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| MIC29310/29312 Micrel MIC29310/29312 3A Fast-Response LDO Regulator General Description Features The MIC29310 and MIC29312 are low cost versions of * Low cost versions of MIC29300 family MIC29300 family low-dropout (LDO) regulators. Manufac* Fast transient response tured on Micrel's proprietary Super beta PNPTM process, the * 3A current over full temperature range MIC29310/2 is a 3A LDO regulator with very low-dropout * 600mV dropout voltage at full load voltage (600mV over the full load) and low ground current. * Low ground current Along with a total accuracy of 2% (over temperature, line * Accurate 1% guaranteed tolerance and load regulation) these regulators feature very fast tran* "Zero" current shutdown mode (MIC29312) sient recovery from input voltage surges and output load * Fixed voltage and adjustable versions current changes. Applications The MIC29310 is available in fixed 3.3V and 5V outputs * Processor peripheral and I/O supplies voltages; the MIC29312 has an adjustable output which can * PC add-in cards be set by two external resistors to a voltage between 1.24V * High-efficiency "green" computer systems to 15V. In addition, all versions are fully protected against * High-efficiency linear power supplies overcurrent faults, reversed input polarity, reversed lead * High-efficiency switching supply post regulator insertion, and overtemperature operation. * Battery-powered equipment A TTL logic enable (EN) pin is available in the MIC29312 to shutdown the regulator. When not used, the device can be set to continuous operation by connecting EN to the input (IN). The MIC29310/2 is available in the standard 3- and 5-pin TO-220 and TO-263 packages with an operating junction temperature range of 0C to +125C. For applications requiring even lower dropout Ordering Information voltage, input voltage greater than 16V, or an Part Number Voltage Junction Temp. Range Package error flag, see the MIC29300/29301/29302/ MIC29310-3.3BT 3.3V 0C to +125C TO-220-3 29303. MIC29310-3.3BU MIC29310-5.0BT MIC29310-5.0BU MIC29312BT MIC29312BU 3.3V 5.0V 5.0V Adj. Adj. 0C to +125C 0C to +125C 0C to +125C 0C to +125C 0C to +125C TO-263-3 TO-220-3 TO-263-3 TO-220-5 TO-263-5 Typical Application MIC29312 On Off EN IN GND OUT R1* ADJ R2* VOUT VIN IN OUT GND VOUT VIN V OUT = 1. 240 R1 +1 R2 * For best performance, total series resistance (R1 + R2) should be small enough to pass the minimum regulator load current of 10mA. Fixed Regulator Configuration Adjustable Regulator Configuration Micrel, Inc. * 1849 Fortune Drive * San Jose, CA 95131 * USA * tel + 1 (408) 944-0800 * fax + 1 (408) 944-0970 * http://www.micrel.com July 1999 1 MIC29310/29312 MIC29310/29312 Micrel Pin Configuration 3 TAB OUT TAB 3 2 1 OUT GND IN 2 1 GND IN MIC29310-x.xBT TO-220 (T) MIC29310-x.xBU TO-263 (U) 5 4 3 2 1 ADJ OUT GND IN EN 5 4 3 2 1 ADJ OUT GND IN EN TAB TAB MIC29312-x.xBT TO-220-5 (T) MIC29312-x.xBU TO-263-5 (U) Pin Description Pin Number MIC29310 Pin Number MIC29312 1 1 2, TAB 3 2 3, TAB 4 5 Pin Name EN IN GND OUT ADJ Pin Function Enable (Input): Active-high, logic-level enable/shutdown control. Unregulated Input: +16V maximum supply. Ground: Ground pin and TAB are internally connected. Regulator Output Ouput Voltage Adjust: 1.24V feedback from external resistive divider. Absolute Maximum Ratings (Note 1) Input Voltage (VIN) ........................................ -20V to +20V Power Dissipation (PD) ............................ Internally Limited Storage Temperature Range (TS) ............ -65C to +150C Lead Temperature (soldering, 5 sec.) ....................... 260C ESD, Note 3 Operating Ratings (Note 2) Input Voltage (VIN) ....................................... +2.3V to +16V Junction Temperature (TJ) ........................... 0C to +125C Package Thermal Resistance TO-263 (JC) ......................................................... 2C/W TO-220 (JC) ......................................................... 2C/W TO-220 (JA) ....................................................... 55C/W MIC29310/29312 2 July 1999 MIC29310/29312 Micrel Electrical Characteristics TJ = 25C, bold values indicate 0C TJ +125C; unless noted Parameter Output Voltage Line Regulation Load Regulation VO / T Dropout Voltage Condition 10mA IO IFL, (VOUT + 1V) VIN 8V, Note 4 IO = 10mA, (VOUT + 1V) VIN 16V VIN = VOUT + 1V, 10mA IOUT IFULL LOAD, Notes 4, 8 Output Voltage Temperature Coefficient, Note 8 VOUT = -1%, Note 5 IO = 100mA IO = 750mA IO = 1.5A IO = 3A IO = 750mA, VIN = VOUT + 1V IO = 1.5A IO = 3A VIN = 0.5V less than specified VOUT. IOUT = 10mA VOUT = 0V, Note 6 CL = 10F CL = 33F 10mA IO IFL, VOUT + 1V VIN 8V, Note 4 1.215 40 Note 9 20 0.1 3.0 Min -2 0.06 0.2 20 80 220 330 600 5 15 60 2 3.8 7 400 260 10 Typ Max 2 0.5 1 100 200 Units % % % ppm/C mV mV mV mV mA mA mA mA A mA VRMS VRMS 1.265 80 120 VMAX nA nA ppm/C nA/C 1000 20 150 3 Ground Current IGNDDO Ground Pin Current at Dropout Current Limit Minimum Load Current en, Output Noise Voltage (10Hz to 100kHz) IL = 100mA Reference (MIC29312 only) Reference Voltage Adjust Pin Bias Current Reference Voltage Temperature Coefficient Adjust Pin Bias Current Temperature Coefficient Enable Input (MIC29312 only) Input Logic Voltage Enable Pin Input Current low (off) high (on) VEN = VIN VEN = 0.8V 0.8 2.4 15 - 10 20 30 75 2 4 V V A A A A A A Regulator Output Current in Shutdown Note 1. Note 2. Note 3. Note 4: Note 5: Note 6: Note 7: Note 8: Note 9: Note 10 Exceeding the absolute maximum rating may damage the device. The device is not guaranteed to function outside its operating rating. Devices are ESD sensitive. Handling precautions recommended. Full Load current is defined as 3A for the MIC29310/29312. For testing, VOUT is programmed to 5V. Dropout voltage is defined as the input-to-output differential when the output voltage drops to 99% of its nominal value with VOUT + 1V applied to VIN. For this test, VIN is the larger of 8V or VOUT + 3V. Ground pin current is the regulator quiescent current. The total current drawn from the source is the sum of the load current plus the ground pin current. Output voltage temperature coefficient is defined as the worst case voltage change divided by the total temperature range. VREF VOUT (VIN - 1V), 2.4V VIN 16V, 10mA < IL IFL, TJ TJ(max). Note 10: VEN 0.8V and VIN 8V, VOUT = 0. July 1999 3 MIC29310/29312 MIC29310/29312 Micrel Block Diagram IN *EN On/Off Bias O.V. ILIMIT 16V Reference OUT Feedback Thermal Shutdown ADJ* GND MIC29310/29312 * MIC29312 only. MIC29310/29312 4 July 1999 MIC29310/29312 Micrel Typical Characteristics MIC29312 Load Transient Response (See Test Circuit Schematic) VOUT 3.525V nominal 0.1F 93.1k 1% 4 x 330F AVX TPSE337M006R0100 tantalum MIC29312 EN VIN = VOUT + 1V IN GND OUT ADJ 49.9k 1% OUTPUT VOLTAGE +20mV 3.525V -20mV 1ms/division VOUT load (not shown): Intel(R) Power Validator LOAD CURRENT MIC29312 Load Transient Response Test Circuit 3A 200mA 0mA MIC29312 Line Transient Response with 3A Load, 10F Output Capacitance MIC29312 Line Transient Response with 3A Load, 100F Output Capacitance INPUT VOLTAGE 6.525V 4.525V INPUT VOLTAGE 6.525V 4.525V 200s/division IOUT = 3A COUT =10F 200s/division IOUT = 3A COUT = 100F OUTPUT VOLTAGE +20mV 3.525V -20mV OUTPUT VOLTAGE +20mV 3.525V -20mV MIC2931x Dropout Voltage vs. Output Current 0.60 0.50 0.40 0.30 0.20 0.10 0.00 0 1 2 OUTPUT CURRENT (A) 3 1 MIC2931x Dropout Voltage vs. Temperature OUTPUT VOLTAGE (V) 5.0 4.0 MIC29310-3.3 Dropout Characteristics DROPOUT VOLTAGE (mV) DROPOUT VOLTAGE (V) 0.8 0.6 0.4 0.2 0 -60 -30 0 30 60 90 120 150 TEMPERATURE (C) ILOAD = 3A ILOAD = 10mA 3.0 2.0 ILOAD = 3A 1.0 0.0 0 2 4 INPUT VOLTAGE (V) 6 July 1999 5 MIC29310/29312 MIC29310/29312 Micrel MIC2931x Ground Current vs. Input Voltage 2.0 200 MIC2931x Ground Current vs. Input Voltage GROUND CURRENT (mA) GROUND CURRENT (mA) IOUT = 3A 150 2.0 1.5 1.0 0.5 0.0 MIC2931x Ground Current vs. Input Voltage VOUT = 3.3V GROUND CURRENT (mA) IOUT = 10mA 1.5 1.0 100 0.5 50 RLOAD = 100 -0.5 -20 -10 0 10 INPUT VOLTAGE (V) 20 0.0 0 2 4 6 8 INPUT VOLTAGE (V) 10 0 0 2 4 6 8 INPUT VOLTAGE (V) 10 MIC2931x Ground Current vs. Temperature 6.0 20 MIC2931x Ground Current vs. Temperature 100 MIC2931x Ground Current vs. Temperature GROUND CURRENT (mA) GROUND CURRENT (mA) 5.0 4.0 3.0 2.0 1.0 0.0 -60 -30 0 30 60 90 120 150 TEMPERATURE (C) IOUT = 750mA GROUND CURRENT (mA) 15 IOUT = 1.5A 80 IOUT = 3A 60 40 20 0 -60 -30 0 30 60 90 120 150 TEMPERATURE (C) 10 5 0 -60 -30 0 30 60 90 120 150 TEMPERATURE (C) 60 MIC2931x Ground Current vs. Output Current OUTPUT VOLTAGE (V) 3.40 3.38 3.36 MIC29310-3.3 Output Voltage vs. Temperature 6 5 CURRENT (A) 4 3 2 1 MIC2931x Short Circuit Current vs. Temperature GROUND CURRENT (mA) 50 40 30 20 10 0 0 1 2 OUTPUT CURRENT (A) 3 3.34 3.32 3.30 3.28 3.26 3.24 3 DEVICES VOUT = 0V 3.22 3.20 -60 -30 0 30 60 90 120 150 TEMPERATURE (C) 0 -60 -30 0 30 60 90 120 150 TEMPERATURE (C) 40 ENABLE CURRENT (A) 35 30 25 20 15 10 5 MIC29312 Enable Current vs. Temperaure ADJUST PIN CURRENT (nA) 50 40 30 MIC29312 Adjust Pin Current vs. Temperature 10 MIC2931x Output Impedance vs. Frequency OUTPUT IMPEDANCE () 1 VEN = 5V ILOAD = 10mA 20 10 0 -60 -30 0 30 60 90 120 150 TEMPERATURE (C) 0.1 VEN = 2V 0.01 10x100 100x100 1x103 10x103 100x103 FREQUENCY (Hz) MIC29310/29312 6 July 1999 1x106 0 -60 -30 0 30 60 90 120 150 TEMPERATURE (C) 0.001 MIC29310/29312 Micrel PD = IOUT x (1.02VIN - VOUT) Where the ground current is approximated by 2% of IOUT. Then the heat sink thermal resistance is determined with this formula: TJ MAX - TA SA = ------------ - (JC + CS) PD Where TJ MAX 125C and CS is between 0 and 2C/W. The heat sink may be significantly reduced in applications where the minimum input voltage is known and is large compared with the dropout voltage. Use a series input resistor to drop excessive voltage and distribute the heat between this resistor and the regulator. The low dropout properties of Micrel Super eta PNP regulators allow very significant reductions in regulator power dissipation and the associated heat sink without compromising performance. When this technique is employed, a capacitor of at least 0.1F is needed directly between the input and regulator ground. Please refer to Application Note 9 for further details and examples on thermal design and heat sink specification. Capacitor Requirements For stability and minimum output noise, a capacitor on the regulator output is necessary. The value of this capacitor is dependent upon the output current; lower currents allow smaller capacitors. MIC29310/2 regulators are stable with a minimum capacitor value of 10F at full load. This capacitor need not be an expensive low ESR type: aluminum electrolytics are adequate. In fact, extremely low ESR capacitors may contribute to instability. Tantalum capacitors are recommended for systems where fast load transient response is important. Where the regulator is powered from a source with a high AC impedance, a 0.1F capacitor connected between Input and GND is recommended. This capacitor should have good characteristics to above 250kHz. Transient Response and 5V to 3.3V Conversion The MIC29310/2 have excellent response to variations in input voltage and load current. By virtue of their low dropout voltage, these devices do not saturate into dropout as readily as similar NPN-based designs. A 3.3V output Micrel LDO will maintain full speed and performance with an input supply as low as 4.2V, and will still provide some regulation with supplies down to 3.8V, unlike NPN devices that require 5.1V or more for good performance and become nothing more than a resistor under 4.6V of input. Micrel's PNP regulators provide superior performance in "5V to 3.3V" conversion applications than NPN regulators, especially when all tolerances are considered. Minimum Load Current The MIC29310/2 regulators are specified between finite Applications Information The MIC29310 and MIC29312 are high performance lowdropout voltage regulators suitable for all moderate to highcurrent voltage regulator applications. Their 600mV of dropout voltage at full load make them especially valuable in battery powered systems and as high efficiency noise filters in "post-regulator" applications. Unlike older NPN-pass transistor designs, where the minimum dropout voltage is limited by the base-emitter voltage drop and collector-emitter saturation voltage, dropout performance of the PNP output of these devices is limited merely by the low VCE saturation voltage. A trade-off for the low dropout voltage is a varying base drive requirement. But Micrel's Super eta PNPTM process reduces this drive requirement to merely 2% to 5% of the load current. MIC29310/312 regulators are fully protected from damage due to fault conditions. Current limiting is provided. This limiting is linear; output current under overload conditions is constant. Thermal shutdown disables the device when the die temperature exceeds the maximum safe operating temperature. Transient protection allows device (and load) survival even when the input voltage spike above and below nominal. The output structure of these regulators allows voltages in excess of the desired output voltage to be applied without reverse current flow. The MIC29312 version offers a logic level ON/OFF control: when disabled, the devices draw nearly zero current. An additional feature of this regulator family is a common pinout: a design's current requirement may change up or down yet use the same board layout, as all of Micrel's highcurrent Super eta PNPTM regulators have identical pinouts. VIN IN OUT GND VOUT Figure 3. The MIC29310 regulator requires only two capacitors for operation. Thermal Design Linear regulators are simple to use. The most complicated design parameters to consider are thermal characteristics. Thermal design requires the following application-specific parameters: * Maximum ambient temperature, TA * Output Current, IOUT * Output Voltage, VOUT * Input Voltage, VIN First, we calculate the power dissipation of the regulator from these numbers and the device parameters from this datasheet. July 1999 7 MIC29310/29312 MIC29310/29312 loads. If the output current is too small, leakage currents dominate and the output voltage rises. A 10mA minimum load current is necessary for proper regulation. Adjustable Regulator Design Micrel current of the sense comparator. The resistor values are calculated by: VOUT R1 = R2 x ( ----- - 1 ) 1.240 Where VO is the desired output voltage. Figure 4 shows component definition. Applications with widely varying load currents may scale the resistors to draw the minimum load current required for proper operation (see the table below). Enable Input The MIC29312 version features an enable (EN) input that allows ON/OFF control of the device. Special design allows "zero" current drain when the device is disabled--only microamperes of leakage current flows. The EN input has TTL/ CMOS compatible thresholds for simple interfacing with logic, or may be directly tied to VIN. Enabling the regulator requires approximately 20A of current into the EN pin. MIC29312BT VIN 4.75V to 5.25V 10F R1 100k 22F R2 56.2k VOUT 3.45V VOUT = 1.240V x [1 + (R1 / R2)] Figure 4. Adjustable Regulator with Resistors The adjustable regulator version, MIC29312, allows programming the output voltage anywhere between 1.25V and the 15V maximum operating rating of the family. Two resistors are used. Resistors can be quite large, up to 1M, because of the very high input impedance and low bias Resistor Value Table for the MIC29312 Adjustable Regulator Voltage 2.85 2.9 3.0 3.1 3.15 3.3 3.45 3.6 3.8 4.0 4.1 Standard () R1 100k 100k 100k 100k 100k 100k 100k 100k 100k 100k 100k R2 76.8k 75.0k 69.8k 66.5k 64.9k 60.4k 56.2k 52.3k 48.7k 45.3k 43.2k Min. Load () R1 162 165 174 187 191 205 221 237 255 274 287 R2 124 124 124 124 124 124 124 124 124 124 124 Note: This regulator has a minimum load requirement. "Standard" values assume the load meets this requirement. "Minimum Load" values are calculated to draw 10mA and allow regulation with an open load (the minimum current drawn from the load may be zero). MIC29310/29312 8 July 1999 MIC29310/29312 Micrel Package Information 0.151 D 0.005 (3.84 D 0.13) 0.410 0.010 (10.41 0.25) 0.108 0.005 (2.74 0.13) 0.176 0.005 (4.47 0.13) 0.050 0.005 (1.27 0.13) 0.590 0.005 (14.99 0.13) 7 0.818 0.005 (20.78 0.13) 0.356 0.005 (9.04 0.13) 7 3 1.140 0.010 (28.96 0.25) 0.050 0.003 (1.27 .08) 0.100 0.005 (2.54 0.13) 0.030 0.003 (0.76 0.08) 0.018 0.008 (0.46 0.020) 0.100 0.020 (2.54 0.51) DIMENSIONS: INCH (MM) TO-220-3 (T) 0.150 D 0.005 (3.81 D 0.13) 0.400 0.015 (10.16 0.38) 0.108 0.005 (2.74 0.13) 0.241 0.017 (6.12 0.43) 0.177 0.008 (4.50 0.20) 0.050 0.005 (1.27 0.13) 0.578 0.018 (14.68 0.46) SEATING PLANE 7 Typ. 0.550 0.010 (13.97 0.25) 0.067 0.005 (1.70 0.127) 0.268 REF (6.81 REF) 0.032 0.005 (0.81 0.13) 0.018 0.008 (0.46 0.20) 0.103 0.013 (2.620.33) Dimensions: inch (mm) TO-220-5 (T) July 1999 9 MIC29310/29312 MIC29310/29312 Micrel 0.4050.005 0.065 0.010 202 0.0500.005 0.176 0.005 0.050 0.005 0.3600.005 0.6000.025 SEATING PLANE 0.004 +0.004 -0.008 0.100 BSC DIM. = INCH 0.050 8 MAX 0.015 0.002 0.100 0.01 TO-263-3 (U) 0.4050.005 0.065 0.010 202 0.0500.005 0.176 0.005 0.060 0.005 0.3600.005 0.6000.025 SEATING PLANE 0.004 +0.004 -0.008 0.0670.005 DIM. = INCH 0.032 0.003 8 MAX 0.015 0.002 0.100 0.01 TO-263-5 (U) MIC29310/29312 10 July 1999 MIC29310/29312 Micrel July 1999 11 MIC29310/29312 MIC29310/29312 Micrel MICREL INC. 1849 FORTUNE DRIVE SAN JOSE, CA 95131 TEL USA + 1 (408) 944-0800 FAX + 1 (408) 944-0970 WEB http://www.micrel.com This information is believed to be accurate and reliable, however no responsibility is assumed by Micrel for its use nor for any infringement of patents or other rights of third parties resulting from its use. No license is granted by implication or otherwise under any patent or patent right of Micrel Inc. (c) 1999 Micrel Incorporated MIC29310/29312 12 July 1999 |
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