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KODENSHI |
Standard Voltage Detector • Current Consumption is Low (ICCL=300 ㎂ Typ. ICCH =30 ㎂ Typ.) • Resetting Output Minimum Guarantee Voltage is Low (0.8V Typ.) • Hysteresis Voltage is Provided (50 ㎷ Typ.) • Open Collector Output Configuration + Applications • As Control Circuit of |
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KODENSHI KOREA |
Octal 3-State Bus Transceivers and D Flip-Flops High-Speed Silicon-Gate CMOS and Output Enable. In this configuration each output reinforces its input. Thus, when all other data sources to the two sets of bus lines are at high impedance, each set of bus lines will remain at its last state. The KK74ACT652 has noninverted outp |
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KODENSHI |
4A Standard Triac y Repetitive Peak Off-State Voltage : VDRM=600V y R.M.S On-State Current : IT(RMS)=4A y High Commutation: (dI/dt)C =3.7 A/㎳(Min) Applications y Switching mode power supply, light dimmet y TV sets, stereo, refrigerator, washing machine y Electric blan |
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KODENSHI |
Standard Voltage Detector • Current Consumption is Low (ICCL=300 ㎂ Typ. ICCH =30 ㎂ Typ.) • Resetting Output Minimum Guarantee Voltage is Low (0.8V Typ.) • Hysteresis Voltage is Provided (50 ㎷ Typ.) • Open Collector Output Configuration + Applications • As Control Circuit of |
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KODENSHI |
Standard Voltage Detector • Current Consumption is Low (ICCL=300 ㎂ Typ. ICCH =30 ㎂ Typ.) • Resetting Output Minimum Guarantee Voltage is Low (0.8V Typ.) • Hysteresis Voltage is Provided (50 ㎷ Typ.) • Open Collector Output Configuration + Applications • As Control Circuit of |
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KODENSHI |
25A Standard Triac Repetitive Peak Off-State Voltage : VDRM=600V R.M.S On-State Current : IT(RMS)=25A Gate trigger current : IGT=35mA max (Mode Ⅰ-Ⅱ-Ⅲ) High Commutation: (dI/dt)C = 13.0A/㎳(Min) Applications Switching mode power supply, light dimmet TV sets, |
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KODENSHI |
4A Standard Triac Repetitive Peak Off-State Voltage : VDRM=600V R.M.S On-State Current : IT(RMS)=4A High Commutation: (dI/dt)C = 2.5A/㎳(Min) 123 TO-220F-3L Product Characteristics Symbol Rating IT(RMS) VDRM 4A 600V Marking Diagram Applications Switchi |
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KODENSHI |
4A Standard Triac y Repetitive Peak Off-State Voltage : VDRM=600V y R.M.S On-State Current : IT(RMS)=4A y High Commutation: (dI/dt)C =3.7 A/㎳(Min) 1 2 3 2, 4 4 1: T1 2, 4: T2 3 3: Gate 1 TO-252 Product Characteristics Symbol Rating IT(RMS) VDRM 4A 600V Applica |
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KODENSHI |
Standard Voltage Detector • Current Consumption is Low (ICCL=300 ㎂ Typ. ICCH =30 ㎂ Typ.) • Resetting Output Minimum Guarantee Voltage is Low (0.8V Typ.) • Hysteresis Voltage is Provided (50 ㎷ Typ.) • Open Collector Output Configuration + Applications • As Control Circuit of |
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KODENSHI |
Standard Voltage Detector • Current Consumption is Low (ICCL=300 ㎂ Typ. ICCH =30 ㎂ Typ.) • Resetting Output Minimum Guarantee Voltage is Low (0.8V Typ.) • Hysteresis Voltage is Provided (50 ㎷ Typ.) • Open Collector Output Configuration + Applications • As Control Circuit of |
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KODENSHI |
PNP Silicon Transistor • Low saturation voltage: VCE(sat)=-0.15V Typ. @ IC=-1A, IB=-50mA • Large collector current capacity: IC=-3A • “Green” device and RoHS compliant device • Available in full lead (Pb)-free device Ordering Information Type NO. STA3350D Marking STA3350 |
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KODENSHI KOREA |
Hex 3-State Noninverting Buffer heet4U.net 1 KK74HC367A MAXIMUM RATINGS* Symbol VCC VIN VOUT IIN IOUT ICC PD Tstg TL * Parameter DC Supply Voltage (Referenced to GND) DC Input Voltage (Referenced to GND) DC Output Voltage (Referenced to GND) DC Input Current, per Pin DC Output |
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KODENSHI |
25A Standard Triac y Repetitive Peak Off-State Voltage : VDRM=600V y R.M.S On-State Current : IT(RMS)=25A y Gate trigger current : IGT=35mA max (Mode Ⅰ-Ⅱ-Ⅲ) y High Commutation: (dI/dt)C = 13.0A/㎳(Min) Applications y Switching mode power supply, light dimmet y TV sets, |
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KODENSHI |
6A Standard Triac y Repetitive Peak Off-State Voltage : VDRM=600V y R.M.S On-State Current : IT(RMS)=6A y Gate trigger current : IGT=40mA max (Mode Ⅰ-Ⅱ-Ⅲ) y High Commutation : (dI/dt)C =10.9 A/㎳(Min) Applications y Switching mode power supply, light dimmet y TV sets, |
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KODENSHI |
Standard Voltage Detector • Current Consumption is Low (ICCL=300 ㎂ Typ. ICCH =30 ㎂ Typ.) • Resetting Output Minimum Guarantee Voltage is Low (0.8V Typ.) • Hysteresis Voltage is Provided (50 ㎷ Typ.) • Open Collector Output Configuration + Applications • As Control Circuit of |
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KODENSHI |
Standard Voltage Detector • Current Consumption is Low (ICCL=300 ㎂ Typ. ICCH =30 ㎂ Typ.) • Resetting Output Minimum Guarantee Voltage is Low (0.8V Typ.) • Hysteresis Voltage is Provided (50 ㎷ Typ.) • Open Collector Output Configuration + Applications • As Control Circuit of |
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KODENSHI |
Standard Voltage Detector • Current Consumption is Low (ICCL=300 ㎂ Typ. ICCH =30 ㎂ Typ.) • Resetting Output Minimum Guarantee Voltage is Low (0.8V Typ.) • Hysteresis Voltage is Provided (50 ㎷ Typ.) • Open Collector Output Configuration + Applications • As Control Circuit of |
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KODENSHI |
Standard Voltage Detector • Current Consumption is Low (ICCL=300 ㎂ Typ. ICCH =30 ㎂ Typ.) • Resetting Output Minimum Guarantee Voltage is Low (0.8V Typ.) • Hysteresis Voltage is Provided (50 ㎷ Typ.) • Open Collector Output Configuration + Applications • As Control Circuit of |
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KODENSHI |
Standard Voltage Detector • Current Consumption is Low (ICCL=300 ㎂ Typ. ICCH =30 ㎂ Typ.) • Resetting Output Minimum Guarantee Voltage is Low (0.8V Typ.) • Hysteresis Voltage is Provided (50 ㎷ Typ.) • Open Collector Output Configuration + Applications • As Control Circuit of |
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KODENSHI |
Standard Voltage Detector • Current Consumption is Low (ICCL=300 ㎂ Typ. ICCH =30 ㎂ Typ.) • Resetting Output Minimum Guarantee Voltage is Low (0.8V Typ.) • Hysteresis Voltage is Provided (50 ㎷ Typ.) • Open Collector Output Configuration + Applications • As Control Circuit of |
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Desde 2024. D4U Semiconductor.
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