Effective number of bits (ENOB) is a measure of the dynamic range of an analog-to-digital converter (ADC), digital-to-analog converter, or their associated circuitry. The resolution of an ADC is specified by the number of bits used to represent the analog value. Ideally, a 12-bit ADC will have an effective number of bits of almost 12. However, real signals have noise, and real circuits are imperfect and introduce additional noise and distortion. Those imperfections reduce the number of bits of accuracy in the ADC. The ENOB describes the effective resolution of the system in bits. An ADC may have a 12-bit resolution, but the effective number of bits, when used in a system, may be 9.5.
ENOB is also used as a quality measure for other blocks such as sample-and-hold amplifiers. Thus analog blocks may be included in signal-chain calculations. The total ENOB of a chain of blocks is usually less than the ENOB of the worst block.
The frequency band of a signal converter where ENOB is still guaranteed is called the effective resolution bandwidth and is limited by dynamic quantization problems. For example, an ADC has some aperture uncertainty. The instant a real ADC samples, its input varies from sample to sample. Because the input signal changes, that time variation translates to an output variation. For example, an ADC may sample 1 ns late. If the input signal is a 1 V sinewave at 1,000,000 radians/second (roughly 160 kHz), the input voltage may change by as much as 1 MV/s. A sampling time error of 1 ns would cause a sampling error of about 1 mV (an error in the 10th bit). If the frequency were 100 times faster (about 16 MHz), then the maximum error would be 100 times greater: about 100 mV on a 1 V signal (an error in the third or fourth bit).[specify]
Gielen, Georges (2006). Analog Building Blocks for Signal Processing. Leuven: KULeuven-ESAT-MICAS.
Kester, Walt (2009), Understand SINAD, ENOB, SNR, THD, THD + N, and SFDR so You Don't Get Lost in the Noise Floor(PDF), Tutorial, Analog Devices, MT-003
Maxim (December 17, 2001), Glossary of Frequently Used High-Speed Data Converter Terms, Application Note, Maxim, 740
External linksEdit
Video tutorial on ENOB from Texas Instruments
The Effective Number of Bits (ENOB) (PDF) April 2011 Rohde & Schwarz - This application note explains how to measure the oscilloscope ENOB.
October 20, 2023
effective, number, bits, this, article, includes, list, general, references, lacks, sufficient, corresponding, inline, citations, please, help, improve, this, article, introducing, more, precise, citations, june, 2013, learn, when, remove, this, template, mess. This article includes a list of general references but it lacks sufficient corresponding inline citations Please help to improve this article by introducing more precise citations June 2013 Learn how and when to remove this template message Effective number of bits ENOB is a measure of the dynamic range of an analog to digital converter ADC digital to analog converter or their associated circuitry The resolution of an ADC is specified by the number of bits used to represent the analog value Ideally a 12 bit ADC will have an effective number of bits of almost 12 However real signals have noise and real circuits are imperfect and introduce additional noise and distortion Those imperfections reduce the number of bits of accuracy in the ADC The ENOB describes the effective resolution of the system in bits An ADC may have a 12 bit resolution but the effective number of bits when used in a system may be 9 5 ENOB is also used as a quality measure for other blocks such as sample and hold amplifiers Thus analog blocks may be included in signal chain calculations The total ENOB of a chain of blocks is usually less than the ENOB of the worst block The frequency band of a signal converter where ENOB is still guaranteed is called the effective resolution bandwidth and is limited by dynamic quantization problems For example an ADC has some aperture uncertainty The instant a real ADC samples its input varies from sample to sample Because the input signal changes that time variation translates to an output variation For example an ADC may sample 1 ns late If the input signal is a 1 V sinewave at 1 000 000 radians second roughly 160 kHz the input voltage may change by as much as 1 MV s A sampling time error of 1 ns would cause a sampling error of about 1 mV an error in the 10th bit If the frequency were 100 times faster about 16 MHz then the maximum error would be 100 times greater about 100 mV on a 1 V signal an error in the third or fourth bit specify Contents 1 Definition 2 Notes 3 References 4 External linksDefinition EditAn often used definition for ENOB is 1 E N O B S I N A D 1 76 6 02 displaystyle mathrm ENOB frac mathrm SINAD 1 76 6 02 nbsp where ENOB is given in bits SINAD signal noise and distortion is a power ratio indicating the quality of the signal in dB the 6 02 term in the divisor converts decibels a log10 representation to bits a log2 representation note 1 the 1 76 term comes from quantization error in an ideal ADC 3 This definition compares the SINAD of an ideal ADC or DAC with a word length of ENOB bits with the SINAD of the ADC or DAC being tested Notes Edit 6 02 20 log 10 2 displaystyle 6 02 approx 20 log 10 2 nbsp References Edit Kester 2009 p 5 Equation 1 Eq 2 8 in Geerts Yves Steyaert Michiel Sansen Willy M C 2002 Design of multi bit delta sigma A D converters Springer ISBN 9781402070785 1 76 10 log 10 3 2 displaystyle 1 76 approx 10 log 10 3 2 nbsp 2 Gielen Georges 2006 Analog Building Blocks for Signal Processing Leuven KULeuven ESAT MICAS Kester Walt 2009 Understand SINAD ENOB SNR THD THD N and SFDR so You Don t Get Lost in the Noise Floor PDF Tutorial Analog Devices MT 003 Maxim December 17 2001 Glossary of Frequently Used High Speed Data Converter Terms Application Note Maxim 740External links EditVideo tutorial on ENOB from Texas Instruments The Effective Number of Bits ENOB PDF April 2011 Rohde amp Schwarz This application note explains how to measure the oscilloscope ENOB Retrieved from https en wikipedia org w index php title Effective number of bits amp oldid 1152534685, wikipedia, wiki, book, books, library,
