A digital input class-D audio amplifier with a sixth-order pulse-width modulation(PWM)modulator is presented.This modulator moves the PWM generator into the closed sigma–delta modulator loop.The noise and distortions generated at the PWM generator module are suppressed by the high gain of the forward loop of the sigma–delta modulator.Therefore,at the output of the modulator,a very clean PWM signal is acquired for driving the power stage of the class-D amplifier.A sixth-order modulator is designed to balance the performance and the system clock speed.Fabricated in standard 0.18 m CMOS technology,this class-D amplifier achieves 110 dB dynamic range,100 dB signal-to-noise rate,and 0.0056%total harmonic distortion plus noise.
This paper presents a novel field-programmable analog array(FPAA) architecture featuring a dual mode including discrete-time(DT) and continuous-time(CT) operation modes, along with a highly routable connection boxes(CBs) based interconnection lattice. The dual mode circuit for the FPAA is capable of achieving targeted optimal performance in different applications. The architecture utilizes routing switches in a CB not only for the signal interconnection purpose but also for control of the electrical charge transfer required in switched-capacitor circuits.This way, the performance of the circuit in either mode shall not be hampered with adding of programmability. The proposed FPAA is designed and implemented in a 0.18 m standard CMOS process with a 3.3 V supply voltage.The result from post-layout simulation shows that a maximum bandwidth of 265 MHz through the interconnection network is achieved. The measured results from demonstrated examples show that the maximum signal bandwidth of up to 2 MHz in CT mode is obtained with the spurious free dynamic range of 54 d B, while the signal processing precision in DT mode reaches 96.4%.
