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1 Is Now Part of To learn more about ON Semiconductor, please visit our website at Please note: As part of the Fairchild Semiconductor integration, some of the Fairchild orderable part numbers will need to change in order to meet ON Semiconductor s system requirements. Since the ON Semiconductor product management systems do not have the ability to manage part nomenclature that utilizes an underscore (_), the underscore (_) in the Fairchild part numbers will be changed to a dash (-). This document may contain device numbers with an underscore (_). Please check the ON Semiconductor website to verify the updated device numbers. The most current and up-to-date ordering information can be found at Please any questions regarding the system integration to Fairchild_questions@onsemi.com. ON Semiconductor and the ON Semiconductor logo are trademarks of Semiconductor Components Industries, LLC dba ON Semiconductor or its subsidiaries in the United States and/or other countries. ON Semiconductor owns the rights to a number of patents, trademarks, copyrights, trade secrets, and other intellectual property. A listing of ON Semiconductor s product/patent coverage may be accessed at ON Semiconductor reserves the right to make changes without further notice to any products herein. ON Semiconductor makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does ON Semiconductor 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. Buyer is responsible for its products and applications using ON Semiconductor products, including compliance with all laws, regulations and safety requirements or standards, regardless of any support or applications information provided by ON Semiconductor. Typical parameters which may be provided in ON Semiconductor 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. ON Semiconductor does not convey any license under its patent rights nor the rights of others. ON Semiconductor products are not designed, intended, or authorized for use as a critical component in life support systems or any FDA Class 3 medical devices or medical devices with a same or similar classification in a foreign jurisdiction or any devices intended for implantation in the human body. Should Buyer purchase or use ON Semiconductor products for any such unintended or unauthorized application, Buyer shall indemnify and hold ON Semiconductor 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 ON Semiconductor was negligent regarding the design or manufacture of the part. ON Semiconductor is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.
2 LM78XX / LM78XXA 3-Terminal A Positive oltage Regulator Features Output Current up to A s: 5, 6, 8, 9, 0,, 5, 8, 4 Thermal Overload Protection Short-Circuit Protection Output Transistor Safe Operating Area Protection Description September 04 The LM78XX series of three-terminal positive regulators is available in the TO-0 package and with several fixed output voltages, making them useful in a wide range of applications. Each type employs internal current limiting, thermal shut-down, and safe operating area protection. If adequate heat sinking is provided, they can deliver over A output current. Although designed primarily as fixedvoltage regulators, these devices can be used with external components for adjustable voltages and currents. TO-0 (Single Gauge) GND. Input. GND 3. Output Ordering Information () Product Number LM7805CT LM7806CT LM7808CT LM7809CT LM780CT LM78CT LM785CT LM788CT LM784CT LM7805ACT LM7809ACT LM780ACT LM78ACT LM785ACT Tolerance ±4% Package TO-0 (Single Gauge) Operating Temperature -40 C to +5 C ±% 0 C to +5 C Packing Method Rail Note:. Above output voltage tolerance is available at 5 C. LM78XX / LM78XXA Rev..3.
3 Block Diagram Input Starting Circuit Absolute Maximum Ratings Current Generator Reference oltage Error Amplifier Figure. Block Diagram SOA Protection Thermal Protection Series Pass Element Output 3 Stresses exceeding the absolute maximum ratings may damage the device. The device may not function or be operable above the recommended operating conditions and stressing the parts to these levels is not recommended. In addition, extended exposure to stresses above the recommended operating conditions may affect device reliability. The absolute maximum ratings are stress ratings only. alues are at T A = 5 C unless otherwise noted. GND Symbol Parameter alue Unit I Input oltage = 5 to 8 35 = 4 40 R θjc Thermal Resistance, Junction-Case (TO-0) 5 C/W R θja Thermal Resistance, Junction-Air (TO-0) 65 C/W T OPR Operating Temperature Range LM78xx -40 to +5 LM78xxA 0 to +5 C T STG Storage Temperature Range - 65 to +50 C LM78XX / LM78XXA Rev..3.
4 Electrical Characteristics (LM7805) Refer to the test circuit, -40 C < T J < 5 C, I O = 500 ma, I = 0, C I = 0. μf, unless otherwise specified. Regline Line Regulation () T J = +5 C T J = +5 C I O = 5 ma to A, P O 5 W, I = 7 to I = 7 to I = 8 to Regload Load Regulation () I O = 5 ma to.5 A T J = +5 C I O = 50 ma to 750 ma I Q Quiescent Current T J = +5 C 5 8 ma Quiescent Current I O = 5 ma to A I = 7 to ma Δ /ΔT Drift (3) I O = 5 ma -0.8 / C N Output Noise oltage f = 0 Hz to 00 khz, T A = +5 C 4 μ RR Ripple Rejection (3) f = 0 Hz, I = 8 to db DROP Dropout oltage T J = +5 C, I O = A R O Output Resistance (3) f = khz 5 mω I SC Short-Circuit Current T J = +5 C, I = ma I PK Peak Current (3) T J = +5 C. A. Load and line regulation are specified at constant junction temperature. s in due to heating effects must be taken into account separately. Pulse testing with low duty is used. 3. These parameters, although guaranteed, are not 00% tested in production. LM78XX / LM78XXA Rev..3. 3
5 Electrical Characteristics (LM7806) Refer to the test circuit, -40 C < T J < 5 C, I O = 500 ma, I =, C I = 0.33 μf, C O = 0. μf, unless otherwise specified. Regline Line Regulation (4) T J = +5 C T J = +5 C I O = 5 ma to A, P O 5 W, I = 8.0 to I = 8 to I = 9 to Regload Load Regulation (4) I O = 5 ma to.5 A T J = +5 C I O = 50 ma to 750 ma I Q Quiescent Current T J = +5 C 5 8 ma Quiescent Current I O = 5 ma to A 0.5 I = 8 to 5.3 ma Δ /ΔT Drift (5) I O = 5 ma -0.8 / C N Output Noise oltage f = 0 Hz to 00 khz, T A = +5 C 45 μ RR Ripple Rejection (5) f = 0 Hz, I = 8 to db DROP Dropout oltage T J = +5 C, I O = A R O Output Resistance (5) f = khz 9 mω I SC Short-Circuit Current T J = +5 C, I = ma I PK Peak Current (5) T J = +5 C. A 4. Load and line regulation are specified at constant junction temperature. s in due to heating effects must be taken into account separately. Pulse testing with low duty is used. 5. These parameters, although guaranteed, are not 00% tested in production. LM78XX / LM78XXA Rev..3. 4
6 Electrical Characteristics (LM7808) Refer to the test circuit, -40 C < T J < 5 C, I O = 500 ma, I = 4, C I = 0.33 μf, C O = 0. μf, unless otherwise specified. Regline Line Regulation (6) T J = +5 C T J = +5 C I O = 5 ma to A, P O 5 W, I = 0.5 to I = 0.5 to I =.5 to 7 80 Regload Load Regulation (6) I O = 5 ma to.5 A 0 60 T J = +5 C I O = 50 ma to 750 ma 5 80 I Q Quiescent Current T J = +5 C 5 8 ma Quiescent Current I O = 5 ma to A I = 0.5 to ma Δ /ΔT Drift (7) I O = 5 ma -0.8 / C N Output Noise oltage f = 0 Hz to 00 khz, T A = +5 C 5 μ RR Ripple Rejection (7) f = 0 Hz, I =.5 to db DROP Dropout oltage I O = A, T J = +5 C R O Output Resistance (7) f = khz 7 mω I SC Short-Circuit Current I = 35, T J = +5 C 30 ma I PK Peak Current (7) T J = +5 C. A 6. Load and line regulation are specified at constant junction temperature. s in due to heating effects must be taken into account separately. Pulse testing with low duty is used. 7. These parameters, although guaranteed, are not 00% tested in production. LM78XX / LM78XXA Rev..3. 5
7 Electrical Characteristics (LM7809) Refer to the test circuit, -40 C < T J < 5 C, I O = 500 ma, I = 5, C I = 0.33 μf, C O = 0. μf, unless otherwise specified. Regline Line Regulation (8) T J = +5 C T J = +5 C I O = 5 ma to A, P O 5 W, I =.5 to I =.5 to I = to 7 90 Regload Load Regulation (8) I O = 5 ma to.5 A 80 T J = +5 C I O = 50 ma to 750 ma 4 90 I Q Quiescent Current T J = +5 C 5 8 ma Quiescent Current I O = 5 ma to A 0.5 I =.5 to 6.3 ma Δ /ΔT Drift (9) I O = 5 ma - / C N Output Noise oltage f = 0 Hz to 00 khz, T A = +5 C 58 μ RR Ripple Rejection (9) f = 0 Hz, I = 3 to db DROP Dropout oltage I O = A, T J = +5 C R O Output Resistance (9) f = khz 7 mω I SC Short-Circuit Current I = 35, T J = +5 C 50 ma I PK Peak Current (9) T J = +5 C. A 8. Load and line regulation are specified at constant junction temperature. s in due to heating effects must be taken into account separately. Pulse testing with low duty is used. 9. These parameters, although guaranteed, are not 00% tested in production. LM78XX / LM78XXA Rev..3. 6
8 Electrical Characteristics (LM780) Refer to the test circuit, -40 C < T J < 5 C, I O = 500 ma, I = 6, C I = 0.33 μf, C O = 0. μf, unless otherwise specified. Regline Line Regulation (0) T J = +5 C T J = +5 C I O = 5 ma to A, P O 5 W, I =.5 to I =.5 to I = 3 to Regload Load Regulation (0) I O = 5 ma to.5 A 00 T J = +5 C I O = 50 ma to 750 ma I Q Quiescent Current T J = +5 C ma Quiescent Current I O = 5 ma to A 0.5 I =.5 to 9.0 ma Δ /ΔT Drift () I O = 5 ma - / C N Output Noise oltage f = 0 Hz to 00 khz, T A = +5 C 58 μ RR Ripple Rejection () f = 0 Hz, I = 3 to db DROP Dropout oltage I O = A, T J = +5 C R O Output Resistance () f = khz 7 mω I SC Short-Circuit Current I = 35, T J = +5 C 50 ma I PK Peak Current () T J = +5 C. A 0. Load and line regulation are specified at constant junction temperature. s in due to heating effects must be taken into account separately. Pulse testing with low duty is used.. These parameters, although guaranteed, are not 00% tested in production. LM78XX / LM78XXA Rev..3. 7
9 Electrical Characteristics (LM78) Refer to the test circuit, -40 C < T J < 5 C, I O = 500 ma, I = 9, C I = 0.33 μf, C O = 0. μf, unless otherwise specified. Regline Line Regulation () T J = +5 C T J = +5 C I O = 5 ma to A, P O 5 W, I = 4.5 to I = 4.5 to I = 6 to 3 0 Regload Load Regulation () I O = 5 ma to.5 A 40 T J = +5 C I O = 50 ma to 750 ma 5 0 I Q Quiescent Current T J = +5 C ma Quiescent Current I O = 5 ma to A I = 4.5 to ma Δ /ΔT Drift (3) I O = 5 ma - / C N Output Noise oltage f = 0 Hz to 00 khz, T A = +5 C 76 μ RR Ripple Rejection (3) f = 0 Hz, I = 5 to db DROP Dropout oltage I O = A, T J = +5 C R O Output Resistance (3) f = khz 8 mω I SC Short-Circuit Current I = 35, T J = +5 C 30 ma I PK Peak Current (3) T J = +5 C. A. Load and line regulation are specified at constant junction temperature. s in due to heating effects must be taken into account separately. Pulse testing with low duty is used. 3. These parameters, although guaranteed, are not 00% tested in production. LM78XX / LM78XXA Rev..3. 8
10 Electrical Characteristics (LM785) Refer to the test circuit, -40 C < T J < 5 C, I O = 500 ma, I = 3, C I = 0.33 μf, C O = 0. μf, unless otherwise specified. Regline Line Regulation (4) T J = +5 C T J = +5 C I O = 5 ma to A, P O 5 W, I = 7.5 to I = 7.5 to I = 0 to Regload Load Regulation (4) I O = 5 ma to.5 A 300 T J = +5 C I O = 50 ma to 750 ma 4 50 I Q Quiescent Current T J = +5 C ma Quiescent Current I O = 5 ma to A 0.5 I = 7.5 to 30.0 ma Δ /ΔT Drift (5) I O = 5 ma - / C N Output Noise oltage f = 0 Hz to 00 khz, T A = +5 C 90 μ RR Ripple Rejection (5) f = 0 Hz, I = 8.5 to db DROP Dropout oltage I O = A, T J = +5 C R O Output Resistance (5) f = khz 9 mω I SC Short-Circuit Current I = 35, T J = +5 C 50 ma I PK Peak Current (5) T J = +5 C. A 4. Load and line regulation are specified at constant junction temperature. s in due to heating effects must be taken into account separately. Pulse testing with low duty is used. 5. These parameters, although guaranteed, are not 00% tested in production. LM78XX / LM78XXA Rev..3. 9
11 Electrical Characteristics (LM788) Refer to the test circuit, -40 C < T J < 5 C, I O = 500 ma, I = 7, C I = 0.33 μf, C O = 0. μf, unless otherwise specified. Regline Line Regulation (6) T J = +5 C T J = +5 C I O = 5 ma to A, P O 5 W, I = to I = to I = 4 to Regload Load Regulation (6) I O = 5 ma to.5 A T J = +5 C I O = 50 ma to 750 ma 5 80 I Q Quiescent Current T J = +5 C ma Quiescent Current I O = 5 ma to A 0.5 I = to 33.0 ma Δ /ΔT Drift (7) I O = 5 ma - / C N Output Noise oltage f = 0 Hz to 00 khz, T A = +5 C 0 μ RR Ripple Rejection (7) f = 0 Hz, I = to db DROP Dropout oltage I O = A, T J = +5 C R O Output Resistance (7) f = khz mω I SC Short-Circuit Current I = 35, T J = +5 C 50 ma I PK Peak Current (7) T J = +5 C. A 6. Load and line regulation are specified at constant junction temperature. s in due to heating effects must be taken into account separately. Pulse testing with low duty is used. 7. These parameters, although guaranteed, are not 00% tested in production. LM78XX / LM78XXA Rev..3. 0
12 Electrical Characteristics (LM784) Refer to the test circuit, -40 C < T J < 5 C, I O = 500 ma, I = 33, C I = 0.33 μf, C O = 0. μf, unless otherwise specified. Regline Line Regulation (8) T J = +5 C T J = +5 C I O = 5 ma to A, P O 5 W, I = 7 to I = 7 to I = 30 to Regload Load Regulation (8) I O = 5 ma to.5 A T J = +5 C I O = 50 ma to 750 ma 5 40 I Q Quiescent Current T J = +5 C ma Quiescent Current I O = 5 ma to A I = 7 to ma Δ /ΔT Drift (9) I O = 5 ma -.5 / C N Output Noise oltage f = 0 Hz to 00 khz, T A = +5 C 0 μ RR Ripple Rejection (9) f = 0 Hz, I = 8 to db DROP Dropout oltage I O = A, T J = +5 C R O Output Resistance (9) f = khz 8 mω I SC Short-Circuit Current I = 35, T J = +5 C 30 ma I PK Peak Current (9) T J = +5 C. A 8. Load and line regulation are specified at constant junction temperature. s in due to heating effects must be taken into account separately. Pulse testing with low duty is used. 9. These parameters, although guaranteed, are not 00% tested in production. LM78XX / LM78XXA Rev..3.
13 Electrical Characteristics (LM7805A) Refer to the test circuit, 0 C < T J < 5 C, I O = A, I = 0, C I = 0.33 μf, C O = 0. μf, unless otherwise specified. Regline Line Regulation (0) T J = +5 C I O = 5 ma to A, P O 5 W, I = 7.5 to I = 7.5 to 5, I O = 500 ma I = 8 to T J = +5 C I = 7.3 to I = 8 to Regload Load Regulation (0) I O = 5 ma to A 9 00 T J = +5 C, I O = 5 ma to.5 A 9 00 I O = 50 ma to 750 ma 4 50 I Q Quiescent Current T J = +5 C 5 6 ma I O = 5 ma to A 0.5 Quiescent Current I = 8 to 5, I O = 500 ma 0.8 ma I = 7.5 to 0, T J = +5 C 0.8 Δ /ΔT Drift () I O = 5 ma -0.8 / C N Output Noise oltage f = 0 Hz to 00 khz, T A = +5 C 4 μ RR Ripple Rejection () f = 0 Hz, = 500 ma, I =8 to 8 68 db DROP Dropout oltage I O = A, T J = +5 C R O Output Resistance () f = khz 7 mω I SC Short-Circuit Current I = 35, T J = +5 C 50 ma I PK Peak Current () T J = +5 C. A 0. Load and line regulation are specified at constant junction temperature. s in due to heating effects must be taken into account separately. Pulse testing with low duty is used.. These parameters, although guaranteed, are not 00% tested in production. LM78XX / LM78XXA Rev..3.
14 Electrical Characteristics (LM7809A) Refer to the test circuit, 0 C < T J < 5 C, I O = A, I = 5, C I = 0.33 μf, C O = 0. μf, unless otherwise specified. Regline Line Regulation () T J = +5 C I O = 5 ma to A, P O 5 W, I =. to I =.7 to 5, I O = 500 ma 6 90 I =.5 to T J = +5 C I =.5 to I =.5 to 9 45 Regload Load Regulation () I O = 5 ma to A 00 T J = +5 C, I O = 5 ma to.5 A 00 I O = 50 ma to 750 ma 5 50 I Q Quiescent Current T J = +5 C 5 6 ma I O = 5 ma to A 0.5 Quiescent Current I = to 5, I O = 500 ma 0.8 ma I =.7 to 5, T J = +5 C 0.8 Δ /ΔT Drift (3) I O = 5 ma - / C N Output Noise oltage f = 0 Hz to 00 khz, T A = +5 C 58 μ RR Ripple Rejection (3) f = 0 Hz, = 500 ma, I = to 6 db DROP Dropout oltage I O = A, T J = +5 C R O Output Resistance (3) f = khz 7 mω I SC Short-Circuit Current I = 35, T J = +5 C 50 ma I PK Peak Current (3) T J = +5 C. A. Load and line regulation are specified at constant junction temperature. s in due to heating effects must be taken into account separately. Pulse testing with low duty is used. 3. These parameters, although guaranteed, are not 00% tested in production. LM78XX / LM78XXA Rev..3. 3
15 Electrical Characteristics (LM780A) Refer to the test circuit, 0 C < T J < 5 C, I O = A, I = 6, C I = 0.33 μf, C O = 0. μf, unless otherwise specified. Regline Line Regulation (4) T J = +5 C I O = 5 ma to A, P O 5 W, I =.8 to I =.8 to 6, I O = 500 ma 8 00 I = 3 to T J = +5 C I =.5 to I = 3 to Regload Load Regulation (4) I O = 5 ma to A 00 T J = +5 C, I O = 5 ma to.5 A 00 I O = 50 ma to 750 ma 5 50 I Q Quiescent Current T J = +5 C 5 6 ma I O = 5 ma to A 0.5 Quiescent Current I =.8 to 5, I O = 500 ma 0.8 ma I = 3 to 6, T J = +5 C 0.5 Δ /ΔT Drift (5) I O = 5 ma - / C N Output Noise oltage f = 0 Hz to 00 khz, T A = +5 C 58 μ RR Ripple Rejection (5) f = 0 Hz, = 500 ma, I =4 to 4 6 db DROP Dropout oltage I O = A, T J = +5 C R O Output Resistance (5) f = khz 7 mω I SC Short-Circuit Current I = 35, T J = +5 C 50 ma I PK Peak Current (5) T J = +5 C. A 4. Load and line regulation are specified at constant junction temperature. s in due to heating effects must be taken into account separately. Pulse testing with low duty is used. 5. These parameters, although guaranteed, are not 00% tested in production. LM78XX / LM78XXA Rev..3. 4
16 Electrical Characteristics (LM78A) Refer to the test circuit, 0 C < T J < 5 C, I O = A, I = 9, C I = 0.33 μf, C O = 0. μf, unless otherwise specified. Regline Line Regulation (6) T J = +5 C I O = 5 ma to A, P O 5 W, I = 4.8 to I = 4.8 to 30, I O = 500 ma 0 0 I = 6 to 4 0 T J = +5 C I = 4.5 to I = 6 to 3 60 Regload Load Regulation (6) I O = 5 ma to A 00 T J = +5 C, I O = 5 ma to.5 A 00 I O = 50 ma to 750 ma 5 50 I Q Quiescent Current T J = +5 C 5 6 ma I O = 5 ma to A 0.5 Quiescent Current I = 4 to 7, I O = 500 ma 0.8 ma I = 5 to 30, T J = +5 C 0.8 Δ /ΔT Drift (7) I O = 5 ma - / C N Output Noise oltage f = 0 Hz to 00 khz, T A = +5 C 76 μ RR Ripple Rejection (7) f = 0 Hz, = 500 ma, I =4 to 4 60 db DROP Dropout oltage I O = A, T J = +5 C R O Output Resistance (7) f = khz 8 mω I SC Short-Circuit Current I = 35, T J = +5 C 50 ma I PK Peak Current (7) T J = +5 C. A 6. Load and line regulation are specified at constant junction temperature. s in due to heating effects must be taken into account separately. Pulse testing with low duty is used. 7. These parameters, although guaranteed, are not 00% tested in production. LM78XX / LM78XXA Rev..3. 5
17 Electrical Characteristics (LM785A) Refer to the test circuit, 0 C < T J < 5 C, I O = A, I = 3, C I = 0.33 μf, C O = 0. μf, unless otherwise specified. Regline Line Regulation (8) T J = +5 C I O = 5 ma to A, P O 5 W, I = 7.7 to I = 7.4 to 30, I O = 500 ma 0 50 I = 0 to T J = +5 C I = 7.5 to I = 0 to Regload Load Regulation (8) I O = 5 ma to A 00 T J = +5 C, I O = 5 ma to.5 A 00 I O = 50 ma to 750 ma 5 50 I Q Quiescent Current T J = +5 C ma I O = 5 ma to A 0.5 Quiescent Current I = 7.5 to 30, I O = 500 ma 0.8 ma I = 7.5 to 30, T J = +5 C 0.8 Δ /ΔT Drift (9) I O = 5 ma - / C N Output Noise oltage f = 0 Hz to 00 khz, T A = +5 C 90 μ RR Ripple Rejection (9) f = 0 Hz, = 500 ma, I =8.5 to db DROP Dropout oltage I O = A, T J = +5 C R O Output Resistance (9) f = khz 9 mω I SC Short-Circuit Current I = 35, T J = +5 C 50 ma I PK Peak Current (9) T J = +5 C. A 8. Load and line regulation are specified at constant junction temperature. s in due to heating effects must be taken into account separately. Pulse testing with low duty is used. 9. These parameters, although guaranteed, are not 00% tested in production. LM78XX / LM78XXA Rev..3. 6
18 Typical Performance Characteristics QUIESCENT CURRENT (ma) NORMALIZED OUTPUT OLTAGE () I = 0 = 5 I O = 5mA JUNCTION TEMPERATURE ( C) Figure. Quiescent Current I = 5 I O = 5mA JUNCTION TEMPERATURE ( C) Figure 4. QUIESCENT CURRENT (ma) OUTPUT CURRENT (A) T J = 5 C Δ = INPUT-OUTPUT DIFFERENTIAL () Figure 3. Peak Output Current T J = 5 C = 5 I O = 0mA INPUT OLTAGE () Figure 5. Quiescent Current LM78XX / LM78XXA Rev..3. 7
19 Typical Applications Input 0.33μF Input C I LM78XX 3 LM78XX 0.33μF Figure 6. DC Parameters 3 N6 or EQ R L C O Output 0.μF Output 70pF 00Ω 30μS 0 Figure 7. Load Regulation Input 5.Ω LM78XX 3 Output 0.33μF R L 470μF 0Hz + Figure 8. Ripple Rejection LM78XX / LM78XXA Rev..3. 8
20 Typical Applications (Continued) Input C I Input C I 3 LM78XX 0.33μF Figure 9. Fixed-Output Regulator 3 LM78XX 0.33μF I Q XX I O = +I R Q Figure 0. Constant Current Regulator 9. To specify an output voltage, substitute voltage value for XX. A common ground is required between the input and the output voltage. The input voltage must remain typically.0 above the output voltage even during the low point on the input ripple voltage. 30. C I is required if regulator is located an appreciable distance from power supply filter. 3. C O improves stability and transient response. C O 0.μF C O 0.μF XX R R L Output IO Output Input 3 LM78XX Output C I 0.33μF C XX O 0.μF R I Q I RI 5 I Q = XX ( + R / R ) + I Q R R Figure. Circuit for Increasing LM78XX / LM78XXA Rev..3. 9
21 Typical Applications (Continued) Input C I 0.33μF I RI 5 I Q = XX ( + R / R ) + I Q R Input R = BEQ LM LM Figure. Adjustable Output Regulator (7 to 30 ) R 3Ω I REG I Q / B Q Q BD536 IREG 0.33μF IQ LM78XX 3 0kΩ Output C O 0.μF Output I O 0.μF I O = I REG + B Q (I REG BEQ /R ) Figure 3. High-Current oltage Regulator Input R SC Q Q R 3Ω Q = TIP4 Q = TIP4 0.33μF LM78XX 3 0.μF Output R SC = BEQ I SC Figure 4. High Output Current with Short-Circuit Protection LM78XX / LM78XXA Rev..3. 0
22 Typical Applications (Continued) 3 LM78XX I 0.33μF 0.μF 4.7kΩ 7 COMMON COMMON _ 6 LM kΩ - IN TIP4 - Figure 5. Tracking oltage Regulator 3 LM μF 0.μF N400 +.μf μf + -0 MC795 3 N400-5 Figure 6. Split Power Supply (±5 - A) LM78XX / LM78XXA Rev..3.
23 Typical Applications (Continued) Input + 0.μF LM78XX 3 Figure 7. Negative Circuit Input D45H mh Output Output 4.7Ω 470Ω Z LM78XX 3 + 0μF 0.5Ω 0.33μF + 000μF Figure 8. Switching Regulator LM78XX / LM78XXA Rev..3.
24 Physical Dimensions Figure 9. TO-0, MOLDED, 3-LEAD, JEDEC ARIATION AB (ACTIE) LM78XX / LM78XXA Rev..3. 3
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27 Mouser Electronics Authorized Distributor Click to iew Pricing, Inventory, Delivery & Lifecycle Information: ON Semiconductor: LM78CT
LM78XX / LM78XXA 3-Terminal 1 A Positive Voltage Regulator
LM78XX / LM78XXA 3-Terminal A Positive oltage Regulator Features Output Current up to A Output oltages: 5, 6, 8, 9, 0,, 5, 8, 4 Thermal Overload Protection Short-Circuit Protection Output Transistor Safe
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KA79XX / KA79XXA / LM79XX 3-Terminal 1 A Negative oltage Regulator Features Output Current in Excess of 1 A s of: -5, -6, -8, -9, -12, -15, -18, -24 Internal Thermal Overload Protection Short-Circuit Protection
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More informationDistributed by: www.jameco.com 1-800-831-4242 The content and copyrights of the attached material are the property of its owner. LM78XX/LM78XXA 3-Terminal 1A Positive Voltage Regulator Features Output
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More informationIs Now Part of To learn more about ON Semiconductor, please visit our website at
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NDS65 NDS65 P-Channel Enhancement Mode Field Effect Transistor General Description These P-Channel enhancement mode field effect transistors are produced using ON Semiconductor s proprietary, high cell
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More informationIs Now Part of To learn more about ON Semiconductor, please visit our website at
Is Now Part of To learn more about ON Semiconductor, please visit our website at www.onsemi.com ON Semiconductor and the ON Semiconductor logo are trademarks of Semiconductor Components Industries, LLC
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More informationIs Now Part of To learn more about ON Semiconductor, please visit our website at
Is Now Part of To learn more about ON Semiconductor, please visit our website at www.onsemi.com ON Semiconductor and the ON Semiconductor logo are trademarks of Semiconductor Components Industries, LLC
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