41 is in output mode. 0: GPIO40 is in input mode. 1: GPIO40 is in output mode. Description 7-4 Reserved -105- Nov., 2006 V0.24P www..com F71882 GPIO4 Output Data Register Index B1h Bit 3 2 1 0 Name GPIO43_VAL GPIO42_VAL GPIO41_VAL GPIO40_VAL R/W Default R/W R/W R/W R/W 1 1 1 1 Reserved. 0: GPIO43 outputs 0 when in output mode. 1: GPIO43 outputs 1 when in output mode. 0: GPIO42 outputs 0 when in output mode. 1: GPIO42 outputs 1 when in output mode. 0: GPIO41 outputs 0 when in output mode. 1: GPIO41 outputs 1 when in output mode. 0: GPIO40 outputs 0 when in output mode. 1: GPIO40 outputs 1 when in output mode. Description 7-4 Reserved GPIO4 Pin Status Register Index B2h Bit 3 2 1 0 Name GPIO43_IN GPIO42_IN GPIO41_IN GPIO40_IN R/W Default R R R R Reserved. The pin status of IRRX/GPIO43 The pin status of IRTX/GPIO42. The pin status of FANCTRL3/GPIO41. The pin status of FANIN3/GPIO40. Description 7-4 Reserved GPIO4 Drive Enable Register Index B3h Bit 3 2 1 0 Name GPIO43_DRV_EN GPIO42_DRV_EN GPIO41_DRV_EN GPIO40_DRV_EN R/W Default R/W R/W R/W R/W 0 0 0 0 Reserved. 0: GPIO43 is open drain in output mode. 1: GPIO43 is push-pull in output mode. 0: GPIO42 is open drain in output mode. 1: GPIO42 is push-pull in output mode. 0: GPIO41 is open drain in output mode. 1: GPIO41 is push-pull in output mode. 0: GPIO40 is open drain in output mode. 1: GPIO40 is push-pull in output mode. Description 7-4 Reserved -106- Nov., 2006 V0.24P www..com F71882 8.9 VID Registers (CR07) 8.9.1 VID Configuration Registers VID Device Enable Register Index 30h Bit Name R/W Default R/W 0 0 Reserved 0: disable VID. 1: enable VID. Description 7-1 Reserved 0 VID_EN Base Address High Register Index 60h Bit Name R/W Default R/W 00h The MSB of VID base address. Description 7-0 BASE_ADDR_HI Base Address Low Register Index 61h Bit Name R/W Default R/W 00h The LSB of VID base address. Description 7-0 BASE_ADDR_LO 8.9.2 Device Registers 8.9.2.1 Bit 7 6* 5* 4* Configuration Register Index 00h ( * cleared by slotocc_n and watch dog timeout) Name WDOUT_EN GP_OTF_EN1 GP_SWITCH1_EN GP_SWITCH0_EN R/W Default R/W R/W R/W R/W 0 0 0 0 Description If this bit is set to 1 and watchdog timeout event occurs, RSTOUT# output is enabled. If this bit is set to 1 and OTF_EN is also set to 1, users can control vid on-the-fly by GPIO16/LED_VCC/Turbo2#. If this bit is set to 1, users can select "SWITCH_SEL" by controlling GPIO16/LED_VCC/Turbo2#. If this bit is set to 1, users can select "SWITCH_SEL" by controlling GPIO07/Turbo1#. If this bit is set to 1 and OTF_EN is also set to 1, users can control vid on-the-fly by GPIO07/Turbo1#. This bit is used to enable vid on-the-fly function. 3* 2* GP_OTF_EN0 OTF_EN R/W R/W 0 0 -107- Nov., 2006 V0.24P www..com F71882 0: Intel VRM10.0 1:0 VRM_SEL R/W 0 1: Intel VRM11.0 2: AMD VRM 3: Reserved 8.9.2.2 Bit 7:6 5-0 VID Offset Register 0 Index 01h Name Reserved VID_OFFSET0 R/W Default R R/W 0 Reserved VID offset. VID_OFFSET[5] is sign bit. Description 8.9.2.3 Bit 7 6 5-0 VID Manual Register Index 02h Name MANUAL_MODE KEY_OK VID_MANUAL R/W Default R/W R R/W 0 0 Description If this bit is set to 1 and OTF_EN is 0, VIDOUT will be VID_MANUAL This bit is 1 represents that the serial key is entered correctly. Manually assigned VIDOUT value 8.9.2.4 Bit 7-0 Serial Key Data Register Index 03h Name KEY_DATA R/W Default 0 R/W Description Write serial data to this register correctly, the KEY_OK bit will be set to 1. Hence, users are able to write key protected registers. The sequence to enable KEY_OK is 0x32, 0x5D, 0x42, 0xAC. When KEY_OK is set, write this register 0x35 will clear KEY_OK. 8.9.2.5 Bit VIDIN Register Index 04h Name R/W Default ( * cleared by slotocc_n and watch dog timeout) Description 1: VIDIN will be pin status of P_VIDIN 7* VIDIN_MODE R/W 1 0: P_VIDIN value will be latched when this bit is set to 0 (from 1). At the same time, P_VIDIN will turn to output mode and VID_MANUAL will be output from P_VIDIN. 6 Reserved VIDIN R R 0 - Reserved The value of this register depends on the VIDIN_MODE register: VIDIN_MODE is 1: the register indicates the VID reading from CPU (the pin status of VID_IN[5:0]). VIDIN_MODE is 0: the register latches the value of VID_IN[5:0] when VIDIN_MODE changed from 1 to 0. 5:0 -108- Nov., 2006 V0.24P www..com F71882 8.9.2.6 Bit 7 6 5 4 3 2 Watchdog Timer Configuration Register 1 Index 05h Name Reserved WDTMOUT_STS WD_EN WD_PULSE WD_UNIT WD_HACTIVE R/W Default R R/W R/W R/W R/W R/W 0 0 0 0 0 0 Reserved If watchdog timeout event occurs, this bit will be set to 1. Write a 1 to this bit will clear it to 0. If this bit is set to 1, the counting of watchdog time is enabled. Select output mode (0: level, 1: pulse) of RSTOUT# by setting this bit. Select time unit (0: 1sec, 1: 60 sec) of watchdog timer by setting this bit. Select output polarity of RSTOUT# (1: high active, 0: low active) by setting this bit. Select output pulse width of RSTOUT# 1:0 WD_PSWIDTH R/W 0 0: 1 ms 2: 125 ms 1: 25 ms 3: 5 sec Description 8.9.2.7 Bit 7:0 Watchdog Timer Configuration Register 2 Index 06h Name WD_TIME R/W Default R/W 0 Time of watchdog timer Description 8.9.2.8 Bit 7* 6 5:4 3:0* Output Voltage Control Register 1 Index 07h Name SWITCH_EN OVER_VOL_EN Reserved SWITCH_SEL0 R/W Default R/W R/W R/W R/W 0 1 0 7 ( * cleared by slotocc_n and watch dog timeout) Description 0: If OVER_VOL_EN is 0, AVOUT equals to AVIN. 1: If OVER_VOL_EN is 1, AVOUT is controlled by SWITCH_SEL. If this bit is 1, AVOUT function is enabled. Reserved SWITCH_SEL0 is used to control AVOUT according to AVIN. 8.9.2.9 Bit 7:4* 3:0* Output Voltage Control Register 2 Index 08h Name SWITCH_SEL2 SWITCH_SEL1 R/W Default R/W R/W 7 7 ( * cleared by slotocc_n and watch dog timeout) Description SWITCH_SEL2 is used to control AVOUT according to AVIN. SWITCH_SEL1 is used to control AVOUT according to AVIN. 8.9.2.10 Bit Output Voltage Control Register 3 Index 09h Name R/W Default Description -109- Nov., 2006 V0.24P www..com F71882 7:4* 3:0* Reserved SWITCH_SEL3 R R/W 0 7 Reserved SWITCH_SEL3 is used to control AVOUT according to AVIN. 8.9.2.11 Bit 7:6 P_VIDIN Output Mode Control Register Index 0Ah ( * cleared by slotocc_n and watch dog timeout) Name Reserved R/W Default R/W 0 Reserved If VID_IN_MODE is set to 0, P_VIDIN will be output and the output value is Description 5:0* VIDIN_OD R/W 3Fh VID_MANUAL. VIDIN_OD can individually control the P_VIDIN output mode (1: open drain; 0: push pull) 8.9.2.12 Bit 7:6 5-0 VID Offset Register 1 Index 0Bh Name Reserved VID_OFFSET1 R/W Default R R/W 0 Reserved VID offset. VID_OFFSET[5] is sign bit. Description 8.9.2.13 Bit 7:6 5-0 VID Offset Register 2 Index 0Ch Name Reserved VID_OFFSET2 R/W Default R R/W 0 Reserved VID offset. VID_OFFSET[5] is sign bit. Description 8.9.2.14 Bit 7:6 5-0 VID Offset Register 3 Index 0Ch Name Reserved VID_OFFSET3 R/W Default R R/W 0 Reserved VID offset. VID_OFFSET[5] is sign bit. Description 8.9.2.15 Bit 7:4 3 2 1 0 Turbo Invert Register Index 0Eh Name Reserved GP_SWITCH_INV1 GP_SWITCH_INV0 GP_OTF_INV1 GP_OTF_INV0 R/W Default R R/W R/W R/W R/W 1 1 1 1 Reserved This bit can invert Turbo2 signals when GP_SWITCH1_EN is set to 1. This bit can invert Turbo1 signals when GP_SWITCH0_EN is set to 1. This bit can invert Turbo2 signals when GP_OTF_EN1 is set to 1. This bit can invert Turbo1 signals when GP_OTF_EN0 is set to 1. Description -110- Nov., 2006 V0.24P www..com F71882 8.10 SPI Registers (CR08) 8.10.1 Configuration Register SPI Control Register Index F0h Bit Name R/W Default R/W R/W R/W 0 1 0 Reserved. Description 7-6 Reserved 5 4 3 SPTIE MSTR CPOL SPI interrupt enable. Set to 1, SPIE interrupt enabled, set to 0 spie interrupt disabled. Master mode select. Set to 1, SPI function is master mode; set to 0 is disable SPI function Clock polarity this bit selects inverted or non-inverted SPI clock. Set to 1, active low clock selected; SCK idles high. Set to 0, active high clock selected; SCK idles low. Clock phase. This bit is used to shift the SCK serial clock. Set to 1, the first SCK edge is issued at the beginning of the transfer operation. Set to 0, the first SCK edge is issued one-half cycle into the transfer operation. Reserved This bit control data shift from lsb or msb. Set to 1, data is transferred from lsb to msb. Set to 0, data is transferred from msb to lsb. 2 CPHA R/W 0 1 0 Reserved LSBFE R/W 0 0 SPI Timeout Register Index F1h Bit Name R/W Default R/W Description 7-0 TIMER_VAL 8'h04 The time in second to assert FWH_DIS signal when SPI in used as backup BIOS. SPI Baud Rate Divisor Register Index F2h Bit Name R/W Default R/W 0 1 Reserved Description 7-3 Reserved 2-0 Baud_val This register decides to SCK frequency. Baud rate divisor equation is 33MHz/2*(BAUD_VAL). 00: 33MHz. 01: 16.7MHz. -111- Nov., 2006 V0.24P www..com F71882 SPI Status Register Index F3h Bit 7 SPIE Name R/W Default R/W 0 Description SPI interrupt status. When SPI is transferred or received data from device finish, this bit will be set. Write 1 to clear this bit. 6 FWH_DIS R/W - When SPI is used as backup BIOS, this bit will set when time in second reaches the value programmed in TIMER_VAL (CRF1). Write one to clear this register. When SPI is used as primary BIOS, this register will always be 1. This bit reflects the SPI_EN register. (which will be 1 when SPI is enabled.) When SPI is used as primary BIOS, it will also have backup function as used in backup BIOS. The bit will set to 1 when the time in second reaches the value programmed in TIMER_VAL (CRF1). That is the first SPI could not function well. Then a reset signal will asserted and reboot the system with the second SPI. (I could be another SPI with chip-selected by FWH_DIS or another 4Mbits of an 8Mbits SPI. The SPI_CS1_EN (CR2D[4]) determines the method). Write one to clear this bit. SPI operation status. When SPI is transferred or received data from device, this bit will be set 1, Clear by SPI operation finish. 5 4 SPE SPI0_TIMER_DIS R R/W - 3 SPTEF R 0 2-0 Reserved - - Reserved SPI High Byte Data Register Index F4h Bit Name R/W Default R 0 Description When SPI is received 16 bits data from device. This register saves high byte data. 7-0 H_DATA SPI command data Register Index F5h Bit Name R/W Default R/W 0 Description This register provides command value for flash command. 7-0 CMD_DATA SPI chip select Register Index F6h Bit Name R/W Default R/W 0 Reserved Chip select 3. To select device 3 Description 7-4 Reserved 3 CS3 -112- Nov., 2006 V0.24P www..com F71882 2 1 0 CS2 CS1 CS0 R/W R/W R/W 0 0 0 Chip select 2. To select device 2 Chip select 1. To select device 1 Chip select 0. To select device 0 SPI memory mapping Register Index F7h Bit Name R/W Default R/W 0 Reserved Description 7-3 Reserved 2-0 Mem_map This register decides memory size. 3'b000: one of the memory sizes is 512k bytes. 3'b001: one of the memory sizes is 1024k bytes. 3'b100: one of the memory sizes is 2048k bytes. 3'b011: one of the memory sizes is 4096k bytes. 3'b100: one of the memory sizes if 8092k bytes. The default value is power on strap by SOUT2. Pull down to select 4096k bytes size, else select 512k bytes size. SPI operate Register Index F8h Bit 7 TYPE Name R/W Default R/W 0 Description This bit decide flash continuous programming mode. Set to 1, if programming continuous mode is same as the SST flash. Set to 0 if programming continuous mode is same as the ATMEL flash This bit control SPI function transfer 8 bit command to device. Clear 0 by operation finish. This bit control SPI function read status from to device. Clear 0 by operation finish. This bit control SPI function write status to device. Clear 0 by operation finish. This bit control SPI function sector erase device. Clear 0 by operation finish. This bit control SPI function read id from device. Clear 0 by operation finish. This bit control SPI function program data to device or set to 1 when memory cycle for LPC interface program flash. Clear 0 by operation finish. This bit control SPI function read data from device or set to 1 when memory cycle for LPC interface read flash. Clear 0 by operation finish. 6 5 4 3 2 1 0 IO_SPI RDSR WRSR SECTOR_ERASE READ_ID PROG READ R/W R/W R/W R/W R/W R/W R/W 0 0 0 0 0 0 0 SPI Low Byte Data Register Index FAh Bit Name R/W Default Description -113- Nov., 2006 V0.24P www..com F71882 7-0 L_DATA R 0 When SPI received 16 bits or 8 bits data from device. This register saves low byte data. SPI address high byte Register Index FBh Bit Name R/W Default R/W 0 Description This register provides high byte address for sector erase, program, read operation. 7-0 Addr_H_byte SPI address medium byte Register Index FCh Bit Name R/W Default R/W 0 Description This register provides medium byte address for sector erase, program, read operation. 7-0 Addr_M_byte SPI address low byte Register Index FDh Bit Name R/W Default R/W 0 Description This register provides low byte address for sector erase, program, read operation. 7-0 Addr_L_byte SPI program byte Register Index FEh Bit Name R/W Default R/W 0 Description This register provides number to program flash for continuous mode. 7-0 PORG_BYTE SPI write data Register Index FFh Bit Name R/W Default R/W 0 Description This register provides data to write flash for program, write status function. 7-0 WR_dat -114- Nov., 2006 V0.24P www..com F71882 8.11 PME and ACPI Registers (CR0A) 8.11.1 Configuration Register Device Enable Register Index 30h Bit 0 Name PME_EN R/W Default R/W 0 Reserved 0: disable PME. 1: enable PME. Description 7-1 Reserved PME Event Enable Register Index F0h Bit 7 6 Name Reserved MO_PME_EN R/W Default R/W 0 Reserved Mouse PME event enable. 0: disable mouse PME event. 1: enable mouse PME event. Keyboard PME event enable. 0: disable keyboard PME event. 1: enable keyboard PME event. Description 5 KB_PME_EN R/W 0 4 HM_PME_EN R/W 0 Hardware monitor PME event enable. 0: disable hardware monitor PME event. 1: enable hardware monitor PME event. Parallel port PME event enable. 0: disable parallel port PME event. 1: enable parallel port PME event. UART 2 PME event enable. 0: disable UART 2 PME event. 1: enable UART 2 PME event. UART 1 PME event enable. 0: disable UART 1 PME event. 1: enable UART 1 PME event. FDC PME event enable. 0: disable FDC PME event. 1: enable FDC PME event. 3 PRT_PME_EN R/W 0 2 UR2_PME_EN R/W 0 1 UR1_PME_EN R/W 0 0 FDC_PME_EN R/W 0 PME Event Status Register Index F1h Bit 7 Name Reserved R/W Default Reserved Description -115- Nov., 2006 V0.24P www..com F71882 6 MO_PME_ST R/W 0 Mouse PME event status. 0: Mouse has no PME event. 1: Mouse has a PME event to assert. Write 1 to clear to be ready for next PME event. Keyboard PME event status. 0: Keyboard has no PME event. 1: Keyboard has a PME event to assert. Write 1 to clear to be ready for next PME event. Hardware monitor PME event status. 0: Hardware monitor has no PME event. 1: Hardware monitor has a PME event to assert. Write 1 to clear to be ready for next PME event. Parallel port PME event status. 0: Parallel port has no PME event. 1: Parallel port has a PME event to assert. Write 1 to clear to be ready for next PME event. UART 2 PME event status. 0: UART 2 has no PME event. 1: UART 2 has a PME event to assert. Write 1 to clear to be ready for next PME event. UART 1 PME event status. 0: UART 1 has no PME event. 1: UART 1 has a PME event to assert. Write 1 to clear to be ready for next PME event. FDC PME event status. 0: FDC has no PME event. 1: FDC has a PME event to assert. Write 1 to clear to be ready for next PME event. 5 KB_PME_ST R/W 0 4 HM_PME_ST R/W 0 3 PRT_PME_ST R/W 0 2 UR2_PME_ST R/W 0 1 UR1_PME_ST R/W 0 0 FDC_PME_ST R/W 1 ACPI Control Register Index F4h Bit 7 6 Name Reserved SPI_RST_EN R/W Default R/W R/W 0 0 Dummy registers. Description Set one to enable the reset signal from SPI via the PWROK or PCIRST#. (SPI as backup BIOS will assert a reset signal when FWH doesn't response in 4 seconds) Set this bit one and KEY_SEL (CR2D[2:1]) 2'b00 will select windows 98 wakeup key as keyboard wakeup key. Set one to enable keyboard wakeup event asserted via PWSOUT#. Set one to enable mouse wakeup event asserted via PWSOUT#. The ACPI Control the PSON_N to always on or always off or keep last state 00 : keep last state 10 : Always on 01 : Reserved (always on) 11: Always off When VSB 3V comes, it will set to 1, and write 1 to clear it 5 4 3 KEY_SEL_ADD EN_KBWAKEUP EN_MOWAKEUP R/W R/W R/W R/W 0 0 0 11 2-1 PWRCTRL 0 VSB_PWR_LOSS R/W 0 -116- Nov., 2006 V0.24P www..com F71882 ACPI Control Register Index F5h Bit 7 6 5 Name SOFT_RST_ACPI Reserved RSTCON_EN R/W Default R/W R/W R/W 0 0 11 Reserved Description Software Reset to ACPI (auto clear after reset) 0: Enable RSTCON# output via PWROK. 1: Enable RSTCON# output via PCIRST#. The PWROK delay timing from VDD3VOK by followed setting 00 : 100ms 01 : 200ms 10 : 300ms 11 : 400ms 4-3 DELAY 2 1 0 VINDB_EN PCIRST_DB_EN Reserved R/W R/W - 1 0 - Enable the PCIRSTIN_N and ATXPWGD debounce Enable the LRESET_N de-bounce. Reserved. -117- Nov., 2006 V0.24P www..com F71882 9. Electron Characteristic 9.1 Absolute Maximum Ratings RATING -0.5 to 5.5 -0.5 to VDD+0.5 0 to +140 -55 to 150 UNIT V V C C PARAMETER Power Supply Voltage Input Voltage Operating Temperature Storage Temperature Note: Exposure to conditions beyond those listed under Absolute Maximum Ratings may adversely affect the life and reliability of the device 9.2 DC Characteristics MIN TYP 1 1 3.3 10 5 1 2.2 95 10 MAX 3 3 3.6 Unit o C V mA uA o C V uA uA (TA = 0 C to 70 C, VDD = 3.3V 10%, VSS = 0V ) Parameter Conditions o Temperature Error, Remote Diode 60 C < TD < 145 oC, VCC = 3.0V to 3.6V 0 oC | 3.0 2.4 9.3 DC Characteristics Continued (Ta = 0 C to 70 C, VDD = 3.3V 10%, VSS = 0V) PARAMETER SYM. MIN. TYP. MAX. UNIT CONDITIONS I/OD12ts5v-TTL level bi-directional pin with schmitt trigger, Open-drain output with12 mA sink capability, 5V tolerance. Input Low Voltage VIL 0.8 V Input High Voltage VIH 2.0 V Output Low Current IOL +12 mA VOL = 0.4V Input High Leakage ILIH +1 A VIN = VDD Input Low Leakage ILIL -1 A VIN = 0V I/OD16t5v-TTL level bi-directional pin, Open-drain output with16 mA sink capability, 5V tolerance. Input Low Voltage VIL 0.8 V Input High Voltage VIH 2.0 V Output Low Current IOL +16 mA VOL = 0.4V Input High Leakage ILIH +1 A VIN = VDD Input Low Leakage ILIL -1 A VIN = 0V I/OOD12t-TTL level bi-directional pin, Output pin with 12mA source-sink capability, and can programming to open-drain function. Input Low Threshold Voltage Vt0.8 V VDD = 3.3 V Input High Threshold Voltage Vt+ 2.0 V VDD = 3.3 V Output Low Current IOL -12 -9 mA VOL = 0.4 V -118Nov., 2006 V0.24P www..com F71882 Output High Current IOH +9 +12 mA VOH = 2.4V Input High Leakage ILIH +1 A VIN = VDD Input Low Leakage ILIL -1 A VIN = 0V I/O12t- TTL level bi-directional pin, Output pin with 12mA source-sink capability. Input Low Threshold Voltage Vt0.6 V VDD = 3.3 V Input High Threshold Voltage Vt+ 0.9 V VDD = 3.3 V Output High Current IOH +9 +12 mA VOH = 2.4V Input High Leakage ILIH +1 A VIN = 1.2V Input Low Leakage ILIL -1 A VIN = 0V INts - TTL level input pin with schmitt trigger Input Low Voltage VIL 0.8 V Input High Voltage VIH 2.0 V Input High Leakage ILIH +1 A VIN = VDD Input Low Leakage ILIL -1 A VIN = 0 V INt5v - TTL level input pin with 5V tolerance. Input Low Voltage VIL 0.8 V Input High Voltage VIH 2.0 V Input High Leakage ILIH +1 A VIN = VDD Input Low Leakage ILIL -1 A VIN = 0 V INts5v - TTL level input pin with schmitt trigger, 5V tolerance. Input Low Voltage VIL 0.8 V Input High Voltage VIH 2.0 V Input High Leakage ILIH +1 A VIN = VDD Input Low Leakage ILIL -1 A VIN = 0 V OD12-Open-drain output with12 mA sink capability. Output Low Current IOL -12 mA VOL = 0.4V OD12-5v-Open-drain output with12 mA sink capability, 5V tolerance. Output Low Current IOL -12 mA VOL = 0.4V OD24-Open-drain output with 24 mA sink capability. Output Low Current IOL -24 mA VOL = 0.4V OD16-u10-5v-Open-drain output with 16 mA sink capability, pull-up 10k ohms, 5V tolerance. Output Low Current IOL -16 mA VOL = 0.4V O8- Output pin with 8 mA source-sink capability. Output High Current IOH +6 +8 mA VOH = 2.4V O8-u47-5v- Output pin with 8 mA source-sink capability, pull-up 47k ohms, 5V tolerance. Output High Current IOH +6 +8 mA VOH = 2.4V O12- Output pin with 12 mA source-sink capability. Output High Current IOH +9 +12 mA VOH = 2.4V O30- Output pin with 30 mA source-sink capability. Output High Current IOH +26 +30 mA VOH = 2.4V 10. Ordering Information Part Number F71882FG Package Type 128-PQFP Green Package Production Flow Commercial, 0C to +70C -119- Nov., 2006 V0.24P www..com F71882 11.Package Dimensions 128 PQFP Feature Integration Technology Inc. Headquaters 7F, No 31, Shintai Rd., Jubei City, Hsinchu 302, Taiwan, R.O.C. TEL : 886-3-6562727 FAX : 886-3-6560537 www: http://www.fintek.com.tw Taipei Office Bldg K4, 7F, No. 700, Chung Cheng Rd., Chungho City, Taipei 235, Taiwan, R.O.C. TEL : 886-2-8227-8027 FAX : 886-2-8227-8037 Please note that all datasheet and specifications are subject to change without notice. All the trade marks of products and companies mentioned in this datasheet belong to their respective owner -120- Nov., 2006 V0.24P www..com F71882 12. Application Circuit (GND close to IC) VCC3V VBAT VSB3V PWOK PSON# S3# PWSOUT# PWSIN# PME# ATXPG_IN RSTCON# PCIRST3# PCIRST2# PCIRST1# MCLK MDAT KCLK KDAT OVT# LED_VCC U1 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 RSMRST# COPEN# DD3+ D2+ D1+ VREF VIN6 VIN5 VIN4 VIN3 VIN2 VIN1 SLCT PE BUSY VCC5V R1 R2 R4 R3 R5 1K 1K 1K 1K 1K WPT# INDEX# TRK0# RDATA# DSKCHG# 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 J1 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 GPIO 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 DENSEL# INDEX# MOA# DRVA# DIR# STEP# WDATA# WGATE# TRK0# WPT# RDATA# HDSEL# DSKCHG# BUSY PE SLCT VCC VIN1(Vcore) VIN2 VIN3 VIN4 VIN5 VIN6 VREF D1+(CPU) D2+ D3+(System) AGND(D-) COPEN# VBAT RSMRST#/GPIO33 PWOK/GPIO32 PS_ON#/GPIO31 S3#/GPIO30 PWSOUT#/GPIO27 PWSIN#/GPIO26 PME#/GPIO25 ATXPG_IN/GPIO24 GPIO23/RSTCON# PCIRST3#/GPIO22 PCIRST2#/GPIO21 PCIRST1#/GPIO20 GND MCLK MDATA KCLK KDATA VSB OVT# GPIO17 GPIO16/LED_VCC/T2# HEADER 17X2 FLOPPY CONN. 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 LED_VSB FWH_DIS MOSI MISO SPI_CS0# SCK VSO VSI TURBO1# VIDOUT5 VIDOUT4 VIDOUT3 VIDOUT2 VIDOUT1 VIDOUT0 VID5 VID4 VID3 VID2 VID1 VID0 GA20 KBRST# CLK_24/48M ACK# SLIN# INIT# ERR# AFD# STB# PD0 PD1 PD2 PD3 PD4 PD5 PD6 PD7 DCD1# RI1# CTS1# DTR1# RTS1# DSR1# SOUT1 SIN1 DCD2# RI2# CTS2# 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 DTR2#/FWH_TRAP RTS2#/PWM_DC DSR2# VCC SOUT2/SPI_TRAP SIN2 DENSEL# MOA# DRVA# WDATA# DIR# STEP# HDSEL# WGATE# RDATA# TRK0# INDEX# WPT# DSKCHG# GND FANIN1 FANCTL1 FANIN2 FANCTL2 FANIN3/GPIO40 FANCTL3/GPIO41 IRTX/GPIO42 IRRX/GPIO43 LRESET# LDRQ# SERIRQ LFRAM# LAD0 LAD1 LAD2 LAD3 VCC PCICLK 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 ACK# SLIN# INIT# ERR# AFD# STB# PD0 PD1 PD2 PD3 PD4 PD5 PD6 PD7 GND DCD1# RI1# CTS1# DTR1#/FAN60_100 RTS1#/VIDOUT_TRAP DSR1# SOUT1/Conf ig4E_2E SIN1 DCD2# RI2# CTS2# F71882FG GPIO15/LED_VSB/ALERT# GPIO14/FWH_DIS/WDTRST# GPIO13/SPI_MOSI/BEEP GPIO12/SPI_MISO/FANCTL1_1 GPIO11/SPI_CS/FANCTL4 GPIO10/SPI_CLK/FANIN4 VSO/PECI VSI/SST GPIO07/T1#/WDTRST# SLOTOCC#/GPIO06 VIDOUT5/GPIO05/SIC VIDOUT4/GPIO04 VIDOUT3/GPIO03 VIDOUT2/GPIO02 VIDOUT1/GPIO01 VIDOUT0/GPIO00 GND VIDIN5/OUT5/SID VIDIN4/OUT4 VIDIN3/OUT3 VIDIN2/OUT2 VIDIN1/OUT1 VIDIN0/OUT0 GA20 KBRST# CLKIN SLOTOCC# SOUT2 SOUT1 RTS1 RTS2 DTR2 DTR1 R12 1K R7 1K R8 1K R9 1K R10 1K R11 1K POWER TRIP R R8 R9 OFF: PWM FAN OFF: PIN49-54=VID_OUT PIN42-47=VIDIN R10 OFF: 4E R7&R11 OFF: SPI_DISABLE R12 OFF: FAN START DUTY 60% ON: LINEAR FAN ON: PIN49-54=GPIO PIN42-47=VIDIN/OUT ON: 2E ON: SPI_ENABLE ON: FAN START DUTY 100% DTR2# RTS2# DSR2# SOUT2 SIN2 VSB3V PCICLK LAD3 LAD2 LAD1 LAD0 LFRAME# SERIRQ LDRQ# LRESET# IRRX IRTX FANCTL3 FANIN3 FANCTL2 FANIN2 FANCTL1 FANIN1 VCC3V DENSEL# MOA# DRVA# WDATA# DIR# STEP# HDSEL# WGATE# RDATA# TRK0# INDEX# WPT# DSKCHG# VCC3V R6 4.7k VCC3V VCC3V VCC3V VSB3V VBAT SLOTOCC#_CPU SLOTOCC# 1 1 1 1 C1 0.1U C2 0.1U C3 0.1UF C4 2 2 2 2 2 0.1U 1 C5 0.1U Title SLOT_OCC# Feature Integration Technology Inc. Document Number F71882F&FDD Thursday , January 19, 2006 Sheet 1 of 6 Rev 0.14 (Place capacitor close to IC) Size B Date: 121 Nov., 2006 V0.24P www..com F71882 2 D7 1 VCC5V U4 VCC RY1 RY2 RY3 DA1 DA2 RY4 DA3 RY5 GND +12V RA1 RA2 RA3 DY 1 DY 2 RA4 DY 3 RA9 -12V 2 4 6 8 2 4 6 8 2 4 6 8 2 4 6 8 1N5819 FOR LEKAGE TO POWER 20 VCC5V RI1# CTS1# DSR1# RTS1# DTR1# SIN1 SOUT1 DCD1# 19 18 17 16 15 14 13 12 11 1 2 3 4 5 6 7 8 9 10 RN6 RN7 RN8 RN9 +12V RIN1 CTSN1 DSRN1 RTSN1 DTRN1 SINN1 SOUTN1 DCDN1 -12V GND RIN1 DTRN1 CTSN1 SOUTN1 RTSN1 SINN1 DSRN1 DCDN1 5 9 4 8 3 7 2 6 1 P1 2.7K-8P4R 2.7K-8P4R 2.7K-8P4R 2.7K-8P4R 1 3 5 7 1 3 5 7 1 3 5 7 1 3 5 7 R72 2.7K RN10 STB# AFD# INIT# SLIN# 1 3 5 7 33-8P4R RN11 PD0 PD1 PD2 PD3 1 3 5 7 33-8P4R RN12 PD4 PD5 PD6 PD7 1 3 5 7 33-8P4R ERR# ACK# BUSY PE SLCT 2 4 6 8 2 4 6 8 2 4 6 8 1 14 2 15 3 16 4 17 5 18 6 19 7 20 8 21 9 22 10 23 11 24 12 25 13 J2 UART DB9 UART 20 19 18 17 16 15 14 13 12 11 U5 VCC RY 1 RY 2 RY 3 DA1 DA2 RY 4 DA3 RY 5 GND +12V RA1 RA2 RA3 DY 1 DY 2 RA4 DY 3 RA9 -12V 1 PORT INTERFACE 1 2 3 4 5 6 7 8 9 10 +12V RIN2 CTSN2 DSRN2 RTSN2 DTRN2 SINN2 SOUTN2 DCDN2 -12V P2 VCC5V RI2# CTS2# DSR2# RTS2# DTR2# SIN2 SOUT2 DCD2# GND RIN2 DTRN2 CTSN2 SOUTN2 RTSN2 SINN2 DSRN2 DCDN2 5 9 4 8 3 7 2 6 1 UART DB9 DB25 (FEMALE) C25 C24 180pC32 180p 180p C33 180p C26 180p C34 180p C27 180p C35 180p C28 180p C36 180p C29 180p C37 180p C30 180p C31 C38 180p C39 C40 180p 180p 180p UART 2 PORT INTERFACE PARALLEL PORT INTERFACE VSB5V IRTX J3 1 2 3 CON3 VCC5V R92 4.7K R93 4.7K L1 MDAT FB L3 MCLK C45 100P C43 100P FB C44 0.1U KCLK C46 100P C48 100P KDAT IRRX C41 F1 FUSE M-DIN_6-R JS1 1 2 3 6 5 4 R94 4.7K R95 4.7K L2 FB L4 FB C47 0.1U Title Size B Date: F2 FUSE M-DIN_6-R JS2 1 2 3 6 5 4 0.1U VCC5V/3V JP7 1 2 3 4 5 HEADER 5 IR INTERFACE Feature Integration Technology Inc. Document Number Printer &UART Thursday , January 19, 2006 Sheet 2 of 6 Rev 0.14 PS2 MOUSE INTERFACE PS2 KEYBOARD INTERFACE VBAT R60 2M COPEN# 2 C23 1000P from CPU DSW1 1 COPEN# D1+ R55 VCORE R56 VRAM R57 100K 100K VIN2 10K DD2+ VIN2 C21 DVIN3 VIN3 D3+ R61 VCC5V R62 R64 R65 VCC1.5V 10K 47K 20K VREF VIN6 VIN6 D1+ VREF D2+ VREF R71 10K 1% R69 10K 1% 200K R59 100K D3+ C22 VIN4 VIN4 D3300P Q12 PNP 3906 VCC3V for SYSTEM R74 4.7K SPI_CS0# MISO 10K 1% (for system) 1 2 3 4 R58 VCHIPSET 47K 3300P D2+ Q11 PNP 3906 for SYSTEM D1+ C20 VIN1 VIN1 3300P D+ CASE OPEN CIRCUIT VCC3V R73 4.7K R84 4.7K U6 S# Q W# VSS VCC HOLD# C D 8 7 6 5 VCC3V DIODE SENSING CIRCUIT VIN5 VIN5 R66 10K 1% RT1 +12V R63 200K SCK MOSI T SPI FLASH MEMORY THERMISTOR T T RT2 10K 1% (for system) THERMISTOR RT3 10K 1% (for system) VOLTAGE SENSING. The best voltage input level is about 1V. D3+ THERMISTOR THERMISTOR SENSING CIRCUIT Temperature Sensing Title Size B Date: Feature Integration Technology Inc Document Number Hardware Monitor, SPI Flash Thursday , January 19, 2006 Sheet 3 of 6 Rev 0.14 122 Nov., 2006 V0.24P www..com F71882 +12V R19 R20 4.7K 4.7K Q2 PNP 4 HEADER 4 3 2 1 JP1 R30 0 4FANCTL D1 1N4148 4FANCTL 8 NDS0605/SOT 12V VCC3V R89 4.7K R23 330 C8 Q3 + MOSFET N 2N7002 47U R21 4.7K FANCTL1 R24 27K R25 10K C9 0.1U R28 3.9K FANIN1 U2A Q4 D2 1N4148 R22 4.7K JP2 R26 10K C10 47u 3 2 1 CON3 C11 0.1u R29 10K R27 27K FANIN1 3 2 + 4 LM358 1 FANCTL1 VCC5V R32 10K DC FAN Control with OP 1 PWM FAN 1 SPEED CONTROL 12V +12V R33 R34 4.7K 8 U2B 4.7K Q5 PNP D3 1N4148 JP3 3 2 1 HEADER 3 5 R35 4.7K R38 27K R39 10K C14 0.1U R42 3.9K FANCTL2 6 + 4 LM358 JP4 R40 10K C13 47u 3 2 1 CON3 C15 NDS0605/SOT Q6 D4 1N4148 R36 4.7K R41 27K 0.1u R43 10K FANIN2 The C10 is reserved for FAN noise dis-bounce. (4 PIN FAN Control) VCC3V R90 4.7K R37 330 7 FANCTL2 C12 Q7 + MOSFET N 2N7002 47U FANIN2 PWM FAN 2 SPEED CONTROL +12V DC FAN Control with OP 2 12V The C13 is reserved for FAN noise dis-bounce. R44 R45 4.7K 4.7K Q8 PNP 8 NDS0605/SOT U3A 1 LM358 JP6 R52 10K C18 47u 3 2 1 CON3 C19 0.1u R54 10K Q9 D6 1N4148 R47 4.7K R51 27K FANIN3 D5 1N4148 JP5 3 2 1 HEADER 3 VCC3V R91 4.7K R49 330 R46 4.7K R48 27K R50 10K C17 0.1U 3 FANCTL3 FANIN3 2 + 4 FANCTL3 C16 Q10 + MOSFET N 2N7002 47U R53 3.9K PWM FAN 3 SPEED CONTROL The C17 is reserved for FAN noise dis-bounce. DC FAN Control with OP 3 FAN CONTROL FOR PWM OR DC Title Feature Integration Technology Inc. Size B Date: Document Number FAN Control Thursday , January 19, 2006 Sheet 4 of 6 Rev 0.14 CPU PWM Controller PWM_VID7 PWM_VID6 CPU PWM Controller CPU_VID0 CPU_VID1 CPU_VID2 CPU_VID3 CPU_VID4 CPU_VID5 CPU_VID6 PWM_VID5 PWM_VID4 PWM_VID3 PWM_VID2 PWM_VID1 PWM_VID0 CPU_VID7 VCC3V R83 4.7k R16 4.7k R17 4.7k R18 4.7k R80 4.7k R81 4.7k VCC3V(or VCC1.2) R75 R76 R77 R78 R79 R82 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k VTT1.2 R98 4.7k R67 4.7k R68 4.7k R70 4.7k R96 4.7k R97 4.7k VTT1.2 R99 R101 R102 R103 R104 R105 R106 R100 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k VID5 VID4 VID3 VID2 VID1 VID0 VIDOUT0 IO_VIDIN0 IO_VIDIN1 IO_VIDIN2 IO_VIDIN3 IO_VIDIN4 VIDOUT1 VIDOUT2 VIDOUT3 VIDOUT4 VIDOUT5 IO_VIDIN5 F71882 IO_VIDOUT0 IO_VIDOUT1 IO_VIDOUT2 IO_VIDOUT3 IO_VIDOUT4 IO_VIDOUT5 F71882 For VRM 10.0 For VRM 11 PWM Controller VCORE R87 R86 0 0 R85 0 VSO CPU VCORE controlled by F71882 R85:ON R86:ON R87:OFF VCORE by-pass R85:OFF R86:OFF R87:ON VSI F71882 VSO is regulated by PIN56 and PIN65 Title Feature Integration Technology Inc. Document Number VID Thursday , January 19, 2006 Sheet 5 of 6 Rev 0.14 VSI/VSO Size B Date: 123 Nov., 2006 V0.24P www..com F71882 VDDIO R31 300 R88 300 VIDOUT5 VID5 SIC SID VSO R108 100K (avoid pre-bios floating) PECI_Client Client AMDSI Client PECI VSI R109 100K (avoid pre-bios floating) SST_Host Host SST Title Feature Integration Technology Inc. Size A Date: Document Number AMDSI/PECI/SST Thursday , January 19, 2006 Sheet 6 of 6 Rev 0.14 124 Nov., 2006 V0.24P |
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