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AN-90

Abstract:
Text: Conditions Min Typ Max Units CMOS TO CMOS VIN(1) Logical "1" Input Voltage VCC = 5V VCC=10V 3.5 8.0 V V VIN(0) Logical "0" Input Voltage VCC = 5 V vcc=10V 1.5 2.0 V V VoUT(1) Logical "1" Output , (P-Channel) VCC = 5V, VOUT = 0V Ta = 25°C -1.75 -3.3 mA isource Output Source Current (P-Channel) Vcc=10V , tpdl Propagation Delay Time from VCC = 5V 450 850 ns A|N to Qb (MM74C93) VCC=10V 160 300 ns VdO tpdl Propagation Delay Time from VCC = 5V 450 800 ns A|N to Qb (MM74C90) VCC=10V 160 300 ns tpdO


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PDF MM74C90 MM74C93 MM74C90 MM74C93 AN-90 MM74C90N MM74C93N MS-001 N14A
2009 - CC 1nF

Abstract:
Text: ) ICC CIN TEST CONDITIONS VCC=10V , IOH=-1mA VCC=10V , IOH=-100mA VCC=10V , IOL=1mA VCC=10V , IOL=100mA VCC=5V VCC=10V VCC=14V VCC=5V VCC=10V VCC=14V MIN 9.75 8 1 2 2.5 VCC=10V , VIN=0 or VCC VCC=10V , VIN=VCC or GND, IOUT=0 VCC=10V TYP MAX UNIT 9.9 V 9.1 V 0.18 0.25 V 1 2 V , =14V, CL=1nF VCC=10V , CL=1nF VCC=5V, CL=1nF VCC=14V, CL=1nF VCC=10V , CL=1nF VCC=5V, CL=1nF UNISONIC


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PDF US2829 US2829 US2829G-AF5-R OT-25 QW-R502-361 CC 1nF VCC-10V
1B57

Abstract:
Text: MS MS MS MS td Delay time lc=-10mA VCC=-10V lB1= -1 mA lc=-100 mA VCC=-10V lB1= -10 mA 35 5 ns ns tr Rise time lc= -10 mA VCC=-10V lB= -1 mA lc=-100 mA VCC=-10V lB1= -10 mA 50 50 ns ns ts Storage time lc= -10 mA VCC=-10V 'bi= -1 b2~ -1 mA lc=-100 mA VCC=-10V ibi=-IB2=-10 mA 400 250 ns ns 24 BCY78 , time lc= -10 mA VCC=-10V I B1:= -!B2= -1 mA lc=-100 mA VCC=-10V |B1=_|B2=_10 mA 80 200 ns ns ton Turn-on time lc= -10 mA VCC=-10V lB1= -1 mA lc=:-100 mA VCC=-10V lB1 = -10 mA 85 150 55 150 ns ns toff


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PDF BCY78 JedecTO-18 G-1B57 BCY79 G-1860 1B57 BCY78 BCY79
2002 - BCY59-VIII

Abstract:
Text: =1.0MHz VCE=5.0V, IC=200µA, RS=2k, f=1.0kHz, B=200Hz VCC=10V , IC=10mA, IB1=-IB2=1.0mA VCC=10V , IC=10mA, IB1=-IB2=1.0mA VCC=10V , IC=10mA, IB1=-IB2=1.0mA VCC=10V , IC=10mA, IB1=-IB2=1.0mA VCC=10V , IC=10mA, IB1=-IB2=1.0mA VCC=10V , IC=10mA, IB1=-IB2=1.0mA VCC=10V , IC=100mA, IB1=-IB2=10mA VCC=10V , IC=100mA, IB1=-IB2=10mA VCC=10V , IC=100mA, IB1=-IB2=10mA VCC=10V , IC=100mA, IB1=-IB2=10mA VCC=10V , IC=100mA, IB1=-IB2=10mA VCC=10V , IC


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PDF BCY58, BCY59, BCY59 100mA, BCY59-VIII bcy59x bcy58-x bcy59-vii BCY59-X BCY59IX bcy59v BCY59VII
AN-90

Abstract:
Text: Parameter Conditions Min Typ Max Units CMOS TO CMOS vin(1) Logical "1" Input Voltage VCC = 5V VCC=10V 3.5 8.0 V V vin(0) Logical "0" Input Voltage VCC = 5V VCC=10V 1.5 2.0 V V vout(1) Logical "1" , = 5 V 200 400 ns Logical "1" from Clock or Load to Q or Q Vcc=10V 80 200 ns tpdo! tpdl Propagation Delay Time to a Logical "0" or VCC = 5 V 200 400 ns Logical "1" from H to Q or Q Vcc=10V 80 200 ns ts Clock Inhibit Set-up Time VCC = 5 V 150 75 ns vcc=10V 60 30 ns ts Serial Input Set-up


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PDF MM74C165 MM74C165 AN-90 MM74165N MS-001 N16E
1998 - Not Available

Abstract:
Text: *IF50mA, VCC10V , RL10kW g1.0mm 0.5mm *IF50mA, VCC10V , RL10kW g1.0mm 2/6 OC808 l n l -Ta25 1.0 0.8 0.6 0.4 0.2 IF50mA VCC10V RL10kW 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 gmm l -Ta25 60 50 IF50mA VCC10V RL10kW IPmA 40 30 20 10 0 0.5 1.0 1.5 , VCC10V RL10kW g1.0mm 1 10 IFmA 100 0.1 l ONOFF-Ta25 ONOFFtON, tOFFms IF50mA VCC10V 500ms , 4/6 OC808 l l 0.5mm-Ta25 60 IPmA 50 40 30 20 10 0 1.0 Lmm 2.0 IF50mA VCC10V RL10kW


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PDF J2P005437X2 OC808 OC808 tw100msT10ms 910nm 800nm IF100mA IF50mA,
1998 - Not Available

Abstract:
Text: IF100mA VR6V VCE9V *1 *2 *IF50mA, VCC10V , RL10kW g1.0mm 0.17mm *IF50mA, VCC10V , RL10kW g1.0mm 2/6 OPU817 l n l -Ta25 1.0 0.8 0.6 0.4 0.2 IF50mA VCC10V RL10kW 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 gmm l -Ta25 IPmA 20 IF50mA VCC10V , IPmA 1.0 0.1 VCC10V RL10kW g1.0mm 1 10 100 IFmA l ONOFF-Ta25 IF50mA ONOFF tON, tOFFms VCC10V 500ms Duty R10 g1.0mm tON 100 tOFF 90% 10% 90% 10% 10 tON 10


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PDF J2P005537X2 OPU817 OPU817 tw100msT10ms 910nm 800nm IF100mA IF50mA,
2012 - Not Available

Abstract:
Text: =5V VIN=0, 10V, VCC=10V VIN=0, 15V, VCC=15V VIN=0, 20V, VCC=20V VOUT=0.4V, VIN=0,5V, VCC=5V VOUT=0.5V, VIN=0,10V, VCC=10V VOUT=1.5V, VIN=0,15V, VCC=15V VOUT=4.6V, VIN=0, 5V, VCC=5V VOUT=2.5V, VIN=0, 5V, VCC=5V VOUT= 9.5V, VIN=0,10V, VCC=10V VOUT=13.5V, VIN=0,15V, VCC=15V VIN=0,5V, VCC=5V VIN=0,10V, VCC=10V VIN , 200K) PARAMETER SYMBOL tPLH / tPHL TEST CONDITIONS VCC=5V VCC=10V VCC=15V VCC=5V VCC=10V VCC=15V VCC=5V VCC=10V VCC=15V VCC=5V VCC=10V VCC=15 VCC=5V VCC=10V VCC=15V VCC=5V VCC=10V VCC=15V VCC=5V VCC=10V VCC


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PDF UCD4014 OP-16 UCD4014 QW-R502-606
BA00ASFP

Abstract:
Text: ) BA00AST / BA00ASFP !Ta = 25°C, VCC=10V , IO=500mA, R1=2.2k, R2=6.8k Symbol Min. Typ. Max , 0.33µ CTL 22µ + GND C IO VCC 5V V VO R1 V VC VO VC VCC=10V VCC=10V VCC=10V VCC=6V25 VCC=10V VCC=10V IO=50mA IO=500mA IO=5mA IO=500mA IO=5mA1A Fig , VC R1 VCC=10V IO=100mA Fig.2 IO BA00AST / BA00ASFP V Vd VCC VCC R2 , R1 VCC=10V IO=0mA CTL=5V VCC=10V IO=0mA CTL=0V Fig.35V Fig.4 VCC OUT R2 0.33µ


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PDF BA00AST BA00ASFP 3V15V O220FP-5 O252-5 O220FP BA00ASFP 6V25 TO220FP 5pin
2013 - Not Available

Abstract:
Text: VCC=10V , IC=10mA, IB1=IB2=1.0mA 85 td VCC=10V , IC=10mA, IB1=IB2=1.0mA 35 tr VCC=10V , IC=10mA, IB1=IB2=1.0mA 50 toff VCC=10V , IC=10mA, IB1=IB2=1.0mA 450 ts VCC=10V , IC=10mA, IB1=IB2=1.0mA 400 tf VCC=10V , IC=10mA, IB1=IB2=1.0mA 80 ton VCC=10V , IC=100mA, IB1=IB2=10mA 55 td VCC=10V , IC=100mA, IB1=IB2=10mA 5.0 tr VCC=10V , IC=100mA, IB1=IB2=10mA 50 toff VCC=10V , IC=100mA, IB1=IB2=10mA 450 ts VCC=10V , IC=100mA, IB1=IB2=10mA 250 tf VCC=10V , IC=100mA, IB1=IB2=10mA 20 MAX 5.0 15 10 150


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PDF BCY58, BCY59, BCY58 BCY59 100mA,
1998 - 910nm

Abstract:
Text: *1 *2 *IF50mA, VCC10V , RL10kW g1.0mm 0.25mm *IF50mA, VCC10V , RL10kW g1.0mm 2/6 OC800 l n l -Ta25 1.0 0.8 0.6 0.4 0.2 IF50mA VCC10V RL10kW 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 gmm l -Ta25 20 IPmA IF50mA VCC10V RL10kW 10 , 0.1 VCC10V RL10kW g1.0mm 100 1 10 IFmA l ONOFF-Ta25 ONOFF tONtOFFms IF50mA VCC10V 500ms Duty R10 g1.0mm tON 100 tOFF 90% 10% 90% 10% 10 tON 10 RLW 3 tOFF


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PDF J2P005337X2 OC800 OC800 tw100msT10ms 910nm 800nm IF100mA IF50mA,
310K

Abstract:
Text: 3. 2 Tamb= 25 VCC=10V f=1kHz Rg=600 ICCQ Vom Vni Avo Ri , F 70 dB 50 80 dB dB F Vcc=10V 2.2k + Rf S4 S1 180 4.7 4.7 , Avo f 16 12 Vcc V OM (V) 0 20 (V) Vcc=10V R L=10k NBA 3 dB V Avo , 5k 10k f 30k 50k 0.05 0.1 1 Hz Vi 100 10 mV Vni Rg Vcc=10V NBA Av , ( 100k 160 (dB) 12 Icc 3 Vcc=10V -40 -20 0 ) 3 6 20 Tamb 40


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PDF CD7325GS 100dB 120pF 2200pF 310K Avo 16
2013 - Not Available

Abstract:
Text: =0.5V VCC=10V , VO=1.0V VCC=15V, VO=1.5V VCC=5V, VO=4.5V VCC=10V , VO=9.0V VCC=15V, VO=13.5V VCC=5V, No Load VCC=10V , No Load VCC=15V, No Load VCC=5V, No Load VCC=10V , No Load VCC=15V, No Load VCC=4.5V, VO=0.4V VCC=5V, VO=4.6V VCC=5V, VO=2.5V VCC=10V , VO=9.5V VCC=15V, VO=13.5V VCC=5V, VO=0.4V VCC=10V , VO=0.5V VCC=15V, VO=1.5V VCC=15V ,VIN = VCC or GND VCC=5V, VIN = VCC or VSS, IOUT = 0 VCC=10V , CONDITIONS VCC=5V, VCC=10V VCC=15V VCC=5V VCC=10V VCC=15V VCC=5V VCC=10V VCC=15V VCC=5V VCC=10V


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PDF UCD4049B OP-16 UCD4049B TSSOP-16 QW-R502-876
2012 - cd40106

Abstract:
Text: (TYP): 0.9V at VCC=5V 2.3V at VCC=10V 3.5V at VCC=15V * Wide supply voltage range from 3V to 18V , otherwise specified) PARAMETER SYMBOL VT+ TEST CONDITIONS VCC=5V VCC=10V VCC=15V VCC=5V VCC=10V VCC=15V VCC=5V VCC=10V VCC=15V VCC=5V, |IO| <1uA VCC=10V , |IO| <1uA VCC=15V, |IO| <1uA VCC=5V, |IO| <1uA VCC=10V , |IO| <1uA VCC=15V, |IO| <1uA VCC=5V, VO=4.6V VCC=5V, VO=2.5V VCC=10V , VO=9.5V VCC=15V, VO=13.5V VCC=5V, VO=0.4V VCC=10V , VO=0.5V VCC=15V, VO=1.5V VCC=18V, VIN=VCC or GND VCC=5V, VIN= VCC or GND, IOUT=0 VCC=10V , VIN


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PDF CD40106 CD40106 CD40106L-S14-R QW-R502-815 ic CD40106 CD40106 diagram six independent Schmitt-trigger inverters
2011 - US2829

Abstract:
Text: SYMBOL VOH VOL VT+ TEST CONDITIONS VCC=10V , IOH=-1mA VCC=10V , IOH=-100mA VCC=10V , IOL=1mA VCC=10V , IOL=100mA VCC=5V VCC=10V VCC=14V VCC=5V VCC=10V VCC=14V VCC=10V , VIN=0 or VCC VCC=10V , VIN=VCC or GND, IOUT=0 VCC=10V MIN 9.75 8 TYP MAX UNIT 9.9 V 9.1 V 0.18 0.25 V 1 2 V 3.3 4 V 6.6 7 V 9.3 10 V 1.7 V 3.3 V 4.6 , =1nF VCC=10V , CL=1nF VCC=5V, CL=1nF VCC=14V, CL=1nF VCC=10V , CL=1nF VCC=5V, CL=1nF MIN TYP MAX UNIT 40 ns


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PDF US2829 US2829 US2829L-AF5-R US2829G-AF5-R OT-25 QW-R502-361
2011 - Not Available

Abstract:
Text: ˆ MIN 4 -0.3 -40 VT+-VTII(LEAK) ICC CIN TEST CONDITIONS VCC=10V , IOH=-1mA VCC=10V , IOH=-100mA VCC=10V , IOL=1mA VCC=10V , IOL=100mA VCC=5V VCC=10V VCC=14V VCC=5V VCC=10V VCC=14V MIN 9.75 8 1 2 2.5 VCC=10V , VIN=0 or VCC VCC=10V , VIN=VCC or GND, IOUT=0 VCC=10V TYP MAX UNIT , transition time tr/tf TEST CONDITIONS VCC=14V, CL=1nF VCC=10V , CL=1nF VCC=5V, CL=1nF VCC=14V, CL=1nF VCC=10V , CL=1nF VCC=5V, CL=1nF UNISONIC TECHNOLOGIES CO., LTD www.unisonic.com.tw MIN TYP


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PDF US2829 US2829 US2829L-AF5-R US2829G-AFat QW-R502-361
2013 - Not Available

Abstract:
Text: * Hysteresis Voltage(TYP): 0.9V at VCC=5V 2.3V at VCC=10V 3.5V at VCC=15V * Wide supply voltage range from , TECHNOLOGIES CO., LTD www.unisonic.com.tw TEST CONDITIONS VCC=5V VCC=10V VCC=15V VCC=5V VCC=10V VCC=15V VCC=5V VCC=10V VCC=15V VCC=5V, |IO| <1uA VCC=10V , |IO| <1uA VCC=15V, |IO| <1uA VCC=5V, |IO| <1uA VCC=10V , |IO| <1uA VCC=15V, |IO| <1uA VCC=5V, VO=4.6V VCC=5V, VO=2.5V VCC=10V , VO=9.5V VCC=15V, VO=13.5V VCC=5V, VO=0.4V VCC=10V , VO=0.5V VCC=15V, VO=1.5V VCC=18V, VIN=VCC or GND VCC=5V, VIN


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PDF UCD40106B UCD40106B QW-R502-815
2013 - Not Available

Abstract:
Text: (TYP): 0.9V at VCC=5V 2.3V at VCC=10V 3.5V at VCC=15V * Wide supply voltage range from 3V to 18V , CONDITIONS VCC=5V VCC=10V VCC=15V VCC=5V VCC=10V VCC=15V VCC=5V VCC=10V VCC=15V VCC=5V, |IO| <1uA VCC=10V , |IO| <1uA VCC=15V, |IO| <1uA VCC=5V, |IO| <1uA VCC=10V , |IO| <1uA VCC=15V, |IO| <1uA VCC=5V, VO=4.6V VCC=5V, VO=2.5V VCC=10V , VO=9.5V VCC=15V, VO=13.5V VCC=5V, VO=0.4V VCC=10V , VO=0.5V VCC=15V, VO=1.5V VCC=18V, VIN=VCC or GND VCC=5V, VIN= VCC or GND, IOUT=0 VCC=10V , VIN= VCC or GND, IOUT


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PDF UCD40106B UCD40106B UCD4010at QW-R502-815
2013 - Not Available

Abstract:
Text: Voltage: Low-Level VOL TEST CONDITIONS VIN=0, 5V, VCC=5V VIN=0, 10V, VCC=10V VIN=0, 15V, VCC=15V VIN=0, 20V, VCC=20V VOUT=0.4V, VIN=0,5V, VCC=5V VOUT=0.5V, VIN=0,10V, VCC=10V VOUT=1.5V, VIN=0,15V, VCC=15V VOUT=4.6V, VIN=0, 5V, VCC=5V VOUT=2.5V, VIN=0, 5V, VCC=5V VOUT= 9.5V, VIN=0,10V, VCC=10V VOUT=13.5V, VIN=0,15V, VCC=15V VIN=0,5V, VCC=5V VIN=0,10V, VCC=10V VIN=0,15V, VCC=15V UNISONIC , Average Input Capacitance CI TEST CONDITIONS VCC=5V VCC=10V VCC=15V VCC=5V VCC=10V VCC


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PDF UCD4014B OP-16 UCD4014B QW-R502-606
2013 - Not Available

Abstract:
Text: IOH IOL II(LEAK) IDD TEST CONDITIONS VCC=5V, VO=0.5V VCC=10V , VO=1.0V VCC=15V, VO=1.5V VCC=5V, VO=4.5V VCC=10V , VO=9.0V VCC=15V, VO=13.5V VCC=5V, No Load VCC=10V , No Load VCC=15V, No Load VCC=5V, No Load VCC=10V , No Load VCC=15V, No Load VCC=4.5V, VO=0.4V VCC=5V, VO=4.6V VCC=5V, VO=2.5V VCC=10V , VO=9.5V VCC=15V, VO=13.5V VCC=5V, VO=0.4V VCC=10V , VO=0.5V VCC=15V, VO=1.5V VCC=15V ,VIN = VCC or GND VCC=5V, VIN = VCC or VSS, IOUT = 0 VCC=10V , VIN = VCC or VSS, IOUT = 0 VCC=15V, VIN


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PDF UCD4049B OP-16 UCD4049B TSSOP-16 QW-R502-876
2015 - Not Available

Abstract:
Text: Current Quiescent Supply Current IOH IOL II(LEAK) IDD TEST CONDITIONS VCC=5V, VO=0.5V VCC=10V , VO=1.0V VCC=15V, VO=1.5V VCC=5V, VO=4.5V VCC=10V , VO=9.0V VCC=15V, VO=13.5V VCC=5V, No Load VCC=10V , No Load VCC=15V, No Load VCC=5V, No Load VCC=10V , No Load VCC=15V, No Load VCC=4.5V, VO=0.4V VCC=5V, VO=4.6V VCC=5V, VO=2.5V VCC=10V , VO=9.5V VCC=15V, VO=13.5V VCC=5V, VO=0.4V VCC=10V , VO=0.5V VCC=15V, VO=1.5V VCC=15V ,VIN = VCC or GND VCC=5V, VIN = VCC or VSS, IOUT = 0 VCC=10V , VIN = VCC or


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PDF UCD4049B OP-16 UCD4049B TSSOP-16 QW-R502-876
2001 - SLA2403M

Abstract:
Text: =10V IO=0.4A, VGL=10V VCC=6 to 15V VCC=10V , VM=400V VCC=10V , VM=400V VCC=6 to 15V VCC=6 to 15V VCC , (on) ­ td (off) Measurement Circuit VIN1 VOUT1 RL VOUT2 VIN2 Conditions VCC=10V , VIN=10V (pulse , Quiescent circuit current supplied high voltage 3.0 150ºC 125ºC 85ºC VIN=0V VCC=10V 150ºC 125ºC 85ºC 1.5 , VOUT (ON) (V) s Input threshold voltage 10 s Gate drive voltage 10 Ta=25ºC VCC=10V Gate drive , =15V 8 VCC=10V VCC= 6V 8 150ºC 125ºC 85ºC 25ºC ­40ºC Output on-state voltage 6 VCC=6V 4 6


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PDF SLA2403M SLA2403M SLA2403 full bridge gate driver
M16A

Abstract:
Text: Conditions Min Typ Max Units CMOS TO CMOS VIN(1) Logical "1" Input Voltage Vcc = 5 V VCC=10V 3.5 8.0 V V VIN(0) Logical "0" Input Voltage VCC = 5V Vcc=10V 1.5 2.0 V V VOUT(1) Logical "1" Output , °C, Vqut = Vcc 1.75 mA !sink Output Sink Current Vcc=10V ,VIN(1)=10V Ta = 25°C, VQUT = vcc 8 mA , Units tpd Propagation Delay Time to Q VCC = 5V 250 400 ns from Count Up or Down VCC=10V 100 160 ns tpd Propagation Delay Time to Q VCC = 5V 120 200 ns Borrow from Count Down VCC=10V 50 80 ns tpd


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PDF MM74C192 MM74C193 MM74C192 MM74C193 M16A MM74C192N MM74C193M MM74C193N MS-001 N16E
2013 - Not Available

Abstract:
Text: CONDITIONS VCC=5V, VOUT=4.5V High-Level Input Voltage VIH VCC=10V , VOUT=9.0V VCC=15V, VOUT=13.5V VCC=5V, VOUT=0.5V Low-Level Input Voltage VIL VCC=10V , VOUT=1.0V VCC=15V, VOUT=1.5V VCC=5V, No Load High-Level Output Voltage VOH VCC=10V , No Load VCC=15V, No Load VCC=5V, No Load Low-Level Output Voltage VOL VCC=10V , No Load VCC=15V, No Load VCC=5V, VOUT=4.6V VCC=5V, VOUT=2.5V High-Level Output Current IOH (Note) VCC=10V , VOUT=9.5V VCC=15V, VOUT=13.5V VCC=5V, VOUT=0.4V Low-Level Output Current


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PDF UCD4050B OP-16 UCD4050B TSSOP-16 QW-R502-864
2013 - CL - 606 N

Abstract:
Text: , VCC=5V VIN=0, 10V, VCC=10V VIN=0, 15V, VCC=15V VIN=0, 20V, VCC=20V VOUT=0.4V, VIN=0,5V, VCC=5V VOUT=0.5V, VIN=0,10V, VCC=10V VOUT=1.5V, VIN=0,15V, VCC=15V VOUT=4.6V, VIN=0, 5V, VCC=5V VOUT=2.5V, VIN=0, 5V, VCC=5V VOUT= 9.5V, VIN=0,10V, VCC=10V VOUT=13.5V, VIN=0,15V, VCC=15V VIN=0,5V, VCC=5V VIN=0,10V, VCC=10V VIN=0,15V, VCC=15V UNISONIC TECHNOLOGIES CO., LTD www.unisonic.com.tw MIN , TEST CONDITIONS VCC=5V VCC=10V VCC=15V VCC=5V VCC=10V VCC=15V VCC=5V VCC=10V VCC=15V VCC


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PDF UCD4014B OP-16 UCD4014B QW-R502-606 CL - 606 N
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