Power

Updated On:2018-04-21
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
 
Analog > Power
> Battery Charger 
Cell Name Descriptions Type Process Gradation Literature
FXCHG070HL0A 5V to 4.2V battery charger with 3.3V device ; UMC 0.153um Logic/Mixed-Mode Process Analog_IP 0.153um Bronze
 
Analog > Power
> HV Driver 
Cell Name Descriptions Type Process Gradation Literature
FXDRV010H80U 8V ~ 25V HV driver, UMC 0.35um 3.3V/5V/40V CDMOS logic process Analog_IP 0.35um Silver Minus
 
Analog > Power
> Linear Regulator 
Cell Name Descriptions Type Process Gradation Literature
FXREG010HA0A 3.3V with 70mA driving capability, Istb=66uA Linear Regulator; 0.18um Logic GII process Analog_IP 0.18um Platinum
FXREG010HC0A 3.3V with 50mA driving capability, Istb=70uA Linear Regulator; 0.13um Logic HS (FSG) process Analog_IP 0.13um Silver
FXREG010HE0A 3.3V to 2.5V with 150mA driving capability; Linear Regulator; UMC 65nm SP/RVT LowK Logic Process Analog_IP 65nm Bronze
FXREG010HE0K 3.3V to 2.5V with 200mA driving capability; Linear Regulator; UMC 65nm LL/RVT LowK Logic Process Analog_IP 65nm Bronze
FXREG010HF0L 2.7V~3.3V to 1.8V with 150mA driving capability; Linear Regulator; UMC 55nm LP/RVT LowK Logic Process Analog_IP 55nm Silver Minus
FXREG010HF0L_ADC2 3.3v to 2.5v/5mA , REG, Linear Regulator, UMC 55nm LP/RVT Logic Process Analog_IP 55nm Contact Sales
 
FXREG010HH0L 3.3V to 2.5V with 50mA driving capability; Linear Regulator; UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Silver
FXREG010HJ0C 3.3V to 1.8V/150mA REG with external Capacitor, UMC 28nm HPC Logic and Mixed-Mode Process Analog_IP 28nm Bronze
FXREG010HL0A 3.3V to 1.8V with 120mA driving capability, VBG=0.615V, Linear Regulator; UMC 0.153um Logic Process Analog_IP 0.153um Bronze
 
FXREG010HR0H 3.3V to 1.8V with 100mA driving capability; Linear Regulator; UMC 0.11um HS/FSG Logic Process Analog_IP 0.11um Bronze
FXREG011HD0K 1.8V to 1.2V with 60mA driving capability, Istb=80uA; Linear Regulator; UMC 90nm Logic LL-RVT(LowK) process. Analog_IP 90nm Silver Minus
FXREG011HE0A 1.8V to 1.0V with 60mA driving capability; Linear Regulator; UMC 65nm SP/RVT LowK Logic Process Analog_IP 65nm Bronze
FXREG011HH0L 3.3V to 2.5V with 110mA driving capability with external capacitor(use trimming PADs) Linear Regulator; UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Silver
FXREG011HH0L_150MA 3.3V to 2.5V Regulator with 150mA; UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Contact Sales
 
FXREG011HJ0C 3.3V to 1.8V/50mA REG with external Capacitor, UMC 28nm HPC Logic and Mixed-Mode Process Analog_IP 28nm Bronze
FXREG012HD0A 2.5v to 1.2v/100mA REG,Linear Regulator,UMC 90nm SP/RVT LowK Logic process Analog_IP 90nm Bronze
FXREG012HD0K 1.4V~3.6V to 1.2V with 100mA driving capability; Linear Regulator; UMC 90nm LL/RVT LowK LOGIC PROCESS minLib Cell Library Analog_IP 90nm Bronze
FXREG012HF0A 3.3V to 2.8V with 20mA driving capability; Linear Regulator; UMC 55nm SP/RVT Logic Process Analog_IP 55nm Silver
 
FXREG012HH0L 3.3V to 1.8V with 150mA driving capability; Linear Regulator; UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Silver
FXREG012HJ0C 3.3V to 1.8V/50mA REG with external Capacitor, UMC 28nm HPC Logic and Mixed-Mode Process Analog_IP 28nm Contact Sales
FXREG012HR0B 3.3V to 2.8V with 20mA driving capability; Linear Regulator; UMC 0.11 um AE/HS Logic Process Analog_IP 0.11um Bronze
FXREG013HF0A 3.3V input , Programmable Output 1.8V/1.2V with 300mA driving capability; Linear Regulator; UMC 55nm SP/RVT LowK Logic Process Analog_IP 55nm Silver Minus
FXREG014HH0L 3.3v to 2.5v with 30mA driving capability without external capacitor (Cap-less), use trimming PADs; Linear Regulator; UMC 40nm LP/RVT LowK Logic process Analog_IP 40nm Bronze
FXREG014HJ0C 3.3V to 1.8V with 50mA driving capability; Capacitor-free Linear Regulator; UMC 28nm HPC Process Analog_IP 28nm Bronze
FXREG015HJ0P 3.3V to 1.8V/20mA REG with external Capacitor, UMC 28nm HPC+ Logic and Mixed-Mode Process Analog_IP 28nm Contact Sales
FXREG020HA0A 3.3V with 150mA driving capability, Istb=96uA Linear Regulator; 0.18um Logic GII process Analog_IP 0.18um Platinum
FXREG020HA0F 3.3V to 1.8V LDO regulator with 150mA driving.Iq=66uA, UMC 0.18um eFlash process Analog_IP 0.18um Silver
FXREG020HB0A 3.3V with 100mA driving capability, Istb=65uA Linear Regulator; 0.15um SP Logic process Analog_IP 0.15um Silver
FXREG020HC0A 3.3V with 100mA driving capability, Istb=65uA Linear Regulator; 0.13um Logic HS (FSG) process Analog_IP 0.13um Silver
FXREG020HD0A 2.5V to 1.2V with 100mA driving capability, Istb=50uA; Linear Regulator; UMC 90nm SP/RVT Low-K Process Analog_IP 90nm Silver Minus
FXREG020HE0K 3.3V to 1.2V with 150mA driving capability, Istb=200uA; Linear Regulator; UMC 65nm LL/RVT LowK Logic Process Analog_IP 65nm Bronze
FXREG020HE0L 3.3V to 1.2V with 150mA driving capability, Istb=200uA; Linear Regulator; UMC 65nm LP/RVT LowK Logic Process Analog_IP 65nm Contact Sales
 
FXREG020HF0A 3.3V to 1.0V with 150mA driving capability; Linear Regulator; UMC 55nm SP/RVT LowK Logic Process Analog_IP 55nm Bronze
 
FXREG020HF0F 3.3V to 1.2V with 180mA driving capability; Linear Regulator; UMC 55nm eFlash LowK Logic process Analog_IP 55nm Bronze
FXREG020HF0L 3.3V to 1.2V with 150mA driving capability; Linear Regulator; UMC 55nm LP/RVT LowK Logic Process Analog_IP 55nm Silver
 
FXREG020HF0U 3.3V to 1.2V (programmable output) with 50mA driving capability without external capacitor(cap-less);two embedded linear voltage regulators(main regulator and the low-power regulator); UMC 55nm ulp Low K Process Analog_IP 55nm Contact Sales
 
FXREG020HH0L 3.3V to 1.1V with 150mA driving capability; Linear Regulator; UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Bronze
FXREG020HH0L_200MA 3.3v to 1.1v/200mA REG, Linear Regulator, UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Contact Sales
 
FXREG020HH0L_300MA 3.3v to 1.1v/300mA REG, Linear Regulator, UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Contact Sales
 
FXREG020HH0L_PLL 3.3V to 1.1V with 30mA driving capability; Linear Regulator; UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Contact Sales
 
FXREG020HJ0C 3.3V to 0.9V/150mA REG, Linear Regulator, UMC 28nm HPC Logic and Mixed-Mode Process Analog_IP 28nm Bronze
FXREG020HL0A 3.3V to 1.8V LDO regulator with 150mA driving.Iq=66uA, UMC 0.153um Mixed-Mode/Logic Process Analog_IP 0.153um (85% shrink of 0.18um) Silver
FXREG020HP0A 3.3V to 1.8V LDO regulator with 150mA driving.Iq=66uA ; UMC 0.162um Logic Process Analog_IP 0.162um Silver
FXREG020HR0B 3.3V to 1.2V with 150mA driving capability; Linear Regulator; UMC 0.11um HS/AE (AL Advanced Enhancement) Logic Process Analog_IP 0.11um Silver
FXREG021HF0A 3.3v to 1.0v/100mA REG, Linear Regulator, UMC 55nm SP/RVT LowK Logic Process Analog_IP 55nm Silver Minus
FXREG021HH0L 1.8V and 1.2V input, loading 360mA, 1.1V output with VBG=0.88V Regulator with BYPASS mode;UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Silver Minus
FXREG021HR0H 3.3V to 2.5V with 300mA driving capability; Linear Regulator; UMC 0.11um Logic HS/FSG Logic Process Analog_IP 0.11um Bronze
FXREG022HF0A 3.3V to 1.0V with 500mA driving capability with external capacitor(use efuse trimming); Linear Regulator; UMC 55nm SP/RVT LowK Logic Process Analog_IP 55nm Contact Sales
 
FXREG022HR0B 3.3V to 1.2V with 400mA driving capability; Linear Regulator; UMC 0.11um HS/AE (AL Advanced Enhancement) Logic Process Analog_IP 0.11um Silver
FXREG022HR0B_DTD 3.3V to 1.2V with 220mA driving capability; Linear Regulator; UMC 0.11um HS/AE (AL Advanced Enhancement) Logic Process Analog_IP 0.11um Contact Sales
 
FXREG022HR0F 3.3V to 1.2V with 220mA driving capability; Linear Regulator; UMC 0.11um eflash Process Analog_IP 0.11um Silver
FXREG022HR0H 3.3V to 1.2V with 350mA driving capability; Linear Regulator; UMC 0.11┬Ám HS/FSG logic process Analog_IP 0.11um Bronze
FXREG023HC0H UMC 0.13um Logic HS (FSG) process 3.3V to 1.2V with 100mA driving capability; High PSRR linear Regulator Analog_IP 0.13um Silver Minus
FXREG024HC0H UMC 0.13um Logic HS (FSG) process 3.3V to 1.2V with 100mA driving capability, Linear Regulator with Capacitor-Free Analog_IP 0.13um Gold
FXREG024HD0A 3.3v to 1.0v/100mA REG, Linear Regulator, UMC 90nm SP/RVT LowK Logic process Analog_IP 90nm Silver Minus
FXREG024HF0F 3.3V to 1.2V with 150mA driving capability without external capacitor(Cap-less); use trimming ports (need e-Fuse IP); Linear Regulator; UMC 55nm eFlash LowK Logic Process Analog_IP 55nm Contact Sales
 
FXREG024HF0L 3.3v to 1.2v/150mA REG, Linear Regulator, UMC 55nm LP/RVT LowK Logic process Analog_IP 55nm Silver Minus
FXREG024HH0L 3.3v to 1.1v/200mA REG, Linear Regulator, UMC 40nm LP/RVT LowK Logic process Analog_IP 40nm Silver
FXREG024HJ0C 3.3V to 0.9V with 50mA driving capability; Capacitor-free Linear Regulator; UMC 28nm HPC Process Analog_IP 28nm Contact Sales
FXREG024HR0B 3.3V to 1.2V Capacitor-Free Linear Regulator with 100mA driving capability; UMC 0.11um HS/AE (AL Advanced Enhancement) Logic Process Analog_IP 0.11um Silver
FXREG024HR0H 3.3V to 1.2V with 120mA driving capability; Linear Regulator; UMC 0.11um HS/FSG Logic Process Analog_IP 0.11um Bronze
FXREG025HC0H UMC 0.13um Logic HS (FSG) process 3.3V to 1.2V with 120mA driving capability Regulator Analog_IP 0.13um Bronze
FXREG025HR0B 3.3V to 1.2V with 50mA driving capability; Linear Regulator;UMC 0.11um HS/AE (AL Advanced Enhancement) Logic Process Analog_IP 0.11um Silver
FXREG026HC0H 3.3V to 1.2V with 150mA driving capability; Linear Regulator; UMC 0.13um LOGIC PROCESS Analog_IP 0.13um Silver
FXREG026HF0A 1.7V~3.6V to 1.0V with 600mA driving capability, Linear Regulator,UMC 55nm LP/RVT LowK Logic Process Analog_IP 55nm Silver Minus
FXREG028HR0B 3.3V to 1.2V with 150mA driving capability; Non-trim Linear Regulator; UMC 0.11um HS/AE (AL Advanced Enhancement) Logic Process Analog_IP 0.11um Silver
FXREG030H90A 3.3V with 250mA driving capability, Istb=85uA Linear Regulator; 0.25um Logic process Analog_IP 0.25um Gold
FXREG030HA0A 3.3V with 60mA driving capability, Istb=85uA Linear Regulator; 0.18um Logic GII process Analog_IP 0.18um Gold
FXREG030HC0H 3.3V to 1.2V, 1.0V and 0.8V with 50mA driving capability for each, Istb=130uA; Linear Regulator. UMC 0.13um Logic HS (FSG) process Analog_IP 0.13um Silver
FXREG030HJ0C 1.8V to 0.9V with 300mA driving capability; Capacitor Linear Regulator; UMC 28nm HPC Process Analog_IP 28nm Contact Sales
 
FXREG041HA0A 3.3V with 240mA driving capability, Istb=uA Linear Regulator; 0.18um Logic GII process Analog_IP 0.18um Platinum
FXREG041HA0L 3.3V with 240mA driving capability, Istb=uA Linear Regulator; 0.18um Logic LL process Analog_IP 0.18um Silver
FXREG060H80A 5V with 250mA driving capability, Istb=120uA Linear Regulator; 0.35um Logic process Analog_IP 0.35um Silver
FXREG060HA0A 5V with 250mA driving capability, Istb=120uA Linear Regulator; 0.18um Logic GII process Analog_IP 0.18um Platinum
FXREG060HA0F 5V to 3.3V and 1.8V with 250mA and 70mA driving capability, Istb=200uA; Linear Regulator; UMC 0.18um eFlash process Analog_IP 0.18um Silver
FXREG060HC0H 5V to 3.3V(200mA) & 1.2V(110mA) audio solution regulator;UMC 0.13um Logic HS (FSG) process Analog_IP 0.13um Bronze
 
FXREG060HR0H Input 4.5V-5.5V; 3.3V/150mA Output Regulator; UMC 0.11um HS/FSG Logic Process Analog_IP 0.11um Silver
FXREG061HA0A 5V to 3.3V/1.8V with 250mA/70 mA driving capability, Istb=80uA; Linear Regulator; UMC 0.18um GII process. Analog_IP 0.18um Silver
FXREG061HP0A 5V to 3.3V/1.8V with 80mA/40mA driving capability, Linear Regulator; UMC 0.162um GII process. Analog_IP 0.162um Silver
FXREG061HR0B Input 4.5V-5.5V; 3.3V/350mA and 1.2V/100mA Voltage Regulator; UMC 0.11um HS/AE (AL Advanced Enhancement) Logic Process Analog_IP 0.11um Silver
FXREG062HR0H Input 4.5V-5.5V; 3.3V/350mA and 1.2V/350mA Voltage Regulator;UMC 0.11um HS/FSG Logic Process Analog_IP 0.11um Bronze
FXREG070HL0A 5.0V to 4.2V Linear Regulator with 1000mA driving capability ; UMC 0.153um 1.8V/3.3V Logic/Mixed-Mode Process Analog_IP 0.153um Bronze
FXREG070HR0B 5V to 3.3V with 300mA driving capability; Cascode Structure Regulator; UMC 0.11um HS/AE (AL Advanced Enhancement) Logic Process Analog_IP 0.11um Bronze
FXREG100HH0L 3.3V to 1.1V with 150mA driving capability; High accuracy Non-trim Linear Regulator; UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Silver
FXREG110HJ0C 3.3V to 1.8V with 10uA driving capability; Capacitor-free Linear Regulator; UMC 28nm HPC Process Analog_IP 28nm Contact Sales
FXREG111HJ0C 3.3v to 1.2v/1ma with power switch function ,UMC 28nm HPC Logic process Analog_IP 28nm Contact Sales
FXREG112HJ0C 3.3V to 0.9V with 2mA driving capability,Linear Regulator; UMC 28nm HPC Logic and Mixed-Mode process Analog_IP 28nm Contact Sales
 
FXREG120HA0A Input 2.7V~3.6V, Output=1.8V,Loading 50mA Regulator; UMC 0.18um GII 1.8V/3.3V Process Analog_IP 0.18um Bronze
FXREG120HF0U_NPWELL 3.3V to 0.3V and VCCK-0.3V / 10mA voltage source for N/P well forward body bias, Linear Regulator, UMC 55nm uLP/RVT Low-K Logic Process Analog_IP 55nm Contact Sales
FXREG121HF0U 1.0~3.6V input, loading 20mA, 0.9V output with VBG=0.75V Linear Regulator; UMC 55nm LP/UHVT LowK Logic Process Analog_IP 55nm Silver
FXREG122HF0G 3.3V to 1.2V/0.9V with 100mA driving capability;Linear Regulator, UMC 55nm uLP/RVT Low-K Logic Process Analog_IP 55nm Bronze
FXREG122HF0U 3.3V to 1.2V/0.9V with 100mA driving capability;Linear Regulator, UMC 55nm uLP/HVT Low-K Logic Process Analog_IP 55nm Silver Minus
 
FXREG140H80A 5V with 50mA driving capability, Istb=124uA Linear Regulator; 0.35um Logic process Analog_IP 0.35um Gold
FXREG200HH0L 3.3V to 1.1V with 100mA driving capability; Fast Transient Linear Regulator; UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Silver
FXREG210HA0A (Preliminary) 3.3V with 120mA driving capability, Istb=60uA Linear Regulator; 0.18um Logic GII process Analog_IP 0.18um Silver
FXREG210HJ0C 3.3V to 2.0V with 288mA driving capability with external capacitor,use trimming ports (need e-Fuse IP); Linear Regulator; UMC 28nm Logic HPC Process Analog_IP 28nm Contact Sales
FXREG230HH0L 3.3V to 1.1V/100mA REG; Linear Regulator; UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Bronze
FXREG231HH0L 3.3V to 1.1V /50mA REG; Linear Regulator; UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Bronze
FXREG300HH0L 3.3V to 2.5V with 5mA driving capability; Capacitor-free Linear Regulator; UMC 40nm Logic/Mixed-Mode Low Power Process Analog_IP 40nm Bronze
FXREG300HJ0C 3.3V to 2.5V with 5mA driving capability; Capacitor-free Linear Regulator; UMC 28nm HPC Process Analog_IP 28nm Silver Minus
FXREG300HR0B 3.3V to 2.5V with 5mA driving capability; Capacitor-free Linear Regulator; UMC 0.11um HS/AE Logic Process Analog_IP 0.11um Bronze
FXREG301HF0L 3.3V to 0.75*VCC33A with 5mA driving capability with external capacitor; Linear Regulator; UMC 55nm LP/RVT LowK Logic Process Analog_IP 55nm Contact Sales
 
FXREG320HJ0C Source and Sink Current 100mA LDO for 28nm cascade I/O, UMC 28nm HPC Logic and Mixed-Mode Process Analog_IP 28nm Contact Sales
 
FXREGSATA168HD0A 2 port Linear regulator for FXSATA168HD0A ; UMC 90nm SP/RVT LowK Logic Process Analog_IP 90nm Silver Minus
 
FXRGSO010HJ0C Source Low Dropout Linear Regulator for Cascade IO ; UMC 28nm HPC Process Analog_IP 28nm Contact Sales
 
REG8003H 5V with 150mA driving capability, Istb=120uA Linear Regulator; 0.35um Logic process Analog_IP 0.35um Platinum
REG8004H 5V with 70mA driving capability, Istb=120uA Linear Regulator; 0.35um Logic process Analog_IP 0.35um Silver
REG9001H 3.3V with 70mA driving capability, Istb=75uA Linear Regulator; 0.25um Logic process Analog_IP 0.25um Platinum
REG9002H 3.3V with 150mA driving capability, Istb=75uA Linear Regulator; 0.25um Logic process Analog_IP 0.25um Platinum
REGA002H 3.3V with 100mA driving capability, Istb=100uA Linear Regulator; 0.18um Logic GII process Analog_IP 0.18um Gold
 
Analog > Power
> PWM Regulator 
Cell Name Descriptions Type Process Gradation Literature
FXPMU001H80U Power Management Unit(5-sets DC-DC, 2-sets REG, PowerSwitch, and Li-ion Charger) for Audio Platform; UMC 0.35um 3.3V/5V CDMOS process Analog_IP 0.35um Silver Minus
FXPWM010H90A Pulse width modulation, boosting voltage from 3.3V to 5V, 50mA driving capability, Ivcca=150uA @ Idrive=0 Analog_IP 0.25um Silver
FXPWM010HA0A Pulse width modulation, boosting voltage from 3.3V to 5V, 50mA driving capability, Ivcca=140uA @ Idrive=0 Analog_IP 0.18um Gold
FXPWM010HC0A PWM controller with soft start function for DC to DC boost converter, 0.13um Logic HS (FSG) process Analog_IP 0.13um Platinum
FXPWM010HR0B 3V~3.6V to 5V DC-DC converter with 100mA driving capability; UMC 0.11um HS/AE (AL Advanced Enhancement) Logic Process Analog_IP 0.11um Bronze
FXPWM011HD0A Boosting voltage from 3.3V to 5V, 100mA driving capability, Ivcca=200uA @ Idrive=0mA, Pulse Width Modulator; UMC 90nm SP/RVT low-K process. Analog_IP 90nm Silver
FXPWM011HE0C Boosting voltage from 3.3V to 5V, 100mA driving capability, Ivcca=200uA @ Idrive=0, Pulse Width Modulator; UMC 65nm Logic SP/HVT Low-K process. Analog_IP 65nm Silver
FXPWM011HE0K DC-DC Power Converter, Input:3.0V~3.6V, output:5V, 50mA loading; UMC 65nm LL(RVT) Low_K process. Analog_IP 65nm Silver Minus
FXPWM011HH0L Boosting voltage from 3.3V to 5V, 100mA driving capability, Pulse Width Modulator; UMC 40nm Logic LP/RVT Low-K process. Analog_IP 40nm Bronze
FXPWM011HL0A Pulse Width Modulation, boosting voltage from 3.3V to 5V/50mA driving capability, Ivcca=140uA@Idrive=0 ; UMC 0.153um Logic/Mixed-Mode Process Analog_IP 0.153um (85% shrink of 0.18um) Silver
FXPWM020HC0L 3.3V to 1.8V high efficiency converter with 150mA driving capability,PWM Regulator; UMC 0.13um Logic LL (FSG) process Analog_IP 0.13um Silver
FXPWM021HC0H 3.3V to 1.8V high efficiency converter with 200mA driving capability PWM Regulator ; UMC 0.13um HS/FSG Logic Process Analog_IP 0.13um Silver
FXPWM021HH0L 3.3V to 1.1V / 600mA PWM, Switching Regulator, UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Bronze
FXPWM028HR0B 2.5V/3.3V to 1.05V high efficiency converter with 250mA driving capability, compensation built-in, PWM regulator; UMC 0.11um HS/AE (AL Advanced Enhancement) Logic Process Analog_IP 0.11um Silver Minus
FXPWM030H80A Three pulse width modulation, boosting voltage from 3.3V to +/-12.5V, and +6V, Ivcca=450uA @ Idrive=0 Analog_IP 0.35um Silver
FXPWM030HC0H 3.3V to 1.8V high efficiency converter with 150mA driving capability,PWM Regulator; UMC 0.13um HS\FSG Logic Process Analog_IP 0.13um Silver Minus
FXPWM052HR0B 0.95V~1.5V to 3.0V DC-DC converter with 100mA driving capability ; UMC 0.11um HS/AE (AL Advanced Enhancement) Logic Process Analog_IP 0.11um Silver
FXPWM070HL0A 5.0V to 3.3V high efficiency converter with 300mA driving capability PWM Regulator ; UMC 0.153um 1.8V/3.3V Logic/Mixed-Mode Process Analog_IP 0.153um Silver
FXPWM070HR0B 5.0V to 3.3V high efficiency converter with 300mA driving capability PWM Regulator ; UMC 0.11um 1.2V/3.3V HS/AE (AL Advanced Enhancement) Logic Process Analog_IP 0.11um Bronze
FXPWM220HF0F 3V~4.6V to 1.2V~2.5V / 600mA Current mode PWM, Switching Regulator, UMC 55nm eFlash LowK Logic Process Analog_IP 55nm Contact Sales
 
FXPWM220HF0L 3V~4.6V to 1.2V~2.5V / 600mA Current mode PWM, Switching Regulator, UMC 55nm LP LowK Logic Process Analog_IP 55nm Contact Sales
 
 
Analog > Power
> Power Switch 
Cell Name Descriptions Type Process Gradation Literature
FXPSW010HF0L 2 Input Power Switch; UMC 55nm LP/RVT LowK Logic Process Analog_IP 55nm Silver Minus
 
Analog > Power
> Power on Reset 
Cell Name Descriptions Type Process Gradation Literature
FXPOR231HF0U this Ip includes programmble power on reset function(BOR0~5) and voltage reference VREEF=1.3V and sink/source current reference (10nA 50nA 100nA), supply volatage VCCA=1.62~3.6V,UMC 55nm ulp LowK Logic process Analog_IP 55nm Contact Sales
 
FXPORA010HC0H Vrr=0.8V Vfr=0.65V, VCC=1.2V, Ivcc=12.7uA; HS process with A-type I/O.; Power On Reset; UMC 0.13um Logic HS (FSG) process Analog_IP 0.13um Gold
FXPORA031H90A Power on reset using 0.25um process, A-type I/O ,Urr=1.8V,Ufr=1.6V; UMC 0.25um Logic process. Analog_IP 0.25um Gold
 
FXPORAH010HC0H 0.13um HS process, 3.3V device vcc3I, Vrr=2.2V, Vfr=2V, Ivcc=13mA; Power On Reset; UMC 0.13um Logic HS (FSG) process Analog_IP 0.13um Silver
FXPORAH010HC0H_MBU00
1
UMC 0.13um HS Logic process;Vrr=2.2V, without Vfr, A type IO; 3.3V Power On Reset. Analog_IP 0.13um Silver
 
FXPORAH010HR0B Vrr=2.2V, Vfr=2.0V, A type IO; 3.3V Power On Reset; UMC 0.11um HS/AE (AL Advanced Enhancement) Logic Process Analog_IP 0.11um Bronze
FXPORAH035HR0F Vrr=2.2V, Vfr=2.0V, A type IO; 3.3V Power On Reset; UMC 0.11um AL eFlash Process Analog_IP 0.11um Silver
FXPORALH230HJ0CEW Input VCC18V=1.8V, 1.8V Power On Reset for East-West Orientation; UMC 28nm HPC Logic Process Analog_IP 28nm Bronze
FXPORALH230HJ0CNS Input VCC18V=1.8V, 1.8V Power On Reset for North-South Orientation; UMC 28nm HPC Logic Process Analog_IP 28nm Contact Sales
 
FXPORB010HB0A Vrr=1.1V Vfr=0.95V, VCC=1.5V; B-type I/O.; Power On Reset; UMC 0.15um SP Logic process Analog_IP 0.15um Silver
FXPORB010HC0H Vrr=0.8V Vfr=0.65V, VCC=1.2V, Ivcc=12.7uA; HS process with B-type I/O.; Power On Reset; UMC 0.13um Logic HS (FSG) process Analog_IP 0.13um Gold
FXPORB030H90A Vrr=1.8V Vfr=1.6V, VCC=2.5V, Ivcc=13.4uA; B type I/O; Power On Reset; UMC 0.25um Logic process Analog_IP 0.25um Gold
FXPORB130H90A Power on Reset circuit tolerant with 0.25um,2.5V MMC and Logic process VCC=2.5V, B type IO; Power On Reset; UMC 0.25um Logic process Analog_IP 0.25um Gold
FXPORBH010HR0B Vrr=2.2V, Vfr=2.0V, A type IO; 3.3V Power On Reset; UMC 0.11um HS/AE (AL Advanced Enhancement) Logic Process Analog_IP 0.11um Bronze
 
FXPORBH070HR0B Vrr=2.2V, Vfr=2.0V, B type IO; 3.3V Power On Reset; UMC 0.11um HS/AE (AL Advanced Enhancement) Logic Process Analog_IP 0.11um Silver Minus
FXPORBLH015HR0B Vrr=2.2V Vfr=2.0V, B type IO; input VCCK=1.2V VCC3IO=3.3V, 3.3V Power On Reset; UMC 0.11um HS/AE (AL Advanced Enhancement) Logic Process Analog_IP 0.11um Silver
FXPORC030HA0A Vrr=1.2V Vfr=1.0V, VCC=1.8V, Ivcc=6.7uA; C type I/O; Power On Reset; UMC 0.18um Logic GII process Analog_IP 0.18um Platinum
FXPORC130H90A Power on Reset with Vrr and Vfr.; Power On Reset; UMC 0.25um Logic process Analog_IP 0.25um Gold
FXPORC730HA0L Vrr=1.2V, Vfr=1.1V, C version IO, corner type, Power on Reset ; UMC 0.18um LL process. Analog_IP 0.18um Silver
FXPORD030HA0A Vrr=1.2V Vfr=1.0V, VCC=1.8V, Ivcc=6.7uA; D type I/O; Power On Reset; UMC 0.18um Logic GII process Analog_IP 0.18um Platinum
FXPORD130H90A Power on Reset with Vrr and Vfr.; Power On Reset; UMC 0.25um Logic process Analog_IP 0.25um Gold
FXPORD730HA0A FXPORD730HA0A 0.18um power on reset at the corner of D-type IO Vrr=1.2V Vfr=1V; Power On Reset; UMC 0.18um Logic GII process Analog_IP 0.18um Silver
FXPORD730HA0L Vrr=1.2V, Vfr=1.1V, D version IO, corner type, Power on Reset; UMC 0.18um LL process. Analog_IP 0.18um Bronze
FXPORK010HD0K Power On Reset (POR); UMC 90nm LL logic process, RVT; Core type; Vrr=0.85V Vfr=0.75V. Analog_IP 90nm Silver Minus
FXPORK030HA0A Vrr=1.2V Vfr=1.0V, VCC=1.8V, Ivcc=6.7uA; Core type; Power On Reset; UMC 0.18um Logic GII process. Analog_IP 0.18um Platinum
FXPORK030HA0L Vrr=1.2V Vfr=1.1V, VCC=1.8V, Ivcc=12.2uA; Core type; Power On Reset; UMC 0.18um Logic LL process. Analog_IP 0.18um Bronze
FXPORK030HC0H Vrr=0.8V Vfr=0.65V, VCC=1.2V, Ivcc=11.7uA; Core type; Power On Reset; UMC 0.13um logic HS(FSG) process. Analog_IP 0.13um Silver
FXPORK030HC0L Vrr=0.8V Vfr=0.65V, VCC=1.2V, Ivcc=10.7uA; Core type; Power On Reset; UMC 0.13um Logic LL(FSG) process. Analog_IP 0.13um Platinum
FXPORK030HF0L Vrr=Vfr=0.8V,input VCC=1.2V, 1.2V Power On Reset; UMC 55nm 1P10M2T LP/RVT LowK Logic Process Analog_IP 55nm Silver Minus
FXPORK035HA0A Vrr=1.2V Vfr=1.0V, input 1.8V, Core type; Power On Reset; UMC 0.18um Logic GII process Analog_IP 0.18um Bronze
FXPORK035HD0K Vrr=0.7V, Vfr=0.65V, input VCCK=1.2V, Core Type Power On Reset; UMC 90nm Logic/Mixed-mode LL-RVT LowK Process Analog_IP 90nm Silver Minus
FXPORK035HE0A Vrr=0.67V, Vfr=0.62, input 10V, Core type; Power On Reset; UMC 65nm SP/RVT LowK Process Analog_IP 65nm Silver
FXPORK035HF0A Vrr=0.67V, Vfr=0.62, input 1.0V, Core type; Power On Reset; UMC 55nm SP/RVT LowK Process Analog_IP 55nm Silver
FXPORK050H90A Vrr=1.6V Vfr=1.4V, core type; Power On Reset with tunable reset time by external capacitor; UMC 0.25um Logic/MMC process Analog_IP 0.25um Gold
FXPORK050HA0A Vrr=1.2V Vfr=1.0V, input 1.8V, Core type; Power On Reset; UMC 0.18um GII process Analog_IP 0.18um Silver Minus
FXPORK055HA0A Vrr=1.2V Vfr=1.0V, input 1.8V, Core type (with Self-Test Circuit); Power On Reset; UMC 0.18um GII process Analog_IP 0.18um Silver
FXPORK055HL0A Vrr=1.2V Vfr=1.0V, input 1.8V, Core type (with Self-Test Circuit); Power On Reset; UMC 0.153um Mixed-Mode/Logic Process Analog_IP 0.153um Bronze
FXPORK055HP0A Vrr=1.2V Vfr=1.0V, input 1.8V, Core type (with Self-Test Circuit); Power On Reset; UMC 0.162um Logic Process Analog_IP 0.162um Silver
FXPORK130H80A Vrr=1.96V Vfr=1.76V, input 3.3V, Core Type; Power On Reset; UMC 0.35um Logic process Analog_IP 0.35um Silver
FXPORK130HA0F Vrr=1.2V Vfr=1.0V, input 1.8V, Core type; Power On Reset; UMC 0.18um e-Flash process Analog_IP 0.18um Silver
FXPORK130HC0G Vrr=0.76V Vfr=0.66V, input 1.2V, Core type; Power On Reset; UMC 0.13um Logic SP(FSG) process Analog_IP 0.13um Silver
FXPORK130HC0H Vrr=0.75V Vfr=0.65V, input 1.2V, Core type; Power On Reset; UMC 0.13um Logic HS(FSG) process Analog_IP 0.13um Bronze
FXPORK135HC0G Vrr=0.76V Vfr=0.66V, input 1.2V, Core type; Power On Reset; UMC 0.13um Logic SP(FSG) process Analog_IP 0.13um Bronze
FXPORK135HC0H Vrr=0.75V Vfr=0.65V, input 1.2V, Core type; Power On Reset; UMC 0.13um Logic HS(FSG) process Analog_IP 0.13um Silver
FXPORK135HD0A Vrr=0.67V Vfr=0.63V, input 1.0V, Core type; Power On Reset (with Self-Test Circuit);UMC 90nm Logic SP-RVT LowK process Analog_IP 90nm Gold
FXPORK230HA0A Vrr=1.45V Vfr=1.35V, input 1.8V, Core type; Power On Reset; UMC 0.18um Logic GII process Analog_IP 0.18um Silver Minus
FXPORK230HF0F Vrr=0.8V,Vfr=0.65V,input VCC=1.2V, 1.2V Power On Reset; UMC 55nm e-flash Logic Process Analog_IP 55nm Bronze
FXPORK230HF0L Vrr=0.8V,Vfr=0.65V,input VCC=1.2V, 1.2V Power On Reset; UMC 55nm 1P10M2T LP/RVT LowK Logic Process Analog_IP 55nm Silver Minus
FXPORK230HF0U Vrr=0.65V Vfr=0.6V, Input VCC=1.2V, Power On Reset; UMC 55nm uLP Logic Process Analog_IP 55nm Contact Sales
FXPORK235HH0L Vrr=0.8V,Vfr=0.65V,input VCC=1.1V, 1.1V Power On Reset; UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Silver
FXPORK235HP0U Power on reset(POR) block ; UMC 0.162um EHV Process Analog_IP 0.162um Silver Minus
 
FXPORK235HR0B Power on reset(POR) block ; UMC 0.11um HS/AE (AL Advance Enhancement) Logic Process Analog_IP 0.11um Silver
 
FXPORK235HR0F Power on reset(POR) block ; UMC 0.11um e-flash Process Analog_IP 0.11um Silver
FXPORK235HR0H Power on reset(POR) block; UMC 0.11um HS/copper Logic Process Analog_IP 0.11um Silver
FXPORK600HJ0C Input VCC=0.9V, 0.9V Power On Reset without Vfr; UMC 28nm HPC Logic Process Analog_IP 28nm Bronze
FXPORK630HJ0C Vrr=0.63V,Vfr=0.56V,input VCC=0.9V, 0.9V Power On Reset; UMC 28nm HPC Logic Process Analog_IP 28nm Bronze
FXPORKH025HH0L 2.5V Power On Reset, Vrr=1.90 without Vfr, UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Bronze
FXPORKH075HD0A Vrr=Vfr=2V,input VCC3IO=3.3V, 3.3V RTC Power On Reset;special request by MTD; UMC 90nm 1P9M2T SP/RVT LowK Logic Process Analog_IP 90nm Silver Minus
FXPORKH075HF0A 3.9~1.5V (RTC core cell operating voltage+), Rise-relax voltage (Vrr), min. 1.6V (1.6V~2.3V) Power On Reset ; UMC 55nm SP/RVT LowK Logic Process Analog_IP 55nm Bronze
 
FXPORKH075HH0L Vrr=2.0V Vfr=1.9V, VCC3I=2.5V, 2.5V Power On Reset;special request; UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Silver Minus
FXPORKHR025HH0L 3.3V Power On Reset, Vrr=1.90 without Vfr, UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Silver Minus
FXPORKHR035HF0G 3.3V RTC Power On Reset; UMC 55nm uLP/SST Logic Process Analog_IP 55nm Bronze
 
FXPORKHR035HF0U 3.3V RTC Power On Reset; UMC 55nm uLP Logic Process Analog_IP 55nm Silver Minus
FXPORKHR045HF0U Vrr=0.8V,Input 1.14V~3.63V RTC Power On Reset; UMC 55nm uLP Logic Process Analog_IP 55nm Contact Sales
 
FXPORKHR200HF0F Input VCC3V=3.3V, 3.3V Power On Reset without Vfr; UMC 55nm eFlash Logic Process Analog_IP 55nm Contact Sales
FXPORKHR200HF0L Input VCC3V=3.3V, 3.3V Power On Reset without Vfr; UMC 55nm LP Logic Process Analog_IP 55nm Bronze
FXPORKHR230HF0F Input VCC3V=3.3V, 3.3V Power On Reset; UMC 55nm eFlash Logic Process Analog_IP 55nm Contact Sales
FXPORKHR230HF0L Input VCC3V=3.3V, 3.3V Power On Reset; UMC 55nm LP Logic Process Analog_IP 55nm Silver Minus
FXPORKHR230HJ0C 1.8V RTC Power-On-Reset, UMC 28nm HPC Process Analog_IP 28nm Bronze
FXPORKHR730HF0U Vrr=0.8V Vfr=0.75V, Input VCC=3.3V, Power On Reset; UMC 55nm uLP Logic Process RTC library Analog_IP 55nm Contact Sales
 
FXPORKLH035HC0H 2.5V~3.3V POR ; UMC 0.13um HS/FSG Logic Process Analog_IP 0.13um Silver
 
FXPORKLH035HD0A Vrr=2V Vfr=1.95V, input VCCK=1.0V VCC3IO=3.3V, 3.3V Power On Reset;special request by ASAL; UMC 90nm 1P9M SP/RVT LowK Logic Process Analog_IP 90nm Silver Minus
 
FXPORKLH035HF0A Vrr=2.81V Vfr=2.81, input VCCK=1.0V VCC3IO=3.3V, 3.3V Power On Reset;special request; UMC 55nm SP/RVT LowK Logic Process Analog_IP 55nm Silver
FXPORKLH035HH0L Vrr=2.33V Vfr=2.26V, input VCCK=1.0V VCC3IO=3.3V, 3.3V Power On Reset;special request; UMC 40nm LP/RVT LowK Logic Process Analog_IP 40nm Silver
FXPORKLH230HH0L Input VCC3V=3.3V, 3.3V Power On Reset; UMC 40nm LP Logic Process Analog_IP 40nm Silver
FXPORKLH230HJ0C Input VCC18V=1.8V, 1.8V Power On Reset; UMC 28nm HPC Logic Process Analog_IP 28nm Bronze
FXPORKLH530HF0F Input VCC=1.2V & VCC3V=3.3V, 1.2/3.3V Power On Reset; UMC 55nm eflash Logic Process Analog_IP 55nm Bronze
FXPORKLH530HF0G Input VCC=1.2V & VCC3V=3.3V, 1.2/3.3V Power On Reset; UMC 55nm uLP/SST Logic Process Analog_IP 55nm Silver Minus
FXPORKLH530HF0L Input VCC=1.2V& VCC3V=3.3V, 1.2/3.3V Power On Reset; UMC 55nm LP Logic Process Analog_IP 55nm Silver
FXPORKLH530HF0U Input VCC=1.2V & VCC3V=3.3V, 1.2/3.3V Power On Reset; UMC 55nm uLP Logic Process Analog_IP 55nm Bronze
FXPORKLH530HH0L Input VCC=1.1V& VCC3V=3.3V, 1.1/3.3V Power On Reset; UMC 40nm LP Logic Process Analog_IP 40nm Silver
POR7002 Vrr=3.4V Vfr=3.0V, VCC=5V, Ivcc=17uA; B type I/O; Power On Reset; UMC 0.5um Logic process Analog_IP 0.5um Gold
POR8001 Vrr=2.5V Vfr=2.3V, VCC=3.3V, Ivcc=18uA; Power On Reset; UMC 0.35um Logic process Analog_IP 0.35um Platinum
PORB030HA0A Vrr=1.2V Vfr=1.0V, VCC=1.8V, Ivcc=6.7uA; B type I/O; Power On Reset; UMC 0.18um Logic GII process Analog_IP 0.18um Gold
PORM3B Vrr=2.3V without Vfr, VCC=3.3V, Ivcc=17uA; B type I/O; Power On Reset; UMC 0.5um Logic process Analog_IP 0.5um Gold
PORM3L Vrr=2.3V without Vfr, VCC=3.3V, Ivcc=17uA; L type I/O; Power On Reset; UMC 0.5um Logic process low voltage Analog_IP 0.5um Gold
 
Analog > Power
> Voltage Detector 
Cell Name Descriptions Type Process Gradation Literature
FXVDT010HA0A Vdet=1.3V Vhys=0.1V, VCCA=1.8V, Ivcca=35uA; UMC 0.18um Logic GII process Analog_IP 0.18um Silver
FXVDT010HD0A Voltage Detect Vdet=2.5V Vhys=0.1V, generate a high/low level logic for a precise power supply monitoring system; UMC 90nm SP/RVT LowK Logic Process Analog_IP 90nm Silver Minus
FXVDT010HF0A Voltage detector; UMC 55nm Logic SP/RVT Low-K Process Analog_IP 55nm Silver Minus
FXVDT010HH0L Power input 3.3v, 1-level voltage detector, UMC 40nm LP/RVT LowK Logic process Analog_IP 40nm Bronze
FXVDT010HR0H Voltage Detect Vdet=2.5V Vhys=0.1V, generate a high/low level logic for a precise power supply monitoring system; UMC 0.11um HS/FSG Logic Process Analog_IP 0.11um Bronze
FXVDT013HH0L Power input 1.1v, 4-level voltage detector, UMC 40nm LP/HVT LowK Logic process Analog_IP 40nm Silver
FXVDT020HA0A 4-level detector for USB-OTG, VCCA=3.3V, Ivcca=125uA; UMC 0.18um Logic GII process Analog_IP 0.18um Platinum
FXVDT020HC0A 4-level voltage detector for USB_OTG; UMC 0.13um Logic HS (FSG) process Analog_IP 0.13um Platinum
FXVDT020HF0F Voltage Detect Vdet1=2.8V,Vhys1=0.1V, Vdet2=2.6V, Vhys2=0.1V.Vdet2 rsie delay>10ms, fall delay<1ms. Generate high/low level logic for a precise power supply monitoring system; UMC 55nm eFlash Process Analog_IP 55nm Silver Minus
FXVDT020HR0B 4-level detector for USB-OTG applications, input 3.3V; UMC 0.11um HS/AE Logic process Analog_IP 0.11um Silver
FXVDT020HR0F 4-level detector for USB-OTG applications, input 3.3V; UMC 0.11um eFlash Logic process Analog_IP 0.11um Bronze
FXVDT021HD0A 4-Level Voltage Detector for USB-OTG; UMC 90nm Lgic SP-RVT (LowK) process and 2.5V overdrive 3.3V device. Analog_IP 90nm Silver
FXVDT021HD0K 4-Level Voltage Detector for USB-OTG; UMC 90nm logic LL-RVT (LowK) process and 2.5V overdrive 3.3V device. Analog_IP 90nm Silver
FXVDT021HE0C 4-Level Voltage Detector for USB-OTG (2.5V overdrive 3.3V device); UMC 65nm logic SP-HVT (LowK) process Analog_IP 65nm Silver
FXVDT021HE0K 4-Level Voltage Detector for USB-OTG; UMC 65nm logic LL-RVT (LowK) process and 2.5V overdrive 3.3V device. Analog_IP 65nm Silver
FXVDT021HF0A 4-Level Voltage Detector for USB-OTG ; UMC 55nm 2.5V overdrive 3.3V device SP/HVT LowK Logic Process Analog_IP 55nm Bronze
FXVDT021HF0F 4-Level Voltage Detector for USB-OTG ; UMC 55nm eflash LP/RVT Process Analog_IP 55nm Bronze
FXVDT021HF0L 4-Level Voltage Detector for USB-OTG ; UMC 55nm 2.5V overdrive 3.3V device LP/HVT LowK Logic Process Analog_IP 55nm
FXVDT021HH0L 4-Level Voltage Detector for USB-OTG ; UMC 40nm 2.5V overdrive 3.3V device LP/RVT Logic Process Analog_IP 40nm Silver
FXVDT021HJ0C 4-Level Voltage Detector for USB-OTG ; UMC 28nm HPC Process Analog_IP 28nm Silver Minus
FXVDT021HL0A 4-level detector for USB-OTG, VCCA=3.3V, Ivcca=125uA; UMC 0.153um 1.8V/3.3V Logic GII process Analog_IP 0.153um (85% shrink of 0.18um) Silver
FXVDT022HF0A 2-sets voltage detector ; UMC 55nm Logic SP/RVT Low-K Process Analog_IP 55nm Silver Minus
FXVDT022HF0F 2-sets voltage detector; UMC 55nm eflash LP/RVT Process Analog_IP 55nm Contact Sales
 
FXVDT022HF0L 2-sets voltage detector; UMC 55 nm Logic LP/RVT Low-K Process Analog_IP 55nm Silver Minus
FXVDT022HJ0C Power input 3.3v or 1.8v, 2-set voltage detector, UMC 28nm HPC Logic Process Analog_IP 28nm Contact Sales
FXVDT023HF0F programmable voltage detector; umc55nm eflash Analog_IP 55nm Bronze
FXVDT023HJ0C Power input 1.8v, Detect level 0.7V~1.8V and 2.5V~2.9V, 2-set voltage detector, UMC 28nm HPC Logic Process Analog_IP 28nm Contact Sales
FXVDT028HF0U programmable voltage detector; umc55ulp Analog_IP 55nm Contact Sales
 
FXVDT040H90A 0.25um process 2 level voltage detector; UMC 0.25um Logic process Analog_IP 0.25um Silver
FXVDT040HA0A 3-level detector for MMC flash storage, VCCA=3.3V, Ivcca=65uA; UMC 0.18um Logic GII process Analog_IP 0.18um Silver
FXVDT040HA0L VDT for MMC; UMC 0.18um Logic LL process Analog_IP 0.18um Silver
FXVDT040HR0B 2-sets voltage detector ;UMC 0.11nm Logic Mixed Mode AE Process Analog_IP 0.11um Bronze
FXVDT050HA0A 4-level voltage detector for MP3; UMC 0.18um Logic GII process Analog_IP 0.18um Silver
FXVDT050HC0L 4-level voltage detector , input 1.2V, Ivcca=65uA; UMC 0.13um LL-LVT(FSG) process. Analog_IP 0.13um Silver
FXVDT110HF0G Power input 3.3V, Comparator ; UMC 55nm SST uLP/HVT Low-K Logic Process Analog_IP 55nm Bronze
FXVDT110HF0U Power input 3.3V, Comparator , UMC 55nm uLP/HVT Low-K Logic Process Ultra High Density (6T) C60 Core Cell Library Analog_IP 55nm Silver Minus
FXVDT121HF0U Power input 3.3V, 2-set Comparator; UMC 55nm ulp LowK Logic process Analog_IP 55nm Contact Sales
 
FXVDT730HF0U Vrr=0.77V Vfr=0.75V, Input VCC=1.8V, Voltage Detector; UMC 55nm uLP Logic Process RTC library Analog_IP 55nm Contact Sales
 
FXVDTH030H90A Vdet=2.8V Vhys=0.1V, VCCA=3.3V, Ivcca=30uA; UMC 0.25um Logic process Analog_IP 0.25um Platinum
FXVDTH030HA0A Vdet=2.4V, Vhys=0.1V, VCCA=3.3V, Ivcca=35uA; UMC 0.18um Logic GII process Analog_IP 0.18um Gold
FXVDTH030HA0L Voltage detector for flash protect; UMC 0.18um Logic LL process Analog_IP 0.18um Silver
FXVDTL010H70A 5V/3.3V detector VDT; UMC 0.5um Logic process Analog_IP 0.5um Gold
VDT030H80A Vdet=2.55V Vhys=0.05V, VCC=3.3V, Ivcc=35uA; UMC 0.35um Logic process Analog_IP 0.35um Gold
VDT9001 Vdet=2.1V Vhys=0.1V, VCCA=2.5V, Ivcca=27uA; UMC 0.25um Logic process Analog_IP 0.25um Gold