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

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

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

IP178Gx is fabricated with advanced CMOS (85nm) technology and only requires a 3.3V single power supply. This feature makes IP178GX used very low power consumption, such as the full load operation (100Mbps full duplex 8 ports), it only takes 0.95W

IP178Gx is fabricated with advanced CMOS (85nm) technology and only requires a 3.3V single power supply. This feature makes IP178GX used very low power consumption, such as the full load operation (100Mbps full duplex 8 ports), it only takes 0.95W

IP178Gx is fabricated with advanced CMOS (85nm) technology and only requires a 3.3V single power supply. This feature makes IP178GX used very low power consumption, such as the full load operation (100Mbps full duplex 8 ports), it only takes 0.95W

IP178C/IP178CH integrates a 9-port switch controller, SSRAM, and 8 10/100 Ethernet transceivers. Each of the transceivers complies with the IEEE802.3, IEEE802.3u, and IEEE802.3x specifications. The transceivers are designed in DSP approach in 0.18um technology; they have high noise immunity and robust performance

IP178C/IP178CH integrates a 9-port switch controller, SSRAM, and 8 10/100 Ethernet transceivers. Each of the transceivers complies with the IEEE802.3, IEEE802.3u, and IEEE802.3x specifications. The transceivers are designed in DSP approach in 0.18um technology; they have high noise immunity and robust performance

The IP179L is a cost-effective and fully integrated single chip. It integrates a 9-port switch controller, an octal PHY transceiver and SSRAM. Each of PHY transceiver complies with 802.3u specification and HP-license Auto MDI/MDIX

The IP179N/H is a professional high-end SoC targeted for the Ethernet switch (w/ or w/o POE chips) or NVR application. This SoC is built in with an advanced switch engine, aiming to provide high-quality imagery output. Other built-in IPs, included a low power 9-port fast Ethernet transceivers, SSRAM, regulator, ESD protection and etc.

The IP179N/H is a professional high-end SoC targeted for the Ethernet switch (w/ or w/o POE chips) or NVR application. This SoC is built in with an advanced switch engine, aiming to provide high-quality imagery output. Other built-in IPs, included a low power 9-port fast Ethernet transceivers, SSRAM, regulator, ESD protection and etc.

The IP179N/H is a professional high-end SoC targeted for the Ethernet switch (w/ or w/o POE chips) or NVR application. This SoC is built in with an advanced switch engine, aiming to provide high-quality imagery output. Other built-in IPs, included a low power 9-port fast Ethernet transceivers, SSRAM, regulator, ESD protection and etc.

The IP179N/H is a professional high-end SoC targeted for the Ethernet switch (w/ or w/o POE chips) or NVR application. This SoC is built in with an advanced switch engine, aiming to provide high-quality imagery output. Other built-in IPs, included a low power 9-port fast Ethernet transceivers, SSRAM, regulator, ESD protection and etc.