IP Portal

Sel. IP Name Category Provider Geometry Process Name Status Deliverable Description
arcoc01 Oscillator
X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. arcoc01 is a 200kHz fixed frequency, current balancing RC oscillator with internal R and C.

arcoc02 Oscillator
X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. arcoc02 is a 200kHz adjustable current balancing RC oscillator with internal R and C.

arcoc03 Oscillator
X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. arcoc03 is a 1MHz fixed frequency, current balancing RC oscillator with internal R and C.

arcoc04 Oscillator
X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. arcoc04 is a 1MHz an adjustable current balancing RC oscillator with internal R and C.

arcoc05 Oscillator
X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. arcoc05 is a 10kHz RC oscillator with internal R and C. The cell is suitable for applications that do not require high stability.

arcoc06 Oscillator
X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. arcoc06 is a 100kHz RC oscillator with internal R and C.

axtoc02 Crystal Oscillators
X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. axtoc02 is a 1…2MHz crystal oscillator for voltage range from 3.5V to 5.5V.

axtoc03 Crystal Oscillators
X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. axtoc03 is a 2…5MHz crystal oscillator for voltage range from 3.5V to 5.5V.

aporc01 Power on Reset
X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. aporc01 is a digital power-on-reset circuit. During power-on, POR output is kept high as long as the supply voltage is below the POR threshold voltage. After the threshold has been reached, the POR signals turns low. A delay of

aporc02 Power on Reset
X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. aporc02 is a digital power-on-reset circuit. PORB output is kept low as long as the supply voltage is below the POR threshold voltage. PORB signal is generated on both rising and falling edges of the supply voltage. During power

aporc04 Power on Reset
X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. aporc04 is a digital power-on-reset circuit. PORB output is kept low as long as the supply voltage is below the high POR threshold voltage. PORB signal is generated on both rising and falling edges of the supply voltage. During

apogc01 Power on Reset
X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. apogc01 is a general purpose, power good detector. A power good signal (active high) is generated as long as the supply voltage at the VDDA pin lies within the 4.5V - 5.5V limits. When the supply voltage is beyond the either low

adacc01 DAC
X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. adacc01 is a 8-bit digital-to-analog converter (DAC) with a R-2R ladder network. The DAC operates with a single 5V supply and external reference voltage.

adacc02 DAC
X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. adacc02 is a 10-bit digital-to-analog converter (DAC) with a R-2R ladder network. The DAC operates with a single 5V supply and external reference voltage.

adacc03 DAC
X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. adacc03 is a 8-bit voltage-scaling digital-to-analog converter (DAC). The device can operate at supply and reference voltages down to 3.2V.

aregc01 Voltage Regulator
X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. aregc01 is a 5V / 3.3V positive voltage linear regulator for up to 10 mA load current.

aregc02 Voltage Regulator
X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. aregc02 is a 2.4V / 3.3V positive voltage switching regulator for on-chip loads and up to 10 mA load current.

adrvc01 Driver
X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. adrvc01 is a driver circuit for external loads (relays, LEDs, etc). The circuit features NMOS open-drain output. The rising slope of the output signal can be controlled by means of a bias current.

atmpc01 X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. atmpc01 is a high-temperature detector. An OVERT output signal (active low) is generated when the chip temperature rises above 140 °C (approx.).

atmpc02 X-FAB
1.00 µm
XC10
PT
Analog Library
Layout
Schematic

XC10: A_CELLS; A_CELLS_M1. atmpc02 is a high-temperature detector. An OVERT output signal (active low) is generated when the chip temperature rises above 160 °C (approx.).

adc10 ADC
X-FAB
0.80 µm
CX08
PT
Analog Library
Layout
Schematic

CX08A: Analog library. ADC10 is a 10-bit analog-to-digital converter which utilizes successive approximation technique.

adc8 ADC
X-FAB
0.80 µm
CX08
PT
Schematic
Layout
Analog Library

CX08A: Analog library. ADC8 is a 8-bit analog-to-digital converter which utilizes successive-approximation
technique.

dac8 DAC
X-FAB
0.80 µm
CX08
PT
Schematic
Layout
Analog Library

CX08A: Analog library. DAC8 is a 8-bit digital-to-analog converter. The architecture is based on two resistor dividers. Because of its high output impedance, which is also code dependent, a low offset buffer operational amplifier is strictly recommen

dac10 DAC
X-FAB
0.80 µm
CX08
PT
Schematic
Layout
Analog Library

CX08A: Analog library. DAC10 is a 10-bit digital-to-analog converter. The architecture is based on two resistor dividers. Because of its high output impedance, which is also code dependent, a low offset buffer operational amplifier is strictly recomm

LNA1 LNA
X-FAB
0.60 µm
XB06
PT
Schematic
Layout
Analog Library

XB06: LNA library: RF_LNA_CELLS. LNA 1 is a low noise amplifier. It shoud be biased by the RF bias cell.

LNA2 LNA
X-FAB
0.60 µm
XB06
PT
Schematic
Layout
Analog Library

XB06: LNA library: RF_LNA_CELLS. LNA2 is a low noise amplifier. It should be biased by the RF bias cell

LNA3 LNA
X-FAB
0.60 µm
XB06
PT
Schematic
Layout
Analog Library

XB06: LNA library: RF_LNA_CELLS. LNA3 is a low noise amplifier with on-chip inductor. It should be biased by the RF bias cell.

LCVCO2 VCO
X-FAB
0.60 µm
XB06
PT
Schematic
Layout
Analog Library

XB06: LNA library: RF_LCVCO_CELLS. LCVCO2 is a fully integrated LC-VCO. It should be biased by the RF bias cell. It is based on a cross-coupled bipolar transistor pair. It contains AC-coupled varactors and a special circuit technique for maintaining the D

LCVCO3 VCO
X-FAB
0.60 µm
XB06
PT
Schematic
Layout
Analog Library

XB06: LNA library: RF_LCVCO_CELLS. LCVCO3 is a fully integrated LC-VCO. It should be biased by the RF bias cell. It contains a cross-coupled bipolar transistor pair and direct coupled varactors. For this reason, it has a higher tuning range than the other

RINGVCO1 VCO
X-FAB
0.60 µm
XB06
PT
Schematic
Layout
Analog Library

XB06: LNA library: RF_VCO_CELLS. RINGVCO1 is a fully integrated VCO. It should be biased by the RF bias cell. It consists of a ringoscillator that is tuned by switching the delay chain between 2 and 4 delay stages. The transition between the two borders i

 

MP = Mass ProductionPT = Prototyping, Silicon provenID = in DesignVS = Verified by Simulations (Soft-IP)

Displaying results 31 to 60 out of 370

*Disclaimer:
The Intellectual Partner Network is a web database provided by X-FAB in cooperation with selected partners. Both X-FAB and a variety of different IP supplier offer their IP to customers using X-FAB’s foundry process. X-FAB will support customers to get in direct contact with the relevant IP supplier.

X-FAB will take no responsibility nor any liability whatsoever for the information or products offered or provided by the other IP suppliers at the database of the Intellectual Partner Network. X-FAB shall have no liability towards the customers for any use of and/or reliance of the products provided by the other IP suppliers at the database of the Intellectual Partner Network.

X-FAB's own IP is subject to a license agreement. X-FAB IP marked with “*” are part of the Master Kit or Master Kit Plus library. If you can not find the IP you are looking for, please contact the respective sales manager in your region. We continuously extend our libraries and offer a custom cell development service as well.