2009 IEEE Workshop on Microelectronics and Electron Devices 2009
DOI: 10.1109/wmed.2009.4816148
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W-2W Current Steering DAC for Programming Phase Change Memory

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Cited by 17 publications
(5 citation statements)
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“…(2) A/D Converters: Since the preferred velocity vectors are not to be changed after configuration, capacitance DACs that require refreshment are not preferred here. We adopted a W-2W transistor ladder [24] with a long transistor length to minimize current consumption. Two such DACs are implemented for each theta unit, connecting to the preferred velocity SRAMs.…”
Section: Design Of the Theta Chipmentioning
confidence: 99%
“…(2) A/D Converters: Since the preferred velocity vectors are not to be changed after configuration, capacitance DACs that require refreshment are not preferred here. We adopted a W-2W transistor ladder [24] with a long transistor length to minimize current consumption. Two such DACs are implemented for each theta unit, connecting to the preferred velocity SRAMs.…”
Section: Design Of the Theta Chipmentioning
confidence: 99%
“…Since the input of the neural amplifier is biased at ground, two NMOS transistors are used as tunable pseudo-resistors. The gate voltage of these NMOS transistors is globally generated from a W-2W voltage digital-to-analog converter (DAC) ( 98 ). These pseudo-resistors in conjunction with the electrode capacitance allow the neural amplifier to reject up-to 25 mV DC-offsets in the electrodes and provide a tunable high-pass corner.…”
Section: Section S1 Bisc Implant Designmentioning
confidence: 99%
“…The W-2W DACs linearity equations are discussed in equation 3and (4) [5]. In order to sum the errors as zero, the maximum positive and negative mismatch error is assumed at the current source corresponding to MSB (BN-1) and the bits from B0 through BN-2 respectively.…”
Section: B Inl and Dnlmentioning
confidence: 99%