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Part Manufacturer Description Datasheet BUY
CD40105BDMSR Intersil Corporation 16X4 OTHER FIFO, CDIP16, METAL SEALED, CERAMIC, DIP-16 visit Intersil
CD40105BKMSR Intersil Corporation 16X4 OTHER FIFO, CDFP16, METAL SEALED, CERAMIC, DFP-16 visit Intersil
SN74ABT7820-15PH Texas Instruments 512 x 18 x 2 bidirectional asynchronous FIFO memory 80-QFP 0 to 70 visit Texas Instruments
SN74ACT2229DW Texas Instruments 256 x 1 x 2 dual independent synchronous FIFO memories 28-SOIC -40 to 85 visit Texas Instruments
SN74ACT3632-15PCB Texas Instruments 512 x 36 x 2 bidirectional synchronous FIFO memory 120-HLQFP 0 to 70 visit Texas Instruments
SN74ACT7200L15NP Texas Instruments 256X9 OTHER FIFO, 15ns, PDIP28, PLASTIC, DIP-28 visit Texas Instruments

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Part : IN 19 4 Supplier : Gedore Torque Manufacturer : element14 Asia-Pacific Stock : - Best Price : $12.21 Price Each : $13.44
Part : IN 19 4 Supplier : Gedore Torque Manufacturer : Farnell element14 Stock : 3 Best Price : £4.23 Price Each : £4.40
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IN 19 4

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: =50kH z H -pulse In (19) 4 .0V In 7 7.5 8.2 8.9 V p -p F hpi H para. freq. characteristics 1 (6) 2.5V In (7) M easure (15) 3.0V In (17) fH =24kH z H -pulse In (19) 4 .0V In 7 -0.2 , . characteristics 1 (6) 2.5V In (7) M easure (15) 3.0V In (10) (20) 11.5V In (17) fH =50kH z H -pulse In (19) 4 , z H -pulse In (19) 4 .0V In 7 - S hpi H para, size control 1 (6) 2.5V In (7) M easure (15) 3.0V In (17) fH =50kH z H -pulse In (19) 4 .0V In 7 7.5 8.2 8.9 V p -p SHP2 -
OCR Scan
M52723ASP 20P4B M5M4V4400J 4194304-BIT 1048576-WORD
Abstract: 0 2 .1 0 2 .5 0 ± 100 2 3 10 M AX SN54HC7032 M IN 1.9 4 .4 5 .9 3 .7 5 .2 0.1 0.1 0.1 0 .4 0 .4 0 , 0 1 .2 0 2 .1 0 2 .5 0 ± 1000 40 10 MAX SN74HC7032 M IN 1.9 4 .4 5 .9 3 .8 4 5 .3 4 0 .1 0.1 M AX M IN 1.9 4 .4 5 .9 3 .9 8 5 .4 8 U N IT V 4 .5 V 6 V 2 Devices 2 759 V 0.1 0 .3 3 , . « - Z 2 > Tt - 18[ u n n n D 3 1 2 0 19 1Y ]4 ]5 2A ]6 NC 2B ]8 4A Devices , IN 2 1.5 3 .1 5 4 .2 0 .3 0 .9 1 .2 0 0 0 0 0 -4 0 0 .3 0 .9 1 .2 V V NOM 5 M AX 6 U N IT V V cc -
OCR Scan
SN74H C7032
Abstract: ITIO N S vcc 2 V 20 A 4 .5 V 6 V TA = 2 5°C M IN 1.9 4 .4 5 9 3 .9 8 5 .4 8 TYP 1 .9 9 8 4 .4 9 , ±100 8 3 10 MAX S N 54H C 139 M IN 1.9 4 .4 5 .9 3 .7 5 .2 0.1 0,1 0.1 0 .4 0 ,4 MAX S N 74H C 139 M IN 1.9 4 .4 5 .9 3 .8 4 5 .3 4 0.1 0.1 0.1 0 .3 3 033 ± 1000 80 10 MAX U N IT V| = V |H or , operating conditions SN54H C 139 M IN NOM 5 MAX 6 SN 74H C 139 M IN 2 1 .5 3 .1 5 4 .2 0 .3 0 .9 1.2 0 0 0 , 220 44 38 95 19 16 UNIT tp -
OCR Scan
SN54HC139 SN74HC139 SN54NC139 8N74HC139 7526S

HE316

Abstract: "" 3 30 Frequency(MHz) 50 1 4 2 3 1-12 +15V P-1(dBm) TO-8F 20 C2 C1 1 IN 19 4 2 3 21 OUT 3
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Original
HE316 350MH
Abstract: .1 5 ± 0 .1 0.1 0.1 0.1 0 .2 6 0 .2 6 ±100 2 10 MAX SN 54H C 04 M IN 1.9 4 .4 5 .9 3 .7 5 2 0.1 0.1 0.1 0 .4 0 .4 ±1000 40 10 MAX SN 74H C 04 M IN 1.9 4 .4 5.9 3 .8 4 5 .3 4 0.1 0.1 0.1 0 .3 3 0 .3 3 , logic) 6Y * T h is sym b o l is in a cco rd a n ce w ith ANSI/IEEE S td 9 1 - 1 9 8 4 and IEC P u , I q l = 4 mA Io l = 5 .2 m A lO L = 2 0 l*A 4 .5 V 6 V 4 .5 V 6 V 6 V 6 V 2 to 6 V 3 M IN 1 .9 4 .4 , M IN TY P 45 9 8 38 8 6 MAX 95 19 16 75 15 13 SN 54H C 04 M IN MAX 145 29 25 110 22 19 SN 74H C 04 M -
OCR Scan
SN54HC04 SN74HC04

74hc10

Abstract: 6 0 .2 6 ±100 2 3 10 MAX SN 54H C 10 M IN 1.9 4 .4 5 .9 3 .7 5 .2 0.1 0.1 0.1 0 .4 0 .4 T 1000 40 10 MAX SN 74H C 10 M IN 1.9 4 .4 5 .9 3 .8 4 5 .3 4 0.1 0.1 0.1 0 .3 3 0 .3 3 ±1000 20 10 MAX U , ctio n s V = A *B * C o r Y = A + B + C in positive logic. T h e S N 5 4 H C 1 0 is c haracterized for , I_T s - 1 3 2 1 20 19 2A ]4 NC ] 5 2B ] 6 NC ] ? 2C ] 8 9 10 11 12 13 n n n n n > a (j > < CN Z 2 co CO O N C - N o in te rn a l c o n n e c tio n m < a u o 1 z > i- U 7 [ NC 6 [ 3C 15[ NC 4
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OCR Scan
74hc10 SN54HC10 SN74HC10

SN74HC30

Abstract: V 4 .5 V 6 TA = 2 5 °C M IN 1 .9 4 .4 SN 54H C 30 M IN 1.9 4 .4 5 .9 3 .7 5 .2 0 .1 0 .1 0 .1 0 .1 0 .1 0 .1 S N 74H C 30 M IN 1.9 4 .4 5 .9 3 .8 4 5 .3 4 0 .1 0 .1 0 .1 TY P 1 .9 9 8 4 , _II _II_1 L J -3 2 1 20 19 18 [ u u u 16[ G 1 5 [ NC 1 4 [ NC 9 10 11 12 13 n n n n n Li , t n> (2) (3) (4) (5) (6) (12) 18) & * T h is sym b o l is in a cco rd a n ce w ith ANSI , H ig h -le ve l in p u t v o lta g e V CC - 4 .5 V V cc = 6 S N 74H C 30 M IN 2 1 .5 3 .1 5 4 .2
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OCR Scan
SN74HC30 SN54HC30 655C1

74hc180

Abstract: .1 0.1 0.1 0.1 0 .2 6 0 .2 6 ±100 8 3 10 MAX S N 54H C 180 M IN 1.9 4 .4 5 .9 3 .7 5 .2 0.1 0.1 0.1 0 .4 0 .4 ± 1000 160 10 MAX SN 74H C 180 M IN 1.9 4 .4 5 .9 3 .8 4 5 .3 4 0.1 0.1 0.1 0 .3 3 0 , in a cco rd a n ce w ith ANSI/IEEE S td 9 1 - 1 9 8 4 and IEC P u b lica tio n 6 1 7 -1 2 . Pin n u m , S u p p ly v o lta g e V CC = 2 V V(H H ig h -le vel in p u t v o lta g e V CC = 4 .5 V V cc L o w -le v e l in p u t v o lta g e = 6 V 2 1.5 3 .1 5 4 .2 0 0 0 0 0 0 .3 0 .9 1.2 vcc NO M 5 MAX 6 SN74H
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OCR Scan
74hc180 SN54HC180 SN74HC180 SN54HC1

74HC138

Abstract: c1383 138 M IN 1.9 4 .4 5 .9 3 .7 5.2 0.1 0.1 0.1 0 .2 6 0 .2 6 ±100 8 3 10 0.1 0.1 0.1 0 .4 0 .4 ±1000 160 10 MAX S N 74H C 138 M IN 1.9 4 .4 5 .9 3 .8 4 5 .3 4 0.1 0.1 0.1 0 .3 3 0 .3 3 ± 1000 80 10 PF nA V , sy m b o ls are in a cco rd a n ce w ith A N S I/IE EE S td 9 1 - 1 9 8 4 and IEC P ub lica tio n 6 1 , 1.2 V V c c ~ 4"ï> V V cc = 6 V 0 V| Vo In p u t v o lta g e O u tp u t v o lta g e V CC , V V tt In p u t tra n s itio n (rise and fa ll) tim e s VCc = 4 5 v V cc 6 V ns 0 -5
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OCR Scan
74HC138 c1383 54HC138 SN54HC138 SN74HC138 D2684 1982-REVISED HC138

74HC239

Abstract: C-239 SN54H C 239 M IN 1.9 4 .4 5 .9 3 .7 5 .2 0.1 0.1 0.1 0.1 0.1 0.1 0 .4 0 .4 ±1000 160 10 MAX SN74H C 239 M IN 1.9 4 .4 5 .9 3 .8 4 5 .3 4 0.1 0.1 0.1 0 .3 3 0 .3 3 ±1000 80 10 MAX TY P 1 .9 9 8 U N , TO 4-LINE DECODERS/DEMULTIPLEXERS recommended operating conditions S N 54H C 239 M IN NOM 5 MAX 6 , o lta g e V CC = 2 V Vcc = 4 .5 V 2 1 .5 3 .1 5 4 .2 H ig h -le ve l in p u t v o lta g e V|L V| v0 L o w -le ve l in p u t v o lta g e Vcc = Vcc Vcc = vcc - 6 V 2 V 4 .5 V 6 V 0
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OCR Scan
74HC239 C-239 SN54HC239 SN74HC239

IC CLK 374

Abstract: 54HC374 160 10 MAX SN74H C 374 M IN 1.9 4 .4 5 .9 3 .8 4 5 .3 4 0.1 0.1 0.1 0 .3 3 0 .3 3 ±1000 ±5 80 10 nA *A , _ D 2 6 8 4 . DECEMBER 1 9 8 2 -R E V IS E D SEPTEMBER 1987 8 D-Type Flip-Flops in a Single , ] 5 3Q 3D ]? 4D 38 1B [ 8D 7D , 6 [ 7Q 15[ 6Q 1 4 [ 6D j- in r - in n 9 10 11 12 13 a , ith ANSI.'IEEE S td 9 1 - 1 9 8 4 and IEC P ub lica tio n 6 1 7 -1 2 . 2-424 i T exas * In s t r , lta g e V CC = 2 V 2 1 .5 3 .1 5 4 .2 V |H H ig h -le ve l in p u t v o lta g e Vcc = 4
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OCR Scan
IC CLK 374 54HC374 SN54HC374 HC374

dual jk flipflop

Abstract: V |H o r V i l , VOH V| = V m o r V |L / V| = V m or V il, lO H = Io h ~ 4 mA 'O H = " 20 M IN 1.9 4 , .1 0 .1 0 .1 0 .4 0 .4 ±1000 80 10 MAX SN74H C 109 M IN 1.9 4 .4 5 .9 3 .8 4 5 .3 4 0.1 0 .1 0 .1 0 , 109 M IN 4 .2 21 25 230 46 39 175 35 30 75 15 13 345 69 59 250 50 42 110 22 19 MAX S N 74H C 109 M IN , 1Q ] 8 r - ir - ir - in n IO r 18 [ w [ 2J 2K 1 6 [ NC 1 5 [ 2C LK 1 4 [ 2PRE 9 10 , v o lta g e V cc VCC 2 NOM 5 MAX 6 SN74H C 109 M IN 2 1.5 3 .1 5 4 .2 0 .3 0 .9 1.2 0 0 0 0 0 0 0 0
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OCR Scan
dual jk flipflop SN54HC109 SN74HC109

74HC239

Abstract: C-239 to 6 V 3 M IN 1 .9 2 6 °C MAX S N 64H C 239 M IN 1.9 4 .4 5 .9 3 .7 5 .2 0 .1 0.1 0 .1 0 .2 6 0 .2 6 ±100 8 10 0.1 0.1 01 0 .4 0 .4 ±1000 160 10 MAX SN74H C 239 M IN 1.9 4 .4 5 .9 3 .8 4 5 .3 4 0.1 0.1 , ) 1B (3) (4)- 1YO ¡H ` 2 3 (S) -1Y1 (61-1Y 2 (71 - 1 Y3 (121-2 Y 0 (111' 2Y1 (10) - 2Y2 19 , DUAL 2 UNE TO 4 LINE DECODERS/DEMULTIPLEXERS recomm ended operating conditions S N 54H C 239 M IN Vcc S u p p ly v o lta g e V CC = 2 v V CC = 4 .5 V Vcc = 6 V 2 1.5 3 .15 4.2 0 0 0 0 0 Vcc
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OCR Scan

54HC245

Abstract: 245 M IN 1.9 4 .4 5 .9 3 .7 5 .2 0.1 0.1 0.1 0.1 0.1 0.1 0 .4 0 .4 ±1000 ±10 160 10 MAX SN74H C 245 M IN 1.9 4 .4 5 .9 3 .8 4 5 .3 4 0.1 0.1 0.1 0 .3 3 0 .3 3 ±1000 ±5 80 10 MAX M IN 1 .9 4 .4 5 .9 , AI C 2 A2 C 3 A3 Ü 4 A4 E 5 A5 H 6 A6 H 7 A7 C 8 A8 C 9 G ND C 10 · 19 D C 18 U b i 17 D B2 , H C 2 4 5 . . . FK P AC KA G E (TOP V IE W ] < < O > IO L J L J I_I L J L J 3 2 1 20 19 A3 ]« A4 , [ B3 B4 B5 5[ 4 [ NC -No in te rn a l c o n n e c tio n FUN CTIO N TA BLE CO NTROL INPUTS Ü
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OCR Scan
54HC245 SN54HC245 SN74HC245

C 2682

Abstract: |L , VOL V| = V |H o r V |L , V| = V |H o r V |L , Iq l " 4 Iq L = 2 0 mA SN 54H C 7002 M IN 1.9 , SN 74H C 7002 M IN 1.9 4 .4 5 .9 3 .8 4 5 .3 4 0 .1 0.1 MAX M IN 1 .9 4 .4 5 .9 3 .9 8 5 .4 8 , logic) (81 (111 TT his sy m b o l is in a ccorda nce w ith ANSI/IEEE S td 9 1 - 1 9 8 4 and IEC P , V H ig h -le ve l in p u t v o lta g e Vcc = 4 5 V V cc = 6 V V CC = 2 V L o w -le ve l in p u t v o , re 2 1 .5 3.1 5 4 ,2 0 V 0 .3 0 .9 1.2 NOM 5 MAX 6 S N 74H C 7002 M IN 2 1 .5 3 .1 5 4 .2 0 0 0 0 0
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OCR Scan
C 2682 SN54HC7002 SN74HC7002 D2831

sn74hc663

Abstract: SN54H C 563 M IN 1.9 4 .4 5 .9 3 .7 5 .2 0.1 0 .1 0.1 0 .4 0 .4 ± 1000 ± 10 160 10 MAX S N 74H C 563 M IN 1 .9 4 .4 5 .9 3 .8 4 5 .3 4 0 .1 0.1 0.1 0 .3 3 0 .3 3 ± 1000 ±5 80 10 MAX M IN 1.9 4 .4 5 , from - 40 °C to 85°C. oc C 1 U20 3 vcc 19 3 I Q ID C 2 18 3 2 Q 2D C 3 17 3 3 Q 3D t 4 16 3 4 Q 4D C , 114» -6 0 (13)I -7 0 -20 . , 563 M IN 2 1 .5 3 .1 5 4 .2 0 .3 0 .9 1.2 V CC V CC 0 0 0 o 0 .3 09 1.2 < o o NOM 5 MAX 6 NOM 5
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OCR Scan
sn74hc663 SN54HC563 SN74HC563

ic 4017 pin configuration

Abstract: pin diagram of IC 4017 n N 74H C 4017 M IN 1.9 4 .4 5 .9 3 .8 4 5 .3 4 0.1 0.1 0.1 0 .3 3 0 .3 3 ±1000 80 10 nA V V MAX V cc 2 V 4 .5 V 6 V M IN 1 .9 4 .4 5 .9 3 98 5 .4 8 TYP 1 .9 9 8 4 .4 9 9 5 .9 9 9 4 .3 0 5 .8 0 , o w -le ve l in p u t v o lta g e VCc = 4 5 v V CC - 6 V V In p u t v o lta g e O u tp u t , range (unless otherwise noted) PAR AM ETER TA TE ST C O N D ITIO N S 2 5 °C MAX S N 54H C 4017 M IN 1.9 , MAX 6 31 36 S N 54H C 4017 M IN 0 0 0 120 25 20 1 20 24 20 75 15 13 75 15 13 5 5 5 MAX 4 .2 20 25
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OCR Scan
ic 4017 pin configuration pin diagram of IC 4017 n ic 4017 PIN DIAGRAM IC 4017 B operation of 4017 ic ic 4017 C4017 SN74HC4017 SN54HC4017
Abstract: IN 1.9 4 .4 5 .9 3 .8 4 5 .3 4 0 .1 0 .1 0.1 0 .3 3 0 .3 3 ±1000 40 10 MAX v cc 2V 4 .5 V M IN , 26 165 33 28 95 19 16 ns ns ns Vcc 2 V 4 .5 V 6 V 2 V UNIT M IN TYP 40 14 11 44 15 12 38 , 4 13 H I C , 2C 5 12 U GND 6 11 J 3Q 7 10 3 3Q 8 9 J 4Q 3Q 1 2 L 4q tT h is sym bol is in , vel in p u t v o lta g e " 2 NOM 5 MAX 6 M IN 2 1.5 3 .1 5 4 .2 0 .3 0 .9 1 .2 v cc V CC 1000 500 400 , -le ve l in p u t v o lta g e V CC = 4 .5 V V cc = 6 V V| vo In p u t v o lta g e O u tp u t -
OCR Scan
SN54HC75 SN74HC75
Abstract: to 6 V 3 M IN 1.9 4 .4 5.9 3 .9 8 5.48 TYP 1.998 4 .4 9 9 5 .9 9 9 4 .3 0 5.80 0 .0 0 2 0.0 01 0.001 , 0.1 0.1 0.1 0.4 0.4 ±1000 40 10 MAX SN 74H C 36 M IN 1.9 4.4 5.9 3 .8 4 5.34 0.1 0.1 0.1 0.33 0.3 3 , r Y = A«B in positive logic. The S N 5 4 H C 3 6 is characterized for operation over the full , - 4 0 ° C to 85 °C. FU N C T IO N T A B L E {each gate) IN PU T S A H X L B X H L O UTPUT Y L L H 2Y|I 6 gndC 7 ITO P VIEW ) O i- *- Z > * C J L J L J 1 -J C J 3 2 1 20 19 1Y ]4 N C ]B 2 A -
OCR Scan
SNS4HC36 SN74HC3G SN54HC36 SN74HC36

D2S84

Abstract: SM74HC32 V 4.5 V 6 V 4 .5 V 6 V 6 V 6 V 2 to 6 V 3 M IN 1.9 4 .4 5.9 3 .9 8 5 .4 8 TYP 1.998 4 .4 9 9 5.9 99 , J L J O 3 1Y ] « NC ] S 2 A ]® NC ] ' 2B ]8 9 2 1 20 19 18[ 4 A W [ NC 16[ 4 Y 16[ N C , Cc 100 0 500 400 125 < o o NOM 5 MAX 6 M IN 2 1.5 3 .1 5 4.2 0 0 0 0 0 0 0 0 -4 0 0.3 0.9 1.2 V cc , C 32 M IN 1.9 4.4 5.9 3.7 5.2 0.1 0.1 0.1 0.4 0.4 ±1000 40 10 MAX SN 74H C 32 M IN 1.9 4.4 5.9 3.84 , ETER FRO M (INPUT) A or B TO (OUTPUT) Y TA = 2 6 ° C SN 54H C32 M IN MAX 150 30 25 1 10 22 19 100 20 17
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OCR Scan
SM74HC32 D2S84 SN54HC32 SN74HC32
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