LCVCO2 * VCO X-FAB 0.60 µm XB06 PT Schematic 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
IPMS_RSA Soft IP Fraunhofer IPMS All Geometries All Processes VS Verilog Cryptographic Processor Core for Public Key En¬cryption
processor core for modulo n multiplication and exponentiation (RSA) with high speed and high bit sizes
Data rates (for a 1024 bit system at 25 MHz clock frequency)
1024 bit RSA up to 10 kbit/s
IPMS_LIN Soft IP Fraunhofer IPMS All Geometries All Processes PT VHDL LIN (Local Interconnect Network) is a serial communication protocol
Features
Support of LIN specification 2.0
Programmable data rate between 1 Kbit/s and 20 Kbit/s
4 MHz clock frequency
8-byte data buffer
8-bit host controller interface
Support of
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 Fraunhofer IPMS All Geometries All Processes PT VHDL 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 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 Fraunhofer IPMS All Geometries All Processes VS VHDL 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 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 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 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 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 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
IMMSD2026A Soft IP IMMS GmbH All Geometries All Processes PT Verilog The soft IP module D2026A implements a SENT transmitter according to SAE standard J2716 JAN2010 “SENT – Single Edge Nibble Transmission for Automotive Applications”. The SENT protocol constitutes a low-cost alternative to the LIN and CAN commu
HT_ADC1 ADC IMMS GmbH 1.00 µm XI10 PT GDSII This IP is a cyclic ADC based on RSD algorithm usable as core for embedded applications. The special advantage of this type of ADC is the reduced complexity of hardware resp. layout area because of the reuse of the main stages for each bit. Up to 13 bit o
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 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 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 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.
DAC8rs * DAC X-FAB 0.60 µm XB06 PT Layout 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 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 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 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 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 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
CM6111ae Other chipus 0.35 μm XH035 PT GDSII 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 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 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 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 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).
