19-2210; Rev 0; 10/01 Dual-Voltage µP Supervisory Circuits with Sequenced Reset Outputs Features ♦ Preset VCC Reset Threshold Voltages from 1.58V to 4.63V (master supply) The MAX6391 includes two internal pullup resistors for RESET1 and RESET2 (the open-drain outputs can be externally connected to the desired pullup voltages). The MAX6392 includes an active-low manual reset input (MR) that asserts both RESET1 (push-pull) and RESET2 (open drain). The MAX6391/MAX6392 are available in small 8-pin SOT23 packages and are specified over the -40°C to +85°C extended temperature range. Applications Computers Controllers ♦ Customer-Adjustable RESET IN2 to Monitor Voltages Down to 625mV (secondary supply) ♦ Fixed (140ms min) RESET1 Timeout ♦ Fixed (140ms min) or Customer-Adjustable RESET2 Timeout Period ♦ Guaranteed Reset Valid to VCC = 1V ♦ Active-Low Open-Drain Outputs or PushPull/Open-Drain Combination ♦ Internal Open-Drain Pullup Resistors (for external VOH voltage connections) ♦ Manual Reset Input (MAX6392 only) ♦ Immune to Short Negative VCC Transients ♦ 15µA Typical Supply Current ♦ Few External Components ♦ Small 8-Pin SOT23 Package Ordering Information PART* TEMP. RANGE PIN-PACKAGE MAX6391KA_ _-T -40°C to +85°C SOT23-8 MAX6392KA_ _-T -40°C to +85°C SOT23-8 *Insert the desired suffix (see Selector Guide) into the blanks to complete the part number. The MAX6391/MAX6392 require a 2.5k minimum order increment and are available in tape-andreel only. Samples are typically available for standard versions (see Selector Guide for standard versions). Contact factory for availability. Pin Configurations Critical µP Power Monitoring Set-Top Boxes TOP VIEW Printers Servers/Workstations Industrial Equipment Multivoltage Monitoring RESET IN2 1 8 R1 7 RESET1 3 6 R2 GND 4 5 RESET2 VCC 2 CSRT MAX6391 SOT23-8 Typical Operating Circuit appears at end of data sheet. Pin Configurations continued at end of data sheet. ________________________________________________________________ Maxim Integrated Products For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at 1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com. 1 MAX6391/MAX6392 General Description The MAX6391/MAX6392 microprocessor (µP) supervisory circuits provide sequenced logic reset outputs for multicomponent or dual-voltage systems. Each device can monitor two supply voltages and time-sequence two reset outputs to control the order in which system components are turned on and off. The MAX6391/MAX6392 increase system reliability and reduce circuit complexity and cost compared to separate ICs or discrete components. The MAX6391/MAX6392 monitor V CC as the master reset supply. Both RESET1 and RESET2 are asserted whenever VCC drops below the selected factory-fixed reset threshold voltage. RESET1 remains asserted as long as V CC is below the threshold and deasserts 140ms (min) after VCC exceeds the thresholds. RESET IN2 is monitored as the secondary reset supply and is adjustable with an external resistive-divider network. RESET2 is asserted whenever either V CC or RESET IN2 is below the selected thresholds. RESET2 remains asserted 140ms (min) or a capacitoradjustable time period after V CC and RESET IN2 exceed their thresholds. RESET2 is always deasserted after RESET1 during system power-up and is always asserted before RESET1 during power-down. MAX6391/MAX6392 Dual-Voltage µP Supervisory Circuits with Sequenced Reset Outputs ABSOLUTE MAXIMUM RATINGS VCC to GND ...........................................................-0.3V to +6.0V RESET1 (MAX6392), RESET IN2, CSRT, MR to GND ..............................................-0.3V to (VCC + 0.3V) RESET1 (MAX6391), RESET2, R1, R2 to GND......-0.3V to +6.0V Input Current (VCC, GND, CSRT, R1, R2, MR) .................±20mA Output Current (RESET1, RESET2) ..................................±20mA Continuous Power Dissipation (TA = +70°C) 8-Pin SOT23 (derate 5.26mW/°C above +70°C)...........421mW Operating Temperature Range ...........................-40°C to +85°C Junction Temperature ......................................................+150°C Storage Temperature Range .............................-65°C to +150°C Lead Temperature (soldering, 10s) .................................+300°C Stresses beyond 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 beyond 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 = 1.2V to 5.5V, TA = TMIN to TMAX, unless otherwise specified. Typical values are at VCC = +5V and TA = +25°C.) (Note 1) PARAMETER SYMBOL VCC Range Supply Current VCC Reset Threshold RESET IN2 Threshold ICC VTH1 VTH2 CONDITIONS MIN TYP 1.0 5.5 TA = -40°C to +85°C 1.2 5.5 No load 15 25 MAX639_UA46, 0°C to +85°C 4.50 4.63 4.75 MAX639_UA46, -40°C to +85°C 4.47 4.63 4.78 MAX639_UA44, 0°C to +85°C 4.25 4.38 4.50 MAX639_UA44, -40°C to +85°C 4.22 4.38 4.53 MAX639_UA31, 0°C to +85°C 3.00 3.08 3.15 MAX639_UA31, -40°C to +85°C 2.98 3.08 3.18 MAX639_UA29, 0°C to +85°C 2.85 2.93 3.00 MAX639_UA29, -40°C to +85°C 2.80 2.93 3.05 MAX639_UA26, 0°C to +85°C 2.55 2.63 2.70 MAX639_UA26, -40°C to +85°C 2.53 2.63 2.73 MAX639_UA23, 0°C to +85°C 2.25 2.32 2.38 MAX639_UA23, -40°C to +85°C 2.22 2.32 2.42 MAX639_UA22, 0°C to +85°C 2.12 2.19 2.25 MAX639_UA22, -40°C to +85°C 2.09 2.19 2.29 MAX639_UA17, 0°C to +85°C 1.62 1.67 1.71 MAX639_UA17, -40°C to +85°C 1.57 1.67 1.77 MAX639_UA16, 0°C to +85°C 1.54 1.58 1.61 MAX639_UA16, -40°C to +85°C 1.47 1.58 1.67 VCC = 5V, 0°C to +85°C 610 625 640 VCC = 5V, -40°C to +85°C 600 625 650 RESET IN2 Input Current 50 VCC to RESET1 Delay tRD1 VCC or RESET IN2 to RESET2 Delay tRD2 2 MAX TA = 0°C to +85°C UNITS V µA V mV nA 20 VCC falling at 1mV/µs (Note 2) 10 _______________________________________________________________________________________ µs Dual-Voltage µP Supervisory Circuits with Sequenced Reset Outputs (VCC = 1.2V to 5.5V, TA = TMIN to TMAX, unless otherwise specified. Typical values are at VCC = +5V and TA = +25°C.) (Note 1) PARAMETER RESET1 Timeout Period RESET2 Timeout Period (Note 3) RESET_ Output Voltage Low Open-Drain RESET Output Leakage Current Push-Pull RESET1 Output Voltage High (MAX6392 only) SYMBOL tRP2 MIN TYP MAX UNITS 200 3.1 280 4.0 ms CCSRT = 1500pF 140 2.2 CCSRT = VCC 140 200 280 ISINK = 50µA, reset asserted VOL ILKG VCC ≥ 1.0V, TA = 0°C to +85°C 0.3 VCC ≥ 1.2V, TA = -40°C to +85°C 0.3 VOH VIL ISINK = 3.2mA, reset asserted, VCC ≥ 4.25V 0.4 VCC ≥ VTH1, VRESET IN2 ≥ VTH2, reset not asserted 1.0 µA 0.8 ✕ VCC V VCC ≥ 4.5V, ISOURCE = 800µA, reset not asserted VCC > 4.0V VCC < 4.0V VIH MR Minimum Pulse Width 0.8 2.4 0.3 ✕ VCC 50 MR to RESET2 Delay tMR2 V 0.7 ✕ VCC MR Glitch Rejection tMR1 V 0.3 VIL MR to RESET1 Delay ms ISINK = 1.2mA, reset asserted, VCC ≥ 2.5V VCC ≥ 2.25V, ISOURCE = 500µA, reset not asserted VIH MR Input CONDITIONS tRP1 µs 100 ns 10 µs 100 ns 10 µs tMR Skew tMR1 - tMR2 MR Pullup Resistance Pullup to VCC 35 47 60 kΩ Reset Pullup Resistance RESET1 to R1 or RESET2 to R2 35 47 60 kΩ Note 1: Overtemperature limits are guaranteed by design and not production tested. Devices tested at +25°C only. Note 2: RESET2 asserts before RESET1 when VCC goes below the threshold for all supply voltage and temperature ranges. Note 3: CSRT must be connected to either VCC (for fixed RESET2 timeout period) or an external capacitor (for useradjustable RESET2 timeout period). _______________________________________________________________________________________ 3 MAX6391/MAX6392 ELECTRICAL CHARACTERISTICS (continued) Typical Operating Characteristics (VCC = +5V, TA = +25°C, unless otherwise noted.) 14 13 26 15 25 14 24 -15 10 35 60 12 22 11 21 10 85 9 -40 -15 10 35 60 -40 85 -15 10 35 60 85 TEMPERATURE (°C) TEMPERATURE (°C) TEMPERATURE (°C) RESET2 TO RESET1 DELAY vs. TEMPERATURE RESET1 TIMEOUT PERIOD vs. TEMPERATURE RESET1 TO RESET2 TIMEOUT PERIOD vs. TEMPERATURE (CSRT = 1500pF) 11.4 11.2 275 TIMEOUT DELAY (ms) TIMEOUT DELAY (ms) 250 225 11.0 -15 10 35 60 -15 10 35 60 85 -40 TEMPERATURE (°C) TEMPERATURE (°C) 10 35 60 MAXIMUM TRANSIENT DURATION vs. RESET COMPARATOR OVERDRIVE 275 250 225 MAX6391 toc08 60 MAXIMUM TRANSIENT DURATION (µs) MAX6391 toc07 300 -15 TEMPERATURE (°C) RESET1 TO RESET2 TIMEOUT PERIOD vs. TEMPERATURE (CSRT TIED TO VCC) TIMEOUT DELAY (ms) 3.00 2.50 -40 85 3.25 2.75 200 10.8 MAX6391 toc06 11.6 3.50 MAX6391 toc05 300 MAX6391 toc04 11.8 -40 13 23 20 -40 50 40 RESET ASSERTS ABOVE THIS LINE 30 20 10 200 -40 -15 10 35 TEMPERATURE (°C) 4 16 DELAY (µs) 15 MAX6391 toc03 27 16 17 MAX6391 toc02 MAX6391 toc01 28 DELAY (µs) SUPPLY CURRENT (µA) 17 VCC FALLING TO RESET2 DELAY vs. TEMPERATURE VCC FALLING TO RESET1 DELAY VS. TEMPERATURE SUPPLY CURRENT vs. TEMPERATURE DELAY (µs) MAX6391/MAX6392 Dual-Voltage µP Supervisory Circuits with Sequenced Reset Outputs 60 85 1 10 100 OVERDRIVE (mV) _______________________________________________________________________________________ 1000 85 Dual-Voltage µP Supervisory Circuits with Sequenced Reset Outputs PIN NAME FUNCTION MAX6391 MAX6392 1 1 RESET IN2 2 2 VCC 3 3 CSRT RESET2 Delay Set Capacitor. Connect to VCC for a fixed 140ms (min) timeout period or to an external capacitor for a user-adjustable timeout period after VCC exceeds its minimum threshold. 4 4 GND Ground 5 5 RESET2 6 6 R2 Input Voltage for RESET2 Monitor. High-impedance input for internal reset comparator. Connect this pin to an external resistive-divider network to set the reset threshold voltage. Supply Voltage and Input Voltage for Primary Supply Monitor Secondary Reset Output, Open-Drain, Active-Low. RESET2 changes from high to low when either VCC or RESET IN2 drop below their thresholds. RESET2 remains low for a user-adjustable timeout period (see CSRT) or a fixed 140ms (min) after VCC and RESET IN2 meet their minimum thresholds. 47kΩ Internal Pullup Resistor for RESET2. Connect to external voltage for RESET2 high pullup. Primary Reset Output, Open-Drain (MAX6391) or Push-Pull (MAX6392), Active-Low. RESET1 changes from HIGH to LOW when the VCC input drops below the selected reset threshold. RESET1 remains LOW for the reset timeout period after VCC exceeds the minimum threshold. 7 7 RESET1 8 — R1 47kΩ Internal Pullup Resistor for RESET1. Connect to external voltage for RESET1 high pullup. MR Manual Reset, Active-Low, Internal 47kΩ Pullup to VCC. Pull LOW to force a reset. RESET1 and RESET2 remain asserted as long as MR is LOW and for the RESET1 and RESET2 timeout periods after MR goes HIGH. Leave unconnected or connect to VCC if unused. — 8 Detailed Description Each device includes a pair of voltage monitors with sequenced reset outputs. The first block monitors VCC only (RESET1 output is independent of the RESET IN2 monitor). It asserts a reset signal (LOW) whenever VCC is below the preset voltage threshold. RESET1 remains asserted for at least 140ms after VCC rises above the reset threshold. RESET1 timing is internally set in each device. V CC voltage thresholds are available from 1.57V to 4.63V. In all cases VCC acts as the master supply (all resets are asserted when VCC goes below its selected threshold). The VCC input also acts as the device power supply. The second block monitors both RESET IN2 and VCC. It asserts a reset signal (LOW) whenever RESET IN2 is below the 625mV threshold or VCC is below its reset threshold. RESET2 remains asserted for a fixed 140ms (min) or a user-adjustable time period after RESET IN2 rises above the 625mV reset threshold and RESET1 is deasserted. Resets are guaranteed valid for VCC down to 1V. The timing diagram in Figure 2 shows the reset timing characteristics of the MAX6391/MAX6392. As shown in Figure 2, RESET1 deasserts 140ms (min) (tRP1) after VCC exceeds the reset threshold. RESET2 deasserts tRP2 (140ms minimum or a user-adjustable timeout period) after RESET IN2 exceeds 625mV and RESET1 is deasserted. When RESET IN2 drops below 625mV while VCC is above the reset threshold, RESET2 asserts within 10µs typ. RESET1 is unaffected when this happens. When V CC falls below V TH1 , RESET2 always asserts before RESET1 (tRD2 < tRD1). _______________________________________________________________________________________ 5 MAX6391/MAX6392 Pin Description MAX6391/MAX6392 Dual-Voltage µP Supervisory Circuits with Sequenced Reset Outputs MR (MAX6392 ONLY) VCC MR DETECT MR PULLUP VCC (MAX6392 ONLY) R1 (MAX6391 ONLY) 47kΩ FIXED RESET TIMEOUT PERIOD 1.25V RESET1 VCC R2 47kΩ 0.625V FIXED OR CAPACITORADJUSTABLE RESET TIMEOUT PERIOD RESET2 RESET IN2 CSRT Figure 1. Functional Diagram VTH1 VTH1 VCC tRD1 tRP1 RESET1 VTH2 VTH2 RESET IN2 tRP2 tRD2 tRP2 tRD2 RESET2 Figure 2. Timing Diagram 6 _______________________________________________________________________________________ Dual-Voltage µP Supervisory Circuits with Sequenced Reset Outputs PART NUMBER NOMINAL THRESHOLD (V) TOP MARK MAX6391KA46 4.63 AAHJ MAX6391KA44 4.38 AAHK MAX6391KA31 3.08 AAHL MAX6391KA29 2.93 AAHM MAX6391KA26 2.63 AAHN MAX6391KA23 2.32 AAHO chain. The MAX6391 internally determines the CSRT connection and provides the proper timing setup. In all cases, RESET IN2 acts as the slave supply. VCC can assert the RESET2 output but RESET IN2 will have no effect on the RESET1 output. Monitoring Voltages Other Than VCC An external resistive-divider network is required at RESET IN2 for most applications. The divider resistors, R3 and R4, may be calculated by the following formula: VRST = VTH2 ✕ (R3 + R4)/R4 where VTH2 = 625mV (internal reference voltage) and VRST is the desired reset threshold voltage. R4 may be set to a conveniently high value (500kΩ for example, to minimize current consumption) and the equation may be solved for R3 by: R3 = R4 ✕ (VRST/VTH2 - 1) For single-supply operations requiring two reset outputs (RESET1 before RESET2), connect RESET IN2 directly to VCC and adjust RESET2 timeout delay with CCRST as desired. MAX6391KA22 2.19 AAHP MAX6391KA17 1.67 AAHQ MAX6391KA16 1.58 AAHR MAX6392KA46 4.63 AAHS MAX6392KA44 4.38 AAHT MAX6392KA31 3.08 AAHU MAX6392KA29 2.93 AAHV MAX6392KA26 2.63 AAHW MAX6392KA23 2.32 AAHX MAX6392KA22 2.19 AAHY Pullup Resistors MAX6392KA17 1.67 AAHZ MAX6392KA16 1.58 AAIA The MAX6391 includes open-drain outputs for both RESET1 and RESET2. Two internal resistors, R1 and R2, of 47kΩ each are provided with internal connections to RESET1 and RESET2. These resistors may be connected to the appropriate external voltage for independent V OH drive with no additional component requirements. Standard versions in bold face. Samples are typically available for standard versions. Contact factory for availability. Applications Information Selecting the Reset Timeout Capacitor The RESET2 delay may be adjusted by the user with an external capacitor connected from the CSRT pin to ground. The MAX6391 includes a 600nA current source that is switched to CCSRT to create a voltage ramp. The voltage ramp is compared to the internal 1.25V reference to set the RESET2 delay period. The period is calculated by: ∆t = C ✕ ∆V/I where ∆V = 1.25V, I = 600nA, and C is the external capacitor. Simplifying, tRP = 2.08 ✕ 106 s / F ✕ CCSRT For CCSRT = 1500pF, tRP = 3.1ms A fixed internal 140ms (min) reset delay time for RESET2 may be chosen by connecting the CSRT pin to VCC. The VCC to CSRT connection disables the voltage ramp and enables a separate fixed delay counter The MAX6392 includes a manual reset option, MR, that replaces the R1 pullup resistor. The active-low manual reset input forces both RESET1 and RESET2 low. RESET2 is driven active before RESET1 in all cases (10µs typ). The resets follow standard reset timing specifications after the manual reset is released. The manual reset is internally pulled up to VCC through a 47kΩ resistor. Negative-Going VCC Transients In addition to issuing a reset to the µP during power-up, power-down, and brownout conditions, these devices are relatively immune to short-duration, negative-going VCC or RESET IN2 transients (glitches). The Typical Operating Characteristics show the Maximum Transient Duration vs. Reset Comparator Overdrive graph. The graph shows the maximum pulse width that a negativegoing VCC transient may typically have without issuing a reset signal. As the amplitude of the transient increases, the maximum allowable pulse width decreases. _______________________________________________________________________________________ 7 MAX6391/MAX6392 Selector Guide Dual-Voltage µP Supervisory Circuits with Sequenced Reset Outputs MAX6391/MAX6392 Typical Operating Circuit VCC = 3.3V VCC MASTER PROCESSOR RESET RESET1 MAX6392 GND VCC = 1.8V R2 R3 MR RSTIN2 R4 CSRT CCSRT RESET2 SLAVE PROCESSOR RESET Chip Information Pin Configurations (continued) TRANSISTOR COUNT: 810 PROCESS: BiCMOS TOP VIEW RESET IN2 1 8 MR 7 RESET1 3 6 R2 GND 4 5 RESET2 VCC 2 CSRT MAX6392 SOT23-8 8 _______________________________________________________________________________________ Dual-Voltage µP Supervisory Circuits with Sequenced Reset Outputs SOT23, 8L.EPS 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, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 _____________________ 9 © 2001 Maxim Integrated Products Printed USA is a registered trademark of Maxim Integrated Products. MAX6391/MAX6392 Package Information