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| W83L785R/W83L785G Winbond H/W Monitoring IC W83L785R/W83L785G W83L785R Data Sheet Revision History PAGES DATES VERSION VERSION ON WEB MAIN CONTENTS 1 2 3 4 n.a. n.a. n.a n.a. 8/01 4/02 4/06 0.6 1.0 1.1 n.a. n.a. 1.0 1.1 All the version before 0.50 are for internal use. First publication. Change version and version on web site to 1.0 Add Lead-free Package 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. Winbond customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Winbond for any damages resulting from such improper use or sales. -I- Publication Release Date: Apr. 2006 Revision 1.1 W83L785R/W83L785G Table of Contents1. 2. GENERAL DESCRIPTION ......................................................................................................... 1 FEATURES ................................................................................................................................. 2 2.1 2.2 2.3 2.4 3. 4. 5. 6. Monitoring Items............................................................................................................. 2 Actions Enabling ............................................................................................................ 2 General .......................................................................................................................... 2 Package ......................................................................................................................... 2 KEY SPECIFICATIONS .............................................................................................................. 2 PIN CONFIGURATION ............................................................................................................... 3 PIN DESCRIPTION..................................................................................................................... 4 FUNCTIONAL DESCRIPTION ................................................................................................... 6 6.1 6.2 6.3 6.4 6.5 General Description ....................................................................................................... 6 Access Interface............................................................................................................. 6 6.2.1 The first serial bus access timing is shown as follow: .......................................................6 Monitoring Time ............................................................................................................. 7 Analog Inputs ................................................................................................................. 7 6.4.1 6.5.1 6.5.2 6.5.3 6.5.4 Voltage Monitor input can not be over 2.048V:.................................................................8 Monitor temperature from thermistor: ...............................................................................9 Monitor temperature from Pentium IITM thermal diode ....................................................9 Over Temperature signal (OVT#) .....................................................................................9 Temperature Fault (Temp_fault #)..................................................................................10 Fan speed count.............................................................................................................11 Fan speed control...........................................................................................................12 Temperature...................................................................................................................12 Voltage ...........................................................................................................................14 Fan .................................................................................................................................14 Temperature Measurement Machine............................................................................. 8 6.6 FAN Speed Count and FAN Speed Control ................................................................ 11 6.6.1 6.6.2 6.7 SMI# ............................................................................................................................. 12 6.7.1 6.7.2 6.7.3 7. CONTENT OF DATA REGISTERS .......................................................................................... 15 7.1 7.2 7.3 7.4 7.5 7.6 Configuration Register Index 40h............................................................................ 15 SMI# Status Register 1 Index 41h........................................................................... 15 Reserved Index 42h ................................................................................................ 16 SMI# Mask Register 1 Index 43h ............................................................................ 16 Reserved Index 44h ................................................................................................ 16 Real Time Hardware Status Register I Index 45h................................................... 17 - II - W83L785R/W83L785G 7.7 7.8 7.9 7.10 7.11 7.12 7.13 7.14 7.15 7.16 7.17 7.18 7.19 7.20 7.21 7.22 7.23 7.24 7.25 7.26 7.27 7.28 7.29 8. 9. 8.1 9.1 9.2 9.3 10. 11. 12. Reserved Index 46h ................................................................................................ 17 Fan Divisor Register Index 47h ............................................................................... 18 FANIN1/GPO1, FANIN2/GPO2, SMI#/GPO7, and OVT#/GPIO8 Control Register Index 48h ..................................................................................................................... 18 TEMP_FAULT#/GPIO11, +2.5V/GPO14, +1.5V/GPO15, and VCORE/GPO16 Control Register Index 49h .................................................................................................. 20 GPIO1/2, GPIO7/8, and GPIO11/14/15/16 Output Control Register Index 4Ah..... 21 GPIO5, GPIO6, and GPIO13 Control Register Index 4Bh...................................... 21 Winbond Vendor ID (Low Byte) Index 4Ch ............................................................. 22 Winbond Vendor ID (High Byte) Index 4Dh ............................................................ 22 Chip ID Index 4Eh ................................................................................................... 22 Reserved Index 4Fh ................................................................................................ 22 OVT# Property Select Index 50h............................................................................. 22 SMI# Property Select Index 51h.............................................................................. 23 Thermal Sensor 1/2 Type Register Index 52h ........................................................ 24 Temperature Sensor 1 Fault Limit Index 53h.......................................................... 24 Temperature Sensor 2 Fault Limit Index 54h.......................................................... 24 Reserved Index 55h ~ 7Fh...................................................................................... 24 PWM 1 Pre-Scale Register Index 80h .................................................................... 25 PWM 1 Duty Cycle Select Register 81h.................................................................. 25 PWM 2 Pre-Scale Register Index 82h .................................................................... 26 PWM2 Duty Cycle Select Register Index 83h......................................................... 26 Reserved Register Index 84h.................................................................................. 26 Temperature Sensor 1 (for Environment) Offset Register Index 85h ..................... 27 Temperature Sensor 2 (for CPU) Offset Register Index 86h .................................. 27 Value RAM Index 20h- 3Fh or 60h - 7Fh ................................................................ 28 Absolute Maximum Ratings ......................................................................................... 29 DC Characteristics ....................................................................................................... 29 AC Characteristics ....................................................................................................... 30 VALUE RAM AND LIMIT VALUE.............................................................................................. 28 SPECIFICATIONS .................................................................................................................... 29 HOW TO READ THE TOP MARKING...................................................................................... 31 PACKAGE DRAWING AND DIMENSIONS.............................................................................. 32 W83L785R SCHEMATICS ....................................................................................................... 33 - III - Publication Release Date: Apr. 2006 Revision 1.1 W83L785R/W83L785G 1. GENERAL DESCRIPTION W83L785R/G is a condensed product of W83L784R/G --- Winbond's most popular hardware monitoring IC for notebook. Specifically designed for the graphic cards and notebook systems, W83L785R can be used to monitor several critical hardware parameters of the system, including voltages, fan speeds, and temperatures, which are very important for the system to work stably and properly. An 8-bit analog-to-digital converter (ADC) was built inside W83L785R/G. The W83L785R/G can monitor 4 analog voltage inputs, 2 fan tachometer inputs, 2 remote temperature sensors. The remote temperature sensing can be performed by thermistors, or connected from IntelTM Deschutes CPU thermal diode output. The W83L785R/G provides 2 PWM (pulse width modulation) outputs for the fan speed control. Also the W83L785R/G provides: SMI#, OVT#, Temp fault, GPIO signals for system protection events; I2CTM serial bus interface. W83L785R/G also provides 3 pure GPIO and 8 multifunctional GPIO pins, and powered by 3.3V. Through the application software or BIOS, the users can read all the monitored parameters of system from time to time. And a pop-up warning can be also activated when the monitored item was out of the proper/preset range. The application software could be Winbond's Hardware DoctorTM, or IntelTM LDCM (LanDesk Client Management), or other management application software. Also the users can set up the upper and lower limits (alarm thresholds) of these monitored parameters and to activate one programmable and maskable interrupts. For the spacing saving consideration of the Notebook system, W83L785R/G is in the package of 209mil 20pins-SSOP. -1- Publication Release Date: Apr. 2006 Revision 1.1 W83L785R/W83L785G 2. FEATURES 2.1 Monitoring Items * 2 thermal inputs from remote thermistors or PentiumTM II (Deschutes) thermal diode output * 4 voltage inputs --- typical for Vcore, +3.3V (Power), +2.5V, +1.5V * 2 sets of PWM fan speed control * WATCHDOG comparison of all monitored values * Programmable hysteresis and setting points (alarm thresholds) for all monitored items 2.2 Actions Enabling * 2 PWM (pulse width modulation) outputs for fan speed control --- Total up to 2 sets of fan speed monitoring and controlling * Issue temperature fault signal as the temperature of the system/CPU exceeds its limit. * Issue SMI#, OVT#, GPIO and Temp. Fault signals to activate system protection * Warning signal pop-up in application software 2.3 * IC 2 General TM serial bus interface LDCM (DMI driver 2.0) support * Intel TM * Winbond hardware monitoring application software (Hardware DoctorTM ) support, for both Windows 95/98 and Windows NT 4.0/5.0 * Meet WFM 2.0 (Wired for Management) spec. * 3.3V VCC operation 2.4 Package * 20-pin SSOP (209mil) 3. KEY SPECIFICATIONS * Voltage monitoring accuracy * Monitoring Temperature Range and Accuracy - 40C to +120C * Supply Voltage * Operating Supply Current * Power Down Supply Current * ADC Resolution 3C(Max) 2.7V ~ 5.5V 2 mA typ. 10 uA typ. 8 Bits 1% (Max) -2- W83L785R/W83L785G 4. PIN CONFIGURATION FANIN1/GPIO1 FANIN2/GPIO2 PWMOUT1 PWMOUT2 GPIO5 GPIO6 SMI#/GPIO7 OVT#/GPIO8 SCL SDA 1 2 3 4 5 6 7 8 9 10 20 19 18 17 16 15 14 13 12 11 VCC CPUT1/PII1 CPUT2/PII2 VREF VCORE/GPIO16 +1.5V/GPIO15 +2.5VIN/GPIO14 GPIO13 GND TEMP_FAULT/GPIO11 -3- Publication Release Date: Apr. 2006 Revision 1.1 W83L785R/W83L785G 5. PIN DESCRIPTION I/O12t I/O12ts OUT12 AOUT OD12 INt INts AIN - TTL level bi-directional pin with 12 mA source-sink capability,open drain output - TTL level and schmitt trigger - Output pin with 12 mA source-sink capability - Output pin(Analog) - Open-drain output pin with 12 mA sink capability - TTL level input pin - TTL level input pin and schmitt trigger - Input pin(Analog) PIN NAME PIN NO. TYPE DESCRIPTION FANIN1 / GPIO1 FANIN2 / GPIO2 PWMOUT1 PWMOUT2 GPIO5 GPIO6 SMI#/ GPIO7 OVT#/ GPIO8 SCL SDA TEMP_FAUL T#/ GPIO11 1 IN t s / I/OD12ts IN t s / OUT1 2 OD12 OD12 I/OD12ts I/OD12ts OD12 I/OD12ts OD12 I/OD12ts INt s I/OD12 OD1 2 I/OD12ts 2 3 4 5 6 7 0V to +3.3V amplitude fan tachometer input.(Default) / General purpose I/O function. This multi-functional pin is programmable. 0V to +3.3V amplitude fan tachometer input. (Default) / General purpose I/O function. This multi-functional pin is programmable. Fan speed control PWM output. This pin is open-drain Fan speed control PWM output. This pin is open-drain General purpose I/O function. General purpose I/O function. System Management Interrupt. General purpose I/O function. This multi-functional pin is programmable. Over temperature Shutdown Output. General purpose I/O function. This multi-functional pin is programmable. Serial Bus Clock. Serial Bus bi-directional Data. Active-Low output. This pin will be a logic LOW when the temperature of the system or CPU exceeds its limit. (Default) / General purpose I/O function. This multi-functional pin is programmable. Ground. General purpose I/O function. Default Open drain. 0V to 2.048V FSR Analog Inputs. (This pin is connected to the +2.5V). General purpose I/O function. This multi-functional pin is programmable. 8 9 10 11 GND GPIO13 +2.5V/ GPIO14 12 13 14 Ground I/OD12ts AIN I/OD12ts -4- W83L785R/W83L785G Pin Description, continued PIN NAME PIN NO. TYPE DESCRIPTION +1.5V/ GPIO15 VCORE/ GPIO16 15 AIN I/OD12ts 16 AIN I/OD12ts VREF CPUT2 / PII2 CPUT1 / PII1 VCC 17 18 AOUT AIN 19 AIN 20 POWER 0V to 2.048V FSR Analog Inputs. (This pin is connected to the +1.5V). General purpose I/O function. This multi-functional pin is programmable. 0V to 2.048V FSR Analog Inputs. (This pin connected to VCORE) General purpose I/O function. This multi-functional pin is programmable. Reference Voltage. Thermistor terminal input.(Default) / PentiumTM II diode input. This multi-functional pin is programmable. Thermistor terminal input.(Default) / PentiumTM II diode input. This multi-functional pin is programmable. +3.3 VCC power supply input. -5- Publication Release Date: Apr. 2006 Revision 1.1 W83L785R/W83L785G 6. FUNCTIONAL DESCRIPTION 6.1 General Description The W83L785R/G provides most 4 analog positive inputs, 2 fan speed monitors, 2 sets for fan PWM (Pulse Width Modulation) control, 2 remote thermal inputs from remote thermistors or 2N3904 transistors or PentiumTM II (Deschutes) thermal diode outputs. W83L785R/G also provides software power down this chip to save power, but I2C interface is still working. When W83L785R/G starts the monitor function on the chip, the Watch Dog machine monitors every function and store the value to registers. If the monitor value exceeds the limit value, the interrupt status will be set to 1. 6.2 Access Interface The W83L785R/G provides I2C Serial Bus to read/write internal registers. In the W83L785R/G, the I2C address defined value is 0101101. 6.2.1 The first serial bus access timing is shown as follow: (a) Serial bus write to internal address register followed by the data byte 0 SCL SDA Start By Master 7 8 0 7 8 0 1 0 1 1 0 1 R/W Ack by 785R D7 D6 D5 D4 D3 D2 D1 D0 Ack by 785R Frame 1 Serial Bus Address Byte 0 Frame 2 Internal Index Register Byte 7 8 SCL (Continued) SDA (Continued) D7 D6 D5 D4 D3 D2 D1 D0 Ack by by 784R 785R Stop by Master Frame 3 Data Byte Figure 1. Serial Bus Write to Internal Address Register followed by the Data Byte (b) Serial bus read form internal address register followed by the data byte SCL SDA Start By Master 0 7 8 0 7 8 0 1 0 1 1 0 1 R/W ack by 785R D7 D6 D5 D4 D3 D2 D1 D0 ack by 785R Frame 1 Serial Bus Address Byte 0 1 2 3 4 5 Frame 2 Internal Index Register Byte 7 8 0 1 2 3 4 5 6 6 7 8 SCL(Continued) SDA(Continued) 0 1 0 1 1 0 1 D7 ack by 785R D6 D5 D4 D3 D2 by Frame 4 Data Byte D1 D0 784R Ack Stop by ack by Master 785R R/W Frame 3 Serial Bus Byte Figure 2. Serial Bus read from Internal Address Register followed by the Data Byte -6- W83L785R/W83L785G 6.3 Monitoring Time The W83L785R/G monitoring time includes temperature's conversion time, voltage's conversion time, and fan's count time. The W83L785R/G sample rate is 22.5 KHz. The temperature's conversion time need 24 cycles (worst case). The voltage's ADC conversion time need 16 cycles (worst case). The fan conversion cycle is divisor * count cycles. The W83L785R/G has 4 sets voltage, 2 sets temperature, and 2 sets fans. 2 sets temperature monitor time: 2 * 24*0.044mS= 2.112 mS 4 sets voltage: 4 * 16 * 0.044 = 2.816 mS EX: fan=4000RPM Divisor =2, count=169 Fan transform time=0.044*2*169=14.872mS 2 Fan transform time= 14.872 mS * 2 = 29.744 mS Total monitor time = 2.8+2.1+29.7= 34.6 mS 6.4 Analog Inputs The maximum input voltage of the analog pin is 2.048V because the 8-bit ADC has the 8mv LSB. Actually, the application of the voltage monitoring would most often be connected to power suppliers. The +1.5V voltage can directly connected to these analog inputs. The +2.5V and CPU VOCRE, the inputs higher than 2.048V, should be reduced a factor with external resistors so as to obtain the input range. As Figure 3 shows. VIN0(VCORE)(Max2.048V) Positive Inputs VIN2 +1.5V VIN3 VCC R1 Pin 16 Pin 15 Pin 20 +2.5Vin VIN1(Max2.048V) Pin 14 R2 100K, 1% 8-bit ADC with 8mV LSB 100K, 1% R Typical Thermister Connection 10K, 1% CPUT1 VREF Pin 17 Pin 19 **The connections of CPUT2 is same as CPUT1 R THM 10K, 25 C Figure. 3. -7- Publication Release Date: Apr. 2006 Revision 1.1 W83L785R/W83L785G 6.4.1 Voltage Monitor input can not be over 2.048V: The input voltage VIN1 or Vcore can be expressed as following equation: VIN1 = V+ 2.5V x R2 R1 + R2 . V+2.5V is +2.5V inputs. The value of R1 and R2 can be selected to 100K Ohms and 100K Ohms, respectively, when the input voltage is 2.5V. The node voltage of VIN3 can be subject to less than 2.048V for the maximum input range of the 8-bit ADC. The pin 20 is connected to the power supply VCC with +3.3V. There are two functions in this pin with 3.3V. The first function is to supply internal analog power of the W83L785R /G and the second function is that this voltage with 3.3V is connected to internal serial resistors to monitor the +3.3V voltage. The values of two serial resistors are 20K ohms and 40K ohms so that input voltage to ADC is 1.1V which is less than 2.048V of ADC maximum input voltage. The express equation can represent as follows. Vin = VCC x 20 K 1.1V 20 K + 40 K where VCC is set to 3.3V. 6.5 Temperature Measurement Machine The temperature data format is 8-bit two-complement for thermal sensor. The 8-bit temperature data can be obtained by reading the CR [26h] or CR [27h]. The format of the temperature data is show in Table 1. Table 1 TEMPERATURE 8-BIT BINARY 8-BIT DIGITAL OUTPUT 8-BIT HEX +125C +25C +2C +1C +0C -1C -2C -25C -55C 0111,1101 0001,1001 0000,0010 0000,0001 0000,0000 1111,1111 1111,1110 1110,0111 1100,1001 7Dh 19h 02h 01h 00h FFh FEh E7h C9h -8- W83L785R/W83L785G 6.5.1 Monitor temperature from thermistor: The W83L785R/G can connect two thermistors to measure three different environment temperature or remote temperature. The specification of thermistor should be considered to (1) value is 3435K, (2) resistor value is 10K ohms at 25C. In the Figure 3, the themistor is connected by a serial resistor with 10K Ohms, and then connected to VREF (pin 17). 6.5.2 Monitor temperature from Pentium IITM thermal diode The W83L785R/G can alternate the thermistor to Pentium IITM (Deschutes) thermal diode interface and the circuit connection is shown as Figure 4. The pin of Pentium IITM D- is connected to power supply ground (GND) and the pin D+ is connected to pin PIIx in the W83L785R/G. The resistor R=15K ohms should be connected to VREF to supply the diode bias current and the bypass capacitor C=3300pF should be added to filter the high frequency noise. VREF R=15K, 1% Pentium II/III CPU Therminal Diode D+ PIITDx C=3300pF D- W83L785R R=15K, 1% Pentium II/III CPU Therminal Diode D+ C=3300pF D- PIITDx Figure 4. 6.5.3 Over Temperature signal (OVT#) W83L785R/G provides two external thermal sensors to detect temperature. When detected temperature exceeds the over-temperature value, pin OVT# will be asserted until the temperature goes below the hysteresis temperature. Pin OVT# has 2 operating modes. 6.5.3.1. Comparator Mode: At this mode, temperature exceeding TO causes the OVT# output activated until the temperature is less than THYST. (Figure 5) -9- Publication Release Date: Apr. 2006 Revision 1.1 W83L785R/W83L785G 6.5.3.2. Interrupt Mode: At this mode, temperature exceeding TO causes the OVT# output activated indefinitely until reset by reading interrupt status register. Temperature exceeding TO, then OVT# asserted, and then temperature going below THYST will also cause the OVT# activated indefinitely until reset by reading temperature sensor1 or sensor2 registers. Once the OVT# is activated by exceeding TO, then reset, if the temperature remains above THYST, the OVT# will not be activated again. (Figure 5) To T HYST (Comparator Mode; default) OVT# (Interrupt Mode) OVT# * * * * *Interrupt Reset when Interrupt Status Register is read Figure 5 6.5.4 Temperature Fault (Temp_fault #) W83L785R/G provides a good protection for temperature. Setting pin11 (TEMP_FAULT#) to monitor temperature and enable TEMP_FAULT# function. When VTIN1 (Pin19) or VTIN (Pin18) temperature exceeds Temperature fault limit in CR53,or R54 pin11 TEMP_FAULT# will be asserted. (Figure 6) TEMP_FAULT limit TEMP_FAULT# Figure 6. TEMP_FAULT - 10 - W83L785R/W83L785G 6.6 6.6.1 FAN Speed Count and FAN Speed Control Fan speed count 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 VCC. If the input signals from the tachometer outputs are over the VCC, 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 Figure 7. Determine the fan counter according to: Count = 135 x 106 . RPM x Divisor In other words, the fan speed counter has been read from register CR28 or CR29, the fan speed can be evaluated by the following equation. 135 x 10 6 . RPM = Count x Divisor The default divisor is 2 and defined at CR47.bit0~2, bit4~6 which are three bits for divisor. That provides very low speed fan counter such as power supply fan. The followed table is an example for the relation of divisor, RPM, and count. Table 2 DIVISOR NOMINAL RPM TIME PER REVOLUTION COUNTS 70% RPM TIME FOR 70% 1 2 (default) 4 8 16 32 64 128 +12V 8800 4400 2200 1100 550 275 137 68 Pull-up resister 4.7K Ohms 6.82 ms 13.64 ms 27.27 ms 54.54 ms 109.08 ms 218.16 ms 436.32 ms 872.64 ms 153 153 153 153 153 153 153 153 +12V 6160 3080 1540 770 385 192 96 48 9.74 ms 19.48 ms 38.96 ms 77.92 ms 155.84 ms 311.68 ms 623.36 ms 1246.72 ms Pull-up resister < 1K or totem-pole output +12V FAN Out GND 10K 22K~30K Fan Input +12V Pin 1 Pin 2 FAN Out GND > 1K Fan Input Pin 1 Pin 2 W83L785R 3.3V Zener FAN Connector W83L785R Figure 7-1. Fan with Tach Pull-Up to +12V, or Totern-Pole Output and Register Attenuator Figure 7-2. Fan with Tach Pull-Up to +12V, or Totem-Pole Putput and Zener Clamp - 11 - Publication Release Date: Apr. 2006 Revision 1.1 W83L785R/W83L785G +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 Pin 1 Pin 2 FAN Out GND > 1K +5V Fan Input Pin 1 Pin 2 W83L785R 3.3V Zener FAN Connector W83L785R Figure 7-3. Fan with Tach Pull-Up to +5V, or Totern-Pole Output and Register Attenuator Figure 7-4. Fan with Tach Pull-Up to +5V, or Totem-Pole Putput and Zener Clamp 6.6.2 Fan speed control The W83L785R/G provides two sets for fan PWM speed control. The duty cycle of PWM can be programmed by an 8-bit register which are defined in the CR81h and CR83h. 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 (%) = +12V Programmed 8 - bit Register 255 Value +5V x 100 % R1 R2 G D NMOS S PWM Clock Input + C FAN PNP Transistor G R1 R2 D NMOS S + PNP Transistor PWM Clock Input C FAN Figure 8 6.7 6.7.1 SMI# Temperature Pin SMI# for temperature has 3 modes. 6.7.1.1. Comparator Interrupt Mode Temperature exceeding TO causes an interrupt and this interrupt will be reset when reading all of the Interrupt Status Registers. Once an interrupt event has occurred by exceeding TO, then reset, if the temperature remains above the THYST, the interrupt will occur again when the next conversion has completed. If an interrupt event has occurred by exceeding TO and not reset, the interrupts will not occur again. The interrupts will continue to occur in this manner until the temperature goes below THYST. (Figure 9-1) - 12 - W83L785R/W83L785G 6.7.1.2. Two-Times Interrupt Mode Temperature exceeding TO causes an interrupt and then temperature going below THYST will also cause an interrupt if the previous interrupt has been reset by reading all the interrupt Status Register. Once an interrupt event has occurred by exceeding TO, then reset, if the temperature remains above the THYST, the interrupt will not occur. (Figure 9-2) 6.7.1.3. One-Time Interrupt Mode Temperature exceeding TO causes an interrupt and then temperature going below THYST will not cause an interrupt. Once an interrupt event has occurred by exceeding TO, then going below THYST, an interrupt will not occur again until the temperature exceeding TO. (Figure 9-3) T OI T OI T HYST T HYST SMI# * * * * * SMI# * * * *Interrupt Reset when Interrupt Status Registers are read Figure 9-1. Comparator Interrupt Mode Figure 9-2. Two-Times Interrupt Mode T OI T HYST SMI# * * *Interrupt Reset when Interrupt Status Registers are read Figure 9-3. One-Time Interrupt Mode - 13 - Publication Release Date: Apr. 2006 Revision 1.1 W83L785R/W83L785G 6.7.2 Voltage SMI# interrupt for voltage is Two-Times Interrupt Mode. Voltage exceeding high limit or going below low limit will causes an interrupt if the previous interrupt has been reset by reading all the interrupt Status Register. (Figure 10-1) 6.7.3 Fan SMI# interrupt for fan is Two-Times Interrupt Mode. Fan count exceeding the limit, or exceeding and then going below the limit (set at value ram index 3Bh and 3Ch), will causes an interrupt if the previous interrupt has been reset by reading all the interrupt Status Register. (Figure 10-2) Voltage High limit Voltage Low limit Fan Count limit SMI# * * * * SMI# * * *Interrupt Reset when Interrupt Status Registers are read Figure 10-1. Voltage SMI# Mode Figure 10-2. Fan SMI# Mode - 14 - W83L785R/W83L785G 7. CONTENT OF DATA REGISTERS 7.1 BIT Configuration Register Index 40h NAME READ/WRITE DESCRIPTION Power on default [7:0] = 0000, 0001 b 7 INITIALIZATION Read/Write A one restores power on default value to all registers except the Serial Bus Address register. This bit clears itself since the power on default is zero. Reserved Software Power Down. If set to 1 to power down this chip, but I2C interface is still working. Enable Temperature 2 Fault Function. When temperature 2 is out of the Temperature Fault Limit value (defined Index 54), the Pin 11 will go to low level. This function is wire-or with temperature 1 fault if temperature 1 fault function is enable. Enable Temperature 1 Fault Function. When temperature 1 is out of the Temperature Fault Limit value (defined Index 53), the Pin 11 will go to low level. This function is wire-or with temperature 2 fault if temperature 2 fault function is enable. A one disables the SMI# outputs without affecting the contents of Interrupt Status Registers. The device will stop monitoring. It will resume upon clearing of this bit. A one enables startup of monitoring operations, a zero puts the part in standby mode. Note: The outputs of Interrupt pins will not be cleared if the user writes a zero to this location after an interrupt has occurred unlike "INT_Clear'' bit. 6-5 4 3 Reserved SOFT_PWDN EN_T2_FAULT Read/Write Read/Write Read/Write 2 EN_T1_FAULT Read/Write 1 INT_ CLEAR Read/Write 0 START Read/Write 7.2 BIT SMI# Status Register 1 Index 41h NAME READ/WRITE DESCRIPTION Power on default [7:0] = 0000, 0000 b 7 6 5 4 3 TEMP2 TEMP1 FAN2 FAN1 VCC Read Only Read Only Read Only Read Only Read Only A one indicates a High or Low limit has been exceeded from temperature sensor 2. (CPUT2/PII2) A one indicates a High or Low limit has been exceeded from temperature sensor 1. (CPUT1/PII1) A one indicates the fan count limit has been exceeded. A one indicates the fan count limit has been exceeded. A one indicates a High or Low limit has been exceeded. ( VCC, +3.3V) Publication Release Date: Apr. 2006 Revision 1.1 - 15 - W83L785R/W83L785G SMI# Status Register 1 Index 41h, continued. BIT NAME READ/WRITE DESCRIPTION 2 1 0 +1.5V +2.5V VCORE Read Only Read Only Read Only A one indicates a High or Low limit has been exceeded. (+1.5V) A one indicates a High or Low limit has been exceeded. (+2.5V) A one indicates a High or Low limit has been exceeded. (Vcore A) 7.3 Reserved Index 42h Reserved 7.4 BIT SMI# Mask Register 1 Index 43h NAME READ/WRITE DESCRIPTION Power on default <7:0> = 0000, 0000 b 7 6 5 4 3 2 1 0 MSK_T2_SMI MSK_T1_SMI MSK_FAN2_S MI MSK_FAN1_S MI MSK_VCC_S MI MSK_+1.5V_S MI MSK_+2.5V_S MI MSK_VCORE _SMI Read/Write Read/Write Read/Write Read/Write Read/Write Read/Write Read/Write Read/Write A one disables the corresponding interrupt SMI# interrupt. (Temperature 2) A one disables the corresponding interrupt SMI# interrupt. (Temperature 1) A one disables the corresponding interrupt SMI# interrupt. (Fan 2 speed counter) A one disables the corresponding interrupt SMI# interrupt. (Fan 1 speed counter) A one disables the corresponding interrupt SMI# interrupt. (VCC, +3.3V) A one disables the corresponding interrupt SMI# interrupt. (+1.5V) A one disables the corresponding interrupt SMI# interrupt. (+2.5V) A one disables the corresponding interrupt SMI# interrupt. (Vcore) status bit for status bit for status bit for status bit for status bit for status bit for status bit for status bit for 7.5 Reserved Index 44h Read to return 00h. - 16 - W83L785R/W83L785G 7.6 BIT Real Time Hardware Status Register I Index 45h NAME READ/WRITE DESCRIPTION Power on - [7:0] = 0000, 0000 b 7 TEMP2_STS Read Only Temperature sensor 2 Status. Set 1, the voltage of temperature sensor is over the limit value. Set 0, the voltage of temperature sensor is during the limit range. Temperature sensor 1 Status. Set 1, the voltage of temperature sensor is over the limit value. Set 0, the voltage of temperature sensor is during the limit range. FAN 2 Status. Set 1, the fan speed counter is over the limit value. Set 0, the fan speed counter is in the limit range. FAN 1 Status. Set 1, the fan speed counter is over the limit value. Set 0, the fan speed counter is in the limit range. VCC (3+.3V) Voltage Status. Set 1, the voltage of VCC (+3.3V) is over the limit value. Set 0, the voltage of VCC (+3.3V) is in the limit range. +1.5V Voltage Status. Set 1, the voltage of +1.5V is over the limit value. Set 0, the voltage of +1.5V is in the limit range. +2.5V Voltage Status. Set 1, the voltage of +2.5V is over the limit value. Set 0, the voltage of +1.5V is in the limit range. VCORE Voltage Status. Set 1, the voltage of VCORE is over the limit value. Set 0, the voltage of VCORE is in the limit range. 6 TEMP1_STS Read Only 5 FAN2_STS Read Only 4 FAN1_STS Read Only 3 VCC_STS Read Only 2 +1.5V_STS Read Only 1 +2.5V_STS Read Only 0 VCORE_STS Read Only 7.7 Reserved Index 46h Read to return 00h. - 17 - Publication Release Date: Apr. 2006 Revision 1.1 W83L785R/W83L785G 7.8 BIT Fan Divisor Register Index 47h NAME READ/WRITE DESCRIPTION Power on default [7:0] = 0001, 0001 b 7 6-4 Reserved F2_SP_CRTL[2:0] Read/write Read/Write Reserved. FAN2 Speed Control. 000 - divide by 1; 001 - divide by 2; 010 - divide by 4; 011 - divide by 8. 100 - divide by 16. 101 - divide by 32. 110 - divide by 64. 111 - divide by 128. Reserved. FAN1 Speed Control. 000 - divide by 1; 001 - divide by 2; 010 - divide by 4; 011 - divide by 8. 100 - divide by 16. 101 - divide by 32. 110 - divide by 64. 111 - divide by 128. 3 2-0 Reserved F1_SP_CTRL[2:0] Read/write Read/Write 7.9 FANIN1/GPO1, FANIN2/GPO2, SMI#/GPO7, and OVT#/GPIO8 Control Register Index 48h NAME READ/WRITE DESCRIPTION Power on default [7:0] = 0000, 0000 b BIT 7 GPIO8_VAL Read/Write 6 EN_GPIO8 Read/Write 5 GPIO7_VAL Read/Write GPIO8 Output Value. GPIO8 output value if EN_GPIO8 is set to 1. Write 1, then pin 8 (GPIO8) always generate logic high signal. Write 0, pin 8 (GPIO8) always generates logic low signal. This bit default 0. Enable GPIO8 Function. Which enable multiple function pin 8, named OVT#/GPIO8, GPIO8 function. Set to 0 (default), pin 8 (OVT#/GPIO8) acts as OVT#. Set to 1, this pin 8 acts as GPIO8 control function and the output value of GPIO8 is programmed by this register bit 7. GPIO7 Output Value. GPIO7 output value if EN_GPIO7 is set to 1. Write 1, then pin 7 (GPIO7) always generate logic high signal. Write 0, pin 7 (GPIO7) always generates logic low signal. This bit default 0. - 18 - W83L785R/W83L785G FANIN1/GPO1, FANIN2/GPO2, SMI#/GPO7, and OVT#/GPIO8 Control Register Index 48h, continued BIT NAME READ/WRITE DESCRIPTION 4 EN_GPIO7 Read/Write 3 GPIO2_VAL Read/Write 2 EN_GPIO2 Read/Write 1 GPIO1_VAL Read/Write 0 EN_GPIO1 Read/Write Enable GPIO7 Function. Which enable multiple function pin 7, named SMI#/GPIO7, GPIO7 function. Set to 0 (default), pin 7 (SMI# /GPIO7) acts as SMI# which is fan count out of the limit value. Set to 1, this pin 7 acts as GPIO7 control function and the output value of GPIO7 is programmed by this register bit 5. GPIO2 Output Value. GPIO2 output value if EN_GPIO2 is set to 1. Write 1, then pin 2 (GPIO2) always generate logic high signal. Write 0, pin 2 (GPIO2) always generates logic low signal. This bit default 0. Enable GPIO2 Function. Which enable multiple function pin 2, named FANIN2/GPIO2, GPIO2 function. Set to 0 (default), pin 2 (FANIN2/GPIO2) acts as FANIN2 which is fan clock input. Set to 1, this pin 2 acts as GPIO2 control function and the output value of GPIO2 is programmed by this register bit 3. This output pin GPIO2 can connect to power PMOS gate to control FAN ON/OFF. GPIO1 Output Value. GPIO1 output value if EN_GPIO1 is set to 1. Write 1, then pin 1 (GPIO1) always generate logic high signal. Write 0, pin 1 (GPIO1) always generates logic low signal. This bit default 0. Enable GPIO1 Function. Which enable multiple function pin 1, named FANIN1/GPIO1, GPIO1 function. Set to 0 (default), pin 1 (FANIN1/GPIO1) acts as FANIN1 which is fan clock input. Set to 1, this pin 1 acts as GPIO1 control function and the output value of GPO1 is programmed by this register bit 1. This output pin GPIO1 can connect to power PMOS gate to control FAN ON/OFF. - 19 - Publication Release Date: Apr. 2006 Revision 1.1 W83L785R/W83L785G 7.10 TEMP_FAULT#/GPIO11, +2.5V/GPO14, +1.5V/GPO15, and VCORE/GPO16 Control Register Index 49h Power on default [7:0] = 0000, 0000 b BIT NAME READ/WRITE DESCRIPTION 7 GPIO16_VAL Read/Write 6 EN_GPIO16 Read/Write 5 GPO15_VAL Read/Write 4 EN_GPIO15 Read/Write 3 GPIO14_VAL Read/Write 2 EN_GPIO14 Read/Write 1 GPIO11_VAL Read/Write 0 EN_GPIO11 Read/Write GPIO16 Output Value. GPIO16 output value if EN_GPIO16 is set to 1. Write 1, then pin 16 (GPIO16) always generate logic high signal. Write 0, pin 16 (GPIO16) always generates logic low signal. This bit default 0. Read this register will return this pin value. Enable GPIO16 Function. Which enable multiple function pin 16, named VCORE/GPIO16, GPIO16 function. Set to 0 (default), pin 16 (VCORE /GPIO16) acts as VCORE. Set to 1, this pin 16 acts as GPIO16 control function and the output value of GPIO16 is programmed by this register bit 7. GPIO15 Output Value. GPIO15 output value if EN_GPIO15 is set to 1. Write 1, then pin 15 (GPIO15) always generate logic high signal. Write 0, pin 15 (GPIO15) always generates logic low signal. This bit default 0. Read this register will return this pin value. Enable GPIO14 Function. Which enable multiple function pin 15, named +1.5V/GPIO15, GPIO15 function. Set to 0 (default), pin 15 (FANIN2/GPO2) acts as +1.5V which is monitor voltage input. Set to 1, this pin 15 acts as GPIO15 control function and the output value of GPIO15 is programmed by this register bit 5. GPIO14 Output Value. GPIO14 output value if EN_GPIO14 is set to 1. Write 1, then pin 14 (GPIO14) always generate logic high signal. Write 0, pin 14 (GPO14) always generates logic low signal. This bit default 0. Read this register will return this pin value. Enable GPIO14 Function. Which enable multiple function pin 14, named +2.5V/GPIO14, GPIO14 function. Set to 0 (default), pin 14 (+2.5V/GPIO14) acts as +2.5V. Set to 1, this pin 1 acts as GPIO14 control function and the output value of GPIO14 is programmed by this register bit 3. GPIO11 Output Value. GPIO11 output value if EN_GPIO11 is set to 1. Write 1, then pin11 (GPIO11) always generate logic high signal. Write 0, pin 11 (GPIO11) always generates logic low signal. This bit default 0. Read this register will return this pin value. Enable GPIO11 Function. Which enable multiple function pin 11, named TEMP_FAULT#/GPIO11, GPIO11 function. Set to 0 (default), pin 11 (TEMP_FAULT# /GPIO11) acts as TEMP_FAULT#. Set to 1, this pin 11 acts as GPIO11 control function and the output value of GPIO11 is programmed by this register bit 1. - 20 - W83L785R/W83L785G 7.11 GPIO1/2, GPIO7/8, and GPIO11/14/15/16 Output Control Register Index 4Ah Power on default [7:0] = 0000, 0000 b BIT NAME READ/WRITE DESCRIPTION 7 6 5 4 3 2 1 0 EN_GP16OUT EN_GP15OUT EN_GP14OUT EN_GP11OUT EN_GP8OUT EN_GP7OUT EN_GP2OUT EN_GP1OUT Read/Write Read/Write Read/Write Read/Write Read/Write Read/Write Read/Write Read/Write Enable GPIO16 (Pin 16) output function if set to Otherwise, this pin serves as input. (Default is input) Enable GPIO15 (Pin 15) output function if set to Otherwise, this pin serves as input. (Default is input) Enable GPIO14 (Pin 14) output function if set to Otherwise, this pin serves as input. (Default is input) Enable GPIO11 (Pin 11) output function if set to Otherwise, this pin serves as input. (Default is input) Enable GPIO8 (Pin 8) output function if set to Otherwise, this pin serves as input. (Default is input) Enable GPIO7 (Pin 7) output function if set to Otherwise, this pin serves as input. (Default is input) Enable GPIO2 (Pin 2) output function if set to Otherwise, this pin serves as input. (Default is input) Enable GPIO1 (Pin 1) output function if set to Otherwise, this pin serves as input. (Default is input) 1. 1. 1. 1. 1. 1. 1. 1. 7.12 GPIO5, GPIO6, and GPIO13 Control Register Index 4Bh Power on default [7:0] = 0000, 0000 b BIT NAME READ/WRITE DESCRIPTION 6,7 5 4 Reserved EN_GP13OUT GPIO13_VAL Read/Write Read/Write Read/Write 3 2 EN_GP6OUT GPIO6_VAL Read/Write Read/Write 1 0 EN_GP5OUT GPIO5_VAL Read/Write Read/Write Reserved Enable GPIO13 (Pin 13) output function if set to 1. Otherwise, this pin serves as input. (Default is input) GPIO13 Output Value. GPIO13 output value if EN_GP13OUT is set to 1. Write 1, then pin 13 (GPIO13) always generate logic high signal. Write 0, pin 13 (GPIO13) always generates logic low signal. This bit default 0. Read will return this pin value Enable GPIO6 (Pin 6) output function if set to 1. Otherwise, this pin serves as input. (Default is input) GPIO6 Output Value. GPIO6 output value if EN_GP6OUT is set to 1. Write 1, then pin 6 (GPIO6) always generate logic high signal. Write 0, pin 6 (GPIO6) always generates logic low signal. This bit default 0. Read will return this pin value Enable GPIO5 (Pin 5) output function if set to 1. Otherwise, this pin serves as input. (Default is input) GPIO5 Output Value. GPIO5 output value if EN_GP5OUT is set to 1. Write 1, then pin 5 (GPIO5) always generate logic high signal. Write 0, pin 5 (GPIO5) always generates logic low signal. This bit default 0. Read will return this pin value Publication Release Date: Apr. 2006 Revision 1.1 - 21 - W83L785R/W83L785G 7.13 Winbond Vendor ID (Low Byte) Index 4Ch Power-on default [7:0] = 1010, 0011 b (A3h) BIT NAME READ/WRITE DESCRIPTION 7:0 VIDL[7:0] Read Only Vendor ID Low Byte. Default A3h. 7.14 Winbond Vendor ID (High Byte) Index 4Dh Power-on default [7:0] = 0101, 1100 b (5Ch) BIT NAME READ/WRITE DESCRIPTION 7:0 VIDH[7:0] Read Only Vendor ID High Byte. Default 5Ch 7.15 Chip ID Index 4Eh Power on default [7:0] = 0101, 0000 b BIT NAME READ/WRITE DESCRIPTION 7-0 CHIPID[7:0] Read Only Winbond Chip ID number. Read this register will return 60h for W83L785R. 7.16 Reserved Index 4Fh Reserved 7.17 OVT# Property Select Index 50h Power on default [7:0] = 0000, 0000 b BIT NAME READ/WRITE DESCRIPTION 7-5 4 Reserved OVT_MD Read/Write Read/Write Reserved. OVT# Mode Select. There are two OVT# signal output type. <0> - Comparator Mode: (Default) Temperature exceeding TO causes the OVT# output activated until the temperature is less than THYST. <1> - Interrupt Mode: Setting temperature exceeding TO causes the OVT# output activated indefinitely until reset reading temperature sensor 1/2 registers. Temperature exceeding TO, then OVT# reset, and then temperature going below THYST will also cause the OVT# activated indefinitely until reset by reading temperature sensor 1/2. Once the OVT# will not be activated by exceeding TO, then reset, if the temperature remains above THYST, the OVT# will not be active again. - 22 - W83L785R/W83L785G OVT# Property Select Index 50h, continued. BIT NAME READ/WRITE DESCRIPTION 3 2 Reserved EN_OVT2 Read/Write Read/Write 1 EN_OVT1 Read/Write 0 OVTPOL Read/Write Reserved Enable temperature sensor 2 over-temperature (OVT) output if set to 1. Default 0, disable OVT2 output through pin OVT#. The pin OVT# is wire OR with OVT1. Default disable temperature 2 OVT# function. Enable temperature sensor 1 over-temperature (OVT) output if set to 1. Default 0, disable OVT1 output through pin OVT#. The pin OVT# is wire OR with OVT2. Default disable temperature 1 OVT# function. Over-Temperature Polarity. Write 1, OVT# active high. Write 0, OVT# active low. Default 0. 7.18 SMI# Property Select Index 51h Power on - <7:0> --0000, 0100 b BIT NAME READ/WRITE DESCRIPTION 7-4 3-2 Reserved TEMP_SMI_MD[1:0] Read/Write Read/Write 1 0 EN_SMI# SMIPOL Read/Write Read/Write Reserved. Temperature SMI Mode Select. <00> - Comparator Interrupt Mode: Temperature 1/2 exceeds TO (Over-temperature) limit causes and interrupt and this interrupt will be reset by reading all the Interrupt Status. <01> - Two Time Interrupt Mode:(Default) This bit use in temperature sensor 1/2 interrupt mode with hysteresis and TO type. Temperature exceeding TO, causes an interrupt and then temperature going below THYST will also cause another interrupt if the previous interrupt has been reset by reading all the interrupt Status Register. Once an interrupt event has occurred by exceeding TO, then reset, if the temperature remains above the THYST. <10> - One Time Interrupt Mode: This bit use in temperature sensor 1/2 interrupt mode with hysteresis type. Temperature exceeding TO (Over-temperature) causes an interrupt and then temperature going below THYST (Hysteresis temperature) will not cause an interrupt. Once an interrupt event has occurred by exceeding TO, then going below THYST, and interrupt will not occur again until the temperature exceeding TO. Enable SMI# Output. A one enables the SMI# Interrupt output. SMI# Polarity. Write 1, SMI# active high. Write 0, SMI# active low. Default 0. - 23 - Publication Release Date: Apr. 2006 Revision 1.1 W83L785R/W83L785G 7.19 Thermal Sensor 1/2 Type Register Index 52h Power on default [7:0] = 0000, 0000 b BIT NAME READ/WRITE DESCRIPTION 7-4 3-2 Reserved T2_TYPE[1:0] Read/Write Read/Write Reserved. Temperature sensor 2 (CPU) type. 0x - Thermistor (10K @ 25 degree C, B=3435). 11 - Intel thermal diode. 1-0 T1_TYPE[1:0] Read/Write Temperature sensor 2 (environment) types. 0x - Thermistor (10K @ 25 degree C, B=3435) 11 - Intel thermal diode. 7.20 Temperature Sensor 1 Fault Limit Index 53h Power on default [7:0] = 0111, 1111 b BIT NAME READ/WRITE DESCRIPTION 7-0 TEMP1_LM Read/Write Temperature sensor 1 Limit Value. 7.21 Temperature Sensor 2 Fault Limit Index 54h Power on default [7:0] = 0111, 1111 b BIT NAME READ/WRITE DESCRIPTION 7-0 TEMP2_LM Read/Write Temperature sensor 2 Limit Value. 7.22 Reserved Index 55h ~ 7Fh Reserved - 24 - W83L785R/W83L785G 7.23 PWM 1 Pre-Scale Register Index 80h Power on default [7:0] = 0000, 0001 b BIT NAME READ/WRIT E DESCRIPTION 7 PWM_CLK_SEL1 Read/Write PWM 1 Input Clock Select. This bit select PWM 1 input clock. 0: 1 MHz 1: 125 KHz 6-0 PRE_SCALE1[6:0] Read/Write PWM 1 Input Clock Pre-Scale. The divider of input clock is the number defined by pre-scale. Thus, writing 0 transfers the input clock directly to counter. The maximum divider is 128 (7Fh). 00h : divider is bypass 01h : divider is 1 02h : divider is 2 : : PWM output frequency is (Pre-scale frequency) / 256 . 125KHz For example, if setting this register 81h, the pin FANOUT0 output frequency = 256 1 = 488 Hz 7.24 PWM 1 Duty Cycle Select Register 81h Power on default [7:0] 1111, 1111 b BIT NAME READ/WRIT E DESCRIPTION 7-0 PWM1_DC[7:0] Read/Write PWM 1 Duty Cycle. This 8-bit register determines the number of input clock cycles, out of 256-cycle period, during which the PWM output is high. 00h: PWM output is always logical Low. FFh: PWM output is always logical High. XXh: PWM output logical High (XX/256*100%) during one cycle. percentage is - 25 - Publication Release Date: Apr. 2006 Revision 1.1 W83L785R/W83L785G 7.25 PWM 2 Pre-Scale Register Index 82h Power on default [7:0] = 0000, 0001 b BIT NAME READ/WRITE DESCRIPTION 7 PWM_CLK_SEL2 Read/Write PWM 2 Input Clock Select. This bit select PWM 2 input clock. 0: 1 MHz 1: 125 KHz 6-0 PRE_SCALE2[6:0] Read/Write PWM 2 Input Clock Pre-Scale. The divider of input clock is the number defined by pre-scale. Thus, writing 0 transfers the input clock directly to counter. The maximum divider is 128 (7Fh). 00h : divider is 1 01h : divider is 2 02h : divider is 3 : : 7.26 PWM2 Duty Cycle Select Register Index 83h Power on default [7:0] = 1111, 1111 b BIT NAME READ/WRITE DESCRIPTION 7-0 PWM2_DC[7:0] Read/Write PWM 2 Duty Cycle. This 8-bit register determines the number of input clock cycles, out of 256-cycle period, during which the PWM output is high. 00h: PWM output is always logical Low. FFh: PWM output is always logical High. XXh: PWM output logical High XX/256*100% during one cycle. percentage is 7.27 Reserved Register Index 84h Power on default [7:0] = 0000, 0000 b - 26 - W83L785R/W83L785G 7.28 Temperature Sensor 1 (for Environment) Offset Register Index 85h Power-on default [7:0] = 0000, 0000 b BIT NAME READ/WRITE DESCRIPTION 7-0 OFFSET1[7:0] Read/Write Temperature 1 base temperature. The temperature is added by both monitor value and offset value. 0111,1111 => +127 degree C 0111,1110 => +126 degree C : 0000,0001 => +1 degree C 0000,0000 => +0 degree C 1111,1111 => -1 degree C 1111,1110 => -2 degree C : 1000,0000 => -128 degree 7.29 Temperature Sensor 2 (for CPU) Offset Register Index 86h Power-on default [7:0] = 0000, 0000 b BIT NAME READ/WRITE DESCRIPTION 7-0 OFFSET2[7:0] Read/Write Temperature 2 base temperature. The temperature is added by both monitor value and offset value. 0111,1111 => +127 degree C 0111,1110 => +126 degree C : 0000,0001 => +1 degree C 0000,0000 => +0 degree C 1111,1111 => -1 degree C 1111,1110 => -2 degree C : 1000,0000 => -128 degree - 27 - Publication Release Date: Apr. 2006 Revision 1.1 W83L785R/W83L785G 8. VALUE RAM AND LIMIT VALUE 8.1 Value RAM Index 20h- 3Fh or 60h - 7Fh INDEX A7-A0 DESCRIPTION 20h 21h 22h 23h 24h 25h 26h 27h 28h 29h 2Ah 2Bh 2Ch 2Dh 2Eh 2Fh 30h 31h 32h 33h 34h 35h 36h 37h 38h 39h 3Ah 3Bh 3Ch 3Dh 3E- 3Fh VCORE reading +2.5V reading +1.5V reading VCC reading (internal divisor 3) Reserved Reserved Temperature 2 reading Temperature 1 reading FAN1 reading Note: This location stores the number of counts of the internal clock per revolution. FAN2 reading Note: This location stores the number of counts of the internal clock per revolution. Reserved VCORE High Limit. (0xff) VCORE Low Limit. (0x00) +2.5V High Limit. (0xff) +2.5V Low Limit. (0x00) +1.5V High Limit. (0xff) +1.5V Low Limit. (0x00) VCC High Limit. (0xff) VCC Low Limit. (0x00) Reserved Reserved Reserved Reserved Over Temperature 2 Limit (High). (0x50) Temperature 2 Hysteresis Limit (Low). (0x4b) Over Temperature 1 Limit (High). (0x50) Temperature 1 Hysteresis Limit (Low). (0x4b) FAN1 Fan Count Limit. (0xff) Note: It is the number of counts of the internal clock for the Low Limit of the fan speed. FAN2 Fan Count Limit. (0xff) Note: It is the number of counts of the internal clock for the Low Limit of the fan speed. Reserved Reserved - 28 - W83L785R/W83L785G 9. SPECIFICATIONS 9.1 Absolute Maximum Ratings PARAMETER RATING UNIT Power Supply Voltage Input Voltage Operating Temperature Storage Temperature -0.5 to 7.0 -0.5 to VCC+0.5 0 to +70 -55 to +150 V V C C 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 PARAMETER SYM. MIN. TYP. MAX. UNIT CONDITIONS (Ta = 0 C to 70 C, VDD = 5V 10%, VSS = 0V) I/O12t - TTL level bi-directional pin with source-sink capability of 12 mA Input Low Voltage Input High Voltage Output Low Voltage Output High Voltage Input High Leakage Input Low Leakage VIL VIH VOL VOH ILIH ILIL 2.4 +10 -10 2.0 0.4 0.8 V V V V A A IOL = 12 mA IOH = - 12 mA VIN = VDD VIN = 0V I/O12ts - TTL level bi-directional pin with source-sink capability of 12 mA and schmitt-trigger level input Input Low Threshold Voltage Input High Threshold Voltage Hysteresis Output Low Voltage Output High Voltage Input High Leakage Input Low Leakage VtVt+ VTH VOL VOH ILIH ILIL 2.4 +10 -10 0.5 1.6 0.5 0.8 2.0 1.2 0.4 1.1 2.4 V V V V V A A V V 0.4 V VDD = 5 V VDD = 5 V VDD = 5 V IOL = 12 mA IOH = - 12 mA VIN = VDD VIN = 0V OUT12t - TTL level output pin with source-sink capability of 12 mA Output Low Voltage Output High Voltage Output Low Voltage VOL VOH VOL 2.4 0.4 IOL = 12 mA IOH = -12 mA IOL = 8 mA OD8 - Open-drain output pin with sink capability of 8 mA - 29 - Publication Release Date: Apr. 2006 Revision 1.1 W83L785R/W83L785G DC Characteristics, continued PARAMETER SYM MIN. TYP. MAX. UNIT CONDITIONS OD12 - Open-drain output pin with sink capability of 12 mA Output Low Voltage VOL OD48 - Open-drain output pin with sink capability of 48 mA Output Low Voltage VOL INt - TTL level input pin Input Low Voltage VIL Input High Voltage VIH 2.0 Input High Leakage ILIH Input Low Leakage ILIL 0.8 2.0 1.2 INts - TTL level Schmitt-triggered input pin Input Low Threshold Voltage Vt0.5 Input High Threshold Voltage Vt+ 1.6 Hysteresis VTH 0.5 Input High Leakage ILIH Input Low Leakage ILIL 0.4 0.4 0.8 +10 -10 1.1 2.4 +10 -10 V V V V A A V V V A A IOL = 12 mA IOL = 48 mA VIN = VDD VIN = 0 V VCC = 5 V VCC = 5 V VCC = 5 V VIN = VCC VIN = 0 V 9.3 AC Characteristics t SCL SCL t HD;SDA t HD;DAT t SU;STO SDA IN VALID DATA t SU;DAT SDA OUT Serial Bus Timing Diagram Serial Bus Timing PARAMETER SYMBOL MIN. MAX. UNIT SCL clock period Start condition hold time Stop condition setup-up time DATA to SCL setup time DATA to SCL hold time SCL and SDA rise time SCL and SDA fall time t SCL tHD;SDA tSU;STO tSU;DAT tHD;DAT tR tF - 10 4.7 4.7 120 5 1.0 300 uS uS uS nS nS uS nS - 30 - W83L785R/W83L785G 10. HOW TO READ THE TOP MARKING The top marking of W83L785R W83L785R 2826978Y 046OA Left: Winbond logo 1st line: Type number W83L785R, R means SSOP (Thickness = 209mil). 2nd line: Tracking code 2 826978Y 2: wafers manufactured in Winbond FAB 2 826978Y: wafer production series lot number 3rd line: Tracking code 046 A A 046: packages made in 2000, week 46 O: assembly house ID; A means ASE, O means OSE, G means Greatek A: IC revision; A means version A, B means version B The top marking of W83L785R W83L785G 2826978Y 046OA Left: Winbond logo 1st line: Type number W83L785G, G means Lead-free package. 2nd line: Tracking code 2 826978Y 2: wafers manufactured in Winbond FAB 2 826978Y: wafer production series lot number 3rd line: Tracking code 046 A A 046: packages made in 2000, week 46 O: assembly house ID; A means ASE, O means OSE, G means Greatek A: IC revision; A means version A, B means version B - 31 - Publication Release Date: Apr. 2006 Revision 1.1 W83L785R/W83L785G 11. PACKAGE DRAWING AND DIMENSIONS 20 SSOP-209 mil D 2 11 SYMBOL DIMENSION IN MM MIN. NOM MAX. DIMENSION IN INCH MIN. NOM MAX. DTEAIL A HE E A A1 A2 b c D E HE 2.00 0.05 1.65 0.22 0.09 6.90 5.00 7.40 0.55 1.75 1.85 0.38 0.25 7.50 5.60 8.20 0.95 0.10 8 0.002 0.065 0.009 0.004 0.272 0.197 0.291 0.021 0.283 0.209 0.307 0.0256 0.030 0.050 0.069 0.079 0.073 0.015 0.010 0.295 0.220 0.323 0.037 0.004 0 8 7.20 5.30 7.80 0.65 0.75 1.25 1 10 e L L1 Y A2 A SEATING PLANE Y SEATING PLANE 0 e b DETAIL A A1 L L1 - 32 - W83L785R/W83L785G 12. W83L785R SCHEMATICS Rev. 0.1:W83L785R 0.2:R29 30K application to 15K 1K change circuit. 4.7K VCC VCC=3.3V VCC change 0.3:R44,R45,R46 to VOLTAGE C1 10u/16V C2 0.1u V1 R16 10K V2 R17 SENSORING R CIRCUIT CPU_VCORE (max 2.048V) 10K 1.5V R1 4.7K R2 4.7K U1 FANIN1 FANIN2 PWMOUT1 PWMOUT2 1 2 3 4 5 6 7 8 9 10 FANIN1/GPIO1 VCC FANIN2/GPIO2 VTIN1 PWMOUT1 VTIN2 PWMOUT2 VREF GPIO5 VCORE/GPIO16 GPIO6 +1.5V/GPIO15 SMI#/GPIO7 +2.5V/GPIO14 OVT#/GPIO8 GPIO13 SCL GND SDA TEMP_FAULT#/GPO11 W83785R 20 19 18 17 16 15 14 13 12 11 VTIN1 VTIN2 VREF V1 V2 V3 GP13 VCC V3 R11 10K R18 100k 2.5V R19 100k To chipset } GPIO5 GPIO6 EXTSMI# THRM# R13 4.7K SMI# OVT# SCL SDA R14 4.7K TEMP_FAULT# VCC VCC R38 4.7k SDA VREF R29 15K 1% R44 4.7K R45 4.7K R46 4.7K From PII/PIII CPU R C4 CAP 3300p VTIN1 SCL R41 0 R40 0 R39 4.7k VCC TEMPERATURE SENSORING CIRCUIT SMDAT SMCLK { PIID+ PIID- GP5 GP6 VREF GP13 R34 10K 1% R RT1 T VTIN2 10K 1% THERMISTOR NOTE: ALL GPIO PIN Must add pull-up resistor PWM1 Circuit VCC for FAN1 speed R20 4.7K 1K Control Fan5VCC FOR 5V FAN PWM1 Circuit VCC for FAN1 speed R20 4.7K 1K Control +12V FOR 12V FAN R21 4.7K R22 Q1 3906 JP1 3 2 1 D1 1N4148 R24 4.7K R27 2K R21 4.7K R22 Q1 3906 JP1 3 2 1 D1 1N4148 R24 4.7K R27 27K PWMOUT1 PWMOUT1 is open-drain default. R26 100 Q2 MOSFET N 47u C3 + Signal Power GND FANIN1 R28 10K PWMOUT1 PWMOUT1 is open-drain default. R26 100 Q2 MOSFET N 47u C3 + Signal Power GND FANIN1 R28 10K HEADER 3 HEADER 3 W83784R has SMARTFAN function W83784R has SMARTFAN function PWM2 Circuit VCC for FAN2 speed R30 R32 4.7K 1K Control Fan5VCC FOR 5V FAN PWM2 Circuit VCC for FAN2 speed R30 R32 4.7K 1K Control +12V FOR 12V FAN R31 4.7K Q3 3906 JP2 3 2 1 D2 1N4148 R33 4.7K R36 2K R31 4.7K Q3 3906 JP2 3 2 1 D2 1N4148 R33 4.7K R36 27K PWMOUT2 R35 100 Q4 MOSFET N C5 47u + Signal Power GND FANIN2 R37 10K PWMOUT2 R35 100 Q4 MOSFET N C5 47u + Signal Power GND FANIN2 R37 10K PWMOUT2 is open-drain default. W83784R has SMARTFAN function HEADER 3 PWMOUT2 is open-drain default. W83784R has SMARTFAN function HEADER 3 WINBOND ELECTRONICS CORP. Title W83L785R Application Circuit Size Document Number Custom 785.SCH Date: Monday, July 02, 2001 Sheet 1 of 1 Rev 0.3 - 33 - Publication Release Date: Apr. 2006 Revision 1.1 W83L785R/W83L785G 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. 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. Winbond customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Winbond for any damages resulting from such improper use or sale. Important Notice Winbond products are not designed, intended, authorized or warranted for use as components in systems or equipment intended for surgical implantation, atomic energy control instruments, airplane or spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments, or for other applications intended to support or sustain life. Further more, Winbond products are not intended for applications wherein failure of Winbond products could result or lead to a situation wherein personal injury, death or severe property or environmental damage could occur. Winbond customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Winbond for any damages resulting from such improper use or sales. Headquarters No. 4, Creation Rd. III, Science-Based Industrial Park, Hsinchu, Taiwan TEL: 886-3-5770066 FAX: 886-3-5665577 http://www.winbond.com.tw/ Winbond Electronics Corporation America 2727 North First Street, San Jose, CA 95134, U.S.A. TEL: 1-408-9436666 FAX: 1-408-5441798 Winbond Electronics (Shanghai) Ltd. 27F, 2299 Yan An W. Rd. Shanghai, 200336 China TEL: 86-21-62365999 FAX: 86-21-62365998 Taipei Office 9F, No.480, Rueiguang Rd., Neihu District, Taipei, 114, Taiwan, R.O.C. TEL: 886-2-8177-7168 FAX: 886-2-8751-3579 Winbond Electronics Corporation Japan 7F Daini-ueno BLDG, 3-7-18 Shinyokohama Kohoku-ku, Yokohama, 222-0033 TEL: 81-45-4781881 FAX: 81-45-4781800 Winbond Electronics (H.K.) Ltd. Unit 9-15, 22F, Millennium City, No. 378 Kwun Tong Rd., Kowloon, Hong Kong TEL: 852-27513100 FAX: 852-27552064 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. - 34 - |
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