Voltage References

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MOTOROLA - SEMICONDUCTOR - ____ _ TECHNICAL DATA QUAD EIA-422/423 LINE RECEIVER Motorola's Quad EIA-422/3 Receiver features four independent receiver chains which comply with EIA Standards for the Electrical Characteristics of Balanced/Unbalanced Voltage Digital Interface Circuits. Receiver outputs are 74LS compatible, three-state structures which are forced to a high impedance state when the appropriate output control pin reaches a logic zero condition. A PNP device buffers each output control pin to assure minimum loading for either logic one or logic zero inputs. In addition, each receiver chain has internal hysteresis circuitry to improve noise margin and discourage output instability for slowly changing input waveforms. A summary of MC3486 features include: • Four Independent Receiver Chains • Three-State Outputs • High Impedance Output Control Inputs (PIA Compatible) • Internal Hysteresis - 30 mV (Typ) @ Zero Volts Common Mode • Fast Propagation Times - 25 ns (Typ) • TTL Compatible • Single 5.0 V Supply Voltage • DS 3486 Provides Second Source Differential Inputs RECEIVER CHAIN BLOCK DIAGRAM Three-State Control Input Output MC3486 QUAD EIA-422/3 LINE RECEIVER WITH THREE-STATE OUTPUTS SILICON MONOLITHIC INTEGRATED CIRCUIT D SUFFIX PLASTIC PACKAGE CASE 7518 (SO·16) Inputs A Output A 3-5t8t8 Control Ale Output e Inputl e MOTOROLA LINEAR/INTERFACE ICs DEVICE DATA 7-139 PIN CONNECTIONS LSUFFIX CERAMIC PACKAGE CASE 620 P SUFFIX PLASTIC PACKAGE CASE 648 ORDERING INFORMATION Inputs B Output B 3-8t8t8 Inputs D Device Temperature Range Package MC3486L Ceramic DIP MC3486P Oto +70'C Plastic DIP MC3486D SO-16
MC3486 MAXIMUM RATINGS Rating Symbol Value Unit Power Supply Voltaga VCC 8.0 Vdc Input Common Mode Voltage VICM ±15 Vdc Input Differential Voltaga VID ±25 Vdc Three·Stata Control Input Voltage VI 8.0 Vdc Output Sink Current 10 50 rnA Storage Temperature Tstg -65 to +150 °c Operating Junction Temperature TJ °c Ceramic Package +175 Plastic Package +150 RECOMMENDED OPERATING CONDITIONS Rating Symbol Value Unit Power Supply Voltage VCC 4.75 to 5.25 Vdc Operating Ambient Temperature TA o to +70 °c Input Common Mode Voltage Range VICR -7.0 to +7.0 Vdc Input Differential Voltage Range VIDR 6.0 Vdc ELECTRICAL CHARACTERISTICS (Unless otherwise noted minimum and maximum limits apply over recommended temperature and power supply voltage ranges. Typical values are for TA = 25°C, VCC = 5.0 V and VIK = 0 V. See Note 1 ) Characteristic Symbol Min Typ Max Unit Input Voltage - High Logic State VIH 2.0 - - V (Three·State Control) Input Voltage - Low Logic State VIL - - 0.8 V (Three·State Control) Differential Input Threshold Voltage, Note 2 VTH(D) V (-7.0 V", VIC'" 7.0 '.J, VIH = 2.0 V) (10 = -0.4 rnA, VOH '" 2.7 V) - - 0.2 (10 = 8.0 rnA, VOL'" 0.5 V) - - -0.2 Input Bias Current IIB(D) rnA (VCC = 0 V or 5.25) (Other Inputs at 0 V) (VI = -10V) - - -3.25 (VI = -3.0 V) - - -1.50 (VI = +3.0 V) - - +1.50 (VI = +10V) - - +3.25 Input Balance and Output Level V (-7.0 V '" VIC'" 7.0 V, VIH = 2.0 V, Note 3) (10 = -0.4 rnA, VID = 0.4 V) VOH 2.7 - - (10 = 8.0 rnA, VID = -0.4 V) VOL - - 0.5 Output Third State Leakage Current 10Z pA (VUD) = +3.0 V, VIL = 0.8 V, VOL = 0.5 V) - - -40 (VUD) = -3.0 V, VIL = 0.8 V, VOH = 2.7 V) - - 40 Output Short·Circuit Current lOS -15 - -100 rnA (VUD) = 3.0 V, VIH = 2.0 V, Vo = 0 V, Note 4) Input Current - Low Logic State (Three·State Control) IlL - - -100 pA (VIL = 0.5 V) Input Current - High Logic State (Three·State Control) IIH pA (VIH = 2.7 V) - - 20 (VIH = 5.25 V) - - 100 Input Clamp Diode Voltage (Three·State Control) VIK - - -1.5 V (11K = -10 rnA) Power Supply Current ICC - - 85 rnA (VIL = 2.0 V) NOlES: 1. All currents into device pins are shown as positive, out of device pins are negative. All voltages referenced to ground unless otherwise noted. 2. Differential input threshold voltage and guaranteed output levels are done simultaneously for worst case. 3. Refer to EIA-42213 for exact conditions. Input balance and guaranteed output levels are done simultaneously for worst case. 4. Only one output at a time should be shorted. MOTOROLA LINEAR/INTERFACE ICs DEVICE DATA 7-140
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Volumes II I Index and Cross Refere
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M01'OROLA LINEAR/INTERFACE ICs DEVI
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Index and Cross Reference In Brief
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MOTOROLA LlNEARIiNTERFACE ICs DEVIC
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Precision Low Voltage References A
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MOTOROLA - SEMICONDUCTOR ----- TE
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Vin = 10VIo2OV + 22oo"F TL431 , A,
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Data Conversion The line of data co
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Data Conversion Package Overview MO
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MAXIMUM RATINGS (TA = 25'C unless o
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MOTOROLA - SEMICONDUCTOR ----__ TEC
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The MC1408 consists of a reference
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Voltage outputs of a larger magnitu
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ABSOLUTE MAXIMUM RATINGS MC10319 Pa
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MC10319 TIMING CHARACTERISTICS (TA
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ICC(A) is nominally 17 mA, and does
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VIDEO APPUCATIONS The MC10319 is su
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APERTURE DELAY - The time differenc
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MC10321 ELECTRICAL CHARACTERISTICS
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applied to the reference must be su
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VIDEO APPLICATIONS The MC10321 is s
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Vin 0-25 MHz Clock +2.0 V 500 n (Op
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Symbol Pin 00-07 1-4, 21-24 DGnd 5
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Glitch Area - The energy content of
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MAXIMUM RATINGS MC10324 Characteris
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Digitally Modulating an Analog Sign
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Interface Circuits In Brief ... Des
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Interface Circuits Device AM26LS30
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Operating Temperature Range The max
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AM26LS32 MAXIMUM RATINGS Rating Sym
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MOTOROLA SEMICONDUCTOR----- TECHN
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MOTOROLA - SEMICONDUCTOR ----__ TEC
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MC3437 ELECTRICAL CHARACTERISTICS (
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------..., I 2 MC3447s i I I OAV 01
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Page 239 and 240: MAXIMUM RATINGS (TA = 25°C) MC3469
Page 242: MC3469 AC SWITCHING CHARACTERISTICS
Page 249: MAXIMUM RATINGS (TA=25°C) MC3470,
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Page 266: MC3471 AC SWITCHING CHARACTERISTICS
Page 282: MAXIMUM RATINGS MC3487 Roting Symbo
Page 291: OPERATING DYNAMIC POWER SUPPLY CURR
Page 301 and 302: MAXIMUM RATINGS MC34050, MC34051 Pa
Page 306: MC34050, MC34051 FIGURE 16 - EIA·4
Page 318: MC75S110 ELECTRICAL CHARACTERISTICS
Page 323 and 324: MC751728, MC751748 ELECTRICAL CHARA
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used) and at what current levels th
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MC75172B, MC75174B Comparing System
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ULN2801, ULN2802, ULN2803, ULN2804
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Communication Circuits In Brief ...
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Subscriber Loop Interface Circuits
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PCM Mono-Circuits Codec-Filters MC1
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ISDN Voice/Data Circuits Integrated
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Voice/Data Communication (Digital T
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Telephone Accessory Circuits (conti
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Summary of Bipolar Telecom Circuits
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RF Communications Device MC1496, MC
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MAXIMUM RATINGS MC2830 Rating Symbo
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MAXIMUM RATINGS MC2833 Ratings Symb
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MC2833 FIGURE 9 - 144 MHzlX12 MULTI
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CIRCUIT DESCRIPTION The MC3335 is a
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CIRCUIT DESCRIPTION The MC3357 is a
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MAXIMUM RATINGS (TA = 25°C unless
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VCC = 4.0 V 1st IF 10.7 MHz from In
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Data Buffer Design The data buffer
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VCC = 4.0 Vdc Cl o.ot MC3371, MC337
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MAXIMUM RATINGS MC13055 Rating Symb
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The MC13055 is an extended frequenc
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MAXIMUM RATINGS MC13135, MC13136 Ra
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S-Parameters (VEE =-5.0 Vdc, TA = 2
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MC13155 S-Parameters (VEE = - 3.0 V
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MOTOROLA SEMICONDUCTOR ____ _ TECHN
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Pin Symbol 9 Xtalb 10 Reg. Gnd 11 E
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MC13175, MC13176 Figure 26. Circuit
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MOTOROLA SEMICONDUCTOR---- TECHNI
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Addendum An Introduction to Motorol
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COMMUNICATIONS SYSTEMS For the most
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In addition, there are many PC and
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Consumer Electronic Circuits In Bri
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Video Circuits Video Circuits Encod
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Video Circuits (continued) Bringing
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Video Circuits (continued) TV Stere
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Video Circuits (continued) Subcarri
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Video Circuits (continued) Multista
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Video Circuits (continued) PLL Tuni
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Video Circuits (continued) Advanced
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CA3146 ELECTRICAL CHARACTERICISTICS
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MAXIMUM RATINGS (TA = +25°C, unles
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AM Section The AM modulator transfe
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MC1377 ELECTRICAL CHARACTERICISTICS
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MC1388 ELECTRICAL CHARACTERISTICS (
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+2.0 V + Sine V Pin 28 -2.0 V +2.0V
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In the PLL filter circuit on Pin 19
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MAXIMUM RATINGS MC13024 Rating Symb
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MAXIMUM RAnNGS MC13077 Rating Symbo
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Figure 1 shows a simplified block d
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12C Bus It is not within the scope
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In addition, components are added t
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up/down counter and decoder.The cou
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B-Y and R-Y Inputs (Pin 26, 27) - C
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MC44001 Table 2. Control Bit Truth
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When the Address Read/Write bit is
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MAXIMUM RATINGS MC44011 Parameter S
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MC44011 ELECTRICAL CHARACTERISTICS
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Introduction The MC44011, a member
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The Field ID output (Pin 7) indicat
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Control Bit Name $77-7 S·VHS·V $7
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PinNa. Name 1, Video 1, 3 Video 2 2
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Enable Horizontal lime base Set $86
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+5.0 Voltage Reference 2.6V Subcarr
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IF Amplifier and AGe The IF amplifi
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clamp is released, the veo offset i
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24 Pin 28 Pin (DIP) (SOIC) 1,21, 1,
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HI 0 Figure 15. Component Placement
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Optional Waveform Disable Pin 2 on
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+HV Pin 19 -HV Pin 20 +Hv2 Pin 28 -
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DATA FORMAT AND BUS RECEIVER The ci
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Pin (Max 2.8m V pp) 50Hz VTuning MC
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T3 a 1 MC44807/17 DEFINITION OF THE
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The control and band information bi
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D/A Converters - The D/A converters
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MAXIMUM RATINGS TDA3190 Rating Symb
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MAXIMUM RATINGS (TA = + 25°C, unle
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ACC and Identification Detectors Du
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TDA33018 Figure 18. Typical Video O
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Automotive Electronic Circuits In B
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High Side TMOS Driver MC33091 P, 0
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Voltage Regulators Device LM2931 Se
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MC3325 ELECTRICAL CHARACTERICISTICS
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800 V o o ,.. 40V- Ignition 12V- In
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10. Calculate the shorted load aver
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MC33092 PIN FUNCTION DESCRIPTION Pi
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The digital ON-time is determined b
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Darlington Drive The Darlington Dri
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Test and Reliability Both visual in
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MC33298 MAXIMUM RATINGS (All voltag
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The status of SFPD will determine w
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SPI TRANSFER LOOP MC33298 ;Set the
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MAXIMUM RATINGS UAA1041 Rating Pin
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Timing Circuits These highly stable
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Timing Circuits Device MC1455 MC345
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III A simpler approach, since it do
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l1li MOTOROLA LINEAR/INTERFACE ICs
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Bipolar (continued) Device .... MC1
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MOS Digital-Analog I Device I Funct
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Surface Mount Technology Package Ov
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Tape and Reel Logic and Analog Tech
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Packaging Information In Brief ...
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Quality improvement for a task or a
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(Figure 8, Curve C). The reduction
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MOTOROLA LINEAR/INTERFACE ICs DEVIC
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Applications and Product Literature
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MOTOROLA LINEAR/INTERFACE ICs DEVIC
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