Power

Updated On:2018-01-19
Gradation
Faraday IPs are rated according to the IPs’ maturity and customer acceptance. They are graded by the rules described as below,


Platinum P Five (5) productions verified
Gold G Mass production proven
Silver S Silicon proven, Formal release
Silver Minus S- Manufacturing onging
Bronze B Pre-Silicon release
 
Analog > Power
> Band Gap 
Cell Name Descriptions Type Process Gradation Literature
BG020HA0L VBG=0.615V, VCCA=1.8V, VCCA_min=1.0V, Ivcca=23uA; UMC 0.18um Logic GII process low voltage. Analog_IP 0.18um Silver
BGA001 VBG=1.23V, VCCAH=3.3V, VCCAH_min=2.0V, Ivccah=25uA; UMC 0.18um Logic GII process. Analog_IP 0.18um Silver
FXBG010H80A The FXBG010H80A is a complete bandgap voltage reference circuit with low temperature coefficient, and high power supply rejection ratio with output voltage VBG=1.23 V. UMC 0.35um Logic Process. Analog_IP 0.35um Gold
FXBG010H90A VBG=1.23V, VCCAH=3.3V, VCCAH_min=2.0V, Ivccah=25uA; UMC 0.25um Logic process. Analog_IP 0.25um Silver
FXBG010HC0A VBG=1.23V, VCCAH=3.3V, VCCAH_min=2.0V, Ivccah=23uA; UMC 0.13um Logic HS (FSG) process. Analog_IP 0.13um Gold
FXBG010HD0A Input 2.25V-2.75V, VBG=1.23V, Bnad Gap, SP process; UMC 90nm SP/RVT (FSG) Logic process Analog_IP 90nm Silver Minus
FXBG010HE0A Input 2.25V-2.75V, VBG=1.23V, Band Gap, SP process; UMC 65nm SP/RVT Low-K Logic process Analog_IP 65nm Bronze
FXBG010HE0K Input 2.25V-2.75V, VBG=1.23V, Band Gap, LL process; UMC 65nm LL/RVT LowK Logic process Analog_IP 65nm Bronze
FXBG010HE0L Input 2V-3.6V, VBG=1.2V,Band Gap;UMC 65nm LP/RVT LowK Logic Process UHS library Analog_IP 65nm Bronze
FXBG010HF0A Input 2.25V-2.75V, VBG=1.22V, Band Gap, SP process; UMC 55nm SP/RVT LowK Logic process Analog_IP 55nm Bronze
FXBG010HH0L Input 2V-3.6V, VBG=1.23V BandGap; UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Bronze
FXBG010HL0A Input 2.0V-3.6V, VBG=1.22V, Band Gap ; UMC 0.153um 1.8V/3.3V Logic/Mixed-Mode Process Analog_IP 0.153um Bronze
FXBG010HR0B Input 2V-3.6V, VBG=1.207V BandGap ; UMC 0.11um HS/AE (AL Advanced Enhancement) Logic Process Analog_IP 0.11um Bronze
FXBG011HD0A Input 2-3.6V, VBG=1.23V, Bnad Gap ; UMC 90nm SP/RVT (FSG) Logic process Analog_IP 90nm Bronze
FXBG011HF0A Input 3V-3.6V, VBG=1.22V, BandGap; UMC 55nm SP/RVT LowK Logic process Analog_IP 55nm Silver
FXBG011HF0F Power input 3.3V, VBG=1.204V Band-gap, UMC 55nm eFlash process Analog_IP 55nm Bronze
FXBG011HF0L Input 2.25V-2.75V, VBG=1.2V Band-gap, UMC 55nm LP/RVT Logic Process Analog_IP 55nm Bronze
FXBG011HH0L Input 2.5V, VBG=1.23V BandGap; UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Bronze
FXBG012HF0F Input 2.0V-3.6V, VBG=1.2V Band-gap, UMC 55nm eflash LP/RVT Logic Process Analog_IP 55nm Bronze
FXBG012HF0L Input 2.0V-3.6V, VBG=1.2V Band-gap, UMC 55nm LP/RVT Logic Process Analog_IP 55nm Silver Minus
FXBG020H80U Input 3V-3.6V, VBG=1.23V BandGap; UMC 0.35um CDMOS Process Analog_IP 0.35um Bronze
FXBG020H90A VBG=1.23V, VCCA=2.5V, VCCA_min=1.5V, Ivcca=22uA; UMC 0.25um Logic process. Analog_IP 0.25um Gold
FXBG020HA0A VBG=0.615V, VCCA=1.8V, VCCA_min=1.0V, Ivcca=30uA; UMC 0.18um Logic GII process. Analog_IP 0.18um Gold
FXBG020HA0L VBG=0.615V, VCCA=1.8V, VCCA_min=1.0V, Ivcca=23uA; UMC 0.18um Logic LL process. Analog_IP 0.18um Silver
FXBG020HB0A VBG=0.615V, VCCA=1.5V, VCCA_min=1.0V, Ivcca=23uA; UMC 0.15um SP Logic process. Analog_IP 0.15um Silver
FXBG020HC0H VBG=0.8V, VCCA=1.2V, VCCA_min=1.0V, Ivcca=47uA, HS process; UMC 0.13um Logic HS (FSG) process. Analog_IP 0.13um Gold
FXBG020HC0L VBG=0.8V, VCCA=1.2V, VCCA_min=1.0V, Ivcca=45uA; UMC 0.13um Logic LL (FSG) process. Analog_IP 0.13um Silver
FXBG020HD0A Input 0.9V-1.1V, VBG=0.5V, Band Gap ; UMC 90nm Logic SP-RVT Low-K Process Analog_IP 90nm Bronze
FXBG020HE0K Input 1.2V, VBG=0.8V BandGap; UMC 65nm LL/RVT LowK Logic Process Analog_IP 65nm Bronze
FXBG020HF0L Input 1.2V, VBG04=0.4V BandGap; UMC 55nm LP/RVT Low-K Logic Process Analog_IP 55nm Bronze
FXBG020HH0L Input 1.1V, VBG=0.8V, Band Gap,UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Bronze
FXBG020HJ0C Input 1.62V-1.98V, VBG=0.3V BandGap ; UMC 28nm process HPC Process Analog_IP 28nm Silver Minus
FXBG020HJ0L Input 0.945V-1.155V, VBG=0.8V,Band Gap; UMC 28m HLP Process Analog_IP 28nm Bronze
FXBG020HJ0P Input 1.62V-1.98V, VBG=0.3V BandGap ; UMC 28nm process HPC+ Process Analog_IP 28nm Contact Sales
FXBG020HL0A Input 1.2V-1.98V, VBG=0.615V BandGap ; UMC 0.153um Logic Process Analog_IP 0.153um Bronze
FXBG020HR0B Input 1V-1.5V, VBG=0.8V BandGap ; UMC 0.11um HS/AE (AL Advanced Enhancement) Logic Process Analog_IP 0.11um Bronze
 
FXBG020HR0H Input 1V-1.5V, VBG=0.8V BandGap ; UMC 0.11um HS/FSG Logic Process Analog_IP 0.11um Silver
FXBG021HA0A UMC 0.18um process 1.8V power supply bandgap reference circuit (layout data base with trimming pad) , VBG=0.615V Analog_IP 0.18um Gold
FXBG021HD0K Input 1.08V-1.32V, VBG=0.6V, Band Gap, LL process; UMC 90 nm Logic LL-RVT Low-K process Analog_IP 90nm Bronze
FXBG021HJ0C Power input 1.8v, VBG=0.75V Band-gap, UMC 28nm HPC Logic process Analog_IP 28nm Contact Sales
FXBG030HA0A VBG=0.615V, VCCAH=3.3V, VCCAH_min=1.2V, Ivccah=25uA; UMC 0.18um Logic GII process. Analog_IP 0.18um Silver
FXBG030HA0L 0.18um,LL,Bandgap,VBG=0.615 at VCCAH=1.2V~4V; UMC 0.18um Logic LL process. Analog_IP 0.18um Silver
FXBG030HC0H Input 1.0V-1.5V, VBG=0.615V, Bnad Gap, HS process; UMC 0.13um Logic HS (FSG) process Analog_IP 0.13um Silver
FXBG030HP0U Input 1.8V-3.6V, VBG=0.615V, Band Gap ; UMC 0.162um HV-DDD Process Analog_IP 0.162um Silver Minus
FXBG030HR0B Input 1V-1.5V, VBG=0.615V BandGap ; UMC 0.11um HS/AE (AL Advanced Enhancement) Logic Process Analog_IP 0.11um Bronze
FXBG100HF0A Power input 3.3v, VBG=880.3 mV Band-gap, UMC 55nm SP/RVT LowK PROCESS Analog_IP 55nm Bronze
FXBG110HA0A Input power range = 2.0V-4.0V, VBG=1.23V, Bandgap, UMC 0.18um Logic GII process Analog_IP 0.18um Silver
FXBG121HF0U Input 1.0V-3.6V, VBG=0.75V, Band Gap; UMC 55nm ULP Low-K Logic process Analog_IP 55nm Bronze
FXBG220HH0L Input 1.1V, VBG=0.48V, Band Gap,UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Bronze