MAX6501, MAX6502 Ultra Small Temperature Switch with Pin-Selectable Hysteresis The MAX6501 and MAX6502 are SOT-23 temperature switches that require no external components and the design is facilitated with factory- programmed temperature thresholds. A choice of factory-trimmed temperature trip points are available. Pin selectable hysteresis of +2C or +10C allows flexibility to the design. These parts typically consume only 17 A of current and operate over the entire -55C to +125C temperature range while offering accuracies of 0.5C (typ) and 4C (max). The MAX6501 has an open drain, active low output, meant for microprocessor reset control. The MAX6502 has a CMOS, active high output designed to drive a logic level MOSFET to turn on a fan or heater element. The MAX6501/6502 are aimed for hot-temperature monitoring (+45C to +115C). These devices assert a logic signal when the temperature goes above the threshold. The MAX6501 and MAX6502 are offered in five standard temperature thresholds. Available in 5-Pin SOT-23A packages, these parts are ideal for applications requiring high integration, small size, low power and low installed cost. http://onsemi.com 5 4 1 2 SOT-23A CASE 1212 3 PIN CONNECTIONS GND 1 GND 2 HYST 3 MAX6501 MAX6502 5 TOVER (TOVER)* 4 VCC *For MAX6502 Note: 5-Pin SOT-23A is equivalent to EIAJ SC-74A Features * 5-Pin SOT-23A * Factory-Programmed Thresholds from +45C to +115C in 10C * * * * Increments Pin-Selectable +2C or +10C Hysteresis 0.5C (Typ) Threshold Accuracy Over Full Temperature Range No External Components Required 17 A Supply Current ORDERING INFORMATION See detailed ordering and shipping information in the package dimensions section on page 9 of this data sheet. DEVICE MARKING INFORMATION See general marking information in the device marking section on page 9 of this data sheet. Typical Applications * * * * * * * Thermal Management in PCs and Servers Over Temperature Fail Safe Circuits Simple Fan Controller Temperature Alarms Projectors/Printers Notebook Computers Network Boxes Semiconductor Components Industries, LLC, 2003 February, 2003 - Rev. 2 1 Publication Order Number: MAX6501/D MAX6501, MAX6502 MAXIMUM RATINGS* Rating Symbol Value Unit VCC -0.3 to +7.0 V TOVER (MAX6501) - -0.3 to +7.0 V TOVER (MAX6502) - -0.3 to (VCC +0.3) V All Other Pins - -0.3 to (VCC +0.3) V Input Current (All Pins) - 20 mA Output Current (All Pins) - 20 mA - -55 to +125 C Tstg -65 to +165 C Lead Temperature (Soldering, 10 seconds) - +300 C Power Dissipation (TA = +70C) (Derate 7.1 mW/C Above +70C) - 571 mW Supply Voltage Operating Temperature Range Storage Temperature Range *Static-sensitive device. Unused devices must be stored in conductive material. Protect devices from static discharge and static fields. Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings only and functional operation of the device at these or any other conditions above those indicated in the operational sections of the specifications is not implied. Exposure to Absolute Maximum Rating Conditions for extended periods may affect device reliability. ELECTRICAL CHARACTERISTICS VCC = +2.7 V to +5.5 V, RPULL- UP = 100 K (MAX6501 only), CCOUPLING = 100 pF from VCC to GND, TA = TMIN to TMAX, unless otherwise noted. Typical values are at TA = +25C. Characteristics Supply Voltage Range Test Conditions Symbol Min Typ Max Unit - VCC 2.7 - 5.5 V - ICC - 17 40 A Temperature Threshold Accuracy (Note 1) +45C to +65C +75C to +115C TTH -4.0 -6.0 0.5 0.5 4.0 6.0 C Temperature Threshold Hysteresis HYST = GND HYST = VCC THYST - 2.0 10 - C HYST Input Threshold - VIH 0.8 x VCC - - V HYST Input Threshold - VIL - - 0.2 x VCC V ISOURCE = 500 A, VCC 2.7 V (MAX6502 Only) ISOURCE = 800 A, VCC 4.5 V (MAX6502 Only) VOH 0.8 x VCC - - V VCC -1.5 - - Output Voltage Low ISINK = 1.2 mA, VCC 2.7 V ISINK = 3.2 mA, VCC 4.5 V VOL - - 0.3 0.4 V Open-Drain Output Leakage Current VCC = 2.7 V, VTOVER = 5.5 V (MAX6501 Only) - - 10 - nA Supply Current Output Voltage High 1. The MAX6501 and MAX6502 are available with internal, factory-programmed temperature trip thresholds from +45C to +115C in +10C increments. http://onsemi.com 2 MAX6501, MAX6502 PIN DESCRIPTION MAX6501 MAX6502 Name Description 1,2 1,2 GND Ground. Ground both pins together close to the chip. Pin 2 provides the lowest thermal resistance to the die. 3 3 HYST Hysteresis Input. Connect HYST to GND for +2C hysteresis, or connect to VCC for +10C hysteresis. 4 4 VCC 5 - TOVER Open-Drain, Active-Low Output. TOVER goes low when the die temperature exceeds the factory-programmed temperature threshold. Connect to a 100 K pull-up resistor. May be pulled up to a voltage higher than VCC. - 5 TOVER Push/Pull Active-High Output. TOVER goes high when the die temperature exceeds the factory-programmed temperature threshold. Supply Input (+2.7 V to +5.5 V). Recommend 100 pF or greater Coupling capacitor from VCC to GND. Typical Operating Circuit The MAX6501 is intended for applications with a microprocessor reset input. The MAX6502 is intended for applications of turning on a fan or heater element. +2.7 V to +5.5 V Hysteresis Input 100 pF VCC VCC MAX6502 P TOVER To prevent the output from "chattering'' at or near the trip point temperature, a selectable HYST input pin is provided. Hysteresis can be externally selected at 2C (HYST = GND) or 10C (HYST = VDD) by means of the CMOS compatible HYST input pin. Do not let the HYST pin float as this could cause increase supply current. The hysteresis does not depend on the part's programmed trip threshold. INT GND GND HYST Table 1. Factory-Programmed Threshold Range GND Part Number Threshold (TTH) Range MAX6501 +45C TTH +115C MAX6502 +45C TTH +115C Thermal Considerations With a very low 17 A supply current, the MAX6501 and MAX6502 dissipates very little power. Thus, the die temperature is basically the same as the package temperature. To minimize the error in temperature readings, the load current should be limited to a few milliamps. As an example, the typical thermal resistance of a 5-Pin SOT-23A package is 140C/W. If the MAX6501 had to sink 1.0 mA, and the output voltage is guaranteed to be less than 0.3 V, then an additional 0.3 mW of power is dissipated within the IC. This corresponds to a 0.042C rise in die temperature in the 5-Pin SOT-23A. DETAILED DESCRIPTION The MAX6501 and MAX6502 integrate a temperature sensor with a factory- programmed threshold switch. A logic signal is asserted when the die temperature crosses the factory programmed threshold. An external hysteresis input pin allows the user to select either 2C or 10C hysteresis to give further flexibility to the design of the application. The MAX6501 and MAX6502 are intended for a temperature range from 45C to 115C in a 10C increment. The MAX6501 has an open drain output and the MAX6502 has a push/pull output stage. http://onsemi.com 3 MAX6501, MAX6502 package can be placed directly under the socketed microprocessor for improved thermal contact. Temperature monitoring accuracy depends on the thermal resistance between the device being monitored and the temperature switch die. Heat flows primarily through the leads onto the die. Pin 2 provides the lowest thermal resistance to the die. To achieve the best temperature monitoring results, the MAX6501 and MAX6502 should be placed closest to the device being monitored. In addition, a short and wide copper trace from Pin 2 to the device should be used. In some cases, the 5- Pin SOT- 23A APPLICATIONS The MAX6501 has an open drain output and is therefore intended to interface as a microprocessor reset input. Moreover, the combination of these two devices can be used to implement a temperature window alarm by wire- ORing the outputs and using an external pull up resistor. (See Figure 1) +5 V RPULL- UP 100 k Temperature Out of Range 100 pF 100 pF VCC VCC MAX6501UKP115-T MAX6501UKP055-T GND GND HYST GND GND HYST Figure 1. Over and Under Temperature Alarm fail safe measure could be designed by using a second MAX6502 with a higher temperature threshold to alert the user of an impending thermal shutdown, should the temperature continue to rise. (See Figure 2) The MAX6502 can be used to control a DC fan. The fan turns on when the sensed temperature rises above the factory set threshold and remains on until the temperature falls below threshold minus the hysteresis selected. An additional http://onsemi.com 4 MAX6501, MAX6502 +5 V VCC 100 pF MAX6502UKP095-T GND HEAT GND TEMPERATURE FAULT TOVER HYST P FAN CONTROL HEAT VCC TOVER HYST 100 pF MAX6502UKP055-T GND GND Figure 2. Fan Control Circuit with Over Temperature Alert TOVER + V TOVER - Positive Tempco Reference MAX6501 With 100 k Pull-Up Negative Tempco Reference HYST Network HYST MAX6501 TEMP COLD +25C TTH HOT + TOVER V TOVER - Positive Tempco Reference MAX6502 Negative Tempco Reference HYST Network HYST MAX6502 TEMP COLD Figure 3. Functional Block Diagrams http://onsemi.com 5 +25C TTH HOT MAX6501, MAX6502 TYPICAL CHARACTERISTICS 40 60 35 SUPPLY CURRENT (A) FREQUENCY 50 40 30 20 30 25 20 15 10 10 5 -3 -4 -2 -1 0 1 2 4 3 0 -60 5 -20 0 20 40 60 80 100 120 140 TEMPERATURE (C) Figure 4. Trip Threshold Accuracy Figure 5. Supply Current vs. Temperature 80 180 140 OUTPUT SINK RESISTANCE () VCC = 2.7 V 160 VCC = 4.0 V 120 100 VCC = 5.0 V 80 60 180 40 20 -40 ACCURACY (C) 0 20 40 60 80 100 120 VCC = 2.7 V VCC = 4.0 V 70 60 VCC = 5.0 V 50 40 30 20 10 0 140 0 10 20 30 40 50 60 70 80 TEMPERATURE (C) TEMPERATURE (C) Figure 6. MAX6502 Output Source Resistance vs. Temperature Figure 7. Output Sink Resistance vs. Temperature 12 HYS = VCC 10 HYSTERESIS (C) OUTPUT SOURCE RESISTANCE () 0 -5 MAX6501/6502 8 6 4 HYS = GND 2 MAX6501/6502 0 -45 -25 -5 15 35 55 75 95 TRIP TEMPERATURE (C) Figure 8. Hysteresis vs. Trip Temperature http://onsemi.com 6 115 90 100 MAX6501, MAX6502 TYPICAL CHARACTERISTICS +100C +15C/div Mounted On 0.75 in2 of 2 oz. Copper +25C 5 sec/div Figure 9. SOT-23 Thermal Step Response in Perfluorinated Fluid +100C +12.5C/div Mounted On 0.75 in2 of 2 oz. Copper +25C 20 sec/div Figure 10. SOT-23 Thermal Step Response in Still Air http://onsemi.com 7 MAX6501, MAX6502 Component Taping Orientation for 5-Pin SOT-23A (EIAJ SC-74A) Devices USER DIRECTION OF FEED DEVICE MARKING PIN 1 Standard Reel Component Orientation TR Suffix Device (Mark Right Side Up) PIN 1 USER DIRECTION OF FEED DEVICE MARKING W = Width of Carrier Tape P = Pitch Reverse Reel Component Orientation RT Suffix Device (Mark Upside Down) Carrier Tape, Reel Size, and Number of Components Per Reel Package Carrier Width (W) Pitch (P) Part Per Full Reel Reel Size SOT-23A 8 mm 4 mm 3000 7 inches http://onsemi.com 8 MAX6501, MAX6502 MARKING DIAGRAM 1 2 3 4 1 and 2 3 = Two Letter Part Number Codes = Year and Two-Month Period Code 4 = Lot ID Number ORDERING INFORMATION Device Package MAX6501UKP045-T MAX6501UKP055-T* MAX6501UKP065-T MAX6501UKP075-T MAX6501UKP085-T MAX6501UKP095-T* MAX6501UKP105-T MAX6501UKP115-T* MAX6502UKP045-T MAX6502UKP055-T* MAX6502UKP065-T MAX6502UKP075-T MAX6502UKP085-T MAX6502UKP095-T* MAX6502UKP105-T MAX6502UKP115-T* 5 Pin SOT-23A SOT 23A 5-Pin Standard Temperature Threshold Output Stage 1 and 2 45C 55C 65C 75C 85C 95C 105C 115C Open Drain Open Drain Open Drain Open Drain Open Drain Open Drain Open Drain Open Drain HA HB HC HD HE HF HG HH 45C 55C 65C 75C 85C 95C 105C 115C Push/Pull Push/Pull Push/Pull Push/Pull Push/Pull Push/Pull Push/Pull Push/Pull JA JB JC JD JE JF JG JH Marking *Default: Contact your ON Semiconductor sales representative for other temperature threshold options. http://onsemi.com 9 Shipping 3000 Units Tape and Reel MAX6501, MAX6502 Notes http://onsemi.com 10 MAX6501, MAX6502 PACKAGE DIMENSIONS SOT-23 CASE 1212-01 ISSUE O A 5 E 1 A2 0.05 S B D A1 4 2 L 3 E1 L1 B e e1 NOTES: 1. DIMENSIONS ARE IN MILLIMETERS. 2. INTERPRET DIMENSIONS AND TOLERANCES PER ASME Y14.5M, 1994. 3. DATUM C IS A SEATING PLANE. C 5X 0.10 M C B S A S C http://onsemi.com 11 DIM A1 A2 B C D E E1 e e1 L L1 MILLIMETERS MIN MAX 0.00 0.10 1.00 1.30 0.30 0.50 0.10 0.25 2.80 3.00 2.50 3.10 1.50 1.80 0.95 BSC 1.90 BSC 0.20 --- 0.45 0.75 MAX6501, MAX6502 ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. 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