1993_Motorola_Linear_Interface_ICs_Vol_2.pdf

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MC10321 ELECTRICAL CHARACTERISTICS (T A = + 25°C, VCC = 5.0 V, VEE = - 5.2 V, VRT = + 1.0 V, VRB = - 1.0 V, except where noted) Characteristic TRANSFER CHARACTERISTICS (!CKL = 25 MHz) Resolution N - - Monotonicity MON Guaranteed Integral Nonlinearity INL - Differential Nonlinearity DNL - Differential Phase (See Figure 11) DP - Differential Gain (See Figure 11) DG - Power Supply Rejection Ratio PSRR (4.5 V < VCC < 5.5 V, VEE = - 5.2 V) - (-6.0 V < VEE < -3.0 V, VCC = +5.0 V) - ANALOG INPUT (Pin 6) Input Current @ Vin = VRB - 0.1 V (See Figure 4) IINL - @ Vin = VRT + 0.1 V (See Figure 4) IINH - Input Capacitance (1.0 V < (VRT - VRB) < 2.0 V) Cin - Bipolar Offset Error VOS - REFERENCE Ladder Resistance (VRT to VRB, T A = 25°C) Rre! 100 Temperature Coefficient TC - Ladder Capacitance (Pin 1 Open) Cre! - ENABLE INPUTS (VCC = 55 V) Input Voltage - High VIHE 2.0 -Low VILE - Input Current @ 2.4 Volts (See Figure 5) IIHE - @ 0.4 Volts (See Figure 5) IILE -200 Input Clamp Voltage (11K = -18 rnA) VIKE -1.5 CLOCK INPUT (VCC = 55 V) Input Voltage - High VIHC 2.0 -Low VILC - Input Current @ 0.4 V (See Figure 6) IILC -150 @ 2.7 V (See Figure 6) IIHC -80 Input Clamp Voltage (11K = -18 rnA) VIKC -1.5 DIGITAL OUTPUTS High Output Voltage (lOH = -400 p.A @ 06-00, OR, VOH 2.4 VCC = 4.5 V, See Figure 7) Low Output Voltage (lOL = 4.0 rnA @ 06-00, OR, VOL - VCC = 4.5 V, See Figure 8) Output Short Circuit Current' (06-00, OR, VCC = 5.5 V) ISC - Output Leakage Current (0.4 < Vo < 2.4 V, ILK -10 See Figure 3, VCC = 5.5 V, 00-06 in 3-State Mode) Output Capacitance (00-06 in 3-State Mode) Cout - *Only one output to be shorted at a time, not to exceed 1 second. POWER SUPPLIES VCC(A) Current (4.5 V < VCC(A) < 5.5 V, Outputs Unloaded) ICC(A) 10 VCC(D) Current (4.5 V < VCC(D) < 5.5 V, Outputs Unloaded) ICC(D) 40 VEE Current (-6.0 V < VEE < -3.0 V) lEE -16 Power Dissipation (VRT - VRB = 2.0 V, Outputs Unloaded) Po - MOTOROLA LINEAR/INTERFACE ICs DEVICE DATA 6-47 ±1/4 - 2.0 2.0 0.02 0 +1.0 +60 22 0.1 140 +0.29 5.0 - - +0.2 -120 -1.3 - - -80 -40 -1.3 3.0 0.3 -35 - 5.0 13 60 -13 459 7.0 ±1.0 ±1.0 - - - +5.0 +150 - - 175 - - - 0.8 2.0 - - - 0.8 - - - - 0.4 - +10 - 16 80 -8.0 668 Bits Bits LSB Deg. % LSBN p.A pF LSB n %fC pF V p.A V Vdc p.A Vdc V V rnA p.A pF rnA mW
MC10321 TIMING CHARACTERISTICS (TA = 25'C, VCC = + 5.0 V, VEE = - 5.2 V, VRT = + 1.0 V, VRB = -1.0 V, See System Timing Diagram) INPUTS Min Clock Pulse Width - High -Low Max Clock Rise, Fall Time Clock Frequency OUTPUTS Parameter New Data Valid from Clock Low Aperture Delay Hold Time Data High to 3-State from Enable Low" Data Low to 3-State from Enable Low" Data High to 3-State from ENABLE High" Data Low to 3-State from ENABLE High" Valid Data from Enable High (Pin 14 = 0 V)" Valid Data from ENABLE Low (Pin 13 = 5.0 V)" Output Transition Time (10%-90%)" ·See Figure 2 for output loading. TEMPERATURE CHARACTERISTICS Parameter ICC (+5.0 V Supply Current) lEE (-5.2 V Supply Current) Ladder Resistance VOL (Output Low Voltage @ 4.0 mAl VOH (Output High Voltage @ -400,.A) Differential Nonlinearity Integral Nonlinearity PIN DESCRIPTIONS Symbol Pin Description GND 11,17 Power supply ground. The two pins should be connected directly together, and through a low impedance path to the power supply. OR 12 Overrange output. Indicates Yin is more positive than VRT-1/2 LSB. This output does not have 3-state capability, and therefore is always active. D6-DO 1-4, Digital Outputs. 06 (Pin 4) is the MSB, DO 16-20 (Pin 18) is the LSB. LSTTL compatible with 3-state capability. VCC(D) 10,16 Power supply for the digital section. +5.0 V, ± 10% required. VEE 8 Negative Power supply. Nominally - 5.2 V, it can range from - 3.0 to - 6.0 V, and must be more negative than VRB by >1.3 V. Yin 6 Signal voltage input. This voltage is compared to the reference to generate a digital equivalent. Input impedance is nominally 16-33 kfl (See Figure 4) in parallel with 22 pF. Symbol Min Typ Max Units tCKH - 5.0 - ns tcKL - 15 - tR F - 100 - ns fCLK 0 30 25 MHz tCKDV - 22 - ns tAD - 3.0 - ns tH - 6.0 - ns tEHZ - 22 - ns tELZ - 17 - ns tE'HZ - 27 - ns tE'LZ - 19 - ns tEDV - 13 - ns tE'DV - 20 - ns ttr - 6.0 - ns Typical Value Typical Change @25"C - 40 to + 85"C 73mA -100 !LAI"C -13mA + 7.0 !LAI"C 1400 +0.29%1'C 0.3 V +8.0/LVrC 3.0 V 2.1 mVrC - - 0.0008 LSBrC 0.25 LSB -0.001 LSBrC PIN DESCRIPTIONS Symbol Pin Description MOTOROLA LINEAR/INTERFACE ICs DEVICE DATA 6-48 VCC(A) 9 Power supply for the analog section. + 5.0 V, ± 10% required. CLK 15 Clock input, TTL compatible, and can range from dc to 25 MHz. Conversion occurs on the negative edge of the clock. EN 13 Enable input. TTL compatible, a Logic "1" (and Pin 14 a Logic "0") enables the data outputs. A Logic "0" sets the outputs (except Overrange) to a 3-state mode. Eli! 14 EIiIAm input. TTL compatible, a Logic "0" (and Pin 13 a Logic "1") enables the data outputs. A Logic "1" sets the outputs (except Overrange) to a 3-state mode. VRB 5 The bottom (most negative point) of the internal reference resistor ladder. The ladder resistance is typically 140 0 to VRT. VRT 7 The top (most positive point) of the internal reference resistor ladder. Pin assignments are the 88me for the standard DIP package and the surface mount package.
Page 2 and 3:
Volumes II I Index and Cross Refere
Page 4 and 5:
M01'OROLA LINEAR/INTERFACE ICs DEVI
Page 6:
Index and Cross Reference In Brief
Page 23 and 24:
MOTOROLA LlNEARIiNTERFACE ICs DEVIC
Page 25 and 26:
Precision Low Voltage References A
Page 27:
MOTOROLA - SEMICONDUCTOR ----- TE
Page 35 and 36:
Page 47 and 48: Vin = 10VIo2OV + 22oo"F TL431 , A,
Page 49 and 50: Data Conversion The line of data co
Page 51 and 52: Data Conversion Package Overview MO
Page 54: MAXIMUM RATINGS (TA = 25'C unless o
Page 62 and 63: MOTOROLA - SEMICONDUCTOR ----__ TEC
Page 66 and 67: The MC1408 consists of a reference
Page 70: Voltage outputs of a larger magnitu
Page 75 and 76: ABSOLUTE MAXIMUM RATINGS MC10319 Pa
Page 77: MC10319 TIMING CHARACTERISTICS (TA
Page 82 and 83: ICC(A) is nominally 17 mA, and does
Page 84 and 85: VIDEO APPUCATIONS The MC10319 is su
Page 91 and 92: APERTURE DELAY - The time differenc
Page 99 and 100: applied to the reference must be su
Page 101 and 102: VIDEO APPLICATIONS The MC10321 is s
Page 107: Vin 0-25 MHz Clock +2.0 V 500 n (Op
Page 111: Symbol Pin 00-07 1-4, 21-24 DGnd 5
Page 124: Glitch Area - The energy content of
Page 127 and 128: MAXIMUM RATINGS MC10324 Characteris
Page 136: Digitally Modulating an Analog Sign
Page 140: Interface Circuits In Brief ... Des
Page 149:
Interface Circuits Device AM26LS30
Page 158:
Operating Temperature Range The max
Page 161:
Page 165:
AM26LS32 MAXIMUM RATINGS Rating Sym
Page 172 and 173:
MOTOROLA SEMICONDUCTOR----- TECHN
Page 180 and 181:
MOTOROLA - SEMICONDUCTOR ----__ TEC
Page 194:
Page 200:
Page 209:
MC3437 ELECTRICAL CHARACTERISTICS (
Page 215:
------..., I 2 MC3447s i I I OAV 01
Page 233:
Page 239 and 240:
MAXIMUM RATINGS (TA = 25°C) MC3469
Page 242:
MC3469 AC SWITCHING CHARACTERISTICS
Page 249:
MAXIMUM RATINGS (TA=25°C) MC3470,
Page 262 and 263:
Page 266:
MC3471 AC SWITCHING CHARACTERISTICS
Page 278 and 279:
MOTOROLA - SEMICONDUCTOR - ____ _ T
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
Page 329 and 330:
used) and at what current levels th
Page 331:
MC75172B, MC75174B Comparing System
Page 342 and 343:
ULN2801, ULN2802, ULN2803, ULN2804
Page 346:
Communication Circuits In Brief ...
Page 352 and 353:
Subscriber Loop Interface Circuits
Page 354:
PCM Mono-Circuits Codec-Filters MC1
Page 357:
ISDN Voice/Data Circuits Integrated
Page 360:
Voice/Data Communication (Digital T
Page 368 and 369:
Telephone Accessory Circuits (conti
Page 372:
Summary of Bipolar Telecom Circuits
Page 375 and 376:
RF Communications Device MC1496, MC
Page 388:
MAXIMUM RATINGS MC2830 Rating Symbo
Page 395:
MAXIMUM RATINGS MC2833 Ratings Symb
Page 398:
MC2833 FIGURE 9 - 144 MHzlX12 MULTI
Page 403:
CIRCUIT DESCRIPTION The MC3335 is a
Page 412:
CIRCUIT DESCRIPTION The MC3357 is a
Page 421:
MAXIMUM RATINGS (TA = 25°C unless
Page 426:
VCC = 4.0 V 1st IF 10.7 MHz from In
Page 434:
Page 450 and 451:
Data Buffer Design The data buffer
Page 454:
VCC = 4.0 Vdc Cl o.ot MC3371, MC337
Page 469:
MAXIMUM RATINGS MC13055 Rating Symb
Page 474:
The MC13055 is an extended frequenc
Page 477:
MAXIMUM RATINGS MC13135, MC13136 Ra
Page 494 and 495:
S-Parameters (VEE =-5.0 Vdc, TA = 2
Page 496:
MC13155 S-Parameters (VEE = - 3.0 V
Page 503 and 504:
MOTOROLA SEMICONDUCTOR ____ _ TECHN
Page 508:
Pin Symbol 9 Xtalb 10 Reg. Gnd 11 E
Page 520 and 521:
MC13175, MC13176 Figure 26. Circuit
Page 522 and 523:
MOTOROLA SEMICONDUCTOR---- TECHNI
Page 524 and 525:
Addendum An Introduction to Motorol
Page 526 and 527:
COMMUNICATIONS SYSTEMS For the most
Page 528 and 529:
In addition, there are many PC and
Page 530 and 531:
Consumer Electronic Circuits In Bri
Page 532 and 533:
Video Circuits Video Circuits Encod
Page 535:
Video Circuits (continued) Bringing
Page 540 and 541:
Video Circuits (continued) TV Stere
Page 542:
Video Circuits (continued) Subcarri
Page 545 and 546:
Video Circuits (continued) Multista
Page 548 and 549:
Video Circuits (continued) PLL Tuni
Page 550:
Video Circuits (continued) Advanced
Page 556 and 557:
Page 558:
CA3146 ELECTRICAL CHARACTERICISTICS
Page 570:
MAXIMUM RATINGS (TA = +25°C, unles
Page 581:
AM Section The AM modulator transfe
Page 588:
MC1377 ELECTRICAL CHARACTERICISTICS
Page 603:
Page 609:
MC1388 ELECTRICAL CHARACTERISTICS (
Page 622:
+2.0 V + Sine V Pin 28 -2.0 V +2.0V
Page 629:
Page 635:
Page 653:
In the PLL filter circuit on Pin 19
Page 660:
MAXIMUM RATINGS MC13024 Rating Symb
Page 671:
MAXIMUM RAnNGS MC13077 Rating Symbo
Page 692 and 693:
Figure 1 shows a simplified block d
Page 694:
12C Bus It is not within the scope
Page 697:
In addition, components are added t
Page 700:
up/down counter and decoder.The cou
Page 704:
B-Y and R-Y Inputs (Pin 26, 27) - C
Page 707 and 708:
MC44001 Table 2. Control Bit Truth
Page 709 and 710:
When the Address Read/Write bit is
Page 714 and 715:
MAXIMUM RATINGS MC44011 Parameter S
Page 716:
MC44011 ELECTRICAL CHARACTERISTICS
Page 734:
Introduction The MC44011, a member
Page 741 and 742:
The Field ID output (Pin 7) indicat
Page 743:
Control Bit Name $77-7 S·VHS·V $7
Page 747:
PinNa. Name 1, Video 1, 3 Video 2 2
Page 755:
Enable Horizontal lime base Set $86
Page 761:
+5.0 Voltage Reference 2.6V Subcarr
Page 770:
IF Amplifier and AGe The IF amplifi
Page 774 and 775:
clamp is released, the veo offset i
Page 776:
24 Pin 28 Pin (DIP) (SOIC) 1,21, 1,
Page 782 and 783:
HI 0 Figure 15. Component Placement
Page 784 and 785:
Page 787:
Page 795 and 796:
Optional Waveform Disable Pin 2 on
Page 801:
+HV Pin 19 -HV Pin 20 +Hv2 Pin 28 -
Page 809 and 810:
DATA FORMAT AND BUS RECEIVER The ci
Page 812:
Pin (Max 2.8m V pp) 50Hz VTuning MC
Page 816:
T3 a 1 MC44807/17 DEFINITION OF THE
Page 823 and 824:
The control and band information bi
Page 825 and 826:
D/A Converters - The D/A converters
Page 827:
MAXIMUM RATINGS TDA3190 Rating Symb
Page 830:
MAXIMUM RATINGS (TA = + 25°C, unle
Page 836 and 837:
ACC and Identification Detectors Du
Page 841:
TDA33018 Figure 18. Typical Video O
Page 844:
Automotive Electronic Circuits In B
Page 848 and 849:
High Side TMOS Driver MC33091 P, 0
Page 850 and 851:
Voltage Regulators Device LM2931 Se
Page 852:
MC3325 ELECTRICAL CHARACTERICISTICS
Page 859:
Page 868:
Page 878:
800 V o o ,.. 40V- Ignition 12V- In
Page 895 and 896:
10. Calculate the shorted load aver
Page 897 and 898:
Page 902 and 903:
MC33092 PIN FUNCTION DESCRIPTION Pi
Page 904 and 905:
The digital ON-time is determined b
Page 912 and 913:
Darlington Drive The Darlington Dri
Page 915:
Test and Reliability Both visual in
Page 923:
MC33298 MAXIMUM RATINGS (All voltag
Page 935:
The status of SFPD will determine w
Page 940:
SPI TRANSFER LOOP MC33298 ;Set the
Page 948:
MAXIMUM RATINGS UAA1041 Rating Pin
Page 951 and 952:
Timing Circuits These highly stable
Page 953:
Timing Circuits Device MC1455 MC345
Page 971:
III A simpler approach, since it do
Page 997 and 998:
l1li MOTOROLA LINEAR/INTERFACE ICs
Page 1000 and 1001:
Bipolar (continued) Device .... MC1
Page 1003 and 1004:
MOS Digital-Analog I Device I Funct
Page 1005 and 1006:
Surface Mount Technology Package Ov
Page 1007:
Tape and Reel Logic and Analog Tech
Page 1010:
Packaging Information In Brief ...
Page 1029:
Quality improvement for a task or a
Page 1034:
(Figure 8, Curve C). The reduction
Page 1037 and 1038:
MOTOROLA LINEAR/INTERFACE ICs DEVIC
Page 1039 and 1040:
Applications and Product Literature
Page 1041 and 1042:
Page 1043 and 1044:
Page 1045:
MOTOROLA LINEAR/INTERFACE ICs DEVIC
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