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| Data Sheet No. PD94130 IRU1160 6A ULTRA LOW DROPOUT POSITIVE ADJUSTABLE REGULATOR DESCRIPTION The IRU1160 is a 6A regulator with extremely low dropout voltage using a proprietary bipolar process that achieves comparable equivalent on resistance to that of discrete MOSFETs. This product is specifically designed to provide well regulated supply for applications requiring 2.8V or lower voltages from 3.3V ATX power supplies where high efficiency of a switcher can be achieved without the cost and complexity associated with switching regulators. FEATURES 0.62V Dropout at 6A Fast Transient Response 1% Voltage Reference Initial Accuracy Built-In Thermal Shutdown APPLICATIONS VGA Card Applications On-Board Low Voltage Regulator Supply such as 3.3V to 2.8V TYPICAL APPLICATION 3.3V C1 100uF VIN VCTRL 5 4 3 2 1 R1 100 1% R2 124 1% C3 100uF IRU1160 VOUT Adj VSENSE 2.7V 5V C2 100uF Figure 1 - Typical application of IRU1160 in a 3.3V to 2.8V. PACKAGE ORDER INFORMATION TJ (C) 0 To 125 5-PIN PLASTIC TO-263 (M) IRU1160CM 5-PIN PLASTIC Ultra Thin-PakTM (P) IRU1160CP Rev. 1.4 08/20/02 www.irf.com 1 IRU1160 ABSOLUTE MAXIMUM RATINGS Input Voltage (VIN) .................................................... Control Input Voltage (VCTRL) ..................................... Power Dissipation ..................................................... Storage Temperature Range ...................................... Operating Junction Temperature Range ..................... 7V 14V Internally Limited -65C To 150C 0C To 150C PACKAGE INFORMATION 5-PIN PLASTIC TO-263 (M) FRONT VIEW 5 5-PIN PLASTIC ULTRA THIN-PAKTM (P) FRONT VIEW 5 VIN VCTRL VOUT Adj VSENSE VIN VCTRL VOUT Adj VSENSE Tab is VOUT 4 3 2 1 Tab is VOUT 4 3 2 1 JA=35C/W for 0.5" square pad JA=35C/W for 0.5" square pad ELECTRICAL SPECIFICATIONS Unless otherwise specified, these specifications apply over CIN=mF, COUT=10mF, and TJ=0 to 1258C. Typical values refer to TJ=258C. VOUT=VSENSE. PARAMETER Reference Voltage SYM VREF TEST CONDITION VCTRL=2.75, VIN=2V, Io=10mA, TJ=258C, VADJ=0V VCTRL=2.7 to 12V, VIN=2.05V to 5.5V, MIN 1.225 1.225 TYP 1.250 1.250 MAX 1.275 1.275 3 6 UNITS V Io=10mA to 6A, VADJ=0V Line Regulation Load Regulation (Note 1) Dropout Voltage (Note 2) (VCTRL - VOUT) VCTRL=2.5V to 7V, VIN=1.75V to 5.5V, Dropout Voltage (Note 2) (VIN - VOUT) Current Limit Minimum Load Current (Note 3) Thermal Regulation Ripple Rejection Io=10mA, VADJ=0V VCTRL=2.75V, VIN=2.1V, Io=10mA to 6A, VADJ=0V VADJ=0V for all conditions below: VIN=2.05V, Io=1.5A VIN=2.05V, Io=5A VIN=2.05V, Io=6A VADJ=0V for all conditions below: VCTRL=2.75V, Io=1.5A VCTRL=2.75V, Io=5A VCTRL=2.75V, Io=6A VCTRL=2.75V, VIN=2.05V, DVo=100mV, VADJ=0V VCTRL=5V, VIN=3.3V, VADJ=0V 30ms Pulse VCTRL=5V, VIN=5V, Io=5A, VADJ=0V, TJ=258C, VRIPPLE=1VPP at 120Hz mV mV V 1.00 1.10 1.20 0.15 0.40 0.55 6.2 5 0.01 60 70 1.30 0.20 0.52 0.62 V 10 0.02 A mA %/W dB 2 www.irf.com Rev. 1.4 08/20/02 IRU1160 PARAMETER Control Pin Current SYM TEST CONDITION VADJ=0V for all below conditions: VCTRL=2.75V, VIN=2.05V, Io=1.5A VCTRL=2.75V, VIN=2.05V, Io=5A VCTRL=2.75V, VIN=2.05V, Io=6A VCTRL=2.75V, VIN=2.05V, VADJ=0V MIN TYP 15 50 60 50 MAX UNITS mA Adjust Pin Current IADJ 120 mA Note 1: Low duty cycle pulse testing with Kelvin connections are required in order to maintain accurate data. Note 2: Dropout voltage is defined as the minimum differential between VIN and VOUT required to maintain regulation at VOUT. It is measured when the output voltage drops 1% below its nominal value. Note 3: Minimum load current is defined as the minimum current required at the output in order for the output voltage to maintain regulation. Typically the resistor dividers are selected such that it automatically maintains this current. PIN DESCRIPTIONS PIN # PIN SYMBOL 1 VSENSE 2 3 4 Adj VOUT VCTRL PIN DESCRIPTION This pin is the positive side of the reference which allows remote load sensing to achieve excellent load regulation. A resistor divider from this pin to the VOUT pin and ground sets the output voltage. The output of the regulator. A minimum of 10mF capacitor must be connected from this pin to ground to insure stability. This pin is the supply pin for the internal control circuitry as well as the base drive for the pass transistor. This pin must always be higher than the VOUT pin in order for the device to regulate. (See specifications) The input pin of the regulator. Typically a large storage capacitor is connected from this pin to ground to insure that the input voltage does not sag below the minimum dropout voltage during the load transient response. This pin must always be higher than VOUT in order for the device to regulate. (See specifications) 5 VIN BLOCK DIAGRAM VIN 5 VCTRL 4 + 3 VOUT 1 VSENSE 1.25V CURRENT LIMIT + THERMAL SHUTDOWN 2 Adj Figure 2 - Simplified block diagram of the IRU1160. Rev. 1.4 08/20/02 www.irf.com 3 IRU1160 APPLICATION INFORMATION Introduction The IRU1160 adjustable regulator is a five-terminal device designed specifically to provide extremely low dropout voltages comparable to the PNP type without the disadvantage of the extra power dissipation due to the base current associated with PNP regulators. This is done by bringing out the control pin of the regulator that provides the base current to the power NPN and connecting it to a voltage that is grater than the voltage present at the VIN pin. This flexibility makes the IRU1160 ideal for applications where dual inputs are available such as a computer mother board with an ATX style power supply that provides 5V and 3.3V to the board. One such application is the new graphic chip sets that require anywhere from 2.4V to 2.7V supply such as the Intel I740 chip set. The IRU1160 can easily be programmed with the addition of two external resistors to any voltages within the range of 1.25 to 5.5 V. Another major requirement of these graphic chips such as the Intel I740 is the need to switch the load current from zero to several amps in tens of nanoseconds at the processor pins, which translates to an approximately 300 to 500ns of current step at the regulator. In addition, the output voltage tolerances are also extremely tight and they include the transient response as part of the specification. The IRU1160 is specifically designed to meet the fast current transient needs as well as providing an accurate initial voltage, reducing the overall system cost with the need for fewer number of output capacitors. Another feature of the device is its true remote sensing capability which allows accurate voltage setting at the load rather than at the device. Output Voltage Setting The IRU1160 can be programmed to any voltages in the range of 1.25V to 5.5V with the addition of R1 and R2 external resistors according to the following formula: VOUT = VREF3 1+ VIN VIN VOUT VOUT IRU1160 VCTRL VCTRL Adj VSENSE VREF R1 IADJ = 50uA R2 Figure 3 - Typical application of the IRU1160 for programming the output voltage. The IRU1160 keeps a constant 1.25V between the VSENSE pin and the VADJ pin. By placing a resistor R1 across these two pins and connecting the VSENSE and VOUT pin together, a constant current flows through R1, adding to the IADJ current and into the R2 resistor producing a voltage equal to the (1.25/R1)3R2 + IADJ3R2. This voltage is then added to the 1.25V to set the output voltage. This is summarized in the above equation. Since the minimum load current requirement of the IRU1160 is 10mA, R1 is typically selected to be a 121V resistor so that it automatically satisfies this condition. Notice that since the IADJ is typically in the range of 50mA, it adds a small error to the output voltage and should be considered when very precise output voltage setting is required. Load Regulation Since the IRU1160 has separate pins for the output (VOUT) and the sense (VSENSE), it is ideal for providing true remote sensing of the output voltage at the load. This means that the voltage drops due to parasitic resistance such as PCB traces between the regulator and the load are compensated for using remote sensing. Figure 4 shows a typical application of the IRU1160 with remote sensing. VIN VIN VOUT ( R2 R1 ) +IADJ3R2 VCTRL VCTRL IRU1160 VSENSE Adj R1 RL Where: VREF = 1.25V Typically IADJ = 50mA Typically R1 & R2 as shown in Figure 3: R2 Figure 4 - Schematic showing connection for best load regulation. 4 www.irf.com Rev. 1.4 08/20/02 IRU1160 Stability The IRU1160 requires the use of an output capacitor as part of the frequency compensation in order to make the regulator stable. Typical designs for the microprocessor applications use standard electrolytic capacitors with typical ESR in the range of 50 to 100mV and an output capacitance of 500 to 1000mF. Fortunately as the capacitance increases, the ESR decreases resulting in a fixed RC time constant. The IRU1160 takes advantage of this phenomena in making the overall regulator loop stable. For most applications a minimum of 100mF aluminum electrolytic capacitor such as Sanyo, MVGX series, Panasonic FA series as well as the Nichicon PL series insures both stability and good transient response. Thermal Design The IRU1160 incorporates an internal thermal shutdown that protects the device when the junction temperature exceeds the allowable maximum junction temperature. Although this device can operate with junction temperatures in the range of 1508C, it is recommended that the selected heat sink be chosen such that during maximum continuous load operation the junction temperature is kept below this number. The example below shows the steps in selecting the proper surface mount package. Assuming, the following conditions: VOUT = 2.8V VIN = 3.3V VCTRL = 5V IOUT = 3A (DC Avg) Calculate the maximum power dissipation using the following equation: ( IOUT)3(VCTRL - VOUT) 60 3 PD = 13(3.3 - 2.8)+( ) 3(5 - 2.8) = 1.61W 60 PD = IOUT3(VIN - VOUT)+ Using table below select the proper package and the amount of copper board needed. Pkg TO-263 TO-263 TO-263 TO-263 Copper JA(C/W) Area 1.4"X1.4" 25 1.0"X1.0" 30 0.7"X0.7" 35 Pad Size 45 Max Pd (TA=25C) 4.4W 3.7W 3.1W 2.4W Max Pd (TA=45C) 3.6W 3.0W 2.6W 2.0W Note: Above table is based on the maximum junction temperature of 1358C. IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245, USA Tel: (310) 252-7105 TAC Fax: (310) 252-7903 Visit us at www.irf.com for sales contact information Data and specifications subject to change without notice. 02/01 Rev. 1.4 08/20/02 www.irf.com 5 IRU1160 (M) TO-263 Package 5-Pin A K S V B H M E U L P G D N C R C L SYMBOL MIN MAX A 10.05 10.668 B 8.28 9.169 C 4.31 4.597 D 0.66 0.91 E 1.14 1.40 G 1.575 1.829 H 14.605 15.875 K 1.143 1.68 L 0.00 0.305 M 2.49 2.74 N 0.33 0.58 P 2.286 2.794 R 08 88 S 1.143 2.67 U 6.50 REF V 7.75 REF NOTE: ALL MEASUREMENTS ARE IN MILLIMETERS. 6 www.irf.com Rev. 1.4 08/20/02 IRU1160 (P) Ultra Thin-PakTM 5-Pin A A1 K E U V B H M L P G D N C R C L SYMBOL A A1 B C D E G H K L M N P R U V MIN MAX 9.27 9.52 8.89 9.14 7.87 8.13 1.78 2.03 0.63 0.79 0.25 NOM 1.72 10.41 10.67 0.76 1.27 0.03 0.13 0.89 1.14 0.25 0.79 1.04 38 68 5.59 NOM 7.49 NOM NOTE: ALL MEASUREMENTS ARE IN MILLIMETERS. Rev. 1.4 08/20/02 www.irf.com 7 IRU1160 PACKAGE SHIPMENT METHOD PKG DESIG M P TO-263 Ultra Thin-Pak TM PACKAGE DESCRIPTION PIN COUNT 5 5 PARTS PER TUBE 50 75 PARTS PER REEL 750 2500 T&R Orientation Fig A Fig B 1 1 1 1 1 1 Feed Direction Figure A Feed Direction Figure B IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245, USA Tel: (310) 252-7105 TAC Fax: (310) 252-7903 Visit us at www.irf.com for sales contact information Data and specifications subject to change without notice. 02/01 8 www.irf.com Rev. 1.4 08/20/02 |
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