9-908; Rev 0; 7/0 MAX665 Evaluation System/Evaluation Kit General Description The MAX665 evaluation system (EV system) consists of a MAX665 evaluation kit (EV kit) and a companion Maxim system management bus (SMBus) interface board. The MAX665 EV kit is an assembled and tested PC board that demonstrates the MAX665 local/remote temperature sensor and fan-speed regulator. It monitors the junction temperature of an internal and external diode-connected transistor, and converts the temperature to -bit, -wire serial data. A N906 temperaturesensor transistor comes soldered to the board in a SOT package, but it can be removed. The board can then be connected through a twisted pair to a remote diode close to your system. The MAX665 also incorporates a closed-loop fan controller that regulates fan speed with either an analog or digital tachometer feedback. Note: Use this EV kit data sheet in conjunction with the MAX665/MAX666/ MAX6664 data sheet. The EV kit also includes Windows 98/000/XP-compatible software, which provides a professional user interface for exercising the MAX665's features. The program is menu driven and offers a graphical user interface (GUI) complete with control buttons and a status display. The Maxim SMBus interface board (MAXSMBUS) allows an IBM-compatible PC to use its parallel port to emulate an SMBus -wire interface. Order the MAX665EVSYS for a complete IBM PC-based evaluation of the MAX665. Order the MAX665EVKIT if you already have an SMBus interface. DESIGNATION QTY DESCRIPTION C, C C C4.0µF ±0%, 0V X5R ceramic capacitors (060) TDK C608X5RA05M 0.0µF ±0%, 5V X7R ceramic capacitor (040) TDK C005X7RE0M 00pF ±0%, 50V X7R ceramic capacitor (040) TDK C005X7RHM J x 0 right-angle female receptacle J -pin header Windows is a registered trademark of Microsoft Corp. Features Measures and Displays Local and Remote Sensor Temperatures Controls Fan Speed Programmable Alarms and Configuration On-Board Signal Monitor Operating Temperature Ranges -40 C to +5 C (Remote Sensor) 0 C to +70 C (Board) SMBus/IC-Compatible -Wire Serial Interface Easy-to-Use Menu-Driven Software Completely Assembled and Tested Includes Windows 98/000/XP-Compatible Software and Demo PC Board Also Evaluates MAX666/MAX6664 PART Ordering Information TEMP RANGE IC PACKAGE SMBus INTERFACE TYPE MAX665EVKIT 0 C to +70 C 6 QSOP Not included MAX665EVSYS 0 C to +70 C 6 QSOP MAXSMBUS Note: To evaluate the MAX666/MAX6664, request a MAX666AEE/ MAX6664AEE free sample with the MAX665EVKIT. Note: The MAX665 EV kit software is provided with the MAX665EVKIT; however, the MAXSMBUS board is required to interface the EV kit to the computer when using the included software. Component List DESIGNATION QTY DESCRIPTION JU, JU, JU8 0 Not installed JU, JU7 Jumpers, -pin headers JU4, JU5, JU6, JU9 N Q 4 Jumpers, -pin headers N-channel.7A, 0V MOSFET (SOT) Fairchild FDN59AN PNP bipolar transistor (SOT) Central Semiconductor CMPT906 Diodes Inc. MMBT906 Fairchild MMBT 906 Maxim Integrated Products For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at -888-69-464, or visit Maxim s website at www.maxim-ic.com.
Component List (continued) DESIGNATION QTY DESCRIPTION R R8 8 0kΩ ±5% resistors (060) R9 Ω ±5%, /W resistor (00) Vishay-Dale CRCW-00-R0-J IRC WCR00-R0-J R0 kω ±5% resistor (060) S Slide switch U Maxim MAX665AEE (6-pin QSOP) U Maxim MAX609EEE (6-pin QSOP) None 6 Shunts None MAX665 PC board None Software disk (CD ROM) MAX665 evaluation kit Quick Start Recommended Equipment Computer running Windows 98, 000, or XP Parallel printer port (This is a 5-pin socket on the back of the computer.) Standard 5-pin, straight-through, male-to-female cable (printer extension cable) to connect the computer's parallel port to the Maxim SMBus interface board V/00mA DC power supply 5V/50mA DC power supply 500mA DC power supply rated at 5V or V, depending on the fan 5V or V fan rated up to 50mA (with optional digital tachometer output) Procedure The MAX665 EV kit is fully assembled and tested. Follow the steps below to verify board operation. Do not turn on the power supplies until all connections are completed: ) Carefully connect the boards by aligning the 0-pin connector of the MAX665 EV kit with the 0-pin header of the MAXSMBUS interface board. Gently press them together. ) Make sure switch S is in the OFF position. ) Ensure that a shunt is on pins - of jumpers JU6 and JU9. 4) Ensure that shunts are not installed on jumpers JU, JU4, JU5, and JU7. 5) Connect a fan to either J or the FAN+, FAN-, and TACH/AIN pads. Note: If a fan without a digital tachometer is being used, install a shunt on jumper JU and remove resistor R0. 6) Connect a cable from the computer's parallel port to the SMBus interface board. Use a straightthrough, 5-pin, female-to-male cable. 7) Use the INSTALL.EXE program on the provided CD ROM to copy the files and create icons in the Windows 98/000/XP Start menu. Do not turn on the power until all connections are made. 8) Connect the V/00mA DC power supply to the pads labeled POS9 and GND of the SMBus interface board. 9) Connect the 5V/50mA DC power supply to the and GND pads on the MAX665 EV kit board. 0) Connect the fan power supply to the VFAN and GND pads. ) Turn on the power supplies. ) Turn on the EV kit by moving S to the ON position. ) Start the MAX665 program by opening its icon in the Start menu. 4) Observe as the program automatically detects the address of the MAX665 and starts the main program. Note: The MAX665 reads the address select pin at device power-up only. Detailed Description of Software User-Interface Panel The user interface (shown in Figure ) is easy to operate. Use the mouse, or press the Tab key to navigate with the arrow keys. Each of the buttons corresponds to bits in the command and configuration bytes. By clicking on them, the correct SMBus write operation is generated to update the internal registers of the MAX665. The Interface box indicates the current Device Type, Device Address, Register Address, and the Data Sent/Received, for the last read/write operation. This data is used to confirm proper device operation. Device and manufacturer ID numbers are also shown. The MAX665 EV kit software splits and groups the functions of the MAX665 into three separate categories: Temperature, Fan Control, and Configuration/ Status. These functions can be accessed by selecting the appropriate tab at the top left of the MAX665 EV kit software main window. The device status registers (refer to the MAX665/ MAX666/MAX6664 data sheet for status register information) are displayed in the Device Status panel at the
Figure. MAX665 EV Kit Software Main Window (Fan Control Panel) lower right of the main window. Click the Read Status button to force a status register read, or check the Automatic Read checkbox to automatically read the status registers every 50ms. To enable/disable the sleep mode of the MAX665, check/uncheck the Enable Sleep Mode checkbox. Note: Words in boldface are user-selectable features in the software. register. Temperature offset can be read by clicking the Read Offset button. Enter a number in the offset edit box or move the slider to write to the offset register. Temperature conversion rate is controlled by the Local and Remote Temperature Conversion Rate dropdown box. Temperature interrupt enables are controlled by the Enable Local Temp Interrupt and Enable Remote Temp Interrupt checkboxes. Temperature Controls The MAX665 EV kit software (Figure ) allows the user to read the temperature (Read Temp), temperature limits (Read High Limit and Read Low Limit), and THERM/shutdown critical limits (Read THERM and Read SHDN). Alternatively, a number can be entered in the corresponding edit boxes to write to the appropriate Fan Controls (Temperature) Automatic Mode Selecting the Fan Control tab (Figure a) of the MAX665 EV kit software allows the user to adjust all fan-related registers. Clicking the appropriate radio button in the Control Mode Selection panel can change the fan operating mode. Fan functions such as Spin-Up
Figure a. MAX665 EV Kit Software Main Window (Fan Control Panel) Time, Fan Filter ramp rate, PWM Output Frequency, and Minimum Fan Fail Speed can be adjusted by choosing the desired option from the respective dropdown box in the Fan Characteristics panel. When in this mode, the fan-fail speed is set by adjusting the slider on the Fan control tab. Enable the Spin-Up Time and Fan Filter ramp rate by checking the corresponding Enable checkbox. Adjust the local and remote T MIN values by entering a number in their respective edit box or move the sliders until the desired value is reached. Adjust the local and remote T RANGE values by moving their respective sliders. All of these values can be read back from the device by clicking the appropriate Read button. Fan Controls (Fan) Manual Modes If either the Manual (RPM Control) or Manual (PWM Control) is selected in the Control Mode Selection panel, the Fan Control tab is displayed (see Figure b). Depending on the mode of operation, the slider on the left-hand side either sets the Target Fan Speed (RPM control mode only) or the Fan Fail Speed (all other modes). To adjust the Target/Fan Fail Speed, move the Fan Fail Speed (RPM) slider or enter a number in the edit box below the slider. To adjust the PWM value, move the PWM slider or enter a number in the edit box below the slider (refer to the MAX665/MAX666/ MAX6664 data sheet for more details). Both values can be read back by pressing the corresponding Read button. 4
Figure b. MAX665 EV Kit Software Main Window (Fan Control Panel) Configuration Controls Selecting the Configuration/Status tab (Figure ) of the MAX665 EV kit software allows the user to adjust configuration features of the MAX665. The fan tachometer type can be set by selecting TACH = Analog Input or TACH = Digital Input in the Fan Configuration panel. The MAX665 tachometer input is enabled by checking the Enable TACH Input checkbox. The PWM output is enabled by checking the Enable PWM Output checkbox. The PWM output is inverted by checking the Invert PWM Output checkbox. The interrupt output of the MAX665 can be enabled or masked by checking the Enable INT Output or the Mask INT checkbox, respectively. Enable the FAN FAULT output by checking the Enable FAN_FAULT Output checkbox. Enable the SMBus timeout function by checking the Enable SMB Timeout checkbox. Enable the THERM to full-speed function by checking the Enable THERM to Full Speed checkbox (refer to the description of register 0xF/bit 7 in the MAX665/ MAX666/MAX6664 data sheet for more details). For a detailed description of these functions, refer to the MAX665/MAX666/MAX6664 data sheet. Status Bar At the bottom of the MAX665 EV kit software main window is a status bar that displays vital EV kit information. Figure 4 outlines the information that is displayed on the status bar. The status bar is updated every 50ms. Simple SMBus Commands There are two methods for communicating with the MAX665: Through the normal user-interface panel or 5
Figure. MAX665 EV Kit Software Main Window (Configuration/Status) through the SMBus commands available by selecting the -Wire Interface Diagnostic item from the Options pulldown menu. A display pops up that allows the SMBus protocols, such as Read Byte and Write Byte, to be executed. The SMBus dialog boxes accept numeric data in binary, decimal, or hexadecimal. Hexadecimal numbers should be prefixed by $ or 0x. Binary numbers must be exactly eight digits. See Figure 5 for an example of this tool. In this example, the software is reading data (0x00) from Device Address 0x5D, Register Address 0x08. The sequence in Figure 5 reads the fan-speed register of the MAX665. Note: In places where the slave address asks for an 8- bit value, it must be the 7-bit slave address of the MAX665 as determined by ADD with the last bit set to for a read operation or a zero for a write. Refer to the MAX665/MAX666/MAX6664 data sheet for a complete list of registers and functions. Detailed Description of Hardware The MAX665 EV kit is an assembled and tested PC board that demonstrates the MAX665 local/remote temperature sensor and fan-speed regulator. It monitors the junction temperature of a local and external diode-connected transistor, and converts the temperature to -bit, -wire serial data. A N906 temperature-sensor transistor comes soldered to the board in a SOT package, but it can be removed to enable using an off-board temperature sensor (see the Using an Off-Board Remote Sensor section). 6
To ease evaluation, a MAX609 is used to monitor selected signals of the MAX665 (see the MAX609 Signal Monitor section). Address Selection Jumper JU6 sets the MAX665 slave address. The default address is 00 0Y (ADD = ). See Table for a complete list of addresses. The MAX665 must undergo a power-on reset for the new address to become effective. Note: The first 7 bits shown are the address. Y (bit 0) is the SMBus read/write bit. This bit is a for a read operation or a zero for a write. Default Critical Limits Jumpers JU4 and JU5 control the default critical limits of the MAX665. These critical limits are directly linked to the local/remote THERM and shutdown settings of the MAX665 (refer to the MAX665/MAX666/ MAX6664 data sheet for more details). See Table for critical limit shunt positions. Manual THERM Control Jumper JU7 controls the manual THERM pulldown function of the MAX665 EV kit. Removing the shunt from JU7 allows the THERM function to be controlled by an external signal source connected to the THERM pad. See Table for shutdown shunt positions. FAN SPEED REMOTE TEMPERATURE LOCAL TEMPERATURE THERM STATUS T = HIGH t = LOW FAN FAULT STATUS F = HIGH f = LOW SDR STATUS R = HIGH r = LOW X = NOT MONITORED (MAX666/MAX6664) SDL STATUS L = HIGH l = LOW X = NOT MONITORED (MAX666/MAX6664) SMBus STATUS Figure 4. SMBus Status, Selected MAX665 Signal Pins. See the MAX609 Signal Monitor Section; Local/Remote Temperature and Fan-Speed Information Are Displayed on the Status Bar. Table. Shunts Settings for SMBus Address (JU6) SHUNT POSITION MAX665 MAX665 ADDRESS ADDRESS PIN BINARY HEXADECIMAL -* 00 0Y 0x5A - GND 00 00Y 0x58 Not installed No connect 00 0Y 0x5C *Default configuration: JU6 (-). Using an Off-Board Remote Sensor The MAX665 EV kit is capable of using an off-board remote temperature sensor. To use this feature, cut the trace at JU8 and install the remote sensor to the DXP and DXN pads. Using a Fan with a Tachometer Output To use a fan with a tachometer output, remove the shunt from JU and connect the tachometer output of the fan to the TACH/AIN pad. Alternatively, the tachometer output can be connected to pin of jack J (see the Fan Connector section). See Table 4 for digital tachometer shunt positions. 7
Figure 5. Simple SMBusReadByte Operation Using the Included -Wire Interface Diagnostics Table. THERM/Shutdown Default Critical Limits (JU4, JU5) SHUNT POSITION DEFAULT THERM LIMIT ( o C) DEFAULT SHUTDOWN LIMIT ( o C) JU4 JU5 LOCAL (0x6) REMOTE (0xA) LOCAL (0xB) REMOTE (0xC) - OPEN 55 85 80 0 - - 60 90 85 5 - - 65 95 90 0 OPEN* OPEN* 70 00 95 5 OPEN - 75 05 95 5 OPEN - 80 0 95 5 - OPEN 85 5 95 5 - - 90 0 95 5 - - 95 5 95 5 *Default configuration: JU4 (OPEN), JU5 (OPEN). 8
Table. Manual THERM Control (JU7) SHUNT POSITION Installed Not installed* THERM pulled low *Default configuration: JU7 (not installed). DESCRIPTION THERM pulled high or controlled with an external signal source MAX609 Signal Monitor An on-board MAX609 continuously monitors the SDR, SDL, FAN FAULT, and THERM signals of the MAX665. To ensure that this device is always active, use switch S to enable/disable power to the MAX665. Fan Connector A fan may be connected to jack J. See Table 5 for connector pinout information. Evaluating the MAX666/MAX6664 To evaluate the MAX666/MAX6664, remove the MAX665 IC (U) and replace it with a MAX666AEE/ MAX6664AEE. Cut the trace between jumpers JU and JU and remove the shunts from JU4 and JU5. After loading up the MAX665 EV kit software, change the Device Type to MAX666 or MAX6664. When using the MAX666/ MAX6664, the SDR and SDL lines are not monitored and the default THERM and shutdown Table 4. Tachometer Input Settings (JU) SHUNT POSITION Installed Not installed* *Default configuration: JU (not installed). DESCRIPTION Fan does not have a tachometer output. (Remove resistor R0.) Fan has a tachometer output. Table 5. Fan Connector Pinout (J) PIN SIGNAL FAN+ Tachometer input FAN- critical limit values cannot be changed through jumpers JU4 and JU5. Refer to the MAX665/MAX666/ MAX6664 data sheet for a complete description of partto-part differences. Using a High-Current Fan The MAX665 EV kit is capable of driving a high-current fan (greater than 0.5A) with minimal modifications. Replacing resistor R9 with a 0Ω resistor allows up to.0a fans to be used. Component Suppliers SUPPLIER PHONE FAX WEBSITE Central Semiconductor 6-45-0 6-45-84 www.centralsemi.com Diodes Inc. 805-446-4800 805-446-4850 www.diodes.com Fairchild 888-5-57 N/A www.fairchildsemi.com IRC 6-99-7900 6-99-77 www.icrtt.com TDK 847-80-600 847-90-4405 www.component.tdk.com Vishay-Dale 40-564- 40-56-696 www.vishay.com Note: Please indicate that you are using the MAX665 when contacting these component suppliers 9
MAX665 Evaluation System/Evaluation Kit 0 JU6 J-0 J-8 J-6 J-4 J- J-0 J-8 J-6 J-4 J- J-9 J-7 J-5 J- J- J-9 J- J- J-5 J-7 INT SCL SDA VFAN FAN+ FAN- N R9 Ω C 0.0µF FAN+ FAN- J R0 kω R5 0kΩ JU4 JU5 JU6 JU9 INT R6 0kΩ C4 00pF Q DXN JU8 CUT HERE DXP C.0µF 9 JU CUT HERE JU CUT HERE 8 7 6 5 SCL SDA SDR SDL FANFAULT THERM 4 0 9 4 GND ADD CRT0 CRT INT DXN SMBDATA SMBCLK THERM FAN_FAULT SDL SDR PWM_OUT TACH/AIN DXP J S GND C.0µF 6 V+ IO0 IO IO IO IO4 IO5 IO6 IO7 GND 4 7 8 9 6 5 SMBCLK SMBDATA ADD0 ADD 0 4 5 SCL SDA INT MAX609 U MAX665 U SMBSUS ALERT JU TACH/AIN 5 R7 0kΩ R8 0kΩ R 0kΩ R 0kΩ R 0kΩ R4 0kΩ JU7 Figure 6. MAX665 EV Kit Schematic
Figure 7. MAX665 EV Kit Component Placement Guide Component Side Figure 8. MAX665 EV Kit PC Board Layout Component Side Figure 9. MAX665 EV Kit PC Board Layout Solder Side Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time. Maxim Integrated Products, 0 San Gabriel Drive, Sunnyvale, CA 94086 408-77-7600 00 Maxim Integrated Products Printed USA is a registered trademark of Maxim Integrated Products.