|
AN-561: AD7416 Connects to the PIC16F84 via Emulated I²C™ Interface - AN-561
Analog Devices Application Notes (app note added 2/06) |
|
AN-563: A Tamper-Resistant Watt-Hour Energy Meter - AN-563 Analog Devices
Application Notes (app note added 2/06) Based on ADE7751 and Two
Current Sensors |
|
AN-566: A Geophone/Hydrophone Acquisition Reference Design - AN-566 Analog Devices
Application Notes (app note added 2/06) The AD1555/AD1556 24-Bit
Sigma-Delta ADC Chipset Provides for Direct Acquisition of High Dynamic Range Sensors. |
|
AN-574: A Tamper-Resistant Watt-Hour Energy Meter Based on the AD7751 - AN-574
Analog Devices Application Notes (app note added 2/06) With a Current
Transformer and a Low Resistant Shunt |
|
AN-577: Layout & Grounding Recommendations for Touch Screen Digitizers - AN-577
Analog Devices Application Notes (app note added 2/06) |
|
AN-586: LVDS Outputs for High Speed A/D Converters - AN-586 Analog Devices
Application Notes (app note added 2/06) AD9430 High Speed ADC Uses LVDS
(Low-Voltage Differential Signaling) to Minimize Performance Limitations In ADC
Applications When Providing High Speed Data Output |
|
AN-588: AD7416/AD7417/AD7418 Power-On Reset Circuit - AN-588 Analog Devices
Application Notes (app note added 2/06) If a large number of decoupling
capacitors are used on VDD line, re-applying power before VDD has discharged to
0 V can cause AD7416/AD7417/AD7418 to reset into an unknown. state. |
|
AN-592: Application Considerations for the Convert Start Input CONVST Bar of the
AD7822/AD7825/AD7827/AD7829 - AN-592 Analog Devices Application Notes (app
note added 2/06) |
|
AN-594: Modifying the Input Voltage Range of the AD7663, AD7665 or AD7671 PulSAR
16-Bit ADCs - AN-594 Analog Devices Application Notes (app note added 2/06)
These ADCs handle or input voltage ranges not described in data sheet. |
|
AN-607: Pulse Width Modulation A/D Conversion Techniques with COP800 Family
MicroControllers - National Semiconductor Application Note (app note added
6/06) |
|
AN-607: Selecting a Low Bandwidth Σ-Δ ADC - AN-607) Analog Devices Application
Notes (app note added 2/06) |
|
AN-608: Input Buffers on Sigma-Delta ADCs - AN-608 Analog Devices Application
Notes (app note added 2/06) The AD7708/AD7718,AD7709,AD7719,AD7782/AD7783
high resolution Sigma-Delta ADCs feature a high impedance buffer at input to
ADC. This application note discusses significant benefits and various system
design considerations that result from integration of on-chip buffers. |
|
AN-609: Chopping on Sigma-Delta ADCs - AN-609 Analog Devices Application Notes
(app note added 2/06) Chopping is a technique that can be used to cancel offset
voltages and or low frequency errors. This Application Note outlines how chopping is
implemented on AD7708/AD7718,AD7709,AD7719,AD7782/AD7783 high resolution
Sigma-Delta ADCs and discusses resulting benefits it brings. |
|
AN-610: The PGA on Sigma-Delta ADCs - AN-610 Analog Devices Application Notes
(app note added 2/06) The AD7708/AD7718,AD7709,AD7719,AD7782/AD7783 high
resolution Sigma-Delta ADCs all feature a Programmable Gain Amplifier (PGA) at
input to Sigma-Delta modulator. This Application Note discusses use and
benefits of this PGA. |
|
AN-611: 50 Hz/60Hz Rejection on Sigma-Delta ADCs - AN-611 Analog Devices
Application Notes (app note added 2/06) Rejection of 50 Hz and 60 Hz
interference is a requirement in many industrial settings. This Application Note
outlines how AD7708/AD7718,AD7709,AD7719, AD7782/AD7783 Sigma-Delta ADCs are
used for optimal rejection of se frequencies. |
|
AN-614: Using the AD7782 in Low Power Applications - AN-614 Analog Devices
Application Notes (app note added 2/06) This application note describes
how to use AD7782 in portable or low power applications. |
|
AN-615: Peak-to-Peak Resolution Versus Effective Resolution - AN-615 Analog
Devices Application Notes (app note added 2/06) This application note
describes effective resolution and peak-to-peak resolution and highlights
difference between se two specifications. |
|
AN-616: AD9430 Evaluation Board Modifications for XTAL Oscillator Clocking -
AN-616 Analog Devices Application Notes (app note added 2/06) |
|
AN-624: Calibration of a 3-Phase Energy Meter Board on the ADE7754 - AN-624 Analog
Devices Application Notes (app note added 2/06) The document describes how
to implement calibration of a polyphase meter based on ADE7754 energy
metering IC. |
|
AN624: PIC14c000 A/D Theory & Implementation - Microchip Application Note
Published 26-Aug-97 (app note added 6/06) |
|
AN-639: Frequently Asked Questions FAQs Analog Devices Energy ADE Products -
AN-639 Analog Devices Application Notes (app note added 2/06) |
|
AN-641: A 3-Phase Power Meter Based on the ADE7752 - AN-641 Analog Devices
Application Notes (app note added 2/06) |
|
AN-662: Input Leakage Current in High Speed Applications - AN-662 Analog Devices
Application Notes (app note added 2/06) |
|
AN-663: AD7732/AD7734/AD7738/AD7739 Calibration Registers - AN-663 Analog Devices
Application Notes (app note added 2/06) This application note concentrates
on AD7739 but is also applicable to AD7732,AD7734,and AD7738. The purpose
of this application note is to explore calibration registers in more detail than
is found on data sheets. |
|
AN-664: AD7732/AD7734/AD7738/AD7739 in Low Power Applications - AN-664 Analog
Devices Application Notes (app note added 2/06) This application note
refers only to AD7739, but is also generally applicable to AD7732,AD7734
and AD7738. The purpose of this application note is to explain how to optimize
use of se parts in power sensitive applications. |
|
AN-665: Channel Switching using Σ-Δ ADCs - AN-665 Analog Devices Application Notes
(app note added 2/06) This application note refers to AD7708 and AD7718.
Data sheets specify update rate for Σ-Δ ADCs. |
|
AN-679: A Low Cost Watt-Hour Energy Meter Based on the ADE7757 - AN-679 Analog
Devices Application Notes (app note added 2/06) |
|
AN-686: Implementing an I2C® Reset - AN-686 Analog Devices Application Notes
(app note added 2/06) |
|
AN-687: A Low Cost Tamper-Resistant Energy Meter Based on the ADE7761 with Missing
Neutral Function - AN-687 Analog Devices Application Notes (app note added
2/06) |
|
AN688: Layout Tips for 12-Bit A/D Converter Application - Microchip Application
Note Published 27-Jul-04 (app note added 2/06) |
|
AN693: Understanding A/D Converter Performance Specifications - Microchip
Application Note Published 4-Apr-00 (app note added 2/06) |
|
AN-700: Instructions for the AD9865/AD9866 Evaluation Software - AN-700 Analog
Devices Application Notes (app note added 2/06) |
|
AN702: Interfacing Microchip MCP3201 A/D Converter to 8051-Based MicroController -
Microchip Application Note Published 16-Aug-99 (app note added 2/06) |
|
AN703: Using the MCP320x 12-Bit Serial A/D Converter with Microchip Picmicro® Devices
- Microchip Application Note Published 22-Nov-99 (app note added 2/06) |
|
AN704: Interfacing Microchip's MCP3201 ADC to Mc68HC11e9-Based MicroController -
Microchip Application Note Published 21-Sep-99 (app note added 2/06) |
|
AN-715: A First Approach to IBIS Models: What They Are & How They Are Generated -
AN-715 Analog Devices Application Notes (app note added 2/06) |
|
AN719: Interfacing Microchip's MCP3201 Analog-To-Digital Converter to the Picmicro®
MicroController - Microchip Application Note Published 21-Sep-99 (app note
added 2/06) |
|
AN-737: How ADIsimADC™ Models an ADC - AN-737 Analog Devices Application Notes
(app note added 2/06) |
|
AN-738: Using the AD7877 Touch Screen Controller & the Intel PXA250 Processor Under
Windows CE.NET - AN-738 Analog Devices Application Notes (app note added
2/06) |
|
AN-741: Little Known Characteristics of Phase Noise - AN-741 Analog Devices
Application Notes (app note added 2/06) |
|
AN-742: Frequency Domain Response of Switched-Capacitor ADCs - AN-742 Analog
Devices Application Notes (app note added 2/06) |
|
AN-750: ADE7758 Phase Dropout Detection for VAR Calculation - AN-750 Analog
Devices Application Notes (app note added 2/06) |
|
AN-753: Configuring the AD7877 - AN-753 Analog Devices Application Notes
(app note added 2/06) |
|
AN-758: Creating a Reactive Energy Pulse Output Based on the ADE7753 - AN-758
Analog Devices Application Notes (app note added 2/06) |
|
AN-766: Using the Noise Reduction Feature on the AD7877 - AN-766 Analog Devices
Application Notes (app note added 2/06) |
|
AN-769: DynamIC Specifications for Sampling A/D Converters - National
Semiconductor Application Note (app note added 2/06) |
|
AN-772: A Design & Manufacturing Guide for the Lead Frame Chip Scale Package -
AN-772 Analog Devices Application Notes (app note added 2/06) |
|
AN785: Simplify A/D Converter Interface with Software TC7135 - Microchip
Application Note Published 26-Sep-03 (app note added 2/06) |
|
AN-803: Pin Compatible High Speed ADCs Simplify Design Tasks - AN-803 Analog
Devices Application Notes (app note added 2/06) |
|
AN-804: Improving A/D Converter Performance using Dither - National Semiconductor
Application Note (app note added 2/06) |
|
AN-807: Multicarrier WCDMA Feasibility - AN-807) Analog Devices Application Notes
(app note added 2/06) |
|
AN-813: Interfacing the ADSP-BF533/ ADSP-BF561 Blackfin® Processors to High Speed
Parallel ADCs - AN-813 Analog Devices Application Notes (app note added
6/06) |
|
AN-815: Variable Range PWM A/D for COP820CJ - National Semiconductor Application
Note (app note added 6/06) |
|
AN-826: A 2.x GHz WiMAX Direct Conversion Transmitter - AN-826 Analog Devices
Application Notes (app note added 2/06) |
|
AN-829: Environmental Compensation on the AD7142: The Effects of Temperature &
Humidity on Capacitance Sensors - AN-829 Analog Devices Application Notes
(app note added 2/06) |
|
AN-830: Factors Affecting Sensor Response - AN-830 Analog Devices Application
Notes (app note added 2/06) |
|
AN842: Differential ADC Biasing Techniques, Tips & Tricks - Microchip Application
Note Published 2-Jul-02 (app note added 2/06) |
|
AN863: A Comparator Based SlopeADC - Microchip Application Note Published
14-Apr-03 (app note added 2/06) |
|
AN-952: Low Cost A/D Conversion using COP800 - National Semiconductor Application
Note (app note added 2/06) |
|
AN-983: Simple, Cost Effective A/D Conversion using COP888ek - National
Semiconductor Application Note (app note added 2/06) |
|
AN990: Analog Sensor Conditioning Circuits: An Overview - Microchip Application
Note Published 13-May-05 (app note added 2/06) Analog sensors produce a
change in an electrical property to indicate a change in its environment. this change
in electrical property needs to be conditioned by an analog circuit before conversion
to digital. Furr processing occurs in digital domain but is not addressed in
this application note. |
|
Analog Design in a Digital World using Mixed Signal Controllers - Microchip
Application Note Published 14-Jan-01 (app note added 2/06) |
|
Analog Input Circuit Serves Any MicroController - 12/20/01 EDN-Design Ideas: The
simple ADC in Figure 1 is perfect for getting analog signals into a purely digital
microcontroller. Using just five surface-mount parts, you can assemble it for less
than 50 cents (1000) , which is approximately half cost of a single-chip- ADC
approach in same volume. Moreover, this design takes only one pin from
microcontroller to operate.....(design idea added 10/03) |
|
Analog Sensor Conditioning Circuits: An Overview - Microchip Application Note
Published 13-May-05 (app note added 2/06) Analog sensors produce a change in an
electrical property to indicate a change in its environment. this change in electrical
property needs to be conditioned by an analog circuit before conversion to digital.
Furr processing occurs in digital domain but is not addressed in this
application note. |
|
Analog Signal-Handling for High Speed & Accuracy. - AN-342 Analog Devices
Application Notes (app note added 2/06) Signal handling techniques for
optimizing DAC and ADC performance. |
|
Analog to Digital Converter Captures 1Gsps - Maxim Application Notes / 642 /
May-04 (app note added 5/08) |
|
Analog-to-Digital Conversion - Microchip Application Note Published 26-Aug-97
(app note added 2/06) |
|
Analog-to-Digital Conversion by using V/F Converters - AN-276 Analog Devices
Application Notes (app note added 2/06) |
|
Analog-to-Digital Conversion Notes - (electronic circuit added 4/05) |
|
Analog-to-Digital Conversion Techniques with COPS Family MicroControllers -
National Semiconductor Application Note (app note added 2/06) |
|
Analogue to Digital Converter - (electronic Circuit / Schematic added 10/04) |
|
Analogue to Digital Converter for PC Serial Port - (circuit / schematic design
added 6/06) |
|
Aperture Uncertainty & ADC System Performance - AN-501 Analog Devices Application
Notes (app note added 2/06) A Key Concern in IF Sampling is that of
Aperture Uncertainty (Jitter) |
|
Application Considerations for the Convert Start Input CONVST Bar of the
AD7822/AD7825/AD7827/AD7829 - AN-592 Analog Devices Application Notes (app
note added 2/06) |
|
Application Hints for the CS501X Series of A/D Converters - (app note added 6/07) |
|
Applications for the AD537 Voltage to Frequency Converter - AN-277 Analog Devices
Application Notes (app note added 2/06) |
|
Applications of theADC1210 CMOS A/D Converter - National Semiconductor Application
Note (app note added 2/06) |
|
Ask the Applications Engineer 1-Multi Troubles - AN-354 Analog Devices Application
Notes (app note added 2/06) Addresses problems often encountered with LOG
Circuits, Time Division Analog Multiplexing, and ADC Power Strobing |
|
Ask the Applications Engineer V/F Converters - AN-361 Analog Devices Application
Notes (app note added 2/06) |
|
Ask the Applications Engineer-2 - AN-351 Analog Devices Application Notes
(app note added 2/06) Trimming Offset and Gain in A/D's and D/A's |
|
Associated reference code for EE-139 - EE-139 Analog Devices Application Notes
(app note added 2/06) |
|
Asynchronous Clock Interfacing with the AD7878 - AN-291 Analog Devices Application
Notes (app note added 2/06) |
|
A-To-D Converter Does Frequency Translation - DN259 Design Notes (Linear
Technology) (app note added 1/06) |
|
Autocalibrator Nulls DC Offsets - 06/09/94 EDN-Design Ideas: Three inexpensive ICs
in Fig 1's autocalibration circuit correct for both ADC's offset errors and
systematic dc offsets that accumulate before converter input. An RS flip-flop, a
counter, and a low-cost DAC combine to provide requisite offset correction
voltage. When configured in unipolar mode, IC1, a 12-bit 1.25-Msamples/sec ADC, has a
maximum dc offset of ±9 LSBs, which this autocalibration circuit can reduce to less
than 1/2 LSB.....(design idea added 11/05) |
|
Automating ADC Data Collection - Maxim Application Notes / 929 / Jun-04 (app
note added 5/08) |
|
Auto-Zeroing A/D Offset Voltage - DN26 Design Notes (Linear Technology) (app
note added 1/06) |
|
Avoiding Passive-Component Pitfalls - AN-348 Analog Devices Application Notes
(app note added 2/06) The Wrong Passive Component Can Derail Even Best Op
Amp or Data Converter. Here Are Some Basic Traps to Watch For. |
