Amplifiers JFET INPUT OPERATIONAL AMPLIFIERS

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1 These low cost T input operational amplifiers combine two state of the art linear technologies on a single monolithic integrated circuit. ach internally compensated operational amplifier has well matched high voltage T input devices for low input offset voltage. The IT technology provides wide bandwidths and fast slew rates with low input bias currents, input offset currents, and supply currents. These devices are available in single, dual and quad operational amplifiers which are pin compatible with the industry standard 74, 458, and the 3403/324 bipolar products. Input Offset oltage Options of 6.0 m and 5 m ax ow Input ias urrent: 30 p ow Input Offset urrent: 5.0 p Wide ain andwidth: 4.0 z igh lew Rate: 3 /µs ow upply urrent:.4 m per mplifier igh Input Impedance: 02 Ω Offset ull (T08 only) Inputs +.5 k Representative ircuit chematic (ach mplifier) Q2 Q0 Q3 Q4 Q8 2.5 k Q3 Q5 Q4 Q5 Q2 Q Q6 Q7 0 p Q9 Q20 Q2 Q22 Q23 24 Q24 Output Q9 Q6 Q Q k Q7 Q25 ias ircuitry ommon to ll mplifiers T IPT OPRTIO PIIR 8 P IX PTI P Output Inputs IOTOR TI T PI OTIO T082 (Top iew) PI OTIO 8 IX PTI P 75 (O 8) Offset ull 8 Inv + Input 2 7 oninvt Input Output 4 5 Offset ull T08 (Top iew) Output IX PTI P 646 Inputs Op mp unction ingle ual evice T08, T08P, P T082, T082P, P ORRI IORTIO Operating Temperature Range T =0 to +70 T =0 to +70 Package O 8 Plastic IP O 8 Plastic IP Quad T084, T = 0 to +70 Plastic IP Output Inputs Inputs Output T084 (Top iew) Output 4 Inputs 4 Inputs 3 Output 3 OTORO O I I T 2 325

2 T08, T082, T084, XI RTI upply oltage Rating ymbol alue nit +8 8 ifferential Input oltage I ±30 Input oltage Range (ote ) IR ±5 Output hort ircuit uration (ote 2) t ontinuous Power issipation (, P) erate above T = +47 P /θ mw mw/ Operating mbient Temperature Range T 0 to +70 torage Temperature Range Tstg 65 to +50. The magnitude of the input voltage must not exceed the magnitude of the supply voltage or 5, whichever is less. 2. The output may be shorted to ground or either supply. Temperature and/or supply voltages must be limited to ensure that power dissipation ratings are not exceeded. TRI RTRITI ( = +5, = 5, T = Tlow to Thigh [ote 3].) haracteristics ymbol in Typ ax nit Input Offset oltage (R 0 k, = 0) T08, T082 T084 T08_ Input Offset urrent ( = 0) (ote 4) T08_ T08_ Input ias urrent ( = 0) (ote 4) T08_ T08_ arge ignal oltage ain (O= ±0,R 2.0 k) T08_ T08_ Output oltage wing (Peak to Peak) (R 0 k) (R 2.0 k) 3. T low = 0 for T08, T high = +70 for T08 0 for T082, +70 for T082, 0 for T084, +70 for T084, 4. Input ias currents of T input op amps approximately double for every 0 rise in unction Temperature as shown in igure 3. To maintain junction temperature as close to ambient temperature as possible, pulse techniques must be used during testing. IO IIO II O O m n n /m igure. nity ain oltage ollower igure 2. Inverting ain of 0 mplifier 0 k in + O in.0 k + O R = 2.0 k = 00 p R = 00 p OTORO O I I T

3 T08, T082, T084, TRI RTRITI ( = +5, = 5, T = +25, unless otherwise noted.) haracteristics ymbol in Typ ax nit Input Offset oltage (R 0 k, = 0) T08, T082 T084 T08_ verage Temperature oefficient of Input Offset oltage R = 50 Ω, T = Tlow to Thigh (ote 3) Input Offset urrent ( = 0) (ote 4) T08_ T08_ Input ias urrent ( = 0) (ote 4) T08_ T08_ IO m IO/ T 0 µ/ Input Resistance ri 02 Ω ommon ode Input oltage Range T08_ T08_ arge ignal oltage ain (O = ±0, R 2.0 k) T08_ T08_ Output oltage wing (Peak to Peak) (R = 0 k) ommon ode Rejection Ratio (R 0 k) T08_ T08_ upply oltage Rejection Ratio (R 0 k) T08_ T08_ IIO II IR O ±0 ± , 2 +5, p p /m O RR upply urrent (ach mplifier) I m nity ain andwidth W 4.0 z lew Rate (ee igure ) in = 0, R = 2.0 k, = 00 p PRR R 3 /µs Rise Time (ee igure ) tr 0. µs Overshoot (in = 20 m, R = 2.0 k, = 00 p) O 0 % d d quivalent Input oise oltage R = 00 Ω, f = 000 z hannel eparation = 00 en 25 n/ z 20 d 3. T low = 0 for T08, T high = +70 for T08 0 for T082, +70 for T082, 0 for T084, +70 for T084, 4. Input ias currents of T input op amps approximately double for every 0 rise in unction Temperature as shown in igure 3. To maintain junction temperature as close to ambient temperature as possible, pulse techniques must be used during testing. OTORO O I I T 2 327

4 T08, T082, T084, I I, IPT I RRT (n) / = ±5 igure 3. Input ias urrent versus Temperature T, IT TPRTR ( ) O, OTPT OT WI (pp) / = ±5 igure 4. Output oltage wing versus requency ±0 ±5.0 R = 2.0 k T = 25 (ee igure 2) k 0 k 00 k.0 0 f, RQY (z) O, OTPT OT WI (pp) O, OTPT OT WI (pp) igure 5. Output oltage wing versus oad Resistance / = ±5 T = 25 (ee igure 2) igure 7. Output oltage wing versus Temperature / = ±5 (ee igure 2) R, O RIT (kω) R = 0 k R = 2.0 k T, IT TPRTR ( ) O, OTPT OT WI (pp) I, PPY RI RRT (m) R = 2.0 k T = 25 igure 6. Output oltage wing versus upply oltage ,, PPY OT (±) igure 8. upply urrent per mplifier versus Temperature / = ± T, IT TPRTR ( ) OTORO O I I T

5 T08, T082, T084, O, OP OOP I (/m) igure 9. arge ignal oltage ain and Phase hift versus requency ain Phase hift / = ±5 R = 2.0 k T = P IT (R) O, OP OOP I (/m) igure 0. arge ignal oltage ain versus Temperature / = ±5 O = ±0 R = 2.0 k k 0 k 00 k.0 0 f, RQY (z) T, IT TPRTR ( ) ORIZ W RT igure. ormalized lew Rate versus Temperature T, IT TPRTR ( ) e, QIT IPT OI OT ( n/ z ) n igure 2. quivalent Input oise oltage versus requency / = ±5 = 0 R = 00 Ω T = f, RQY (z) T, TOT ROI ITORTIO (%) igure 3. Total armonic istortion versus requency / = ±5 =.0 O = 6.0 (R) T = f, RQY (z) OTORO O I I T 2 329

6 T08, T082, T084, igure 4. Positive Peak etector igure 5. oltage ontrolled urrent ource R3 in Reset /2 T *.0 µ /2 T082 + *Polycarbonate or Polystyrene apacitor O in R R2 + R5 T08 R4 If R through R4 > > R5 then Iout = IO in R5 R Run R4 igure 6. ong Interval R Timer R R3 R2 lear * R5 T08 + Time (t) = R4 4n (R/R I), R3 = R4, R5 = 0. R6 If R = R2: t = R4 6 R6 *Polycarbonate or Polystyrene apacitor igure 7. Isolating arge apacitive oads R 5. k O = IO t T08 + R2 5. k 20 p IO R3 0 O R 5. k 0.5 µ Overshoot 0% ts = 0 µs When driving large, the O slew rate is determined by and IO(max): /µs = 0.04 /µs (with shown) esign xample: 00 econd Timer R = 0 = l.0 m R3 = R4 = 44 R6 = 20 k R5 = 2.0 k R = R2 =.0 k OTORO O I I T

7 Tape and Reel Options In rief... otorola offers the convenience of Tape and Reel packaging for our growing family of standard integrated circuit products. Reels are available to support the requirements of both first and second generation pick and place equipment. The packaging fully conforms to the latest I 48 specification. The antistatic embossed tape provides a secure cavity, sealed with a peel back cover tape. Page Tape and Reel onfigurations Tape and Reel Information Table nalog PQ Table OTORO O I I T 2

8 Tape and Reel onfigurations echanical Polarization OI and icro 8 I Typical P I Typical PI ser irection of eed ser irection of eed P and 2P I Typical ser irection of eed OT 23 (5 Pin) I Typical OT 89 (3 Pin) I Typical OT 89 (5 Pin) I Typical ser irection of eed ser irection of eed ser irection of eed 2 2 OTORO O I I T

9 Tape and Reel onfigurations (continued) TY (Preferred) TO 92 Reel tyles TY arrier trip dhesive Tape Rounded ide arrier trip dhesive Tape lat ide ÉÉÉÉÉÉÉ ÉÉÉÉÉÉÉ eed eed Rounded side of transistor and adhesive tape visible. lat side of transistor and adhesive tape visible. TY P (Preferred) dhesive Tape On Top ide TO 92 mmo Pack tyles TY dhesive Tape On Top ide Rounded ide É ÉÉ É eed arrier trip lat ide É eed ÉÉ É arrier trip abel Rounded side of transistor and adhesive tape visible. abel lat side of transistor and adhesive tape visible. tyle P ammo pack is equivalent to tyles and of reel pack dependent on feed orientation from box. tyle ammo pack is equivalent to tyle of reel pack dependent on feed orientation from box. TO 92 I Radial Tape in an old ox or On Reel W2 4 5 W W T T 2 T2 P2 P2 P P OTORO O I I T 2 3

10 Tape and Reel Information Table Package Tape Width evices() Reel ize evice (mm) per Reel (inch) uffix O 8, OP 8 2 2,500 3 R2 O 4 6 2,500 3 R2 O 6 6 2,500 3 R2 O 6, O 8+8 WI 6,000 3 R2 O 20 WI 24,000 3 R2 O 24 WI 24,000 3 R2 O 28 WI 24,000 3 R2 O 28 WI 32,000 3 R3 icro 8 2 2,500 3 R2 P 20 6,000 3 R2 P R2 P R2 P R2 P R2 P R2 TO 226 (TO 92)(2) 8 2,000 3 R, R, RP, or R (mmo Pack) only P 6 2,500 3 R 2P R4 OT 23 (5 Pin) 8 3,000 7 TR OT 89 (3/5 Pin) 2,000 7 T () inimum order quantity is reel. istributors/o customers may break lots or reels at their option, however broken reels may not be returned. (2) Integrated circuits in TO 226 packages are available in tyes and only, with optional mmo Pack (uffix RP or R). The R and RP configurations are preferred. or ordering information please contact your local otorola emiconductor ales Office. 2 4 OTORO O I I T

11 nalog PQ Table Tape/Reel and mmo Pack P OI icro 8 TO 92 P 2P OT 23 (5 Pin) OT 89 (3 Pin) OT 89 (5 Pin) Package Type Package ode PQ ase /reel ase /reel ase /reel ase /reel ase /reel ase /reel ase /reel ase /reel ase /reel ase /reel ase /reel ase /reel ase /mmo Pack ase /reel ase /reel ase /reel ase /reel ase /reel OTORO O I I T 2 5

12 2 6 OTORO O I I T

13 Packaging Information In rief... The packaging availability for each device type is indicated on the individual data sheets and the elector uide. ll of the outline dimensions for the packages are given in this section. The maximum power consumption an integrated circuit can tolerate at a given operating ambient temperature can be found from the equation: T(max) T P(T) = Rθ(Typ) where: P(T) = Power issipation allowable at a given operating ambient temperature. This must be greater than the sum of the products of the supply voltages and supply currents at the worst case operating condition. T(max) = aximum operating unction Temperature as listed in the aximum Ratings ection. ee individual data sheets for T(max) information. T = aximum desired operating mbient Temperature Rθ(Typ) = Typical Thermal Resistance unction-to- mbient OTORO O I I T 3

14 ase Outline imensions P, P, Z IX (TO-226/TO-92) I R. IIOI TORI PR I Y4.5, OTROI IIO: I. 3. OTOR O P YO IIO R I OTRO. 4. IIO PPI TW P. IIO PPY TW II. IIO I OTRO I P YO IIO II. 2 3 TI X X P TIO X X I IITR P R , T IX I Y TI T. IIOI TORI PR I Y4.5, OTROI IIO: I Y Q P 0.25 (0.00) Y R I IITR Q R T OTORO O I I T

15 T IX I Q P OPTIO R TI. IIOI TORI PR I Y4.5, OTROI IIO: I. 3. IIO O OT I ITROT R (R) PROTRIO. IIO II PROTRIO OT X (.092) XI. 5 5X 0.04 (0.356) T P 5X I IITR Q T, T IX I 5 Q 5X P 0.0 (0.254) T P OPTIO R 5X 0.24 (0.60) T W TI. IIOI TORI PR I Y4.5, OTROI IIO: I. 3. IIO O OT I ITROT R (R) PROTRIO. IIO II PROTRIO OT X (.092) XI. I IITR Q W T IX 34 0 I Q TI. IIOI TORI PR I Y4.5, OTROI IIO: I. 3. IIO O OT I ITROT R (R) PROTRIO. IIO II PROTRIO OT X 0.92 (0.043) XI. 5 I IITR Q P (0.04) T Q OTORO O I I T 3 3

16 T, T IX I Q 5 P TI. IIOI TORI PR I Y4.5, OTROI IIO: I. 3. IIO O OT I ITROT R (R) PROTRIO. IIO II PROTRIO OT X 0.92 (0.043) XI. I IITR Q (0.04) T Q T- IX (P) I R. IIOI TORI PR I Y4.5, OTROI IIO: I TI I IITR R P 0.3 (0.005) T T IX (P) I Y 3 4 R P 0.3 (0.005) T TI Z. IIOI TORI PR I Y4.5, OTROI IIO: I. I IITR R Z OTORO O I I T

17 P,, P, P IX I IIO TO TR O W OR PR. 2. P OTOR OPTIO (RO OR QR ORR). 3. IIOI TORI PR I Y4.5, OT 2 TI 0.3 (0.005) T IITR I , P, -4, P2 IX I WITI 0.3 (0.005) RI O TR POITIO T TI T XI TRI OITIO. 2. IIO TO TR O W OR PR. 3. IIO O OT I O. 4. RO ORR OPTIO. 4 TI I IITR P2,, P, P IX I R P 0.25 (0.00) T TI. IIOI TORI PR I Y4.5, OTROI IIO: I. 3. IIO TO TR O W OR PR. 4. IIO O OT I O. 5. RO ORR OPTIO. I IITR OTORO O I I T 3 5

18 , P, P2, IX (IP 6) I 6 9. IIOI TORI PR I Y4.5, OTROI IIO: I. 3. IIO TO TR O W OR PR. 4. IIO O OT I O. 5. ITR OTIO TW 4 5, TI 8 OT 5 6 P 6 P 0.3 (0.005) T I IITR (0.005) T P IX (IP 6) I O P R 3 P 0.25 (0.00) T TI. IIOI TORI PR I Y4.5, OTROI IIO: I. 3. IIO TO TR O W OR PR. 4. IIO O OT I O PROTRIO. 5. O OR PROTRIO OT X 0.25 (0.00). 6. RO ORR OPTIO. I IITR P R P IX I 24 Q P TI. WITI 0.3 (0.005) RI O TR POITIO T TI T XI TRI OITIO. 2. IIO TO TR O W OR PR. IITR I P Q OTORO O I I T

19 ,,, P IX I POITIO TOR O (), WITI 0.25 (0.00) T XI TRI OITIO, I RTIO TO TI OTR. 2. IIO TO TR O W OR PR. 3. IIO O OT I O. 8 TI IITR I P IX I 28. POITIO TOR O (), WITI 0.25 (0.00) T XI TRI OITIO, I RTIO TO TI OTR. 2. IIO TO TR O W OR PR. 3. IIO O OT I O IITR I TI P IX 7-03 I POITIO TOR O (), WITI 0.25 (0.00) T XI TRI OITIO, I RTIO TO TI OTR. 2. IIO TO TR O W OR PR. 3. IIO O OT I O. 20 TI IITR I OTORO O I I T 3 7

20 , P, P-3 IX (IP 24) I TI P 0.25 (0.00) T 24 P OT 0.25 (0.00) T. R OTOR OPTIO. 2. IIO TO TR O W OR PR. 3. IIOI TORI PR I Y4.5, OTROI IIO: I. I IITR , P, P IX I 20 TI P 0.25 (0.00) T 20 P 0.25 (0.00) T. IIOI TORI PR I Y4.5, OTROI IIO: I. 3. IIO TO TR O W OR PR. 4. IIO O OT I O. I IITR ,, 2 IX (O-8, OP-8) I R IIOI TORI PR Y4.5, IIO R I IITR. 3. IIO O OT I O PROTRIO. 4. XI O PROTRIO 0.5 PR I. 5. IIO O OT I O PROTRIO. OW R PROTRIO 0.27 TOT I X O T IIO T XI TRI OITIO. 8 e 0.25 TI 0.0 h X 45 IITR I I X e h OTORO O I I T

21 IX (O-4) I 4 TI P 7 P 7 P 0.25 (0.00) T 0.25 (0.00) R X 45. IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. IIO O OT I O PROTRIO. 4. XI O PROTRIO 0.5 (0.006) PR I. 5. IIO O OT I R PROTRIO. OW R PROTRIO 0.27 (0.005) TOT I X O T IIO T XI TRI OITIO. IITR I P R IX (O-6) I 6 TI P 0.25 (0.00) T P 8 P 0.25 (0.00) R X 45. IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. IIO O OT I O PROTRIO. 4. XI O PROTRIO 0.5 (0.006) PR I. 5. IIO O OT I R PROTRIO. OW R PROTRIO 0.27 (0.005) TOT I X O T IIO T XI TRI OITIO. IITR I P R W, P IX (O-20, O 20) I X (0.25) T 8X 0X P 0.00 (0.25) TI R X 45. IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. IIO O OT I O PROTRIO. 4. XI O PROTRIO 0.50 (0.006) PR I. 5. IIO O OT I R PROTRIO. OW R PROTRIO 0.3 (0.005) TOT I X O IIO T XI TRI OITIO. IITR I P R OTORO O I I T 3 9

22 W IX (O-24, OP (6+4+4)) I 24 TI X 2 24X 0.00 (0.25) T 22X P 0.00 (0.25) R X 45. IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. IIO O OT I O PROTRIO. 4. XI O PROTRIO 0.5 (0.006) PR I. 5. IIO O OT I R PROTRIO. OW R PROTRIO 0.3 (0.005) TOT I X O IIO T XI TRI OITIO. IITR I P R W IX (O-28, OI 28) I X P 0.00 (0.25). IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. IIO O OT I O PROTRIO. 4. XI O PROTRIO 0.5 (0.006) PR I. 5. IIO O OT I R PROTRIO. OW R PROTRIO 0.3 (0.005) TOT I X O IIO T XI TRI OITIO. 28X 0.00 (0.25) T 26X 4 R X 45 TI IITR I P R W IX (O-6, OP 6, OP-8+8) I X 4X 0.00 (0.25) T 8 8X P TI 0.00 (0.25) R X 45. IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. IIO O OT I O PROTRIO. 4. XI O PROTRIO 0.5 (0.006) PR I. 5. IIO O OT I R PROTRIO. OW R PROTRIO 0.3 (0.005) TOT I X O IIO T XI TRI OITIO. IITR I P R OTORO O I I T

23 IX 75 0 (O 6) I O TI 4 X 0.25 (0.00) T 6 P 0.25 (0.00) R X 45 IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3 IIO O OT I O PROTRIO. 4 XI O PROTRIO 0.5 (0.006) PR I. 5 IIO O OT I R PROTRIO. OW R PROTRIO 0.27 (0.005) TOT I X O T IIO T XI TRI OITIO. IITR I P R W IX 75 0 (OP 6) I O 6 T. IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. IIO O OT I O PROTRIO. 4. XI O PROTRIO 0.5 (0.006) PR I. P 0.00 (0.25) 5. IIO O OT I R PROTRIO. OW R PROTRIO 0.3 (0.005) TOT I 8 X O IIO T XI TRI OITIO. 3X 0.00 (0.25) T IITR I R X P R TI T X OTORO O I I T 3

24 762-0 Plastic edium Power Package (IP-9) I 9 R Q TI Y 0.25 (0.00) T 9 W 9 P X 0.25 (0.00) T 0.25 (0.00) T. IIOI TORI PR I Y4.5, OTROI IIO: IITR. IITR I Q R W X Y IX (P-20) I 20 Y R W (0.80) T (0.80) T Z X 0.00 (0.250) T IW. T,, TRI WR TOP O OR XIT PTI OY T O PRTI I. 2. IIO, TR POITIO TO R T T, TI. 3. IIO R O OT I O. OW O I 0.00 (0.250) PR I. 4. IIOI TORI PR I Y4.5, OTROI IIO: I. 6. T P TOP Y R T T P OTTO Y P TO 0.02 (0.300). IIO R R TRI T T OTROT XTR O T PTI OY XI O O, TI R RR, T RR ITR, T II Y IT TW T TOP OTTO O T PTI OY. 7. IIO O OT I R PROTRIO OR ITRIO. T R PROTRIO() OT T IIO TO RTR T (0.940). T R ITRIO() OT T IIO TO R T (0.635). Z R (0.80) T (0.80) T (0.00) TI IW 0.00 (0.250) T IW (0.80) T (0.80) T I IITR R W X Y Z OTORO O I I T

25 IX (P 28) I Y R (0.80) T (0.80) T Z 28 W X IW 0.00 (0.250) T Z R (0.80) T (0.80) T (0.80) T IW (0.00) TI (0.80) T 0.00 (0.250) T IW. T,, TRI WR TOP O OR XIT PTI OY T O PRTI I. 2. IIO, TR POITIO TO R T T, TI. 3. IIO R O OT I O. OW O I 0.00 (0.250) PR I. 4. IIOI TORI PR I Y4.5, OTROI IIO: I. 6. T P TOP Y R T T P OTTO Y P TO 0.02 (0.300). IIO R R TRI T T OTROT XTR O T PTI OY XI O O, TI R RR, T RR ITR, T II Y IT TW T TOP OTTO O T PTI OY. 7. IIO O OT I R PROTRIO OR ITRIO. T R PROTRIO() OT T IIO TO RTR T (0.940). T R ITRIO() OT T IIO TO R T (0.635). I IITR R W X Y Z OTORO O I I T 3 3

26 IX (P) I Y R Z 0.007(0.80) T 0.007(0.80) T X IW 0.00 (0.25) T 44 W 0.007(0.80) T Z R 0.00 (0.25) T. T,, R TRI WR TOP O OR XIT PTI OY T O PRTI I. 2. IIO, TR POITIO TO R T T, TI. 3. IIO R O OT I O. OW O I 0.00 (0.25) PR I. 4. IIOI TORI PR I Y4.5, OTROI IIO: I (0.80) T 0.007(0.80) T IW (0.0) TI IW 6. T P TOP Y R T T P OTTO Y P TO 0.02 (0.300). IIO R R TRI T T OTROT XTR O T PTI OY XI O O, TI R RR, T RR ITR, T II Y IT TW T TOP OTTO O T PTI OY. 7. IIO O OT I R PROTRIO OR ITRIO. T R PROTRIO() OT T IIO TO RTR T (0.940). T R ITRIO() OT T IIO TO R T (0.635) (0.80) T I IITR R W X Y Z IX 803 PRIIRY 20 0 P (0.005) 0 20 P 0.3 (0.005) T 0.0 (0.004) TI 6 IIOI TORI PR I Y4.5, OTROI IIO: IITR. 8 IIO O OT I O PROTRIO. 9 XI O PROTRIO 0.5 (0.008) PR I. 0 IIO O OT I R PROTRIO. OW R PROTRIO 0.3 (0.006) TOT I X O T IIO T XI TRI OITIO. IITR I * 0.488* *PPROXIT 3 4 OTORO O I I T

27 T IX (5-Pin ZIP) I PI 5X R Q P PI (0.254) T P Q Y 5X TI (0.60) T. IIOI TORI PR I Y4.5, OTROI IIO: I. 3. IIO R O OT I O OR PROTRIO. 4. IIO O OT I O OR PROTRIO. 5. O OR PROTRIO OT X 0.00 (0.250). 6. IIO O OT I R PROTRIO. OW PROTRIO (0.076) TOT I X O T IIO. T XI TRI OITIO. I IITR R R R Y T IX I P PI R 5X 7X 5 Q PI (0.254) T P Y TI 5X (0.60) T. IIOI TORI PR I Y4.5, OTROI IIO: I. 3. IIO R O OT I O OR PROTRIO. 4. IIO O OT I O OR PROTRIO. 5. O OR PROTRIO OT X 0.00 (0.250). 6. T 7. IIO O OT I R PROTRIO. OW PROTRIO (0.076) TOT I X O T IIO. T XI TRI OITIO. I IITR Q R Y R R OTORO O I I T 3 5

28 T IX (TQP 44) I O Z,, Z T T TI (0.008) Z 0.05 (0.002) Z 0.20 (0.008) Z PTI ÇÇÇÇ ÉÉÉÉ TI T (0.008) T Z 0.05 (0.002) T 0.20 (0.008) T Z TIO 0.20 (0.008) T Z R W Q X IW Y TI 0.0 (0.004). IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. T I OT T OTTO O I OIIT WIT T WR T XIT T PTI OY T T OTTO O T PRTI I. 4. T, Z TO TRI T T. 5. IIO TO TRI T TI. 6. IIO O OT I O PROTRIO. OW PROTRIO I 0.25 (0.00) PR I. IIO O I O IT R TRI T T. 7. IIO O OT I R PROTRIO. R PROTRIO OT T IIO TO X (0.02). IITR I R 2 R Q 5 5 R W R R X.000 R R Y 2 R 2 R 3 6 OTORO O I I T

29 IX (QP) I (0.008) T,, PI IT 0.20 (0.008) 0.05 (0.002) IW Y 3 P IW Y 0.20 (0.008) 0.05 (0.002) 0.20 (0.008) T PTI ÇÇÇ ÉÉÉ T 0.20 (0.008) T 40X TIO 44 P W Y IW P T 0.0 (0.004). IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. T I OT T OTTO O I OIIT WIT T WR T XIT T PTI OY T T OTTO O T PRTI I. 4. T, TO TRI T T. 5. IIO TO TRI T TI. 6. IIO O OT I O PROTRIO. OW PROTRIO I 0.25 (0.00) PR I. IIO O I O IT R TRI T T. 7. IIO O OT I R PROTRIO. R PROTRIO OT T IIO TO X (0.02). T IW P R R R R2 2 IITR I W Y R 0.08 R R R R R OTORO O I I T 3 7

30 IX I O 64 Z ,, Z TI 0.20 (0.008) Z T Z (0.002) 0.20 (0.008) Z T TI P (0.008) (0.002) T 0.20 (0.008) T T Z Z T ÉÉÉ ÇÇ ÉÉÉ ÇÇ ÉÉÉ ÇÇ ÉÉÉ 0.20 (0.008) T Z TIO Y 0.0 (0.004) TI R W TI X Q. IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. T I OT T OTTO O I OIIT WIT T WR T XIT T PTI OY T T OTTO O T PRTI I. 4. T, Z TO TRI T T. 5. IIO TO TRI T TI. 6. IIO O OT I O PROTRIO. OW PROTRIO I 0.25 (0.00 ) PR I. IIO O I O IT R TRI T T. 7. IIO O OT I R PROTRIO. R PROTRIO OT T IIO TO X (0.04). IITR I R 2 R P Q 5 5 R W R R X Y.000 R 2 R R 2 R 3 8 OTORO O I I T

31 IX (icro 8) I 8. IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. IIO O OT I O, PROTRIO OR T RR. O, PROTRIO OR T RR OT X 0.5 (0.006) PR I. 4. IIO O OT I ITR OR PROTRIO. ITR OR PROTRIO OT X 0.25 (0.00) PR I. PI I TI (0.005) 8 P 0.08 (0.003) T IITR I OTORO O I I T 3 9

32 IX (TQP 52) I TI 0.20 (0.008) 0.05 (0.002) 0.20 (0.008) TI,, (0.008) 0.05 (0.002) 0.20 (0.008) T TI T 0.02 (0.008) TIO 0.0 (0.004) TI T W TI X R Q. IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. T I OT T OTTO O I OIIT WIT T WR T XIT T PTI OY T T OTTO O T PRTI I. 4. T, TO TRI T T. 5. IIO TO TRI T TI. 6. IIO O OT I O PROTRIO. OW PROTRIO I 0.25 (0.00) PR I. IIO O I O IT R TRI T T. 7. IIO O OT I R PROTRIO. OW R PROTRIO 0.08 (0.003) TOT I X O T IIO T XI TRI OITIO. R OT OT O T OWR RI OR T OOT. IITR I R R Q R T W X.6 R R 3 20 OTORO O I I T

33 IX I 52 4X 4X TIP 0.20 (0.008) 0.20 (0.008) T X X=,, X IW Y IW Y PTI ÉÉÉ ÉÉÉ ÇÇÇ 0.3 (0.005) T TIO ROTT 90 OWI T 4X θ2 0.0 (0.004) T TI 4X θ3 IW (0.002) IW W θ Z θ 2 X R R 0.25 (0.00). IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. T I OT T OTTO O I OIIT WIT T WR T XIT T PTI OY T T OTTO O T PRTI I. 4. T, TO TRI T T. 5. IIO TO TRI T TI. 6. IIO O OT I O PROTRIO. OW PROTRIO I 0.25 (0.00) PR I. IIO O I O IT R TRI T T IIO O OT I R PROTRIO. R PROTRIO OT T WIT TO X 0.46 (0.08). II P TW PROTRIO T OR PROTRIO 0.07 (0.003). IITR I R R R W 0.20 R R Z.00 R R θ θ 0 0 θ2 2 R 2 R θ OTORO O I I T 3 2

34 IX I O IIOI TORI PR I Y4.5, OTROI IIO: I. 3. IIO TO TR O W OR PR. 4. IIO O OT I O. XI O 0.25 (0.00). TI 2 42 P 0.25 (0.00) T 42 P 0.25 (0.00) T I IITR IX (IP) I O IIOI TORI PR I Y4.5, OTROI IIO: I. 3. IIO TO TR O W OR PR. 4. IIO O OT I O. XI O 0.25 (0.00) TI P 0.25 (0.00) T 56 P 0.25 (0.00) T I IITR OTORO O I I T

35 , T IX (TQP 32) I TI (0.008) 0.05 (0.002) 0.20 (0.008) P,, TI (0.008) 0.05 (0.002) 0.20 (0.008) T TI 0.20 (0.008) TIO IW ROTT 90 OWI TI T 0.0 (0.004) T TI X T R Q. IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. T I OT T OTTO O I OIIT WIT T WR T XIT T PTI OY T T OTTO O T PRTI I. 4. T, TO TRI T T. 5. IIO TO TRI T TI. 6. IIO O OT I O PROTRIO. OW PROTRIO I 0.25 (0.00) PR I. IIO O I O IT R TRI T T. 7. IIO O OT I R PROTRIO. OW R PROTRIO 0.08 (0.003) TOT I X O T IIO T XI TRI OITIO. R OT OT O T OWR RI OR T OOT. IITR I R R P Q R T X.00 R R OTORO O I I T 3 23

36 T IX (23-Pin ZIP) I 23. IIOI TORI PR I Y4.5, OTROI IIO: I. 3. IIO R O OT I O OR PROTRIO. 4. IIO O OT I O OR PROTRIO. 5. O OR PROTRIO OT X 0.00 (0.250). 6. IIO O OT I R PROTRIO. OW PROTRIO (0.076) TOT I X O T IIO T XI TRI OITIO. R PI P PI 23 23X 0.00 (0.254) T Q Y 23X W TI (0.60) T I IITR P R R R W Y OTORO O I I T

37 T IX (TQP 48) I 48 P 4X (0.008) T Z 9 TI Y ,, Z TI Y 3 24 Z TOP & OTTO R 4X (0.008) T Z (0.00) (0.003) TI W X Q T ÇÇÇ ÇÇÇ ÉÉÉ (0.003) T Z TIO. IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. T I OT T OTTO O I OIIT WIT T WR T XIT T PTI OY T T OTTO O T PRTI I. 4. T,, Z TO TRI T T. 5. IIO TO TRI T TI. 6. IIO O OT I O PROTRIO. OW PROTRIO I (0.00) PR I. IIO O I O IT R TRI T T. 7. IIO O OT I R PROTRIO. R PROTRIO OT T IIO TO X (0.04). 8. II OR PT TI (0.0003). 9. XT P O ORR I OPTIO. IITR I I I R 2 R P I 0.00 I Q 5 5 R W R R X.000 R R OTORO O I I T 3 25

38 2T IX I TRI 4. IIOI TORI PR I Y4.5, OTROI IIO: I. 3. T OTOR OPTIO WITI IIO. 4. IIO TI II OTI R OR TRI IIO O OT I O OR T PROTRIO. O T PROTRIO OT TO X (0.635) XI (0.254) T OPTIO R I IITR R.295 R X 3.75 X R.270 R P R 5 R 5 R 0.6 R R I I I I P R 2T IX (2P) I 0.00 (0.254) T OPTIO R TRI 6. IIOI TORI PR I Y4.5, OTROI IIO: I. 3. T OTOR OPTIO WITI IIO. 4. IIO TI II OTI R OR TRI IIO O OT I O OR T PROTRIO. O T PROTRIO OT TO X (0.635) XI. I IITR R.270 R P R 5 R 5 R 0.6 R R I I I I R P 3 26 OTORO O I I T

39 T, T IX (TOP 20) I 0.5 (0.006) T 0.5 (0.006) T 2X /2 PI IT 0.00 (0.004) TI X R 0.0 (0.004) T ÍÍÍÍ ÍÍÍÍ TIO TI 0.25 (0.00) TI W. IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. IIO O OT I O, PROTRIO OR T RR. O OR T RR OT X 0.5 (0.006) PR I. 4. IIO O OT I ITR OR PROTRIO. ITR OR PROTRIO OT X 0.25 (0.00) PR I. 5. IIO O OT I R PROTRIO. OW R PROTRIO 0.08 (0.003) TOT I X O T IIO T XI TRI OITIO. 6. TRI R R OW OR RR OY. 7. IIO R TO TRI T T W. IITR I T IX (TOP 6, TOP 6) I O 0.5 (0.006) T 0.5 (0.006) T PI IT. 2X /2 6X R 0.0 (0.004) T ÇÇÇ ÇÇÇ ÉÉÉ TIO 0.25 (0.00) TI. IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. IIO O OT I O. PROTRIO OR T RR. O OR T RR OT X 0.5 (0.006) PR I. 4. IIO O OT I ITR OR PROTRIO. ITR OR PROTRIO OT X 0.25 (0.00) PR I. 5. IIO O OT I R PROTRIO. OW R PROTRIO 0.08 (0.003) TOT I X O T IIO T XI TRI OITIO. 6. TRI R R OW OR RR OY. 7. IIO R TO TRI T T W. IITR I (0.004) TI W TI OTORO O I I T 3 27

40 T IX (TOP 4) I O (0.006) T 0.5 (0.006) T 0.0 (0.004) TI 2X /2 PI IT. 4 4X R 0.0 (0.004) T (0.00) 7 TI ÇÇÇ ÉÉ TIO TI W IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3 IIO O OT I O, PROTRIO OR T RR. O OR T RR OT X 0.5 (0.006) PR I. 4 IIO O OT I ITR OR PROTRIO. ITR OR PROTRIO OT X 0.25 (0.00) PR I. 5 IIO O OT I R PROTRIO. OW R PROTRIO 0.08 (0.003) TOT I X O T IIO T XI TRI OITIO. 6 TRI R R OW OR RR OY. 7 IIO R TO TRI T T W. IITR I OTORO O I I T

41 T IX I O (0.006) T 24X R 0.0 (0.004) T 0.5 (0.006) T 2X /2 PI IT IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. IIO O OT I O, PROTRIO OR T RR. O OR T RR OT X 0.5 (0.006) PR I. 4. IIO O OT I ITR OR PROTRIO. ITR OR PROTRIO OT X 0.25 (0.00) PR I. 5. IIO O OT I R PROTRIO. OW R PROTRIO 0.08 (0.003) TOT I X O T IIO T XI TRI OITIO. 6. TRI R R OW OR RR OY. 7. IIO R TO TRI T T W. 0.0 (0.004) TI W IITR I TI ÇÇÇ ÉÉÉ TIO TI 0.25 (0.00) OTORO O I I T 3 29

42 T IX (TOP 8) I O (0.006) T 0.5 (0.006) T 0.0 (0.004) TI PI IT. 2X / x R 0.0 (0.004) T TI TI 0.25 (0.00) ÇÇÇ ÉÉ TIO W IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3 IIO O OT I O. PROTRIO OR T RR. O OR T RR OT X 0.5 (0.006) PR I. 4 IIO O OT I ITR OR PROTRIO. ITR OR PROTRIO OT X 0.25 (0.00) PR I. 5 IIO O OT I R PROTRIO. OW R PROTRIO 0.08 (0.003) TOT I X O T IIO T XI TRI OITIO. 6 TRI R R OW OR RR OY. 7 IIO R TO TRI T T W. IITR I IX (I 20) I O e 20 0 Z b 0.3 (0.005) (0.004) IW P TI P Q c IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3 IIO O OT I O OR PROTRIO R R T T PRTI I. O OR PROTRIO OT X 0.5 (0.006) PR I. 4 TRI R R OW OR RR OY. 5 T WIT IIO (b) O OT I R PROTRIO. OW R PROTRIO 0.08 (0.003) TOT I X O T WIT IIO T XI TRI OITIO. R OT OT O T OWR RI OR T OOT. II P TW PROTRIO T TO 0.46 ( 0.08). IITR I b c e Q Z OTORO O I I T

43 T IX (TQP 20) I O X (0.008) T Z 20 6 TI Y 5. IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. T I OT T OTTO O I OIIT WIT T WR T XIT T PTI OY T T OTTO O T PRTI I. 4. T,, Z TO TRI T T. 5. IIO TO TRI T T. 6. IIO O OT I O PROTRIO. OW PROTRIO I (0.00) PR I. IIO O I O IT R TRI T T. 7. IIO O OT I R PROTRIO. R PROTRIO OT T IIO TO X (0.04). 8. II OR PT TI (0.0003). 9. XT P O ORR I OPTIO. 5 4X (0.008) T Z 0 Z TI IITR I R 2 R P Q 5 5 R W R R X.000 R R TOP & OTTO (0.003) ÉÉÉÉ ÇÇÇÇ ÉÉÉÉ ÇÇÇÇ (0.003) T Z TIO R,, Z W TI X Q (0.00) TI Y OTORO O I I T 3 3

44 T IX I O X (0.008) T Z 24 9 TI Y. IIOI TORI PR I Y4.5, OTROI IIO: IITR. 3. T I OT T OTTO O I OIIT WIT T WR T XIT T PTI OY T T OTTO O T PRTI I. 4. T,, Z TO TRI T T. 5. IIO TO TRI T T. 6. IIO O OT I O PROTRIO. OW PROTRIO I (0.00) PR I. IIO O I O IT R TRI T T. 7. IIO O OT I R PROTRIO. R PROTRIO OT T IIO TO X (0.04). 8. II OR PT TI (0.0003). 9. XT P O ORR I OPTIO. 6 4X (0.008) T Z 2 Z 8 3 IITR I R 2 R P Q 5 5 R W R R X.000 R R TI,, Z TOP & OTTO (0.003) R ÉÉÉÉ ÇÇÇÇ ÉÉÉÉ ÇÇÇÇ P TI Y W TI X Q (0.00) (0.003) T Z TIO 3 32 OTORO O I I T

45 IX 22 0 (OT 23) I O IIO R I IITR. 2. ITRPRT IIO TOR PR Y4.5, T I TI e e 5X 0.0 IITR I I X e 0.95 e IX 23 0 (OT 89) I O 2. IIO R I IITR. 2. ITRPRT IIO TORI PR Y4.5, T I TI. e e 0.0 2X 0.0 IITR I I X e.50 e OTORO O I I T 3 33

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