Title :
1/f noise in MODFETs at low drain bias
Author :
Peransin, Jean-Marie ; Vignaud, Pierre ; Rigaud, Dominique ; Vandamme, Lode K J
Author_Institution :
Univ. des Sci. & Tech. du Languedoc, Montpellier, France
fDate :
10/1/1990 12:00:00 AM
Abstract :
The 1/f noise in normally-on MODFETs biased at low drain voltages is investigated. The experimentally observed relative noise in the drain current SI/I2 versus the effective gate voltage VG=VGS-Voff shows three regions which are explained. The observed dependencies are SI/I2∝VG m with the exponents m=-1, -3, 0 with increasing values of VG. The model explains m =-1 as the region where the resistance and the 1/f noise stem from the 2-D electron gas under the gate electrode; the region with m=0 at large VG or VGS≅0 is due to the dominant contribution of the series resistance. In the region at intermediate VG , m=-3, the 1/f noise stems from the channel under the gate electrode, and the drain-source resistance is already dominated by the series resistance
Keywords :
electron device noise; high electron mobility transistors; random noise; semiconductor device models; 1/f noise; 1/f noise diagnostic tool; 2-D electron gas; 2DEG; HEMTs; channel under gate electrode; drain current; drain-source resistance; gate voltage; low drain bias; low drain voltages; model; normally-on MODFETs; series resistance; three regions; Electrodes; Electrons; FETs; Gallium arsenide; HEMTs; Low voltage; MODFETs; National electric code; Region 2; Resistors;
Journal_Title :
Electron Devices, IEEE Transactions on
