A Temperature Compensated Voltage Controlled Relaxation Oscillator for Frequency Modulated DC-DC Charge Pump Regulation

Abstract

Relaxation oscillators with wide dynamic range are required for low power frequency modulated switch mode DCDC regulator designs. In this brief, a temperature compensation technique with variable threshold control for Voltage Controlled Relaxation Oscillator (VCRO) is presented. The voltage to current conversion circuit reduces the drift in the frequency gain across temperature by introducing a PMOS-NMOS current gain compensation scheme. The current gain circuit also allows absolute control on the minimum value of control voltage after which VCRO starts doing voltage to frequency conversion. This restricts the amplifier to go out of saturation which is inherently generating the control voltage for VCRO. Measurement results show that across temperature range of -40 oC to 150 oC, the oscillator achieves a temperature stability of 187 ppm/oC at 18MHz and 171 ppm/oC at 92.5MHz respectively. Implemented in 90nm process node, it occupies 57μm×32μm area while dissipating 2.61 nW/KHz from a 1.5V supply.