Multi-stage charge pumps use a modular structure in which each stage include a pair of legs, or current paths, between the stage input and the stage output. Each leg includes a stage boosting capacitor having a first plate connected to the current path and a second plate connected to receive one of a pair of non-overlapping clock signals. Each leg has an NMOS charge transfer switch connected between the stage input and the first plate of the stage boosting capacitor and a PMOS charge transfer switch connected between the first plate of the stage boosting capacitor and the stage output. To reduce charge pump area, the NMOS and PMOS charge transfer switches are formed to have a same resistance value when in an on state, where to achieve this the NMOS charge transfer switches are formed with wider control gates than the PMOS charge transfer switches.

The present disclosure relates to circuits, systems, and methods of operation for a memory device. In an example, a memory device includes a memory array including a plurality of memory cells, each memory cell having an impedance that varies in accordance with a respective data value stored therein; and a tracking memory cell having an impedance based on a tracking data value stored therein; and a read circuit coupled to the memory array, the read circuit configured to determine an impedance of a selected memory cells with respect to the impedance of the tracking memory cell; read a data value stored within the selected memory cell based upon a voltage change of a signal node voltage corresponding to the impedance of the selected memory cell.