Coded data generation or conversion – Analog to or from digital conversion – Differential encoder and/or decoder
Reexamination Certificate
2001-09-17
2003-04-29
Tokar, Michael (Department: 2819)
Coded data generation or conversion
Analog to or from digital conversion
Differential encoder and/or decoder
C341S144000
Reexamination Certificate
active
06556159
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of Invention
The present invention relates in general to mixed signal processing and in particular, to variable order modulation.
2. Background of Invention
Delta-sigma modulators are particularly useful in digital to analog and analog to digital converters (DACs and ADCs), as well as Codecs and similar mixed signal applications. Generally, delta-sigma modulators, which can operate on either an analog or digital input, generate a quantized output with an average that tracks the average of the input signal. Using oversampling, the delta-sigma modulator spreads the quantization noise power across an oversampling frequency band, which is typically much greater than the input signal bandwidth. Additionally, delta sigma modulators perform noise shaping by acting as a highpass filter to the noise such that most of the quantization noise power is shifted out of the signal band of interest.
The typical delta sigma modulator sums the input signal with negative feedback, performs a linear filtration operation and then a one-bit or multiple-bit quantization. In a first order modulator, the linear filter comprises a single integrator stage while the filter in higher a order modulator comprises a cascade of a corresponding number of integrator stages. Higher order modulators have the advantage of improved noise shaping capability over lower order modulators, although stability becomes a more critical consideration as the order is increased.
During device power-up and power-down, discontinuities can appear in the delta-sigma modulator output. In audio applications, these discontinuities manifest themselves as audible clicks and pops to the listener. Hence, “pop-guard” techniques are typically employed in low-end audio delta-sigma DACs, such as those used to drive headphones and inexpensive speakers.
One common popguard technique ramp-ups and ramp-downs the modulator input during power supply transitions to minimize output discontinuities. For a single-ended modulator configuration, the “quiet” signal level is typically in the middle of the power supply voltage range. Thus, for this configuration, the target is to ramp the output to an from this mid-range voltage level by corresponding ramping of the input voltage.
As discussed further below, to maintain modulator stability, the peak to peak output relative to the power supply rails is limited which consequently limits the ability of the modulator to smoothly ramp the output from the power supply rails. This limitation can itself cause discontinuities in the output and is therefore a significant problem which must be addressed.
SUMMARY OF INVENTION
According to one embodiment of the inventive concepts, a delta-sigma modulator is disclosed which includes circuitry for selectively varying an order of the modulator to vary a modulation index of the modulator.
In general accordance with the inventive principles, the delta-sigma modulator is configured with a low modulator order and a high modulation index during the initial period of ramp-up of the modulator input. The high modulator index allows the resulting output voltage to begin ramping up from relatively close to the low voltage supply rail. Consequently, any jumps in the output voltage are minimized. During normal mode operations, the order of the modulator increases to take advantage of improved high order noise shaping. During input voltage ramp-down, the same process is essentially reversed, such that the last portion of the ramp-down is performed in a low order configuration with a high modulator index such that the output smoothly transitions towards the low power supply rail.
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patent: 6362763 (2002-03-01), Wang
Fei Xiaofan
Gaboriau Johann G.
Melanson John Laurence
Cirrus Logic Inc.
Murphy, Esq. James J.
Nguyen Khai M.
Winstead Sechrest & Minick
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