ULN2. 00. 1 2. 00. ST Microelectronics PDFS техническая документация ULN2. ULN2. 00. 1_2. 00. ST Microelectronics PDFS datasheets datasheet data sheets ULN2. ST Microelectronics PDFSULN2. A- ULN2. 00 2. AULN2. A- ULN2. 00. 4A? SEVENDARLINGTONARRAYS.
SEVENDARLINGTONSPERPACKAGEOUTPUT CURRENT 5. APERDRIVER.(6. 00m.
A PEAK). OUTPUTVOLTAGE5. VINTEGRATED SUPPRESSION DIODES FOR. INDUCTIVE LOADSOUTPUTS CAN BE PARALLELED FOR. HIGHER CURRENT. DIP1. TTL/CMOS/PMOS/DTL COMPATIBLEINPUTSINPUTSPINNEDOPPOSITE OUTPUTS TOORDERINGNUMBERS: ULN2.
Full datasheet ULN2003 manufactirer НТЦ СИТ. Datasheet ULN2003 manufacturer НТЦ СИТ. ChipFind: search «ULN2003» on Russian online stock. ULN2003A по низкой цене. Гарантия. Под заказ. Подходит для различных моделей. И мы не в состоянии получить Datasheet от поставщика, поэтому даже бессмысленно у нас это спрашивать. ULN2003 состоит из 21 резистора, 14 транзисторов и 7 диодов. Применяют её для управления относительно мощной нагрузкой (до 50. Описание Драйвер шагового двигателя ( ULN2003). Драйвер шагового двигателя на чипе ULN2003 DARLINGTON. Может управлять 4-фазным. Full datasheet ULN2003 manufactirer НТЦ СИТ. Datasheet ULN2003 manufacturer НТЦ СИТ ChipFind: search « ULN2003 » on Russian online stock.
DataSheet. Техническая документация к электронным компонентам на русском языке. Через ULN2003A можно подключать к управлению нагрузкой микроконтроллеры или другие логические схемы, не поддерживающие такие большие токи и напряжения..
ULN2003A - High Voltage, High Current Darlington Transistor Arrays. uln2001.pdf на сайте st.com. БИС ЭЛЕКТРОНИК. «uln2003a» в eFind, eInfo, Google, Яндекс, Datasheet Archive. 3 Описание. Каждая микросхема серии ULx200xA из семи составных транзисторов Дарлингтона с выходами подключенными по схеме.
A/2. A/3. A/4. ASIMPLIFYLAYOUTSO1. ORDERINGNUMBERS: ULN2. D/2. D/3. D/4. DDESCRIPTIONThe ULN2. A, ULN2. 00. 2A, ULN2. ULN2. 00. 4Aarehighvoltage,high current darlington. PINCONNECTIONarrays each containing seven open collector dar- lington pairs with commonemitters. Eachchannelrated at 5.
Aand can withstand peakcurrents of. A. Suppression diodesareincludedfor induc- tiveloaddrivingandthe inputs arepinned oppositetheoutputs to simplify boardlayout.
Thefour versions interface to allcommon logic fami- lies : ULN2. AGeneral Purpose, DTL,TTL,PMOS,CMOSULN2. A1. 4- 2. 5V PMOSULN2.
A5. V TTL, CMOSULN2. A6? 1. 5VCMOS,PMOSThese versatile devices are useful fordriving a widerange of loads including solenoids, relays DC mo- tors, LED displays filament lamps, thermal print- heads andhigh power buffers. The. ULN2. 00. 1A/2.
A/2. 00. 3Aand. 20. Aare sup- plied in 1. DIP packages with a copperleadframe to reduce thermal resistance.
Theyareavailable also in smalloutline package (SO- 1. ULN2. 00. 1D/2. 00. D/2. 00. 3D/2. 00. D. 1/8. February 2. ULN2. 00. 1A - ULN2.
A - ULN2. 00. 3A - ULN2. ASCHEMATICDIAGRAMSeries ULN- 2. ASeries ULN- 2. 00. A(each driver)(each driver)Series ULN- 2. ASeries ULN- 2. 00. A(each driver)(each driver)ABSOLUTE MAXIMUM RATINGSSymbol.
Parameter. Value. Unit. Vo. Output Voltage. VInput Voltage (for ULN2.
A/D - 2. 00. 3A/D - 2. A/D)3. 0VVin. Continuous Collector Current. AIc. Continuous Base.
Current. 25m. AIb? COperating Ambient. Temperature. Range? Tamb? CStorage Temperature.
Range? 5. 5 to 1. Tstg? CJunction Temperature.
Tj. THERMAL DATASymbol. Parameter. DIP1. 6SO1. Unit? C/WRth j- amb. Thermal. Resistance Junction- ambient.
Max. 7. 01. 20. 2/8. ULN2. 00. 1A - ULN2. A - ULN2. 00. 3A - ULN2.
AELECTRICAL CHARACTERISTICS (Tamb= 2. C unless otherwise specified)Symbol. Parameter. Test. Conditions. Min. Typ. Max. Unit.
Fig.? A5. 0ICEXOutput. Leakage. Current.
VCE = 5. 0V1a. Tamb = 7. C, VCE = 5. 0V? A1. Tamb = 7. 0? Cfor. ULN2. 00. 2A? AVCE = 5. V, Vi = 6. V5. 00. ULN2. 00. 4A? AVCE = 5.
V, Vi = 1. V5. 00. IC = 1. 00m. A, IB = 2. A0. 9. 1. 1. V2. Collector- emitter Saturation.
VCE(sat)IC = 2. 00m. A, IB = 3. 50? A1. V2. Voltage. IC = 3. A, IB = 5. 00? A1.
V2. 0. 8. 21. 2. 5m. A3. Input. Currentfor. ULN2. 00. 2A, Vi = 1. VIi(on)0. 9. 31. 3. A3for. ULN2. 00. 3A, Vi = 3. V0. 3. 50. 5m. A3for.
ULN2. 00. 4A, Vi = 5. VVi = 1. 2V1. 1. 4. A3. Tamb = 7. 0? C, IC = 5. A? AInput. Current.
Ii(off)Input Voltage. VCE = 2. VVi(on)V5for. ULN2. 00. 2AIC = 3. A1. 3for. ULN2. 00. AIC = 2. 00m. A2.
IC = 2. 50m. A2. 7. IC = 3. 00m. A3for. ULN2. 00. 4AIC = 1.
A5. IC = 2. 00m. A6. IC = 2. 75m. A7. IC = 3.
A8. DC Forward. Current Gainfor. ULN2. 00. 1Ah. FEVCE = 2. V, IC = 3. 50m. A1. Input Capacitance. FCi? s. Turn- on Delay Time. Vi to 0. 5 Vo. 0.
PLH? s. Turn- off Delay Time. Vi to 0. 5 Vo. 0. PHL? A5. 0Clamp Diode. Leakage. Current.
VR = 5. 0VIR6. Tamb = 7. C, VR = 5. 0V? A1. Clamp Diode. Forward Voltage. IF = 3. 50m. A1. 7.
V7. VF3/8. ULN2. 00. A - ULN2. 00. 2A - ULN2. A - ULN2. 00. 4ATEST CIRCUITSFigure. Figure 1b. Figure 2. Figure 3. Figure 4.
Figure 5. Figure 6. Figure 7. 4/8. ULN2.
A - ULN2. 00. 2A - ULN2. A - ULN2. 00. 4AFigure 8: Collector Current versus Input Current. Figure 9: Collector Current versus Saturation. Voltage. D9. 6IN4.
Ic. Ic. D9. 6IN4. A)(m. A)Tj=2. 5? C5. Tj=2. 5? C4. 00. 40. Max. Max. 30. 03. TYPICALTYPICAL1. 00. Ib(? A)0. 10. 02. Vce(sat)Figure. 10: Peak Collector Current versus Duty.
Figure. 11: Peak Collector Current versus Duty. Cycle. Cycle. Ic peak. Ic peak. D9. 6IN4. D9. 6IN4. 52. A(m. A)(m. A)Tamb=7. 0? CNUMBER OF ACTIVEOUTPUT(SO1. Tamb=7. 0? C3(DIP1.
NUMBER OF ACTIVEOUTPUT0. DC0. 20. 40. 60. 80. DC5/8. ULN2. 00. 1A - ULN2. A - ULN2. 00. 3A - ULN2. Amminch. OUTLINE ANDDIM. MECHANICAL DATAMIN.
TYP. MAX. MIN. TYP. MAX. a. 10. 5. 10. B0. 7. 71. 6. 50. D2. 00. 7. 87. E8. F7. 1. 0. 2. 80. I5.
L3. 3. 0. 1. 30. DIP1. Z1. 2. 70. 0. 50.
ULN2. 00. 1A - ULN2. A - ULN2. 00. 3A - ULN2. Amminch. DIM. OUTLINEANDMIN. TYP. MAX. MIN. TYP. MAX. MECHANICALDATAA1. C0. 5. 0. 0. 20c.
D (1)9. 8. 10. 0. E5. 8. 6. 2. 0. 2. F (1)3. 8. 40. 1. G4. 6. 5. 3. 0. 1. L0. 4. 1. 2. 70. 0. M0. 6. 20. 0. 24.
SO1. 6Narrow. 8?(max.)S(1) D and F do notincludemoldflash or protrusions. Moldflash or potrusions shallnot exceed 0. ULN2. 00. 1A - ULN2. A - ULN2. 00. 3A - ULN2.
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