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Description: Maximum Sample Rate: 125 MSPS 14-Bit Resolution with No Missing Codes Simultaneous Sample and Hold 3.5dB Coarse Gain and up to 6dB Programmable Fine Gain for SFDR/SNR Trade-Off Serialized LVDS Outputs with Programmable Internal Termination Option Supports Sine, LVCMOS, LVPECL, LVDS Clock Inputs
- Architecture: Pipeline
- Interface Type: Serial, Other
- Input Type: Differential
- IC Package Type: Other
Supplier: Spectrum Controls, Inc.
Description: 2-CH 8-BIT SUCCESSIVE APPROXIMATION ADC, SERIAL/PARALLEL ACCESS, DIP24
- IC Package Type: DIP, Other
- Screening Level: Commercial
Supplier: American Microsemiconductor, Inc.
Description: Short cycle 2;4;6 or 8 ADC
- IC Package Type: DIP
Supplier: Cirrus Logic, Inc.
Description: 1-CH 16-BIT DELTA-SIGMA ADC, SERIAL ACCESS, PDSO20
- Architecture: Sigma-Delta
- IC Package Type: SOIC, Other
- Screening Level: Industrial
Supplier: Data Device Corporation (DDC)
Description: Two Channel Synchro to Digital and Resolver to Digital Hybrid Converter. Low cost per channel, small, +5 Volt only, programmable resolution, BIT, quality velocity output.
Supplier: GE Intelligent Platforms
Description: 16-channel, 2.5 MHz Sigma-Delta 24-bit ADC Short form factor Fully differential inputs Better than 100 dB dynamic range PCIe x4 interface Internal/external clock Internal clock programmable with resolution of 1 Hz 10 MHz onboard TCXO reference 16 MB onboard storage Windows and Linux
- Differential Channels: Yes
- Analog-to-Digital Conversion Type: Delta Sigma (Modulator)
- Form Factor: Printed Circuit Board (PCB)
- Computer Bus: Other
Supplier: 1-Source Electronic Components
Description: IC, AUDIO CODEC, 24BIT, 200KHZ, MQFP-52 Audio CODEC Type:Stereo No. of ADCs:6 No. of DACs:6 No. of Input Channels:6 No. of Output Channels:6 ADC / DAC Resolution:24bit Sampling Rate:200kSPS IC Interface Type:I2C RoHS Compliant: Yes
Supplier: D-TACQ Solutions
Description: 14 bit ADC per channel for true simultaneous analog input. High throughput: 2MSPS/channel (32 channels), 4MSPS/channel (16 channels). continuous converted data transfer to local memory, or offboard via CPCI backplane. Oversampling options with filtered, decimated output: 8MSPS Input Sample Rate
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Microchip Technology, Inc.
Energy-Measurement Analog Front End (AFE) MCP3911
The MCP3911 is capable of interfacing a large variety of voltage and current sensors including shunts, current transformers, Rogowski coils and Hall effect sensors. Features: Two Synchronous Sampling 16/24-bit Resolution. Delta-Sigma A/D Converters. 94.5 dB SINAD, -106.5 dBc Total Harmonic Distortion. (THD). 2.7V - 3.6V AVDD, DVDD. Programmable Data Rate up to 125 ksps. - 4 MHz Maximum Sampling Frequency. Oversampling Ratio up to 4096. Ultra Low Power Shutdown Mode with <2 μA. -122 dB... (read more)
Browse Analog-to-Digital Converter (ADC) Chips Datasheets for Microchip Technology, Inc.
ACQ132CPCI Simultaneous Digitizer
14 bit ADC per channel for true simultaneous analog input. High throughput: 2MSPS/channel (32 channels), 4MSPS/channel (16 channels). continuous converted data transfer to local memory, or offboard via CPCI backplane. Oversampling options with filtered, decimated output: 8MSPS Input Sample Rate, 2MSPS Output Sample Rate, 2.5MHz AAF. 32MSPS Input Sample Rate, 2MSPS Output Sample Rate, 16 bit ENOB. Repeat Gated transient option: 65MSPS Input Sample Rate, length: 4K (32 channel), 8K (16 channel... (read more)
Browse Data Acquisition Datasheets for D-TACQ Solutions
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Achieving Higher ADC Resolution Using Oversampling
AN1152 Achieving Higher ADC Resolution Using Oversampling THEORY OF OPERATION Author: Jayanth Murthy Madapura Microchip Technology Inc. As previously mentioned, ADCs transform analog signals into digital sample values. Analog signal amplitude is quantized into digital code words with a INTRODUCTION
Improving ADC Resolution by Oversampling and Averaging
employ a higher resolution off-chip ADC. However, there are techniques that can be used to achieve higher resolution measurements and SNR. This application note describes utilizing oversampling and averaging to increase the resolution and SNR of analog-to-digital conversions.
Capacitive Touch Using Only an ADC (CVD) (.pdf)
are converted. This applies to both 8-bit and. ADC Sampled. 10-bit ADCs. However, be cautious not to lower VREF+. below the resulting voltage after step 5 of the scanning. sequence, or else the ADC reading wil saturate. Also,. oversampling a sensor 4, 8, or 16 times can improve. FIGURE 4: A SENSOR’S
Provisioning Analog I/O in Configurable Systems
to construct a delta-sigma modulator (DSM): that is, an oversampling ADC. The DSM is a state-of-the-art method for data conversion on a wide range of signals, and is capable of considerable precision. It follows, of course, that the structure can also be used to create digital-to-analog converters
High Accuracy Temperature Measurement
Notes. Online at vxitech.com. 949 • 955 • 1VXI. Tech Notes. Technical. High-accuracy Temperature Measurement. ADC Type. Properties. Flash. Ultra-high speed, high input bandwidth. Pipeline. High throughput rate, medium bandwidth. Successive-Approximation-Register. Medium resolution, medium speed
Designing with the MCP3901 Dual Channel Analog-to-Digital Converters (.pdf)
. oversampling ratio (OSR) is 256). tones occur largely for a DC input signal, they have. negative on the INL performance of the ADC. 100. 50. OSR = 256. 80. OSR = 256. 40. Dithering ON. Dithering OFF. 60. SCK = 8 MHz. SCK = 8 MHz. 30. 40. ). 20. ). Channel 0. m. 20. p. 10. pm. 0. (p. Channel 0. p
Technical Needs in Harbor Surveillance (.pdf)
the added complexity of high frequency sonar. It’s easy to see from this formula that the amount of processing. through a comparison of the hardware required to create a. involved is proportional to the sampling frequency. The actual. 1. ICS-110B1L-32. ICS-110B1L-32. . . Digital. ADC. Beamforming. . Beams
Engineering Web Search: Adc Oversampling Top
STMicroelectronics | Improving STM32F101xx and STM32F103xx ADC...
Improving STM32F101xx and STM32F103xx ADC resolution by oversampling
AVR1300: Using the Atmel AVR XMEGA ADC
AVR1300: Using the Atmel AVR XMEGA ADC Features ? Up to 12 bit resolution ? Up to 2M samples per second ? Signed and unsigned mode 8-bit ? Selectable
AN118 IMPROVING ADC RESOLUTION BY OVERSAMPLING AND AVERAGING...
AN118 IMPROVING ADC RESOLUTION BY OVERSAMPLING AND AVERAGING Relevant Devices ments by oversampling and averaging.
AN217 C8051F35X DELTA-SIGMA ADC USER 'S GUIDE Relevant Devices...
AN217 C8051F35X DELTA-SIGMA ADC USER 'S GUIDE Relevant Devices This application note applies to the following devices: C8051F350, C8051F351,
AD7608 (Rev. A)
noted Signal-to-Noise Ratio (SNR)2, 3 Oversampling by 16; ??10 V range; fIN = 130 Hz 98 99.5 dB Oversampling by 16; ??5 V range; fIN = 130 Hz 95.5
MT-022: ADC Architectures III, Sigma-Delta ADC Basics
the implementation of a Nyquist ADC. In 1969 D. J. Goodman at Bell Labs published a paper describing a true Nyquist - ADC with a digital filter and a
EE247 Lecture 25 Pipeline ADC (continued) ? Correction for...
Singer VLSI 96, Yang, JSSC 12/01 EECS 247 Lecture 25: Pipeline ADCs/Oversampling Data Converters ? 2006 H. K. Page 7 14 & 12-Bit State-of-the-Art
Sampling (signal processing) - Wikipedia, the free...
5 Oversampling 6 Complex sampling 6.1 Notes
Increasing the ADC precision with oversampling in a flash ADC
Increasing the ADC precision with oversampling in a flash ADC