MIC29150/29300/29500/29750 High-Current Low-Dropout Regulators General Description Features The MIC29150/29300/29500/29750 are high current, high accuracy, low-dropout voltage regulators. Using Micrel's proprietary Super eta PNP(R) process with a PNP pass element, these regulators feature 350mV to 425mV (full load) typical dropout voltages and very low ground current. Designed for high current loads, these devices also find applications in lower current, extremely low dropout-critical systems, where their tiny dropout voltage and ground current values are important attributes. The MIC29150/29300/29500/29750 are fully protected against overcurrent faults, reversed input polarity, reversed lead insertion, overtemperature operation, and positive and negative transient voltage spikes. Five pin fixed voltage versions feature logic level ON/OFF control and an error flag which signals whenever the output falls out of regulation. Flagged states include low input voltage (dropout), output current limit, overtemperature shutdown, and extremely high voltage spikes on the input. On the MIC29xx1 and MIC29xx2, the ENABLE pin may be tied to VIN if it is not required for ON/OFF control. The MIC29150/29300/29500 are available in 3-pin and 5-pin TO-220 and surface mount TO-263 (D2Pak) packages. The MIC29750 7.5A regulators are available in 3-pin and 5-pin TO-247 packages. The 1.5A, adjustable output MIC29152 is available in a 5-pin power D-Pak (TO-252) package. For applications with input voltage 6V or below, see MIC37xxx LDOs. Data sheets and support documentation can be found on Micrel's web site at www.micrel.com. * High current capability MIC29150/29151/29152/29153................................. 1.5A MIC29300/29301/29302/29303.................................... 3A MIC29500/29501/29502/29503.................................... 5A MIC29750/29751/29752............................................ 7.5A * Low-dropout voltage * Low ground current * Accurate 1% guaranteed tolerance * Extremely fast transient response * Reverse-battery and "Load Dump" protection * Zero-current shutdown mode (5-pin versions) * Error flag signals output out-of-regulation (5-pin versions) * Also characterized for smaller loads with industryleading performance specifications * Fixed voltage and adjustable versions Applications * * * * * Battery powered equipment High-efficiency "Green" computer systems Automotive electronics High-efficiency linear lower supplies High-efficiency lost-regulator for switching supply _________________________________________________________________________________________________________________________ Typical Application** Fixed Output Voltage Adjustable Output Voltage (*See Minimum Load Current Section) **See Thermal Design Section Super eta PNP is a registered trademark of Micrel, Inc. Micrel Inc. * 2180 Fortune Drive * San Jose, CA 95131 * USA * tel +1 (408) 944-0800 * fax + 1 (408) 474-1000 * http://www.micrel.com January 2012 M9999-013112-B Micrel, Inc. MIC29150/29300/29500/29750 Ordering Information Part Number Standard RoHS Compliant(2) Junction Temp. Range(1) Voltage Current Package MIC29150-3.3BT MIC29150-3.3WT(2) -40C to +125C 3.3 1.5A 3-Pin TO-220 MIC29150-3.3BU MIC29150-3.3WU(2) -40C to +125C 3.3 1.5A 3-Pin TO-263 MIC29150-5.0BT MIC29150-5.0WT (2) -40C to +125C 5 1.5A 3-Pin TO-220 (2) MIC29150-5.0BU -40C to +125C 5 1.5A 3-Pin TO-263 MIC29150-12BT MIC29150-12WT (2) -40C to +125C 12 1.5A 3-Pin TO-220 MIC29150-12BU MIC29150-12WU(2) -40C to +125C 12 1.5A 3-Pin TO-263 MIC29151-3.3BT (2) -40C to +125C 3.3 1.5A 5-Pin TO-220 MIC29151-3.3BU MIC29151-3.3WU (2) -40C to +125C 3.3 1.5A 5-Pin TO-263 MIC29151-5.0BT MIC29151-5.0WT(2) -40C to +125C 5 1.5A 5-Pin TO-220 MIC29151-5.0BU (2) MIC29151-12BT MIC29150-5.0WU MIC29151-3.3WT MIC29151-5.0WU MIC29151-12WT -40C to +125C 5 1.5A 5-Pin TO-263 (2) -40C to +125C 12 1.5A 5-Pin TO-220 (2) MIC29151-12BU MIC29151-12WU -40C to +125C 12 1.5A 5-Pin TO-263 MIC29152BT MIC29152WT(2) -40C to +125C Adj. 1.5A 5-Pin TO-220 MIC29152BU MIC29152WU(2) -40C to +125C Adj. 1.5A 5-Pin TO-263 -- (2) MIC29152WD -40C to +125C Adj. 1.5A 5-Pin TO-252 MIC29153BT(3) Contact Factory -40C to +125C Adj. 1.5A 5-Pin TO-220 MIC29153BU(3) Contact Factory -40C to +125C Adj. 1.5A 5-Pin TO-263 (2) -40C to +125C 3.3 3.0A 3-Pin TO-220 MIC29300-3.3BU MIC29300-3.3WU (2) -40C to +125C 3.3 3.0A 3-Pin TO-263 MIC29300-5.0BT MIC29300-5.0WT(2) -40C to +125C 5 3.0A 3-Pin TO-220 MIC29300-5.0BU (2) MIC29300-3.3BT MIC29300-3.3WT -40C to +125C 5 3.0A 3-Pin TO-263 MIC29300-12BT MIC29300-12WT (2) -40C to +125C 12 3.0A 3-Pin TO-220 MIC29300-12BU MIC29300-12WU(2) -40C to +125C 12 3.0A 3-Pin TO-263 MIC29301-3.3BT (2) -40C to +125C 3.3 3.0A 5-Pin TO-220 (2) -40C to +125C 3.3 3.0A 5-Pin TO-263 MIC29301-3.3BU MIC29300-5.0WU MIC29301-3.3WT MIC29301-3.3WU MIC29301-5.0BT MIC29301-5.0WT (2) -40C to +125C 5 3.0A 5-Pin TO-220 MIC29301-5.0BU MIC29301-5.0WU(2) -40C to +125C 5 3.0A 5-Pin TO-263 MIC29301-12BT MIC29301-12WT (2) -40C to +125C 12 3.0A 5-Pin TO-220 (2) MIC29301-12BU MIC29301-12WU -40C to +125C 12 3.0A 5-Pin TO-263 MIC29302BT MIC29302WT(2) -40C to +125C Adj. 3.0A 5-Pin TO-220 MIC29302BU MIC29302WU(2) -40C to +125C Adj. 3.0A 5-Pin TO-263 MIC29303BT (2) -40C to +125C Adj. 3.0A 5-Pin TO-220 (2) MIC29303WT MIC29303BU MIC29303WU -40C to +125C Adj. 3.0A 5-Pin TO-263 MIC29500-3.3BT MIC29500-3.3WT(2) -40C to +125C 3.3 5.0A 3-Pin TO-220 MIC29500-5.0BT MIC29500-5.0WT (2) -40C to +125C 5 5.0A 3-Pin TO-220 MIC29501-3.3BT MIC29501-3.3WT (2) -40C to +125C 3.3 5.0A 5-Pin TO-220 MIC29501-3.3BU MIC29501-3.3WU(2) -40C to +125C 3.3 5.0A 5-Pin TO-263 MIC29501-5.0BT MIC29501-5.0WT(2) -40C to +125C 5 5.0A 5-Pin TO-220 MIC29501-5.0BU MIC29501-5.0WU (2) -40C to +125C 5 5.0A 5-Pin TO-263 MIC29502BT MIC29502WT(2) -40C to +125C Adj. 5.0A 5-Pin TO-220 January 2012 2 M9999-013112-B Micrel, Inc. MIC29150/29300/29500/29750 Part Number RoHS Compliant(2) Standard Junction Temp. Range(1) Voltage Current Package MIC29502BU MIC29502WU(2) -40C to +125C Adj. 5.0A 5-Pin TO-263 MIC29503BT MIC29503WT(2) -40C to +125C Adj. 5.0A 5-Pin TO-220 MIC29503BU MIC29503WU (2) -40C to +125C Adj. 5.0A 5-Pin TO-263 MIC29750-3.3BWT Contact Factory -40C to +125C 3.3 7.5A 3-Pin TO-247 MIC29750-5.0BWT Contact Factory -40C to +125C 5 7.5A 3-Pin TO-247 MIC29751-3.3BWT Contact Factory -40C to +125C 3.3 7.5A 5-Pin TO-247 MIC29751-5.0BWT Contact Factory -40C to +125C 5 7.5A 5-Pin TO-247 -40C to +125C Adj. 7.5A 5-Pin TO-247 MIC29752BWT MIC29752WWT (2) Note: 1. Junction Temperature 2. RoHS compliant with `high-melting solder' exemption. 3. Special Order, Contact Factory Pin Configuration 3-Pin TO-220 (T) MIC29150/29300/29500 5-Pin TO-220 Fixed Voltage (T) MIC29151/29301/29501/29751 5-Pin TO-220 Adjustable Voltage (T) MIC29152/29302/29502 5-Pin TO-220 Adjustable with Flag (T) MIC29153/29303/29503 3-Pin TO-247 (WT) MIC29750 5-Pin TO-247 Fixed Voltage (WT) MIC29751 5-Pin TO-247 Adjustable Voltage (WT) MIC29752 3-Pin TO-263 (D2Pak) (UT) MIC29150/29300 January 2012 3 M9999-013112-B Micrel, Inc. MIC29150/29300/29500/29750 5-Pin TO-263 (D2Pak) Fixed Voltage (U) MIC29151/29301/29501 5-Pin TO-263 (D2Pak) Adjustable Voltage (U) MIC29302/29502 5-Pin TO-263 (D2Pak) Adjustable with Flag (U) MIC29153/29303/29503 5-Pin TO-252 (D-Pak) Adjustable Voltage (D) MIC29152 Pin Description Pin Number TO-220 TO-247 TO-263 Pin Name 1 INPUT: Supplies the current to the output power device 2 GND: TAB is also connected internally to the IC's ground on D-PAK. 3 OUTPUT: The regulator output voltage Pin Description Pin Number Fixed TO-220 TO-247 TO-263 Pin Number Adjustable TO-220 TO-247 TO-252 TO-263 Pin Number Adj. with Flag TO-220 TO-247 TO-263 1 1 -- Pin Name ENABLE: CMOS compatible control input. Logic high = enable, logic low = shutdown. 2 2 2 3, TAB 3, TAB 3, TAB 4 4 4 OUTPUT: The regulator output voltage -- 5 5 ADJUST: Adjustable regulator feedback input that connects to the resistor voltage divider that is placed from OUTPUT to GND in order to set the output voltage. 5 -- 1 FLAG: Active low error flag output signal that indicates an output fault condition January 2012 INPUT: Supplies the current to the output power device GND: TAB is also connected internally to the IC's ground on D-PAK. 4 M9999-013112-B Micrel, Inc. MIC29150/29300/29500/29750 Absolute Maximum Ratings(1) Operating Ratings(2) Input Supply Voltage (VIN)(1) ........................... -20V to +60V Enable Input Voltage (VEN) ................................ -0.3V to VIN Lead Temperature (soldering, 5sec.) ......................... 260C Power Dissipation ..................................... Internally Limited Storage Temperature Range .................... -65C to +150C ESD Rating................................................................ Note 3 Operating Junction Temperature .............. -40C to +125C Maximum Operating Input Voltage ................................ 26V Package Thermal Resistance TO-220 (JC)......................................................... 2C/W TO-263 (JC)......................................................... 2C/W TO-247 (JC) ..................................................... 1.5C/W TO-252 (JC)......................................................... 3C/W TO-252 (JA) ...................................................... 56C/W Electrical Characteristics(4,13) VIN = VOUT + 1V; IOUT = 10mA; TJ = 25C, bold values indicate -40C TJ +125C, unless noted. Parameter Condition Output Voltage IOUT = 10mA Min Max Units -1 1 % -2 2 % 0.06 0.5 % 0.2 1 % 20 100 ppm/C IOUT = 100mA IOUT = 750mA IOUT = 1.5A IOUT = 100mA IOUT = 1.5A IOUT = 3A IOUT = 250mA IOUT = 2.5A IOUT = 5A IOUT = 250mA IOUT = 4A IOUT = 7.5A 80 220 350 80 250 370 125 250 370 80 270 425 200 mV IOUT = 750mA, VIN = VOUT + 1V IOUT = 1.5A IOUT = 1.5A, VIN = VOUT + 1V IOUT = 3A IOUT = 2.5A, VIN = VOUT + 1V IOUT = 5A IOUT = 4A, VIN = VOUT + 1V IOUT = 7.5A 8 22 10 37 15 70 35 120 20 mA 35 mA 50 mA 75 mA IGRNDDOGround Pin Current at Droupout VIN = 0.5V less than specified VOUT x IOUT = 10mA MIC29150 MIC29300 MIC29500 MIC29750 0.9 1.7 2.1 3.1 Current Limit MIC29150 MIC29300 MIC29500 MIC29750 10mA IOUT IFL, (VOUT + 1V) VIN 26V Line Regulation Load Regulation IOUT = 10mA, (VOUT + 1V) VIN 26V VIN = VOUT + 1V, 10mA IOUT 1.5A Output Voltage Temperature Coefficient. Dropout Voltage VOUT = -1% (6) MIC29150 MIC29300 MIC29500 MIC29750 MIC29150 MIC29300 MIC29500 MIC29750 Note 8 January 2012 (5,9) (9) VO T Ground Current (5) VOUT = 0V (7) VOUT = 0V (7) VOUT = 0V (7) VOUT = 0V (7) Typ 2.1 4.5 7.5 9.5 5 600 175 600 250 600 200 750 mA mA mA mA 3.5 5.0 10.0 15 A A A A M9999-013112-B Micrel, Inc. MIC29150/29300/29500/29750 Parameter Condition en, Output Noise Voltage (10Hz to 100kHz) IL = 100mA CL = 10F 400 CL = 33F 260 Ground Current in Shutdown Reference Min MIC29150/1/2/3 only VEN = 0.4V Max Units V (rms) 2 10 30 A A 1.240 1.252 1.265 V V 1.277 V 80 120 nA MIC29xx2/MIC29xx3 Reference Voltage 1.228 1.215 Reference Voltage 1.203 Adjust Pin Bias Current Reference Voltage Temperature Coefficient Typ 40 (10) Adjust Pin Bias Current Temperature Coefficient 20 ppm/C 0.1 nA/C Flag Output (Error Comparator) MIC29xx1/29xx3 Output Leakage Current VOH = 26V 0.01 1.00 2.00 A Output Low Voltage Device set for 5V, VIN = 4.5V IOL = 250A 220 300 400 mV Upper Threshold Voltage Device set for 5V (11) Lower Threshold Voltage Device set for 5V (11) 75 Hysteresis Device set for 5V (11) 15 ENABLE Input 40 25 95 140 mV mV V 0.8 2.4 VEN = 26V Input Current VEN = 0.8V Regulator Output Current in Shutdown (12) January 2012 mV MIC29xx1/MIC29xx2 Input Logic Voltage Low (OFF) High (ON) Enable Pin 60 100 0.7 10 6 600 750 A 2 4 A 500 A M9999-013112-B Micrel, Inc. MIC29150/29300/29500/29750 Notes: 1. Maximum positive supply voltage of 60V must be of limited duration (<100msec) and duty cycle (1%). The maximum continuous supply voltage is 26V. Exceeding the absolute maximum rating may damage the device. 2. The device is not guaranteed to function outside its operating rating. 3. Devices are ESD sensitive. Handling precautions recommended. 4. Specification for packaged product only. 5. Full load current (IFL) is defined as 1.5A for the MIC29150, 3A for the MIC29300, 5A for the MIC29500, and 7.5A for the MIC29750 families. 6. Dropout voltage is defined as the input-to-output differential when the output voltage drops to 99% of its normal value with VOUT + 1V applied to VIN. 7. VIN = VOUT (nominal) + 1V. For example, use VIN = 4.3V for a 3.3V regulator or use 6V for a 5V regulator. Employ pulse-testing procedures to pin current. 8. 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. 9. Output voltage temperature coefficient is defined as the worst case voltage change divided by the total temperature range. 10. Thermal regulation is defined as the change in output voltage at a time T after a change in power dissipation is applied, excluding load or line regulation effects. Specifications are for a200mA load pulse at VIN = 20V (a 4W pulse) for T = 10ms. 11. Comparator thresholds are expressed in terms of a voltage differential at the Adjust terminal below the nominal reference voltage measured at 6V input. To express these thresholds in terms of output voltage change, multiply by the error amplifier gain = VOUT/VREF = (R1 + R2)/R2. For example, at a programmed output voltage of 5V, the Error output is guaranteed to go low when the output drops by 95mV x 5V/1.240V = 384mV. Thresholds remain constant as a percent of VOUT as VOUT is varied, with the dropout warning occurring at typically 5% below nominal, 7.7% guaranteed. 12. VEN 0.8V and VIN 26V, VOUT = 0. 13. When used in dual supply systems where the regulator load is returned to a negative supply, the output voltage must be diode clamped to ground. January 2012 7 M9999-013112-B Micrel, Inc. MIC29150/29300/29500/29750 Typical Characteristics MIC2915x January 2012 8 M9999-013112-B Micrel, Inc. January 2012 MIC29150/29300/29500/29750 9 M9999-013112-B Micrel, Inc. MIC29150/29300/29500/29750 Typical Characteristics MIC2930x January 2012 10 M9999-013112-B Micrel, Inc. January 2012 MIC29150/29300/29500/29750 11 M9999-013112-B Micrel, Inc. MIC29150/29300/29500/29750 Typical Characteristics MIC2950x January 2012 12 M9999-013112-B Micrel, Inc. January 2012 MIC29150/29300/29500/29750 13 M9999-013112-B Micrel, Inc. MIC29150/29300/29500/29750 Typical Characteristics MIC2975x January 2012 14 M9999-013112-B Micrel, Inc. January 2012 MIC29150/29300/29500/29750 15 M9999-013112-B Micrel, Inc. MIC29150/29300/29500/29750 Functional Diagram January 2012 16 M9999-013112-B Micrel, Inc. MIC29150/29300/29500/29750 * 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. Application Information The MIC29150/29300/29500/29750 are high performance low-dropout voltage regulators suitable for all moderate to high-current voltage regulator applications. Their 350mV to 425mV typical 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 NPNpass 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 driver requirement. But Micrel's Super eta PNP(R) process reduces this drive requirement to merely 1% of the load current. The MIC29150/29300/29500/29750 family of 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 125C maximum safe operating temperature. Line transient protection allows device (and load) survival even when the input voltage spikes between -20V and +60V. When the input voltage exceeds approximately 32V, the over voltage sensor disables the regulator. The output structure of these regulators allows voltages in excess of the desired output voltage to be applied without reverse current flow. MIC29xx1 and MIC29xx2 versions offer 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 these regulators have identical pinouts. PD = IOUT (1.01 VIN - VOUT ) Where the ground current is approximated by 1% of IOUT. Then the heat sink thermal resistance is determined with this formula: T - TA SA = JMAX - (JC + CS ) PD Where TJMAX 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(R) 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 and Application Hint 17 for further details and examples on thermal design and heat sink specification. With no heat sink in the application, calculate the junction temperature to determine the maximum power dissipation that will be allowed before exceeding the maximum junction temperature of the MIC29152. The maximum power allowed can be calculated using the thermal resistance (JA) of the D-Pak adhering to the following criteria for the PCB design: 2 oz. copper and 100mm2 copper area for the MIC29152. For example, given an expected maximum ambient temperature (TA) of 75C with VIN = 3.3V, VOUT = 2.5V, and IOUT = 1.5A, first calculate the expected PD using Equation (1); PD=(3.3V-2.5V)1.5A-(3.3V)(0.016A)=1.1472W Next, calcualte the junction temperature for the expected power dissipation. MIC29XXX VIN OUT IN VOUT GND TJ=(JAxPD)+TA=(56C/Wx1.1472W)+75C=139.24C Now determine the maximum power dissipation allowed that would not exceed the IC's maximum junction temperature (125C) without the useof a heat sink by Figure 3. Linear regulators require 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: PD(MAX)=(TJ(MAX)-TA)/JA=(125C-75C)/(56C/W) =0.893W * Maximum ambient temperature, TA January 2012 17 M9999-013112-B Micrel, Inc. MIC29150/29300/29500/29750 Adjustable Regulator Design 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. The MIC29150/29300/29500/29750 regulators are stable with the following minimum capacitor values at full load: Device Full Load Capacitor MIC29150...............................................10F MIC29300...............................................10F MIC29500...............................................10F MIC29750...............................................22F 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. MIC29152BT VIN VOUT R1 10F 22F R2 Figure 4. Adjustable Regulator with Resistors The adjustable regulator versions, MIC29xx2 and MIC29xx3, allow programming the output voltage anywhere between 1.25V and the 25V. Two resistors are used. The resistor values are calculated by: Minimum Load Current The MIC29150-29750 regulators are specified between finite loads. If the output current is too small, leakage currents dominate and the output voltage rises. The following minimum load current swamps any expected leakage current across the operating temperature range: Device Minimum Load MIC29150................................................5mA MIC29300................................................7mA MIC29500..............................................10mA MIC29750..............................................10mA V R 1 = R 2 x OUT - 1 1.240 where VOUT 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 "Minimum Load Current" section). Error Flag MIC29xx1 and MIC29xx3 versions feature an Error Flag, which looks at the output voltage and signals an error condition when this voltage drops 5% below its expected value. The error flag is an open-collector output that pulls low under fault conditions. It may sink 10mA. Low output voltage signifies a number of possible problems, including an overcurrent fault (the device is in current limit) and low input voltage. The flag output is inoperative during overtemperature shutdown conditions. Enable Input MIC29xx1 and MIC29xx2 versions feature 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 30V. Enabling the regulator requires approximately 20A of current. January 2012 18 M9999-013112-B Micrel, Inc. MIC29150/29300/29500/29750 Package Information 3-Pin TO-220 (T) 5-Pin TO-220 (T) January 2012 19 M9999-013112-B Micrel, Inc. MIC29150/29300/29500/29750 5-Pin TO-263 (U) 3-Pin TO-263 (U) January 2012 20 M9999-013112-B Micrel, Inc. MIC29150/29300/29500/29750 5-Pin TO-247 (WT) 3-Pin TO-247 (WT) January 2012 21 M9999-013112-B Micrel, Inc. MIC29150/29300/29500/29750 5-Pin TO-252 (D) MICREL, INC. 2180 FORTUNE DRIVE SAN JOSE, CA 95131 USA TEL +1 (408) 944-0800 FAX +1 (408) 474-1000 WEB http://www.micrel.com Micrel makes no representations or warranties with respect to the accuracy or completeness of the information furnished in this data sheet. This information is not intended as a warranty and Micrel does not assume responsibility for its use. Micrel reserves the right to change circuitry, specifications and descriptions at any time without notice. No license, whether express, implied, arising by estoppel or otherwise, to any intellectual property rights is granted by this document. Except as provided in Micrel's terms and conditions of sale for such products, Micrel assumes no liability whatsoever, and Micrel disclaims any express or implied warranty relating to the sale and/or use of Micrel products including liability or warranties relating to fitness for a particular purpose, merchantability, or infringement of any patent, copyright or other intellectual property right. Micrel Products are not designed or authorized for use as components in life support appliances, devices or systems where malfunction of a product can reasonably be expected to result in personal injury. Life support devices or systems are devices or systems that (a) are intended for surgical implant into the body or (b) support or sustain life, and whose failure to perform can be reasonably expected to result in a significant injury to the user. A Purchaser's use or sale of Micrel Products for use in life support appliances, devices or systems is a Purchaser's own risk and Purchaser agrees to fully indemnify Micrel for any damages resulting from such use or sale. (c) 2012 Micrel, Incorporated. January 2012 22 M9999-013112-B Micrel, Inc. MIC29150/29300/29500/29750 Revision History Date Change Description/Edits by: Revisions 6/18/08 Locked document. M.Mclean 15 5/28/09 Unlocked document, removed some styles, minor formatting. M.Galvan 16 6/3/09 Fixed EC table font from 10pst to pts, moved Typ. App. drwg to front page 7/23/09 Edited EC table and diagrams, added pin descriptions. 072309_AMSr1 9/18/09 Added EVB Circuit and BOM. Text added to Thermal Design section 091809_AMS 9/22/09 Removed EVB Circuit and BOM 092409_AMS 10/12/09 Update drawings and curves Martha taken over for Mike January 2012 23 M9999-013112-B