Help with LAN Chips specifications:
Device Type / Function
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Device Type | |||
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Bandwidth Manager | Bandwidth managers control and manage (allocate) the throughput bandwidth of communication systems. | ||
Clock Rate Adapter | Clock rate adapters can generate different clock rates form a single input-clock. | ||
Crosspoint Switch | A crosspoint switch is a switch matrix with a certain number of inputs and certain number of output switches. Crosspoint switches are used to distribute data and signals in networks and systems. | ||
E-Commerce Processor | E-commerce processors are used in the transmission of secure data though the internet. | ||
Fabric Manager | Fabric managers control and manage switch fabric systems. | ||
Framer | Framers are chips that build data frames. | ||
Link Layer Controller | Link layer controllers are interfaces used in layer two of the seven-layer PSI model. They control the transfer of data between adjacent nodes in a network. | ||
Media Access Controller (MAC) | Media access controllers (MAC) are interfaces that control access to the network media, generally by using carrier sense multiple-access with collision detection (CSMA/CD). | ||
Packet Switching Fabric Chip | Packet switching chips are communication integrated circuits (ICs) used in packet-switched networks to rout packets between network nodes. | ||
Powerline Networking | Powerline networking devices are interface ICs used for data communication through power lines. | ||
Physical Layer Controller | Physical layer controllers (PHY controllers) are interfaces used in layer one of the seven-layer PSI model. | ||
Receiver | Receivers are designed to receive signals or data from antennas or from other devices in the system. | ||
Repeater | Repeaters are interfaces that re-transmit a weak signal after increasing its power. | ||
SerDes | Serializers-deserializers (SerDes) convert serial data to parallel data, and vice versa. | ||
Transmitter | Transmitters are designed to generate and send signals or data. | ||
Transceiver | Transceivers are dual devices that can operate as a transmitter and as a receiver. | ||
Other | Other unlisted or proprietary device types. | ||
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Interface | |||
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CompactPCI (cPCI) / PXI | Compact PCI (cPCI) is a high-performance industrial bus that uses the electrical standards of the PCI bus and is packaged in a Eurocard. Specifications for the CompactPCI bus are developed and maintained by the PCI Industrial Computers Manufacturers Group (PICMG). cPCI buses are used extensively in systems that require high speed data transfers. Examples include data communication routers and switches, real-time machine control, real-time data acquisition, military systems, etc. | ||
Fibre Channel | Fibre channel is a high-speed, serial data transfer architecture that uses links of twisted-pair, coaxial or fiber optic cable. Small computer system interface (SCSI) devices can use fibre channel arbitrated loop (FC-AL), the most popular fibre channel typology. Using optical fiber, FC-AL supports full-duplex data transfer rates of 100 Mbps. Eventually, FC-AL is expected to replace SCSI in high-performance storage systems. | ||
IEEE 1394 (FireWire®) | IEEE 1394 or FireWire® is an interface standard adopted by the Institute of Electrical and Electronics Engineers (IEEE) for very fast digital data transfers such as streaming video. IEEE 1394 connectors are used to transmit and receive data among FireWire devices, and are designed to replace external high-speed peripheral connections to personal computers, including hard disks, CD-ROMs, DVDs, graphics cards, high-speed scanners, direct video, monitors, etc. Tiny, robust FireWire connectors will also become important parts of home entertainment, communication, and appliance networks. FireWire is a registered trademark of Apple Computer, Inc. | ||
I2C | Inter-integrated circuit (I2C) bus is a two-wire, low to medium speed, communication bus. | ||
PCI | Peripheral component interconnect (PCI) is a local bus system designed for high-end computer systems. PCI buses transfer 32 or 64 bits of data at a clock speed of 33 MHz. They also support 3 to 5 critical peripherals, which are either integrated directly onto the motherboard or added via expansion cards. PCI buses fully support cards that were developed for standard I/O buses. | ||
PCI Express | PCI express (PCIe) fits common system architectures, provides greater speed and independence, and increases bandwidth and scalability. PCIe offers 4 Gbps of peak bandwidth per direction and 8 Gbps of concurrent bandwidth. PCIe is referred to as a third-generation input / output (3GIO). | ||
PCMCIA / CardBus | PCMCIA devices (PC cards) are credit-card-sized peripherals predominantly used in laptop computers. The PCMCIA adapter takes the place of a COM port on a standard bus. The card is plugged into a 68-pin host socket that is connected either to the motherboard or an expansion bus. An adapter then translates the PCMCIA signals into signals usable by the computer's bus. | ||
PCM | Pulse code modulation (PCM). | ||
PECL | Positive emitter coupling logic (LVPECL). | ||
RS232 | RS232 is a standard interface approved by the Electronic Industries Association (EIA) for connecting serial devices. This popular, serial communications standard provides asynchronous communication capabilities with hardware flow control, software flow control, and parity checking. Most gears, instruments with digital control interfaces, and communication devices have an RS232 interface. The typical transmission speed for RS232 is 9600 bps at 15 m. | ||
RS422 | RS422 supports multipoint connections whereas RS423 supports only point-to-point connections. RS422 provides much longer transmission distances than RS232, but less signal line. RS422 uses a differential transmission technology and provides high-speed transmissions up to 10 Mbps over a maximum transmission distance up to 1.2 km at 110 kbps. | ||
RS485 | RS485 is almost identical to RS232 except that transmissions are three-way rather than two-way. RS485 is often used in applications where a single controller needs to control multiple devices. Up to 64 devices may be connected with RS485. An enhanced version of RS422, RS485 is compatible with the RS422 interface and provides a two-wire bus topology. Using an RS485 two-wire bus provides a very inexpensive network system; however, RS485 defines only the electronic signal specifications. Consequently, users must define the software protocol for RS485 two-wire communications. | ||
SLIC | Subscriber line interface circuits (SLIC). | ||
SPI | Serial peripheral interface (SPI). | ||
UART | Universal asynchronous receiver transmitter (UART). | ||
USB | Universal serial bus (USB) is a 4-wire, 12-Mbps serial bus for low-to-medium speed peripheral device connections to personal computers (PC), including keyboards, mice, modems, printers, joysticks, audio functions, monitor controls, etc. The USB design is standardized by the USB Implementers Forum (USBIF), an organization that includes leading companies from the computer and electronics industries. The current USB specification is USB 2.0, which supports data transfer rates of up to 480 Mbps. | ||
USB On-The-Go | USB on-the-go (USB OTG) is an expanded USB 2.0 specification. It is designed to overcome the shortcomings of the original USB 2.0 standard. | ||
VME | VersaModule Eurocard bus (VMEbus) is a popular, 32-bit bus used in industrial, commercial and military applications. The VMEbus is based on the VME standard, which defines mechanical specifications such as board dimensions, connector specifications and enclosure characteristics, as well as the electronic specifications for sub-bus structures, signal functions, timing, signal voltage levels, and master/slave configurations. The VMEbus uses 3U and 6U Eurocard, rugged circuit boards that provide a 96-pin plug instead of an edge connector for durability. Several VMEbus varieties are available. | ||
Other | Other unlisted or proprietary interface types. | ||
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Performance
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TJ | The full-required range of ambient operating temperatures. | ||
Search Logic: | User may specify either, both, or neither of the limits in a "From - To" range; when both are specified, matching products will cover entire range. Products returned as matches will meet all specified criteria. | ||
Pd | The power dissipated by the device while in the on-state. | ||
Search Logic: | User may specify either, both, or neither of the "At Least" and "No More Than" values. Products returned as matches will meet all specified criteria. | ||
Supply Voltage: | |||
Your choices are... | |||
-5 V | Devices operate with -5 V. | ||
-4.5 V | Devices operate with -4.5 V. | ||
-3.3 V | Devices operate with -3.3 V. | ||
-3 V | Devices operate with -3 V. | ||
1.2 V | Devices operate with 1.2 V. | ||
1.5 V | Devices operate with 1.5 V. | ||
1.8 V | Devices operate with 1.8 V. | ||
2.5 V | Devices operate with 2.5 V. | ||
2.7 V | Devices operate with 2.7 V. | ||
3 V | Devices operate with 3 V. | ||
3.3 V | Devices operate with 3.3 V. | ||
3.6V | Devices operate with 3.6 V. | ||
5 V | Devices operate with 5 V. | ||
Other | Other unlisted supply voltages. | ||
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Packaging
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IC Package Type: | |||
Your choices are... | |||
Bare Die | Devices are sold in semiconductor die form. They do not have a case or packaging. | ||
BGA | Ball-grid array (BGA) places output pins in a solder ball matrix. Generally, BGA traces are fabricated on laminated (BT-based) substrates or polyimide-based films. Therefore, the entire area of substrates or films can be used to route the interconnection. BGA has another advantage of lower ground or power inductance by assigning ground or power nets via a shorter current path to PCB. Thermally enhanced mechanisms (heat sink, thermal balls, etc.) can be applied to BGA to reduce the thermal resistance. The sophisticated capabilities make BGA the desirable package to implement electrical and thermal enhancement in response to the need for high power and high speed ICs. | ||
FCBGA | Flip chip ball-grid array (FCBGA) uses a combination of flip chip and ball grid array features. FCBGA enables short electrical paths for high frequency applications. The simultaneous soldering of all joints in one pass through a reflow furnace facilitates the mounting of packages with thousands of solder joints. | ||
PBGA | Plastic ball-grid array (PBGA) is the general terminology for the BGA package adopting plastic (epoxy molding compound) as the encapsulation. According to JEDEC standard, PBGA refers to an overall thickness of over 1.7 mm. | ||
MCM-PBGA | Multi-chip module plastic ball-grid array (MCM-PBGA). | ||
SBGA | Super ball-grid array (SBGA) provides a high-power BGA package with a very low profile. With SBGA, the IC is directly attached to an integrated copper heatsink. Since the IC and I/O are on the same side, signal vias are eliminated, providing a significant improvement in electrical performance (inductance). | ||
TBGA | Tape ball-grid array (TBGA). | ||
CPGA | Ceramic pin-grid array (CPGA). | ||
PPGA | Plastic pin-grid array (PPGA). | ||
FCPGA | Flip-chip pin-grid array (FCPGA) attaches the chip to the board facedown, without any wire bonding. | ||
IPGA | Interstitial package grid array (IPGA) carries additional pins on a 0.5" offset pattern in between the pins of a regular PGA pattern. It almost doubles the available pins on the same package size as a standard PGA. | ||
PGA | Pin grid array (PGA) is a second generation package that uses through-hole technology (THT). Pins are located on a 0.1" grid in various patterns. Package size is reduced by moving pins to the underside of the package in a grid pattern. | ||
CSP | Chip scale package or chip size package (CSP) has an area that is no more than 20% larger than the built-in die. CSP is compact for second level packaging efficiency and encapsulated for second level reliability. CSP is superior to both direct-chip-attach (DCA) and chip-on-board (COB) technologies. CSP is used in a variety of integrated circuits (IC), including radio frequency ICs (RFIC), memory ICs, and communication ICs. | ||
FCCSP | Flip-chip chip-scale package (FCCSP). | ||
SuperFC® | Super flip-chip or SuperFC® packages feature a controlled bond line die attached directly to a copper heat spreader. SuperFC® is a registered trademark of Amkor. | ||
UCSP | Ultra chip scale package (UCSP). | ||
WLCSP | Wafer-level chip-scale package (WLCSP) allows an IC to be attached facedown so that its pads connect to the printed circuit board (PCB) through individual solder balls without any underfill material. WLCSP minimizes IC-to-PCB inductance, features small package size, and provides enhanced thermal conduction. | ||
LGA | Tape ball-grid array (TBGA) uses a fine, polyimide substrate and provides good thermal performance with high pin counts. | ||
FLGA | Fine-pitch land-grid array (FLGA) is extremely compact and lightweight, making it suitable for miniature disc drives and digital cameras. | ||
QFP | Quad flat packages (QFP) contain a large number of fine, flexible, gull wing shaped leads. Lead width can be as small as 0.16 mm. Lead pitch is 0.4 mm. QFPs provide good second-level reliability and are used in processors, controllers, ASICs, DSPs, gate arrays, logic, memory ICs, PC chipsets and other applications. | ||
LQFP | Low quad flat package (LQFP). | ||
TQFP | Thin quad flat package (TQFP). | ||
PQFP | Plastic quad flat package (PQFP). | ||
QFN | Quad flat non-leaded package (QFN) is also known as QFNL. | ||
VQFP | Very thin quad flat package (VQFP). | ||
MSOP | Mini small outline plastic package (MSOP) products are packed in tape reel assemblies that include a carrier tape with embossed cavities for storing individual components. The carrier tape is made from dissipative polystyrene resin. The cover tape is a multilayer film composed of a polyester film, adhesive layer, heat-activated sealant and anti-static sprayed agent. The reel is made of polystyrene plastic (anti-static coated or intrinsic) and individually bar coded. Reels are placed inside barcode-labeled boxes for shipping. | ||
PSOP | Power small outline package (PSOP). | ||
SOP | Small outline package (SOP). | ||
QSOP | Quarter size outline package (QSOP). | ||
MLP | Micro lead-frame package (MLP) is an ultra-slim, miniature package with a typical height of only 0.75 mm, length of 2 mm and width of 3 mm. | ||
SOIC | Small outline integrated circuit (SOIC). | ||
TSOJ | Thin small outline J-leaded package (TSOJ). | ||
TSOP Type I, Type II | Thin small outline package (TSOP) is a type of DRAM package that uses gull wing shaped leads on both sides. TSOP DRAM mounts directly on the surface of the printed circuit board. The advantage of the TSOP package is that it is one-third the thickness of an SOJ package. TSOP components are commonly used in small outline DIMM and credit card memory applications. Thin small outline package may be Type I or Type II. | ||
TSOP Type I | Thin small outline package (TSOP), Type I is a DRAM package that uses gull wing shaped leads on both sides. TSOP DRAM mounts directly on the surface of the printed circuit board. The advantage of the TSOP package is that it is one-third the thickness of an SOJ package. TSOP components are commonly used in small outline DIMM and credit card memory applications. | ||
TSOP Type II | Thin small outline package (TSOP), Type I is a DRAM package that uses gull wing shaped leads on both sides. TSOP DRAM mounts directly on the surface of the printed circuit board. The advantage of the TSOP package is that it is one-third the thickness of an SOJ package. TSOP components are commonly used in small outline DIMM and credit card memory applications. | ||
SSOP | Shrink small outline package (SSOP). | ||
VSSOP | Very thin shrink small outline package (VSSOP). | ||
TVSOP | Thin very small outline package (TVSOP). | ||
TSSOP | Thin shrink small outline L-leaded package (TSSOP). | ||
SOJ | Small outline J-lead (SOJ) is a common form of surface-mount DRAM packaging. It is a rectangular package with J-shaped leads on the two long sides of the device. | ||
HSOF | Small outline flat-leaded package with heat sink (HSOF). | ||
HSOP | Small outline with heat sink package (HSOP). | ||
PLCC | Plastic leaded chip carrier (PLCC). | ||
LCCC | Leadless ceramic chip carrier (LCCC). | ||
DIP | Dual in-line package (DIP) is a type of semiconductor component packaging. DIPs can be installed either in sockets or permanently soldered into holes extending into the surface of the printed circuit board. The pins are distributed into two parallel lines along opposite site of the rectangular package. There are several types of DIP packages, such as Ceramic Dual in-line package (CDIP), Plastic Dual in-line package (PDIP), and Shrink Plastic Dual in-line package (SPDIP). | ||
CDIP | Ceramic dual in-line package (CDIP) consists of two pieces of dry pressed ceramic surrounding a "DIP formed" lead frame. The ceramic / LF / ceramic system is held together hermetically by frit glass reflowed at temperatures between 400° - 460° centigrade. | ||
PDIP | Plastic dual in-line package (PDIP) is widely used for low cost, hand-insertion applications including consumer products, automotive devices, logic, memory ICs, micro-controllers, logic and power ICs, video controllers commercial electronics and telecommunications. | ||
SIP | Single in-line package (SIP) is a semiconductor package which has only one row of pins. | ||
SDIP | Shrink dual in-line package (SDIP). | ||
SC-70 | SC-70 is one of the smallest available IC packages. It is used in cellular phones, PDAs, electronic games, laptops and other portable and hand-held applications where space is extremely limited. | ||
SZIP | Shrink zigzag in-line package (SZIP). | ||
TDFN | Thin dual flat no-lead (TDFN) packages are fine-pitch, high-performance replacements for 6-pin SOT23 and SC-70 packages. TDFM offers improved thermal characteristics and reduced parasitic compared to these other packages. With the same footprint as equivalent MLF and Mini-BGA packages, TDFM has a much smaller footprint than SOT23 packages. | ||
SOT23 | SOT23 is a rectangular, surface mounted, small outline transistor (SOT) package with three or more gull wing leads. SOT23 features a very small footprint and is optimized for the highest possible current. Because of its low cost and low profile, SOT23 is used in home appliances, office and industrial equipment, personal computers, printers, and communication equipment. | ||
Other | Other unlisted, specialized, or proprietary IC packages. | ||
Search Logic: | All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches. | ||
Pin Count | The number of pins in the package. | ||
Search Logic: | User may specify either, both, or neither of the "At Least" and "No More Than" values. Products returned as matches will meet all specified criteria. | ||
Number of Devices in Package | The total number of devices in the IC package. | ||
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Features
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RoHS Compliant | Restriction of Hazardous Substances (RoHS) is a European Union (EU) directive that requires all manufacturers of electronic and electrical equipment sold in Europe to demonstrate that their products contain only minimal levels of the following hazardous substances: lead, mercury, cadmium, hexavalent chromium, polybrominated biphenyl and polybrominated diphenyl ether. | ||
Supports CODEC | The device has embedded circuitry to support CODEC. | ||
ESD Protected | The interface has embedded electrostatic discharge (ESD) protection. | ||
JTAG pin | Joint Test Action Group (JTAG) products are semiconductor devices that allow access to the inner workings of an IC for testing, controlling, and programming purposes. | ||
Over-Voltage Protection | The interface has an embedded, over-voltage protection system | ||
Integrated Charge Pump | Charge pumps are circuits that generate higher voltages from low-voltage inputs by using capacitors as storage elements. They are used in notebook computers and mobile phones. | ||
Built-In Oscillator | The device has an internal oscillator. | ||
Automatic Power Control Loop (APC) | The device has an embedded power control loop (APC) to maintain average output power over temperature range and lifetime. | ||
Thermal Shutdown | The interface has an embedded, over-thermal protection system which shuts down the chip when a maximum temperature is reached. | ||
Integrated Clock | The device has an integrated real-time clock circuit. | ||
Embedded PLL Synthesizer | The device has an embedded phase-lock loop (PLL) synthesizer. | ||
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