Compound buried layer SOI high voltage device with a step buried oxide

A silicon-on-insulator (SOI) high performance lateral double-diffusion metal oxide semiconductor (LDMOS) on a compound buried layer (CBL) with a step buried oxide (SBO CBL SOI) is proposed.The step buried oxide locates holes in the top interface of the upper buried oxide (UBO) layer.Furthermore,holes with high density are collected in the interface between the polysilicon layer and the lower buried oxide (LBO) layer.Consequently,the electric fields in both the thin LBO and the thick UBO are enhanced by these holes,leading to an improved breakdown voltage.The breakdown voltage of the SBO CBL SOI LDMOS increases to 847 V from the 477 V of a conventional SOI with the same thicknesses of SOI layer and the buried oxide layer.Moreover,SBO CBL SOI can also reduce the self-heating effect.     

A new analytical model for the surface electric field distribution and breakdown voltage of the SOI trench LDMOS

A new analytical model for the surface electric field distribution and breakdown voltage of the silicon on insulator (SOI) trench lateral double-diffused metal-oxide-semiconductor (LDMOS) is presented. Based on the two-dimensional Laplace solution and Poisson solution, the model considers the influence of structure parameters such as the doping concentration of the drift region, and the depth and width of the trench on the surface electric field. Further, a simple analytical expression of the breakdown voltage is obtained, which offers an effective way to gain an optimal high voltage. All the analytical results are in good agreement with the simulation results.     

A high voltage silicon-on-insulator lateral insulated gate bipolar transistor with a reduced cell-pitch

A high voltage( 600 V) integrable silicon-on-insulator(SOI) trench-type lateral insulated gate bipolar transistor(LIGBT) with a reduced cell-pitch is proposed.The LIGBT features multiple trenches(MTs):two oxide trenches in the drift region and a trench gate extended to the buried oxide(BOX).Firstly,the oxide trenches enhance electric field strength because of the lower permittivity of oxide than that of Si.Secondly,oxide trenches bring in multi-directional depletion,leading to a reshaped electric field distribution and an enhanced reduced-surface electric-field(RESURF) effect.Both increase the breakdown voltage(BV).Thirdly,oxide trenches fold the drift region around the oxide trenches,leading to a reduced cell-pitch.Finally,the oxide trenches enhance the conductivity modulation,resulting in a high electron/hole concentration in the drift region as well as a low forward voltage drop(Von).The oxide trenches cause a low anode-cathode capacitance,which increases the switching speed and reduces the turn-off energy loss(Eoff).The MT SOI LIGBT exhibits a BV of 603 V at a small cell-pitch of 24 μm,a Von of 1.03 V at 100 A/cm-2,a turn-off time of 250 ns and Eoff of 4.1×10?3 mJ.The trench gate extended to BOX synchronously acts as dielectric isolation between high voltage LIGBT and low voltage circuits,simplifying the fabrication processes.     

A low on-resistance triple RESURF SOI LDMOS with planar and trench gate integration

A low on-resistance(Ron,sp) integrable silicon-on-insulator(SOI) n-channel lateral double-diffused metal-oxide-semiconductor(LDMOS) is proposed and its mechanism is investigated by simulation.The LDMOS has two features:the integration of a planar gate and an extended trench gate(double gates(DGs));and a buried P-layer in the N-drift region,which forms a triple reduced surface field(RESURF)(TR) structure.The triple RESURF not only modulates the electric field distribution,but also increases N-drift doping,resulting in a reduced specific on-resistance(Ron,sp) and an improved breakdown voltage(BV) in the off-state.The DGs form dual conduction channels and,moreover,the extended trench gate widens the vertical conduction area,both of which further reduce the Ron,sp.The BV and Ron,sp are 328 V and 8.8 m.cm2,respectively,for a DG TR metal-oxide-semiconductor field-effect transistor(MOSFET) by simulation.Compared with a conventional SOI LDMOS,a DG TR MOSFET with the same dimensional device parameters as those of the DG TR MOSFET reduces Ron,sp by 59% and increases BV by 6%.The extended trench gate synchronously acts as an isolation trench between the high-voltage device and low-voltage circuitry in a high-voltage integrated circuit,thereby saving the chip area and simplifying the fabrication processes.