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TBP34SR165, TBP34SR16X 16,384-BIT (4096 WORDS BY 4 BITS) SHADOW-REGISTERED PROGRAMMABLE READ-ONLY MEMORY recommended operating conditions for programming (see Figure 1) MIN NOM MAX UNIT VCC Supply voltage during verification 4.5 5 5.5 V VIH High-level input voltage 3 4 5 V VIL Low-level input voltage 0 0.2 0.4 V Enable G voltage during verification 0 0.2 0.4 V Enable G inactive voltage during programming 4.5 5 5.5 V VCC(pr) Supply voltage program pulse amplitude 12 12.5 13 V twl VCC program pulse duration. 1 st attempt 10 11 12 I'-s tw2 VCC program pulse duration. 2nd attempt 20 22 25 I'-s tw3 VCC program pulse duration. 3rd attempt 20 22 25 I'-s tsu Setup time. enable G low before VCC(pr) t 0.1 0.5 1 I'-s th Hold time. enable G low after VCC(pr) 1= 0.1 0.5 1 I'-s tr(VCC) Rise time. VCC(pr) (5 V to 12 V) 0.3 0.4 0.5 I'-s tf(VCC) Fall time. VCC(pr) (12 V to 5 V) 0.05 0.1 0.2 I'-s td Delay time between successive VCC(pr) pulses 10 20 30 I'-s tcool Cooling time between words 100 150 200 I'-s TA Free-air temperature 20 25 30 DC tMeasured from 1.5 V on enable pin to 5.5 V on VCC(pr)' 1=Measured from 5.5 V on VCC(pr) to 1.5 V on enable pin. step-by-step programming instructions (see Figure 1) 1. Address the word to be programmed, apply 5 V to Vee and a low logic level to the G input. 2. Verify the selected bit location that requires programming. Note: The only bit positions that require programming are outputs to be at a high logic level. 3. For bit locations that do not require programming, go to step 2 for the next bit. or to step 1 for the next word. 4. Deselect PROM by applying 5 V to G. 5. eonnect.a 4-mA current source (clamped to Vee) to the output to be programmed. 6. Increase Vee to Vee(pr) for a pulse duration equal to twx (where X is determined by the number of programming attempts, i.e., 1, 2, 3). Minimum current capability for the Vee power supply should be 400 mAo 7. Verify that the output has been programmed to a high logic level. If the output has been programmed correctly, go to the next bit. If not, repeat steps 2 through 7 and increment X (where X equals 1 on the first programming attempt). If the output has not been programmed by the third attempt, stop programming and go to a new device. 8. Verify programming of every word after all words have been programmed using Vee values of 4.5 volts and 5.5 volts. U) 2 o a: Il. TEXAS -1.!1 INSTRUMENTS POST OFFICE BOX 225012 • DALLAS. TEXAS 75265 4-65
TBP34SR165, TBP34SR16X 16,384·BIT (4096 WORDS BY 4 BITS) SHADOW·REGISTERED PROGRAMMABLE READ·ONLY MEMORY "'C jJ 0 s: (f) series 3 programming sequence AOTO<strong>Al</strong>l =:x Vee J I I J ts (en)~r- 1 I I ~ j4-th (en) I J G I I ORCLK -Jfl I I I J h I I !fl VALID ADDRESS fl fl ~:: J J - I I fl : : fl----- -VIH J 4$ I' VIL I I DQl I ~~----------------------~~~/I~--~---:~----~L-- VOH I DQ2 I I DQ3 --------------------------------------------------~/~~;~ I I PROGRAM Q2 ~I I f---h---./ ILpRO~RAM Q3 Illustrated above is the following sequence: I I VOL J ! L VOH 1 I It is desired to program the selected address with 0111 (QO-Q31. Only outputs DQ1, DQ2, and DQ3 need programming. 21 Ql is verified to be at a high logic level and then the programming sequence is executed. The output is then verified to be at a low logic level. 31 DQ2 is an example of an output requiring three attempts to be programmed successfully. 4) DQ3 is programmed to a low logic level. FIGURE 1. SERIES 3 PROGRAMMING SEQUENCE , 4-66 TEXAS • INSTRUMENTS POST OFFICE BOX 225012 • DALLAS, TEXAS 75265
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SDZD001B TheTTL ,Data Book Volume 4
Page 4:
General Information Functional Inde
Page 7 and 8:
IMPORTANT NOTICE Texas Instruments
Page 9 and 10:
G) CD ::::s CD ... ~ ::::s ..... o
Page 11 and 12:
A new Field Programmable Logic Appl
Page 13 and 14:
ALPHANUMERIC INDEX RAMs and Memory-
Page 15 and 16:
GLOSSARY Output-Enable Input A gati
Page 17 and 18:
GLOSSARY C) CD :::J CD ... ~ .... 5
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EXPLANATION OF FUNCTION TABLES The
Page 21 and 22:
SERIES 1 AND 2 PROMs, RAMs, MEMORY
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SERIES TIBPAL', PAL', TIFPLA DEVICE
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ORDERING INFORMATION II PROM NUMBER
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::J -o 3 Q) .-+ o· ::J 1-20
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HARDWARE/SOFTWARE MANUFACTURERS ADD
Page 31 and 32:
'T1 c: ::J n ... o· ::J ~ ::J Q, C
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FUNCTIONAL Ir~DEX GATES, EXPANDERS,
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FUNCTIONAL INDEX BUFFERS, DRIVERS,
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FUNCTIONAL INDEX LATCHES AND MUL TI
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FUNCTIONAL INDEX COUNTERS II "T1 r:
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FUNCTIONAL INDEX DISPLAY DECODERS/D
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FUNCTIONAL INDEX ARITHMETIC CIRCUIT
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FUNCTIONAL INDEX PROGRAMMABLE LOGIC
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"T1 m· c: ." ""I o cc ""I Q) 3 3 Q
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PAL16R4A, PAL16R6A, PAL16R8A STANDA
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PAL 16R6A, PAL 16R8A STANDARD HIGH
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~ PAL16R4A STANDARD HIGH,SPEED PAL
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PAL16RBA STANDARD HIGH·SPEED PAL C
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PAL 16L8A, PAL 16R4A, PAL 16R6A, PA
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PAL 16L8A, PAL 16R4A, PAL 16R6A, PA
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3-16
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PAL20R4A. PAL20R6A. PAL20R8A STANDA
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PAL20R6A. PAL20R8A STANDARD HIGH SP
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PAL20R4A STANDARD HIGH SPEED PAL CI
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PAL20R8A STANDARD HIGH SPEED PAL CI
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PAL20L8A, PAL20R4A, PAL20R6A, PAL20
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TIBPAL 16R4, TIBPAL 16R6, TIBPAL 16
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TIBPAL 16R6, TIBPAL 16R8 HIGH·PERF
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TIBPAL16R4 HIGH·PERFORMANCE IMPACT
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TIBPAL 16R8 HIGH·PERFORMANCE IMPAC
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TIBPAL 16LH, TIBPAL 16R4, TIBPAL 16
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TIBPAL 16L8, TIBPAL 16R4, TIBPAL 16
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"T1 [ Co ""I o cc ""I Q) 3 3 Q) C"
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TIBPAL 16R4·12, TIBPAL 16R6·12, T
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TIBPAL 16R6·12, TIBPAL 16R8·12 12
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~ TIBPAL 16R4·12 12·NS IMPAcr M P
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~ TIBPAL 16R8,12 12,NS IMPACr M PAL
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TIBPAL 16L8·12, TIBPAL 16R4·12, T
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TIBPAL 16L8·12, TIBPAL 16R4·12, T
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"T1 [ Co I ""0 ... o cc ... D.l 3 3
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THCTPAL16L8, THCTPAL16R4, THCTPAL16
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TIBPAL20R4·15, TIBPAL20R6·15, TIB
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TIBPAL20R6·15, TIBPAL20R8·15 TIBP
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'"T1 (1). e: ... -a o cc ... Q) 3 3
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TIBPAL20R8·15 TIBPAL20R8·20 HIGH
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TIBPAL20L8·15, TIBPAL20R4·15, TIB
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TIBPAL20L8·15, TIBPAL20R4·15, TIB
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TIBPAL20X4, TIBPAL20X8, TIBPAL20X10
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TIBPAL20X8, TIBPAL20X10 HIGH·PERFO
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~ TIBPAL20X4 HIGH·PERFORMANCE EXCL
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TIBPAL20X10 HIGH·PERFORMANCE EXCLU
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TIBPAL20L 10, TIBPAL20X4, TIBPAL20X
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TlBPAL20L 10, TIBPAL20X4, TlBPAL20X
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TIBPALR19R4, TIBPALR19R6, TIBPALR19
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TIBPALR19R6, TIBPALR19R8 HIGH·PERF
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TIBPALR19R4 HIGH·PERFORMANCE REGIS
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TIBPALR 19R8 HIGH-PERFORMANCE REGIS
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TIBPALR19L8, TIBPALR19R4, TIBPALR19
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TIBPALR19L8, TIBPALR19R4, TlBPALR19
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TIBPALT19R4, TIBPALT19R6, TIBPALT19
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TIBPALT19R6, TIBPALT19R8 HIGH·PERF
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TIBPAL T1 9R4 HIGH·PERFORMANCE LAT
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TIBPALT19RB HIGH·PERFORMANCE LATCH
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TIBPALT19L8. TIBPAL T19R4. TIBPAL T
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TIBPALT19L8, TIBPALT19R4, TIBPALT19
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TIBPAL T19L8. TIBPALT19R4. TIBPALT1
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TIBPALT19L8, TIBPALT19R4, TIBPALT19
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TIB82S105B 16 x 48 x 8 FIELD·PROGR
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TIB82S1058 16 x 48 x 8 FIELD·PROGR
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TIB82S167B 14 >< 48 x 6 FIELD·PROG
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TIB82S167B 14 X 48 X 6 FIELD·PROGR
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TIB82S167B 14 x 48 x 6 FIELD-PROGRA
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." [ 9- "'C ~ o CC ~ Q) 3 3 Q) C" m
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." (ii' c: ... -c o cc ... Q) 3 3 Q
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TIFPGA529 FIELD·PROGRAMMABLE GATE
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TIFPLA839. TIFPLA840 14 x 32 x 6 FI
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TIFPLA839, TIFPLA840 14 x 32 x 6 FI
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82S105A 16 x 48 X 8 FIELD·PROGRAMM
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-n m' e: .!a ... o cc ... Q) 3 3 Q)
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82S105A 16 x 48 x 8 FIELD·PROGRAMM
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82S105A . 16 x 48 x 8 FIELD·PROGRA
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82S167A 14 x 48x 6 FIELD·PROGRAMMA
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82S167A 14 X 48 X 6 FIELD·PROGRAMM
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82S167A 14 x 48 x 6 FIELD-PROGRAMMA
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"T1 ~ c. .!g ... o cc ... Q) 3 3 Q)
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." ::JJ o S en 4-2
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BIPOLAR PROM CROSS·REFERENCE GUIDE
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TBP18S030, TBP18SA030 256 BITS (32
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TBP18S030 256 BITS (32 WORDS BY 8 B
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4-10
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SERIES 24 AND 28 STANDARD AND LOW·
Page 249 and 250: TBP24SA10 1024 BITS (256 WORDS BY 4
Page 255 and 256: TBP24SA41 4096 BITS (1024 WORDS BY
Page 257 and 258: TBP24SA81 8192 BITS (2048 WORDS BY
Page 259 and 260: TBP28SA86A 8192 BITS (1024 WORDS BY
Page 261 and 262: TBP28S166 16,384 BITS (2084 WORDS B
Page 263 and 264: TBP28LA22 2048 BITS (256 WORDS BY 8
Page 265 and 266: TBP28L46 4096 BITS (512 WORDS BY 8
Page 267 and 268: TBP28L166 16,384 BITS (2084 WORDS B
Page 269 and 270: SERIES 24 AND 28 PROGRAMMABLE READ
Page 271 and 272: TBP34R162, TBP34R16X 16,384-BIT (40
Page 277 and 278: TBP34S10, TBP34L10, TBP34SA10 TBP34
Page 279 and 280: II "tJ :D o S C/) TBP34L10, TBP34L1
Page 281 and 282: TBP34S10, TBP34L10, TBP34A10 TBP34S
Page 283 and 284: "'C ::c o S en 4-48
Page 285 and 286: TBP34S162, TBP34L162, TBP34SA162 TB
Page 287 and 288: II "tJ jJ o s: C/) TBP34L162, TBP34
Page 291 and 292: II 4-56
Page 293 and 294: TBP34SR165, TBP34SR16X 16,384·BIT
Page 295 and 296: TBP34SR165, TBP34SR16X 16,384·811
Page 297 and 298: TBP34SR165, TBP34SR16X 16,384·BIT
Page 299: TBP34SR165, TBP34SR16X 16,384·BIT
Page 305 and 306: TBP38L030, TBP38L03X 256·BIT (32 W
Page 309 and 310: "'C :c o s: (J) 4-74
Page 311 and 312: TBP38S8, TBP38L8, TBP38SA8 8,192·B
Page 313 and 314: TBP38L165, TBP38L166, TBP38L16X 16,
Page 319 and 320: TBP38R165, TBP38R16X 16,384-BI1 (20
Page 321 and 322: TBP38R165, TBP38R16X 16,384·BIT (2
Page 323 and 324: 11 "'C :c o S UI TBP38R165, TBP38R1
Page 325 and 326: TBP38S165, TBP38S166, TBP38S16X 16,
Page 327 and 328: TBP38S165, TBP38S166, TBP38S16X 16,
Page 329 and 330: II 4-94
Page 331 and 332: TBP38SA165, TBP38SA166, TBP38SA16X
Page 333 and 334: TBP38SA165. TBP38SA166. TBP38SA16X
Page 335 and 336: "'C :0 o S rJ) 4-100
Page 339 and 340: TBP38S22, TBP38S2X 2,048-BIT (256 W
Page 341 and 342: TBP38SA22, TBP38SA2X 2,048·BI1 (25
Page 345 and 346: 5-2
Page 347 and 348: SN7489 64·BIT RANDOM·ACCESS READ/
Page 349 and 350: SN7489 64·BIT RANDOM·ACCESS READ/
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SN7489 64·BIT RANDOM·ACCESS READ/
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SN54184, SN74184 BCD·TO·BINARY AN
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SN54184,SN54185A, SN74184, SN74185A
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SN54184, SN74184 BCD·TO·BINARY CO
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SN54185, SN74185A BCD·TO·BINARY C
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5-18
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SN54LS189A. SN54LS219A. SN54LS289A.
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SN54LS189A, SN54LS219A, SN74LS189A,
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5-24
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SN54S1890, SN54S2890, SN74S1890, SN
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SN54S189B, SN54S289B, SN74S189B, SN
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SN74S201, SN74S301 256·811 HIGH·P
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SN74S201, SN74S301 256·811 HIGH·P
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SN54284, SN54285, SN74274, SN74285
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SN54284, SN54285, SN74284, SN74285
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SN54S484A, SN54S485A, SN74S484A, SN
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SN54S484A, SN54S485A, SN74S484A, SN
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SN54S484A, SN74S484A BCD·TO·BINAR
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SN54S484A, SN54S485A,SN74S484A, SN7
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SN54S485A. SN74S485A BCD·TO·BINAR
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SN54S485A, SN74S485A BCD-lO-BINARY
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SN54S485A, SN74S485A BCD·IO·BINAR
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5-56
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6-2
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IMPORTANT NOTICE Texas Instruments
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List of Illustrations Figure 1 2 3
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FAMILY ARCHITECTURES As stated befo
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~ ~ ~ INPUT LINES RODUCT, . LINES 0
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ENABLE .10 INPUTS o In PO o o D--+-
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'LS253 'LS162 PAL SELECTION SELO SE
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lEI [e111 It is important to notice
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~ ~ » 'C "2- ri' Q) .... ClK (1) ~
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0000 0000 0011 1111 1111 2222 2222
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modulQ BO_80UNT flao /-r2/ titl~ '4
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ADDRESS FOR PROGRAMMING AND SOFTWAR
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7-2
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MECHANICAL DATA OW plastic "small o
Page 429 and 430:
MECHANICAL DATA FN plastic chip car
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MECHANICAL DATA J ceramic dual-in-l
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MECHANICAL DATA J ceramic dual-in-l
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MECHANICAL DATA N plastic dual-in-l
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MECHANICAL DATA N plastic dual-in-l
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MECHANICAL DATA N plastic dual-in-I
Page 443:
TI Worldwide Sales Offices ALABAMA:
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