A low-power inverted ladder D/a converter

Interpolating, dual resistor ladder digital-to-analog converters (DACs) typically use the fine, least significant bit (LSB) ladder floating upon the static most significant bit (MSB) ladder. The usage of the LSB ladder incurs a penalty in dynamic performance due to the added output resistance and switch matrix parasitic capacitance. Current biasing of the LSB ladder addresses this issue by employing active circuitry. We propose an inverted ladder DAC, where an MSB ladder slides upon two static LSB ladders. While using no active components this scheme achieves lower output resistance and parasitic capacitance for a given power budget. We present a 0.35-/spl mu/m, 3.3-V implementation consuming 22-/spl mu/A current with output resistance of 40 k/spl Omega/ and effective parasitic capacitance of 650 fF.