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EM Smart Card Contact ICs solutions offer a wide range of highly flexible products. The intensive whilst innovative usage of Flash technology brings competitive edge advantage to our customers. In particular, time-to-market benefits of EM flash-based Smart Cards fulfill dynamic Telecom market requirements.
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STMicroelectronics offers a full range of secure integrated circuits and advanced platforms for smartcard and digital security applications.
Customers using ST's high-performance products benefit from ST's leadership and sustained R&D efforts in non-volatile memory (EEPROM, Flash) and secure architectures in line with the latest standards and specifications, for example Common Criteria/ISO15408 (up to EAL5+), ICAO and TCG1.2.
ST's solutions are ready for use in Mobile Communications, ID, e-government, finance, transport, corporate IT security, and consumer applications, with connectivity interfaces going from contact and contactless to USB and LPC.
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Description:
The LM555/NE555/SA555 is a highly stable controller capable of producing accurate timing pulses. With a monostable operation, the time delay is controlled by one external resistor and one capacitor. With an astable
operation, the frequency and duty cycle are accurately controlled by two external resistors and one capacitor.
Features
- High Current Drive Capability (200mA)
- Adjustable Duty Cycle
- Temperature Stability of 0.005%/°C
- Timing From µSec To Hours
- Turn Off Time Less Than 2µSec
Applications
- Precision Timing
- Pulse Generation
- Time Delay Generation
- Sequential Timing
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Maxim offers a complete line of TCXO, VCXO, XO, and RTC products for precision timingapplications. These devices support high-speed data communications including SONET, Ethernet,SAS/SATA, PCI, PCI Express®, Fibre Channel, and InfiniBandSM applications.
High-precision TCXO devices, including the DS4026, provide better than ±1ppm accuracy with < ±4.6ppm aging over 15 years. High-frequency XO products, such as the DS4-XO product series,
are provided in miniature 5mm x 3.2mm ceramic packages and cover frequencies from 77.76MHz to 622.08MHz. Accurate RTC solutions include the award-winning DS3231 accurate RTC, which can provide < ±2min/yr accuracy for real-time clocks.
The DS4077 VCXO provides excellent phase-noise performance for applications such as base stations, routers, and HD-SDI video systems.
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The AMIS-70020 is a timer that measures the duration of power failures of up to five hours. The AMIS-70020 starts and stops counting automatically as it is triggered by the voltage of the input signal VCC. When VCC gets lower than the reference signal VDD-VTH, a power cut-off is flagged and the AMIS-70020 starts counting.
During the counting phase the AMIS-70020 is powered by an external capacitor or by a primary battery and consequently operates independently of an external power supply. Due to the low power design of the AMIS-70020, the device can count autonomously the full scale on the energy stored in a 10mF capacitor.
Applications:
Power Inverters, Motordrivers, and Soft Starters:
- Accurate I2t protection possible even after power loss
- Thermal protection devices for electrical motors without integrated thermistor
- Motor controllers for electrical motors without integrated thermistor
Process Control:
- Chemical processes
- Industrial mixers
- Mixing reactors
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Looking for the optimum non-volatile memory product for your system that requires a small footprint, byte level flexibility, low power, and is highly cost effective? Serial EEPROM technology is one of the non-volatile memory technologies that has emerged as a leading embedded control solution. Unfortunately, most system designers are not aware of the serial EEPROM benefits. Also, the supporting documentation in databooks is most often not adequate due to incomplete or ambiguous information. As a result, the system designer often selects a non-volatile solution that does not meet his requirements, or, the designer must face a more complicated design-in with a serial EEPROM.
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The HCS410 is a code hopping transponder device designed for secure entry systems. The HCS410 utilizes the patented KEELOQ® code hopping system and bi-directional challenge-and-response for logical and physical access control. High security learning mechanisms make this a turnkey solution when used with the KEELOQ® decoders. The encoder keys and synchronization information are stored in protected on-chip EEPROM. A low cost batteryless transponder can be implemented with the addition of an inductor and two capacitors. A packaged module including the inductor and capacitor is also offered as the HCS410/WM. A single HCS410 can be used as an encoder for Remote Keyless Entry (RKE) and a transponder for immobilization in the same circuit and thereby dramatically reducing the cost of hybrid transmitter/transponder circuits.
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The flexibility afforded by a synthesizable core is often countered by the additional configuration and implementation time required to produce a reusable component.
ARM%u2019s core hardening service is a flexible, low risk service for licensees of ARM synthesizable CPU cores (Listed in the See Also box) who require a fixed configuration, hardened CPU core, optimized for area, power and speed that provides the advantages of the synthesizable CPU core with the IP re-use convenience of hard macro deliverables. Early access to the company%u2019s emerging technology, CPU development teams and latest design flows, combined with an in-depth understanding of ARM CPU design, enables ARM core hardening teams to provide a unique, dedicated service to meet each Partner's specific requirements.
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Description Integrated Multiprotocol Processor
Name mc68302_hv Version 01028 STARs Open and/or Closed STARs
myDesignWare Subscribe for Notifications
Product Type Verification IP Component (SmartModel)
Documentation User Documentation
Supported Components Motorola:MC68302-16 ;Motorola: MC68302-20
Motorola: MC68302-25
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Microchip offers two 16-bit Microcontroller (MCU) families plus two 16-bit Digital Signal Controller (DSC) families that give you compatible options across a wide spectrum of price, performance and feature sets. Common attributes among all 16-bit MCU and DSC families are pinouts, software, peripherals and development tools. Whether your design requires the lowest-priced 16-bit solution, the most powerful 16-bit MCU in the industry, or DSP capability, Microchip offers a broad range of products while preserving the compatibility that help save you time and money on subsequent designs.
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General Purpose Peripherals & device features:
● Real-time Clock & Calendar
● Cyclic Redundancy Check
● USB
● 10 & 10/12-bit A/D Converters
● Comparator
● 10-bit & 16-bit D/A Converter
● Direct Memory Access
● Parallel Master Port
● Peripheral Pin Select
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The rfPIC12C509AF packs Microchip's powerful PICmicro® microcontroller architecture into an 18-pin package combined with a 310MHz - 480MHz FSK and ASK transmitter. This powerful yet easy-to-program (only 33 single word instructions) CMOS microcontroller contains 1024x12 words of program memory and 41 bytes of user RAM and 4MHz maximum speed. This device includes 2 digital timers (8-bit TMR0 and a Watchdog timer), Power-On-Reset, and Programmable Code Protection. The rfPIC12C509AF has 6 I/O pins with 25mA source/sink per I/O, and is capable of In-Circuit Serial Programming™.
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The MCP73843 combines high accuracy constant-voltage (0.5% max), constant-current regulation, cell preconditioning, advanced safety timers, automatic charge termination, and charge status indication in a space saving MSOP-8 package. The device provides a complete, fully functional, stand-alone charge management solution for applications utilizing single cell Lithium-Ion or Lithium-Polymer battery packs. Two preset voltage regulation options are available, 4.1V and 4.2V, for use with either coke or graphite anodes. The MCP73843 operates with an input voltage range of 4.5V to 12V and is fully specified over the ambient temperature range of -40°C to +85°C.
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The TC1014, TC1015, and TC1185 are high accuracy (typically ±0.5%) CMOS upgrades for older (bipolar) low dropout regulators such as the LP2980. Designed specifically for battery-operated systems, the devices’ CMOS construction eliminates wasted ground current, significantly extending battery life. Total supply current is typically 50µA at full load (20 to 60 times lower than in bipolar regulators!). Key features for the devices include ultra low-noise operation (plus optional Bypass input), fast response to step changes in load, and very low dropout voltage, typically 85mV (TC1014), 180mV (TC1015), and 270mV (TC1185) at full load. Supply current is reduced to 0.5µA (max) and VOUT falls to zero when the shutdown input is low. The devices also incorporate both over-temperature and over-current protection. The TC1014, TC1015, and TC1185 are stable with an output capacitor of only 1µF and have a maximum output current of 50mA, 100mA, and 150mA, respectively. For higher output versions, see the TC1107, TC1108, and TC1173 (IOUT = 300 mA) data sheets.
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PLCC Sockets
* Low profile housing
* Seven different sizes - 20-84 pole
* Available in tubes or taped
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Wide-open cover enabling visual check of IC
Mis-insertion preventing mechanism adopted for the cover
Slide-lock function
Low-profile design improving IC inductance
RoHS compliant
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Tyco Electronics offers a broad portfolio of connectors for main Memory modules, removable Memory cards and microprocessors made to the many industry standard specifications.
The Tyco Electronics main Memory connectors are made to JEDEC industry standards for SIMM (Single In-line Memory Modules) and DIMM (Dual In-line Memory Modules) for computer and communication applications. Each product family consists of vertical, right-angle and various angled configurations in solder tail, press fit and SMT mounting options.
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Hynix plans to manufacture MCP, a combination of flash memory and SRAM in a single package, from the second half of this year to capitalize on the synergies from its flash and SRAM products. Taking the best from the two chips, the MCP chip boasts fast processing speeds combined with low power consumption.
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Samsung’s MCP portfolio leverages the company’s expertise in memory design and semiconductor process technologies. Its MCPs are built using its lowpower memory technology so that mobile devices will consume as little power as possible. In addition, Samsung’s core MCP technology utilizes the company’s skills in wafer thinning, same-die stacking, wire bonding – chip to chip and long-wire bonding – and molding.
The memory chips included in Samsung MCPs are built using advanced process technologies – from 90 to 65 nanometers. The company’s ongoing investments in fabs and technology assure customers of MCPs that will stay on the leading edge.
One of the many advantages of Samsung MCPs is the consistent use of the
same packaging and footprint, which makes it easy to scale between different Samsung MCP combinations. In addition, Samsung customers are assured of broad options within the same footprint.
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Physical effects of semiconductors are becoming more and more interrelated. Each design decision can create unintended consequences. In addition to the old problems generated by wire capacitance, engineers can no longer manually balance the myriad effects such as leakage current, inductive noise or IR drop. Manufacturing processes and environmental variation can render your functional chip useless or economically unviable. Market forces are creating demands of higher volumes at lower and lower price points. Investors are losing their appetite for risk and paying a premium for predictable success. Designers must walk a tightrope of price and performance to reach their time-to-market goals.
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This paper will focus specifically on Synopsys EDA software tools, process flows, and compute resources
used for the “Mask Data Preparation (or MDP)” process flow area of semiconductor manufacturing.
(Synopsys product; CATS®). Often referred to as the critical link from design to manufacturing CATS is a
software package which converts semiconductor design data into a useful format for making the circuit
templates (also referred to as “photomasks”) for semiconductor manufacturing. Topics discussed will include
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Physical effects of semiconductors are becoming more and more interrelated. Each design decision can create unintended consequences. In addition to the old problems generated by wire capacitance, engineers can no longer manually balance the myriad effects such as leakage current, inductive noise or IR drop. Manufacturing processes and environmental variation can render your functional chip useless or economically unviable. Market forces are creating demands of higher volumes at lower and lower price points. Investors are losing their appetite for risk and paying a premium for predictable success. Designers must walk a tightrope of price and performance to reach their time-to-market goals.
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This paper will focus specifically on Synopsys EDA software tools, process flows, and compute resources
used for the “Mask Data Preparation (or MDP)” process flow area of semiconductor manufacturing.
(Synopsys product; CATS®). Often referred to as the critical link from design to manufacturing CATS is a
software package which converts semiconductor design data into a useful format for making the circuit
templates (also referred to as “photomasks”) for semiconductor manufacturing. Topics discussed will include
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