MBRM130LT1G, NRVBM130LT1G, MBRM130LT3G, NRVBM130LT3G Surface Mount Schottky Power Rectifier POWERMITE Power Surface Mount Package The SchottkyPOWERMITE employs the Schottky Barrier principle with a barrier metal and epitaxial construction that produces optimal forward voltage drop−reverse current tradeoff. The advanced packaging techniques provide for a highly efficient micro miniature, space saving surface mount Rectifier. With its unique heatsink design, thePOWERMITE has the same thermal performance as the SMA while being 50% smaller in footprint area, and delivering one of the lowest height profiles, 1.1 mm in the industry. Because of its small size, it is ideal for use in portable and battery powered products such as cellular and cordless phones, chargers, notebook computers, printers, PDAs and PCMCIA cards. Typical applications are AC−DC and DC−DC converters, reverse battery protection, and “ORing” of multiple supply voltages and any other application where performance and size are critical. Features SCHOTTKY BARRIER RECTIFIER 1.0 AMPERES, 30 VOLTS ANODE CATHODE POWERMITE CASE 457 PLASTIC MARKING DIAGRAM 1 Low Profile − Maximum Height of 1.1 mm Small Footprint − Footprint Area of 8.45 mm2 Low VF Provides Higher Efficiency and Extends Battery Life Supplied in 12 mm Tape and Reel Low Thermal Resistance with Direct Thermal Path of Die on Exposed Cathode Heat Sink ESD Ratings: Human Body Model = 3B (> 16 kV) Machine Model = C (> 400 V) AEC−Q101 Qualified and PPAP Capable NRVB Prefix for Automotive and Other Applications Requiring Unique Site and Control Change Requirements All Packages are Pb−Free* Mechanical Characteristics: http://onsemi.com POWERMITE is JEDEC Registered as D0−216AA Case: Molded Epoxy Epoxy Meets UL 94 V−0 @ 0.125 in Weight: 16.3 mg (Approximately) Lead and Mounting Surface Temperature for Soldering Purposes: 260C Maximum for 10 Seconds M BCGG 2 M = Date Code BCG = Device Code G = Pb−Free Package ORDERING INFORMATION Package Shipping† MBRM130LT1G POWERMITE (Pb−Free) 3,000 / Tape & Reel NRVBM130LT1G POWERMITE (Pb−Free) 3,000 / Tape & Reel MBRM130LT3G POWERMITE (Pb−Free) 12,000 / Tape & Reel NRVBM130LT3G POWERMITE (Pb−Free) 12,000 / Tape & Reel Device †For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging Specifications Brochure, BRD8011/D. *For additional information on our Pb−Free strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D. Semiconductor Components Industries, LLC, 2012 January, 2012 − Rev. 5 1 Publication Order Number: MBRM130L/D MBRM130LT1G, NRVBM130LT1G, MBRM130LT3G, NRVBM130LT3G MAXIMUM RATINGS Rating Peak Repetitive Reverse Voltage Working Peak Reverse Voltage DC Blocking Voltage Average Rectified Forward Current (At Rated VR, TC = 135C) Symbol Value Unit VRRM VRWM VR 30 V IO A 1.0 Peak Repetitive Forward Current (At Rated VR, Square Wave, 100 kHz, TC = 135C) IFRM Non−Repetitive Peak Surge Current (Non−Repetitive peak surge current, halfwave, single phase, 60 Hz) IFSM Storage Temperature Tstg −55 to 150 C Operating Junction Temperature TJ −55 to 125 C Voltage Rate of Change (Rated VR, TJ = 25C) A 2.0 A 50 dv/dt V/ms 10,000 Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect device reliability. THERMAL CHARACTERISTICS Characteristic Thermal Resistance, Junction−to−Lead (Anode) (Note 1) Thermal Resistance, Junction−to−Tab (Cathode) (Note 1) Thermal Resistance, Junction−to−Ambient (Note 1) Symbol Value Unit Rtjl Rtjtab Rtja 35 23 277 C/W 1. Mounted with minimum recommended pad size, PC Board FR4, See Figures 9 & 10 ELECTRICAL CHARACTERISTICS Characteristic Symbol Value VF Maximum Instantaneous Forward Voltage (Note 2), See Figure 2 (IF = 0.1 A) (IF = 1.0 A) (IF = 3.0 A) IR Maximum Instantaneous Reverse Current (Note 2), See Figure 4 (VR = 30 V) (VR = 20 V) (VR = 10 V) Unit TJ = 25C TJ = 85C 0.30 0.38 0.52 0.20 0.33 0.50 TJ = 25C TJ = 85C 0.41 0.13 0.05 11 5.3 3.2 V mA 10 TJ = 150C TJ = 125C 1.0 TJ = 85C TJ = 25C TJ = −40C 0.1 0 0.1 0.2 0.3 0.4 0.6 0.5 vF, INSTANTANEOUS FORWARD VOLTAGE (VOLTS) IF, INSTANTANEOUS FORWARD CURRENT (AMPS) iF, INSTANTANEOUS FORWARD CURRENT (AMPS) 2. Pulse Test: Pulse Width 250 ms, Duty Cycle 2% 10 TJ = 150C 1.0 TJ = 125C TJ = 85C TJ = 25C TJ = −40C 0.1 0 0.1 0.2 0.3 0.4 0.5 VF, MAXIMUM INSTANTANEOUS FORWARD VOLTAGE (VOLTS) Figure 1. Typical Forward Voltage Figure 2. Maximum Forward Voltage http://onsemi.com 2 0.6 100E−3 IR, REVERSE CURRENT (AMPS) 10E−3 TJ = 85C 1.0E−3 100E−6 TJ = 25C 10E−3 TJ = 85C 1.0E−3 100E−6 10E−6 1.0E−6 IR, MAXIMUM REVERSE CURRENT (AMPS) MBRM130LT1G, NRVBM130LT1G, MBRM130LT3G, NRVBM130LT3G 25 5.0 10 15 20 VR, REVERSE VOLTAGE (VOLTS) 0 30 10E−6 TJ = 25C 0 1.8 dc 1.6 FREQ = 20 kHz 1.4 SQUARE WAVE 1.2 1.0 Ipk/Io = p 0.8 Ipk/Io = 5 0.6 Ipk/Io = 10 0.4 Ipk/Io = 20 0.2 0 25 35 45 85 95 105 115 125 55 65 75 TL, LEAD TEMPERATURE (C) TJ, DERATED OPERATING TEMPERATURE (_C) Figure 5. Current Derating C, CAPACITANCE (pF) 1000 TJ = 25C 100 10 0 5.0 20 25 10 15 VR, REVERSE VOLTAGE (VOLTS) 30 Figure 4. Maximum Reverse Current PFO, AVERAGE POWER DISSIPATION (WATTS) IO, AVERAGE FORWARD CURRENT (AMPS) Figure 3. Typical Reverse Current 25 5.0 10 15 20 VR, REVERSE VOLTAGE (VOLTS) 30 Figure 7. Capacitance 0.7 0.6 Ipk/Io = 5 0.5 Ipk/Io = p SQUARE WAVE dc Ipk/Io = 10 0.4 Ipk/Io = 20 0.3 0.2 0.1 0 150 140 130 120 110 100 90 80 70 60 50 40 30 20 0 0.2 0.6 1.4 0.4 0.8 1.0 1.2 IO, AVERAGE FORWARD CURRENT (AMPS) 1.6 Figure 6. Forward Power Dissipation Rtja = 10C/W 15C/W 20C/W 25C/W 35C/W 0 25 15 5.0 10 20 VR, DC REVERSE VOLTAGE (VOLTS) 30 Figure 8. Typical Operating Temperature Derating* * Reverse power dissipation and the possibility of thermal runaway must be considered when operating this device under any reverse voltage conditions. Calculations of TJ therefore must include forward and reverse power effects. The allowable operating TJ = TJmax − r(t)(Pf + Pr) where TJ may be calculated from the equation: r(t) = thermal impedance under given conditions, Pf = forward power dissipation, and Pr = reverse power dissipation This graph displays the derated allowable TJ due to reverse bias under DC conditions only and is calculated as TJ = TJmax − r(t)Pr, where r(t) = Rthja. For other power applications further calculations must be performed. http://onsemi.com 3 R(T), TRANSIENT THERMAL RESISTANCE (NORMALIZED) R(T), TRANSIENT THERMAL RESISTANCE (NORMALIZED) MBRM130LT1G, NRVBM130LT1G, MBRM130LT3G, NRVBM130LT3G 1.0 50% 0.1 20% 10% 5.0% 0.01 2.0% 1.0% 0.001 0.00001 Rtjl(t) = Rtjl*r(t) 0.0001 0.001 0.01 1.0 0.1 10 100 T, TIME (s) Figure 9. Thermal Response Junction to Lead 1.0 50% 0.1 20% 10% 5.0% 0.01 2.0% Rtjl(t) = Rtjl*r(t) 1.0% 0.001 0.00001 0.0001 0.001 0.01 0.1 1.0 T, TIME (s) Figure 10. Thermal Response Junction to Ambient http://onsemi.com 4 10 100 1,000 MBRM130LT1G, NRVBM130LT1G, MBRM130LT3G, NRVBM130LT3G PACKAGE DIMENSIONS POWERMITE CASE 457−04 ISSUE E F 0.08 (0.003) C −A− J M T B S C S S NOTES: 1. DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982. 2. CONTROLLING DIMENSION: MILLIMETER. 3. DIMENSION A DOES NOT INCLUDE MOLD FLASH, PROTRUSIONS OR GATE BURRS. MOLD FLASH, PROTRUSIONS OR GATE BURRS SHALL NOT EXCEED 0.15 (0.006) PER SIDE. PIN 1 −B− DIM A B C D F H J K L R S K PIN 2 R L J D H −T− 0.08 (0.003) M T B S C MILLIMETERS INCHES MIN MAX MIN MAX 1.75 2.05 0.069 0.081 1.75 2.18 0.069 0.086 0.85 1.15 0.033 0.045 0.40 0.69 0.016 0.027 0.70 1.00 0.028 0.039 -0.05 +0.10 -0.002 +0.004 0.10 0.25 0.004 0.010 3.60 3.90 0.142 0.154 0.50 0.80 0.020 0.031 1.20 1.50 0.047 0.059 0.50 REF 0.019 REF STYLE 1: PIN 1. CATHODE 2. ANODE S SOLDERING FOOTPRINT* 0.635 0.025 2.67 0.105 0.762 0.030 2.54 0.100 1.27 0.050 SCALE 10:1 mm Ǔ ǒinches *For additional information on our Pb−Free strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D. POWERMITE is a registered trademark of and used under a license from Microsemi Corporation. ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. “Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. 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