L7800AB/AC SERIES PRECISION 1A REGULATORS ■ ■ ■ ■ ■ ■ OUTPUT CURRENT IN EXCESS OF 1A OUTPUT VOLTAGES OF 5; 6; 8; 9; 12; 15; 18; 20; 24V THERMAL OVERLOAD PROTECTION OUTPUT TRANSITION SOA PROTECTION 2% OUTPUT VOLTAGE TOLERANCE GUARANTEED IN EXTENDED TEMPERATURE RANGE DESCRIPTION The L7800A series of three terminal positive regulators is available in TO-220, TO-220FP and D2PAK packages and several fixed output voltages, making it useful in a wide range of applications. These regulators can provide local on-card regulation, eliminating the distribution problem associated with single point regulation. Each type employs internal current limiting, thermal shut-down and safe area protection, making it essentially indestructible. If adeguate heat sinking is provided, they can deliver over 1A TO-220 TO-220FP D 2PAK output current, Although designed primarily as fixed voltage regulators, these devices can be used with external components to obtain adjustable voltage and currents. SCHEMATIC DIAGRAM October 2001 1/18 L7800AB/AC SERIES ABSOLUTE MAXIMUM RATINGS Symbol VI Parameter DC Input Voltage (for VO= 5 to 18V) (for VO= 20, 24V) Value Unit 35 40 V V IO Output Current Internally Limited mA PD Power Dissipation Internally Limited mW Tstg Storage Temperature Range -65 to +150 °C Top Operating Junction Temperature Range (for L7800AC) (for L7800AB) 0 to +150 -40 to +125 °C °C Absolute Maximum Ratings are those values beyond which damage to the device may occur. Functional operation under these condition is not implied. THERMAL DATA Symbol Parameter TO-220 D2PAK Unit R thj-case Thermal Resistance Junction-case 3 3 °C/W R thj-amb Thermal Resistance Junction-ambient 50 62.5 °C/W SHEMATIC DIAGRAM 2/18 L7800AB/AC SERIES CONNECTION DIAGRAM (top view) TO-220 TO-220FP D2PAK ORDERING CODES TYPE TO-220 TO-220FP D2 PAK (*) OUTPUT VOLTAGE L7805AB L7805AC L7806AB L7806AC L7808AB L7808AC L7809AB L7809AC L7812AB L7812AC L7815AB L7815AC L7818AB L7818AC L7820AB L7820AC L7824AB L7805ABV L7805ACV L7806ABV L7806ACV L7808ABV L7808ACV L7809ABV L7809ACV L7812ABV L7812ACV L7815ABV L7815ACV L7818ABV L7818ACV L7820ABV L7820ACV L7824ABV L7805ABP L7805ACP L7806ABP L7806ACP L7808ABP L7808ACP L7809ABP L7809ACP L7812ABP L7812ACP L7815ABP L7815ACP L7818ABP L7818ACP L7820ABP L7820ACP L7824ABP L7805ABD2T L7805ACD2T L7806ABD2T L7806ACD2T L7808ABD2T L7808ACD2T L7809ABD2T L7809ACD2T L7812ABD2T L7812ACD2T L7815ABD2T L7815ACD2T L7818ABD2T L7818ACD2T L7820ABD2T L7820ACD2T L7824ABD2T 5V 5V 6V 6V 8V 8V 9V 9V 12 V 12 V 15 V 15 V 18 V 18 V 20 V 20 V 24 V L7824AC L7824ACV L7824ACP L7824ACD2T 24 V (*) Available in Tape & Reel with the suffix ”R” for fixed version and ”-R” for adjustable version. APPLICATION CIRCUITS 3/18 L7800AB/AC SERIES TEST CIRCUITS Figure 1 : DC Parameter Figure 2 : Load Regulation Figure 3 : Ripple Rejection 4/18 L7800AB/AC SERIES ELECTRICAL CHARACTERISTICS OF L7805A (VI=10V, IO=1A, TJ = 0 to 150°C (L7805AC), T J = -40 to 125°C (L7805AB), unless otherwise specified.) Symbol Parameter Test Conditions VO Output Voltage T J = 25°C VO Output Voltage IO = 5mA to 1A V I = 7.5 to 20V PO ≤ 15W ∆VO (*) Line Regulation V I = 7.5 to 25V IO = 500 mA V I = 8 to 12V ∆VO(*) Load Regulation V I = 8 to 12V TJ = 25°C V I = 7.3 to 20V TJ = 25°C IO = 5mA to 1A IO = 5mA to 1.5A TJ = 25°C IO = 250 to 750mA Iq ∆Iq Quiescent Current Quiescent Current Change T J = 25°C Min. Typ. Max. Unit 4.9 5 5.1 V 4.8 5 5.2 V 7 50 mV 10 50 mV 2 25 mV 7 50 mV 25 100 mV 30 100 V 8 50 V 4.3 Supply Voltage Rejection IO = 500 mA V I = 7.5 to 20V TJ = 25°C 0.8 mA 0.5 mA V I = 8 to 18V IO = 500mA Vd Dropout Voltage IO = 1A eN Output Noise Voltage T A = 25°C RO Output Resistance f =1KHz Isc Short Circuit Current V I = 35V Iscp Short Circuit Peak Current T J = 25°C ∆VO /∆T Output Voltage Drift mA mA mA V I = 8 to 25V IO = 5mA to 1A SVR 6 6 0.8 f = 120Hz TJ = 25°C 68 dB 2 V B =10Hz to 100KHz 10 µV/V O 17 mΩ TA = 25°C 0.2 A 2.2 A -1.1 mv/°C (*) Load and Line Regulation are specified at constant junction temperature. Changes in VO due to heating effects must be taken into account separately. Pulse testing with low duty cycle is used. 5/18 L7800AB/AC SERIES ELECTRICAL CHARACTERISTICS OF L7806A (VI=11V, IO=1A, TJ = 0 to 150°C (L7806AC), T J = -40 to 125°C (L7806AB), unless otherwise specified.) Symbol Parameter Test Conditions Min. 5.88 6 6.12 V 5.76 6 6.24 V VO Output Voltage T J = 25°C VO Output Voltage IO = 5mA to 1A V I = 8.6 to 21V PO ≤ 15W V I = 8.6 to 25V IO = 500 mA ∆VO (*) Line Regulation V I = 9 to 13V ∆VO(*) Load Regulation ∆Iq Quiescent Current Quiescent Current Change Max. Unit 9 60 mV 11 60 mV V I = 9 to 13V TJ = 25°C 3 30 mV V I = 8.3 to 21V TJ = 25°C 9 60 mV 25 100 mV IO = 5mA to 1A IO = 5mA to 1.5A Iq Typ. 30 100 V IO = 250 to 750mA TJ = 25°C 10 50 V T J = 25°C 4.3 V I = 9 to 25V IO = 500 mA V I = 8.6 to 21V TJ = 25°C IO = 5mA to 1A 6 mA 6 0.8 mA mA 0.8 mA 0.5 mA Supply Voltage Rejection V I = 9 to 19V IO = 500mA f = 120Hz 65 dB Vd Dropout Voltage IO = 1A TJ = 25°C 2 V SVR eN Output Noise Voltage T A = 25°C RO Output Resistance f =1KHz Isc Short Circuit Current V I = 35V Iscp Short Circuit Peak Current T J = 25°C ∆VO /∆T Output Voltage Drift B =10Hz to 100KHz TA = 25°C 10 µV/V O 17 mΩ 0.2 A 2.2 A -0.8 mV/°C (*) Load and Line Regulation are specified at constant junction temperature. Changes in VO due to heating effects must be taken into account separately. Pulse testing with low duty cycle is used. 6/18 L7800AB/AC SERIES ELECTRICAL CHARACTERISTICS OF L7808A (VI=14V, IO=1A, TJ = 0 to 150°C (L7808AC), T J = -40 to 125°C (L7808AB), unless otherwise specified.) Symbol Parameter Test Conditions VO Output Voltage T J = 25°C VO Output Voltage IO = 5mA to 1A V I =10.6 to 23V PO ≤ 15W V I = 10.6 to 25V IO = 500 mA ∆VO (*) Line Regulation V I = 11 to 17V ∆VO(*) Load Regulation ∆Iq Quiescent Current Quiescent Current Change Typ. Max. Unit 7.84 8 8.16 V 7.7 8 8.3 V 12 80 mV 15 80 mV V I = 11 to 17V TJ = 25°C 5 40 mV V I = 10.4 to 23V TJ = 25°C 12 80 mV 25 100 mV IO = 5mA to 1A IO = 5mA to 1.5A Iq Min. 30 100 V IO = 250 to 750mA TJ = 25°C 10 50 V T J = 25°C 4.3 V I = 11 to 25V IO = 500 mA V I = 10.6 to 23V TJ = 25°C IO = 5mA to 1A 6 mA 6 0.8 mA mA 0.8 mA 0.5 mA Supply Voltage Rejection V I = 11.5 to 21.5V IO = 500mA f = 120Hz 62 dB Vd Dropout Voltage IO = 1A TJ = 25°C 2 V SVR eN Output Noise Voltage T A = 25°C RO Output Resistance f =1KHz Isc Short Circuit Current V I = 35V Iscp Short Circuit Peak Current T J = 25°C ∆VO /∆T Output Voltage Drift B =10Hz to 100KHz TA = 25°C 10 µV/V O 18 mΩ 0.2 A 2.2 A -0.8 mV/°C (*) Load and Line Regulation are specified at constant junction temperature. Changes in VO due to heating effects must be taken into account separately. Pulse testing with low duty cycle is used. 7/18 L7800AB/AC SERIES ELECTRICAL CHARACTERISTICS OF L7809A (VI=15V, IO=1A, TJ = 0 to 150°C (L7809AC), T J = -40 to 125°C (L7809AB), unless otherwise specified.) Symbol Parameter Test Conditions Min. 8.82 9 9.18 V 8.65 9 9.35 V VO Output Voltage T J = 25°C VO Output Voltage IO = 5mA to 1A V I =10.6 to 23V PO ≤ 15W V I = 10.6 to 25V IO = 500 mA ∆VO (*) Line Regulation V I = 11 to 17V ∆VO(*) Load Regulation ∆Iq Quiescent Current Quiescent Current Change Max. Unit 12 90 mV 15 90 mV V I = 11 to 17V TJ = 25°C 5 45 mV V I = 10.4 to 23V TJ = 25°C 12 90 mV 25 100 mV IO = 5mA to 1A IO = 5mA to 1.5A Iq Typ. 30 100 V IO = 250 to 750mA TJ = 25°C 10 50 V T J = 25°C 4.3 V I = 11 to 25V IO = 500 mA V I = 10.6 to 23V TJ = 25°C IO = 5mA to 1A 6 mA 6 0.8 mA mA 0.8 mA 0.5 mA Supply Voltage Rejection V I = 11.5 to 21.5V IO = 500mA f = 120Hz 61 dB Vd Dropout Voltage IO = 1A TJ = 25°C 2 V SVR eN Output Noise Voltage T A = 25°C RO Output Resistance f =1KHz Isc Short Circuit Current V I = 35V Iscp Short Circuit Peak Current T J = 25°C ∆VO /∆T Output Voltage Drift B =10Hz to 100KHz TA = 25°C 10 µV/V O 18 mΩ 0.2 A 2.2 A -0.8 mV/°C (*) Load and Line Regulation are specified at constant junction temperature. Changes in VO due to heating effects must be taken into account separately. Pulse testing with low duty cycle is used. 8/18 L7800AB/AC SERIES ELECTRICAL CHARACTERISTICS OF L7812A (VI=19V, IO=1A, TJ = 0 to 150°C (L7812AC), T J = -40 to 125°C (L7812AB), unless otherwise specified.) Symbol Parameter Test Conditions VO Output Voltage T J = 25°C VO Output Voltage IO = 5mA to 1A V I =14.8 to 27V PO ≤ 15W V I = 14.8 to 30V IO = 500 mA ∆VO (*) Line Regulation V I = 16 to 22V ∆VO(*) Load Regulation ∆Iq Quiescent Current Quiescent Current Change Typ. Max. Unit 11.75 12 12.25 V 11.5 12 12.5 V 13 120 mV 16 120 mV V I = 16 to 22V TJ = 25°C 6 60 mV V I = 14.5 to 27V TJ = 25°C 13 120 mV 25 100 mV IO = 5mA to 1A IO = 5mA to 1.5A Iq Min. 30 100 V IO = 250 to 750mA TJ = 25°C 10 50 V T J = 25°C 4.4 V I = 15 to 30V IO = 500 mA V I = 14.8 to 27V TJ = 25°C IO = 5mA to 1A 6 mA 6 0.8 mA mA 0.8 mA 0.5 mA Supply Voltage Rejection V I = 15 to 25V IO = 500mA f = 120Hz 60 dB Vd Dropout Voltage IO = 1A TJ = 25°C 2 V SVR eN Output Noise Voltage T A = 25°C RO Output Resistance f =1KHz Isc Short Circuit Current V I = 35V Iscp Short Circuit Peak Current T J = 25°C ∆VO /∆T Output Voltage Drift B =10Hz to 100KHz TA = 25°C 10 µV/V O 18 mΩ 0.2 A 2.2 A -1 mV/°C (*) Load and Line Regulation are specified at constant junction temperature. Changes in VO due to heating effects must be taken into account separately. Pulse testing with low duty cycle is used. 9/18 L7800AB/AC SERIES ELECTRICAL CHARACTERISTICS OF L7815A (VI=23V, IO=1A, TJ = 0 to 150°C (L7815AC), T J = -40 to 125°C (L7815AB), unless otherwise specified.) Symbol Parameter Test Conditions Min. 14.7 15 15.3 V 14.4 15 15.6 V 13 150 mV 16 150 mV VO Output Voltage T J = 25°C VO Output Voltage IO = 5mA to 1A V I = 17.9 to 30V PO ≤ 15W V I = 17.9 to 30V IO = 500 mA ∆VO (*) Line Regulation V I = 20 to 26V ∆VO(*) Load Regulation ∆Iq Quiescent Current Quiescent Current Change Max. Unit V I = 20 to 26V TJ = 25°C 6 75 mV V I = 17.5 to 30V TJ = 25°C 13 150 mV 25 100 mV IO = 5mA to 1A IO = 5mA to 1.5A Iq Typ. 30 100 V IO = 250 to 750mA TJ = 25°C 10 50 V T J = 25°C 4.4 V I = 17.5 to 30V IO = 500 mA V I = 17.5 to 30V TJ = 25°C IO = 5mA to 1A 6 mA 6 0.8 mA mA 0.8 mA 0.5 mA Supply Voltage Rejection V I = 18.5 to 28.5V f = 120Hz IO = 500mA 58 dB Vd Dropout Voltage IO = 1A 2 V SVR eN Output Noise Voltage T A = 25°C RO Output Resistance f =1KHz Isc Short Circuit Current V I = 35V Iscp Short Circuit Peak Current T J = 25°C ∆VO /∆T Output Voltage Drift TJ = 25°C B =10Hz to 100KHz TA = 25°C 10 µV/V O 19 mΩ 0.2 A 2.2 A -1 mV/°C (*) Load and Line Regulation are specified at constant junction temperature. Changes in VO due to heating effects must be taken into account separately. Pulse testing with low duty cycle is used. 10/18 L7800AB/AC SERIES ELECTRICAL CHARACTERISTICS OF L7818A (VI=27V, IO=1A, TJ = 0 to 150°C (L7818AC), T J = -40 to 125°C (L7818AB), unless otherwise specified.) Symbol Parameter Test Conditions VO Output Voltage T J = 25°C VO Output Voltage IO = 5mA to 1A V I = 21 to 33V PO ≤ 15W V I = 21 to 33V IO = 500 mA ∆VO (*) Line Regulation V I = 24 to 30V ∆VO(*) Load Regulation ∆Iq Quiescent Current Quiescent Current Change Typ. Max. Unit 17.64 18 18.36 V 17.3 18 18.7 V 25 180 mV 28 180 mV V I = 24 to 30V TJ = 25°C 10 90 mV V I = 20.6 to 33V TJ = 25°C 5 180 mV 25 100 mV IO = 5mA to 1A IO = 5mA to 1.5A Iq Min. 30 100 V IO = 250 to 750mA TJ = 25°C 10 50 V T J = 25°C 4.5 V I = 21 to 33V IO = 500 mA V I = 21 to 33V TJ = 25°C IO = 5mA to 1A 6 mA 6 0.8 mA mA 0.8 mA 0.5 mA Supply Voltage Rejection V I = 22 to 32V IO = 500mA f = 120Hz 57 dB Vd Dropout Voltage IO =1 A TJ = 25°C 2 V SVR eN Output Noise Voltage T A = 25°C RO Output Resistance f =1KHz Isc Short Circuit Current V I = 35V Iscp Short Circuit Peak Current T J = 25°C ∆VO /∆T Output Voltage Drift B =10Hz to 100KHz TA = 25°C 10 µV/V O 19 mΩ 0.2 A 2.2 A -1 mV/°C (*) Load and Line Regulation are specified at constant junction temperature. Changes in VO due to heating effects must be taken into account separately. Pulse testing with low duty cycle is used. 11/18 L7800AB/AC SERIES ELECTRICAL CHARACTERISTICS OF L7820A (VI=28V, IO=1A, TJ = 0 to 150°C (L7820AC), T J = -40 to 125°C (L7820AB), unless otherwise specified.) Symbol Parameter Test Conditions Min. 19.6 20 20.4 V 19.2 20 20.8 V VO Output Voltage T J = 25°C VO Output Voltage IO = 5mA to 1A V I = 23 to 35V PO ≤ 15W V I = 23 to 35V IO = 500 mA ∆VO (*) Line Regulation Typ. V I = 26 to 32V ∆VO(*) Load Regulation ∆Iq Quiescent Current Quiescent Current Change Unit 200 mV 200 mV V I = 26 to 32V TJ = 25°C 100 mV V I = 23 to 32V TJ = 25°C 200 mV 25 100 mV IO = 5mA to 1A IO = 5mA to 1.5A Iq Max. 30 100 V IO = 250 to 750mA TJ = 25°C 10 50 V T J = 25°C 4.5 V I = 23 to 35V IO = 500 mA V I = 23 to 35V TJ = 25°C IO = 5mA to 1A 6 mA 6 0.8 mA mA 0.8 mA 0.5 mA Supply Voltage Rejection V I = 24 to 35V IO = 500mA f = 120Hz 56 dB Vd Dropout Voltage IO =1 A TJ = 25°C 2 V SVR eN Output Noise Voltage T A = 25°C RO Output Resistance f =1KHz Isc Short Circuit Current V I = 35V Iscp Short Circuit Peak Current T J = 25°C ∆VO /∆T Output Voltage Drift B =10Hz to 100KHz TA = 25°C 10 µV/V O 20 mΩ 0.2 A 2.2 A -1 mV/°C (*) Load and Line Regulation are specified at constant junction temperature. Changes in VO due to heating effects must be taken into account separately. Pulse testing with low duty cycle is used. 12/18 L7800AB/AC SERIES ELECTRICAL CHARACTERISTICS OF L7824A (VI=33V, IO=1A, TJ = 0 to 150°C (L7824AC), T J = -40 to 125°C (L7824AB), unless otherwise specified.) Symbol Parameter Test Conditions VO Output Voltage T J = 25°C VO Output Voltage IO = 5mA to 1A V I = 27.3 to 38V PO ≤ 15W V I = 27 to 38V IO = 500 mA ∆VO (*) Line Regulation V I = 30 to 36V ∆VO(*) Load Regulation ∆Iq Quiescent Current Quiescent Current Change Typ. Max. Unit 23.5 24 24.5 V 23 24 25 V 31 240 mV 35 240 mV V I = 30 to 36V TJ = 25°C 14 120 mV V I = 26.7 to 38V TJ = 25°C 31 240 mV 25 100 mV IO = 5mA to 1A IO = 5mA to 1.5A Iq Min. 30 100 V IO = 250 to 750mA TJ = 25°C 10 50 V T J = 25°C 4.6 V I = 27.3 to 38V IO = 500 mA V I = 27.3 to 38V TJ = 25°C IO = 5mA to 1A 6 mA 6 0.8 mA mA 0.8 mA 0.5 mA Supply Voltage Rejection V I = 28 to 38V IO = 500mA f = 120Hz 54 dB Vd Dropout Voltage IO =1 A TJ = 25°C 2 V SVR eN Output Noise Voltage T A = 25°C RO Output Resistance f =1KHz Isc Short Circuit Current V I = 35V Iscp Short Circuit Peak Current T J = 25°C ∆VO /∆T Output Voltage Drift B =10Hz to 100KHz TA = 25°C 10 µV/V O 20 mΩ 0.2 A 2.2 A -1.5 mV/°C (*) Load and Line Regulation are specified at constant junction temperature. Changes in VO due to heating effects must be taken into account separately. Pulse testing with low duty cycle is used. 13/18 L7800AB/AC SERIES APPLICATION INFORMATION DESIGN CONSIDERATION The L7800A Series of fixed voltage regulators are designed with Thermal Overload Protection that shuts down the circuit when subjected to an excessive power overload condition, Internal Short-circuit Protection that limits the maximum current the circuit will pass, and Output transistor Safe-Area Compensation that reduces the output short-circuit current as the voltage across the pass transistor is increased. In many low current applications, compensation capacitors are not required. However, it is recommended that the regulator input be bypassed with capacitor if the regulator is connected to the power supply filter with long lengths, or if the output load capacitance is large. An input bypass capacitor should be selected to provide good high frequency characteristics to insure stable operation under all load conditions. A 0.33mF or larger tantalum, mylar or other capacitor having low internal impedance at high frequencies should be chosen. The bypass capacitor should be mounted with the shortest possible leads directly across the regulators input terminals. Normally good construction techniques should be used to minimize ground loops and lead resistance drops since the regulator has no external sense lead. The addition of an operational amplifier allows adjustment to higher or intermediate values while retaining regulation characteristics. The minimum voltage obtained with the arrangement is 2V greater than the regulator voltage. The circuit of figure 6 can be modified to provide supply protection against short circuit by adding a short circuit sense resistor, RSC, and an additional PNP transistor. The current sensing PNP must be able to handle the short circuit current of the three terminal regulator Therefore a four ampere plastic power transistor is specified. Figure 4 : DC Parameter Vxx IO = + Id R1 14/18 Figure 5 : DC Parameter VO, 7.0 to 20V VI - VO ≥ 2.0V Figure 6 : DC Parameter VBEQ1 R1 = IQ1 IREQ - βQ1 VBEQ1 IO = IREG + Q 1 (IREG ) R1 Figure 7 : DC Parameter L7800AB/AC SERIES TO-220 MECHANICAL DATA DIM. mm. MIN. MAX. MIN. A 4.40 4.60 0.173 0.181 C 1.23 1.32 0.048 0.051 D 2.40 2.72 0.094 0.107 D1 TYP inch 1.27 TYP. MAX. 0.050 E 0.49 0.70 0.019 0.027 F 0.61 0.88 0.024 0.034 F1 1.14 1.70 0.044 0.067 F2 1.14 1.70 0.044 0.067 G 4.95 5.15 0.194 0.203 G1 2.4 2.7 0.094 0.106 H2 10.0 10.40 0.393 L2 16.4 0.409 0.645 L4 13.0 14.0 0.511 0.551 L5 2.65 2.95 0.104 0.116 L6 15.25 15.75 0.600 0.620 L7 6.2 6.6 0.244 0.260 L9 3.5 3.93 0.137 0.154 DIA. 3.75 3.85 0.147 0.151 P011C 15/18 L7800AB/AC SERIES TO-220FP MECHANICAL DATA mm. DIM. MIN. inch TYP MAX. MIN. TYP. MAX. A 4.40 4.60 0.173 0.181 B 2.5 2.7 0.098 0.106 D 2.5 2.75 0.098 0.108 E 0.45 0.70 0.017 0.027 F 0.75 1 0.030 0.039 F1 1.15 1.70 0.045 0.067 F2 1.15 1.70 0.045 0.067 G 4.95 5.2 0.194 0.204 G1 2.4 2.7 0.094 0.106 H 10.0 10.40 0.393 0.409 L2 16 0.630 28.6 30.6 1.126 1.204 L4 9.8 10.6 0.385 0.417 L6 15.9 16.4 0.626 0.645 L7 9 9.3 0.354 0.366 DIA. 3 3.2 0.118 0.126 B D A E L3 L3 L6 F F1 L7 F2 H G G1 ¯ 1 2 3 L2 16/18 L4 L7800AB/AC SERIES D2PAK MECHANICAL DATA mm. inch DIM. MIN. TYP MAX. MIN. TYP. MAX. A 4.4 4.6 0.173 0.181 A1 2.49 2.69 0.098 0.106 A2 0.03 0.23 0.001 0.009 0.036 B 0.7 0.93 0.027 B2 1.14 1.7 0.044 0.067 C 0.45 0.6 0.017 0.023 C2 1.23 1.36 0.048 0.053 D 8.95 9.35 0.352 0.368 10.4 0.393 4.88 5.28 0.192 0.208 D1 E 8 10 E1 G 0.315 8.5 0.409 0.335 L 15 15.85 0.590 0.624 L2 1.27 1.4 0.050 0.055 L3 1.4 1.75 0.055 0.068 M 2.4 3.2 0.094 R V2 0.4 0° 0.126 0.016 8° 0° 8° P011P6G 17/18 L7800AB/AC SERIES Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result f rom its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics. 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