Amplifier and Data Converter Selection Guide (Rev. B

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110➔Design and Evaluation ToolsData Converter Plug-In (DCP) for Code Composer Studio IDEDevice Description C28x C54x C55x C6000 C64xDigital-to-Analog Converters (Continued):TLV320DAC23 24-bit, stereo, 96kHz, audio DACTLV560410-bit, 4-channel, 3µs, 2.7-5.5VTLV5606 10-bit, 1-channel, 3µs, 2.7-5.5V ✔ ✔ 2TLV560810-bit, 8-channel, 1µs, 2.7-5.5VTLV561012-bit, 8-channel, 1µs, 2.7-5.5VTLV561412-bit, 4-channel, 3µs, 2.7-5.5VTLV5616 12-bit, 1-channel, 3µs, 2.7-5.5V ✔ ✔ 2TLV5617A 10-bit, 2-channel, 2.5µs, 2.7-5.5V ✔ ✔ 2TLV5618A 12-bit, 2-channel, 2.5µs, 2.7-5.5V ✔ ✔ 2TLV5623 8-bit, 1-channel, 3µs, 2.7-5.5V ✔ ✔ 2TLV5624 8-bit, 1-channel, 1µs, 2.7-5.5V, internal reference ✔ ✔ 2TLV5625 8-bit, 2-channel, 2.5µs, 2.7-5.5V ✔ ✔ 2TLV5626 8-bit, 2-channel, 1µs, 2.7-5.5 V, internal reference ✔ ✔ 2TLV56298-bit, 8-channel, 1µs, 2.7-5.5VTLV563012-bit, 8-channel, 1µs, 2.7-5.5V, internal referenceTLV563110-bit, 8-channel, 1µs, 2.7-5.5V, internal referenceTLV56328-bit, 8-channel, 1µs, 2.7-5.5VTLV5636 12-bit, 1-channel, 1µs, 2.7-5.5V, internal reference ✔ ✔ 2TLV5637 10-bit, 2-channel, 1µs, 2.7-5.5V, internal reference ✔ ✔ 2TLV5638 12-bit, 2-channel, 1µs, 2.7-5.5V, internal reference ✔ ✔ 2CodecsAIC111 16-bit, 1-channel, 40kSPS, 1.3V, micro-power ✔PCM3002 20-bit, stereo, 48kHz ✔ ✔TLC320AD50 16-bit, 1-channel, 22kHz , audio codecTLV320AIC10 16-bit, 1-channel, 22kSPS, voiceband codec ✔TLV320AIC12/12k 16-bit, 1-channel, 26/104kSPS, voiceband codec ✔ ✔ ✔ ✔TLV320AIC13 16-bit, 1-channel, 26/104kSPS, voiceband codec, 1.1V I/O ✔ ✔ ✔ ✔TLV320AIC14/14k 16-bit, 1-channel, 26/104kSPS, voiceband codec ✔ ✔ ✔ ✔TLV320AIC15 16-bit, 1-channel, 26/104kSPS, voiceband codec, 1.1V I/O ✔ ✔ ✔ ✔TLV320AIC20/20k 16-bit, 2-channel, 26/104kSPS, voiceband codec, 3.3V I/O ✔ ✔ ✔ ✔TLV320AIC21 16-bit, 1-channel, 26/104kSPS, voiceband codec, 1.1V I/O ✔ ✔ ✔ ✔TLV320AIC22C 16-bit, 2-channel, 16kHz, dual VOIP codec ✔ ✔ ✔TLV320AIC23B 24-bit, stereo, 96kHz, stereo audio codec ✔ 1 ✔ 1 ✔ 1 ✔ 1TLV320AIC24/24k 16-bit, 1-channel, 26/104kSPS, voiceband codec, 3.3V I/O ✔ ✔ ✔ ✔TLV320AIC25 16-bit, 1-channel, 26/104kSPS, voiceband codec, 1.1V I/O ✔ ✔ ✔ ✔Application SpecificAFE1230 16-bit, 1-channel, 2.5Mbps, G.SHDSL analog front end ✔AFEDRI8201 12-bit, 1-channel, 80MHz, ADC front end for AM/FM and HD radios ✔AMC7820 12-bit, 8-channel, 100kSPS, analog monitoring and control circuitry ✔ ✔AMC7823 12-bit, 8-channel, 200kSPS, analog monitoring and control circuitry ✔1 With (E)DMA support 2 These DACs share the same driver, so an additional alignment might be necessary.RemarksC28x:C54x:A check-mark in this column indicates that the data converter support tool generates a full driver for the TMS320C2800 family, which not only configures the data converter, but alsothe peripheral the device is connected to (e.g. the serial port or the memory interface). If no check-mark is present, only the register settings, but no interface functions are generated.A check-mark in this column indicates that the data converter support tool generates a full driver for the TMS320C5400 family, which not only configures the data converter, but also theperipheral the device is connected to (e.g. the serial port or the memory interface). If no check-mark is present, only the register settings, but no interface functions are generated.C55x: A check-mark in this column indicates that the data converter support tool generates a full driver for the TMS320C5500 family, which not only configures the data converter, but also theperipheral the device is connected to (e.g. the serial port or the memory interface). If no check-mark is present, only the register settings, but no interface functions are generated.C6000: A check-mark in this column indicates that the data converter support tool generates a full driver for the TMS320C6200/C6700 family, which not only configures the data converter, but alsothe peripheral the device is connected to (e.g. the serial port or the memory interface). If no check-mark is present, only the register settings, but no interface functions are generated.C64x:A check-mark in this column indicates that the data converter support tool generates a full driver for the TMS320C6400 family, which not only configures the data converter, but also theperipheral the device is connected to (e.g. the serial port or the memory interface). If no check-mark is present, only the register settings, but no interface functions are generated.The online version of this table can be found at: www.ti.com/dcplug-inAmplifier and Data Converter Selection Guide Texas Instruments 3Q 2007
Design and Evaluation ToolsAmplifier and Signal Processing Application Reports111➔Title4-20mA TransmittersIC Building Blocks Form Complete Isolated 4-20mA Current-LoopSingle Supply 4-20mA Current Loop ReceiverUse Low-Impedance Bridges on 4-20mA Current LoopImplementing a 4 mA to 20 mA Current Loop on TI DSPsADC InterfacesHigh-Speed Data ConversionRLC Filter Design for ADC Interface (Rev. A)ADS8342 ADC SAR InputsInterfacing the VCA8617 with High-Speed ADCsInterfacing the VCA8613 with High-Speed ADCsMeasuring Single-Ended 0V-5V Signals with Differential Delta-Sigma ADCsWideband Complementary Current Output DAC Single-Ended InterfaceHigh-Voltage Signal Conditioning for Differential ADCsDesign Methodology for MFB Filters in ADC Interface ApplicationsConnecting ADS8410/13 With Long CableMultiplexing ADS8411Amplifiers and Bits: An Introduction to Selecting Amplifiers for Data Conv.Buffer Op Amp to ADC Circuit CollectionInterfacing op amps and analog-to-digital convertersEvaluating operational amplifiers as input amplifiers for A-to-D convertersLow-power, high-intercept interface to the ADS5424, 105-MSPS converterMatching the Noise Performance of the Operational Amplifier to the ADCAmp/Switched IntegratorImplementation and Applications of Current Sources and Current ReceiversCompensate Transimpedance Amplifiers IntuitivelyAmplifier and NoiseNoise Analysis for High-Speed Op AmpsNoise Analysis In Operational Amplifier Circuits (Rev. A)Amplifier BasicsHandbook of Operational Amplifier ApplicationsUnderstanding Operational Amplifier SpecificationsEffect of Parasitic Capacitance in Op Amp Circuits (Rev. A)Feedback Amplifier Analysis Tools (Rev. A)Stability Analysis of Voltage-Feedback Op Amps, Including CompensationTechnique (Rev. A)Understanding Basic Analog - Active Devices (Rev. A)Understanding Basic Analog Passive DevicesSelecting High-Speed Operational Amplifiers Made Easy (Rev. A)DC Parameters: Input Offset VoltageHow (Not) To Decouple High-Speed Operational AmplifiersUsing Texas Instruments SPICE models in PSPICEExpanding the Usability of Current-Feedback AmplifiersRF and IF Amplifiers with Op AmpsUsing a Decompensated Op Amp for Improved PerformanceAudio AmplifiersAudio Power Amplifier Solutions for New Wireless PhonesGuidelines for Measuring Audio Power Amplifier PerformanceCalculating Gain for Audio AmplifiersMeasuring Class-D Amplifiers for Audio Speaker Overstress TestingCurrent-Feedback AmplifiersThe Current-Feedback Op Amp: A High-Speed Building BlockCurrent Feedback Amps: Review, Stability Analysis,and ApplicationsStabilizing Current-Feedback Op Amp while optimizing circuit performanceusing PspiceA Current Feedback Op-Amp Circuit CollectionVoltage Feedback vs. Current Feedback Op AmpsTexas Instruments 3Q 2007Lit No.SBOA017SBOA023SBOA025SZZA045SBAA045SBAA108SBAA127SBAA130SBAA131SBAA133SBAA135SBOA096SBOA114SLAA284SLAA285SLOA035SLOA098SLYT104SLYT193SLYT223SLYT237SBOA046SBOA055SBOA066SLVA043SBOA092SLOA011SLOA013SLOA017SLOA020SLOA026SLOA027SLOA051SLOA059SLOA069SLOA070SLYT099SLYT102SLYT174SLOA053SLOA068SLOA105SLOA116SBOA076SBOA081SBOA095SLOA066SLVA051TitleLit No.Difference AmplifiersFully-Differential Amplifiers (Rev. D)SLOA054A Differential Operational Amplifier Circuit CollectionSLOA064Differential Op Amp Single-Supply Design TechniquesSLOA072Fully-Differential OP Amps Made EasySLOA099Active Output Impedance for ADSL Line DriversSLOA100Low-Power, High-Intercept Interface to the ADS5424, 105-MSPS Converter SLYT223Analysis of Fully Differential AmplifiersSLYT157General TutorialsDynamic Tests for ADC PerformanceSBAA002Selecting an ADCSBAA004A Glossary of Analog-to-Digital Specifications and Performance Characteristics SBAA146Understanding Data ConvertersSLAA013The Op Amp's Place in the World (Chap.1-Op Amps for Everyone)SLOA073Review of Circuit Theory (Chap. 2-Op Amps for Everyone)SLOA074Development of Ideal Op Amp Equations (Chap. 3-Op Amps for Everyone)SLOA075Single-Supply Op Amp Design Techniques (Chap. 4-Op Amps for Everyone) SLOA076Feedback and Stability Theory (Chap. 5-Op Amps for Everyone)SLOA077Development of the Non-Ideal Op Amp Equations (Chap. 6-Op Amps for Everyone) SLOA078Voltage Feedback Op Amp Compensation (Chap. 7-Op Amps for Everyone) SLOA079Current Feedback Op Amp Analysis (Chap. 8-Op Amps for Everyone)SLOA080Voltage and Current-Feedback Op Amp Comparison (Chap. 9-Op Amps for Everyone) SLOA081Op Amp Noise Theory and Applications (Chap. 10-Op Amps for Everyone)SLOA082Understanding Op Amp Parameters (Chap. 11-Op Amps for Everyone)SLOA083Instrumentation: Sensors to A/D Converters (Chap. 12-Op Amps for Everyone) SLOA084Wireless Communication Signal Conditioning for IF Sampling (Chap. 13-OAE) SLOA085Interfacing D/A Converters to Loads (Chap. 14-Op Amps for Everyone)SLOA086Sine Wave Oscillator (Chap. 15-Op Amps for Everyone)SLOA087Active Filter Design Techniques (Chap. 16-Op Amps for Everyone)SLOA088Circuit Board Layout Techniques (Chap. 17-Op Amps for Everyone)SLOA089Designing Low-Voltage Op Amp Circuits (Chap. 18-Op Amps for Everyone)SLOA090Single-Supply Circuit Collection (Appendix A)SLOA091Op Amps for Everyone Design Guide and ExcerptsSLOD006Fully Differential Amplifiers Applications: Line Termination, DrivingSLYT143High-Speed ADCs, and Differential Transmission LinesIntroduction to phase-locked loop system modelingSLYT169Instrumentation AmplifiersAC Coupling Instrumentation and Difference AmplifiersSBOA003Programmable-Gain Instrumentation AmplifiersSBOA024Precision Absolute Value CircuitsSBOA068PGA309 Quick Start System Reference GuideSBOA103Signal Conditioning Wheatstone Resistive Bridge SensorsSLOA034Getting the Most Out of Your Instrumentation Amplifier DesignSLYT226Isolation AmplifiersComposite Op Amp Gives You The Best of Both WorldsSBOA002Isolation Amps Hike Accuracy and Reliability Composite AmplifierSBOA064LayoutMeasuring Board Parasitics in High-Speed Analog DesignSBOA094NanoStar & NanoFree 300 m Solder Bump WCSP ApplicationSBVA017PowerPAD Thermally Enhanced Package Application ReportSLMA002High-Speed Operational Amplifier Layout Made EasySLOA046Power Amplifiers and BuffersCombining an Amplifier with the BUF634SBOA0651Rail-to-Rail AmplifiersUse of Rail-to-Rail Operational Amplifiers (Rev. A)SLOA039A Single Supply Op Amp Circuit CollectionSLOA058ReferencesThe Design and Performance of a Precision Voltage Reference Circuit for 14-bit and 16-bit SLYT168A-to-D and D-to-A ConvertersPrecision Voltage ReferencesSLYT183Amplifier and Data Converter Selection Guide
Page 6 and 7:
6 Amplifiers➔Texas Instruments (T
Page 8 and 9:
8Amplifiers➔Precision Operational
Page 10 and 11:
10 Amplifiers➔Precision Operation
Page 12 and 13:
12➔AmplifiersPrecision Operationa
Page 14 and 15:
14AmplifiersPrecision Operational A
Page 16 and 17:
16Amplifiers➔High-Speed Amplifier
Page 18 and 19:
18➔AmplifiersHigh-Speed Amplifier
Page 20 and 21:
20 Amplifiers➔Video AmplifiersVid
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22Amplifiers➔Video AmplifiersVide
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24➔AmplifiersComparatorsLow-Power
Page 26 and 27:
26 Amplifiers➔Difference Amplifie
Page 28 and 29:
28 Amplifiers➔Analog Current Shun
Page 30 and 31:
30 Amplifiers➔Instrumentation Amp
Page 32 and 33:
32➔AmplifiersSingle-Supply Instru
Page 34 and 35:
34 Amplifiers➔Programmable Gain A
Page 36 and 37:
36➔AmplifiersVoltage-Controlled G
Page 38 and 39:
38➔AmplifiersAudio AmplifiersPure
Page 40 and 41:
40Amplifiers➔Audio Power Amplifie
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42 Amplifiers➔Power Amplifiers an
Page 44 and 45:
44 Amplifiers➔Pulse Width Modulat
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46➔AmplifiersSensor Conditioners
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48 Amplifiers➔Integrating Amplifi
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50 Amplifiers➔Amplifiers for Driv
Page 52 and 53:
52 ADCs by Architecture➔Delta-Sig
Page 54 and 55:
54➔ADCs by ArchitectureDelta-Sigm
Page 56 and 57:
56 ADCs by Architecture➔Wide Band
Page 58 and 59:
58 ADCs by Architecture➔SAR ADCsS
Page 60 and 61: 60ADCs by Architecture➔SAR ADCs18
Page 62 and 63: 62➔ADCs by ArchitectureSuccessive
Page 64 and 65: 64 ADCs by Architecture➔Pipeline
Page 66 and 67: 66➔ADCs by ArchitecturePipeline A
Page 68 and 69: 68➔ADCs by ArchitecturePipeline A
Page 70 and 71: 70➔DACs by ArchitectureHigh-Accur
Page 72 and 73: 72DACs by Architecture➔High-Accur
Page 74 and 75: 74DACs by Architecture➔High-Accur
Page 76 and 77: 76DACs by Architecture➔Current St
Page 78 and 79: 78➔Analog Monitoring and ControlA
Page 80 and 81: 80 Analog Monitoring and Control➔
Page 82 and 83: 82Voltage References➔ Voltage Ref
Page 84 and 85: 84➔Temperature SensorsTemperature
Page 86 and 87: 86Quick Reference Selection TableAD
Page 94 and 95: 94Quick Reference Selection TableDA
Page 96 and 97: 96Quick Reference Selection TableDA
Page 98 and 99: 98Quick Reference Audio Selection T
Page 100 and 101: 100Quick Reference Audio Selection
Page 102 and 103: 102➔Design and Evaluation ToolsFi
Page 104 and 105: 104➔Design and Evaluation ToolsSi
Page 106 and 107: 106➔Design and Evaluation ToolsEv
Page 108 and 109: 108➔Design and Evaluation ToolsDa
Page 112 and 113: 112➔Design and Evaluation ToolsAm
Page 114 and 115: 114➔Design and Evaluation ToolsAp
Page 116 and 117: 116Device Index➔DevicePageDAC7643
Page 118 and 119: 118Device Index➔DevicePageTLV2544
Page 120 and 121: Texas Instruments Incorporated14950
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Amplifier and Data Converter Selection Guide (Rev. B

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