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| FET Drive Simple Sequencers(R) ADM6819/ADM6820 FEATURES Single chip enables power supply sequencing of two supplies On-board charge pump fully enhances N-channel FET Adjustable primary supply monitor to 0.618 V Delay from primary supply to secondary supply enabled Fixed 300 ms delay (ADM6819) Capacitor adjustable delay (ADM6820) Logic/analog driven enable input (ADM6819) -40C to +85C operating range Packaged in small 6-lead SOT-23 package Pin-to-pin compatibility with MAX6819/MAX6820 VCC1 VCC2 VCC1 VCC2 CHARGE PUMP UVLO R1 SETV 0.618V LOGIC FET DRIVER GATE VFET FUNCTIONAL BLOCK DIAGRAM Q1 VCC1 VCC2 OUT R2 TIMER ADM6819/ ADM6820 0.618V Multivoltage systems Dual voltage microprocessors/FPGAs/ASICs/DSPs Network processors Telecom and datacom systems PC/server applications EN (ADM6819) - DIGITAL/ANALOG SETD (ADM6820) Figure 1. GENERAL DESCRIPTION The ADM6819 and ADM6820 are simple power supply sequencers with FET drive capability for enhancing N-channel MOSFETs. These devices can monitor a primary supply voltage and enable/disable an external N-channel FET for a secondary supply. The ADM6819 has the ability to monitor two supplies. When more than two voltages require sequencing, multiple ADM6819/ADM6820 devices can be cascaded to achieve this. The devices operate over a supply range of 2.95 V to 5.5 V. An internal comparator monitors the primary supply using the VSET pin. The input to this comparator is externally set via a resistor divider from the primary supply. When the voltage at the VSET pin rises above the comparator threshold, an internal charge pump on the GATE output enhances the secondary supply FET. The ADM6819 features an enable (EN) pin that is fed to the input of an additional comparator and reference circuit. This pin can be used as a digital enable or a secondary power good comparator to monitor a second supply and enables the GATE only if both supplies are valid. When both inputs of the internal comparators are above the threshold, a fixed 300 ms timeout occurs before the GATE is driven high and the secondary supply is enabled. The ADM6820 has only one comparator that is on the SETV pin. It also features a timeout period that is adjustable via a single external capacitor on the SETD pin. The ADM6819/ADM6820 are packaged in small 6-lead SOT-23 packages. Rev. 0 Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks are the property of their respective owners. One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. Tel: 781.329.4700 www.analog.com Fax: 781.461.3113 (c)2006 Analog Devices, Inc. All rights reserved. 05133-001 APPLICATIONS GND ADM6819/ADM6820 TABLE OF CONTENTS Features .............................................................................................. 1 Applications....................................................................................... 1 Functional Block Diagram .............................................................. 1 General Description ......................................................................... 1 Revision History ............................................................................... 2 Specifications..................................................................................... 3 Timing Diagrams.............................................................................. 4 Absolute Maximum Ratings............................................................ 6 Thermal Characteristics .............................................................. 6 ESD Caution.................................................................................. 6 Pin Configuration and Function Descriptions..............................7 Typical Performance Characteristics ..............................................8 Theory of Operation ...................................................................... 10 SETV Pin ..................................................................................... 10 EN Pin.......................................................................................... 10 GATE Pin .................................................................................... 10 SETD Pin ..................................................................................... 10 Outline Dimensions ....................................................................... 11 Ordering Guide .......................................................................... 11 REVISION HISTORY 7/06--Rev. 0: Initial Version Rev. 0 | Page 2 of 12 ADM6819/ADM6820 SPECIFICATIONS VCC1 or VCC2 = 2.95 V to 5.5 V, TA = -40C to +85C, unless otherwise noted. Typical values are at TA = 25C. 1 Table 1. Parameter VCC1, VCC2 PINS Operating Voltage Range, VCC1 or VCC2 VCC1 or VCC2 Supply Current, ICC VCC1 or VCC2 Disable Mode Current VCC1 or VCC2 Slew Rate 2 Undervoltage Lockout, VUVLO SETV PIN SETV Threshold, VTH SETV Input Current2 SETV Threshold Hysteresis SETV to GATE Delay, tDELAY SETD PIN SETD Ramp Current, ISETD SETD Voltage, VSETD GATE PIN GATE Turn-On Time, tON GATE Turn-Off Time, tOFF GATE Voltage, VGATE Min 0.9 350 250 6 1.2/tDELAY 2.4 0.602 Typ Max 5.5 500 Units V A A V/s V/s V V nA % ms nA nA V ms s V V V V V V Conditions VCC1 or VCC2 must be > 2.95 V VCC1 or VCC2 must be > 2.95 V VCC1 = VCC2 = 3.3 V VCC1 = VCC2 = 3.3 V, EN = GND ADM6819 ADM6820 3 VCC falling VSETV rising, enables GATE VSETV falling, disables GATE VSETV > VTH ; VEN > VTH (ADM6819) ADM6820 TA = 25C 2.525 0.618 10 -1 300 500 500 1.326 1.5 30 5.5 5.0 9.4 8.6 2.65 0.634 100 350 730 600 1.357 10 6.0 6 9.9 9.1 0.4 240 300 400 1.295 0.5 4.5 4.0 8.9 8.2 CGATE = 1500 pF, VCC2 = 3.3 V, VGATE = 7.8 V CGATE = 1500 pF, VCC2 = 3.3 V, VGATE = 0.5 V With respect to VCCx, RGATE > 50 M to VCCx 4 With respect to VCCx, RGATE > 5 M to VCCx4 With respect to VCCx, RGATE > 50 M to VCCx 5 With respect to VCCx, RGATE > 5 M to VCCx5 VCC1 or VCC2 must be > 2.95 V VCC1 or VCC2 must be > 2.95 V ENABLE PIN EN Input Voltage Low, VIL EN Input Voltage High, VIH 1 2 2.0 100% production tested at TA = +25C. Specifications over temperature limit are guaranteed by design. Guaranteed by design, not production tested. 3 tDELAY (s) = 2.65 x 106 x CSET. 4 Highest supply pin is represented by VCCx = 2.95 V. 5 Highest supply pin is represented by VCCx = 5.5 V. Rev. 0 | Page 3 of 12 ADM6819/ADM6820 TIMING DIAGRAMS VCC1 VCC2 VCC1 VCC2 CHARGE PUMP UVLO R1 R3 SETV 0.618V LOGIC FET DRIVER GATE VFET Q1 VCC1 VCC2 OUT R2 R4 ADM6819 GND 0.618V Figure 2. ADM6819 Solution for Validating Two Supplies Before Sequencing VSETV 0.618V tON 90% VCC2 + 5.5V (typ) VGATE 10% 10% (ADM6819 = 300ms, ADM6820 = ADJ) Figure 3. ADM6819/ADM6820 Timing Diagram Using SETV for Sequencing VSETV VEN 0.618V 0.618V tON 90% VCC2 + 5.5V (typ) VGATE 10% 10% 05133-016 tDELAY (300ms) tOFF Figure 4. ADM6819 Timing Diagram Using EN and SETV for Sequencing Rev. 0 | Page 4 of 12 05133-015 tDELAY tOFF 05133-014 EN ADM6819/ADM6820 VIN = 5V VIN = 3.3V VIN = 3.0V VOUT = 5V Q2 VOUT = 3.3V VOUT = 3.0V Q1 VCC2 GATE VCC1 R1 VCC2 GATE VCC1 R3 ADM6819/ ADM6820 SETV EN/SETD GND ADM6819/ ADM6820 SETV EN/SETD GND 05133-017 R2 R4 Figure 5. ADM6819/ADM6820 Solution for Sequencing Three Supply Rails Rev. 0 | Page 5 of 12 ADM6819/ADM6820 ABSOLUTE MAXIMUM RATINGS Table 2. Parameter VCC1, VCC2 SETV, SETD, EN GATE Storage Temperature Operating Temperature Range Lead Temperature (Soldering 10 sec) Junction Temperature Rating -0.3 V to +6.0 V -0.3 V to +30 V -0.3 V to (VCCx + 11 V) -65C to +150C -40C to +85C 300C 150C Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to the device. This is a stress rating only; functional operation of the device at these or any other conditions above those indicated in the operational section of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. THERMAL CHARACTERISTICS JA is specified for the worst-case conditions, that is, a device soldered in a circuit board for surface-mount packages. Table 3. Thermal Resistance Package Type 6-Lead SOT-23 JA 169.5 Unit C/W ESD CAUTION ESD (electrostatic discharge) sensitive device. Electrostatic charges as high as 4000 V readily accumulate on the human body and test equipment and can discharge without detection. Although this product features proprietary ESD protection circuitry, permanent damage may occur on devices subjected to high energy electrostatic discharges. Therefore, proper ESD precautions are recommended to avoid performance degradation or loss of functionality. Rev. 0 | Page 6 of 12 ADM6819/ADM6820 PIN CONFIGURATION AND FUNCTION DESCRIPTIONS VCC1 1 6 VCC2 VCC1 1 6 VCC2 ADM6819 GND 2 SETV 3 05133-002 ADM6820 GND 2 SETV 3 05133-003 TOP VIEW 5 GATE (Not to Scale) 4 TOP VIEW 5 GATE (Not to Scale) 4 EN SETD Figure 6. ADM6819 Pin Configuration Figure 7. ADM6820 Pin Configuration Table 4. Pin Function Descriptions Pin Number ADM6819 ADM6820 1 1 2 3 4 2 3 - Mnemonic VCC1 GND SETV EN Description Supply Voltage 1. Either VCC1 or VCC2 must be greater than the UVLO to enable external FET Drive. Chip Ground Pin. Sequenced Threshold Set. Connect to an external resistor divider to set the VCC1 threshold that enables GATE turn-on. The internal reference is 0.618 V. Active-High Enable. GATE drive is enabled tDELAY after EN is driven high. GATE drive is immediately disabled when EN is driven low. Connect this pin to the higher of VCC1 or VCC2 if not used. EN is internally identical to SETV (0.618 V threshold) and, therefore, can be used as a second supply monitor, enabling two supplies to be validated before sequencing begins. GATE Delay Set Input. Connect an external capacitor from SETD to GND to adjust the delay from SETV > VTH to GATE turn-on. tDELAY(s) = 2.652 x 106 x CSET(F). GATE Drive Output. GATE drives an external N-channel FET to connect VCC2 to the load. GATE drive enables tDELAY after SETV exceeds VTH and ENABLE is driven high. GATE drive is immediately disabled when SETV drops below VTH or ENABLE is driven low. When enabled, an internal charge pump drives GATE above VCCX to fully enhance the external N-channel FET. Supply Voltage 2. Either VCC1 or VCC2 must be greater than the UVLO to enable the external FET Drive. - 5 4 5 SETD GATE 6 6 VCC2 Rev. 0 | Page 7 of 12 ADM6819/ADM6820 TYPICAL PERFORMANCE CHARACTERISTICS 0.50 0.45 ICC2 (VCC1 = 3.3V, VCC2 = 5V) 0.40 0.35 0.30 0.25 0.20 0.15 0.10 -50 ICC1 (VCC1 = 5V, VCC2 = 3.3V) 0.65 0.64 SUPPLY CURRENT (mA) SUPPLY CURRENT (mA) 0.63 0.62 0.61 0.60 0.59 VEN = 2V VSETV = 2V 05133-004 -25 0 25 50 75 100 125 150 -25 0 25 50 75 100 125 150 TEMPERATURE (C) TEMPERATURE (C) Figure 8. Supply Current vs. Temperature 0.50 0.45 0.40 0.35 ICC2 (mA) VGATE (V) Figure 11. Supply Current vs. Temperature 14 12 10 8 6 4 2 VCC1 = 3.3V VEN = 2V VSETV = VCC2 0 1 2 3 VCC2 (V) 4 5 6 05133-008 05133-009 VCC1 = 0V VEN = 2V VSETV = 2V 0.30 0.25 0.20 0.15 0.10 0.05 0 1 2 3 4 5 6 7 05133-005 0 VCC2 (V) 0 Figure 9. ICC2 vs. VCC2 0.50 0.45 0.40 0.35 ICC2 (mA) Figure 12. VGATE vs. VCC2 14 12 10 VGATE (V) VCC1 = 3.3V VEN = 2V VSETV = 2V 0.30 0.25 0.20 0.15 0.10 0.05 0 1 2 3 4 5 6 7 05133-006 8 6 4 2 0 0 1 2 3 VCC2 (V) 4 5 6 VCC1 = 0V VEN = 2V VSETV = 1V 0 VCC2 (V) Figure 10. ICC2 vs. VCC2 Figure 13. VGATE vs. VCC2 Rev. 0 | Page 8 of 12 05133-007 0.58 -50 ADM6819/ADM6820 14 12 VSETV 10 VGATE (V) 8 6 4 2 0 0 1 2 3 VCC2 (V) 4 5 6 VCC1 = 3.3V VEN = 2V VSETV = 1V 05133-010 VGATE 5V/DIV 20s/DIV Figure 14. VGATE vs. VCC2 340 330 320 310 Figure 16. Gate Turn-Off Time tDELAY (ms) 300 290 280 270 260 250 -25 0 25 50 75 100 125 150 05133-011 VGATE 5V/DIV 240 -50 1ms/DIV TEMPERATURE (C) Figure 15. tDELAY vs. Temperature Figure 17. Gate Turn-On Time Rev. 0 | Page 9 of 12 05133-019 CLOAD = 1500pF 05133-018 CLOAD = 1500pF ADM6819/ADM6820 THEORY OF OPERATION The ADM6819/ADM6820 provide local voltage sequencing in multisupply systems. Figure 18 and Figure 19 show typical application diagrams for these devices. VIN = 3.3V VIN = 3.0V Q1 VOUT = 3.3V VOUT = 3.0V SETV PIN The ADM6819/ADM6820 enable a supply after a monitored supply voltage exceeds a programmed threshold. This threshold is programmed by a R1/R2 resistor divider on the SETV pin. Once the voltage on SETV exceeds the 0.618 V threshold, the FET switches on after the delay timer expires. On the ADM6820, this delay is programmable using a capacitor on the SETD pin. On the ADM6819, this delay is fixed at 300 ms and the EN pin must be valid high to begin the timer. The required turn-on voltage is calculated by the following equation: R1 = R2 ((VTRIP/VTH) - 1) where: VTRIP is the minimum turn-on voltage at the supply being monitored. VTH = 0.618 V. High value resistors can be used because the SETV input current is typically 10 nA. VCC2 GATE VCC1 R1 ADM6819 ON SETV GND 05133-012 EN OFF R2 Figure 18. ADM6819 Applications Diagram VIN = 3.3V VIN = 3.0V Q1 VOUT = 3.3V VOUT = 3.0V VCC2 GATE VCC1 R1 EN PIN The ADM6819 has an enable (EN) pin connected to the input of a second comparator, which is identical to that on the VSET pin. EN can be used as a digital input provided the signal VOL is below 0.6 V. Alternatively, the enable input can be used to validate a second supply. The fixed 300 ms timer does not begin counting until both SETV and EN are above the threshold. As a result, the output is not enabled until this timer has expired. ADM6820 SETV GND 05133-013 SETD CSET R2 Figure 19. ADM6820 Applications Diagram When the primary supply is above the desired threshold, the ADM6819/ADM6820 are designed to control the N-channel FET in the secondary power path to enable the secondary supply. The GATE pin is held low while both VCC1 and VCC2 are below the undervoltage threshold, ensuring that the FET is held off. When VCC1 or VCC2 is above UVLO and the primary supply is above the desired level dictated by the resistor divider to the VSET pin, the external FET is driven on after the delay has expired. An internal charge pump enhances the external FET. A FET with a low drain-source resistance and low VTH should be chosen to reduce voltage drop across the drain-source when the FET is fully enhanced. Either supply may act as the primary source if VCC1 or VCC2 is greater that 2.95 V. A decoupling capacitor of typically 100 nF should be used on whichever VCC is the main supply. GATE PIN The internal charge pump is capable of driving the gate of an N-channel MOSFET with no external capacitors. This ensures that the MOSFET is enhanced to provide a minimum voltage drop across the MOSFET, thus reducing the voltage drop across the FET. This charge pump is designed to drive the high impedance capacitive load of a MOSFET gate input. The GATE pin should not be resistively loaded because it reduces the gate drive capability. During undervoltage lockout, GATE is held to GND. SETD PIN The ADM6820 features a capacitor adjustable sequencing delay. A capacitor connected to the SETD pin determines the length of the sequencing delay. The sequencing delay can be calculated by the following equation: tDELAY (s) = 2.652 x 106 x CSET The ADM6819 has a fixed 300 ms delay. Rev. 0 | Page 10 of 12 ADM6819/ADM6820 OUTLINE DIMENSIONS 2.90 BSC 6 5 4 1.60 BSC 1 2 3 2.80 BSC PIN 1 INDICATOR 0.95 BSC 1.30 1.15 0.90 1.90 BSC 1.45 MAX 0.22 0.08 10 4 0 0.60 0.45 0.30 0.15 MAX 0.50 0.30 SEATING PLANE COMPLIANT TO JEDEC STANDARDS MO-178-AB Figure 20. 6-Lead Small Outline Transistor Package [SOT-23] (RJ-6) Dimensions shown in millimeters ORDERING GUIDE Model ADM6819ARJZ-REEL7 1 ADM6820ARJZ-REEL71 1 Temperature Range -40C to +85C -40C to +85C Package Description 6-Lead Small Outline Transistor Package [SOT-23] 6-Lead Small Outline Transistor Package [SOT-23] Package Option RJ-6 RJ-6 Branding M2R M2S Z = Pb-free part. Rev. 0 | Page 11 of 12 ADM6819/ADM6820 NOTES (c)2006 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. D05113-0-7/06(0) Rev. 0 | Page 12 of 12 |
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