PROPOSAL TUGAS AKHIR PENENTUAN JENIS GOLONGAN DARAH MANUSIA BERBASIS MIKROKONTROLER AT-Mega 8535 Oleh: STURMIUS THEOFANUS LERING NIM : 065114026 PROGRAM STUDI TEKNIK ELEKTRO FAKULTAS SAINS DAN TEKNOLOGI UNIVERSITAS SANATA DHARMA YOGYAKARTA 2013 PLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJI PLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJI
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PROPOSAL TUGAS AKHIR
PENENTUAN JENIS GOLONGAN DARAH MANUSIA
BERBASIS MIKROKONTROLER AT-Mega 8535
Oleh:
STURMIUS THEOFANUS LERING
NIM : 065114026
PROGRAM STUDI TEKNIK ELEKTRO
FAKULTAS SAINS DAN TEKNOLOGI
UNIVERSITAS SANATA DHARMA
YOGYAKARTA
2013
PLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJIPLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJI
FINAL PROJECT PROPOSAL
DETERMINATION OF HUMAN BLOOD GROUP BASED
ON MICROCONTROLLER AT-Mega 8535
STURMIUS THEOFANUS LERING
NIM : 065114026
ELECTRICAL ENGINEERING STUDY PROGRAM
SCIENCE AND TECHNOLOGY FACULTY
SANATA DHARMA UNIVERSITY
YOGYAKARTA
2013
PLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJIPLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJI
PLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJIPLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJI
PLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJIPLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJI
PLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJIPLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJI
vi
HALAMAN PERSEMBAHAN DAN MOTTO HIDUP
“Kadang dari hal negatif kita dapat belajar
banyak hal tentang kehidupan”
PLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJIPLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJI
PLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJIPLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJI
viii
INTISARI
Pemeriksaan darah mutlak dilakukan karena darah berperan penting dalam tubuh
manusia. Jika dari hasil pemeriksaan diketahui adanya penurunan jumlah hemoglobin dari
yang semestinya, maka transfusi darah perlu dilakukan. Transfusi hanya bisa dilakukan
bila golongan darah antara penerima dan pendonor sejenis. Golongan darah manusia dibagi
empat yaitu A, B, O, dan AB.
Perancangan alat pendekteksi golongan darah manusia menggunakan metode ABO.
Darah diteteskan pada kaca preparat lalu dicampur dengan cairan anti reagen, kemudian
sensor yang terdiri dari LED infra merah sebagai pemancar cahaya dan fototransistor
sebagai penerima cahaya akan membaca tingkat penggumpalan (aglutinasi) darah sehingga
menghasilkan tegangan DC. Tegangan dari sensor akan dikuatkan oleh Op-Amp lalu
dikirimkan ke mikrokontroler AT-Mega8535 untuk diproses sehingga dapat ditamplkan
pada penampil LCD 16x2.
Alat yang dibuat sudah berhasil membaca sampel darah yang diujikan dan dapat
ditampilkan dengan baik dan benar pada penampil LCD 16x2.
Kata kunci : Golongan darah, anti reagen, sensor, Op-Amp, mikrokontroler, LCD 16x2.
PLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJIPLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJI
ix
ABSTRACT
Blood tests to be conducted because of the blood plays an important role in the human
body. If the examination results are known a decrease in the amount of hemoglobin than
necessary, then the blood transfusion needs to be done. Transfusion can only be done if the
blood groups between donor and recipient alike. Divided by four human blood groups A,
B, O, and AB.
Design tool detections human blood group ABO method. Blood dripped on glass
preparations are then mixed with a liquid anti reagent, then the sensor consists of an infra
red LED as a light emitter and a phototransistor as the light receiver will read the level of
clumping (agglutination) of blood to produce a DC voltage. Voltage of the sensor will be
strengthened by the Op-Amp and then sent to the microcontroller AT-Mega8535 to be
processed so that it can displayed on 16x2 LCD viewer.
Tool created have managed to read blood samples were tested, and can be displayed
General DescriptionThe LM78XX series of three terminal positive regulators areavailable in the TO-220 package and with several fixed outputvoltages, making them useful in a wide range of applications.Each type employs internal current limiting, thermal shut downand safe operating area protection, making it essentially inde-structible. If adequate heat sinking is provided, they can deliverover 1A output current. Although designed primarily as fixedvoltage regulators, these devices can be used with externalcomponents to obtain adjustable voltages and currents.
Features Output Current up to 1A
Output Voltages of 5, 6, 8, 9, 12, 15, 18, 24
Thermal Overload Protection
Short Circuit Protection
Output Transistor Safe Operating Area Protection
Ordering Code:
Product Number Output Voltage Tolerance Package Operating TemperatureLM7805CT
4%
TO-220
40C - 125C
LM7806CT
LM7808CT
LM7809CT
LM7810CT
LM7812CT
LM7815CT
LM7818CT
LM7824CT
LM7805ACT
2% 0C - 125C
LM7806ACT
LM7808ACT
LM7809ACT
LM7810ACT
LM7812ACT
LM7815ACT
LM7818ACT
LM7824ACT
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LM
7805
• L
M78
06 •
LM
7808
• L
M78
09 •
LM
7810
• L
M78
12 •
LM
7815
• L
M78
18 •
LM
7824
• L
M78
05A
• L
M78
06A
• L
M78
08A
•LM
7809
A •
LM
7810
A •
LM
7812
A •
LM
7815
A •
LM
7818
A •
LM
7824
A
Internal Block Diagram
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LM
7805 • LM
7806 • LM
7808 • LM
7809 • LM
7810 • LM
7812 • LM
7815 • LM
7818 • LM
7824 • LM
7805A • L
M7806A
• LM
7808A•L
M7809A
• LM
7810A • L
M7812A
• LM
7815A • L
M7818A
• LM
7824A
Absolute Maximum Ratings(Note 1)
Note 1: Absolute maximum ratings are those values beyond which damage to the device may occur. The datasheet specifications should be met, without exception, to ensurethat the system design is reliable over its power supply, temperature, and output/input loading variables. Fairchild does not recommend operation outside datasheet specifica-tions.
Electrical Characteristics (LM7805) (Refer to the test circuits. 40C TJ 125C, IO = 500mA, VI = 10V, CI = 0.1F, unless otherwise specified)
Note 2: 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 withlow duty is used.
Note 3: These parameters, although guaranteed, are not 100% tested in production.
Parameter Symbol Value UnitInput Voltage (for VO = 5V to 18V) VI 35 V
Output Noise Voltage VN f = 10Hz to 100KHz, TA = 25C – 42.0 – V/VO
Ripple Rejection (Note 3) RR f = 120Hz, VO = 8V to 18V 62.0 73.0 – dB
Dropout Voltage VDROP IO = 1A, TJ = 25C – 2.0 – V
Output Resistance (Note 3) rO f = 1KHz – 15.0 – m
Short Circuit Current ISC VI = 35V, TA = 25C – 230 – mA
Peak Current (Note 3) IPK TJ =25C – 2.2 – A
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LM
7805
• L
M78
06 •
LM
7808
• L
M78
09 •
LM
7810
• L
M78
12 •
LM
7815
• L
M78
18 •
LM
7824
• L
M78
05A
• L
M78
06A
• L
M78
08A
•LM
7809
A •
LM
7810
A •
LM
7812
A •
LM
7815
A •
LM
7818
A •
LM
7824
A
Electrical Characteristics (LM7806) (Refer to the test circuits. 40C TJ 125C, IO = 500mA, VI = 11V, CI = 0.33F, CO = 0.1F, unless otherwise specified)
Note 4: 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 withlow duty is used.
Note 5: These parameters, although guaranteed, are not 100% tested in production.
Electrical Characteristics (LM7808) (Refer to the test circuits. 40C TJ 125C, IO = 500mA, VI = 14V, CI = 0.33F, CO = 0.1F, unless otherwise specified)
Note 6: 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 withlow duty is used.
Note 7: These parameters, although guaranteed, are not 100% tested in production.
Parameter Symbol Conditions Min Typ Max Unit
Output Voltage VO TJ = 25C 5.75 6.0 6.25V
5mA IO 1A, PO 15W, VI = 8.0V to 21V 5.7 6.0 6.3
Line Regulation Regline TJ = 25C VI = 8V to 25V – 5.0 120mV
Output Noise Voltage VN f = 10Hz to 100KHz, TA = 25C – 52.0 – V/VO
Ripple Rejection (Note 7) RR f = 120Hz, VO = 11.5V to 21.5V 56.0 73.0 – dB
Dropout Voltage VDROP IO = 1A, TJ = 25C – 2.0 – V
Output Resistance (Note 7) rO f = 1KHz – 17.0 – m
Short Circuit Current ISC VI = 35V, TA = 25C – 230 – mA
Peak Current (Note 7) IPK TJ =25C – 2.2 – A
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LM
7805 • LM
7806 • LM
7808 • LM
7809 • LM
7810 • LM
7812 • LM
7815 • LM
7818 • LM
7824 • LM
7805A • L
M7806A
• LM
7808A•L
M7809A
• LM
7810A • L
M7812A
• LM
7815A • L
M7818A
• LM
7824A
Electrical Characteristics (LM7809) (Refer to the test circuits. 40C TJ 125C, IO = 500mA, VI = 15V, CI = 0.33F, CO = 0.1F, unless otherwise specified)
Note 8: 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 withlow duty is used.
Note 9: These parameters, although guaranteed, are not 100% tested in production.
Electrical Characteristics (LM7810) (Refer to the test circuits. 40C TJ 125C, IO = 500mA, VI = 16V, CI = 0.33F, CO = 0.1F, unless otherwise specified)
Note 10: 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 withlow duty is used.
Note 11: These parameters, although guaranteed, are not 100% tested in production.
Parameter Symbol Conditions Min Typ Max Unit
Output Voltage VO TJ = 25C 8.65 9.0 9.35V
5mA IO 1A, PO 15W, VI = 11.5V to 24V 8.6 9.0 9.4
Line Regulation Regline TJ = 25C VI = 11.5V to 25V – 6.0 180mV
Output Noise Voltage VN f = 10Hz to 100KHz, TA = 25C – 58.0 – V/VO
Ripple Rejection (Note 11) RR f = 120Hz, VO = 13V to 23V 56.0 71.0 – dB
Dropout Voltage VDROP IO = 1A, TJ = 25C – 2.0 – V
Output Resistance (Note 11) rO f = 1KHz – 17.0 – m
Short Circuit Current ISC VI = 35V, TA = 25C – 250 – mA
Peak Current (Note 11) IPK TJ =25C – 2.2 – A
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LM
7805
• L
M78
06 •
LM
7808
• L
M78
09 •
LM
7810
• L
M78
12 •
LM
7815
• L
M78
18 •
LM
7824
• L
M78
05A
• L
M78
06A
• L
M78
08A
•LM
7809
A •
LM
7810
A •
LM
7812
A •
LM
7815
A •
LM
7818
A •
LM
7824
A
Electrical Characteristics (LM7812) (Refer to the test circuits. 40C TJ 125C, IO = 500mA, VI = 19V, CI = 0.33F, CO = 0.1F, unless otherwise specified)
Note 12: 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 withlow duty is used.
Note 13: These parameters, although guaranteed, are not 100% tested in production.
Electrical Characteristics (LM7815) (Refer to the test circuits. 40C TJ 125C, IO = 500mA, VI = 23V, CI = 0.33F, CO = 0.1F, unless otherwise specified)
Note 14: 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 withlow duty is used.
Note 15: These parameters, although guaranteed, are not 100% tested in production.
Parameter Symbol Conditions Min Typ Max Unit
Output Voltage VO TJ = 25C 11.5 12.0 12.5V
5mA IO 1A, PO 15W, VI = 14.5V to 27V 11.4 12.0 12.6
Line Regulation Regline TJ = 25C VI = 14.5V to 30V – 10.0 240mV
Output Noise Voltage VN f = 10Hz to 100KHz, TA = 25C – 90.0 – V/VO
Ripple Rejection (Note 15) RR f = 120Hz, VI = 18.5V to 28.5V 54.0 70.0 – dB
Dropout Voltage VDROP IO = 1A, TJ = 25C – 2.0 – V
Output Resistance (Note 15) rO f = 1KHz – 19.0 – m
Short Circuit Current ISC VI = 35V, TA = 25C – 250 – mA
Peak Current (Note 15) IPK TJ =25C – 2.2 – A
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LM
7805 • LM
7806 • LM
7808 • LM
7809 • LM
7810 • LM
7812 • LM
7815 • LM
7818 • LM
7824 • LM
7805A • L
M7806A
• LM
7808A•L
M7809A
• LM
7810A • L
M7812A
• LM
7815A • L
M7818A
• LM
7824A
Electrical Characteristics (LM7818) (Refer to the test circuits. 40C TJ 125C, IO = 500mA, VI = 27V, CI = 0.33F, CO = 0.1F, unless otherwise specified)
Note 16: 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 withlow duty is used.
Note 17: These parameters, although guaranteed, are not 100% tested in production.
Electrical Characteristics (LM7824) (Refer to the test circuits. 40C TJ 125C, IO = 500mA, VI = 33V, CI = 0.33F, CO = 0.1F, unless otherwise specified)
Note 18: 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 withlow duty is used.
Note 19: These parameters, although guaranteed, are not 100% tested in production.
Parameter Symbol Conditions Min Typ Max Unit
Output Voltage VO TJ = 25C 17.3 18.0 18.7V
5mA IO 1A, PO 15W, VI = 21V to 33V 17.1 18.0 18.9
Line Regulation Regline TJ = 25C VI = 21V to 33V – 15.0 360mV
Output Noise Voltage VN f = 10Hz to 100KHz, TA = 25C – 60.0 – V/VO
Ripple Rejection (Note 19) RR f = 120Hz, VI = 28V to 38V 50.0 67.0 – dB
Dropout Voltage VDROP IO = 1A, TJ = 25C – 2.0 – V
Output Resistance (Note 19) rO f = 1KHz – 28.0 – m
Short Circuit Current ISC VI = 35V, TA = 25C – 230 – mA
Peak Current (Note 19) IPK TJ =25C – 2.2 – A
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LM
7805
• L
M78
06 •
LM
7808
• L
M78
09 •
LM
7810
• L
M78
12 •
LM
7815
• L
M78
18 •
LM
7824
• L
M78
05A
• L
M78
06A
• L
M78
08A
•LM
7809
A •
LM
7810
A •
LM
7812
A •
LM
7815
A •
LM
7818
A •
LM
7824
A
Electrical Characteristics (LM7805A) (Refer to the test circuits. 0C TJ 125C, IO = 1A, VI = 10V, CI = 0.33F, CO = 0.1F, unless otherwise specified)
Note 20: 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 withlow duty is used.
Note 21: These parameters, although guaranteed, are not 100% tested in production.
Parameter Symbol Conditions Min Typ Max Unit
Output Voltage VO TJ = 25C 4.9 5.0 5.1V
IO = 5mA to 1A, PO 15W, VI = 7.5V to 20V 4.8 5.0‘ 5.2
Line Regulation Regline VI = 7.5V to 25V, IO = 500mA – 5.0 50.0
Output Noise Voltage VN f = 10Hz to 100KHz, TA = 25C – 10.0 – V/VO
Ripple Rejection (Note 21) RR f = 120Hz, IO = 500mA, VI = 8V to 18V – 68.0 – dB
Dropout Voltage VDROP IO = 1A, TJ = 25C – 2.0 – V
Output Resistance (Note 21) rO f = 1KHz – 17.0 – m
Short Circuit Current ISC VI = 35V, TA = 25C – 250 – mA
Peak Current (Note 21) IPK TJ =25C – 2.2 – A
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LM
7805 • LM
7806 • LM
7808 • LM
7809 • LM
7810 • LM
7812 • LM
7815 • LM
7818 • LM
7824 • LM
7805A • L
M7806A
• LM
7808A•L
M7809A
• LM
7810A • L
M7812A
• LM
7815A • L
M7818A
• LM
7824A
Electrical Characteristics (LM7806A) (Refer to the test circuits. 0C TJ 125C, IO = 1A, VI = 11V, CI = 0.33F, CO = 0.1F, unless otherwise specified)
Note 22: 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 withlow duty is used.
Note 23: These parameters, although guaranteed, are not 100% tested in production.
Parameter Symbol Conditions Min Typ Max Unit
Output Voltage VO TJ = 25C 5.58 6.0 6.12V
IO = 5mA to 1A, PO 15W, VI = 8.6V to 21V 5.76 6.0 6.24
Line Regulation Regline VI = 8.6V to 25V, IO = 500mA – 5.0 60.0
Output Noise Voltage VN f = 10Hz to 100KHz, TA = 25C – 10.0 – V/VO
Ripple Rejection (Note 23) RR f = 120Hz, IO = 500mA, VI = 9V to 19V – 65.0 – dB
Dropout Voltage VDROP IO = 1A, TJ = 25C – 2.0 – V
Output Resistance (Note 23) rO f = 1KHz – 17.0 – m
Short Circuit Current ISC VI = 35V, TA = 25C – 250 – mA
Peak Current (Note 23) IPK TJ =25C – 2.2 – A
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LM
7805
• L
M78
06 •
LM
7808
• L
M78
09 •
LM
7810
• L
M78
12 •
LM
7815
• L
M78
18 •
LM
7824
• L
M78
05A
• L
M78
06A
• L
M78
08A
•LM
7809
A •
LM
7810
A •
LM
7812
A •
LM
7815
A •
LM
7818
A •
LM
7824
A
Electrical Characteristics (LM7808A) (Refer to the test circuits. 0C TJ 125C, IO = 1A, VI = 14V, CI = 0.33F, CO = 0.1F, unless otherwise specified)
Note 24: 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 withlow duty is used.
Note 25: These parameters, although guaranteed, are not 100% tested in production.
Parameter Symbol Conditions Min Typ Max Unit
Output Voltage VO TJ = 25C 7.84 8.0 8.16V
IO = 5mA to 1A, PO 15W, VI = 10.6V to 23V 7.7 8.0 8.3
Line Regulation Regline VI = 10.6V to 25V, IO = 500mA – 6.0 80.0
Output Noise Voltage VN f = 10Hz to 100KHz, TA = 25C – 10.0 – V/VO
Ripple Rejection (Note 25) RR f = 120Hz, IO = 500mA, VI = 11.5V to 21.5V – 62.0 – dB
Dropout Voltage VDROP IO = 1A, TJ = 25C – 2.0 – V
Output Resistance (Note 25) rO f = 1KHz – 18.0 – m
Short Circuit Current ISC VI = 35V, TA = 25C – 250 – mA
Peak Current (Note 25) IPK TJ =25C – 2.2 – A
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LM
7805 • LM
7806 • LM
7808 • LM
7809 • LM
7810 • LM
7812 • LM
7815 • LM
7818 • LM
7824 • LM
7805A • L
M7806A
• LM
7808A•L
M7809A
• LM
7810A • L
M7812A
• LM
7815A • L
M7818A
• LM
7824A
Electrical Characteristics (LM7809A) (Refer to the test circuits. 0C TJ 125C, IO = 1A, VI = 15V, CI = 0.33F, CO = 0.1F, unless otherwise specified)
Note 26: 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 withlow duty is used.
Note 27: These parameters, although guaranteed, are not 100% tested in production.
Parameter Symbol Conditions Min Typ Max Units
Output Voltage VO TJ = 25C 8.82 9.0 9.16V
IO = 5mA to 1A, PO 15W, VI = 11.2V to 24V 8.65 9.0 9.35
Line Regulation Regline VI = 11.7V to 25V, IO = 500mA – 6.0 90.0
Output Noise Voltage VN f = 10Hz to 100KHz, TA = 25C – 10.0 – V/VO
Ripple Rejection (Note 27) RR f = 120Hz, IO = 500mA, VI = 12V to 22V – 62.0 – dB
Dropout Voltage VDROP IO = 1A, TJ = 25C – 2.0 – V
Output Resistance (Note 27) rO f = 1KHz – 17.0 – m
Short Circuit Current ISC VI = 35V, TA = 25C – 250 – mA
Peak Current (Note 27) IPK TJ =25C – 2.2 – A
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LM
7805
• L
M78
06 •
LM
7808
• L
M78
09 •
LM
7810
• L
M78
12 •
LM
7815
• L
M78
18 •
LM
7824
• L
M78
05A
• L
M78
06A
• L
M78
08A
•LM
7809
A •
LM
7810
A •
LM
7812
A •
LM
7815
A •
LM
7818
A •
LM
7824
A
Electrical Characteristics (LM7810A) (Refer to the test circuits. 0C TJ 125C, IO = 1A, VI = 16V, CI = 0.33F, CO = 0.1F, unless otherwise specified)
Note 28: 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 withlow duty is used.
Note 29: These parameters, although guaranteed, are not 100% tested in production.
Parameter Symbol Conditions Min Typ Max Units
Output Voltage VO TJ = 25C 9.8 10.0 10.2V
IO = 5mA to 1A, PO 15W, VI = 12.8V to 25V 9.6 10.0 10.4
Line Regulation Regline VI = 12.8V to 26V, IO = 500mA – 8.0 100
Output Noise Voltage VN f = 10Hz to 100KHz, TA = 25C – 10.0 – V/VO
Ripple Rejection (Note 29) RR f = 120Hz, IO = 500mA, VI = 14V to 24V – 62.0 – dB
Dropout Voltage VDROP IO = 1A, TJ = 25C – 2.0 – V
Output Resistance (Note 29) rO f = 1KHz – 17.0 – m
Short Circuit Current ISC VI = 35V, TA = 25C – 250 – mA
Peak Current (Note 29) IPK TJ =25C – 2.2 – A
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LM
7805 • LM
7806 • LM
7808 • LM
7809 • LM
7810 • LM
7812 • LM
7815 • LM
7818 • LM
7824 • LM
7805A • L
M7806A
• LM
7808A•L
M7809A
• LM
7810A • L
M7812A
• LM
7815A • L
M7818A
• LM
7824A
Electrical Characteristics (LM7812A) (Refer to the test circuits. 0C TJ 125C, IO = 1A, VI = 19V, CI = 0.33F, CO = 0.1F, unless otherwise specified)
Note 30: 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 withlow duty is used.
Note 31: These parameters, although guaranteed, are not 100% tested in production.
Parameter Symbol Conditions Min Typ Max Units
Output Voltage VO TJ = 25C 11.75 12.0 12.25V
IO = 5mA to 1A, PO 15W, VI = 14.8V to 27V 11.5 12.0 12.5
Line Regulation Regline VI = 14.8V to 30V, IO = 500mA – 10.0 120
Output Noise Voltage VN f = 10Hz to 100KHz, TA = 25C – 10.0 – V/VO
Ripple Rejection (Note 31) RR f = 120Hz, IO = 500mA, VI = 14V to 24V – 60.0 – dB
Dropout Voltage VDROP IO = 1A, TJ = 25C – 2.0 – V
Output Resistance (Note 31) rO f = 1KHz – 18.0 – m
Short Circuit Current ISC VI = 35V, TA = 25C – 250 – mA
Peak Current (Note 31) IPK TJ =25C – 2.2 – A
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www.fairchildsemi.com 14
LM
7805
• L
M78
06 •
LM
7808
• L
M78
09 •
LM
7810
• L
M78
12 •
LM
7815
• L
M78
18 •
LM
7824
• L
M78
05A
• L
M78
06A
• L
M78
08A
•LM
7809
A •
LM
7810
A •
LM
7812
A •
LM
7815
A •
LM
7818
A •
LM
7824
A
Electrical Characteristics (LM7815A) (Refer to the test circuits. 0C TJ 125C, IO = 1A, VI = 23V, CI = 0.33F, CO = 0.1F, unless otherwise specified)
Note 32: 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 withlow duty is used.
Note 33: These parameters, although guaranteed, are not 100% tested in production.
Parameter Symbol Conditions Min Typ Max Units
Output Voltage VO TJ = 25C 14.75 15.0 15.3V
IO = 5mA to 1A, PO 15W, VI = 17.7V to 30V 14.4 15.0 15.6
Line Regulation Regline VI = 17.4V to 30V, IO = 500mA – 10.0 150
Output Noise Voltage VN f = 10Hz to 100KHz, TA = 25C – 10.0 – V/VO
Ripple Rejection (Note 33) RR f = 120Hz, IO = 500mA, VI = 18.5V to 28.5V – 58.0 – dB
Dropout Voltage VDROP IO = 1A, TJ = 25C – 2.0 – V
Output Resistance (Note 33) rO f = 1KHz – 19.0 – m
Short Circuit Current ISC VI = 35V, TA = 25C – 250 – mA
Peak Current (Note 33) IPK TJ =25C – 2.2 – A
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15 www.fairchildsemi.com
LM
7805 • LM
7806 • LM
7808 • LM
7809 • LM
7810 • LM
7812 • LM
7815 • LM
7818 • LM
7824 • LM
7805A • L
M7806A
• LM
7808A•L
M7809A
• LM
7810A • L
M7812A
• LM
7815A • L
M7818A
• LM
7824A
Electrical Characteristics (LM7818A) (Refer to the test circuits. 0C TJ 125C, IO = 1A, VI = 27V, CI = 0.33F, CO = 0.1F, unless otherwise specified)
Note 34: 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 withlow duty is used.
Note 35: These parameters, although guaranteed, are not 100% tested in production.
Parameter Symbol Conditions Min Typ Max Units
Output Voltage VO TJ = 25C 17.64 18.0 18.36V
IO = 5mA to 1A, PO 15W, VI = 21V to 33V 17.3 18.0 18.7
Line Regulation Regline VI = 21V to 33V, IO = 500mA – 15.0 180
Output Noise Voltage VN f = 10Hz to 100KHz, TA = 25C – 10.0 – V/VO
Ripple Rejection (Note 35) RR f = 120Hz, IO = 500mA, VI = 22V to 32V – 57.0 – dB
Dropout Voltage VDROP IO = 1A, TJ = 25C – 2.0 – V
Output Resistance (Note 35) rO f = 1KHz – 19.0 – m
Short Circuit Current ISC VI = 35V, TA = 25C – 250 – mA
Peak Current (Note 35) IPK TJ =25C – 2.2 – A
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www.fairchildsemi.com 16
LM
7805
• L
M78
06 •
LM
7808
• L
M78
09 •
LM
7810
• L
M78
12 •
LM
7815
• L
M78
18 •
LM
7824
• L
M78
05A
• L
M78
06A
• L
M78
08A
•LM
7809
A •
LM
7810
A •
LM
7812
A •
LM
7815
A •
LM
7818
A •
LM
7824
A
Electrical Characteristics (LM7824A) (Refer to the test circuits. 0C TJ 125C, IO = 1A, VI = 33V, CI = 0.33F, CO = 0.1F, unless otherwise specified)
Note 36: 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 withlow duty is used.
Note 37: These parameters, although guaranteed, are not 100% tested in production.
Parameter Symbol Conditions Min Typ Max Units
Output Voltage VO TJ = 25C 23.5 24.0 24.5V
IO = 5mA to 1A, PO 15W, VI = 27.3V to 38V 23.0 24.0 25.0
Line Regulation Regline VI = 27V to 38V, IO = 500mA – 18.0 240
Output Noise Voltage VN f = 10Hz to 100KHz, TA = 25C – 10.0 – V/VO
Ripple Rejection (Note 37) RR f = 120Hz, IO = 500mA, VI = 28V to 38V – 54.0 – dB
Dropout Voltage VDROP IO = 1A, TJ = 25C – 2.0 – V
Output Resistance (Note 37) rO f = 1KHz – 20.0 – m
Short Circuit Current ISC VI = 35V, TA = 25C – 250 – mA
Peak Current (Note 37) IPK TJ =25C – 2.2 – A
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17 www.fairchildsemi.com
LM
7805 • LM
7806 • LM
7808 • LM
7809 • LM
7810 • LM
7812 • LM
7815 • LM
7818 • LM
7824 • LM
7805A • L
M7806A
• LM
7808A•L
M7809A
• LM
7810A • L
M7812A
• LM
7815A • L
M7818A
• LM
7824A
Typical Performance Characteristics
FIGURE 1. Quiescent Current FIGURE 2. Peak Output Current
FIGURE 3. Output Voltage FIGURE 4. Quiescent Current
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www.fairchildsemi.com 18
LM
7805
• L
M78
06 •
LM
7808
• L
M78
09 •
LM
7810
• L
M78
12 •
LM
7815
• L
M78
18 •
LM
7824
• L
M78
05A
• L
M78
06A
• L
M78
08A
•LM
7809
A •
LM
7810
A •
LM
7812
A •
LM
7815
A •
LM
7818
A •
LM
7824
A
Typical Applications
FIGURE 5. DC Parameters
FIGURE 6. Load Regulation
FIGURE 7. Ripple Rejection
FIGURE 8. Fixed Output Regulator
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19 www.fairchildsemi.com
LM
7805 • LM
7806 • LM
7808 • LM
7809 • LM
7810 • LM
7812 • LM
7815 • LM
7818 • LM
7824 • LM
7805A • L
M7806A
• LM
7808A•L
M7809A
• LM
7810A • L
M7812A
• LM
7815A • L
M7818A
• LM
7824A
Typical Applications (continued)
FIGURE 9.
Note: 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 typ-ically 2.0V above the output voltage even during the low point on the input ripple voltage.
Note: CI is required if regulator is located an appreciable distance from the power supply filter.
Note: CO improves stability and transient response.
IRI 5 IQVO = VXX (1 R2 / R1) IQ R2
FIGURE 10. Circuit for Increasing Output Voltage
IRI 5 IQVO = VXX (1 R2 / R1) IQ R2
FIGURE 11. Adjustable Output Regulator (7V to 30V)
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www.fairchildsemi.com 20
LM
7805
• L
M78
06 •
LM
7808
• L
M78
09 •
LM
7810
• L
M78
12 •
LM
7815
• L
M78
18 •
LM
7824
• L
M78
05A
• L
M78
06A
• L
M78
08A
•LM
7809
A •
LM
7810
A •
LM
7812
A •
LM
7815
A •
LM
7818
A •
LM
7824
A
Typical Applications (continued)
FIGURE 12. High Current Voltage Regulator
FIGURE 13. High Output Current with Short Circuit Protection
FIGURE 14. Tracking Voltage Regulator
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21 www.fairchildsemi.com
LM
7805 • LM
7806 • LM
7808 • LM
7809 • LM
7810 • LM
7812 • LM
7815 • LM
7818 • LM
7824 • LM
7805A • L
M7806A
• LM
7808A•L
M7809A
• LM
7810A • L
M7812A
• LM
7815A • L
M7818A
• LM
7824A
Typical Applications (continued)
FIGURE 15. Split Power Supply (15V - 1A)
FIGURE 16. Negative Output Voltage Circuit
FIGURE 17. Switching Regulator
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23 www.fairchildsemi.com
LM
7805 • LM
7806 • LM
7808 • LM
7809 • LM
7810 • LM
7812 • LM
7815 • LM
7818 • LM
7824 • LM
7805A • L
M7806A
• LM
7808A•L
M7809A
• LM
7810A • L
M7812A
• LM
7815A • L
M7818A
• LM
7824A 3-Term
inal 1A
Po
sitive Voltag
e Reg
ulato
r
DISCLAIMERFAIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE TO ANYPRODUCTS HEREIN TO IMPROVE RELIABILITY, FUNCTION OR DESIGN. FAIRCHILD DOES NOT ASSUME ANY LIABILITYARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN; NEITHER DOES ITCONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS.
LIFE SUPPORT POLICYFAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICESOR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF FAIRCHILD SEMICONDUCTOR CORPORATIONAs used herein:1. Life support devices or systems are devices or systemswhich, (a) are intended for surgical implant into the body, or(b) support or sustain life, or (c) whose failure to performwhen properly used in accordance with instructions for use
provided in the labeling, can be reasonably expected toresult in significant injury to the user.2. A critical component is any component of a life supportdevice or system whose failure to perform can be reason-ably expected to cause the failure of the life support deviceor system, or to affect its safety or effectiveness.
PRODUCT STATUS DEFINITIONSDefinition of terms
Datasheet Identification Product Status DefinitionAdvance Information Formative or In Design This datasheet contains the design specifications for product develop-
ment. Specifications may change in any manner without notice.
Preliminary First Production This datasheet contains preliminary data, and supplementary data will be published at a later date. Fairchild Semiconductor reserves the right to make changes at any time without notice in order to improve design.
No Identification Needed Full Production This datasheet contains final specifications. Fairchild Semiconductor reserves the right to make changes at any time without notice in order to improve design.
Obsolete Not In Production This datasheet contains specifications on a product that has been dis-continued by Fairchild Semiconductor. The datasheet is printed for ref-erence information only.
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Especially suitable for applications from460 nm to 1080 nm (SFH 313) and of 880 nm (SFH 313 FA)
High linearity 5 mm plastic package
Applications
Computer-controlled flashes Photointerrupters Industrial electronics For control and drive circuits
SFH 313SFH 313 FA
Maße in mm, wenn nicht anders angegeben/Dimensions in mm, unless otherwise specified.
5.95.5
0.60.4
ø5.1
ø4.8
2.54
mm
spac
ing
7.87.5
9.08.2
5.75.1
2927
1.81.2
0.8
0.4
Area not flat
0.60.4
Cathode (Diode)
Chip position
GEX06260
Approx. weight 0.5 g
Collector (Transistor)
fexf
6626
fex0
6626
PLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJIPLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJI
Semiconductor Group 2 1997-11-27
SFH 313SFH 313 FA
GrenzwerteMaximum Ratings
Typ Type
BestellnummerOrdering Code
SFH 313SFH 313-2SFH 313-3
Q62702-P1667Q62702-P1751Q62702-P1752
SFH 313 FASFH 313 FA-2SFH 313 FA-3
Q62702-P1674Q62702-P1753Q62702-P1754
BezeichnungDescription
SymbolSymbol
WertValue
EinheitUnit
Betriebs- und LagertemperaturOperating and storage temperature range
Top; Tstg – 55 ... + 100 °C
Löttemperatur bei TauchlötungLötstelle ≥ 2 mm vom Gehäuse,Lötzeit t ≤ 5 sDip soldering temperature ≥ 2 mm distancefrom case bottom, soldering time t ≤ 5 s
TS 260 °C
Löttemperatur bei KolbenlötungLötstelle ≥ 2 mm vom Gehäuse,Lötzeit t ≤ 3 sIron soldering temperature ≥ 2 mm distancefrom case bottom t ≤ 3 s
TS 300 °C
Kollektor-EmitterspannungCollector-emitter voltage
VCE 70 V
KollektorstromCollector current
IC 50 mA
Kollektorspitzenstrom, τ < 10 µsCollector surge current
ICS 100 mA
Emitter-KollektorspannungEmitter-collector voltage
VEC 7 V
Verlustleistung, TA = 25 °CTotal power dissipation
Ptot 200 mW
WärmewiderstandThermal resistance
RthJA 375 K/W
PLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJIPLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJI
SFH 313SFH 313 FA
Semiconductor Group 3 1997-11-27
Kennwerte (TA = 25 °C, λ = 950 nm)Characteristics
BezeichnungDescription
SymbolSymbol
WertValue
EinheitUnit
SFH 313 SFH 313 FA
Wellenlänge der max. FotoempfindlichkeitWavelength of max. sensitivity
λS max 850 870 nm
Spektraler Bereich der FotoempfindlichkeitS = 10 % von Smax
Spectral range of sensitivityS = 10 % of Smax
λ 460 ... 1080 740 ... 1080 nm
Bestrahlungsempfindliche FlächeRadiant sensitive area
A 0.55 0.55 mm2
Abmessung der ChipflächeDimensions of chip area
L × BL × W
1 × 1 1 × 1 mm × mm
Abstand Chipoberfläche zu Gehäuseober-flächeDistance chip front to case surface
H 5.1 ... 5.7 5.1 ... 5.7 mm
HalbwinkelHalf angle
ϕ ± 10 ± 10 Graddeg.
Kapazität, VCE = 0 V, f = 1 MHz, E = 0Capacitance
CCE 15 15 pF
DunkelstromDark currentVCE = 10 V, E = 0
ICEO 10 (≤ 200) 10 (≤ 200) nA
Fotostrom PhotocurrentEe = 0.5 mW/cm2, VCE = 5 VEv = 1000 Ix, Normlicht/standard light A,VCE = 5 V
IPCE
IPCE
≥ 2.530
≥ 2.5–
mAmA
PLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJIPLAGIAT MERUPAKAN TINDAKAN TIDAK TERPUJI
Semiconductor Group 4 1997-11-27
SFH 313SFH 313 FA
Die Fototransistoren werden nach ihrer Fotoempfindlichkeit gruppiert und mit arabischen Ziffern gekennzeichnet.The phototransistors are grouped according to their spectral sensitivity and distinguished by arabian figures.
1) IPCEmin ist der minimale Fotostrom der jeweiligen Gruppe1) IPCEmin is the min. photocurrent of the specified group
․High reliability ․High radiant intensity ․Peak wavelength λp=940nm ․2.54mm Lead spacing ․Low forward voltage ․Pb free ․The product itself will remain within RoHS compliant version.
Descriptions ․EVERLIGHT’S Infrared Emitting Diode(IR333/H0/L10) is a
high intensity diode , molded in a blue transparent plastic package. ․The device is spectrally matched with phototransistor , photodiode and infrared receiver module. Applications
․Free air transmission system ․Infrared remote control units with high power requirement ․Smoke detector ․Infrared applied system
Device Selection Guide
Chip LED Part No. Material
Lens Color
IR GaAlAs Blue
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IR333/H0/L10 Packing Quantity Specification 1.500PCS/1Bag,5Bags/1Box 2.10Boxes/1Carton Label Form Specification
CPN: Customer’s Production Number P/N : Production Number QTY: Packing Quantity AT: Ranks HUE: Peak Wavelength REF: Reference LOT No: Lot Number MADE IN TAIWAN: Production Place
Notes 1. Above specification may be changed without notice. EVERLIGHT will reserve authority on
material change for above specification. 2. When using this product, please observe the absolute maximum ratings and the instructions
for using outlined in these specification sheets. EVERLIGHT assumes no responsibility for any damage resulting from use of the product which does not comply with the absolute maximum ratings and the instructions included in these specification sheets.
3. These specification sheets include materials protected under copyright of EVERLIGHT corporation. Please don’t reproduce or cause anyone to reproduce them without EVERLIGHT’s consent.
EVERLIGHT ELECTRONICS CO., LTD. Tel: 886-2-2267-2000, 2267-9936 Office: No 25, Lane 76, Sec 3, Chung Yang Rd, Fax: 886-2267-6244, 2267-6189, 2267-6306 Tucheng, Taipei 236, Taiwan, R.O.C http:\\www.everlight.com
IR333/H0/L10
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LM741
LM741 Operational Amplifier
Literature Number: SNOSC25B
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LM741Operational AmplifierGeneral DescriptionThe LM741 series are general purpose operational amplifi-ers which feature improved performance over industry stan-dards like the LM709. They are direct, plug-in replacementsfor the 709C, LM201, MC1439 and 748 in most applications.
The amplifiers offer many features which make their appli-cation nearly foolproof: overload protection on the input and
output, no latch-up when the common mode range is ex-ceeded, as well as freedom from oscillations.
The LM741C is identical to the LM741/LM741A except thatthe LM741C has their performance guaranteed over a 0˚C to+70˚C temperature range, instead of −55˚C to +125˚C.
Features
Connection Diagrams
Metal Can Package Dual-In-Line or S.O. Package
00934102
Note 1: LM741H is available per JM38510/10101
Order Number LM741H, LM741H/883 (Note 1),LM741AH/883 or LM741CH
See NS Package Number H08C
00934103
Order Number LM741J, LM741J/883, LM741CNSee NS Package Number J08A, M08A or N08E
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Absolute Maximum Ratings (Note 2)
If Military/Aerospace specified devices are required,please contact the National Semiconductor Sales Office/Distributors for availability and specifications.
(Note 7)
LM741A LM741 LM741C
Supply Voltage ±22V ±22V ±18V
Power Dissipation (Note 3) 500 mW 500 mW 500 mW
Differential Input Voltage ±30V ±30V ±30V
Input Voltage (Note 4) ±15V ±15V ±15V
Output Short Circuit Duration Continuous Continuous Continuous
Operating Temperature Range −55˚C to +125˚C −55˚C to +125˚C 0˚C to +70˚C
Storage Temperature Range −65˚C to +150˚C −65˚C to +150˚C −65˚C to +150˚C
Junction Temperature 150˚C 150˚C 100˚C
Soldering Information
N-Package (10 seconds) 260˚C 260˚C 260˚C
J- or H-Package (10 seconds) 300˚C 300˚C 300˚C
M-Package
Vapor Phase (60 seconds) 215˚C 215˚C 215˚C
Infrared (15 seconds) 215˚C 215˚C 215˚C
See AN-450 “Surface Mounting Methods and Their Effect on Product Reliability” for other methods ofsoldering
surface mount devices.
ESD Tolerance (Note 8) 400V 400V 400V
Electrical Characteristics (Note 5)
Parameter Conditions LM741A LM741 LM741C Units
Min Typ Max Min Typ Max Min Typ Max
Input Offset Voltage TA = 25˚C
RS ≤ 10 kΩ 1.0 5.0 2.0 6.0 mV
RS ≤ 50Ω 0.8 3.0 mV
TAMIN ≤ TA ≤ TAMAX
RS ≤ 50Ω 4.0 mV
RS ≤ 10 kΩ 6.0 7.5 mV
Average Input Offset 15 µV/˚C
Voltage Drift
Input Offset Voltage TA = 25˚C, VS = ±20V ±10 ±15 ±15 mV
Adjustment Range
Input Offset Current TA = 25˚C 3.0 30 20 200 20 200 nA
TAMIN ≤ TA ≤ TAMAX 70 85 500 300 nA
Average Input Offset 0.5 nA/˚C
Current Drift
Input Bias Current TA = 25˚C 30 80 80 500 80 500 nA
TAMIN ≤ TA ≤ TAMAX 0.210 1.5 0.8 µA
Input Resistance TA = 25˚C, VS = ±20V 1.0 6.0 0.3 2.0 0.3 2.0 MΩTAMIN ≤ TA ≤ TAMAX, 0.5 MΩVS = ±20V
Input Voltage Range TA = 25˚C ±12 ±13 V
TAMIN ≤ TA ≤ TAMAX ±12 ±13 V
LM74
1
www.national.com 2
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Electrical Characteristics (Note 5) (Continued)
Parameter Conditions LM741A LM741 LM741C Units
Min Typ Max Min Typ Max Min Typ Max
Large Signal Voltage Gain TA = 25˚C, RL ≥ 2 kΩVS = ±20V, VO = ±15V 50 V/mV
VS = ±15V, VO = ±10V 50 200 20 200 V/mV
TAMIN ≤ TA ≤ TAMAX,
RL ≥ 2 kΩ,
VS = ±20V, VO = ±15V 32 V/mV
VS = ±15V, VO = ±10V 25 15 V/mV
VS = ±5V, VO = ±2V 10 V/mV
Output Voltage Swing VS = ±20V
RL ≥ 10 kΩ ±16 V
RL ≥ 2 kΩ ±15 V
VS = ±15V
RL ≥ 10 kΩ ±12 ±14 ±12 ±14 V
RL ≥ 2 kΩ ±10 ±13 ±10 ±13 V
Output Short Circuit TA = 25˚C 10 25 35 25 25 mA
Current TAMIN ≤ TA ≤ TAMAX 10 40 mA
Common-Mode TAMIN ≤ TA ≤ TAMAX
Rejection Ratio RS ≤ 10 kΩ, VCM = ±12V 70 90 70 90 dB
RS ≤ 50Ω, VCM = ±12V 80 95 dB
Supply Voltage Rejection TAMIN ≤ TA ≤ TAMAX,
Ratio VS = ±20V to VS = ±5V
RS ≤ 50Ω 86 96 dB
RS ≤ 10 kΩ 77 96 77 96 dB
Transient Response TA = 25˚C, Unity Gain
Rise Time 0.25 0.8 0.3 0.3 µs
Overshoot 6.0 20 5 5 %
Bandwidth (Note 6) TA = 25˚C 0.437 1.5 MHz
Slew Rate TA = 25˚C, Unity Gain 0.3 0.7 0.5 0.5 V/µs
Supply Current TA = 25˚C 1.7 2.8 1.7 2.8 mA
Power Consumption TA = 25˚C
VS = ±20V 80 150 mW
VS = ±15V 50 85 50 85 mW
LM741A VS = ±20V
TA = TAMIN 165 mW
TA = TAMAX 135 mW
LM741 VS = ±15V
TA = TAMIN 60 100 mW
TA = TAMAX 45 75 mW
Note 2: “Absolute Maximum Ratings” indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which the device isfunctional, but do not guarantee specific performance limits.
LM741
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Electrical Characteristics (Note 5) (Continued)Note 3: For operation at elevated temperatures, these devices must be derated based on thermal resistance, and Tj max. (listed under “Absolute MaximumRatings”). Tj = TA + (θjA PD).
θjA (Junction to Ambient) 100˚C/W 100˚C/W 170˚C/W 195˚C/W
θjC (Junction to Case) N/A N/A 25˚C/W N/A
Note 4: For supply voltages less than ±15V, the absolute maximum input voltage is equal to the supply voltage.
Note 5: Unless otherwise specified, these specifications apply for VS = ±15V, −55˚C ≤ TA ≤ +125˚C (LM741/LM741A). For the LM741C/LM741E, thesespecifications are limited to 0˚C ≤ TA ≤ +70˚C.
Note 6: Calculated value from: BW (MHz) = 0.35/Rise Time(µs).
Note 7: For military specifications see RETS741X for LM741 and RETS741AX for LM741A.
Note 8: Human body model, 1.5 kΩ in series with 100 pF.
Schematic Diagram
00934101
LM74
1
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10-Lead Ceramic Flatpak (W)Order Number LM741W/883, LM741WG-MPR or LM741WG/883
NS Package Number W10A
National does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and National reservesthe right at any time without notice to change said circuitry and specifications.
For the most current product information visit us at www.national.com.
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2. A critical component is any component of a life supportdevice or system whose failure to perform can be reasonablyexpected to cause the failure of the life support device orsystem, or to affect its safety or effectiveness.
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