IP804 is a 4-port PSE (Power Sourcing Equipment) controller IC for PoE (Power over Ethernet) systems. It integrates power, analog, and logic circuits into a single chip, and can be used for Midcap and Endpoint PSE applications.
IP804A is a 4-port PSE (Power Sourcing Equipment) controller IC for PoE (Power over Ethernet) systems. It integrates power, analog, and logic circuits into a single chip, and can be used for Midcap and Endpoint PSE applications.
IP808 is an 8-port PSE (Power Sourcing Equipment) controller IC for PoE (Power over Ethernet) systems. It integrates power, analog, and logic circuits into a single chip, and can be used for Midspans and Endpoint PSE applications.
IP808AR is an 8-port PSE (Power Sourcing Equipment) controller IC for PoE (Power over Ethernet) systems. It integrates power, analog, and logic circuits into a single chip, and can be used for Midspans and Endpoint PSE applications.
IP113A/B LF can be a 10/100BASE-TX to 100BASE-FX converter. It consists of a 2-port switch controller, a fast Ethernet transceiver and a PHY for 100BASE-FX. The transceivers in IP113A/B LF are designed in DSP approach with advance 0.25-um technology; this results in high noise immunity and robust performance
IP113A/B LF can be a 10/100BASE-TX to 100BASE-FX converter. It consists of a 2-port switch controller, a fast Ethernet transceiver and a PHY for 100BASE-FX. The transceivers in IP113A/B LF are designed in DSP approach with advance 0.25-um technology; this results in high noise immunity and robust performance
IP113M/N LF can be a 10/100BASE-TX to 100BASE-FX converter with an SMI port for management. It consists of a 2-port switch controller, a fast Ethernet transceiver and a PHY for 100BASE-FX. The transceivers in IP113M/N LF are designed in DSP approach with advance 0.25um technology; this results in high noise immunity and robust performance.
IP1103A is an integrated chip for a 10M/100M/1000M MC and PHY, a 100M/1000M SERDES for switch mode. IP1103A also supports low latency data transfer between TP and fiber media conversion in converter mode. The transceivers in IP1103A are designed in DSP approach with advanced 85-nm technology; this results in high noise immunity and robust performance
The IP212/4/8 is a single-chip, which combines one embedded 32-bit CPU, Ethernet 10/100M MAC, a SDRAM controller, a serial flash controller, 2/4/8 ports high-performance Multi-Mode UARTs, GPIOs and an Ethernet MAC, etc, to construct a 2/4/8 ports UARTs to Ethernet Server device.
The IP212/4/8 is a single-chip, which combines one embedded 32-bit CPU, Ethernet 10/100M MAC, a SDRAM controller, a serial flash controller, 2/4/8 ports high-performance Multi-Mode UARTs, GPIOs and an Ethernet MAC, etc, to construct a 2/4/8 ports UARTs to Ethernet Server device.
The IP212/4/8 is a single-chip, which combines one embedded 32-bit CPU, Ethernet 10/100M MAC, a SDRAM controller, a serial flash controller, 2/4/8 ports high-performance Multi-Mode UARTs, GPIOs and an Ethernet MAC, etc, to construct a 2/4/8 ports UARTs to Ethernet Server device.
The IP210T is a cost-effective and highly integrated Serial-to-Ethernet SoC. Embedding an 8051 CPU, 64KB OTP ROM, 32K bytes SRAM, 2 channel 7-bit ADC, 10/100Mbps Ethernet, and UART. The IP210T is targeted for network sensor, Serial-to-Ethernet server, and security system
The 128 pins IP210W is a very cost-effective product and highly integrated, 32K bytes SRAM, 10/100Mbps Ethernet MAC, offload engine and an 8051 for Web Controller applications.
The IP210W has a 10/100Mbps MAC interface and an external flash interface for Web controller application
The IP211 is a single-chip, which combines one embedded 32-bit CPU, Ethernet 10/100M MAC, a SDRAM controller, a serial flash controller, GPIOs, etc. These features make IP211 work seamlessly with Ethernet switch chips or media converter chips, etc, to construct management devices for users
The IP211 is a single-chip, which combines one embedded 32-bit CPU, Ethernet 10/100M MAC, a SDRAM controller, a serial flash controller, GPIOs, etc. These features make IP211 work seamlessly with Ethernet switch chips or media converter chips, etc, to construct management devices for users
IP175LLF integrates a 5-port switch controller, SSRAM, and 4 10/100 Ethernet transceivers. Each of the transceivers compliers with the IEEE802.3, IEEE802.3u, and IEEE802.3x specifications. The DSP approach is utilized for designing transceivers with 0.16um technology; they have high noise immunity and robust performance.
IP175LLF integrates a 5-port switch controller, SSRAM, and 4 10/100 Ethernet transceivers. Each of the transceivers compliers with the IEEE802.3, IEEE802.3u, and IEEE802.3x specifications. The DSP approach is utilized for designing transceivers with 0.16um technology; they have high noise immunity and robust performance.
IP175DLF integrates a 6-port switch controller, SSRAM, and 5 10/100 Ethernet transceivers. Each of the transceivers complies with the IEEE802.3, IEEE802.3u, and IEEE802.3x specifications. The DSP approach is utilized for designing transceivers with 0.16um technology; they have high noise immunity and robust performance
IP175DLF integrates a 6-port switch controller, SSRAM, and 5 10/100 Ethernet transceivers. Each of the transceivers complies with the IEEE802.3, IEEE802.3u, and IEEE802.3x specifications. The DSP approach is utilized for designing transceivers with 0.16um technology; they have high noise immunity and robust performance
IP175Gx is fabricated with advanced CMOS (85nm) technology and only requires a 3.3V single power supply. This feature makes IP175Gx used very low power consumption, such as the full load operation (100Mbps full duplex 5 ports), it only takes 0.45w