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    CONTACT BOUNCE ELIMINATOR Search Results

    CONTACT BOUNCE ELIMINATOR Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    CN-DSUB50PIN0-000 Amphenol Cables on Demand Amphenol CN-DSUB50PIN0-000 D-Subminiature (DB50 Male D-Sub) Connector, 50-Position Pin Contacts, Solder-Cup Terminals Datasheet
    CN-DSUBHD62PN-000 Amphenol Cables on Demand Amphenol CN-DSUBHD62PN-000 High-Density D-Subminiature (HD62 Male D-Sub) Connector, 62-Position Pin Contacts, Solder-Cup Terminals Datasheet
    CN-DSUB25SKT0-000 Amphenol Cables on Demand Amphenol CN-DSUB25SKT0-000 D-Subminiature (DB25 Female D-Sub) Connector, 25-Position Socket Contacts, Solder-Cup Terminals Datasheet
    CN-DSUBHD26SK-000 Amphenol Cables on Demand Amphenol CN-DSUBHD26SK-000 High-Density D-Subminiature (HD26 Female D-Sub) Connector, 26-Position Socket Contacts, Solder-Cup Terminals Datasheet
    CN-DSUB15PIN0-000 Amphenol Cables on Demand Amphenol CN-DSUB15PIN0-000 D-Subminiature (DB15 Male D-Sub) Connector, 15-Position Pin Contacts, Solder-Cup Terminals Datasheet

    CONTACT BOUNCE ELIMINATOR Datasheets Context Search

    Catalog Datasheet MFG & Type Document Tags PDF

    mc14049

    Abstract: No abstract text available
    Text: MC14490 Hex Contact Bounce Eliminator The MC14490 is constructed with complementary MOS enhancement mode devices, and is used for the elimination of extraneous level changes that result when interfacing with mechanical contacts. The digital contact bounce eliminator circuit takes an input signal from a bouncing contact


    Original     		MC14490 MC14490/D mc14049 PDF

    MC14050

    Abstract: MC14490
    Text: MC14490 Hex Contact Bounce Eliminator The MC14490 is constructed with complementary MOS enhancement mode devices, and is used for the elimination of extraneous level changes that result when interfacing with mechanical contacts. The digital contact bounce eliminator circuit takes an input


    Original     		MC14490 r14525 MC14490/D MC14050 PDF

    Untitled

    Abstract: No abstract text available
    Text: MC14490 Hex Contact Bounce Eliminator The MC14490 is constructed with complementary MOS enhancement mode devices, and is used for the elimination of extraneous level changes that result when interfacing with mechanical contacts. The digital contact bounce eliminator circuit takes an input signal from a bouncing contact


    Original     		MC14490 MC14490 MC14490/D PDF

    MC14050

    Abstract: MC14049 IC MC14490DWG MC14490PG MC14490 MC14011B MC14049 MC14490DWR2G MC14490FG MC14490P
    Text: MC14490 Hex Contact Bounce Eliminator The MC14490 is constructed with complementary MOS enhancement mode devices, and is used for the elimination of extraneous level changes that result when interfacing with mechanical contacts. The digital contact bounce eliminator circuit takes an input signal from a bouncing contact


    Original     		MC14490 MC14490 MC14490/D MC14050 MC14049 IC MC14490DWG MC14490PG MC14011B MC14049 MC14490DWR2G MC14490FG MC14490P PDF

    MC14049 IC

    Abstract: MC14011B MC14049 MC14050 MC14490 MC14490DW MC14490DWG MC14490DWR2 MC14490P
    Text: MC14490 Hex Contact Bounce Eliminator The MC14490 is constructed with complementary MOS enhancement mode devices, and is used for the elimination of extraneous level changes that result when interfacing with mechanical contacts. The digital contact bounce eliminator circuit takes an input signal from a bouncing contact


    Original     		MC14490 MC14490 MC14490/D MC14049 IC MC14011B MC14049 MC14050 MC14490DW MC14490DWG MC14490DWR2 MC14490P PDF

    MC14050

    Abstract: MC14049 MC1449 MC14050 equivalent 16-M9
    Text: MC14490 Hex Contact Bounce Eliminator The MC14490 is constructed with complementary MOS enhancement mode devices, and is used for the elimination of extraneous level changes that result when interfacing with mechanical contacts. The digital contact bounce eliminator circuit takes an input signal from a bouncing contact


    Original     		MC14490 MC14490/D MC14050 MC14049 MC1449 MC14050 equivalent 16-M9 PDF

    MC14490

    Abstract: MC14490DW MC14490DWG MC14490DWR2 MC14490DWR2G MC14490F MC14490FG MC14490P MC14490PG
    Text: MC14490 Hex Contact Bounce Eliminator The MC14490 is constructed with complementary MOS enhancement mode devices, and is used for the elimination of extraneous level changes that result when interfacing with mechanical contacts. The digital contact bounce eliminator circuit takes an input signal from a bouncing contact


    Original     		MC14490 MC14490 MC14490DW MC14490DWG MC14490DWR2 MC14490DWR2G MC14490F MC14490FG MC14490P MC14490PG PDF

    MC14050

    Abstract: MC14049 IC bounce eliminator mc14490 MC14050 equivalent MC*490 MC14049 MC14490DW MC14490P MC14490F
    Text: MC14490 Hex Contact Bounce Eliminator The MC14490 is constructed with complementary MOS enhancement mode devices, and is used for the elimination of extraneous level changes that result when interfacing with mechanical contacts. The digital contact bounce eliminator circuit takes an input


    Original     		MC14490 MC14490 r14525 MC14490/D MC14050 MC14049 IC bounce eliminator MC14050 equivalent MC*490 MC14049 MC14490DW MC14490P MC14490F PDF

    MC14050 equivalent

    Abstract: mc14490 mc14490p MC14050 bounce eliminator
    Text: MC14490 Hex Contact Bounce Eliminator The MC14490 is constructed with complementary MOS enhancement mode devices, and is used for the elimination of extraneous level changes that result when interfacing with mechanical contacts. The digital contact bounce eliminator circuit takes an input


    Original     		MC14490 MC14490DW 751G-03 MC14490FEL MC14490FL1 MC14490DWR2 MC14490FR1 MC14490F MC14050 equivalent mc14490p MC14050 bounce eliminator PDF

    MC14050

    Abstract: debounce MC14049 MC14490 MC14490DW MC14490DWR2 MC14490F MC14490FEL MC14490P bounce eliminator
    Text: MC14490 Hex Contact Bounce Eliminator The MC14490 is constructed with complementary MOS enhancement mode devices, and is used for the elimination of extraneous level changes that result when interfacing with mechanical contacts. The digital contact bounce eliminator circuit takes an input


    Original     		MC14490 MC14490 MC14490/D MC14050 debounce MC14049 MC14490DW MC14490DWR2 MC14490F MC14490FEL MC14490P bounce eliminator PDF

    MC14050

    Abstract: MC14490 MC14049 IC MC14049 MC14490DW MC14490DWR2 MC14490F MC14490FEL MC14490P
    Text: MC14490 Hex Contact Bounce Eliminator The MC14490 is constructed with complementary MOS enhancement mode devices, and is used for the elimination of extraneous level changes that result when interfacing with mechanical contacts. The digital contact bounce eliminator circuit takes an input


    Original     		MC14490 MC14490 r14525 MC14490/D MC14050 MC14049 IC MC14049 MC14490DW MC14490DWR2 MC14490F MC14490FEL MC14490P PDF

    MC14050

    Abstract: MC14490 MC14050 equivalent
    Text: MC14490 Hex Contact Bounce Eliminator The MC14490 is constructed with complementary MOS enhancement mode devices, and is used for the elimination of extraneous level changes that result when interfacing with mechanical contacts. The digital contact bounce eliminator circuit takes an input


    Original     		MC14490 MC14490 MC14050 MC14050 equivalent PDF

    MC14490

    Abstract: MC14050 MC14049 MC14490DW MC14490DWR2 MC14490F MC14490FEL MC14490P MC14049 IC bounce eliminator
    Text: MC14490 Hex Contact Bounce Eliminator The MC14490 is constructed with complementary MOS enhancement mode devices, and is used for the elimination of extraneous level changes that result when interfacing with mechanical contacts. The digital contact bounce eliminator circuit takes an input


    Original     		MC14490 MC14490 r14525 MC14490/D MC14050 MC14049 MC14490DW MC14490DWR2 MC14490F MC14490FEL MC14490P MC14049 IC bounce eliminator PDF

    MC14050

    Abstract: Mc14050 MOtorola mc14490l MC14049 IC MC14050 equivalent mc14049
    Text: MOTOROLA SEMICONDUCTOR TECHNICAL DATA MC14490 Hex Contact Bounce Eliminator L SUFFIX CERAMIC CASE 620 The MC14490 is constructed with complementary MOS enhancement mode devices, and is used for the elimination of extraneous level changes that result when interfacing with mechanical contacts. The digital contact


    Original     		MC14490 MC14490 MC14490/D* MC14490/D MC14050 Mc14050 MOtorola mc14490l MC14049 IC MC14050 equivalent mc14049 PDF

    rotary encoder signal conditioning

    Abstract: signal condition rotary encoder debounce IC MC debounce IC 14490 debounce contact bounce eliminator "Signal Conditioning" MC14490 bounce eliminator
    Text: Sensors & Controls General Application Note Encoders: Signal Conditioning Most applications where rotary contacting encoders are used require the use of filters to condition the digital output signal. Commercially available integrated circuits IC or programmable logic chips


    Original     		MC14490 e/SC0409 rotary encoder signal conditioning signal condition rotary encoder debounce IC MC debounce IC 14490 debounce contact bounce eliminator "Signal Conditioning" bounce eliminator PDF

    debounce IC MC

    Abstract: rotary encoder signal conditioning 14490 MC14490 SC1026 MOTOROLA 14490 magnetic rotary encoder circuit diagram Encoder counter ic debounce signal condition rotary encoder
    Text: Encoders SIGNAL CONDITIONING TECHNICAL NOTE Most applications where rotary contacting encoders are used require the use of filters to condition the digital output signal. Commercially available Integrated Circuits IC or Programmable Logic Chips (PLCs) provide the proper debounce and noise filtration.


    Original     		MC14490 e/SC1026 debounce IC MC rotary encoder signal conditioning 14490 SC1026 MOTOROLA 14490 magnetic rotary encoder circuit diagram Encoder counter ic debounce signal condition rotary encoder PDF

    connector FANUC

    Abstract: fanuc VMIVME-1183 Panduit bounce eliminator fanuc i/o
    Text: VMIVME-1183 32-bit Change-of-State COS Input Board with Sequence-of-Events (SOE) A GE Fanuc Company • 32 bits of high-voltage digital Change-of-State inputs (COS) • COS is programmable to respond to rising edge only, falling edge only, or any edge on a selectable basis per channel


    Original     		VMIVME-1183 32-bit connector FANUC fanuc VMIVME-1183 Panduit bounce eliminator fanuc i/o PDF

    74HC104

    Abstract: 74HC10490 D103 D106 D107 DI01 0560C
    Text: OCTAL SENSOR INTERFACE The 74HC10490 is a CMOS integrated circuit that is designed to interface to any type of mechanical contact or optical switch to eliminate contact bounce or transient signal effects. The 74H C 1 0490 provides eight sensor inputs that have internal pullups and


    OCR Scan     		74HC10490 74HC104 D103 D106 D107 DI01 0560C PDF

    5962-8764601EX

    Abstract: No abstract text available
    Text: REVISIONS LTR APPROVED DATE YR-MO-DA DESCRIPTION REV SHEET REV SHEET REV STATUS OF SHEETS REIV SHEET PMIC N/A 1 2 3 4 5 6 AMSC N/A 8 9 10 11 12 13 DEFENSE ELECTRONICS SUPPLY CENTER DAYTON, OHIO 45444 MICROCIRCUITS, DIGITAL, CMOS, HEX, CONTACT BOUNCE ELIMINATOR, MONOLITHIC SILICON


    OCR Scan     		IM/40911 5962-E460 5962-8764601EX 4490A/BEAJC PDF

    14490L

    Abstract: 14490P MOTOROLA 14490 22B50 mc14050 MC14049 contact bounce eliminator
    Text: MC14490 MOTOROLA HEX CONTACT BOUNCE ELIMINATOR The MC14490 is constructed w ith co m ple m en ta ry MOS enhance­ m e nt m ode devices, and is used fo r the e lim in atio n o f extraneous level changes th a t result w hen interfacing w ith m echanical contacts.


    OCR Scan     		MC14490 14490L 14490P MOTOROLA 14490 22B50 mc14050 MC14049 contact bounce eliminator PDF

    Untitled

    Abstract: No abstract text available
    Text: MOTOROLA SEMICONDUCTOR TECHNICAL DATA M C14490 H ex C o n tact Bounce E lim inator L SUFFIX The MC14490 is constructed with com plem entary MOS enhancem ent mode devices, and is used for the elimination of extraneous level changes that result when interfacing with mechanical contacts. The digital contact


    OCR Scan     		C14490 MC14490 MC14490/D PDF

    contact bounce eliminator

    Abstract: No abstract text available
    Text: MC14490 < g MOTOROLA HEX CONTACT BOUNCE ELIMINATOR T h e M C 1 4 4 9 0 is c o n s t r u c t e d w i t h c o m p le m e n t a r y M O S e n h a n c e ­ m e n t m o d e d e v ic e s , a n d is u s e d f o r t h e e li m in a t i o n o f e x tr a n e o u s


    OCR Scan     		PDF

    MC14490

    Abstract: Motorola Smoke Detector ul217 piezoelectric smoke detector piezoelectric transducer bounce eliminator "Smoke Detector" smoke transducer smoke detector Piezoelectric driver
    Text: SPECIAL CIRCUITS continued CMOS Miscellaneous Smoke Detectors MC14467-1, Case 648 This sensitive smoke detector requires only an ioniza­ tion chamber and a sm all num ber of external components. When smoke is sensed, an alarm is sounded via an external piezoelectric transducer. The circuit is designed


    OCR Scan     		MC14467-1, UL217 MC14468, MC14490, MC14490 Motorola Smoke Detector piezoelectric smoke detector piezoelectric transducer bounce eliminator "Smoke Detector" smoke transducer smoke detector Piezoelectric driver PDF

    MC14541

    Abstract: MC14052 MC14584 mc14174 MC14510 MC14053 MC14017 MC14553 MC14046 application MCI 4011
    Text: SPECIAL CIRCUITS continued CMOS Miscellaneous Smoke Detectors MC14467-1, Case 648 This sensitive smoke detector requires only an ioniza­ tion chamber and a small number of external components. When smoke is sensed, an alarm is sounded via an external piezoelectric transducer. The circuit is designed


    OCR Scan     		MC14467-1, UL217 MC14468, MC14490, MC14566 MCI4568 MC14569 MC14572 MC14580 MC14541 MC14052 MC14584 mc14174 MC14510 MC14053 MC14017 MC14553 MC14046 application MCI 4011 PDF