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CNY 817 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2006 - 817 Optocoupler

Abstract: 4 pin optocoupler 817 optocoupler 817 817 OPTO-coupler 4 pin optocoupler C 817 optocoupler A 817 optocoupler C 817 optocoupler C 814 CNY 42 optocoupler smd Optocoupler 201
Text: WWWW XXX ­ Y ­ ZZZZ STANDARD PREFIX 4N 6N ACPL (NEW PART PREFIX) CNY HCPL OPTIONS 020 = 5000 , /EN/DIN EN60747-5-2 00A = RANK MARK A (HCPL-181, -354, -814 AND - 817 ONLY) 00B = RANK MARK B (HCPL- 817 AND HCPL-181 ONLY) 00C = RANK MARK C (HCPL- 817 AND HCPL-181 ONLY) 00D = RANK MARK D (HCPL- 817 AND HCPL-181 ONLY) 00L = RANK MARK L (HCPL- 817 ONLY) xxxE = LEAD FREE OPTION FUNCTION TYPE (RANGE 2-3 , DIGITAL OPTOCOUPLER 181 (4-PIN MINIFLAT) 354 (4-PIN MINIFLAT) 814 (4-PIN DIP) 817 (4-PIN DIP) CTR


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PDF SO-16 EN60747 5989-0341EN AV01-0683EN 817 Optocoupler 4 pin optocoupler 817 optocoupler 817 817 OPTO-coupler 4 pin optocoupler C 817 optocoupler A 817 optocoupler C 817 optocoupler C 814 CNY 42 optocoupler smd Optocoupler 201
led 7 segment anode TIL 702

Abstract: trw 007 diodes TDDG 5250 m SHARP OPTO INTERRUPTER 7segment sm 4150 DIODE PK IN 5401 hoa 865 TDDG 5250 til 702 telefunken transistor
Text: €¢ CNY 18 III CNY 1 8 IV CNY 18 V CNY 21 CNY 21 Exi CNY 64 CNY 64 A • • CNY 64 B • • CNY 65 CNY 65 A • • CNY 65 B • • CNY 65 Exi CNY 66 • • CNY 70 CNY 71 • • CNY 74-2 CNY 7 4 -4 CNY 75 A • • CNY 75 B • • CNY 75 C • • CNY 75 GA • • CNY 75 GB • • CNY 75 GC • • CQW 15 COX 18 A COX 18 B COX 19 COX 28 COX 29 COX 30 COX 31 COX 32 COX 47 , Package Type C h a r a c t e r is t ic s VIS lf = V DC Case and pinning see CNY 75 CQ


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PDF 10x10 led 7 segment anode TIL 702 trw 007 diodes TDDG 5250 m SHARP OPTO INTERRUPTER 7segment sm 4150 DIODE PK IN 5401 hoa 865 TDDG 5250 til 702 telefunken transistor
1995 - 74fast

Abstract: 74F181 74F182 N74F182D N74F182N
Text: 14 G2 P0 4 13 Cn G3 5 12 Cn+x P3 6 11 Cn+y P 7 10 , carries (Cn+x, Cn+y , Cn+z) across four groups of binary adders. The 74F182 also has active-Low Carry , The logic equations provided at the outputs are: Cn+x = G0+P0Cn Cn+y = G1+P1G0+P1P0Cn Cn+z = , P3 G3 G 13 Cn+x Cn+y 10 2 P Cn 7 1 CP1 9 CP2 CG2 6 11 11 , Cn+x 13 G1 1 P1 2 11 G2 14 P2 Cn+y 15 9 G3 5 P3 Cn+z 6


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PDF 74F182 74F182 500ns SF00006 74fast 74F181 N74F182D N74F182N
CNY 14-4

Abstract: 74182 74182 carry look-ahead 74182 pin diagram N74182N N74S182F N74182F S54182F S54182W S54S182W
Text: 2 1 A A 15 14 6 5 U A A 13 — Po Go c„ P, St P2 Û2 P3 G3 G 0—10 Cn+x Cn+y P Cn+z D— 7 , T7| Ö2 Po [T IT] c„ 53[T 121 Cn+x P3[T TT| Cn+y P[T 1Ö1 G snp|T TI Cn+i INPUT AND , anticipated active HIGH carries (Cn+x, Cn+y ,Cn+z) across four groups of binary adders. The "182" also has , lookahead. The logic equations provided at the outputs are: cn+x = G0 + p0cn Cn+y = Gl + PlGo = PlPoCn , DIAGRAM inputs outputs Cn GO PO G1 P1 g2 P2 g3 P3 Cn+x Cn+y Cn+z g p X H H L L H X


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PDF 54S/74S182 54H/74H, 54S/74S 54LS/74LS 64S/74S; 54LS/74LS CNY 14-4 74182 74182 carry look-ahead 74182 pin diagram N74182N N74S182F N74182F S54182F S54182W S54S182W
1996 - cny 42

Abstract: MC14581B CNY 50 MC14582B MC14XXXBCL MC14XXXBCP MC14XXXBD
Text: Cn+x = G0 + (P0 Cn) Cn+y = G1 + (P1 G0) + (P1 P0 Cn) 16 VDD P1 2 15 P2 G0 3 14 G2 P0 4 13 Cin G3 5 12 Cn+x P3 6 11 Cn+y P , Carry­Propagate Inputs Cn 13 Carry Input Cn+x, Cn+y Cn+z 12, 11, 9 Carry Outputs G 10 , G0 20 ns PULSE GENERATOR 10% V SS VARIABLE WIDTH CL G3 Vin CL Cn+y G2 , DATA G3 P1 G P3 Cn + y G2 P P1 Cn + x G1 Cn+y G2 Vout = VOL VDD


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PDF MC14582B MC14582B MC14582B/D* MC14582B/D cny 42 MC14581B CNY 50 MC14XXXBCL MC14XXXBCP MC14XXXBD
2002 - HCF40181B

Abstract: HCF40182B HCF40182BEY HCF40182BM1 HCF40182M013TR
Text: (Active LOW) Active-high Carry Input Cn Cn+x, Cn+y , Active-high Carry Outputs Cn+z Carry Propagate , H L FOR Cn+y OUTPUT INPUTS OUTPUT G1 G0 P1 P0 Cn Cn+y L X X X L , : Don't Care Cn+x = G0+P0Cn Cn+y = G1+P1G0+P1P0Cn Cn+z = G2+P2G1+P2P1G0+P2P1P0Cn G = G3+G3+P3G2+P3P2G1+P3P2P1G0 P = P3P2P1P0 or Cn+x = Y0+(X0+Cn) Cn+y = Y1+[X1+Y0(X0+Cn)] Cn+z = Y2+{X2+Y1[X1+Y0(X0+Cn)]} G


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PDF HCF40182B HCF40181B 100nA JESD13B HCF40182B HCF40181B HCF40182BEY HCF40182BM1 HCF40182M013TR
74182

Abstract: 74182 pin diagram ORP12 8 BIT ALU by 74181 74182 carry look-ahead 74182 logic diagram alu 74181 pin diagram alu 74182 circuit 74-182 9342
Text: active HIGH Carry Input (Cn) and provides anticipated active HIGH carries (Cn+X, Cn+y , Cn+Z) across four , outputs are: Cn+x = G0 + PoCn Cn+y = G1 + PlG0 + PlPoCn Cn+z = G2 + P2G1 + P2P1G0 + P2plP0Cn G = G3 + P3G2 , cn+ Cn+y Cn+2 G p" X H H L H X X X H H X H X X X H H , Gnd) SYMBOL PARAMETER LIMITS UNITS CONDITIONS TYP. MAX. tPLH tPHL (Cn to Cn+X, Cn+y , Cn+Z) 12 15 16 19 ns PO = Pi = P2 = Gnd, GQ = Gì = G2 = 4.5V Fig.1 tPLH tPHL (PO- Pl. or to Cn+x. Cn+y . or Cn+Z


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AM2902APC

Abstract: AM2902ADC functional diagram of ALU AM2902ADMB AM2902ADM D-16 Am2901
Text: provided at the outputs are: Cn+x Cn+y Cn+Z G p = Go + P0cn = Gì + PÌGQ + = G2 + P2Gi + = G3 + P3G2 + = , Cn+x cn+y G Cn+z nnnnnnnn IB 15 14 13 12 11 10 9 1 2 3 4 5 6 7 8 uuuuuuuu §1 p1 G0 P0 G3 P3 P GND Note , Cn+X, Cn+y , or Cn+Z 6.5 10 ns CL = 15pF Rl = 280ÎÎ tpHL 7 10.5 lPLH 4.5 7 ns lPHL ri or ro , . Units Test Conditions lPLH Cn to Cn+X, Cn+y , or Cn+Z 13 15 ns tPHL 14 16.5 ns lPLH Pi or Gj to Cn+X, Cn+y , or Cn+Z 8 9.5 ns lPHL 9 11.5 ns CL = 50pF tpLH Pj or Gj to G 12 16.5 ns R|_ = 2800


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PDF Am2902A Am2901 MIL-STD-883 AM2902APC AM2902ADC AM2902ADC-B AM2902ADM AM2902ADM-B functional diagram of ALU AM2902ADMB D-16
Not Available

Abstract: No abstract text available
Text: AS182 are: Cn+x Cn+y Cn+ 2 G = = = = GO + PO Cn G1 + P1 G0+P1 POCn G 2+P2G1 + P2 P1 G 0+P2 P1 PO Cn G3 + , F* G2 Cn Cn+x Cn+y Cn+ Z PO, P1.P2.P3 Cn c n+x. c n+y, Cn+z G P I8 G3 P3 P ' , , orP3 To (Output) Cn+x, Cn+y . orC n + ï Conditions Vcc = 4.5V to 5.5V, Cl = 50 pF, r l = soon Min 3 2 3 , Combinations 31 L X X GO X L X Inputs PI X L L PO X X L Cn X X H Output Cn+y H H H L All Other , r r a 0 0 PO Cfl+Jt 01 P I Cn+y 02 P2 Cn+ j Cn AS1I2 0 G3 P3 P n In 00 PO C ,+x 01 P I


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PDF tSQ1125 DM74AS182 AS181B AS182 64-Bit AS162 AS162 A31S2 AS1818
CMOS 4000B series device

Abstract: 4000B 4582B
Text: p0 Gq p, g, p2 g2 p3 g3( Cn 4582B cn-fx cn+y cn+z PIN NAMES Çn _ P0-P3 Çn+x-Cn+y-Cn+z G P , EQUATIONS Cn+x = G0 + p0 ' cn Cn+y = G, +PÌ • Gq + PÌ • P0 • Cn cn+z = G2 + p2 • G1 + p2 ■Pi â , Gl VDD F1 P2 □ 15 Go g2 □ 14 p0 c„ □ 13 Ô3 cn+x cn+y U11 7L ? G □10 »C , cn+y or cn+z 160 160 75 75 55 55 ns tPLH *PHL Propagation Delay, Gn to Cn+X, cn+v or cn+z 160


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PDF 4582B 4582B 4000B CMOS 4000B series device
cny 37

Abstract: cny 42
Text: 14 D S 2 13 12 11 10 9 D ^n +i I ] Cn+y 3 Cn PIN DESIGNATIONS Designation Pin No Function 5 5 , G1 ,G2,G3 PÖ.P1 ,P2,P3 Cn Cn+x, Cn+y , Cn+z S P 3,1,14,5 4,2,15,6 13 12,11,9 10 7 16 8 Active , All other combinations C n + y OUTPUT INPUTS G1 L X XGO P1 PO Cn X X H OUTPUT Cn+y H H H L X X X , 'ASÌ82 ( S i P i Cn+Y f i g SAMSUNG SEMICONDUCTOR 562 S A M S U N G S E M I C O N D U C T O , 10% 39 39 39 39 41 41 30 30 pF PF ns ns . · Propagation Delay PÏ or Qi to Cn+x Cn+y ( Cn+z


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PDF KS54HCTLS KS74HCTLS KS74AHCT: KS54AHCT: 7Tb414S 14-Pin cny 37 cny 42
SN74181

Abstract: 1N3064 SN74182 SN54182 SN54182/SN74182
Text: ACTIVE-LOW CARRY PROPAGATE INPUTS Cn 13 CARRY INPUT ^n+x, Cn+y , cn+z 12, 11, 9 CARRY OUTPUTS G 10 ACTIVE-LOW , . Logic equations are: Cn+x = G0 + PoCn Cn+y = G1 +PlG0 + PlPoCn Cn+z = G2 + P2G1 + P2P1G0 + P2PlP()Cn G = , Cn+y PI, PO, GO G1,Cn Cn+x PO GO, Cn Inputs not otherwise specified are connected to ground. FIGURE 1 , , Cn PI. Gl, PO, GO cn+y P1, Gl, Cn PO, GO Cn+x PO, GO, Cn NONE Inputs not otherwise specified are , INPUTS G ALL OTHER INPUTS Cn cn+z Cn ALL OTHER INPUTS Cn+y Cn ALL OTHER INPUTS Cn+x Cn ALL OTHER INPUTS


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PDF SN54182, SN74182 1N3064. SN74181 1N3064 SN54182 SN54182/SN74182
TC74HC182

Abstract: 74LS182 cny 42 TC74HC182P
Text: FOR Cn+y OUTPUT INPUTS Gl L X X GO X L X PI X L L PÖ X X L Cn X X H OUTPUT Cn+y H H H L Cn+x=G0 + POCn , Carry Propagate Inputs Cn Cn 13 Carry Input Cn+x, Cn+y Cn+z, Cn+y 12,11,9 Carry Outputs Cn+z Cn+z Carry , 35 195 ns J Propagation Delay Time (P0,Pl,P2,P3 - P) Propagation Delay Time (Cn - Cn+x, Cn+y


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PDF TC74HC182P/F TC74HC182P/F TC74HC182 HC181 HC182 anticipate18 74LS182 cny 42 TC74HC182P
IC 74182

Abstract: 74182 si9342 IC+74182
Text: P D- 7 Cn+y Cn+z V c c = P*n 16 G ND = Pin 8 PIN NAM ES ^ n Carry Input g 2 LO A D IN , (Cn) and provides anticipated active H IG H carries (Cn+X, Cn+y , Cn+Z) across fo u r groups o f binary , outputs are: Cn+x ~ G 0 + p ()C n Cn+y = Cn+z = G P = G 1 + P iG q + p 1 p0 c n G 2 + P2 G 1 + P2 p , H X X X X H X X X OUTPUTS p0 G1 P1 G 2 p2 Q3 p3 c n+ Cn+y Cn+2 G " H H L L L H H H L L L L H , UNITS ns Cn+y » Cn+ Z) 12 15 (Po, P i, o r ?2 to Cn+x> Cn+y , or Cn+ Z) (Gg, G 1 or


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CNY 14-4

Abstract: cny 17 g3 74S183 74S182 Alu 181 p3gl CNY 50 Alu 183
Text: provided at the outputs are: Cn+x = Go + PoCn Cn+y = Gl + P1G0 + PlPoCn Cn+z = G2 + P2G1 + P2P1G0 + , Cn+x, Cn+y , Cn+z 12,11,9 Carry Outputs G 10 Active-Low Carry Generate Output P 7 Active-Low Carry , 4.5 tPLH Low to high GO, G1, G2 Cn+x, 7 G3, PO, P1 Cn+y 4.5 7 tPHL High to low P2, P3 , High to low 6.5 10 tPLH Low to high Cn Cn+x, 6.5 10 Cn+y 10.5 tPHL. High to low


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PDF 74S182/183-A 400H1 54/74S. CNY 14-4 cny 17 g3 74S183 74S182 Alu 181 p3gl CNY 50 Alu 183
1999 - N16E

Abstract: 74F381 M16D MS-001 74F181 74F182 74F182PC 74F182SJ cny 37
Text: anticipated Active HIGH carries (Cn + x, Cn+y , Cn+z) across four groups of binary adders. The 74F182 also , dropping the last 74F181 or 74F381. Cn+x = G0 + P0 Cn Cn+y = G1 + P1 G0 + P1 P0 Cn Cn+z = G2 + P2 G1 , G3 P3 H Cn+x Cn+y Cn+z G P L L H X L X L X H H X L , 6.6 8.5 3.0 12.0 3.0 9.5 tPHL Cn to Cn+x, Cn+y , Cn+z 3.0 6.8 9.0 3.0 , Cn+x, Cn+y , or Cn+z tPLH Propagation Delay 2.5 6.5 8.5 2.5 11.0 2.5 9.5


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PDF 74F182 74F182 74F181 74F381 74F182SJ 16-Lead 74F182PC MS-001, N16E M16D MS-001 74F182PC 74F182SJ cny 37
2000 - cny 57

Abstract: 74F182PC 74F381 74F181 74F182 74F182SJ M16D MS-001 N16E
Text: anticipated Active HIGH carries (Cn + x, Cn+y , Cn+z) across four groups of binary adders. The 74F182 also , dropping the last 74F181 or 74F381. Cn+x = G0 + P0 Cn Cn+y = G1 + P1 G0 + P1 P0 Cn Cn+z = G2 + P2 G1 , P2 G3 P3 Cn+x Cn+y Cn+z G P L L H X L X L X H H X , 3.0 6.6 8.5 3.0 12.0 3.0 9.5 tPHL Cn to Cn+x, Cn+y , Cn+z 3.0 6.8 9.0 , ns Cn+x, Cn+y , or Cn+z tPLH Propagation Delay 2.5 6.5 8.5 2.5 11.0 2.5


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PDF 74F182 74F182 74F181 74F381 74F182SJ 16-Lead 74F182PC MS-001, cny 57 74F182PC 74F182SJ M16D MS-001 N16E
2006 - CNY 13-3

Abstract: HD74HC182 PRDP0016DG-A PRSP0016DG-A cny 42
Text: ) signals and an active-high carries (Cn+x, Cn+y , Cn+z) across four groups of binary adders. The HD74HC182 , levels of lockahead. The logic equations provided at the outputs are: Cn+x = Y0 (X0 + Cn) Cn+y = Y1 , + X1 + Y0) X = X3 + X2 + X1 + X0 or Cn+x = G0 + P0Cn Cn+y = G1 + P1G0 + P1P0Cn Cn+z = G2 + P2G1 , ) HD74HC182 Function Table Item Pin No. G0, G1, G2, G3 P0, P1, P2, P3 Cn Cn+x, Cn+y , Cn+z G P , 6 P3 Cn+y 11 Cn+y P 7 P P1 2 C0 3 Inputs Output P1 Cn+z G GND 8


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PDF HD74HC182 REJ03D0586-0300 HD74HC182 HD74HC181 CNY 13-3 PRDP0016DG-A PRSP0016DG-A cny 42
2006 - Not Available

Abstract: No abstract text available
Text: ) signals and an active-high carries (Cn+x, Cn+y , Cn+z) across four groups of binary adders. The HD74HC182 , levels of lockahead. The logic equations provided at the outputs are: Cn+x = Y0 (X0 + Cn) Cn+y = Y1 , + X1 + Y0) X = X3 + X2 + X1 + X0 or Cn+x = G0 + P0Cn Cn+y = G1 + P1G0 + P1P0Cn Cn+z = G2 + P2G1 , Cn Cn+x, Cn+y , Cn+z G P VCC GND 3, 1, 14, 5 4, 2, 15, 6 13 12, 11, 9 10 7 16 8 , Cn+x 12 Cn+x P3 6 P3 Cn+y 11 Cn+y P 7 P P1 2 C0 3 Inputs Output P1


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PDF HD74HC182 REJ03D0586-0300 HD74HC182 HD74HC181
TFK cny 21

Abstract: cny 76 cny21 DIN 50014 tfk 238 CNY21 TFK TFK CNY TFK 241 TFK 236 TFK u 116
Text: ^v CNY 21 VDE gütebestätigtes Bauelement ') VDE quality tested device ) Optoelektronisches , -26 507 U der PTB According to test certificate Nr. Iii B/E-26 507 U of PTB 235 CNY 21 Absolute , 23/50 DIN 50014 related to normal climate 23/50 DIN 50014 236 CNY21 CNY 21 Elektrische , CNY 21 'p — =0,05 tp = 50 |is Meßschaltung für: t Test circuit for: r' f' d' s r I I , = 20 V, /F = 0, £a = 0 U, (BR)CEO *) 32 I 1c.n > 10 200 nA 238 *) AQL = 0,65% CNY 21 239


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1998 - 74F182

Abstract: 54F182DM cny 85 N16E F381 74F182SJ 74F182PC 54F182LM 54F182FM cny 57
Text: ) and provides anticipated Active HIGH carries (Cn + x, Cn+y , Cn+z) across four groups of binary adders , Cn+y = G1 + P1G0 + P1P0Cn Cn+z = G2 + P2G1 + P2P1G0 + P2P1P0Cn www.fairchildsemi.com 2 , Outputs H G1 P1 G2 P2 G3 P3 Cn+x Cn+y Cn+z G P L L H X , Cn+y Cn+z G P H X X X X H X X H H X X H X H X , to Cn+x, Cn+y , Cn+z 3.0 6.8 9.0 3.0 11.0 3.0 10.0 tPLH Propagation Delay


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PDF 74F182 74F182PC 54F182DM 74F182SJ 16-Lead 16-Lead 54omer 74F182 54F182DM cny 85 N16E F381 74F182SJ 74F182PC 54F182LM 54F182FM cny 57
1996 - 54F182

Abstract: 54F182DMQB 54F182FMQB 54F182LMQB F381
Text: , Cn+y or Cn+z VCC= 5.0V @25C, VCC=4.5V & 5.5V @-55/125C 2, 4 2.5 8.5 ns 9 tpLH(3) Propagation Delay Gn to Cn+x, Cn+y or Cn+z VCC= 5.0V @25C, VCC=4.5V & 5.5V @-55/125C 2, 4 2.5 11.0 ns 10, 11 tpHL(3) Propagation Delay Gn to Cn+x, Cn+y or Cn+z VCC= 5.0V @25C, VCC=4.5V & 5.5V @-55/125C 2, 4 1.0 5.2 ns 9 tpHL(3) Propagation Delay Gn to Cn+x, Cn+y


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PDF MN54F182-X 29F91 54F182 54F182DMQB 54F182FMQB 54F182LMQB MIL-STD-883, -55/125C 54F182 54F182DMQB 54F182FMQB 54F182LMQB F381
Application Notes SN74181

Abstract: Application Notes SN74182 sn74s481 CNY 14 sn74s281 SN74LS18 SN74S381 SN74S182 SN54S381 SN54S182
Text: PO, P1, P2, P3 PO, PI, P2, P3 4. 2, 15, 6 CARRY PROPAGATE INPUTS Cn Cn 13 CARRY INPUT Cn+x< Cn+y > Cn+z Cn+x- Cn+y . Cn+z 12, 11,9 CARRY OUTPUTS G Y 10 CARRY GENERATE OUTPUT P X 7 CARRY PROPAGATE , GO PO Cn cn+x L X X H X L H H All other combinations FUNCTION TABLE FOR Cn+y OUTPUT o m < o m CO INPUTS OUTPUT Gl GO P1 PO Cn Cn+y L XXX X H X L L X X H X X L L All , conditions min typ max unit tPLH GO, Gl, G2, G3, Cn+x. Cn+y , 4.5 7 ns tPHL PO, PI, p2. or P3 or Cn+Z 4.5


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PDF SN54182, SN54S182, SN74182, SN74S182 1972-REVISED SN54181/SN74181, SN54LS181/SN74LS181, SN54S281 /SN74S281, SN54S381, Application Notes SN74181 Application Notes SN74182 sn74s481 CNY 14 sn74s281 SN74LS18 SN74S381 SN74S182 SN54S381 SN54S182
2000 - HD74HC182

Abstract: HD74HC181 cny 42 Hitachi DSA0022 Hitachi DSA00221
Text: ) signals and an active-high carries (C n+x, Cn+y , Cn+z) across four groups of binary adders. The HD74HC182 , , 6 Active-low carry propagate inputs Cn 13 Carry input Cn+x, Cn+y , Cn+z 12, 11, 9 , 12 Cn+x P3 6 P3 Cn+y 11 Cn+y P 7 P P1 2 C0 3 Inputs Output P1 Cn+z , Cn+z P2 G2 Cn+y P1 G1 P0 G0 Cn+x Cn 3 HD74HC182 DC Characteristics Ta = ­40 to


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PDF HD74HC182 ADE-205-463 HD74HC182 HD74HC181 cny 42 Hitachi DSA0022 Hitachi DSA00221
Not Available

Abstract: No abstract text available
Text: ’= Cn+x C > C Cn+y ‘ n n n n n 1/7 509 M 54/M 74HC182 FUNCTION TABLES F O R G , Cn+x Cn H X H H L ALL OTHER COMBINATIONS FOR Cn+y OUTPUT GI L X X INPUTS Pi PO X X L OUTPUT Cn+y Cn X L L GO X X H X L X H H H L ALL OTHER , X X X H H H L H H L G2 Cn+x Cn+y Cn+z G P X L X X X X or GO L X Cn+x Cn+y Cn+z G P gT X X L L L X ALL OTHER COMBINATIONS * GO +


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PDF M54HC182 M74HC182 54/74LS182 M54/74HC182 D54710 M54/M 74HC182 64-BIT
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