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Part : T95R157K020EABS Supplier : Vishay Intertechnology Manufacturer : Avnet Stock : - Best Price : $8.99 Price Each : $10.19
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20EAB

Catalog Datasheet MFG & Type PDF Document Tags

1990-TW236

Abstract: c1938 mode is controlled by output-enable (10EAB and 20EAB), clock-enable (1CEAB and 2CEAB), and clock , inputs is stored In the device on a low-to-high transition of 1CLKAB (or 2CLKAB). If 10EAB (or 20EAB) is also low, this stored data appears on the corresponding B outputs; if 10EAB (or 20EAB) is high, the corresponding B outputs are in the high-Impedance state. 10EAB (or 20EAB) does not affect the operation of the , 2clkab c 27 30 ] 2clkba 20eabc 28 29 U 20eba £ UJ LLl CC Q. S Q O CC GL PflOWCT PftEVSW
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OCR Scan
54ACT16952 74ACT16952 D3S60 1990-TW236 c1938 54AC16952 74AC16952 16-BIT TJ0238

ti025

Abstract: 12B2 20EAB) and clock (1CLKAB or 2CLKAB) inputs. When 10EAB (or 20EAB) is low, the corresponding B outputs , [ 25 32 GND 2A9[ 26 31 Ã2B9 2CLKAB [ 27 30 H 2CLKBA 20EAB[ 28 29 H 20EBA "U 30 O O O H -o 33 m < m 3 When 10EAB (or 20EAB) is high, the corresponding B outputs are in the high-impedance state. 10EAB (or 20EAB) does not affect the operation of the internal registers. Previously stored data can be
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OCR Scan
54AC16474 54ACT16474 74AC16474 74ACT16474 ti025 12B2 18-BIT TI0250

54AC16471

Abstract: 54ACT16471 , data flow in the A-to-B mode is controlled by output-enable (10EAB or 20EAB), direction-enable (1DEAB , [ 20EAB T7 10 11 12 â¡l3 [14 5 18 17 1« 19 20 21 C 22 23 24 25 26 27 0» ]10E8A ]1CLKBA , 10EAB (or 20EAB). A low level on 1CLKAB (or 2CLKAB) inhibits loading of the registers with the current , loaded with the current A-bus data. If 10EAB (or 20EAB) is low, the corresponding B outputs reflect the inverse of the register contents. A high level on 10EAB (or 20EAB) causes the B outputs to be in the
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OCR Scan
54AC16471 54ACT16471 74AC16471 74ACT16471 t523 0247035 T-52-3 AC16471

31B8

Abstract: TI0246-D3569 , data flow In the A-to-B mode is controlled by output enable (1QEAB or 20EAB), direction enable (1DEAB , 20EAB C 28 T7 ]10EBA J1CLKBA ^1 DEBA 3gnd ] 191 31B2 :v«¡ « 3tB3 Hi 04 31B5 3gnd ]1B6 3187 , register contents and the output buffers are controlled by 1CLKAB (or 2CLKAB) and 10EAB (or 20EAB). A low , , the corresponding B outputs reflect the contents of the registers. A high level on 10EAB (or 20EAB
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OCR Scan
TI0246 AC16470 54AC16470 74AC16470 74ACT16470 BS5303 31B8 TI0246-D3569 32B4 D3569 ACT16470 S4ACT16470

54ACT16475

Abstract: 74ACT16475 -bit transceiver section, data flow in the A-to-B mode is controlled by output-enable (10EAB or 20EAB) and clock , GND[ 25 32 Dgnd 2A9[ 26 31 J2B9 2CLKAB [ 27 30 H 2CLKBA 20EAB C 26 29 H 20EBA TJ JJ o D O H "O 33 m < m 3 When 1QEAB (or 20EAB) is high, the corresponding B outputs are in the high-impedance state. 10EAB (or 20EAB) does not affect the operation of the internal registers. Previously stored data
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OCR Scan
54ACT16475 74ACT16475 h1b8 54AC16475 74AC16475 TI0251 D3574

54AC16474

Abstract: 54ACT16474 [ 20EABC â P 13 O a c q â o 30 m < m 54AC16474, 54ACT16474 74AC16474, 74ACT16474 18-BIT REGISTERED , controlled by output-enable (10EAB or 20EAB) and clock (1CLKAB or 2CLKAB) inputs. When 10EAB (or 20EAB) Is , 1CLKAB (or 2CLKAB) is low. When 10EAB (or 20EAB) is high, the corresponding B outputs are in the high-impedance state. 10EAB (or 20EAB) does not affect the operation of the internal registers. Previously stored
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OCR Scan
AC16474 ACT16474 L06IC D3573

1a5c

Abstract: C948 controlled by output-enable (1qeab and 20eab), clock-enable (1ceab and 2ceab), and clock (1clkab and 2clkab , stored in the device on a low-to-high transition of 1clkab (or 2clkab). If 10eab (or 20eab) Is also low, this stored data appears on the corresponding b outputs; if 10eab (or 20eab) is high, the corresponding b outputs are In the high-impedance state. 10eab (or 20eab) does not affect the operation of the , C 27 30 ]2CLKBA 20EAB C 26 29 ]20EBA MOWICT PREVIEW donrntiitt eonMn hferMBon on ««belÂ
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OCR Scan
54AC16953 54ACT16953 74AC16953 74ACT16953 1a5c C948 2A8C AC16953 ACT16953

MB7B

Abstract: 74ACT16474 (10EAB or 20EAB) and clock (1CLKAB or 2CLKAB) inputs. When 10EAB (or 20EAB) is low, the corresponding , 2A9 [ 2CLKAB[ 20EAB [ r u . 1 56 2 55 [3 54 [4 53 s 52 6 51 7 50 8 49 9 48 10 47 11 46 12 , 26 31 : 27 30 " 28 29 ]1CLKBA ] 1B1 Ignd ] 1B2 ] 1B3 20EBA When 10EAB (or 20EAB) is high, the corresponding outputs are in the high-impedance state. 10EAB (or 20EAB) does not affect the operation on the , 1CLKBA 10EBA 2CLKAB 56 20EAB 2CLKBA 20EBA 1A1 1A2 1A3 1A4 1A5 1A6 1A7 1A8 1A9 2A1 2A2 2A3 2A4 2AS
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OCR Scan
MB7B B55303
Abstract: 20EAB), clockenable (1CEAB and 2CEAB), and clock (1CLKAB and 2CLKAB) inputs. When 1CEAB (or 2CEAB) is , low-to-high transition of 1CLKAB (or 2CLKAB). If 10EAB (or 20EAB) is also low, this stored data appears on the corresponding B outputs; if 10EAB (or 20EAB) is high, the corresponding B outputs are in the high-impedance state. 10EAB (or 20EAB) does not affect the operation of the internal registers. Previously , [ 20EBA PRODUCT PREVIEW 20EAB [ 28 3 1]2C E B A 30 ] 2CLKBA Data flow from B to A is -
OCR Scan
TI0239 D3561

54ACT164

Abstract: 03571 20EAB) and latch enable (1LEAB or 2LEAB) inputs. When 10EAB (or 20EAB) is low, the corresponding B outputs are active (high or low logic levels). When 10EAB (or 20EAB) is high, the corresponding B outputs , 25 32 3gnd 2A9[ 26 31 ]2B9 2LEAB£ 27 30 ]2LÃ'BÃ' 20EAB [_ 28 29 320EBA FUNCTION TABLE, EACH
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OCR Scan
54AC16472 74AC16472 54ACT164 03571 65630 54ACT16472 74ACT16472 TI024S AC16472

D3S61

Abstract: 2A8C 3 GND 2CEAB C 26 31 J2CEBA 2CLKAB C 27 30 J2CLKBA 20EABà 28 29 ] 20EBA £ UJ > Iii oc Q. H , 20EAB) is also low, this stored data appears on the corresponding B outputs; if 10EAB (or 20EAB) is high, the corresponding B outputs are in the high-impedance state. 10EAB (or 20EAB) does not affect the
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OCR Scan
D3S61 TKJ239 7526S

31-B4

Abstract: 54AC16473 (1SEAB or 20EAB) and latch enable (1LEAB or 2LEAB) inputs. When 10EAB (or 20EAB) Is low, the corresponding B outputs are active (high or low logic levels). When 1QEAB (or 20EAB) is high, the corresponding , [ 2A1 2A2C 2A3 C GNDC 2A4C 2A5 C 2A6 C VccC 2A7C 2A8 C GNDC 2A9Ç 2LEAB Ç 20EABC TTJ 2 3 4 5
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OCR Scan
54AC16473 54ACT16473 74AC16473 74ACT16473 31-B4 TI0249 D3572

T10238

Abstract: 54ACT16952 36 VccC 22 35 2A7[ 23 34 2A8 C 24 33 GNDC 25 32 2CEAB E 28 31 2CLKAB [ 27 30 20EABÃ 28 29 , flow in the A-to-B mode is controlled by output-enable (1QEAB and 20EAB), clock-enable (1CEAB and 2CEAB , 20EAB) is also low, this stored data appears on the corresponding B outputs; if 10EAB (or 20EAB) is high, the corresponding B outputs are in the high-impedance state. 10EAB (or 20EAB) does not affect the
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OCR Scan
T10238 D3560 AC16952 ACT16952 TI0238

54ACT16475

Abstract: 74ACT16475 -bit transceiver section, data flow in the A-tO-B mode is controlled by output-enable (10EAB or 20EAB) and clock (1CLKAB or 2CLKAB) inputs. When 10EAB (or 20EAB) is low, the corresponding B outputs are active (high or , (or 20EAB) is high, the corresponding B outputs are in the high-Impedance state. 10EAB (or 20EAB) does
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OCR Scan
1250C AC16475 ACT16475 10EABC T10251

8C12

Abstract: 8EN10 Big 2A5 120 2A6 121 vcc I22 2A7 123 2A8 124 GND l25 2CEAB 126 2LEAB 127 20EAB 128 56l 10EBA 551 1 , 2 LEBA 30 7C11 20EAB 28 8EN10 2CEAB 26 G8 2LEAB 27 8C12 n r 1A1 5 , established. PRELIMINARY SYSTEM DIAGRAM 20EBA 2CEBA 29 30 2LEBA 20EAB _28_ 2CEAB 26 15 rO 1=0- To
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OCR Scan
TC74VCX16543FT 8C12

74AC16623

Abstract: 74ACT16623 ) 1B1 1B2 GND 1B3 1B4 Vcc 1B5 1B6 GND 1B7 1B8 2B1 2B2 GND 2B3 2B4 Vcc 2B5 2B6 GND 2B7 2B8 20EAB 1 ^4 , logic symbol'!' 10EBA lOEAB 48 20EBA 20EAB 1A1 1A2 1A3 1A4 1A5 1A6 1A7 1AS 2A1 2A2 2A3 2A4 2A5 2A6 , 1B1 To Seven Other Channels 20EBA â  20EAB 2A1 36 13 2B1 To Seven Other Channels t This
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OCR Scan
74ACT16623 74AC16623 8c80 SCAS172 D3680 6SS303 SCAS172-D368Q

H TR 1A60

Abstract: TR 1A60 10EAB 1LEBA 1CLKBA 66 67 10EBA ÃÉ 1A1 Â¥ 2LEAB 32 2CLKAB 33 20EAB' 31 2LEBA' 39 , table for normal-mode logic. 10EAB, 10EBA, 20EAB, 20EBA Normal-function output enables. See function , SIGNAL 83 20EAB 71 2A9-I 53 2A9-0 35 2B9-I 17 2B9-0 82 10EAB 70 2A8-I 52 2A8-0 34 2B8-I 16 2B8 0 81 , data flow (that is, 1QEAB * 10EBA and 20EAB * 20EBA) and in the same direction of data flow (that is, 10EAB = 20EAB and 10EBA = 20EBA). Otherwise, the bypass instruction is operated. PSA input masking
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OCR Scan
SN54ABT18502 H TR 1A60 TR 1A60 texas instruments 486 SCBS109C SCBS109C-AUGUST

74ACT16620

Abstract: 1b5 1B6 gnd 1b7 1B8 2B1 2b2 gno 283 2b4 Vcc 2b5 2b6 gnd 2b7 2b8 20eab u 1 48 2 47 3 46 4 45 5 , -rev1sed april 1993 logic symbolt 10EBA 10EAB 48 20EBA 20EAB 1A1 1A2 1A3 1A4 1A5 1A6 1A7 IAS 2A1 â  2A2 , 2B5 2B6 2B7 2B8 1B1 To Seven Other Channels 20EBA 20EAB 2A1 24 'r1 1 u » 13
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OCR Scan
74ACT16620 50XVCC TEXAS75265

WIDE BUS FAMILY

Abstract: 74ACT16864 1B6 1B7 GND 1 BS 1B9 GND GND 2B1 282 GND 2B3 2B4 2B5 Vcc 2B6 2B7 GND 2B8 2B9 20EAB ! u 56 2 55 3 , 10EBA 1 s. 10EAB 29 rv 20EBA 20EAB 28 s. 1A1 1A2 1A3 1A4 1A6 1A6 1A7 1A8 1A9 2A1 2A2 2A3 2A4 2A5 , 56 ' H u t 1B1 To Eight Other Channels 20EBA 20EAB 29 4> 28 2A1 â'" rrf 41 '
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OCR Scan
74ACT16864 WIDE BUS FAMILY

TC74VCX16652FT

Abstract: >°â'"â'"D>°- -[>- - , 271 20EAB 28I O 156 10EBA 155 1CBA 154 1SBA 153 GND 152 1B1 151 1B2 150 Vcc |49 1B3 I48 1B4 |47 1B5
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OCR Scan
TC74VCX16652FT 10EAB---- 10EBA- 20EAB- 20EBA-
Abstract: 1B1 20EAB 20EBA 2CLKBA 2SBA 2CLKAB2SAB v CCi fGND 21 t> - 27 28 23 22 H>- 2A1 , 1CLKAB, 1CLKBA, 2CLKAB, 2CLKBA GND 10EAB, 20EAB 10EBA, 20EBA 1SAB, 1SBA, 2SAB, 2SBA TCK TDI TDO TMS , 38 37 36 - - - - - 20EAB 10EAB 20EBA 10EBA 2CLKAB 1CLKAB 2CLKBA 1CLKBA 2SAB 1SAB 2SBA 1SBA - , = 20EAB = 1 ,10EBA = 20EBA = 1} £>^1753 0Cm073 3E3 ^ Texas In s t r u m e n t s POST OFFICE , Figure 7. 36-Bit PRPG Configuration (10EAB = 20EAB = 0 , 10EBA = 20EBA = 0) flTbl723 DDTÖD74 2bT In -
OCR Scan
SN54LVT18652 SN54LVT182652 SN74LVT18652 SN74LVT182652 SCBS312A- LVT182652

SN54ABTH182502A

Abstract: SN54ABTH18502A Normal-function latch enables. See function table for normal-mode logic. 10EAB, 10EBA, 20EAB, 20EBA , NUMBER DEVICE SIGNAL BSR BIT NUMBER DEVICE SIGNAL 47 20EAB 35 2A9-I/0 17 2B9-I/0 46 10EAB 34 2A8-I/0 16 , and 20EAB ^ 20EBA) and in the same direction of data flow (that is, 10EAB = 20EAB and 10EBA = 20EBA). , -I/0 2B1-I/0 Figure 5. 36-Bit PRPG Configuration (10EAB = 20EAB = 0, 10EBA = 20EBA = 1) ^ Texas , Figure 6. 36-Bit PRPG Configuration (10EAB = 20EAB = 1, 10EBA = 20EBA = 0) ^ Texas Instruments POST
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OCR Scan
SN54ABTH18502A SN54ABTH182502A SN74ABTH18502A SN74ABTH182502A Texas Instruments TTL data book SCBS164D ABTH182502A

PASB

Abstract: ec ubt 4.8 t latch enables. See function table for normal-mode logic. 10EAB, 10EBA, 20EAB, 20EBA Normal-function , NUMBER DEVICE SIGNAL BSR BIT NUMBER DEVICE SIGNAL 47 20EAB 35 2A9-I/0 17 2B9-I/0 46 10EAB 34 2A8-I/0 16 , device are operating in one direction of data flow (i.e., 1QEAB * 10EBA and 20EAB * 20EBA) and in the same direction of data flow (i.e., 10EAB = 20EAB and 10EBA = 20EBA). Otherwise, the bypass instruction , 20EAB = O, 10EBA = 20EBA = 1) Bp tfyac MU7B3 QllD13b 7tS - 1 6 POST OFFICE BOX 655303 â'¢ DALLAS
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OCR Scan
SN54LVTH18502A SN54LVTH182502A SN74LVTH18502A SN74LVTH182502A LVTH182502A LVTH18502A PASB ec ubt 4.8 t SCBS668A-JULY

ap 4744

Abstract: B 1 -2 B 9 1CLKAB, 1CLKBA, 2CLKAB, 2CLKBA GND 1LEAB, 1LEBA, 2LEAB, 2LEBA 1 0E A B , 10EBA , 20EAB , 42 41 40 39 38 37 36 - - - - DEVICE SIG NAL 20EAB 10EAB 20EBA 10EBA 2CLKAB 1CLKAB 2CLKBA 1CLKBA , BA and 20EAB ^ 20EBA) and in the same direction of dataflow (i.e., 10EAB = 20EAB and 10EBA = 20EBA). , Figure 5. 36-Bit PRPG Configuration (10EAB = 20EAB = 0 , 10EBA = 20EBA = 1) ^ Texas In s t r u m e n t , -I/0 2 B 1 -I/0 Figure 6. 36-Bit PRPG Configuration (10EAB = 20EAB = 1 , 10EBA = 20EBA = 0
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OCR Scan
ap 4744 SN54LVT18512 SN54LVT182512 SN74LVT18512 SN74LVT182512 SCBS711 LVT182512
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