XDH10 is X-Fab´s dielectric trench insulated smart power technology. Main target applications are analog switch ICs, driver ICs for capacitive, inductive and resistive loads and EL / piezo driver ICs for applications using 220V net supply. The typical breakdown voltage of the HV DMOS devices is >350V or >650V. The modular process combines DMOS, bipolar and CMOS processing steps that are compatible with dielectric insulation to provide a wide variety of MOS and bipolar devices with different voltage levels within a dielectric bi-directional high voltage trench insulation on the same die.
This paper demonstrates a novel lateral superjunction (SJ) lateral insulated gate bipolar transistor (LIGBT) fabricated in 0.18μm partial silicon on insulator (PSOI) HV process. The results presented are based on extensive experimental measurements and numerical simulations.
This paper presents versatile HV lateral JFET design method on 0.18μm SOI BCD technology to achieve variable Vth(pinch-off voltage) and Idsat, without DIBL effect over full operating Vds range and scalable breakdown voltage capability on both N-ch and P-ch JFET. The significant advantage of a HV JFET compared to depletion MOSFET is the lower area consumption in real circuit design which due to higher Idsat values at Vgs=0V.
The XP018 series is X-FAB’s 0.18 micron Modular Mixed Signal CMOS High Performance Analog Mixed-Signal Technology. Based upon the industrial standard single poly with up to six metal layers 0.18-micron drawn gate length N-well process, integrated with high voltage and Non-Volatile-Memory modules, the platform is engineered for applications needing an integrated solution and cost efficient process for high performance analog ICs. Targeted applications are switching applications, lighting, display, etc; operating in temperature range of -40 to 175 °C.
The XT018 series is X-FAB’s 0.18 micron Modular High-voltage SOI CMOS Technology. Based on SOI wafers and the industrial standard single poly with up to six metal layers 0.18-micron drawn gate length process, integrated with high voltage and Non-Volatile-Memory modules, the platform is specifically designed for a new generation of cost-effective "Super Smart Power" technology; operating in temperature range of -40 to 175 °C.
This paper evaluates the technique used to improve the latching characteristics of the 200V n-type superjunction (SJ) LIGBT on partial SOI. The initial design latches at about 23V with forward voltage drop (VON) of 2V at 300A/cm2. The latest design shows increase of latch-up voltage close to 100V without significant expense of VON.
The XH018 series is X-FAB’s 0.18 micron Modular Mixed Signal HV CMOS Technology. Based upon the industrial standard single poly with up to six metal layers 0.18 micron drawn gate length N-well process, integrated with highvoltage and Non-Volatile-Memory modules, the platform is ideal for SOC applications in the automotive market, as well as emdedded high-voltage applications in the communications, consumer and industrial market.
Comprehensive design rules, precise SPICE models, analog and digital libraries, IPs and development kits support the process for major EDA vendors.
Are you challenged with having to design a device that requires bidirectional isolation and has several voltage levels integrated on a single chip without latch-up? If that is the case, you should join our upcoming webinar introducing XT018, the world’s first trench-isolated SOI (silicon on insulator) foundry technology offering for 200V MOS capability at 180nm. The presentation covers the general benefits and trade-offs of using SOI technology vs. a silicon bulk process. It highlights features such as super-junction architecture for 100V to 200V devices with complete dielectric isolation, the possibility to apply defined handle wafer potentials, and a highly flexible modular approach for selecting specific technology features that meet your exact needs.
This paper presents a comparison between the superjunction LIGBT and the LDMOSFET in partial silicon-on-insulator (PSOI) technology in 0.18µm PSOIHV process. The superjunction drift region helps in achieving uniform electric field distribution in both structres but also contributes to the on-state current in the LIGBT.
The XA035 Series is X-FAB‘s 0.35 Micron High Temperature CMOS Technology. Main target applications are high temperature automotive and Industrial products with temperature range up to 175ºC. All modules are comparable in Design Rules and Transistor Performance with our corporate state of the art 0.35 μm CMOS Processes. Comprehensive design rules, precise SPICE models, analog and digital libraries, IP’s and development kits support the process on platforms supplied by the major EDA tool vendors.