IP Portal

Sel. IP Name Category Provider Geometry Process Name Status Deliverable Description
IPMS_IRHSP Soft IP
Fraunhofer IPMS
All Geometries
All Processes
VS
VHDL

IrDA Hight Speed Protocl Stack

Features:

Complete IrDA protocol stack (IrPHY, Framer, IrLAP, IrLMP, IAS, TinyTP, IrCOMM, IrOBEX)

Primary and secondary function (scalable)

Data rates from 9.6 kbit / s - 16 Mbit / s (scalable)

IR remote control functio

IPMS_IIC Other
Soft IP
Fraunhofer IPMS
All Geometries
All Processes
PT
VHDL
Verilog

The core realized the I²C-bus protocol

Features:

Master and receive mode realized

Bus node address and data transmission rate are programmable

8 Bit data interface to the controller

All I²C function are implemented

Core is multimasterable   

IPMS_ECC Soft IP
Fraunhofer IPMS
All Geometries
All Processes
VS
VHDL
Verilog

Processor core for Elliptic Curve Cryptography

IEEE-Standard 1076-1993 compliant synthesizable VHDL model for utiliza¬tion as macro cell in ASIC and FPGA designs

Diffie-Hellman key exchange proto¬col exists

Implementation of other proto¬cols based o

IPMS_DES Other
Soft IP
Fraunhofer IPMS
All Geometries
All Processes
VS
VHDL
Verilog

Cryptographic Processor Core for the DES Algorithm

The hardware realizes a flexible DES core to encrypt and decrypt data with high speed. The encryption /decryption of a 64 bit data set takes 16 clock periods.

IPMS_CAN Soft IP
Fraunhofer IPMS
All Geometries
All Processes
PT
VHDL
Verilog

CAN-Controller

Features

implementation of the Basic CAN specification

no generated Overload Frames

receiving and transmitting of both identifiers (CAN specification 2.0B)

programmable data rate up to 1 Mbit/s

programmable

IPMS_AES Soft IP
Fraunhofer IPMS
All Geometries
All Processes
VS
VHDL
Verilog

Cryptographie core according to AES standard

Features

High processing speed of 100 Mbit / s (128 bit key, 25 MHz).

Same speed for coding and decoding.

Key widths of 128, 192 and 256 bit are implemented

120 kGates.

IPMS_430 Microprocessor
Soft IP
Fraunhofer IPMS
All Geometries
All Processes
PT
VHDL

16 Bit Microcontroller

The core IPMS_430 is compatible in its properties, like instruction set, address space and time behavior with the standard CPU MSP430 from TI. Important features are

- 16 bit Risc CPU

- 7 address modes for source operands

- 4 a

IPMS_16CXX Microprocessor
Soft IP
Fraunhofer IPMS
All Geometries
All Processes
PT
VHDL

8 Bit Microprocessor.

The core IPMS_16CXX realizes a to the PIC 16CXX-family of the firm Microchip compatible 8-bit microcontroller Important features are:

- 8-bit arithmetic (addition, subtraction, logical operations, bit manipulation)

- to 64 k i

IPMS_16550 Soft IP
Fraunhofer IPMS
All Geometries
All Processes
PT
VHDL
Verilog

The UART-core IPMS_16550 realize the functionality of an serial interface.

Features:

Data rates, data formats and interrupt events are programmable

compatible to UART 16550

high flexibility in different uses

IMMS SENT Transmitter Soft IP
IMMS GmbH
All Geometries
All Processes
PT
Verilog

Silicon-proven Verilog implementation of a flexible configurable SENT transmitter according to SAE standard J2716 JAN2010 “SENT – Single Edge Nibble Transmission for Automotive Applications”. Up to 16-bit data from two independent sensors.

High V Input Cell Other
Ridgetop Group
0.35 μm
XH035
ID
GDSII

High Voltage Input for input voltages up to 100V

EnDAT2.2 Soft IP
MAZeT Gmbh
All Geometries
All Processes
VS
VHDL

Sensor Interface used in positioning systems. Visit MAZet website for datasheet.

DT2120 ADC
Digian Technology,Inc.
0.35 μm
XH035
MP
GDSII

The dT2120 is designed featuring low-voltage and low-power mono ADC (Analog-to -Digital Converter) for sensor applications. The ADC architecture is using 4th-order 1bit sigma-delta modulator with 64-times oversampling. The dT2120’s in

DPIN Integrated Photodiode
X-FAB
0.60 µm
XB06
PT
Schematic
Layout
Analog Library

XB06: OEIC Building Block Library. DPIN_5050 and DPIN_50100 are fast photodiodes with a vertical PIN structure optimized forred light (660nm).

DIV32 Divider
X-FAB
0.60 µm
XB06
PT
Schematic
Layout
Analog Library

XB06: LNA library: RF_DIVIDER_CELLS. DIV32 is a Prescaler with a fixed divider ratio of 32. It should be biased by the RF bias cell.

DIV32 Divider
X-FAB
0.35 μm
XH035
PT
Layout
Schematic
Analog Library

XH035: DIVIDER Library: RF_DIVIDER_CELLS. DIV32 is a Prescaler with a fixed ratio of 32. It should be biased by the RF bias cell.

DC-DC Converter DC/DC Converters
Ridgetop Group
0.60 µm
XC06
ID
GDSII

Ultra high efficiency programmable output voltage over wide input voltage range, buck/boost. Input: 1.5V - 15V. Output 2V-6V

DAC8rs DAC
X-FAB
0.60 µm
XB06
PT
Layout
Schematic
Analog Library

XB06: A_CELLS. DAC8rs is a 8-bit digital-to-analog converter. The architecture is based on a resistor divider. The output impedance is code dependent.

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

DAC8 DAC
X-FAB
0.60 µm
XB06
PT
Layout
Schematic
Analog Library

XB06: A_CELLS. 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 recommended at the ou

DAC6rs DAC
X-FAB
0.60 µm
XB06
PT
Layout
Schematic
Analog Library

XB06: A_CELLS. DAC6rs is a 6-bit digital-to-analog converter. The architecture is based on a resistor divider. The output impedance is code dependent.

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

DAC10 DAC
X-FAB
0.60 µm
XB06
PT
Layout
Schematic
Analog Library

XB06: A_CELLS. 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 recommended at the

DAC-7bit-0.6u DAC
Ridgetop Group
0.60 µm
XC06
PT
GDSII

Low Power, Wide Supply Range, CMOS, output to pos rail

Comparator 0.6u Comparators
Ridgetop Group
0.60 µm
XC06
PT
GDSII

Ultra Low Power, Wide Supply Range, CMOS

CM6111ae Other
chipus
0.35 μm
XH035
PT
GDSII
Verilog
LVS Netlist

30V/20mA Power Driver/Switch - Two modes of operation: switch or programmable current output; short-circuit protection, over-current detection.

CM6011ae Other
chipus
0.35 μm
XH035
PT
GDSII
Verilog
LVS Netlist

General purpose capacitive sensor core. The circuit is intended for touch sensing applications for use in microcontrollers and has two multiplexed inputs. 3pF input sensibility and output frequency of 460kHz - 600kHz.

CM4013ae Oscillator
chipus
0.35 μm
XH035
MP
GDSII
Verilog
LVS Netlist

General purpose, low power internal oscillator core, 12MHz. The circuit has internal level shifting and start-up circuits. A 4-bit digital bus allows frequency calibration against process variations. Current consumption <40μA, supply voltage 2.7V-3.6V

CM2013ae ADC
chipus
0.35 μm
XH035
PT
GDSII
Verilog
LVS Netlist

Low power, general purpose, 10-bit, 50kSPS, Successive Approximation Register (SAR) Analog-to-Digital Converter (ADC) core. The circuit uses one 3.3V analog supply and one 3.3V digital supply and is targeted for microcontroller applications.

CM1511ae Other
chipus
0.35 μm
XH035
MP
GDSII
Verilog
LVS Netlist

Low consumption combo voltage and current reference core. The circuit generates an unbuffered 1.29V, temperature compensated voltage reference (70ppm/°C) and provides a 1.6μA PMOS current branch (200ppm/°C).

 

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.