This work presents a cancellation technique of non-linear distortion components of one-bit digital stimulus sequence which is generated in software by a SA modulator. The stimulus is stored in a cyclic memory and applied to a circuit under test through a driving buffer and a simple low-pass reconstruction filter. The distortion components originate from buffer imperfections which result in a possible asymmetry between rising and falling edges of a NRTZ waveform representing the encoded stimulus. We show that the distortion components can be cancelled by using a simple predistortion technique. In addition an on-chip DC-calibrated ADC can be used to identify the second-order nonlinear products of the driving buffer. This procedure allows for cancellation of all the second-order distortions before the actual test and it can be extended to the third order terms as well.
[1]
Jaehyok Yi,et al.
Adaptive Digital Feedback Predistortion Technique for Linearizing Power Amplifiers
,
2007,
IEEE Transactions on Microwave Theory and Techniques.
[2]
Jerzy Dabrowski,et al.
On-chip stimuli generation for ADC dynamic test by ΣΔ technique
,
2009,
2009 European Conference on Circuit Theory and Design.
[3]
Gordon W. Roberts,et al.
A 4-GHz effective sample rate integrated test core for analog and mixed-signal circuits
,
2002,
IEEE J. Solid State Circuits.
[4]
Gordon W. Roberts,et al.
Techniques for high-frequency integrated test and measurement
,
2003,
IEEE Trans. Instrum. Meas..