altera MTBF
Abstract: EPF8452A
Text: Metastability January 1998, ver. 3 Introduction in Altera Devices Application Note 42 The output of an edge-triggered flipflop has two valid states: high and low. To ensure reliable operation, designs must meet the flipflop’s timing requirements. The input to the flipflop must be stable for a minimum time
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EPF8452A
Abstract: No abstract text available
Text: Metastability June 1996, ver. 2 Introduction in Altera Devices Application Note 42 The output of an edge-triggered flipflop has two valid states: high and low. To ensure reliable operation, designs must meet the flipflop’s timing requirements. The input to the flipflop must be stable for a minimum time
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Metastability in Altera Devices
Abstract: No abstract text available
Text: Metastability June 1996, ver. 2 Introduction in Altera Devices Application Note 42 The output of an edge-triggered flipflop has two valid states: high and low. To ensure reliable operation, designs must meet the flipflop’s timing requirements. The input to the flipflop must be stable for a minimum time
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altera MTBF
Abstract: half hour delay circuit d flipflop MET D 103 t flipflop EPF8452A max plus flex 7000
Text: Metastability May 1999, ver. 4 Introduction in Altera Devices Application Note 42 The output of an edge-triggered flipflop has two valid states: high and low. To ensure reliable operation, designs must meet the flipflop’s timing requirements. The input to the flipflop must be stable for a minimum time
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flipflop
Abstract: METASTABILITY EPF8452A
Text: Metastability May 1999, ver. 4 Introduction in Altera Devices Application Note 42 In non-synchronous systems, if the asynchronous input signals violate a flipflop’s timing requirements, the output of the flipflop can become metastable. Metastable outputs oscillate or hover between high and low
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SFB1001
Abstract: SFB1001T Megaxess frankfurt
Text: Preliminary Technical Data SFB1001T M EMegaxess G AGmbH X Deutschland ESS Edition 09/00 Laser Diode Driver with Input D FlipFlop Description Features The SFB1001 is a high speed current source for driving a semiconductor laser diode in optical transmission applications.
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SFB1001T
SFB1001
SFB1001T
Megaxess
frankfurt
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AC00
Abstract: AC74 ACT74 CD74AC74 CD74AC74E CD74AC74EX CD74ACT74 CD74ACT74E SCHS231
Text: [ /Title CD74 AC74, CD74 ACT74 /Subject (Dual DType FlipFlop with Set and Reset PositiveEdgeTriggered) /Autho r () /Keywords (Harris Semiconductor, Advan ced CMOS , Harris Semiconductor, Advan CD74AC74, CD74ACT74 Data sheet acquired from Harris Semiconductor
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ACT74
CD74AC74,
CD74ACT74
SCHS231
CD74AC74
CD74ACT74
AC00
AC74
ACT74
CD74AC74E
CD74AC74EX
CD74ACT74E
SCHS231
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Untitled
Abstract: No abstract text available
Text: [ /Title CD74 AC74, CD74 ACT74 /Subject (Dual DType FlipFlop with Set and Reset PositiveEdgeTriggered) /Autho r () /Keywords (Harris Semiconductor, Advan ced CMOS , Harris Semiconductor, Advan CD54/74AC74, CD54/74ACT74 Data sheet acquired from Harris Semiconductor
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ACT74
CD54/74AC74,
CD54/74ACT74
SCHS231C
ACT74
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AC00
Abstract: AC74 ACT74 CD54AC74F3A CD74AC74E CD74AC74EX D112CP
Text: [ /Title CD74 AC74, CD74 ACT74 /Subject (Dual DType FlipFlop with Set and Reset PositiveEdgeTriggered) /Autho r () /Keywords (Harris Semiconductor, Advan ced CMOS , Harris Semiconductor, Advan CD54/74AC74, CD54/74ACT74 Data sheet acquired from Harris Semiconductor
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ACT74
CD54/74AC74,
CD54/74ACT74
SCHS231A
ACT74
AC00
AC74
CD54AC74F3A
CD74AC74E
CD74AC74EX
D112CP
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Untitled
Abstract: No abstract text available
Text: [ /Title CD74 AC74, CD74 ACT74 /Subject (Dual DType FlipFlop with Set and Reset PositiveEdgeTriggered) /Autho r () /Keywords (Harris Semiconductor, Advan ced CMOS , Harris Semiconductor, Advan CD54/74AC74, CD54/74ACT74 Data sheet acquired from Harris Semiconductor
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CD54/74AC74,
CD54/74ACT74
SCHS231B
ACT74
ACT74
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CD54HC73
Abstract: CD54HC73F3A CD74HC73 CD74HC73E CD74HC73M CD74HCT73 HC73
Text: [ /Title CD74 HC73, CD74 HCT73 /Subject (Dual J-K FlipFlop CD54HC73, CD74HC73, CD74HCT73 Data sheet acquired from Harris Semiconductor SCHS134E Dual J-K Flip-Flop with Reset Negative-Edge Trigger February 1998 - Revised September 2003 Features Description
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HCT73
CD54HC73,
CD74HC73,
CD74HCT73
SCHS134E
CD74HCT73
CD54HC73
CD54HC73F3A
CD74HC73
CD74HC73E
CD74HC73M
HC73
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Untitled
Abstract: No abstract text available
Text: [ /Title CD74 HC73, CD74 HCT73 /Subject (Dual J-K FlipFlop CD54HC73, CD74HC73, CD74HCT73 Data sheet acquired from Harris Semiconductor SCHS134E Dual J-K Flip-Flop with Reset Negative-Edge Trigger February 1998 - Revised September 2003 Features Description
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CD54HC73,
CD74HC73,
CD74HCT73
SCHS134E
CD74HCT73
HC/HCT107
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JK Flip-flop
Abstract: No abstract text available
Text: [ /Title CD74 HC73, CD74 HCT73 /Subject (Dual J-K FlipFlop CD54HC73, CD74HC73, CD74HCT73 Data sheet acquired from Harris Semiconductor SCHS134E Dual J-K Flip-Flop with Reset Negative-Edge Trigger February 1998 - Revised September 2003 Features Description
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CD54HC73,
CD74HC73,
CD74HCT73
SCHS134E
CD74HCT73
HC/HCT107
JK Flip-flop
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CD54HC73
Abstract: CD54HC73F3A CD74HC73 CD74HC73E CD74HC73M CD74HCT73 HC73
Text: [ /Title CD74 HC73, CD74 HCT73 /Subject (Dual J-K FlipFlop CD54HC73, CD74HC73, CD74HCT73 Data sheet acquired from Harris Semiconductor SCHS134E Dual J-K Flip-Flop with Reset Negative-Edge Trigger February 1998 - Revised September 2003 Features Description
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HCT73
CD54HC73,
CD74HC73,
CD74HCT73
SCHS134E
CD74HCT73
CD54HC73
CD54HC73F3A
CD74HC73
CD74HC73E
CD74HC73M
HC73
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Harris CD74ACT174M
Abstract: AC174 CD74AC174 CD74AC174E CD74AC174M CD74ACT174 CD74ACT174E CD74ACT174M
Text: [ /Title CD74 AC174 , CD74 ACT17 4 /Subject (Hex D FlipFlop with Reset) /Autho r () /Keywords (Harris Semiconductor, Advan ced CMOS , Harris Semiconductor, Advan ced TTL) /Creator () /DOCI NFO CD74AC174, CD74ACT174 Data sheet acquired from Harris Semiconductor
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AC174
ACT17
CD74AC174,
CD74ACT174
SCHS241
CD74AC174
CD74ACT174
Harris CD74ACT174M
AC174
CD74AC174E
CD74AC174M
CD74ACT174E
CD74ACT174M
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ac175 harris
Abstract: No abstract text available
Text: [ /Title CD74 AC175 , CD74 ACT17 5 /Subject (Quad D FlipFlop with Reset) /Autho r () /Keywords (Harris Semiconductor, Advan ced CMOS , Harris Semiconductor, Advan ced TTL) /Creator () /DOCI NFO CD74AC175, CD74ACT175 Data sheet acquired from Harris Semiconductor
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AC175
ACT17
CD74AC175,
CD74ACT175
SCHS242
CD74AC175
CD74ACT175
ac175 harris
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Untitled
Abstract: No abstract text available
Text: [ /Title CD74 HC73, CD74 HCT73 /Subject (Dual J-K FlipFlop CD54HC73, CD74HC73, CD74HCT73 Data sheet acquired from Harris Semiconductor SCHS134E Dual J-K Flip-Flop with Reset Negative-Edge Trigger February 1998 - Revised September 2003 Features Description
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CD54HC73,
CD74HC73,
CD74HCT73
SCHS134E
CD74HCT73
HC/HCT107
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ACT174 Harris
Abstract: No abstract text available
Text: [ /Title CD74 AC174 , CD74 ACT17 4 /Subject (Hex D FlipFlop with Reset) /Autho r () /Keywords (Harris Semiconductor, Advan ced CMOS , Harris Semiconductor, Advan ced TTL) /Creator () /DOCI NFO CD74AC174, CD54/74ACT174 Data sheet acquired from Harris Semiconductor
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AC174
ACT17
CD74AC174,
CD54/74ACT174
SCHS241A
CD74AC174
ACT174
ACT174 Harris
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CD54HC73
Abstract: CD54HC73F3A CD74HC73 CD74HC73E CD74HC73M CD74HCT73 HC73
Text: [ /Title CD74 HC73, CD74 HCT73 /Subject (Dual J-K FlipFlop CD54HC73, CD74HC73, CD74HCT73 Data sheet acquired from Harris Semiconductor SCHS134E Dual J-K Flip-Flop with Reset Negative-Edge Trigger February 1998 - Revised September 2003 Features Description
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HCT73
CD54HC73,
CD74HC73,
CD74HCT73
SCHS134E
CD74HCT73
CD54HC73
CD54HC73F3A
CD74HC73
CD74HC73E
CD74HC73M
HC73
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EPX780
Abstract: epx740 altera epx740
Text: Metastability in Altera Devices March 1995, ver. 1 Introduction Application Note 42 The output of an edge-triggered flipflop has two valid states: high and low. To guarantee reliable operation, designs m ust m eet the flipflop's timing requirem ents. The input to the flipflop must be stable for a
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Untitled
Abstract: No abstract text available
Text: Metastability in Altera Devices The o u tp u t of an edge-triggered flipflop has tw o valid states: high and low. To ensure reliable operation, designs m u st m eet th e flipflop's tim ing requirem ents. The in p u t to the flipflop m u st be stable for a m inim um tim e
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Untitled
Abstract: No abstract text available
Text: Metastability in Altera Devices J a n u a r y 1998. v e r. 3 Introduction A p p lic a tio n N o te 42 The output of an edge-triggered flipflop has two valid states: high and low. To ensure reliable operation, designs must meet the flipflop's timing requirements. The input to the flipflop must be stable for a minimum time
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colour tv circuit
Abstract: TDA 2140 TDA2140 integrated circuits of PAL TDA2150 tv antenna
Text: Integrated circuits for RF applications TDA2140 PAL subcarrier reference oscillator for colour TV receivers V < 1 3 .2 Supply voltage Power dissipation ^ to t 0.8 W Flyback input resistance R\ 1 kQ Drive voltage for the colour killer correct phase of PAL flipflop
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16-lead
colour tv circuit
TDA 2140
TDA2140
integrated circuits of PAL
TDA2150
tv antenna
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Untitled
Abstract: No abstract text available
Text: Metastability in Altera Devices May 1999, ver. 4 Introduction Application Note 42 In non-synchronous systems, if the asynchronous input signals violate a flipflop's timing requirements, the output of the flipflop can become metastable. Metastable outputs oscillate or hover between high and low
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