Nano-power-integrated precision rectifiers for implantable medical devices

Two ultralow power CMOS full-wave precision rectifiers aimed at analog signal processing in implantable medical devices are presented. The rectifiers require no diodes and utilize a single or two transconductors (operational transconductance amplifier [OTA]) as the active element, to reduce power consumption to a minimum. First, a voltage-to-current rectifier consuming only a 120-nA supply current is presented and later is used to estimate the average AC amplitude of a piezoelectric accelerometer output (0.5-15-Hz bandwidth) in an adaptive pacemaker. This rectifier is based on a linearized transconductor and a comparator to toggle the output current sign. Then, a novel voltage rectifier consuming less than 10 nA is presented based on a single nanopower OTA and a pass transistor and later is utilized in a pacemaker's cardiac sensing channel (60-200-Hz bandwidth) circuit, incorporating the rectifier to detect positive and negative voltage signal spikes. Both rectifiers were designed in a 0.6-mu m CMOS technology, fabricated, and tested, and the measurement results closely fit the expected performance.

Automated summary

Two ultralow power CMOS full-wave precision rectifiers have been proposed for analog signal processing in implantable medical devices. These rectifiers require no diodes and utilize transconductors as the active element to minimize power consumption.