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µC Reprograms Audio DAC Via Serial Interface - 01/07/99 EDN-Design Ideas: [Note: File contains multiple circuits scroll to find this circuit]  You can use a simple µC to continuously program an audio DAC so that it operates in a 20-bit resolution mode ( Figure 1 ). After power-on,  PCM1710 delta-sigma DAC (Burr-Brown Corp, www.burr-brown.com)operates in its default 16-bit resolution.....(design idea)

12-Bit Analog I/O Port uses AD7549 Dual 12-Bit DAC & 8051 Microcomputer - AN-325 Analog Devices Application Notes  (app note)

12-Bit Voltage-Output DACs for Single-Supply 5V & 12V Systems - AN-225 Analog Devices Application Notes  (app note)

13 Volt DC to 120 Volt AC Inverter (Aaron Cake) - Have you ever wanted to run a TV, stereo or other appliance while on the road or camping? Well, this inverter should solve that problem. It takes 12 VDC and steps it up to 120 VAC. The wattage depends on which tansistors you use for Q1 and Q2, as well as how "big" a transformer you use for T1. The inverter can be constructed to supply anywhere from 1 to 1000 (1 KW) watts. (schematic / circuit)

14-Bit DACs Maintain High Performance over Extended Temperature Range - AN-314 Analog Devices Application Notes  (app note)

16 bit adjustable reference uses 8 bit Digital potentiometers - 12/25/03 EDN-Design Ideas: It may be easy to find a precision voltage reference for your application; however, a programmable precision reference is anor matter.  circuit in Figure 1 yields a precision reference with an LSB of 62.5 µV.  circuit is a 16-bit DAC using three 8-bit digital potentiometers and three CMOS op amps.....(design idea)

2 DAC Circuit Adds & Subtracts - 09/01/98 EDN-Design Ideas: (design idea)

24-Bit 192kHz PCM1793 DAC with DIR9001 Receiver & OPA2134 OPAMP - 24-Bit 192KHz PCM1793 DAC is is perfect solution for upgrading audio components such as CD Player, DVD Player, Blue Ray Player, Computer, and Satellite receiver. It can be easily connected via Coaxial S/PDIF or Optical Cable and provides convenient analog output connectors. PCM1793 Audio DAC board features advanced Burr-Brown PCM1793 DAC chip, high quality OPA2134 op-amp, and latest DIR9001 digital line receiver. PCB board is built with high quality components such as Nichicon Audio capacitors, WIMA capacitors, gold plated connectors, gold plated PCB tracks and metal film resistors. PCM1793 DAC provides detailed heights and exceptionally good sound stage. ….(electronic schematic)

3-Phase Sine Wave Generation using the AD7226 Quad DAC - AN-321 Analog Devices Application Notes  (app note)

3V & 5V 12-Bit Rail-To-Rail Micropower DACs Combine Flexibility & Performance - DN127  Design Notes (Linear Technology) (app note)

4-20 mA Digital-to-Process Current Transmitter - AN-21 Analog Devices Application Notes  (app note).  Describes a 3 I.C. Digital to 4-20 mA Current Output Circuit (DAC08, REF01 and OP221) 

8th Order Programmable Low-Pass Analog Filter using Dual 12-Bit CMOS Multiplying DACs - AN-209 Analog Devices Application Notes  (app note)

A Digitally Programmable Gain & Attenuation Amplifier Design - AN-137 Analog Devices Application Notes  (app note)

A Standards Lab Grade 20-Bit DAC with 0.1PPM/ °C Drift - AN86 Linear Technology This publication details a true 1ppm D-to-A converter. Total DC error of this processor corrected DAC remains within 1ppm from 18-32°C, including reference drift. DAC error exclusive of reference drift is substantially better. Construction details and performance verification techniques are included, along with a complete software listing.

AB-6: Single Supply Operation of the DAC08 - AB-6 Analog Devices Application Notes  (app note)

AD5232–Programmable Oscillator using Digital Potentiometers - AN-585 Analog Devices Application Notes  (app note)

AD5235 Evaluation Kit User Manual - AN-627 Analog Devices Application Notes  (app note)

AD7224 Provides Programmable Voltages over Varying Ranges - AN-316 Analog Devices Application Notes  (app note)

AD7528 Dual 8-Bit CMOS Multiplying DAC - AN-318 Analog Devices Application Notes  (app note) This Application Note details a myriad of circuit applications made possible by  multiplying characteristics and/or resistor ladder matching characteristics of  AD7528.

Add Programmable Gain, Attenuation - AN-254 Analog Devices Application Notes  (app note) Simple CMOS Multiplying DAC Circuit Provides Digital Control of Gain and Attenuation of Analog Signal

Adding HART® Capability to the AD421, Loop-Powered 4 mA–20 mA DAC using the 20C15 HART Modem - AN-534 Analog Devices Application Notes  (app note)

ADN2850 Evaluation Kit User Manual - AN-628 Analog Devices Application Notes  (app note)

An Outboard Digital-to-Analog Converter for Digital Audio Sources - AN-394 Analog Devices Application Notes  (app note)

AN-109: Understanding & Preventing Latch-up in CMOS DACs - AN-109 Analog Devices App Notes  (app note)

AN-137: A Digitally Programmable Gain & Attenuation Amplifier Design - AN-137 Analog Devices App Notes  (app note)

AN-142: Voltage Adjustment Applications of the DAC-8800 TrimDAC®, an Octal, 8-Bit D/A Converter - AN-142 Analog Devices Application Notes  (app note)

AN-156: Specifying A/D & D/A Converters - National Semiconductor Application Note  (app note)

AN-17: DAC08 Applications Collection - AN-17 Analog Devices Application Notes  (app note)

AN-19: Differential & Multiplying D/A Converter Applications - AN-19 Analog Devices Application Notes  (app note)

AN-205: Video Formats & Required Load Terminations - AN-205 Analog Devices App Notes  (app note)

AN-206: CMOS Multiplying DAC Based Panning Circuit Provides Almost Constant Output Power - AN-206 Analog Devices Application Notes  (app note) Audio signal processing sometimes requires splitting or "panning" a single signal source into multiple channels. This application note describes how CMOS M-DACs can control  relative signal levels of  derived channels.

AN-207: Interfacing Two 16 Bit AD1856 AD1861 Audio DACs with the Philips SAA7220 Digital Filter - AN-207) Analog Devices Application Notes  (app note)

AN-208: Understanding LOGDACs - AN-208 Analog Devices Application Notes  (app note) LOGDACs are CMOS Multiplying DACs With an Expontial (Anti-Logarithmic)  Digital-to-Analog Transfer Characteristic (Rar Than a Linear D/A Transfer Characteristic) 

AN-209: 8th Order Programmable Low-Pass Analog Filter using Dual 12-Bit CMOS Multiplying DACs - AN-209 Analog Devices Application Notes  (app note)

AN-21: 4-20 mA Digital-to-Process Current Transmitter - AN-21 Analog Devices Application Notes  (app note) Describes a 3 I.C. Digital to 4-20 mA Current Output Circuit (DAC08, REF01 and OP221) 

AN-213: Low Cost, Two-Chip, Voltage-Controlled Amplifier & Video Switch - AN-213 Analog Devices Application Notes  (app note)

AN-214: Ground Rules for High Speed Circuits - AN-214 Analog Devices Application Notes  (app note)

AN-219: Electronic Adjustment Made Easy with the TrimDAC® - AN-219 Analog Devices Application Notes  (app note)

AN-221: Power Down Circuit Cuts Power to AD7769 & AD7774 - AN-221 Analog Devices Application Notes  (app note)

AN-224: Input/Output Level Shifting with the AD7769 - AN-224 Analog Devices Application Notes  (app note)

AN-225: 12-Bit Voltage-Output DACs for Single-Supply 5V & 12V Systems - AN-225 Analog Devices Application Notes  (app note)

AN-23: D/A Converter Generates Hyperbolic Functions - AN-23 Analog Devices Application Notes  (app note)

AN230 Design Considerations when using the CS7410 Internal DAC - (app note)

AN-237: Choosing DACs for Direct Digital Synthesis - AN-237 Analog Devices Application Notes  (app note)

AN-254: Add Programmable Gain, Attenuation - AN-254 Analog Devices Application Notes  (app note) Simple CMOS Multiplying DAC Circuit Provides Digital Control of Gain and Attenuation of Analog Signal

AN-269: Circuit Applications of Multiplying CMOS D to a Converters - National Semiconductor Application Note  (app note)

AN-271: Applying the New CMOS Micro-Dacs - National Semiconductor Application Note  (app note)

AN-271: Build Precise S/H Amps for Fast 12-Bit ADCs - AN-271 Analog Devices Application Notes  (app note)

AN-275: CMOS D/A Converters Match Most Microprocessors - National Semiconductor Application Note  (app note)

AN-280: Mixed Signal Circuit Technologies - AN-280 Analog Devices Application Notes  (app note) Considers problems which arise when reality (& Murphy)  intervene in a design which orwise seems satisfactory in terms of ory and modeling.

AN-284: Implement Infinite Sample-and-Hold Circuits using Analog Input/Output Ports - AN-284 Analog Devices Application Notes  (app note)

AN-293: Control Applications of CMOS DACs - National Semiconductor Application Note  (app note)

AN-302: Exploit Digital Advantages in an SSB Receiver - AN-302 Analog Devices Application Notes  (app note)

AN-310: Single Supply 12-Bit DAC Circuits using the AD7568 - AN-310 Analog Devices Application Notes  (app note)

AN-311: How to Reliably Protect CMOS Circuits Against Power Supply OverVoltaging - AN-311 Analog Devices Application Notes  (app note)

AN-313: Getting the Most from High Resolution D/A Converters - AN-313 Analog Devices Application Notes  (app note)

AN-314: 14-Bit DACs Maintain High Performance over Extended Temperature Range - AN-314 Analog Devices Application Notes  (app note)

AN-316: AD7224 Provides Programmable Voltages over Varying Ranges - AN-316 Analog Devices Application Notes  (app note)

AN-317: Circuit Applications of the AD7226 Quad CMOS DAC - AN-317 Analog Devices Application Notes  (app note)

AN-318: AD7528 Dual 8-Bit CMOS Multiplying DAC - AN-318 Analog Devices Application Notes  (app note) This Application Note details a myriad of circuit applications made possible by  multiplying characteristics and/or resistor ladder matching characteristics of  AD7528.

AN-319: Simple Interface between D/A Converter & Microcomputer Leads to Programmable Sine-Wave Oscillators - AN-319 Analog Devices Application Notes  (app note)

AN-320B: CMOS Multiplying DACs & Op Amps Combine to Build Programmable Gain Amplifiers, Part 2 - AN-320B Analog Devices Application Notes  (app note)

AN-321: 3-Phase Sine Wave Generation using the AD7226 Quad DAC - AN-321 Analog Devices Application Notes  (app note)

AN-322: Improve Function Generators with Matched D/A Converters - AN-322 Analog Devices Application Notes  (app note) AD7528 Dual 8-Bit CMOS Multiplying DAC Makes Function Generation Practical and Affordable

AN-324: Simple DAC-Based Circuit Implements Constant Linear Velocity Motor Speed Control - AN-324 Analog Devices Application Notes  (app note)

AN-325: 12-Bit Analog I/O Port uses AD7549 Dual 12-Bit DAC & 8051 Microcomputer - AN-325 Analog Devices Application Notes  (app note)

AN-326: Interfacing the AD7549 to the MCS-48 & MCS-51 Microcomputer Families - AN-326 Analog Devices Application Notes  (app note)

AN-327: DAC ICs: How Many Bits is Enough? - AN-327 Analog Devices Application Notes  (app note)

AN-328: Generate 4 Channels of Analog Output using AD7542 12-Bit DAC & Control the Lot with Only 2 Wires - AN-328 Analog Devices Application Notes  (app note)

AN-333 Design & Layout of a Video Graphics System for Reduced EMI - AN-333 Analog Devices Application Notes  (app note)

AN-336A: Image Compression-Spelling Out the Options - AN-336A Analog Devices Application Notes  (app note)

AN-336B: JPEG Compression-Software Based? or Which Hardware Type? More Mysteries Clarified. - AN-336B Analog Devices Application Notes  (app note)

AN-342: Analog Signal-Handling for High Speed & Accuracy. - AN-342 Analog Devices Application Notes  (app note)

AN-345: Grounding for Low-and-High-Frequency Circuits - AN-345 Analog Devices Application Notes  (app note) Designs. Current Flow Seeks Path of Least Impedance-Not Just Resistance....

AN-347: Shielding & Guarding - AN-347 Analog Devices Application Notes  (app note) How to Exclude Interference-Type Noise. What to do and Why to do it-A Rational Approach

AN-348: Avoiding Passive-Component Pitfalls - AN-348 Analog Devices Application Notes  (app note) The Wrong Passive Component Can Derail Even  Best Op Amp or Data Converter. Here Are Some Basic Traps to Watch For.

AN-349: Keys to Longer Life for CMOS - AN-349 Analog Devices Application Notes  (app note) Here's How CMOS Can be Protected Against Abuse

AN-351: Ask the Applications Engineer-2 - AN-351 Analog Devices Application Notes  (app note) Trimming Offset and Gain in A/D's and D/A's

AN-354: Ask the Applications Engineer 1-Multi Troubles - AN-354 Analog Devices Application Notes  (app note)

AN-364: Enhancing the Performance of the AD7111A & AD7112 LOGDACs - AN-364 Analog Devices Application Notes  (app note)

AN-394: An Outboard Digital-to-Analog Converter for Digital Audio Sources - AN-394 Analog Devices Application Notes  (app note)

AN-412: Video-Standard Selection Circuit for the AD722 using Low Cost Crystals - AN-412 Analog Devices Application Notes  (app note)

AN-414: Low Cost, Low Power Devices for HDSL Applications - AN-414 Analog Devices Application Notes  (app note)

AN-420: Using the AD9708/AD9760/AD9701/AD9764-EB Evaluation Board - AN-420 Analog Devices Application Notes  (app note)

AN-534: Adding HART® Capability to the AD421, Loop-Powered 4 mA–20 mA DAC using the 20C15 HART Modem - AN-534 Analog Devices Application Notes  (app note)

AN-551: Power Management of the ADV7172/ADV7173 Video Encoder - AN-551 Analog Devices Application Notes  (app note)

AN-555: Using the AD9709, AD9763, AD9765, AD9767 Dual DAC Evaluation Board - AN-555 Analog Devices Application Notes  (app note)

AN-562: Filter specification for the Internal Filters of the ADV719x Video Encoders - AN-562 Analog Devices Application Notes  (app note)

AN-579: Versatile Programmable Amplifiers using Digital Potentiometers with Nonvolatile Memory - AN-579 Analog Devices Application Notes  (app note)

AN-580: Programmable Oscillator uses Digital Potentiometers - AN-580 Analog Devices Application Notes  (app note)

AN-582: Resolution Enhancements of Digital Potentiometers with Multiple Devices - AN-582 Analog Devices Application Notes  (app note)

AN-585: AD5232–Programmable Oscillator using Digital Potentiometers - AN-585 Analog Devices Application Notes  (app note)

AN-595: Understanding Pin Compatibility in the TxDAC® Line of High Speed D/A Converters - AN-595 Analog Devices Application Notes  (app note)

AN-620: Using the AD1836 & AD1953 for a 4-In/9-Out Analog System with DSP - AN-620 Analog Devices Application Notes  (app note)

AN-627: AD5235 Evaluation Kit User Manual - AN-627 Analog Devices Application Notes  (app note)

AN-628: ADN2850 Evaluation Kit User Manual - AN-628 Analog Devices Application Notes  (app note)

AN-640: Synchronizing Multiple AD9777s using DATACLK Input Mode - AN-640 Analog Devices Application Notes  (app note)

AN-642: Coupling a Single-Ended Clock Source to the Differential Clock Input of Third-Generation TxDAC® & TxDAC+® Products - AN-642 Analog Devices Application Notes  (app note)

AN-654: Optical Module Development Platform 2.5 GBPS Transmitter with Digital Diagnostics - AN-654 Analog Devices Application Notes  (app note)

AN655: D/A Conversion using PWM & R-2r Ladders to Generate Sine & DTMF Waveforms - Microchip Application Note Published 26-Aug-97  (app note)

AN-686: Implementing an I2C® Reset - AN-686 Analog Devices Application Notes  (app note)

AN-711: AD5227 Evaluation Kit for the 64-Position, Up/Down Control Digital Potentiometer - AN-711 Analog Devices Application Notes  (app note)

AN-712: AD5228 Evaluation Kit for the 32-Position, Push Button, Up/Down Control Digital Potentiometer - AN-712 Analog Devices Application Notes  (app note)

AN-728: Evaluation Kit for the AD5253 64-Position I2C-Compatible Nonvolatile Memory Digital Potentiometer - AN-728 Analog Devices Application Notes  (app note)

AN-729: Evaluation Kit for the AD5254 Quad 256-Position I2C-Compatible Nonvolatile Memory Digital Potentiometer - AN-729 Analog Devices Application Notes  (app note)

AN-747: Timing Synchronization for Multiple AD9786 TxDACs - AN-747 Analog Devices Application Notes  (app note)

AN-748: Set-Up & Hold Measurements in High Speed CMOS Input DACs - AN-748 Analog Devices Application Notes  (app note)

AN-759 Companion Code - AN-759 Analog Devices Application Notes  (app note)

AN-759: Expanding the Number of DAC Outputs on the ADUC8xx & ADUC702x Families uC012 - AN-759 Analog Devices Application Notes  (app note)

AN-772: A Design & Manufacturing Guide for the Lead Frame Chip Scale Package - AN-772 Analog Devices Application Notes  (app note)

Analog Converters Are a Bit Analog - Maxim Application Notes / 1055 / Sep-05  (app note)

Analog Signal-Handling for High Speed & Accuracy. - AN-342 Analog Devices Application Notes  (app note)

Applying the New CMOS Micro DACs - National Semiconductor Application Note 09 Apr1996 (app note)

Ask the Applications Engineer 1-Multi Troubles - AN-354 Analog Devices Application Notes  (app note)

Ask the Applications Engineer-2 - AN-351 Analog Devices Application Notes  (app note) Trimming Offset and Gain in A/D's and D/A's

Avoiding Passive-Component Pitfalls - AN-348 Analog Devices Application Notes  (app note) The Wrong Passive Component Can Derail Even  Best Op Amp or Data Converter. Here Are Some Basic Traps to Watch For.

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