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| 19-1302; Rev 1; 3/98 Low-Noise, Low-Dropout, 150mA Linear Regulators in SOT23 _______________General Description The MAX8867/MAX8868 low-noise, low-dropout linear regulators operate from a 2.5V to 6.5V input and deliver up to 150mA. Typical output noise for these devices is just 30VRMS, and typical dropout is only 165mV at 150mA. The output voltage is preset to voltages in the range of 2.5V to 5.0V, in 100mV increments. The MAX8867 and MAX8868 are pin-compatible with the MAX8863 and MAX8864, except for the BP pin. Designed with an internal P-channel MOSFET pass transistor, the MAX8867/MAX8868 maintain a low 100A supply current, independent of the load current and dropout voltage. Other features include a 10nA logic-controlled shutdown mode, short-circuit and thermal-shutdown protection, and reverse battery protection. The MAX8868 also includes an auto-discharge function, which actively discharges the output voltage to ground when the device is placed in shutdown. Both devices come in a miniature 5-pin SOT23 package. ____________________________Features o Low Output Noise: 30VRMS o Low 55mV Dropout at 50mA Output (165mV at 150mA output) o Low 85A No-Load Supply Current o Low 100A Operating Supply Current (even in dropout) o Thermal-Overload and Short-Circuit Protection o Reverse Battery Protection o Output Current Limit o Preset Output Voltages (1.4% accuracy) o 10nA Logic-Controlled Shutdown MAX8867/MAX8868 ________________________Applications Cellular Telephones Cordless Telephones PCS Telephones PCMCIA Cards Modems Hand-Held Instruments Palmtop Computers Electronic Planners ______________Ordering Information PART** MAX8867C/Dxy MAX8867EUKxy-T MAX8868C/Dxy MAX8868EUKxy-T TEMP. RANGE 0C to +70C -40C to +85C 0C to +70C -40C to +85C PIN-PACKAGE Dice* 5 SOT23-5 Dice* 5 SOT23-5 __________________Pin Configuration TOP VIEW SHDN 1 5 BP *Dice are tested at TA = +25C. **xy is the output voltage code (see Expanded Ordering Information table). ___Expanded Ordering Information OUTPUT VOLTAGE (xy) CODE MAX886_EUK25 PRESET OUTPUT VOLTAGE (V) 2.50 2.80 2.84 3.00 3.15 3.30 3.60 5.00 x.y0 SOT TOP MARK MAX8867 ACAY ACAZ ACBA ACBB ACBC ACBD ACCZ ACBE -- MAX8868 ACBF ACBG ACBH ACBI ACBJ ACBK ACDA ACBL -- GND 2 MAX8867 MAX8868 4 OUT IN 3 SOT23-5 MAX886_EUK28 MAX886_EUK29 MAX886_EUK30 MAX886_EUK32 MAX886_EUK33 MAX886_EUK36 MAX886_EUK50 Other xy*** __________Typical Operating Circuit INPUT 2.5V TO 6.5V IN CIN 1F OUT COUT 1F OUTPUT PRESET 2.5V TO 5.0V 150mA MAX8867 MAX8868 SHDN CBP 0.01F BP GND ON OFF ***Other xy between 2.5V and 5.0V are available in 100mV increments. Contact factory for other versions. Minimum order quantity is 25,000 units. 1 ________________________________________________________________ Maxim Integrated Products For free samples & the latest literature: http://www.maxim-ic.com, or phone 1-800-998-8800. For small orders, phone 408-737-7600 ext. 3468. Low-Noise, Low-Dropout, 150mA Linear Regulators in SOT23 MAX8867/MAX8868 ABSOLUTE MAXIMUM RATINGS IN to GND ....................................................................-7V to +7V Output Short-Circuit Duration ............................................Infinite SHDN to GND..............................................................-7V to +7V SHDN to IN ...............................................................-7V to +0.3V OUT, BP to GND ..........................................-0.3V to (VIN + 0.3V) Continuous Power Dissipation (TA = +70C) SOT23-5 (derate 7.1mW/C above +70C)...................571mW Operating Temperature Range ...........................-40C to +85C Junction Temperature ......................................................+150C JB ..................................................................................140C/W Storage Temperature Range .............................-65C to +160C Lead Temperature (soldering, 10sec) .............................+300C 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 (VIN = VOUT(NOMINAL) + 0.5V, TA = -40C to +85C, unless otherwise noted. Typical values are at TA = +25C.) (Note 1) PARAMETER Input Voltage (Note 2) Output Voltage Accuracy Maximum Output Current Current Limit Ground Pin Current ILIM IQ No load IOUT = 150mA IOUT = 1mA Dropout Voltage (Note 2) Line Regulation Load Regulation Output Voltage Noise SHUTDOWN SHDN Input Threshold SHDN Input Bias Current Shutdown Supply Current Shutdown Exit Delay (Note 3) Shutdown Discharge Resistance VIH VIL ISHDN IQ, SHDN VIN = 2.5V to 5.5V VIN = 2.5V to 5.5V VSHDN = VIN VOUT = 0V CBP = 0.1F, COUT = 1F, no load MAX8868 only TA = +25C TA = +85C TA = +25C TA = +85C TA = +25C TA = -40C to +85C 300 0.01 0.5 0.01 0.2 30 150 300 1 2.0 0.4 100 V nA A s VLNR VLDR en IOUT = 50mA IOUT = 150mA VIN = (VOUT + 0.1V) to 6.5V, IOUT = 1mA IOUT = 0mA to 120mA, COUT = 1F f = 10Hz to 100kHz, CBP = 0.01F COUT = 10F COUT = 100F -0.15 SYMBOL VIN IOUT = 0mA, TA = +25C IOUT = 0mA to 120mA CONDITIONS MIN 2.5 -1.4 -3 150 160 390 85 100 1.1 55 165 0 0.01 30 20 0.15 0.04 %/V %/mA VRMS 120 mV 180 TYP MAX 6.5 1.4 2 UNITS V % mA mA A 2 _______________________________________________________________________________________ Low-Noise, Low-Dropout, 150mA Linear Regulators in SOT23 ELECTRICAL CHARACTERISTICS (continued) (VIN = VOUT(NOMINAL) + 0.5V, TA = -40C to +85C, unless otherwise noted. Typical values are at TA = +25C.) (Note 1) PARAMETER THERMAL PROTECTION Thermal Shutdown Temperature Thermal Shutdown Hysteresis TSHDN TSHDN 155 15 C C SYMBOL CONDITIONS MIN TYP MAX UNITS MAX8867/MAX8868 Note 1: Limits are 100% production tested at TA = +25C. Limits over the operating temperature range are guaranteed through correlation using Statistical Quality Control (SQC) Methods. Note 2: The dropout voltage is defined as VIN - VOUT, when VOUT is 100mV below the value of VOUT for VIN = VOUT + 0.5V. Note 3: Time needed for VOUT to reach 95% of final value. __________________________________________Typical Operating Characteristics (VIN = VOUT(NOMINAL) + 0.5V, CIN = 1F, COUT = 1F, CBP = 0.01F, TA = +25C, unless otherwise noted.) MAX886_EUK25 OUTPUT VOLTAGE vs. LOAD CURRENT MAX8867/8-01 MAX886_EUK50 OUTPUT VOLTAGE vs. LOAD CURRENT MAX8867/8-02 GROUND PIN CURRENT vs. LOAD CURRENT 105 GROUND PIN CURRENT (A) 100 95 90 85 80 75 70 65 MAX886_EUK25 MAX886_EUK50 MAX8867/8-03 2.60 5.2 110 OUTPUT VOLTAGE (V) 2.50 OUTPUT VOLTAGE (V) 2.55 5.1 5.0 2.45 4.9 2.40 0 50 100 150 LOAD CURRENT (mA) 4.8 0 50 100 150 LOAD CURRENT (mA) 60 0 50 100 150 LOAD CURRENT (mA) MAX886_EUK25 GROUND PIN CURRENT vs. INPUT VOLTAGE MAX8867/8-04 MAX886_EUK50 GROUND PIN CURRENT vs. INPUT VOLTAGE ILOAD = 50mA 100 GROUND PIN CURRENT (A) 80 NO LOAD 60 40 20 0 MAX8867/8-05 OUTPUT VOLTAGE vs. INPUT VOLTAGE MAX8867/8-06 120 ILOAD = 50mA 100 GROUND PIN CURRENT (A) 80 60 40 20 0 0 1 2 3 4 5 NO LOAD 120 6 5 OUTPUT VOLTAGE (V) 4 3 2 1 0 MAX886_EUK50 MAX886_EUK25 6 0 1 2 3 4 5 6 0 1 2 3 4 5 6 INPUT VOLTAGE (V) INPUT VOLTAGE (V) INPUT VOLTAGE (V) _______________________________________________________________________________________ 3 Low-Noise, Low-Dropout, 150mA Linear Regulators in SOT23 MAX8867/MAX8868 ____________________________Typical Operating Characteristics (continued) (VIN = VOUT(NOMINAL) + 0.5V, CIN = 1F, COUT = 1F, CBP = 0.01F, TA = +25C, unless otherwise noted.) MAX886_EUK25 OUTPUT VOLTAGE vs. TEMPERATURE MAX8867/8-07 MAX886_EUK50 OUTPUT VOLTAGE vs. TEMPERATURE MAX8867/8-08 GROUND PIN CURRENT vs. TEMPERATURE 180 GROUND PIN CURRENT (A) 160 140 120 100 80 60 40 20 MAX886_EUK25 MAX886_EUK50 ILOAD = 50mA MAX8867/8-09 2.60 ILOAD = 50mA OUTPUT VOLTAGE (V) 2.55 5.20 ILOAD = 50mA OUTPUT VOLTAGE (V) 5.10 200 2.50 5.00 2.45 4.90 2.40 -40 -20 0 20 40 60 80 100 TEMPERATURE (C) 4.80 -40 -20 0 20 40 60 80 100 TEMPERATURE (C) 0 -40 -20 0 20 40 60 80 100 TEMPERATURE (C) MAX886_EUK25 DROPOUT VOLTAGE vs. LOAD CURRENT MAX8867/8-10 MAX886_EUK50 DROPOUT VOLTAGE vs. LOAD CURRENT MAX8867/8-11 POWER-SUPPLY REJECTION RATIO vs. FREQUENCY MAX8867/8-12 MAX8867/8-15 250 200 TA = +85C DROPOUT VOLTAGE (mV) 150 TA = +25C 70 60 COUT = 10F 50 PSRR (dB) 40 30 20 10 ILOAD = 50mA CBP = 0.1F COUT = 1F DROPOUT VOLTAGE (mV) 200 TA = +85C 150 TA = +25C TA = -40C 50 100 TA = -40C 50 100 0 0 20 40 60 80 100 120 140 160 LOAD CURRENT (mA) 0 0 20 40 60 80 100 120 140 160 LOAD CURRENT (mA) 0 0.01 0.1 1 10 100 1000 FREQUENCY (kHz) OUTPUT NOISE SPECTRAL DENSITY vs. FREQUENCY MAX8867/8-13 OUTPUT NOISE vs. BP CAPACITANCE MAX8867/8-14 OUTPUT NOISE vs. LOAD CURRENT 60 50 OUTPUT NOISE (VRMS) 40 30 20 10 0 MAX886_EUK30 COUT = 10F CBP = 0.01F f = 10Hz TO 100kHz OUTPUT NOISE SPECTRAL DENSITY (V/Hz) 10 CBP = 0.01F ILOAD = 10mA 80 70 OUTPUT NOISE (VRMS) 60 50 MAX886_EUK50 40 30 20 MAX886_EUK25 10 0 MAX886_EUK30 COUT = 10F ILOAD = 10mA f = 10Hz TO 100kHz MAX886_EUK50 1 0.1 COUT = 1F COUT = 10F MAX886_EUK25 0.01 0.1 1 10 FREQUENCY (kHz) 100 1000 0.001 0.01 BP CAPACITANCE (F) 0.1 1 10 LOAD CURRENT (mA) 100 4 _______________________________________________________________________________________ Low-Noise, Low-Dropout, 150mA Linear Regulators in SOT23 ____________________________Typical Operating Characteristics (continued) (VIN = VOUT(NOMINAL) + 0.5V, CIN = 1F, COUT = 1F, CBP = 0.01F, TA = +25C, unless otherwise noted.) LOAD-TRANSIENT RESPONSE NEAR DROPOUT MAX8867/8-20 MAX8867/MAX8868 LOAD-TRANSIENT RESPONSE MAX8867/8-19 LINE-TRANSIENT RESPONSE MAX8867/8-18 3.01V 3.00V 2.99V VOUT 3.01V 3.00V 2.99V VOUT 4V VIN 3V 3.001V VOUT 50mA 0mA 10s/div MAX886_EUK30, VIN = VOUT + 0.5V, CIN = 10F, ILOAD = 0mA TO 50mA ILOAD 50mA ILOAD 0mA 10s/div MAX886_EUK30, VIN = VOUT + 0.1V, CIN = 10F, ILOAD = 0mA TO 50mA 100s/div MAX886_EUK30, ILOAD = 50mA 2.999V MAX8868 ENTERING SHUTDOWN MAX8867/8-25 MAX886_EUK25 SHUTDOWN EXIT DELAY MAX8867-21 MAX886_EUK50 SHUTDOWN EXIT DELAY MAX8867-23 2V 0V VSHDN 2V 0V CBP = 0.01F VSHDN 2V 0V CBP = 0.01F VSHDN 2V VOUT 1V 0V 500s/div NO LOAD ILOAD = 50mA CBP = 0.1F VOUT 4V CBP = 0.1F VOUT 2V 0V 0V 5s/div 5s/div ILOAD = 50mA MAX886_EUK25 10Hz TO 100kHz OUTPUT NOISE MAX8867/8-16 REGION OF STABLE COUT ESR vs. LOAD CURRENT MAX8867/8-17 100 10 COUT ESR () COUT = 10F 1 COUT = 1F VOUT 50V/div STABLE REGION 0.1 0.01 1ms/div COUT = 10F, CBP = 0.1F, ILOAD = 10mA 0 20 40 60 80 100 120 140 LOAD CURRENT (mA) _______________________________________________________________________________________ 5 Low-Noise, Low-Dropout, 150mA Linear Regulators in SOT23 MAX8867/MAX8868 ______________________________________________________________Pin Description PIN 1 2 3 4 5 NAME SHDN GND IN OUT BP FUNCTION Active-Low Shutdown Input. A logic low reduces the supply current to 10nA. On the MAX8868, a logic low also causes the output voltage to discharge to GND. Connect to IN for normal operation. Ground. This pin also functions as a heatsink. Solder to a large pad or the circuit-board ground plane to maximize power dissipation. Regulator Input. Supply voltage can range from 2.5V to 6.5V. Bypass with a 1F capacitor to GND (see Capacitor Selection and Regulator Stability section). Regulator Output. Sources up to 150mA. Bypass with a 1F (<0.2 typical ESR) capacitor to GND. Reference-Noise Bypass. Bypass with a low-leakage, 0.01F ceramic capacitor for reduced noise at the output. IN SHDN REVERSE BATTERY PROTECTION MAX8867 MAX8868 SHUTDOWN AND POWER-ON CONTROL ERROR AMP MOS DRIVER WITH ILIMIT P N OUT * THERMAL SENSOR 1.25V REF GND * AUTO-DISCHARGE, MAX8868 ONLY BP Figure 1. Functional Diagram _______________Detailed Description The MAX8867/MAX8868 are low-noise, low-dropout, low-quiescent-current linear regulators designed primarily for battery-powered applications. The parts are available with preset output voltages varying from 2.5V to 5.0V in 100mV increments. These devices can supply loads up to 150mA. As illustrated in Figure 1, the MAX8867/MAX8868 consist of a 1.25V reference, error amplifier, P-channel pass transistor, and internal feedback voltage divider. 6 The 1.25V bandgap reference is connected to the error amplifier's inverting input. The error amplifier compares this reference with the feedback voltage and amplifies the difference. If the feedback voltage is lower than the reference voltage, the pass-transistor gate is pulled lower, which allows more current to pass to the output and increases the output voltage. If the feedback voltage is too high, the pass-transistor gate is pulled up, allowing less current to pass to the output. The output voltage is fed back through an internal resistor voltage divider connected to the OUT pin. _______________________________________________________________________________________ Low-Noise, Low-Dropout, 150mA Linear Regulators in SOT23 An external bypass capacitor connected to the BP pin reduces noise at the output. Additional blocks include a current limiter, reverse battery protection, thermal sensor, and shutdown logic. The MAX8868 also includes an auto-discharge function, which actively discharges the output voltage to ground when the device is placed in shutdown mode. Operating Region and Power Dissipation The MAX8867/MAX8868's maximum power dissipation depends on the thermal resistance of the case and circuit board, the temperature difference between the die junction and ambient air, and the rate of air flow. The power dissipation across the device is P = IOUT (VIN VOUT). The maximum power dissipation is: PMAX = (TJ - TA) / (JB + BA) where TJ - TA is the temperature difference between the MAX8867/MAX8868 die junction and the surrounding air, JB (or JC) is the thermal resistance of the package, and BA is the thermal resistance through the printed circuit board, copper traces, and other materials to the surrounding air. The GND pin of the MAX8867/MAX8868 performs the dual function of providing an electrical connection to ground and channeling heat away. Connect the GND pin to ground using a large pad or ground plane. MAX8867/MAX8868 Output Voltage The MAX8867/MAX8868 are supplied with factory-set output voltages from 2.5V to 5V, in 100mV increments. Except for the MAX886_EUK29 and the MAX886_EUK32 (which have an output voltage preset at 2.84V and 3.15V, respectively), the two-digit suffix allows the customer to choose the output voltage in 100mV increments. For example, the MAX8867EUK33 has a preset output voltage of 3.3V. (see Expanded Ordering Information). Internal P-Channel Pass Transistor The MAX8867/MAX8868 feature a 1.1 typical P-channel MOSFET pass transistor. This provides several advantages over similar designs using PNP pass transistors, including longer battery life. The P-channel MOSFET requires no base drive, which reduces quiescent current considerably. PNP-based regulators waste considerable current in dropout when the pass transistor saturates. They also use high base-drive currents under large loads. The MAX8867/MAX8868 do not suffer from these problems and consume only 100A of quiescent current whether in dropout, light-load, or heavy-load applications (see the Typical Operating Characteristics). Reverse Battery Protection The MAX8867/MAX8868 have a unique protection scheme that limits the reverse supply current to 1mA when either VIN or V SHDN falls below ground. Their circuitry monitors the polarity of these two pins and disconnects the internal circuitry and parasitic diodes when the battery is reversed. This feature prevents device damage. Noise Reduction An external 0.01F bypass capacitor at BP, in conjunction with an internal 200k resistor, creates a 80Hz lowpass filter for noise reduction. The MAX8867/MAX8868 exhibit 30VRMS of output voltage noise with CBP = 0.01F and C OUT = 10F. Start-up time is minimized by a power-on circuit that pre-charges the bypass capacitor. The Typical Operating Characteristics show graphs of Noise vs. BP Capacitance, Noise vs. Load Current, and Output Noise Spectral Density. Current Limit The MAX8867/MAX8868 include a current limiter, which monitors and controls the pass transistor's gate voltage, limiting the output current to 390mA. For design purposes, consider the current limit to be 160mA minimum to 500mA maximum. The output can be shorted to ground for an indefinite amount of time without damaging the part. Thermal-Overload Protection Thermal-overload protection limits total power dissipation in the MAX8867/MAX8868. When the junction temperature exceeds TJ = +170C, the thermal sensor signals the shutdown logic, turning off the pass transistor and allowing the IC to cool. The thermal sensor will turn the pass transistor on again after the IC's junction temperature cools by 20C, resulting in a pulsed output during continuous thermal-overload conditions. Thermal-overload protection is designed to protect the MAX8867/MAX8868 in the event of fault conditions. For continual operation, do not exceed the absolute maximum junction-temperature rating of TJ = +150C. __________Applications Information Capacitor Selection and Regulator Stability Normally, use a 1F capacitor on the MAX8867/ MAX8868's input and a 1F to 10F capacitor on the output. Larger input capacitor values and lower ESRs provide better supply-noise rejection and line-transient response. Reduce noise and improve load-transient response, stability, and power-supply rejection by using large output capacitors. For stable operation over the full temperature range and with load currents up to 150mA, a minimum of 1F is recommended. Note that some ceramic dielectrics exhibit large capacitance and 7 _______________________________________________________________________________________ Low-Noise, Low-Dropout, 150mA Linear Regulators in SOT23 MAX8867/MAX8868 ESR variation with temperature. With dielectrics such as Z5U and Y5V, it may be necessary to use 2.2F or more to ensure stability at temperatures below -10C. With X7R or X5R dielectrics, 1F should be sufficient at all operating temperatures. Also, for high-ESR tantalum capacitors, 2.2F or more may be needed to maintain ESR in the stable region. A graph of the Region of Stable C OUT ESR vs. Load Current is shown in the Typical Operating Characteristics. Use a 0.01F bypass capacitor at BP for low output voltage noise. Increasing the capacitance will slightly decrease the output noise, but increase the start-up time. Values above 0.1F provide no performance advantage and are not recommended (see Shutdown Exit Delay graph in the Typical Operating Characteristics). When operating from sources other than batteries, improved supply-noise rejection and transient response can be achieved by increasing the values of the input and output bypass capacitors, and through passive filtering techniques. The Typical Operating Characteristics show the MAX8867/MAX8868's line- and load-transient responses. Load-Transient Considerations The MAX8867/MAX8868 load-transient response graphs (see Typical Operating Characteristics) show two components of the output response: a DC shift from the output impedance due to the load current change, and the transient response. A typical transient for a step change in the load current from 0mA to 50mA is 12mV. Increasing the output capacitor's value and decreasing the ESR attenuates the overshoot. PSRR and Operation from Sources Other than Batteries The MAX8867/MAX8868 are designed to deliver low dropout voltages and low quiescent currents in batterypowered systems. Power-supply rejection is 63dB at low frequencies and rolls off above 10kHz. See the Power-Supply Rejection Ratio Frequency graph in the Typical Operating Characteristics. Input-Output (Dropout) Voltage A regulator's minimum input-output voltage differential (or dropout voltage) determines the lowest usable supply voltage. In battery-powered systems, this will determine the useful end-of-life battery voltage. Because the MAX8867/MAX8868 use a P-channel MOSFET pass transistor, their dropout voltage is a function of drain-tosource on-resistance (RDS(ON)) multiplied by the load current (see Typical Operating Characteristics). ___________________Chip Information TRANSISTOR COUNT: 247 SUBSTRATE CONNECTED TO GND ________________________________________________________Package Information SOTPO3L.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. 8 _____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 (c) 1998 Maxim Integrated Products Printed USA is a registered trademark of Maxim Integrated Products. |
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