Non-PCI/SRAM-Like/Local Bus/SPI Embedded Ethernet Controllers

EtherCAT slave controller/SoC and TSN NIC solutions for smart factory, industrial automation and industrial IoT

ASIX IO-Link master/device software stacks and PCIe/USB to serial/parallel bridge solutions

USB KVM Switch SoC for USB KVM applications, and Wi-Fi/Ethernet SoC for Wi-Fi to UART, Ethernet to UART, etc.

5V/3V RS-232/RS-422/RS-485 UART transceivers solutions for industrial computers, embedded systems.

Super Speed/High Speed USB to 10/100/1000Mbps Gigabit Ethernet Solutions for Smart Home & Office

Single Chip Microcontroller with TCP/IP and 10/100M Fast Ethernet MAC/PHY (Features 128K Flash, 16GPIOs, LQFP-80)

Single Chip Microcontroller with TCP/IP and 10/100M Fast Ethernet MAC/PHY (Features 512K Flash, 16GPIOs, LQFP-80)

Single Chip Microcontroller with TCP/IP and 10/100M Fast Ethernet MAC/PHY (Features 512K Flash, EMI, Local Bus, MII, 32GPIOs, LQFP-128)

Single Chip Microcontroller with TCP/IP and 802.11 WLAN MAC/Baseband (32GPIOs, LQFP-128)

Low Power 3V to 5.5V 3D/5R 250Kbps RS-232 Transceiver

Low Power 3V to 5.5V 3D/5R 1000Kbps RS-232 Transceiver

2/3-Port EtherCAT Slave Controller

2/3-Port EtherCAT Slave Controller SoC

EtherCAT Slave Controller with Dual-Core MCU

2-Port USB KVM Switch SoC

4-Port USB KVM Switch SoC

USB 2.0 to Multi I/O (1S or 2S) Controller

USB 2.0 to Multi I/O (4S, 2S+1P) Controller

Single chip USB 2.0 to MII, single chip MII to Ethernet and USB Bridging controller in Dual-PHY mode

USB 3.2 Gen1 to Gigabit Ethernet Controller

USB 3.2 Gen1 to Gigabit Ethernet Controller

High-Performance Non-PCI 32-bit 10/100/1000M Gigabit Ethernet Controller [NOT FOR NEW DESIGN!!]

USB 3.2 Gen1 to 2.5G Ethernet Controller

Single chip Low-pin-count USB 2.0 to 10/100M Fast Ethernet controller

Low-Power USB 2.0 to 10/100M Fast Ethernet Controller [NOT FOR NEW DESIGN!!]

USB2.0 to 10/100M Fast Ethernet Controller with Microsoft AOAC Support

USB 2.0 to 10/100M Fast Ethernet Controller

USB 2.0 to 10/100M Fast Ethernet Controller

Non-PCI 8/16-bit 10/100M Fast Ethernet Controller with Embedded PHY

Low-Pin-Count Non-PCI 8/16-bit 10/100M Fast Ethernet Controller

Low-Power SPI or Non-PCI 10/100M Fast Ethernet Controller

PCIe to Multi I/O (4S, 2S+1P, 2S+SPI, LB) Controller

Quad Port TSN Gigabit Ethernet PCIe NIC Card

ASIX IO-Link Device Software Stack

Low Power 5V 2.5Mbps 256-Fanout RS485 Transceivers

Low Power +3V to +5.5V, 250Kbps RS232 Transceivers (Features 18/20-pin, Receiver Disable)

Low Power 5V 250Kbps RS232 Transceivers (Features 16-pin, ±9V Output Voltage Swing)

Low Power 5V 250Kbps RS232 Transceivers (Features 28-pin, w/o Wake Up, ±6V Output Voltage Swing)

Low Power 5V 250Kbps RS232 Transceivers (Features 28-pin, with Wake Up, ±9V Output Voltage Swing)

Low Power 5V 250Kbps RS232 Transceivers (Features 28-pin, with Wake Up, ±6V Output Voltage Swing)

Low Power 5V 1000Kbps RS232 Transceivers (Features 28-pin, with Wake Up)

Low Power 5V 250Kbps RS232 Transceivers (Features 16-pin, ±6V Output Voltage Swing)

Low Power 3V 250Kbps RS485 Transceivers (Features 14-pin, Full Duplex)

Low Power 3V 250Kbps RS485 Transceivers (Features 8-pin, Half Duplex)

Low Power 3V 500Kbps RS485 Transceivers (Features 14-pin, Full Duplex)

Low Power 3V 500Kbps RS485 Transceivers (Features 8-pin, Half Duplex)

Low Power 3V 16Mbps RS485 Transceivers (Features 14-pin, Full Duplex)

Low Power 3V 16Mbps RS485 Transceivers (Features 8-pin, Half Duplex)

Low Power 5V 20Mbps 256-Fanout RS485 Transceivers with True Fail Safe (Features 8-pin, Full Duplex)

Low Power +3V to +5.5V, 250Kbps RS232 Transceivers (Feature 16-pin, 1D/1R, w/o Autogreen)

Low Power +3V to +5.5V, 250Kbps RS232 Transceivers (Feature 16-pin, 1D/1R, with Autogreen)

Low Power +3V to +5.5V, 250Kbps RS232 Transceivers (Features 18/20-pin, Receiver Enable)

Low Power +3V to +5.5V, 1000Kbps RS232 Transceivers (Features 18/20-pin, Receiver Enable)

Low Power +3V to +5.5V, 250Kbps RS232 Transceivers (Features 20-pin)

Low Power +3V to +5.5V, 250Kbps RS232 Transceivers (Features 16-pin, 2D/2R)

Low Power +3V to +5.5V, 1000Kbps RS232 Transceivers (Features 16-pin, 2D/2R)

Low Power +3V to +5.5V, 3D/5R 250Kbps RS232 Transceivers (Features 28-pin)

Low Power +3V to +5.5V, 3D/5R 250Kbps RS232 Transceivers (Features 28/32-pin)

Low Power +3V to +5.5V, 3D/5R 1000Kbps RS232 Transceivers (Features 28/32-pin)

Low Power 3V 250Kbps RS485 Transceivers (Features 8-pin, Half Duplex)

Low Power 3V 16Mbps RS485 Transceivers (Features 8-pin, Half Duplex)

Low Power 3V 250Kbps RS485 Transceivers (Features 8-pin, Full Duplex)

Low Power 3V 16Mbps RS485 Transceivers (Features 8-pin, Full Duplex)

Low Power 3V 16Mbps RS485 Transceivers (Features 14-pin, Full Duplex)

Low Power 5V 250Kbps RS485 Transceivers (Features 8-pin, Half Duplex)

Low Power 5V 250Kbps 256-Fanout RS485 Transceivers

Low Power 5V 10Mbps RS485 Transceivers (Features 8-pin, Half Duplex)

Low Power 5V 10Mbps 256-Fanout RS485 Transceivers

Low Power 5V 250Kbps 128-Fanout RS485 Transceivers

Low Power 5V 250Kbps RS485 Transceivers (Features 8-pin, Full Duplex)

Low Power 5V 250Kbps 256-Fanout RS485 Transceivers (Features 8-pin)

Low Power 5V 250Kbps RS485 Transceivers (Features 14-pin, Full Duplex)

Low Power 5V 250Kbps 256-Fanout RS485 Transceivers (Features 14-pin)

Low Power 5V 10Mbps RS485 Transceivers (Features 8-pin, Full Duplex)

Low Power 5V 10Mbps 256-Fanout RS485 Transceivers (Features 8-pin)

Low Power 5V 10Mbps RS485 Transceivers (Features 14-pin, Full Duplex)

Low Power 5V 10Mbps 256-Fanout RS485 Transceivers (Features 10/14-pin)

To simplify the EtherCAT network setup by using EtherCAT P One Cable solution with EtherCAT data lines and two individual 24V DC/3A power supplies

The ASIX IO-Link Device Software Stack is designed on the AXM-IOLS IO-Link device evaluation board, equipped with STMicroelectronics STM32F469AI MCU, and developed under the STM32CubeIDE development environment. This software stack package includes the ASIX IO-Link device software stack trial library, IO-Link sensor drivers, and a demo application, etc.

Compared to the traditional 4-Port USB KVM switch with up to 12 chipsets solution, ASIX provides a simple design and cost-effective AX6800x USB KVM Switch SoC single chip solution.

ASIX USB Ethernet iPXE solution integrates the iPXE network booting technology with ASIX’s latest USB Ethernet controllers for network booting.

ASIX provides an easy-design AX58100 EtherCAT slave motor control reference design solution based on STMicroelectronics X-CUBE-MCSDK motor control software development kit.

ASIX provides an easy-design AX58100 + STM32H745ZI MCU Motor Control Reference Design solution based on STMicroelectronics X-CUBE-MCSDK motor control software development kit.

ASIX AXM57104 TSN Development Platform provides an easy way to enter the new generation industrial Ethernet, Time-Sensitive Networking (TSN) world on Real-Time Linux (RT-Linux) industrial computers.

ASIX AX88179A USB 3.2 Gen1 to Gigabit Ethernet Controller provides the best wired networking solution to obtain a stable high-speed wired network connection through USB interface.

This article aims to introduce how to quickly implement EtherCAT slave products using ASIX’s AX58400 EtherCAT slave reference design kits.

Please follow and press "Like" button on ASIX Facebook/Instagram /GoogleMyBusiness/LinkedIn/X /LINE/WeChat/YouTube/YOUKU social media channels to get ASIX latest news/videos/events messages in time.

1.23

1.00

1.00

1.33

2.00

2.00

1.40

1.10

1.00

1.10

3.0.3.0

3.0.3.0

1.6.0.0

1.6.0.0

1.4.1.0

1.4.1.0

1.4.1.0

1.4.1.0

1.4.1.0

1.4.1.0

1.4.1.0

1.4.1.0

1.4.1.0

1.4.1.0

1.0.0

2.11.0

2.5.0

2.5.0

2.5.0

2.5.0

1.02

1.02

1.02

1.02

1.09

1.03

1.12

1.12

1.09

1.03

1.10

1.10

1.01

1.01

1.01

1.01

1.00

1.30

1.1

1.1

1.33

1.09

1.03

1.01

1.01

1.01

2.2.2

2.2.2

2.2.2

1.80

1.80

1.80

1.40

1.40

1.40

1.90

1.90

1.90

2.20

2.20

2.00

2.00

1.20

1.02

1.10

1.10

1.15

1.04

1.22

1.03

2.03

1.40

1.01

1.01

1.10

2.20

1.00

1.09

1.07

2.02

1.0.1

1.00

2.10

1.00

1.00

1.02

1.20

1.00

2.00

2.30

1.00

4.10

1.06

1.01

2.10

3.10

1.20

1.10

1.00

4.20

1.00

2.40

3.20

1.04

0.30

2.20

2.20

1.10

3.20

1.00

1.00

1.00

1.21

1.21

1.21

2.01

2.01

2.01

2.04

2.01

2.01

2.01

2.04

1.02

1.02

1.03

1.03

1.01

1.01

1.00

1.00

1.00

1.10

1.10

1.10

1.00

1.00

1.20

1.10

1.10

1.00

v1.32

1.01

1.16

1.23

1.31

1.00

2.07

1.01

1.00

1.00

1.09

2.00

1.05

2.30

1.04

1.02

2.30

2.00

1.00

1.21

1.02

2.20

1.00

1.42

1.01

0.10

0.10

1.00

2.00

1.04

1.00

1.08

1.34

1.14

2.02

1.08

1.14

2.10

2.00

2.01

2.04

2.14

2.02

1.40

1.13

2.10

2.00

2.01

2.04

2.14

2.02

1.00

1.01

1.01

1.05

2.01

1.02

1.10

1.02

2.01

1.02

1.10

1.1

1.16

2.00

1.00

1.00

1.01

1.0

1.15

1.03

1.2

1.21

2.0

2.0

1.40

1.0

1.01

1.50

1.60

1.30

1.00

1.3

1.17

1.01

1.10

1.02

1.01

1.00

1.0.4

1.0.3

1.0.3

1.0.2

0.10

1.00

1.04

1.00

1.10

1.10

1.10

1.10

1.02

1.02

1.40

2.02

1.00.0001

1.0.0.3

1.0.0.3

1.0.0.3

1.0.0.3

1.0.0.4

1.0.0.1

1.0.0.1

1.00

1.00

1.00

1.01

1.10

1.0.0

1.0.0

1.0.0

1.0.0

1.0.0

1.0.0

1.2.2

2.2.0

2.2.0

1.7.0

1.4.0

3.1.0

3.1.0

3.1.0

3.1.0

1.4.0

2.3.0

3.7.0

3.7.0

5.3.0

5.3.0

5.3.0

1.0.0

2.3.0

2.3.0

3.5.0

3.5.0

3.5.0

3.5.0

3.5.0

3.5.0

3.5.0

1.0.0

1.3.0

2.20

1.00

2.00

2.00

2.00

2.20

1.00

2.00

2.20

1.00

2.00

2.00

2.20

1.00

2.00

2.00

3.00

1.10

1.0.0

1.0.0

1.2.0

2.8.0

2.8.0

2.8.0

3.2.0

3.2.0

3.2.0

3.2.0

3.2.0

3.2.0

3.2.0

3.2.0

3.2.0

3.2.0

3.2.0

3.2.0

3.2.0

3.2.0

2.8.0

2.8.0

2.8.0

1.2.18.0

1.2.18.0

1.2.18.0

1.2.18.0

1.2.18.0

3.20.9.0

3.20.9.0

2.20.2.0

2.20.2.0

3.20.2.0

3.20.2.0

3.20.3.0

3.20.3.0

3.20.3.0

1.1.3.0

1.1.3.0

1.1.3.0

3.20.3.0

3.20.3.0

3.20.3.0

3.20.9.0

3.20.9.0

3.20.2.0

3.20.2.0

3.20.2.0

3.20.2.0

3.20.2.0

3.20.2.0

3.20.2.0

2.20.3.0

2.20.3.0

2.0.2.0

2.0.2.0

2.0.2.0

2.0.2.0

2.0.2.0

2.0.2.0

2.0.2.0

3.18.1.0

3.18.1.0

3.18.1.0

3.18.1.0

3.18.1.0

3.18.1.0

3.18.1.0

3.18.1.0

1.0.2.0

1.0.2.0

2.22.2.0

2.22.2.0

3.22.0.0

3.22.0.0

3.22.3.0

3.22.3.0

3.22.3.0

3.22.3.0

3.22.3.0

3.22.3.0

3.22.3.0

3.22.1.0

3.22.1.0

3.22.0.0

1.0.0.0

1.0.0.0

1.0.0.0

2.0.3.0

2.0.3.0

2.0.3.0

2.0.3.0

2.0.3.0

2.0.3.0

2.0.3.0

3.22.3.0

3.22.3.0

3.22.3.0

3.22.3.0

3.22.3.0

3.22.3.0

3.22.3.0

1.12.11.0

1.12.11.0

5.12.12.0

5.12.12.0

3.12.5.0

3.0.6.0

3.0.6.0

2.0.0.0

2.0.0.0

2.0.1.0

1.14.11.0

1.14.11.0

5.14.12.0

5.14.12.0

3.14.5.0

1.12.3.0

3.12.1.0

3.12.1.0

3.12.1.0

3.12.1.0

3.12.6.0

3.12.6.0

3.12.6.0

1.12.3.0

3.12.1.0

3.12.1.0

3.12.1.0

3.12.1.0

3.12.6.0

3.18.1.0

3.18.1.0

3.18.1.0

3.18.1.0

3.18.1.0

3.18.1.0

3.18.1.0

3.18.1.0

3.18.1.0

3.18.1.0

3.18.1.0

3.18.1.0

3.18.1.0

3.18.1.0

3.16.10.0

3.16.10.0

3.16.10.0

3.0.3.0

3.16.10.0

3.16.10.0

3.16.10.0

1.18.5.0

3.18.6.0

3.18.6.0

3.18.6.0

1.18.5.0

3.18.6.0

1.0.0.1

1.0.0.1

1.0.0.1

1.0.0.1

1.0.0.2

1.0.0.0

1.0.0.0

1.0.0.0

1.0.0.0

1.0.0.0

1.0.0.0

1.0.0.0

1.0.0.0

1.0.0.0

1.0.0.0

1.0.0.0

1.0.0.0

1.0.2.0

1.0.2.0

1.0.2.0

1.0.2.0

1.0.2.0

1.0.2.0

1.0.2.0

1.0.2.0

1.0.2.0

1.0.2.0

1.0.2.0

1.0.2.0

1.0.15.0

1.0.15.0

1.0.15.0

1.0.15.0

1.0.15.0

1.0.15.0

1.2.2.0

1.0.0.1

1.0.0.1

1.0.0.1

1.0.0.1

1.0.0.2

1.2.0.0

1.2.0.0

1.2.0.0

1.2.0.0

1.2.0.0

1.2.0.0

1.2.0.0

1.2.0.0

1.2.0.0

1.2.0.0

1.2.4.0

1.2.4.0

1.2.4.0

1.2.4.0

1.2.4.0

1.2.4.0

1.2.4.0

1.2.4.0

1.2.4.0

1.2.4.0

1.4.5.0

1.4.5.0

1.4.5.0

1.4.5.0

1.4.5.0

1.4.5.0

1.4.5.0

1.4.5.0

1.4.5.0

1.4.5.0

1.6.0.0

1.6.0.0

1.6.0.0

1.6.0.0

1.6.0.0

1.6.0.0

1.6.0.0

1.6.0.0

1.9.0

1.9.0

1.15.0

1.15.0

1.15.0

1.31.0

1.31.0

1.31.0

1.0.24.0

1.0.24.0

1.4.2.0

1.0.4.0

1.6.2.0

2.20

2.20

2.10

2.10

2.10

2.10

2.10

2.10

2.20

2.20

2.20

2.20

2.20

2.20

2.20

2.20

2.20

2.20

2.10

2.20

2.20

2.10

2.30

2.30

2.30

2.20

2.20

2.20

2.20

2.20

2.20

2.10

2.20

2.10

2.10

2.20

2.10

2.20

2.10

2.20

2.10

2.20

2.10

Yes, ASIX provides AX88796C Linux/WinCE/etc. drivers source codes and software programming guide for customer's reference so you can modify the AX88796C driver source code to work on your own target platforms directly.

No, the AX220xx family currently supports only commercial temperature range: 0 to 70°C. If you need the industrial temperature version or other special requirements, please contact ASIX Sales staffs at sales@asix.com.tw for further support.

Please download the AX110xx Product Briefs and AX110xx Product Introduction document from ASIX's web site

Please download the AX110xx Product Briefs and AX110xx Product Introduction document from ASIX's web site

Please download the AX110xx Product Briefs and AX110xx Product Introduction document from ASIX's web site

In order to be compatible with some legacy software, some users might need to remap the assigned I/O addresses of AX99100 Parallel/Serial ports to Legacy (ISA type) I/O address (such as 378h, 3F8h, etc.). It is possible on DOS and Windows 95/98/ME operating systems but impossible on Windows NT/2000/XP/Vista/7/8 operating systems because the Remap I/O Address feature is only supported on DOS and Windows 95/98/ME operating systems but is not supported on Windows NT/2000/XP/Vista/7/8.x/10 operating systems. As the newer Windows systems maintain a much tighter control over the I/O devices and prevent any Re-Mapping I/O Address operation at device driver level. When the Re-Mapping I/O Address is not permitted, the device must use the I/O Addresses assigned by the PCIe system at Boot-Up. If the software application expects the Parallel/Serial ports to use Legacy I/O address resources, it will not be possible to make it work with the Parallel/Serial ports of PCIe based devices on Windows NT/2000/XP/Vista/7/8.x/10 platforms. On DOS platform, AX99100 can remap the I/O addresses of the Parallel/Serial ports to desired values by running AX99100 DOS utility. However, on Windows 95/98/ME platforms, you can only remap the I/O addresses of the Serial ports (but not Parallel port).

Please register MyASIX membership and then download the latest AX88796C datasheet, reference schematic, gerber/PCB layout files and application design note from AX88796C Product web page directly.

Yes, the AX88178A Windows 10/8.x/7 32-bit/64-bit drivers were qualified by Microsoft WHCK certification and the AX88178A Windows XP/Vista 32-bit/64-bit drivers were qualified by Microsoft WHQL certification.

Yes, the AX88179 Windows 10/8.x/7 32-bit/64-bit drivers were qualified by Microsoft WHCK certification and the AX88179 Windows XP/Vista 32-bit/64-bit drivers were qualified by Microsoft WHQL certification.

Yes, all AX88772A Windows 10/8.x7/Vista/XP 32-bit/64-bit drivers were qualified by Microsoft WHQL certification.

Yes, all AX88772B Windows 10/8.x7/Vista/XP 32-bit/64-bit drivers were qualified by Microsoft WHQL certification.

Yes, the AX88772C Windows 10/8.x/7 32-bit/64-bit drivers were qualified by Microsoft WHCK certification and the AX88772C Windows XP/Vista 32-bit/64-bit drivers were qualified by Microsoft WHQL certification.

Yes, the AX88772C/AX88772B/AX88772A/AX88760/AX88772 USB dongles with ASIX's default VID/PID are supported by Windows 8 inbox drivers directly.

Yes, AX88796C supports the LED Control Registors (LCR0, LCR1) to control the AX88796C Ethernet LEDs behaviors.

Yes, please deliver your own AX58100 schematic and PCB layout files to ASIX’s Support (support@asix.com.tw) for further review before making your own AX58100 PCB board.

Yes, please deliver your own AX58200 schematic and PCB layout files to ASIX’s Support (support@asix.com.tw) for further review before making your own AX58200 PCB board.

Yes, please deliver your own AX78120 schematic and PCB layout files to ASIX’s Support (support@asix.com.tw) for further review before making your own AX78120 PCB board.

Yes, please deliver your own AX78140 schematic and PCB layout files to ASIX’s Support (support@asix.com.tw) for further review before making your own AX78140 PCB board.

Yes, please deliver your own AX88178A schematic and PCB layout files to ASIX's Support (support@asix.com.tw) for further review before making your own AX88178A PCB board.

Yes, please deliver your own AX88179 schematic and PCB layout files to ASIX's Support (support@asix.com.tw) for further review before making your own AX88179 PCB board.

Yes, please deliver your own AX88772B schematic and PCB layout files to ASIX's Support (support@asix.com.tw) for further review before making your own AX88772B PCB board.

Yes, please deliver your own AX88772C schematic and PCB layout files to ASIX's Support (support@asix.com.tw) for further review before making your own AX88772C PCB board.

Yes, please deliver your own AX88796C schematic and PCB layout files to ASIX's Support (support@asix.com.tw) for further review before making your own AX88796C PCB board.

Yes, please deliver your own AX99100 schematic and PCB layout files to ASIX’s Support (support@asix.com.tw) for further review before making your own AX99100 PCB board.

Yes, please deliver your own MCS9865 schematic and PCB layout files to ASIX's Support (support@asix.com.tw) for further review before making your own MCS9865 PCB board.

Yes, please deliver your own MCS99xx schematic and PCB layout files to ASIX's Support (support@asix.com.tw) for further review before making your own MCS99xx PCB board.

Yes, please deliver your own MCS99xx schematic and PCB layout files to ASIX's Support (support@asix.com.tw) for further review before making your own MCS99xx PCB board.

Yes, please deliver your own MCS99xx schematic and PCB layout files to ASIX's Support (support@asix.com.tw) for further review before making your own MCS99xx PCB board.

Yes, please deliver your own MCS99xx schematic and PCB layout files to ASIX's Support (support@asix.com.tw) for further review before making your own MCS99xx PCB board.

Yes, you should be able to install the original MCS7820 drivers on AX78120 applications directly. If you have any problems, please download the latest AX781x0 drivers from AX78120 Driver Download web page instead. The latest AX781x0 drivers supports all AX78140/AX78120/MCS7840/MCS7820/MCS7810 applications.

Yes, you should be able to install the original MCS7840/MCS7820 drivers on AX78140 applications directly. If you have any problems, please download the latest AX781x0 drivers from AX78140 Driver Download web page instead. The latest AX781x0 drivers supports all AX78140/AX78120/MCS7840/MCS7820/MCS7810 applications.

No, AX99100 only supports 10-bit address bus (A[9:0]) for ISA-Like applications so AX99100 does not support full ISA interface (with 24-bit address bus). Please contact ASIX Sales (Sales@asix.com.tw) to further support.

The AX88178A supports a 64-byte eFuse that is a one-time programming ROM for an alternate solution to store the required hardware configuration data in production. We strongly suggest customers to reserve the EEPROM location on AX88178A PCB board for flexible designs even if you plan to use the AX88178A eFuse for hardware configuration. Please refer to AX88178A EEPROM User Guide for details.

The AX88179 supports a 64-byte eFuse that is a one-time programming ROM for an alternate solution to store the required hardware configuration data in production. We strongly suggest customers to reserve the EEPROM location on AX88179 PCB board for flexible designs even if you plan to use the AX88179 eFuse for hardware configuration. Please refer to AX88179 EEPROM User Guide for details.

Yes, user can eliminate the I²C Hardware Configuration EEPROM on your AX220xx applications and use the Hardware Configuration Sector in AX220xx Flash Memory SA2 sector to store the AX220xx hardware configuration setting instead. Please refer to Section 3 of AX220xx datasheet for details.

The AX88796B should be able to work with the standard NE2000 driver source code with some minor modifications such as the I/O base address, IRQ, CPU data accessing timing configurations. Please contact ASIX Sales (sales@asix.com.tw) to get the AX88x96B Software Programming Guide for more details.

Only the MCS9865 DOS and Windows NT drivers have a mechanism to manually select the desired LPT Mode for MCS9865 Parallel port. The Windows systems are supposed to be able to auto-switch to a proper LPT mode for PCI based parallel port devices. Unfortunately, this LPT mode automatic switching functionality does not work very well with PCI based Parallel port devices on Windows systems. MCS9865 can support SPP and PS/2 Modes without any problems. The EPP and ECP modes supporting varies from machine to machine and depends on the Operating System being used. Both EPP and ECP modes require two banks of Standard/Extended registers to control the standard/enhanced functionality of MCS9865 Parallel port. The base address of 2nd bank Extended registers must be equal to "the base address of 1st bank Standard registers + 400h" to meet the IEEE-1284 standard specification. Unfortunately, the PCI specification does not make any guarantees that two resource requests will have any specific relationship to each other. We request the two banks with the desired offset, but the system does not always honor those requests, and often returns the extended register bank at some entirely different address than what we requested. When this occurs, neither EPP nor ECP Mode will be workable. For this reason, some software (including Device Drivers for Printers etc.) will not work with MCS9865 PCI based Parallel port.

Only the MCS99xx DOS and Windows NT drivers have a mechanism to manually select the desired LPT Mode for MCS99xx Parallel port. The Windows systems are supposed to be able to auto-switch to a proper LPT mode for PCIe based parallel port devices. Unfortunately, this LPT mode automatic switching functionality does not work very well with PCIe based Parallel port devices on Windows systems. MCS99xx can support SPP and PS/2 Modes without any problems. The EPP and ECP modes supporting varies from machine to machine and depends on the Operating System being used. Both EPP and ECP modes require two banks of Standard/Extended registers to control the standard/enhanced functionality of MCS99xx Parallel port. The base address of 2nd bank Extended registers must be equal to "the base address of 1st bank Standard registers + 400h" to meet the IEEE-1284 standard specification. Unfortunately, the PCIe specification does not make any guarantees that two resource requests will have any specific relationship to each other. We request the two banks with the desired offset, but the system does not always honor those requests, and often returns the extended register bank at some entirely different address than what we requested. When this occurs, neither EPP nor ECP Mode will be workable. For this reason, some software (including Device Drivers for Printers etc.) will not work with MCS99xx PCIe based Parallel port.

Only the MCS99xx DOS and Windows NT drivers have a mechanism to manually select the desired LPT Mode for MCS99xx Parallel port. The Windows systems are supposed to be able to auto-switch to a proper LPT mode for PCIe based parallel port devices. Unfortunately, this LPT mode automatic switching functionality does not work very well with PCIe based Parallel port devices on Windows systems. MCS99xx can support SPP and PS/2 Modes without any problems. The EPP and ECP modes supporting varies from machine to machine and depends on the Operating System being used. Both EPP and ECP modes require two banks of Standard/Extended registers to control the standard/enhanced functionality of MCS99xx Parallel port. The base address of 2nd bank Extended registers must be equal to "the base address of 1st bank Standard registers + 400h" to meet the IEEE-1284 standard specification. Unfortunately, the PCIe specification does not make any guarantees that two resource requests will have any specific relationship to each other. We request the two banks with the desired offset, but the system does not always honor those requests, and often returns the extended register bank at some entirely different address than what we requested. When this occurs, neither EPP nor ECP Mode will be workable. For this reason, some software (including Device Drivers for Printers etc.) will not work with MCS99xx PCIe based Parallel port.

Only the MCS99xx DOS and Windows NT drivers have a mechanism to manually select the desired LPT Mode for MCS99xx Parallel port. The Windows systems are supposed to be able to auto-switch to a proper LPT mode for PCIe based parallel port devices. Unfortunately, this LPT mode automatic switching functionality does not work very well with PCIe based Parallel port devices on Windows systems. MCS99xx can support SPP and PS/2 Modes without any problems. The EPP and ECP modes supporting varies from machine to machine and depends on the Operating System being used. Both EPP and ECP modes require two banks of Standard/Extended registers to control the standard/enhanced functionality of MCS99xx Parallel port. The base address of 2nd bank Extended registers must be equal to "the base address of 1st bank Standard registers + 400h" to meet the IEEE-1284 standard specification. Unfortunately, the PCIe specification does not make any guarantees that two resource requests will have any specific relationship to each other. We request the two banks with the desired offset, but the system does not always honor those requests, and often returns the extended register bank at some entirely different address than what we requested. When this occurs, neither EPP nor ECP Mode will be workable. For this reason, some software (including Device Drivers for Printers etc.) will not work with MCS99xx PCIe based Parallel port.

Only the MCS99xx DOS and Windows NT drivers have a mechanism to manually select the desired LPT Mode for MCS99xx Parallel port. The Windows systems are supposed to be able to auto-switch to a proper LPT mode for PCIe based parallel port devices. Unfortunately, this LPT mode automatic switching functionality does not work very well with PCIe based Parallel port devices on Windows systems. MCS99xx can support SPP and PS/2 Modes without any problems. The EPP and ECP modes supporting varies from machine to machine and depends on the Operating System being used. Both EPP and ECP modes require two banks of Standard/Extended registers to control the standard/enhanced functionality of MCS99xx Parallel port. The base address of 2nd bank Extended registers must be equal to "the base address of 1st bank Standard registers + 400h" to meet the IEEE-1284 standard specification. Unfortunately, the PCIe specification does not make any guarantees that two resource requests will have any specific relationship to each other. We request the two banks with the desired offset, but the system does not always honor those requests, and often returns the extended register bank at some entirely different address than what we requested. When this occurs, neither EPP nor ECP Mode will be workable. For this reason, some software (including Device Drivers for Printers etc.) will not work with MCS99xx PCIe based Parallel port.

No, users should purchase the DoCD HAD2 Debugger from Digital Core Design's web site.

No, user should purchase the Keil IDE development tools from Keil's web site. In general, user should purchase the PK51 development tool for C-language compiler, debugger and simulator.

No, the AX88772A EEPROM content includes important hardware initialization data like USB descriptors, product strings, serial number, etc. This configuration data will be used during the AX88772A's hardware initialization for normal operation.

Yes, you can use ASIX's WiFi module solutions such as AXM22001-2A-C 802.11b/g WiFi module board on your AX220xx applications directly if you don't have experiences to implement the WiFi module by yourselves. Please contact ASIX Sales staffs at sales@asix.com.tw for more details.

Please refer to AX58200 full datasheet chapter 2.29.5 for detailed wiring suggestions.

The EVB of AX58200 has a Nu Link ICE designed for debugging and programming. So, there is no need to purchase other programming tools. You can refer to AX58200 Test/Evaluation Board Reference Schematic for more details.

No, the AX88772A doesn't support the MII interface. In this case, you can implement AX88172A with MII interface on your target application. Please contact ASIX's sales (sales@asix.com.tw) for further support.

Yes, the AX88772B supports the embedded Device Descriptors ROM and 512 bytes ID-SRAM (online programmable memory for USB Device Descriptors, etc) to save external EEPROM for AX88772B on-board design applications. For AX88772B USB to LAN dongle applications, we don't suggest to eliminate the EEPROM.

Yes, the AX88796C EEPROM is optional if the MAC address can be stored on the Flash memory of your embedded system. The other EEPROM setting can also be configured by AX88796C registers directly.

Yes, you can remove the I2C EEPROM from their application, but the limitation is that their applications can only use AX110xx H/W default settings like the multi-function pin, output driving strength, etc. If you need to specify the AX110xx settings being defined in the EEPROM, you should keep the I2C EEPROM on their applications.

Yes, you can remove the I2C EEPROM from their application, but the limitation is that their applications can only use AX110xx H/W default settings like the multi-function pin, output driving strength, etc. If you need to specify the AX110xx settings being defined in the EEPROM, you should keep the I2C EEPROM on their applications.

Yes, you can remove the I2C EEPROM from their application, but the limitation is that their applications can only use AX110xx H/W default settings like the multi-function pin, output driving strength, etc. If you need to specify the AX110xx settings being defined in the EEPROM, you should keep the I2C EEPROM on their applications.

Yes, AX88178A demo board was certified by USB-IF.

Yes, AX88179 demo board was certified by USB-IF.

Yes, AX88772A demo board was certified by USB-IF.

Yes, AX88772B demo board was certified by USB-IF.

Yes, AX88772C demo board was certified by USB-IF.

Yes, every Ethernet device must have a unique MAC address. Users should always assign a unique MAC address in the AX88178A EEPROM for every AX88178A based devices.

Yes, every Ethernet device must have a unique MAC address. Users should always assign a unique MAC address in the AX88179 EEPROM for every AX88179 based devices.

Yes, every Ethernet device must have a unique MAC address. You should always assign a unique MAC address in the AX88772A EEPROM.

Yes, every Ethernet device must have a unique MAC address. Users should always assign a unique MAC address in the AX88772B EEPROM for every AX88772B based devices.

Yes, every Ethernet device must have a unique MAC address. Users should always assign a unique MAC address in the AX88772C EEPROM for every AX88772C based devices.

Yes, every Ethernet device must have a unique MAC address. Users should always assign a unique MAC address for every AX88796C based devices.

No, it depends on the real requirement of your AX88178A target application. If users need to install more than one AX88178A based devices on your target application, you should assign a different serial number in the EEPROM for every AX88178A device. If your target application always uses one AX88178A device, you can consider assigning the same serial number in the EEPROM for every AX88178A device for easy maintenance in mass production, especially if you plan to use a Windows PC to test AX88178A based devices repeatedly during mass production test.

No, it depends on the real requirement of your AX88179 target application. If users need to install more than one AX88179 based devices on your target application, you should assign a different serial number in the EEPROM for every AX88179 device. If your target application always uses one AX88179 device, you can consider assigning the same serial number in the EEPROM for every AX88179 device for easy maintenance in mass production, especially if you plan to use a Windows PC to test AX88179 based devices repeatedly during mass production test.

No, it depends on the real requirement of your AX88772A target application. If your end customer may need to install more than one AX88772A-based device on your target application, you should assign a different serial number in the EEPROM for every AX88772A device. If your target application always uses one AX88772A device, you can consider assigning the same serial number in the EEPROM for every AX88772A device for easy maintenance in mass production, especially if you plan to use a Windows PC to test AX88772A based devices repeatedly during the mass production test.

No, it depends on the real requirement of your AX88772B target application. If users need to install more than one AX88772B based devices on your target application, you should assign a different serial number in the EEPROM for every AX88772B device. If your target application always uses one AX88772B device, you can consider assigning the same serial number in the EEPROM for every AX88772B device for easy maintenance in mass production, especially if you plan to use a Windows PC to test AX88772B based devices repeatedly during mass production test.

No, it depends on the real requirement of your AX88772C target application. If users need to install more than one AX88772C based devices on your target application, you should assign a different serial number in the EEPROM for every AX88772C device. If your target application always uses one AX88772C device, you can consider assigning the same serial number in the EEPROM for every AX88772C device for easy maintenance in mass production, especially if you plan to use a Windows PC to test AX88772C based devices repeatedly during mass production test.

No, the AX88178A already supports available device drivers for most of operating systems such as Windows 10/8.x/7/Vista/XP, Linux, Mac OSX, WinCE/Mobile, etc. Please visit AX88178A Driver Download web page for details. For some special OS supporting requirements, please contact ASIX's sales (sales@asix.com.tw) for further support.

No, the AX88179 already supports available device drivers for most of operating systems such as Windows 10/8.x/7, Linux, Mac OSX, WinCE/Mobile, etc. Please visit AX88179 Driver Download web page for details. For some special OS supporting requirements, please contact ASIX's sales (sales@asix.com.tw) for further support.

No, the AX88772B already supports available device drivers for most of operating systems such as Windows 10/8.x/7/Vista/XP, Linux, Mac OSX, WinCE/Mobile, etc. Please visit AX88772B Driver Download web page for details. For some special OS supporting requirements, please contact ASIX's sales (sales@asix.com.tw) for further support.

No, the AX88772C already supports available device drivers for most of operating systems such as Windows 10/8.x/7/Vista/XP, Linux, Mac OSX, WinCE/Mobile, etc. Please visit AX88772C Driver Download web page for details.

No, ASIX provides free AX110xx related sample codes for customers to implement AX110xx applications.

No, ASIX provides free AX110xx related sample codes for customers to implement AX110xx applications.

No, ASIX provides free AX110xx related sample codes for customers to implement AX110xx applications.

No, ASIX provides free AX220xx related sample codes for customers to implement AX220xx applications.

ASIX provides two AX220xx Boot Loader binary codes for two application scenarios. The first is for the case where user needs to use the DoCD HAD debugger function, typically during software development stage; the second is for the case where user needs to prevent unauthorized program code download, typically required for user's final application software. Other than the code protection mode, the two AX220xx Boot Loader binary codes share exactly the same functions and features supported. In general, users don't need to port the AX220xx Boot Loader source code by yourselves.

Yes, user should port the AX220xx MCPU firmware source code by referring to the provided reference design source code as baseline to implement your own AX220xx applications.

ASIX provides a WCPU driver firmware binary code that supports the AL2230S/AL7230 RF transceiver chips from Airoha. However, there are some WiFi customization setting such as WiFi LED, supported region code or channel map, etc. that can be defined by user in the I²C Configuration EEPROM or Flash memory sector 2. The WCPU driver firmware supports to operate in infrastructure or IBSS mode with various configuration/management APIs available to MCPU software. In general, users don't need to port the AX220xx WCPU driver firmware source code by yourselves.

It depends on your requirements. If you can debug AX110xx software via the UART console debugging method, you don't need to purchase the DoCD HAD2 debugger.

It depends on your requirements. If you can debug AX110xx software via the UART console debugging method, you don't need to purchase the DoCD HAD2 debugger.

It depends on your requirements. If you can debug AX110xx software via the UART console debugging method, you don't need to purchase the DoCD HAD2 debugger.

It depends on the user's requirement. If user is comfortable with debugging AX220xx software via the UART console debugging method, your probably don't need to purchase the DoCD HAD2 debugger.

The answers to above questions really depend on user's product applications and target market, which can be different on individual cases. Below gives customers some general guidelines about whether one can use ASIX's VID/PID or one should better register its own one with USB-IF. 1.Case where it is OK to use ASIX Electronics's VID (0B95h) and PID (178Ah): You may be able to use ASIX Electronics' VID and PID when your AX88178A based application system can simply work with AX88178A standard drivers provided by ASIX without any modification and you don't have any concern from business and product marketing perspective to use the same VID and PID on your products as ASIX's other customers who are also using ASIX's VID and PID. ASIX Electronics would like to request customers to inform ASIX sales staffs by sending us email at sales@asix.com.tw beforehand if you would like to use ASIX Electronics VID and PID for your products. In other words, if your AX88178A based application system requires you to modify AX88178A driver on your own or by ASIX support team, you might have to register your own VID and PID. This can avoid your end customers from going to ASIX web site to download the AX88178A standard drivers which may not be suitable to work with the specific AX88178A based application system. 2.Cases requiring you to use your own VID and PID (1) Your AX88178A based application systems can't work directly with AX88178A standard drivers which ASIX Electronics release on its web site and your target application system (such as USB dongle or docking station) may allow your end customers to update the standalone AX88178A driver by themselves after sales. In that case, you MUST assign your own unique VID and PID for your AX88178A based devices. (2) For brand name products, you probably don't want your AX88178A based devices to become compatible with other company's AX88178A based devices. In this case, you should consider assigning your own unique VID and PID for your AX88178A based devices. You can register your own VID from USB Implementers Forum, Inc. and define the PID based on your company rules.

The answers to above questions really depend on user's product applications and target market, which can be different on individual cases. Below gives customers some general guidelines about whether one can use ASIX's VID/PID or one should better register its own one with USB-IF. 1.Case where it is OK to use ASIX Electronics's VID (0B95h) and PID (1790h): You may be able to use ASIX Electronics' VID and PID when your AX88179 based application system can simply work with AX88179 standard drivers provided by ASIX without any modification and you don't have any concern from business and product marketing perspective to use the same VID and PID on your products as ASIX's other customers who are also using ASIX's VID and PID. ASIX Electronics would like to request customers to inform ASIX sales staffs by sending us email at sales@asix.com.tw beforehand if you would like to use ASIX Electronics VID and PID for your products. 2.Cases requiring you to use your own VID and PID (1) Your AX88179 based application systems can't work directly with AX88179 standard drivers which ASIX Electronics release on its web site and your target application system (such as USB dongle or docking station) may allow your end customers to update the standalone AX88179 driver by themselves after sales. In that case, you MUST assign your own unique VID and PID for your AX88179 based devices. (2) For brand name products, you probably don't want your AX88179 based devices to become compatible with other company's AX88179 based devices. In this case, you should consider assigning your own unique VID and PID for your AX88179 based devices. You can register your own VID from USB Implementers Forum, Inc. and define the PID based on your company rules.

It depends on your product applications and target market which may vary case by case. Below are some general guidelines on whether one can use ASIX's VID/PID or use its own registered VID/PID. 1. Case where it is OK to use ASIX Electronics's VID (0B95h) and PID (772Ah): (1) Your AX88772A-based application works with the standard AX88772A drivers provided by ASIX without any modification to the driver. (2) You are not concerned from a business and product marketing perspective about sharing the same VID and PID on your products as ASIX's other customers. (*Note) Please inform ASIX by emailing us at sales@asix.com.tw beforehand if you would like to use ASIX Electronics VID and PID for your products. *Note: This can avoid your end customers from downloading the standard AX88772A driver from the ASIX website which may not be compatible with your device drivers. 2. Cases requiring you to use your own VID and PID (1) Your AX88772A based application system doesn't work with the AX88772A standard drivers released on this website and your target application system (such as USB dongle or docking station) allows end customers to update the standalone AX88772A driver by themselves after sales. In this case, you MUST assign your own unique VID and PID to your AX88772A based devices. (2) For brand name products, you probably don't want your AX88772A-based devices to be compatible with other companies' AX88772A-based devices. In this case, you should consider assigning your own unique VID and PID for your AX88772A based devices. You can register your own VID from USB Implementers Forum, Inc. and define the PID based on your company rules. If you have any problems, please contact ASIX's sales (sales@asix.com.twa>) for further support.

The answers to above questions really depend on user's product applications and target market, which can be different on individual cases. Below gives customers some general guidelines about whether one can use ASIX's VID/PID or one should better register its own one with USB-IF. 1.Case where it is OK to use ASIX Electronics's VID (0B95h) and PID (772Bh): You may be able to use ASIX Electronics' VID and PID when your AX88772B based application system can simply work with AX88772B standard drivers provided by ASIX without any modification and you don't have any concern from business and product marketing perspective to use the same VID and PID on your products as ASIX's other customers who are also using ASIX's VID and PID. ASIX Electronics would like to request customers to inform ASIX sales staffs by sending us email at sales@asix.com.tw beforehand if you would like to use ASIX Electronics VID and PID for your products. In other words, if your AX88772B based application system requires you to modify AX88772B driver on your own or by ASIX support team, you might have to register your own VID and PID. This can avoid your end customers from going to ASIX web site to download the AX88772B standard driver which may not be suitable to work with the specific AX88772B based application system. 2.Cases requiring you to use your own VID and PID (1) Your AX88772B based application systems can't work directly with AX88772B standard drivers which ASIX Electronics release on its web site and your target application system (such as USB dongle or docking station) may allow your end customers to update the standalone AX88772B driver by themselves after sales. In that case, you MUST assign your own unique VID and PID for your AX88772B based devices. (2) For brand name products, you probably don't want your AX88772B based devices to become compatible with other company's AX88772B based devices. In this case, you should consider assigning your own unique VID and PID for your AX88772B based devices. You can register your own VID from USB Implementers Forum, Inc. and define the PID based on your company rules.

The answers to above questions really depend on user's product applications and target market, which can be different on individual cases. Below gives customers some general guidelines about whether one can use ASIX's VID/PID or one should better register its own one with USB-IF. 1.Case where it is OK to use ASIX Electronics's VID (0B95h) and PID (772Bh): You may be able to use ASIX Electronics' VID and PID when your AX88772C based application system can simply work with AX88772C standard drivers provided by ASIX without any modification and you don't have any concern from business and product marketing perspective to use the same VID and PID on your products as ASIX's other customers who are also using ASIX's VID and PID. ASIX Electronics would like to request customers to inform ASIX sales staffs by sending us email at sales@asix.com.tw beforehand if you would like to use ASIX Electronics VID and PID for your products. In other words, if your AX88772C based application system requires you to modify AX88772C driver on your own or by ASIX support team, you might have to register your own VID and PID. This can avoid your end customers from going to ASIX web site to download the AX88772C standard driver which may not be suitable to work with the specific AX88772C based application system. 2.Cases requiring you to use your own VID and PID (1) Your AX88772C based application systems can't work directly with AX88772C standard drivers which ASIX Electronics release on its web site and your target application system (such as USB dongle or docking station) may allow your end customers to update the standalone AX88772C driver by themselves after sales. In that case, you MUST assign your own unique VID and PID for your AX88772C based devices. (2) For brand name products, you probably don't want your AX88772C based devices to become compatible with other company's AX88772C based devices. In this case, you should consider assigning your own unique VID and PID for your AX88772C based devices. You can register your own VID from USB Implementers Forum, Inc. and define the PID based on your company rules.

Yes, ASIX also supports different RS-232/RS-485 transceivers solutions. Please visit ASIX UART Transceivers/EL Drivers Products Web page for more details.

Yes, ASIX also supports different RS-232/RS-485 transceivers solutions. Please visit ASIX UART Transceivers/EL Drivers Products Web page for more details.

Yes, ASIX also supports different RS-232/RS-485 transceivers solutions. Please visit ASIX UART Transceivers/EL Drivers Products Web page for more details.

No, the AX220xx doesn't support external Flash memory interface. The AX220xx on-chip 1M Flash memory should be sufficient for most AX220xx target applications. Please contact ASIX Sales staffs at sales@asix.com.tw for further support if you have special requirements.

Yes, AX220xx supports the Real Time Clock (RTC) Controller that provides the real time clock information for some applications. The RTC Controller is a clock/calendar with seconds, minutes, hours, day, date, month and year information, and also features programmable time-of-day/date alarms. The date at the end of the month is automatically adjusted for months with fewer than 31 days, including corrections for leap year.

When program code in on-chip Flash memory needs to be protected from unauthorized download for copyright protection purpose, the AX220xx on-chip Flash memory offers a hardware mechanism to enable/disable on-chip Flash memory read protection. Please refer to AX220xx datasheet for details.

Yes, AX220xx supports 3 WiFi power saving modes with auto-wakeup for Beacon frame reception.

For CTT test, the SWITCH ID sets high nibble = 0, low nibble = 5 on the daughter board.

Yes, AX58100 supports industrial temperature range: -40 to +105°C

Yes, both compilers are supported in AX58200 BSP.

No, AX78140 USB to parallel port doesn’t support ECP/EPP modes.

No, AX88178A doesn’t support Windows Surface RT 8.0/8.1 driver.

No, AX88179 doesn’t support Windows Surface RT 8.0/8.1 driver.

No, AX88772A doesn’t support Windows Surface RT 8.0/8.1 driver.

No, AX88772B doesn’t support Windows Surface RT 8.0/8.1 driver.

Yes, the AX88772C supports Microsoft AOAC (Always On Always Connected) feature.

Yes, the Windows Surface RT 8.1 system supports an AX88772C inbox driver now, but AX88772C doesn’t support Windows Surface RT 8.0 driver.

Yes, AX88796C supports a 8051 MCU uIP TCP/IP stack porting source code for customers' reference.

In DOS operating system, the serial mouse driver expects the standard IRQ to be present for serial port. The IRQ of MCS9865 serial ports, which is different from the standard serial port, is assigned by system BIOS and cannot be changed. Therefore, the serial mouse support is not possible under DOS for MCS9865.

In DOS operating system, the serial mouse driver expects the standard IRQ to be present for serial port. The IRQ of MCS99xx serial ports, which is different from the standard serial port, is assigned by system BIOS and cannot be changed. Therefore, the serial mouse support is not possible under DOS for MCS99xx.

In DOS operating system, the serial mouse driver expects the standard IRQ to be present for serial port. The IRQ of MCS99xx serial ports, which is different from the standard serial port, is assigned by system BIOS and cannot be changed. Therefore, the serial mouse support is not possible under DOS for MCS99xx.

In DOS operating system, the serial mouse driver expects the standard IRQ to be present for serial port. The IRQ of MCS99xx serial ports, which is different from the standard serial port, is assigned by system BIOS and cannot be changed. Therefore, the serial mouse support is not possible under DOS for MCS99xx.

In DOS operating system, the serial mouse driver expects the standard IRQ to be present for serial port. The IRQ of MCS99xx serial ports, which is different from the standard serial port, is assigned by system BIOS and cannot be changed. Therefore, the serial mouse support is not possible under DOS for MCS99xx.

Yes, the embedded Ethernet PHY of AX110xx supports the HP Auto-MDIX function.

Yes, the embedded Ethernet PHY of AX110xx supports the HP Auto-MDIX function.

Yes, the embedded Ethernet PHY of AX110xx supports the HP Auto-MDIX function.

Yes, the AX110001/AX11005/AX11015 support two operating temperature ranges: 0 to 70°C or -40 to 85°C.

Yes, the AX110001/AX11005/AX11015 support two operating temperature ranges: 0 to 70°C or -40 to 85°C.

Yes, the AX110001/AX11005/AX11015 support two operating temperature ranges: 0 to 70°C or -40 to 85°C.

Yes, you can be found within the download section here: https://www.ethercat.org/download/documents/ESC_Overview.pdf

Yes, The AX58100 is a 2/3-port EtherCAT Slave Controller (ESC), licensed from Beckhoff Automation, with two integrated Fast Ethernet PHYs which support 100Mbps full-duplex operation and HP Auto-MDIX.

Yes, you can be found within the download section here: https://www.ethercat.org/download/documents/ESC_Overview.pdf

Yes, The AX58200 is a 2/3-port EtherCAT Slave Controller SoC, licensed from Beckhoff Automation, with two integrated Fast Ethernet PHYs which support 100Mbps full-duplex operation and HP Auto-MDIX.

The AX88180 supports serial EEPROM device with 16-bit data access, like 93C56 EEPROM. The EEPROM device is optional for the AX88180. AX88180 will auto-load data from the EEPROM device after a hardware reset.

The answer depends on whether the USB host controller supports the S4/S5 wake-up function or not since the WOL function of AX88772A USB to LAN devices should be supported on both AX88772A and the USB host controller. Many USB host controllers don't support the WOL function in S4 (Hibernate)/S5 (Shutdown) mode.

No, but the AX88796 supports the MC68K CPU interface.

The utility can program the I2C EEPROM while it is in-circuit. There is no need to pre-program it and then place it on the PCB.

The utility can program the I2C EEPROM while it is in-circuit. There is no need to pre-program it and then place it on the PCB.

The utility can program the I2C EEPROM while it is in-circuit. There is no need to pre-program it and then place it on the PCB.

The utility can program the I2C EEPROM while it is in-circuit. There is no need to pre-program it and then place it on the PCB.

The utility can program the I2C EEPROM while it is in-circuit. There is no need to pre-program it and then place it on the PCB.

When you purchase an AX58100 from ASIX Corp., the EtherCAT license is embedded in the chip. For AX58100's products there is no additional EtherCAT license fee.

User can define the available WiFi channels through the Region Code setting in I2C Hardware Configuration EEPROM or the Hardware Configuration Sector in AX220xx Flash Memory SA2 sector. The AX220xx WCPU firmware would read this setting to determine the available channels group supported for the region/country code.

ASIX provides plenty of AX110xx technical documents and sample codes for customers' reference. If needed, users can purchase the AX110xx Development Kits which include AX110xx development boards, AX110xx Development Kit CD and other peripherals like a power adapter, RJ-45 Ethernet cable, RS-232 Null modem cable, etc. Please contact with ASIX's Sales (sales@asix.com.tw) for more details.

ASIX provides plenty of AX110xx technical documents and sample codes for customers' reference. If needed, users can purchase the AX110xx Development Kits which include AX110xx development boards, AX110xx Development Kit CD and other peripherals like a power adapter, RJ-45 Ethernet cable, RS-232 Null modem cable, etc. Please contact with ASIX's Sales (sales@asix.com.tw) for more details.

ASIX provides plenty of AX110xx technical documents and sample codes for customers' reference. If needed, users can purchase the AX110xx Development Kits which include AX110xx development boards, AX110xx Development Kit CD and other peripherals like a power adapter, RJ-45 Ethernet cable, RS-232 Null modem cable, etc. Please contact with ASIX's Sales (sales@asix.com.tw) for more details.

No, it could not be done by end users. To install AX88178A Linux driver on your Android tablet PC, you have to recompile AX88178A Linux driver source on your target Android tablet platform and then you can install the compiled AX88178A Linux driver on your Android platform. It can only be done by the manufacturer of your Android tablet PC. Please contact the support guys of your Android platform manufacturer for further support if necessary.

No, it could not be done by end users. To install AX88179 Linux driver on your Android tablet PC, you have to recompile AX88179 Linux driver source on your target Android tablet platform and then you can install the compiled AX88179 Linux driver on your Android platform. It can only be done by the manufacturer of your Android tablet PC. Please contact the support guys of your Android platform manufacturer for further support if necessary.

No, it could not be done by end users. To install AX88772A Linux driver on your Android tablet PC, you have to recompile AX88772A Linux driver source on your target Android tablet platform and then you can install the compiled AX88772A Linux driver on your Android platform. It can only be done by the manufacturer of your Android tablet PC. Please contact the support guys of the manufacturer for further support if necessary.

No, it could not be done by end users. To install AX88772B Linux driver on your Android tablet PC, you have to recompile AX88772B Linux driver source on your target Android tablet platform and then you can install the compiled AX88772B Linux driver on your Android platform. It can only be done by the manufacturer of your Android tablet PC. Please contact the support guys of the manufacturer for further support if necessary.

No, it could not be done by end users. To install AX88772C Linux driver on your Android tablet PC, you have to recompile AX88772C Linux driver source on your target Android tablet platform and then you can install the compiled AX88772C Linux driver on your Android platform. It can only be done by the manufacturer of your Android tablet PC. Please contact the support guys of the manufacturer for further support if necessary.

Please contact ASIX's Sales (sales@asix.com.tw) for more details.

Please contact ASIX's Sales (sales@asix.com.tw) for more details.

Please contact ASIX's Sales (sales@asix.com.tw) for more details.

Please contact ASIX's Sales (sales@asix.com.tw) for more details.

Please contact ASIX's Sales (sales@asix.com.tw) for more details.

Please contact ASIX's Sales (sales@asix.com.tw) for more details.

ASIX provides plenty of AX220xx technical documents and sample codes for customers' reference. User can purchase an AX220xx reference design board and refer to the provided reference design source code as baseline to implement your own AX220xx applications. Please contact ASIX Sales staffs at sales@asix.com.tw for more details. If user would like to implement AX220xx family on your application directly without having to buy the AX220xx reference design board, you should contact ASIX Sales staffs to get AX220xx related technical documents and sample codes, subject to ASIX

You don't need to assign a static IP address for AX110xx Ethernet Boot Loader, the AX110xx Ethernet Boot Loader will always get an IP address from the DHCP server.

You don't need to assign a static IP address for AX110xx Ethernet Boot Loader, the AX110xx Ethernet Boot Loader will always get an IP address from the DHCP server.

You don't need to assign a static IP address for AX110xx Ethernet Boot Loader, the AX110xx Ethernet Boot Loader will always get an IP address from the DHCP server.

The AX88796B will auto-configure the MAC duplex mode to match the real duplex mode of embedded PHY so the driver doesn't need to take care about it.

The AX88796B embedded 10/100Mbps PHY/Transceiver will auto-detect a proper line speed so the driver doesn't need to take care about it.

The AX88796B supports both 8-bit and 16-bit local CPU interfaces included MCS-51 series, 80186 series and ISA bus. You shall define the proper Interrupt Trigger mode for the CPU used in bit 4 (IRQ_POL_EEP) and bit 5 (IRQ_TYPE_EEP) of EEPROM offset address 0x02. After hardware reset, AX88796B will auto-load the Interrupt Trigger mode setting from EEPROM into bit 4 and bit 5 of BTCR register. If needed, the driver can also manually set the Interrupt Trigger mode by configuring bit 4 and bit 5 of BTCR register (offset 15h) to overwrite the setting from EEPROM.

Set all poles of the DIP switch #10 of AX11015 128-pin development board to ON and configure offset 02h of EEPROM to 0Fh to enable the UART2 interface. Upgrade the firmware code to AX11015 128-pin development board and then install the Toolkit on the Windows machine that is connected to the VSP side (i.e. Ethernet port) of AX110xx board. Please refer to the AX11015 datasheet, AX110xx Development Kit User Guide and AX110xx RS-232 to Ethernet Reference Design User Guide for more detailed information.

There are SPI Slave and Local Bus interface for configuring to connect MCU.

AX110xx uIP TCP/IP Stack sample code v1.0.4 already includes the HTTP Web Server source code inside. Please make sure the web page HTML files are put into the "SRC/WEB/FS" subdirectory of the uIP sample code and run the "mkfs.exe" command in the "SRC/WEB" subdirectory. The "mkfs.exe" command will convert these HTML files into the FSDATA.C and FSDATA.H files. AX110xx uIP TCP/IP Stack project file (ax11000.Uv2) will include these two files (FSDATA.C and FSDATA.H) to compile the runtime code.

AX110xx uIP TCP/IP Stack sample code v1.0.4 already includes the HTTP Web Server source code inside. Please make sure the web page HTML files are put into the "SRC/WEB/FS" subdirectory of the uIP sample code and run the "mkfs.exe" command in the "SRC/WEB" subdirectory. The "mkfs.exe" command will convert these HTML files into the FSDATA.C and FSDATA.H files. AX110xx uIP TCP/IP Stack project file (ax11000.Uv2) will include these two files (FSDATA.C and FSDATA.H) to compile the runtime code.

AX110xx uIP TCP/IP Stack sample code v1.0.4 already includes the HTTP Web Server source code inside. Please make sure the web page HTML files are put into the "SRC/WEB/FS" subdirectory of the uIP sample code and run the "mkfs.exe" command in the "SRC/WEB" subdirectory. The "mkfs.exe" command will convert these HTML files into the FSDATA.C and FSDATA.H files. AX110xx uIP TCP/IP Stack project file (ax11000.Uv2) will include these two files (FSDATA.C and FSDATA.H) to compile the runtime code.

The AX88796B Flow Control function is disabled by default. You can enable the flow control function in full-duplex mode by setting bit 7 (Flow Control) or the back-presssure function in half-duplex mode by setting bit 6 (Back-pressure) of FCR register (offset 1Ah).

The AX88796B TX Queue and TX Buffer Ring functions are disabled by default. You can enable the TX Queue and TX Buffer Ring functions by setting bit 5 (TQCE) of MCR register (offset 1Bh) and bit 0 (TBR) of P30D register (Page3, offset 0Dh), respectively.

The AX88796B VLAN function is disabled by default. You can enable the VLAN function by setting bit 3 (VLANE) of MCR register (offset 1Bh) and configuring VIDR0 register (offset 1Ch) and VIDR1 register (offset 1Dh).

The AX88796B WOL function is disabled by default. You can enable the WOL function by configuring PMR register (Page 3, offset 0Bh) and WUCSR register (Page 3, offset 0Ah).

The AX88180 uses IMR register to enable/disable the interrupt function. The interrupt function can be enabled by setting a non-zero value into IMR register and can be disabled by setting a zero value into IMR register.

The AX88796B uses IMR register to enable/disable the interrupt function. The interrupt function can be enabled by setting a non-zero value into IMR register and can be disabled by setting a zero value into IMR register.

AX88180 supports the Back Pressure function for 10/100M Half-duplex modes.Configure the following registers to enable Back Pressure function: 1. Set bit 12 (RXFLOW_EN) of MAC_CFG0 register. 2. Set bit 0 and bit 8 of RX_CFG register. 3. Set bit 5 of MAC_CFG1 register. 4. Write 0164h to MAC_CFG2 register to configure Jam Limit value.

The AX88180 supports max 15K bytes RX Jumbo frame size and max 4K bytes TX Jumbo frame size. The driver can configure bit 11 (RXJUMBO) and bit 7-10 (RX Jumbo Size) of MAC_CFG1 register to enable/disable RX Jumbo frame function and set the max RX Jumbo frame size. To enable the TX Jumbo frame function, the driver needs to be configured to a max 4095 bytes packet length into the TX_CMD and TXDESx registers and then AX88180 will assign the TXDESx and TXDES(x+1) TX descriptors for this Jumbo packet. Therefore the driver should use the TXDES(x+2) and TXDES(x+3) TX descriptors for next Jumbo packet.

The AX88180 supports the TX/RX flow control function for 10/100M Full-duplex modes. The users shall configure below registers to enable TX/RX flow control function. 1. Set bit 12 (RXFLOW_EN) of MAC_CFG0 register. 2. Set bit 0 and bit 8 of RX_CFG register. 3. Set bit 5 and bit 6 of MAC_CFG1 register.

Please contact ASIX Sales (sales@asix.com.tw) directly.

Please contact ASIX Sales (sales@asix.com.tw) directly.

The AX88796B supports two kinds of Data Port for receiving/transmitting packets from/to AX88796B. One is the PIO Data Port (offset 10h); the other one is the SRAM-like Data Port (e.g. offset 800h ~ FFFh for Samsung2440 processor as described in Appendix A4 of AX88796B datasheet). The SRAM-like Data Port address range depends on which address line of host processor is being connected to the address line SA5/FIFO_SEL (pin 45) of AX88796B. Software on host CPU can issue Single Data Read/Write command to both PIO Data Port and SRAM-like Data Port. However, to use Burst Data Read/Write commands, one has to use SRAM-like Data Port which requires SA5/FIFO_SEL (pin 45) of AX88796B connecting to an upper address line of host CPU. Our reference schematic have SA5/FIFO_SEL pin connected to upper address line for supporting Burst Data Read/Write commands.

AX88178A supports some default settings inside chip hardware to enable it to communicate with USB host controller during enumeration when the AX88178A EEPROM is blank (prior to being programmed). The default settings inside chip facilitate users to update the EEPROM contents through a Windows PC during R&D validation process or program a blank EEPROM or eFuse during manufacturing process. ASIX Electronics provides Windows/Linux SROM programming tools for users to easily program AX88178A EEPROM or eFuse on a typical Windows/Linux platforms. These AX88178A SROM programming tools support to customize the MAC address, Serial Number, Vendor ID and Product ID, etc. for AX88178A based application systems in mass production. Alternatively, users can pre-program the blank EEPROM on a 3rd Party Universal Programmer before soldering the EEPROM onto the AX88178A application device. You MUST assign a unique MAC address in the EEPROM for every AX88178A device. Please refer to AX88178A EEPROM User Guide for more detailed EEPROM/eFuse design notes.

AX88179 supports some default settings inside chip hardware to enable it to communicate with USB host controller during enumeration when the AX88179 EEPROM is blank (prior to being programmed). The default settings inside chip facilitate users to update the EEPROM contents through a Windows PC during R&D validation process or program a blank EEPROM or eFuse during manufacturing process. ASIX Electronics provides Windows/Linux SROM programming tools for users to easily program AX88179 EEPROM or eFuse on a typical Windows/Linux platforms. These AX88179 SROM programming tools support to customize the MAC address, Serial Number, Vendor ID and Product ID, etc. for AX88179 based application systems in mass production. Alternatively, users can pre-program the blank EEPROM on a 3rd Party Universal Programmer before soldering the EEPROM onto the AX88179 application device. You MUST assign a unique MAC address in the EEPROM for every AX88179 device. Please refer to AX88179 EEPROM User Guide for more detailed EEPROM/eFuse design notes.

AX88772A supports some default settings inside chip hardware to enable it to communicate with USB host controller during enumeration when the AX88772A EEPROM is blank (prior to being programmed). The default settings inside chip facilitate users to update the EEPROM content through a Windows PC during R&D validation process or program a blank EEPROM mounted on target system PCB during manufacturing process. ASIX Electronics provides a Windows SROM Programming tool for users to easily program the Serial EEPROM of AX88772A on a typical Windows XP/2000 PC. This AX88772A WinXP/2K SROM Programming Tool supports to customize the MAC address, Serial Number, Vendor ID and Product ID, etc. for AX88772A based application systems in mass production. Alternatively, users can pre-program the blank EEPROM on a 3rd Party Universal Programmer before soldering the EEPROM onto the AX88772A application device. It is recommended that users assign a unique MAC address in the EEPROM for every AX88772A device. Also if users plan to use a Windows PC to test AX88772A-based devices repeatedly during mass production, it is recommended that the same serial number be assigned to the EEPROM for every AX88772A device. However, a different serial number should be assigned in the EEPROM for every AX88772A device if users need to install more than one AX88772A device on the same platform. Please contact ASIX's sales (sales@asix.com.tw) to get the AX88x72A EEPROM User Guide for more details.

AX88772B supports some default settings inside chip hardware to enable it to communicate with USB host controller during enumeration when the AX88772B EEPROM is blank (prior to being programmed). The default settings inside chip facilitate users to update the EEPROM content through a Windows PC during R&D validation process or program a blank EEPROM mounted on target system PCB during manufacturing process. ASIX Electronics provides Windows/WinCE/Linux SROM programming tools for users to easily program the Serial EEPROM of AX88772B on a typical Windows/WinCE/Linux platforms. These AX88772B SROM programming tools support to customize the MAC address, Serial Number, Vendor ID and Product ID, etc. for AX88772B based application systems in mass production. Alternatively, users can pre-program the blank EEPROM on a 3rd Party Universal Programmer before soldering the EEPROM onto the AX88772B application device. You must assign a unique MAC address in the EEPROM for every AX88772B device.

AX88772C supports some default settings inside chip hardware to enable it to communicate with USB host controller during enumeration when the AX88772C EEPROM is blank (prior to being programmed). The default settings inside chip facilitate users to update the EEPROM content through a Windows PC during R&D validation process or program a blank EEPROM mounted on target system PCB during manufacturing process. ASIX Electronics provides Windows/Linux SROM programming tools for users to easily program the Serial EEPROM of AX88772C on a typical Windows/Linux platforms. These AX88772C SROM programming tools support to customize the MAC address, Serial Number, Vendor ID and Product ID, etc. for AX88772C based application systems in mass production. Alternatively, users can pre-program the blank EEPROM on a 3rd Party Universal Programmer before soldering the EEPROM onto the AX88772C application device. You must assign a unique MAC address in the EEPROM for every AX88772C device.

AX110xx provides a couple of solutions for customers to program the firmware code into AX110xx Flash. 1. The Windows/DOS UART Interface Flash Programming Utilities 2. The Ethernet Boot Loader Flash Programming Method 3. The DoCD HAD2 Debugger Flash Programming Method

AX110xx provides a couple of solutions for customers to program the firmware code into AX110xx Flash. 1. The Windows/DOS UART Interface Flash Programming Utilities 2. The Ethernet Boot Loader Flash Programming Method 3. The DoCD HAD2 Debugger Flash Programming Method

AX110xx provides a couple of solutions for customers to program the firmware code into AX110xx Flash. 1. The Windows/DOS UART Interface Flash Programming Utilities 2. The Ethernet Boot Loader Flash Programming Method 3. The DoCD HAD2 Debugger Flash Programming Method

ASIX provides two kinds of AX110xx development kits.The AX1100x 80-pin Development Kit and AX11015 128-pin Development Kit. If you need the local bus interface, external memory bus or external MII interface, you will need to purchase the AX11015 128-pin Development Kit. Please contact ASIX's Sales (sales@asix.com.tw) for more details.

ASIX provides two kinds of AX110xx development kits.The AX1100x 80-pin Development Kit and AX11015 128-pin Development Kit. If you need the local bus interface, external memory bus or external MII interface, you will need to purchase the AX11015 128-pin Development Kit. Please contact ASIX's Sales (sales@asix.com.tw) for more details.

ASIX provides two kinds of AX110xx development kits.The AX1100x 80-pin Development Kit and AX11015 128-pin Development Kit. If you need the local bus interface, external memory bus or external MII interface, you will need to purchase the AX11015 128-pin Development Kit. Please contact ASIX's Sales (sales@asix.com.tw) for more details.

ASIX provides some AX220xx reference design applications such as AX22001 WiFi Speaker Reference Design, AX220xx RS-232 to WiFi Reference Design, and AX220xx SPI to WiFi Reference Design for customer evaluation purpose. These reference design boards allow customers to quickly verify the AX220xx reference design related software and hardware components. ASIX will provide more reference designs for AX220xx family later. For most up-to-date information, please contact ASIX Sales staffs at sales@asix.com.tw.

ASIX provides the AX22001 802.11b/g WiFi Module Board (with Airoha AL2230S RF chip) which is a RF calibrated and tested module. To shorten customer's hardware design cycle on RF circuit layout and RF testing during prototyping phase, customers can design your own base board with desired function and interface circuits and assemble it with the AX22001 802.11b/g WiFi Module Board through the pin header. ASIX will provide more AX220xx WiFi module board solutions such as smaller form factor or with stamp holes (saving the pin header cost), etc. later. For most up-to-date information, please contact ASIX Sales staffs at sales@asix.com.tw. You can visit the AX220xx Development Board web page for details of AX220xx WiFi module boards.

ASIX provides both AX58100 evaluation boards, one is AX58100 Copper board, other one is AX58100 Fiber board. If you need to purchase the AX58100 evaluation board. Please contact ASIX's Sales (sales@asix.com.tw) for more details.

ASIX provides both AX58200 evaluation boards, one is AX58200 evaluation board, other one is AX58200 ADIO demo kit combined AX58200 evaluation board and AX58200 Analog/Digital I/O expansion board. Please contact ASIX's Sales (sales@asix.com.tw) for more details.

The AX88180 provides MDIOCTRL and MDIODP registers to access MII PHY registers.

You must first have an OUI or an IAB, to which you then append 24 or 12 bits respectively, in a way that makes the resulting 48-bit number unique, i.e., your 24 or 12 bits must be unique within your organization, which will require coordination among all the users of your organization's OUI or IAB. Please visit the IEEE-SA web site for details.

You must first have an OUI or an IAB, to which you then append 24 or 12 bits respectively, in a way that makes the resulting 48-bit number unique, i.e., your 24 or 12 bits must be unique within your organization, which will require coordination among all the users of your organization's OUI or IAB. Please visit the IEEE-SA web site for details.

You must first have an OUI or an IAB, to which you then append 24 or 12 bits respectively, in a way that makes the resulting 48-bit number unique, i.e., your 24 or 12 bits must be unique within your organization, which will require coordination among all the users of your organization's OUI or IAB. Please visit the IEEE-SA web site for details.

You must first have an OUI or an IAB, to which you then append 24 or 12 bits respectively, in a way that makes the resulting 48-bit number unique, i.e., your 24 or 12 bits must be unique within your organization, which will require coordination among all the users of your organization's OUI or IAB. Please visit the IEEE-SA web site for details.

You must first have an OUI or an IAB, to which you then append 24 or 12 bits respectively, in a way that makes the resulting 48-bit number unique. Your 24 or 12 bits must be unique within your organization, which will require coordination among all the users of your organization's OUI or IAB. Please visit the IEEE-SA web site for details.

You must first have an OUI or an IAB, to which you then append 24 or 12 bits respectively, in a way that makes the resulting 48-bit number unique, i.e., your 24 or 12 bits must be unique within your organization, which will require coordination among all the users of your organization's OUI or IAB. Please visit the IEEE-SA web site for details.

If you are a new PCI/PCIe product developer looking to get a PCI Vendor ID for your company, you can register a PCI Vendor ID from PCI-SIG (Peripheral Component Interconnect Special Interest Group). Please visit the PCI-SIG web site for details.

If you are a new PCI/PCIe product developer looking to get a PCI Vendor ID for your company, you can register a PCI Vendor ID from PCI-SIG (Peripheral Component Interconnect Special Interest Group). Please visit the PCI-SIG web site for details.

If you are a new PCI/PCIe product developer looking to get a PCI Vendor ID for your company, you can register a PCI Vendor ID from PCI-SIG (Peripheral Component Interconnect Special Interest Group). Please visit the PCI-SIG web site for details.

If you are a new PCI/PCIe product developer looking to get a PCI Vendor ID for your company, you can register a PCI Vendor ID from PCI-SIG (Peripheral Component Interconnect Special Interest Group). Please visit the PCI-SIG web site for details.

If you are a new PCI/PCIe product developer looking to get a PCI Vendor ID for your company, you can register a PCI Vendor ID from PCI-SIG (Peripheral Component Interconnect Special Interest Group). Please visit the PCI-SIG web site for details.

If you are a new USB product developer looking to get a Vendor ID for your company, you can register a Vendor ID from USB Implementers Forum, Inc. Please visit the USB-IF web site for details.

If you are a new USB product developer looking to get a Vendor ID for your company, you can register a Vendor ID from USB Implementers Forum, Inc. Please visit the USB-IF web site for details.

If you are a new USB product developer looking to get a Vendor ID for your company, you can register a Vendor ID from USB Implementers Forum, Inc. Please visit the USB-IF web site for details.

If you are a new USB product developer looking to get a Vendor ID for your company, you can register a Vendor ID from USB Implementers Forum, Inc. Please visit the USB-IF web site for details.

If you are a new USB product developer looking to get a Vendor ID for your company, you can register a Vendor ID from USB Implementers Forum, Inc. Please visit the USB-IF web site for details.

1. Write bit 15 (PHY_RESET) of BMCR register to software reset the external PHY. 2. Read the BMCR register to check if the PHY_RESET bit has been self-cleared after the external PHY is reset completely.

1. Read the Reset register (offset 1Fh) to reset MAC. (Note: It is READ but not WRITE.) 2. Wait 1.6ms for reset completion.

The TCP socket connection count is dependent on the RAM size on the AX110xx platforms.

The TCP socket connection count is dependent on the RAM size on the AX110xx platforms.

The TCP socket connection count is dependent on the RAM size on the AX110xx platforms.

Please set the "Packet Priority & VLAN" parameter of ASIX USB to LAN Windows drivers to "Packet Priority & VLAN Disable" to capture the VLAN tagged packets on WireShark.

Please set the "Packet Priority & VLAN" parameter of ASIX USB to LAN Windows drivers to "Packet Priority & VLAN Disable" to capture the VLAN tagged packets on WireShark.

Please set the "Packet Priority & VLAN" parameter of ASIX USB to LAN Windows drivers to "Packet Priority & VLAN Disable" to capture the VLAN tagged packets on WireShark.

Please set the "Packet Priority & VLAN" parameter of ASIX USB to LAN Windows drivers to "Packet Priority & VLAN Disable" to capture the VLAN tagged packets on WireShark.

Please set the "Packet Priority & VLAN" parameter of ASIX USB to LAN Windows drivers to "Packet Priority & VLAN Disable" to capture the VLAN tagged packets on WireShark.

You can refer to the ETG2200 of table 8 description for more details. We're using HxD freeware to convert it.

You can refer to the ETG2200 of table 8 description for more details. We're using HxD freeware to convert it.

Yes, we can change the COM port number by using a drop down list located in AX78120 Windows COM Port Properties. To change the COM port number, go to "COM Port Properties => Features => COM Port Number".

Yes, we can change the COM port number by using a drop down list located in AX78140 Windows COM Port Properties. To change the COM port number, go to "COM Port Properties => Features => COM Port Number".

Yes, we can change the COM port number by using a drop down list located in AX99100 Windows COM Port Properties. To change the COM port number, go to "COM Port Properties => Port Settings => Change Port Number => COM Port Number".

Yes, we can change the LPT port number by using a drop down list located in AX78140 Windows LPT Port Properties. To change the LPT port number, go to "LPT Port Properties => Features => LPT Port Number".

Yes, we can change the LPT port number by using a drop down list located in AX99100 Windows LPT Port Properties. To change the LPT port number, go to "LPT Port Properties => Port Settings => LPT Port Number".

Please refer to Ethercat PHY Selection Guide for selection, please note the PHY must with TX_CLK fixed phase ability.

If ASIX USB to LAN drivers cannot work fine on your USB to LAN device, please refer to How to identify authentic ASIX USB to LAN Products document to double check if your USB to LAN device includes a Non-authentic ASIX USB to LAN solution inside or not? If yes, please contact the manufacturer of your USB to LAN device to get proper drivers directly. ASIX DOES NOT GUARANTEE AND PROVIDE ANY SUPPORT FOR THOSE NON-AUTHENTIC ASIX PRODUCTS. The KY-88772A USB 2.0 to Fast Ethernet Adapter is a typical non-authentic ASIX USB to LAN product.

If ASIX USB to LAN drivers cannot work fine on your USB to LAN device, please refer to How to identify authentic ASIX USB to LAN Products document to double check if your USB to LAN device includes a Non-authentic ASIX USB to LAN solution inside or not? If yes, please contact the manufacturer of your USB to LAN device to get proper drivers directly. ASIX DOES NOT GUARANTEE AND PROVIDE ANY SUPPORT FOR THOSE NON-AUTHENTIC ASIX PRODUCTS. The KY-88772A USB 2.0 to Fast Ethernet Adapter is a typical non-authentic ASIX USB to LAN product.

If ASIX USB to LAN drivers cannot work fine on your USB to LAN device, please refer to How to identify authentic ASIX USB to LAN Products document to double check if your USB to LAN device includes a Non-authentic ASIX USB to LAN solution inside or not? If yes, please contact the manufacturer of your USB to LAN device to get proper drivers directly. ASIX DOES NOT GUARANTEE AND PROVIDE ANY SUPPORT FOR THOSE NON-AUTHENTIC ASIX PRODUCTS. The KY-88772A USB 2.0 to Fast Ethernet Adapter is a typical non-authentic ASIX USB to LAN product.

Please try to un-install the existing installed AX88178A driver firstly and then re-install the latest AX88178A macOS driver to improve this kind of issue. For macOS 10.13 or above systems, please double check if you have set the "Allow apps downloaded from" option on the ”Security & Privacy” console to "App Store and identifier developers" to allow loading the newly-installed third-party kernel extensions (KEXTs).

Please try to un-install the existing installed AX88179 driver firstly and then re-install the latest AX88179 macOS driver to improve this kind of issue. For macOS 10.13 or above systems, please double check if you have set the "Allow apps downloaded from" option on the ”Security & Privacy” console to "App Store and identifier developers" to allow loading the newly-installed third-party kernel extensions (KEXTs).

Please try to un-install the existing installed AX88772A driver firstly and then re-install the latest AX88772A macOS driver to improve this kind of issue. For macOS 10.13 or above systems, please double check if you have set the "Allow apps downloaded from" option on the ”Security & Privacy” console to "App Store and identifier developers" to allow loading the newly-installed third-party kernel extensions (KEXTs).

Please try to un-install the existing installed AX88772B driver firstly and then re-install the latest AX88772B macOS driver to improve this kind of issue. For macOS 10.13 or above systems, please double check if you have set the "Allow apps downloaded from" option on the ”Security & Privacy” console to "App Store and identifier developers" to allow loading the newly-installed third-party kernel extensions (KEXTs).

Please try to un-install the existing installed AX88772C driver firstly and then re-install the latest AX88772C macOS driver to improve this kind of issue. For macOS 10.13 or above systems, please double check if you have set the "Allow apps downloaded from" option on the ”Security & Privacy” console to "App Store and identifier developers" to allow loading the newly-installed third-party kernel extensions (KEXTs).

You can open the gerber files of AX110xx development boards by running ORACLE's AutoVue Evaluation Revision tool (30 days evaluation date). Please visit ORACLE's web site for more details.

You can open the gerber files of AX110xx development boards by running ORACLE's AutoVue Evaluation Revision tool (30 days evaluation date). Please visit ORACLE's web site for more details.

You can open the gerber files of AX110xx development boards by running ORACLE's AutoVue Evaluation Revision tool (30 days evaluation date). Please visit ORACLE's web site for more details.

You can open the gerber files of AX88178A demo board by running ORACLE's AutoVue Evaluation Revision tool (30 days evaluation date). Please visit ORACLE's web site for more details.

You can open the gerber files of AX88179 demo board by running ORACLE's AutoVue Evaluation Revision tool (30 days evaluation date). Please visit ORACLE's web site for more details.

You can open the gerber files of AX88180 SMDK2440 demo board by running ORACLE's AutoVue Evaluation Revision tool (30 days evaluation date). Please visit ORACLE's web site for more details.

You can open the gerber files of AX88613 demo board by running ORACLE's AutoVue Evaluation Revision tool (30 days evaluation date). Please visit ORACLE's web site for more details.

You can open the gerber files of AX88772A demo board by running ORACLE's AutoVue Evaluation Revision tool (30 days evaluation date). Please visit ORACLE's web site for more details.

You can open the gerber files of AX88772B demo board by running ORACLE's AutoVue Evaluation Revision tool (30 days evaluation date). Please visit ORACLE's web site for more details.

You can open the gerber files of AX88772C demo board by running ORACLE's AutoVue Evaluation Revision tool (30 days evaluation date). Please visit ORACLE's web site for more details.

You can open the gerber files of AX88782 SMDK2440 demo board by running ORACLE's AutoVue Evaluation Revision tool (30 days evaluation date). Please visit ORACLE's web site for more details.

You can open the gerber files of AX88796B SMDK2440 demo board by running ORACLE's AutoVue Evaluation Revision tool (30 days evaluation date). Please visit ORACLE's web site for more details.

You can open the gerber files of AX88796C demo board by running ORACLE's AutoVue Evaluation Revision tool (30 days evaluation date). Please visit ORACLE's web site for more details.

You can open the PowerPCB PCB layout file of AX88178A demo board by running Mentor Graphics PADS Layout Product Evaluation Software (No time limitation but with limited function). Please visit Mentor Graphics' web site for more details.

You can open the PowerPCB PCB layout file of AX88179 demo board by running Mentor Graphics PADS Layout Product Evaluation Software (No time limitation but with limited function). Please visit Mentor Graphics' web site for more details.

You can open the PowerPCB PCB layout file of AX88613 demo board by running Mentor Graphics PADS Layout Product Evaluation Software (No time limitation but with limited function). Please visit Mentor Graphics' web site for more details.

You can open the PowerPCB PCB layout file of AX88772A demo board by running Mentor Graphics PADS Layout Product Evaluation Software (No time limitation but with limited function). Please visit Mentor Graphics' web site for more details.

You can open the PowerPCB PCB layout file of AX88772B demo board by running Mentor Graphics PADS Layout Product Evaluation Software (No time limitation but with limited function). Please visit Mentor Graphics' web site for more details.

You can open the PowerPCB PCB layout file of AX88772C demo board by running Mentor Graphics PADS Layout Product Evaluation Software (No time limitation but with limited function). Please visit Mentor Graphics' web site for more details.

You can open the PowerPCB PCB layout file of AX88782 SMDK2440 demo board by running Mentor Graphics PADS Layout Product Evaluation Software (No time limitation but with limited function). Please visit Mentor Graphics' web site for more details.

You can open the PowerPCB PCB layout file of AX88796C demo board by running Mentor Graphics PADS Layout Product Evaluation Software (No time limitation but with limited function). Please visit Mentor Graphics' web site for more details.

You can open the PowerPCB PCB layout files of AX110xx development boards by running Mentor Graphics PADS Layout Product Evaluation Software (No time limitation but with limited function). Please visit Mentor Graphics' web site for more details.

You can open the PowerPCB PCB layout files of AX110xx development boards by running Mentor Graphics PADS Layout Product Evaluation Software (No time limitation but with limited function). Please visit Mentor Graphics' web site for more details.

You can open the PowerPCB PCB layout files of AX110xx development boards by running Mentor Graphics PADS Layout Product Evaluation Software (No time limitation but with limited function). Please visit Mentor Graphics' web site for more details.

You can open the Protel PCB layout file of AX88180 SMDK2440 demo board by running ORACLE's AutoVue Evaluation Revision tool (30 days evaluation date). Please visit ORACLE's web site for more details.

You can open the Protel PCB layout file of AX88796B SMDK2440 demo board by running ORACLE's AutoVue Evaluation Revision tool (30 days evaluation date). Please visit ORACLE's web site for more details.

The AX78120 supports a Windows EEPROM Utility to program the I2C EEPROM in-circuit.

The AX78140 supports a Windows EEPROM Utility to program the I2C EEPROM in-circuit.

The AX99100 supports a Windows EEPROM Utility to program the I2C EEPROM in-circuit.

the AX58100's eeprom data is included in the related ESI file, <Eeprom> segment, the user can download the eeprom data into the AX58100 by using the Twincat through the Ethercat network.

Yes, AX78120 IC is pin-to-pin compatible to MCS7820 IC.

Yes, AX78140 IC is pin-to-pin compatible to MCS7840 IC.

Yes, the COM port number of MCS9865 can be changed to a desired number that is free and un-used by device/serial application. If you are using Windows systems, there is a control which will let you change the COM port number easily. 1. Go into the Device Manager. 2. Open the Properties page for the Port in question (under Ports COM & LPT). 3. In the "Port Settings" tab, click the "Advanced" button. On the screen that opens is the control to change the COM port number.

Yes, the COM port number of MCS99xx can be changed to a desired number that is free and un-used by device/serial application. If you are using Windows systems, there is a control which will let you change the COM port number easily. 1. Go into the Device Manager. 2. Open the Properties page for the Port in question (under Ports COM & LPT). 3. In the "Port Settings" tab, click the "Advanced" button. On the screen that opens is the control to change the COM port number.

Yes, the COM port number of MCS99xx can be changed to a desired number that is free and un-used by device/serial application. If you are using Windows systems, there is a control which will let you change the COM port number easily. 1. Go into the Device Manager. 2. Open the Properties page for the Port in question (under Ports COM & LPT). 3. In the "Port Settings" tab, click the "Advanced" button. On the screen that opens is the control to change the COM port number.

Yes, the COM port number of MCS99xx can be changed to a desired number that is free and un-used by device/serial application. If you are using Windows systems, there is a control which will let you change the COM port number easily. 1. Go into the Device Manager. 2. Open the Properties page for the Port in question (under Ports COM & LPT). 3. In the "Port Settings" tab, click the "Advanced" button. On the screen that opens is the control to change the COM port number.

Yes, the COM port number of MCS99xx can be changed to a desired number that is free and un-used by device/serial application. If you are using Windows systems, there is a control which will let you change the COM port number easily. 1. Go into the Device Manager. 2. Open the Properties page for the Port in question (under Ports COM & LPT). 3. In the "Port Settings" tab, click the "Advanced" button. On the screen that opens is the control to change the COM port number.

Yes, we can change the LPT port number by using a drop down list located in LPT Port Properties. To change the LPT port number, go to "LPT Port Properties => Port Setting => LPT Port Number". If there is no standard LPT port available on motherboard, MCS9865 LPT port will automatically enumerate as LPT1, otherwise it will enumerate as LPT3.

Yes, we can change the LPT port number by using a drop down list located in LPT Port Properties. To change the LPT port number, go to "LPT Port Properties => Port Setting => LPT Port Number". If there is no standard LPT port available on motherboard, MCS99xx LPT port will automatically enumerate as LPT1, otherwise it will enumerate as LPT3.

Yes, we can change the LPT port number by using a drop down list located in LPT Port Properties. To change the LPT port number, go to "LPT Port Properties => Port Setting => LPT Port Number". If there is no standard LPT port available on motherboard, MCS99xx LPT port will automatically enumerate as LPT1, otherwise it will enumerate as LPT3.

Yes, we can change the LPT port number by using a drop down list located in LPT Port Properties. To change the LPT port number, go to "LPT Port Properties => Port Setting => LPT Port Number". If there is no standard LPT port available on motherboard, MCS99xx LPT port will automatically enumerate as LPT1, otherwise it will enumerate as LPT3.

Yes, we can change the LPT port number by using a drop down list located in LPT Port Properties. To change the LPT port number, go to "LPT Port Properties => Port Setting => LPT Port Number". If there is no standard LPT port available on motherboard, MCS99xx LPT port will automatically enumerate as LPT1, otherwise it will enumerate as LPT3.

It is not possible to manually change IRQ setting of all PCIe devices in any operating systems because the IRQ used by the device is assigned by the PCIe system and cannot be changed. Usually the only way to change the IRQ of a PCIe device is to move it to a different PCIe slot. Each slot is usually assigned a different IRQ, although this is not always true. Each system may handle the assignment of IRQs differently.

It is not possible to manually change IRQ setting of all PCI devices in any operating systems because the IRQ used by the device is assigned by the PCI system and cannot be changed. Usually the only way to change the IRQ of a PCI device is to move it to a different PCI slot. Each slot is usually assigned a different IRQ, although this is not always true. Each system may handle the assignment of IRQs differently.

It is not possible to manually change IRQ setting of all PCIe devices in any operating systems because the IRQ used by the device is assigned by the PCIe system and cannot be changed. Usually the only way to change the IRQ of a PCIe device is to move it to a different PCIe slot. Each slot is usually assigned a different IRQ, although this is not always true. Each system may handle the assignment of IRQs differently.

It is not possible to manually change IRQ setting of all PCIe devices in any operating systems because the IRQ used by the device is assigned by the PCIe system and cannot be changed. Usually the only way to change the IRQ of a PCIe device is to move it to a different PCIe slot. Each slot is usually assigned a different IRQ, although this is not always true. Each system may handle the assignment of IRQs differently.

It is not possible to manually change IRQ setting of all PCIe devices in any operating systems because the IRQ used by the device is assigned by the PCIe system and cannot be changed. Usually the only way to change the IRQ of a PCIe device is to move it to a different PCIe slot. Each slot is usually assigned a different IRQ, although this is not always true. Each system may handle the assignment of IRQs differently.

It is not possible to manually change IRQ setting of all PCIe devices in any operating systems because the IRQ used by the device is assigned by the PCIe system and cannot be changed. Usually the only way to change the IRQ of a PCIe device is to move it to a different PCIe slot. Each slot is usually assigned a different IRQ, although this is not always true. Each system may handle the assignment of IRQs differently.

In order to be compatible with some legacy software, some users might need to remap the assigned I/O addresses of MCS9865 Parallel/Serial ports to Legacy (ISA type) I/O address (such as 378h, 3F8h, etc.). It is possible on DOS and Windows 95/98/ME operating systems but impossible on Windows NT/2000/XP/Vista/7/8 operating systems because the Remap I/O Address feature is only supported on DOS and Windows 95/98/ME operating systems but is not supported on Windows NT/2000/XP/Vista/7/8 operating systems. As the newer Windows systems maintain a much tighter control over the I/O devices and prevent any Re-Mapping I/O Address operation at device driver level. When the Re-Mapping I/O Address is not permitted, the device must use the I/O Addresses assigned by the PCI system at Boot-Up. If the software application expects the Parallel/Serial ports to use Legacy I/O address resources, it will not be possible to make it work with the Parallel/Serial ports of PCI based devices on Windows NT/2000/XP/Vista/7/8 platforms. On DOS platform, MCS9865 can remap the I/O addresses of the Parallel/Serial ports to desired values by running MCS9865 DOS utility. However, on Windows 95/98/ME platforms, you can only remap the I/O addresses of the Serial ports (but not Parallel port).

MCS99xx is a PCI Express to multi-I/O controller so it does not support to remap the parallel/serial ports base address into legacy I/O address range. The limitation is inherent in PCI Express system architectures. On most of Windows/Linux systems, the legacy I/O address remapping feature is not required. For some specific old parallel/serial devices, users might still need to support the legacy I/O address in order to work on their existing software under DOS. In this case, users can consider using ASIX PCI bridge I/O connectivity products to support this inquiry.

MCS99xx is a PCI Express to multi-I/O controller so it does not support to remap the parallel/serial ports base address into legacy I/O address range. The limitation is inherent in PCI Express system architectures. On most of Windows/Linux systems, the legacy I/O address remapping feature is not required. For some specific old parallel/serial devices, users might still need to support the legacy I/O address in order to work on their existing software under DOS. In this case, users can consider using ASIX PCI bridge I/O connectivity products to support this inquiry.

MCS99xx is a PCI Express to multi-I/O controller so it does not support to remap the parallel/serial ports base address into legacy I/O address range. The limitation is inherent in PCI Express system architectures. On most of Windows/Linux systems, the legacy I/O address remapping feature is not required. For some specific old parallel/serial devices, users might still need to support the legacy I/O address in order to work on their existing software under DOS. In this case, users can consider using ASIX PCI bridge I/O connectivity products to support this inquiry.

MCS99xx is a PCI Express to multi-I/O controller so it does not support to remap the parallel/serial ports base address into legacy I/O address range. The limitation is inherent in PCI Express system architectures. On most of Windows/Linux systems, the legacy I/O address remapping feature is not required. For some specific old parallel/serial devices, users might still need to support the legacy I/O address in order to work on their existing software under DOS. In this case, users can consider using ASIX PCI bridge I/O connectivity products to support this inquiry.

No, the AX88796C driver source code is different from AX88796B driver source code. Please refer to AX88796C driver source code to implement AX88796C driver on your target platforms directly.

The I2C EEPROM is optional for AX78120 2S applications.

The I2C EEPROM is required for AX78140 2S1P applications and is optional for AX78140 4S applications.

Yes, the I2C EEPROM is required for AX99100 Local Bus/ISA-Like applications. Please contact ASIX Sales (Sales@asix.com.tw) to further support.

The I2C EEPROM is optional for some of AX99100 serial/parallel/SPI applications.

Please refer to "Appendix C: Notice of AX88796A" of AX88796A datasheet for the differences between AX88796A and AX88796 and some design notes of AX88796A applications. Basically, you can just replace the AX88796 IC with AX88796A IC by using the same AX88796 driver on your existing AX88796 PCB board directly. If you have any problems to implement AX88796A on your existing AX88796 applications, please contact ASIX Sales (sales@asix.com.tw) for further support.

The 12MHz/25MHz crystal signals of AX88772A board should be winthin (12MHz +- 50ppm)/(25MHz +- 50ppm) respectively. Please refer to Section 3 of AX88x72A USB-to-LAN Application Design Note for the detailed 12MHz/25MHz crystal circuits information. You can download it from AX88772A Application Design & Layout Guide Download web page directly.

ASIX provides a couple of AX58100 development kits for your reference: 1. AX58100 SPI Master ADC Sensor DIO Demo Kit 2. AX58100 SixStep PWM BLDC Motor Demo Kit 3. AX58100_AX99100 LocalBus ESC PCCard Demo Kit 4. AX58100 Stepper Motor Control Reference Kit 5. AX58100_STM32F303RE Motor Control Demo Kit More reference designs are under development.

The AX11015 supports the Ethernet, I2C, SPI, 1-Wire, UART, PCA, GPIO, Local Bus, external MII, external memory interfaces, etc.

The AX11001/AX11005 supports the Ethernet, I2C, SPI, 1-Wire, UART, PCA, GPIO interfaces, etc.

The AX11001/AX11005 supports the Ethernet, I2C, SPI, 1-Wire, UART, PCA, GPIO interfaces, etc.

The AX110xx currently provides two debug tool solutions the UART console debugging and the DCD's DoCD HAD2 debugger. All AX110xx S/W modules support the basic UART console debugging function by default. If you needs a more powerful debugging tool like source level debugging, the AX110xx development board supports the Digital Core Design's DoCD Hardware Debugger - the HAD2 module. Through the HAD2 module, the software running on AX110xx development board can be real-time debugged. You may consider purchasing the HAD2 module from Digital Core Design and download the debugger software from Digital Core Design's web site.

The AX110xx currently provides two debug tool solutions the UART console debugging and the DCD's DoCD HAD2 debugger. All AX110xx S/W modules support the basic UART console debugging function by default. If you needs a more powerful debugging tool like source level debugging, the AX110xx development board supports the Digital Core Design's DoCD Hardware Debugger - the HAD2 module. Through the HAD2 module, the software running on AX110xx development board can be real-time debugged. You may consider purchasing the HAD2 module from Digital Core Design and download the debugger software from Digital Core Design's web site.

The AX110xx currently provides two debug tool solutions the UART console debugging and the DCD's DoCD HAD2 debugger. All AX110xx S/W modules support the basic UART console debugging function by default. If you needs a more powerful debugging tool like source level debugging, the AX110xx development board supports the Digital Core Design's DoCD Hardware Debugger - the HAD2 module. Through the HAD2 module, the software running on AX110xx development board can be real-time debugged. You may consider purchasing the HAD2 module from Digital Core Design and download the debugger software from Digital Core Design's web site.

AX220xx currently provides two debug tool solutions, one is the UART console debug; the other is the Digital Core Design (DCD)'s DoCD HAD2 debugger. All the AX220xx software modules support some basic UART console debug function by default. If user needs more powerful debug tool like source level debug, AX220xx reference design board supports the DCD's DoCD Hardware Debugger- the HAD2 module. Through the HAD2 module, the software running on AX220xx reference design board can be real-time debugged. User can purchase the HAD2 module from DCD and download the debugger software from DCD's web site. Please refer to DCD's provided DoCD HAD2 debugger documents for procedures to set up the DoCD HAD2 debugger environment.

All the software modules for AX220xx family are developed in C language on Keil IDE development environment. User can purchase the Keil IDE Development Environment from Keil's web site for more details. In general, user should purchase the PK51 development tool for C-language compiler, debugger and simulator. User can also download the Keil C51 evaluation software for free from Keil's web site, but the evaluation software can only compile the sample codes with less than 2K bytes binary code. Please refer to Keil's web site for more details about the limitation of evaluation software.

The AX88180 supports the following drivers platforms, 1. Windows CE 5.0 BSP driver 2. Linux kernel 2.4.x/2.6.x driver and Uboot driver Furthurmore, ASIX can provide AX88180 Linux driver source code and the Software Programming Guide for customers who need to develop AX88180 driver on some other platforms. Please contact ASIX Sales (sales@asix.com.tw) for more details.

ASIX provides the following AX88796B drivers source codes for customers' reference. If you would like to receive these AX88796B drivers, please contact ASIX Sales (sales@asix.com.tw) directly. In the case if you need to modify the standard NE2000 driver source code to enable the advanced features of AX88796B for some other platforms, ASIX can provide the AX88796B Software Programming Guide for your reference. Please contact ASIX Sales (sales@asix.com.tw) for more details. 1. Windows CE 5.0 BSP driver and Eboot driver 2. Windows CE 4.2 BSP driver 3. Linux kernel 2.4.x/2.6.x driver and Uboot driver 4. 8051 uIP TCP/IP stack port 5. Nucleus driver 6. Vxworks driver 7. Windows XP/2000 driver

The recommended EEPROM part on AX220xx reference design board is Microchip 24LC04B I2C EEPROM. You can select other 24LC04B compatible EEPROM too.

The embedded Ethernet PHY of AX110xx family can work with the 1CT:1CT Turns Ratio transformers like TAIMAG RJC-248TA1 (Turns Ratio is 1CT:1CT, Auto-MDIX) industrial transformer.

The embedded Ethernet PHY of AX110xx family can work with the 1CT:1CT Turns Ratio transformers like TAIMAG RJC-248TA1 (Turns Ratio is 1CT:1CT, Auto-MDIX) industrial transformer.

The embedded Ethernet PHY of AX110xx family can work with the 1CT:1CT Turns Ratio transformers like TAIMAG RJC-248TA1 (Turns Ratio is 1CT:1CT, Auto-MDIX) industrial transformer.

All software modules for AX110xx family are developed in C language under Keil IDE development environment. Users can purchase the Keil IDE Development Environment from Keil's web site. In general, you will need to purchase the PK51 development tool for C-language compiler, debugger and simulator.In case if customers just need the compiler function and code size less than 64k bytes, you can purchase the CA51 package.You can also download the Keil C51 evaluation software from Keil's web site, but the evaluation software can only compile the sample codes with less than 2K bytes binary code. Please refer to Keil's web site for more details about the limitation of evaluation software.

All software modules for AX110xx family are developed in C language under Keil IDE development environment. Users can purchase the Keil IDE Development Environment from Keil's web site. In general, you will need to purchase the PK51 development tool for C-language compiler, debugger and simulator.In case if customers just need the compiler function and code size less than 64k bytes, you can purchase the CA51 package.You can also download the Keil C51 evaluation software from Keil's web site, but the evaluation software can only compile the sample codes with less than 2K bytes binary code. Please refer to Keil's web site for more details about the limitation of evaluation software.

All software modules for AX110xx family are developed in C language under Keil IDE development environment. Users can purchase the Keil IDE Development Environment from Keil's web site. In general, you will need to purchase the PK51 development tool for C-language compiler, debugger and simulator.In case if customers just need the compiler function and code size less than 64k bytes, you can purchase the CA51 package.You can also download the Keil C51 evaluation software from Keil's web site, but the evaluation software can only compile the sample codes with less than 2K bytes binary code. Please refer to Keil's web site for more details about the limitation of evaluation software.

AX58100 provides two SPI slave interfaces, share SCLK, MOSI, MISO pins and individual chip select SCS_ESC and SCS_FUNC, that is support PDI and AX58100 specific function register and memory access. When using PDI SPI, SCS_FUNC must be Pull up, and SCS_ESC is used as Chip Select. When using Function SPI, SCS_ESC must be pulled up, and SCS_FUNC is used as Chip Select

AX58100 provides SPI slave, asynchronous 8/16-bit microcontroller interface (also name Asynchronous Local Bus) and Digital I/O. The SPI slave and asynchronous 8/16-bit Local Bus interface will be used when external MCU in employed the slave system, and the Digital I/O is used for when direct I/O control.

The AX110xx family of products consist of AX11001, AX11005 and AX11015. Please refer to the AX110xx Product Introduction document for details of AX110xx family products.

The AX110xx family of products consist of AX11001, AX11005 and AX11015. Please refer to the AX110xx Product Introduction document for details of AX110xx family products.

The AX110xx family of products consist of AX11001, AX11005 and AX11015. Please refer to the AX110xx Product Introduction document for details of AX110xx family products.

The 0xC8 is Type Code and 0x0B95 is Vendor ID for AX58100 EtherCAT Slave Controller

The AX58100 supports five multi-function bootstrap pins (pin 19, 20, 58, 40, and 41) for five hardware configurations, i.e. external I2C EEPROM size, ESC supported port number, RSTO polarity and integrated port 0/1 PHY media mode; and supports other three multi-function bootstrap pins (pin 42, 52, 66) for the configuration of port 2 MII signals. User needs to utilize an external resistor to pull up / down these bootstrap pins.

The AX58100 implements a 3-port EtherCAT slave controller (ESC), the Port 0 and 1 integrate embedded Ethernet PHYs, and port 2 is an optional MII interface which are multi-function pins shared with others interfaces (i.e. PWM, Hall, Local Bus, Digital I/O). The AX58100 also Integrate 3-channel PWM, Step/Direction controllers, Incremental/ABZ, Hall encoder, SPI master interface, Emergency Stop Input and I/O Watchdog.

The AX11015 supports external Flash memory up to 2M bytes without bank select.

The AX11015 supports external SRAM up to 2M bytes without bank select.

The maximum frequency of AX110xx PWM signal is 195.3 KHz.

The maximum frequency of AX110xx PWM signal is 195.3 KHz.

The maximum frequency of AX110xx PWM signal is 195.3 KHz.

The supported PCI clock frequency for MCS9865 is 33 MHz; all the devices on the same PCI bus will be forced to 33 MHz.

The AX88796B integrates an embedded 10/100M Fast Ethernet PHY. The internal PHY address is 10h.

The priority of INT0~7 can be set through register; you can refer to AX58200 full datasheet for more details.

AX110xx is a 100 MIPS 1T 8051/80390 System-on-Chip solution with embedded 10/100M Fast Ethernet MAC/PHY and TCP/IP Offload Engine.

AX110xx is a 100 MIPS 1T 8051/80390 System-on-Chip solution with embedded 10/100M Fast Ethernet MAC/PHY and TCP/IP Offload Engine.

AX110xx is a 100 MIPS 1T 8051/80390 System-on-Chip solution with embedded 10/100M Fast Ethernet MAC/PHY and TCP/IP Offload Engine.

The reference Ethernet transformer on the AX88772A demo board is the Bothhand LU1S041X LF (Turns Ratio 1CT:1CT, Auto-MDIX) single RJ-45 connector module with integrated 10/100 BASE-TX magnetic. Please refer to Section 4 of AX88x72A USB-to-LAN Application Design Note for the detailed Ethernet magnetic circuit information. You can download it from AX88772A Application Design & Layout Guide Download web page directly.

The reference Ethernet transformer on the AX88772B demo board is the Bothhand LU1S041X LF (Turns Ratio 1CT:1CT, Auto-MDIX) single RJ-45 connector module with integrated 10/100 BASE-TX magnetic. Please refer to AX88772B USB-to-LAN Application Design Note for the detailed Ethernet magnetic circuit information.

The reference Ethernet transformer on the AX88772C demo board is the Bothhand LU1S041X LF (Turns Ratio 1CT:1CT, Auto-MDIX) single RJ-45 connector module with integrated 10/100 BASE-TX magnetic. Please refer to AX88772C USB-to-LAN Application Design Note for the detailed Ethernet magnetic circuit information.

The reference Ethernet transformer on the AX88796C demo board is the Bothhand LU1S041X LF (Turns Ratio 1CT:1CT, Auto-MDIX) single RJ-45 connector module with integrated 10/100 BASE-TX magnetic.

The reference Ethernet transformer on the AX88178A demo board is the Bothhand LA1S109-43 (Turns Ratio 1CT:1CT, Auto-MDIX) single RJ-45 connector integrated 10/100/1000M Base-T magnetic. Please refer to AX88178A USB 2.0 to Gigabit Ethernet Application Design Note for details.

The reference Ethernet transformer on the AX88179 demo board is the Bothhand LA1S109-43 (Turns Ratio 1CT:1CT, Auto-MDIX) single RJ-45 connector integrated 10/100/1000M Base-T magnetic. Please refer to AX88179 USB 3.0 to Gigabit Ethernet Application Design Note for details.

The AX220xx integrates on-chip 1 MB shared Flash memory for MCPU and WCPU program code.

The AX220xx family integrates on-chip 64KB SRAM for MCPU data memory and on-chip 32KB SRAM for WCPU data memory.

AX58100 supports 9 Kbytes Process Data RAM, 8 Fieldbus Memory Management Units (FMMUs), 8 Sync-Managers and a 64-bit Distributed Clock.

AX58200 Ethercat slave supports 9 Kbytes Process Data RAM, 8 Fieldbus Memory Management Units (FMMUs), 8 Sync-Managers and a 64-bit Distributed Clock.

The AX11001 integrates a 128K bytes embedded Flash. AX11005 and AX11015 integrate a 512K bytes embedded Flash.

The AX11001 integrates a 128K bytes embedded Flash. AX11005 and AX11015 integrate a 512K bytes embedded Flash.

The AX11001 integrates a 128K bytes embedded Flash. AX11005 and AX11015 integrate a 512K bytes embedded Flash.

The AX110xx family integrates a 32K bytes embedded SRAM as Data Memory.

The AX110xx family integrates a 32K bytes embedded SRAM as Data Memory.

The AX110xx family integrates a 32K bytes embedded SRAM as Data Memory.

The 25MHz crystal signals of AX88178A board should be winthin 25MHz +- 30ppm. Please refer to AX88178A USB 2.0 to Gigabit Ethernet Application Design Note for details.

The 25MHz crystal signals of AX88179 board should be winthin 25MHz +- 30ppm. Please refer to AX88179 USB 3.0 to Gigabit Ethernet Application Design Note for details.

The 25MHz crystal signals of AX88772B board should be winthin 25MHz +- 50ppm. Please refer to AX88772B USB-to-LAN Application Design Note for details.

The 25MHz crystal signals of AX88772C board should be winthin 25MHz +- 50ppm. Please refer to AX88772C USB-to-LAN Application Design Note for details.

The 25MHz crystal signals of AX88796C board should be winthin 25MHz +- 50ppm.

The AX58100 supports II2C EEPROM with EEPROM size from 1 Kbit (128 bytes) to 4 Mbit (500Kbytes).

The AX58200 supports II2C EEPROM with EEPROM size from 1 Kbit (128 bytes) to 4 Mbit (500Kbytes).

The AX88178A supports 3.3V to 5V 16-bit mode 93C56/93C66 serial EEPROM. Please refer to AX88178A USB 2.0 to Gigabit Ethernet Application Design Note for details.

The AX88179 supports 3.3V to 5V 16-bit mode 93C56/93C66 serial EEPROM. Please refer to AX88179 USB 3.0 to Gigabit Ethernet Application Design Note for details.

AX88772A supports 16-bit mode 93C56 or 93C66 EEPROM.

The AX88772B supports 16-bit mode 93C56 or 93C66 EEPROM.

The AX88772C supports 16-bit mode 93C56 or 93C66 EEPROM.

The AX88796C supports 16-bit mode 93C56 or 93C66 EEPROM.

The AX88796B supports both 8-bit and 16-bit CPU interfaces, like MCS-51 (805x) series, 80186 series and ISA bus. ASIX also implements AX88796B under SMDK2440 S3C2440A 32-bit ARM920T core CPU platform successfully.

The AX88796B supports serial EEPROM device with 16-bit data access, like 93C46 EEPROM (but not 93C56). The EEPROM device is optional for AX88796B.

The AX88796C supports total seven different types of bus interfaces include 8/16 Bit SRAM-like bus interface, 8/16-Bit Address-Data Multiplex interface, Renesas CPU series bus interface, MCS-51 and SPI bus interface. The AX88796C can be configured to the specific bus type automatically by pull-up and pull-down the EECS/EECK/I_FULL pins.

ASIX provides the S/W module drivers for each communication interfaces of AX110xx. These S/W modules include the CPU, Ethernet, S/W DMA, MS Timer, I2C, SPI, 1-Wire, PCA, UART2, UART, Local Bus, etc.

ASIX provides the S/W module drivers for each communication interfaces of AX110xx. These S/W modules include the CPU, Ethernet, S/W DMA, MS Timer, I2C, SPI, 1-Wire, PCA, UART2, UART, Local Bus, etc.

ASIX provides the S/W module drivers for each communication interfaces of AX110xx. These S/W modules include the CPU, Ethernet, S/W DMA, MS Timer, I2C, SPI, 1-Wire, PCA, UART2, UART, Local Bus, etc.

Cable length is one of the most discussed items in RS232 world. The standard has a clear answer; the maximum serial cable length is 50 feet, or the cable length equal to a capacitance of 2500 pF.

Cable length is one of the most discussed items in RS232 world. The standard has a clear answer; the maximum serial cable length is 50 feet, or the cable length equal to a capacitance of 2500 pF.

Cable length is one of the most discussed items in RS232 world. The standard has a clear answer; the maximum serial cable length is 50 feet, or the cable length equal to a capacitance of 2500 pF.

Cable length is one of the most discussed items in RS232 world. The standard has a clear answer; the maximum serial cable length is 50 feet, or the cable length equal to a capacitance of 2500 pF.

Cable length is one of the most discussed items in RS232 world. The standard has a clear answer; the maximum serial cable length is 50 feet, or the cable length equal to a capacitance of 2500 pF.

The AX110xx supports uIP TCP/IP Stack sample code.

The AX110xx supports uIP TCP/IP Stack sample code.

The AX110xx supports uIP TCP/IP Stack sample code.

AX220xx WCPU supports operation in Infrastructure or Ad-Hoc (IBSS) network topology.

In general, you just need to modify the I/O base address, IRQ, CPU data accessing timing of the standard NE2000 driver source code to meet the hardware requirements of your AX88796B board. You may need to modify the NE2000 driver source code to enable the following advanced features of AX88796B. Please contact ASIX Sales (sales@asix.com.tw) to get the AX88x96B Software Programming Guide for more details. 1. Flow control function 2. Wake-On-LAN function 3. VLAN function 4. Enhanced driver performance (TX Queue, Burst Read)

For AX99100 PCIe to Local Bus/ISA-Like/SPI applications, ASIX provides AX99100 PCIe to Local Bus/SPI Windows/Linux drivers and demo tools for customers to evaluate the basic functionalities of AX99100 PCIe to Local Bus + Async SRAM Demo Board and AX99100 PCIe to SPI demo board. ASIX can also provide the source codes for customers’ reference if necessary. Please contact ASIX Sales (Sales@asix.com.tw) for further support.

You can download the latest AX58100 datasheet, reference schematic, PCB layout guide, etc. from AX58100 Product web page directly.

Please contact ASIX's Sales (sales@asix.com.tw) for more details.

You can download the latest AX58100 datasheet, reference schematic, PCB layout guide, etc. from AX58100 Product web page directly.

Please register MyASIX membership and then download the latest AX78120 datasheet, reference schematic, PCB layout guide, etc. from AX78120 Product web page directly.

Please visit AX78120 Driver Download web page to download proper drivers for your AX78120 target applications.

Please register MyASIX membership and then download the latest AX78140 datasheet, reference schematic, PCB layout guide, etc. from AX78140 Product web page directly.

Please visit AX78140 Driver Download web page to download proper drivers for your AX78140 target applications.

Please register MyASIX membership and then download the latest AX88178A datasheet, reference schematic, gerber/PCB layout files and application design note from AX88178A Product web page directly.

Please visit the AX88178A Driver Download web page for details.

Please register MyASIX membership and then download the latest AX88179 datasheet, reference schematic, gerber/PCB layout files and application design note from AX88179 Product web page directly.

Please visit the AX88179 Driver Download web page

Please register MyASIX membership and then download the latest AX88772B datasheet, reference schematic, gerber/PCB layout files and application design note from AX88772B Product web page directly.

Please visit the AX88772B Driver Download web page for details.

Please register MyASIX membership and then download the latest AX88772C datasheet, reference schematic, gerber/PCB layout files and application design note from AX88772C Product web page directly.

Please visit the AX88772C Driver Download web page for details.

Please visit the AX88796C Driver Download web page for details.

Please contact ASIX Sales (sales@asix.com.tw) directly.

Please register MyASIX membership and then download the latest AX99100 datasheet, reference schematic, PCB layout guide, etc. from AX99100 Product web page directly.

Please visit AX99100 Driver Download web pages to download proper drivers for typical AX99100 PCIe to Serial/Parallel target applications.

Please register MyASIX membership and then download the latest MCS9865 datasheet, reference schematic, PCB layout guide, etc. from MCS9865 Product web page directly.

Please visit MCS9865 Driver Download web page to download proper drivers for your MCS9865 target applications.

Please register MyASIX membership and then download the latest MCS9900/MCS9901/MCS9904/MCS9922 datasheet, reference schematic, PCB layout guide, etc. from ASIX Interface ICs Product web pages directly.

Please register MyASIX membership and then download the latest MCS9900/MCS9901/MCS9904/MCS9922 datasheet, reference schematic, PCB layout guide, etc. from ASIX Interface ICs Product web pages directly.

Please register MyASIX membership and then download the latest MCS9900/MCS9901/MCS9904/MCS9922 datasheet, reference schematic, PCB layout guide, etc. from ASIX Interface ICs Product web pages directly.

Please register MyASIX membership and then download the latest MCS9900/MCS9901/MCS9904/MCS9922 datasheet, reference schematic, PCB layout guide, etc. from ASIX Interface ICs Product web pages directly.

Please visit ASIX Driver Download web pages to download proper drivers for your MCS9900/MCS9901/MCS9904/MCS9922 target applications.

Please visit ASIX Driver Download web pages to download proper drivers for your MCS9900/MCS9901/MCS9904/MCS9922 target applications.

Please visit ASIX Driver Download web pages to download proper drivers for your MCS9900/MCS9901/MCS9904/MCS9922 target applications.

Please visit ASIX Driver Download web pages to download proper drivers for your MCS9900/MCS9901/MCS9904/MCS9922 target applications.

Please visit the AX88772A Driver Download web page for details.

You can easily download the AX88178A Windows 10, 8.x, 7, Vista or XP 32-bit/64-bit WHCK/WHQL drivers setup programs from AX88178A Driver Download web page and then run the setup program to install a proper AX88178A Windows driver on your Windows machine directly.

You can easily download the AX88179 Windows 10, 8.x, 7, Vista or XP 32-bit/64-bit WHCK/WHQL drivers setup programs from AX88179 Driver Download web page and then run the setup program to install a proper AX88179 Windows driver on your Windows machine directly.

Select the "Properties" of "My Computer" to check if your Windows system is 32-bit or 64-bit system. If your system is 64-bit system, you should see the "64-bit" string in the Windows system information such as "Microsoft Windows XP 64-bit Edition", otherwise it should be a 32-bit Windows system. Users should download the correct AX88772A Windows driver (32-bit or 64-bit) for their respective Windows 32-bit or 64-bit system.

You can easily download the AX88772B Windows 10, 8.x, 7, Vista or XP 32-bit/64-bit WHQL drivers setup program from AX88772B Driver Download web page and then run the setup program to install a proper AX88772B Windows driver on your Windows machine directly.

You can easily download the AX88772C Windows 10, 8.x, 7, Vista or XP 32-bit/64-bit WHCK/WHQL drivers setup program from AX88772C Driver Download web page and then run the setup program to install a proper AX88772C Windows driver on your Windows machine directly.

The reference EEPROM part on the AX110xx development board is Atmel AT24C02B I2C EEPROM.

The reference EEPROM part on the AX110xx development board is Atmel AT24C02B I2C EEPROM.

The reference EEPROM part on the AX110xx development board is Atmel AT24C02B I2C EEPROM.

The reference Ethernet transformer on the AX110xx development board is Bothhand LU1S041X LF (Turns Ratio is 1CT:1CT, Auto-MDIX).

The reference Ethernet transformer on the AX110xx development board is Bothhand LU1S041X LF (Turns Ratio is 1CT:1CT, Auto-MDIX).

The reference Ethernet transformer on the AX110xx development board is Bothhand LU1S041X LF (Turns Ratio is 1CT:1CT, Auto-MDIX).

It is important to make sure the Ethercat devices from the different manufactor can co-work together in one Ethercat network, so ETG provide the Ethercat Conformance Test Tool (CTT) for the manufactor to do conformance test, it is mandatory for the manufactor to test their Ethercat products with the CTT.

All ASIX's AX88178A standard drivers are qualified with ASIX's AX88178A demo board with AX88178A default Vendor ID (0B95h) and Product ID (178Ah). Some of AX88178A manufacturers have their own Vendor ID and Product ID on their AX88178A applications. In this case, ASIX's AX88178A standard drivers will not work with your AX88178A device. Please contact the technical support of your AX88178A device manufacturer to obtain a proper driver.

All ASIX's AX88179 standard drivers are qualified with ASIX's AX88179 demo board with AX88179 default Vendor ID (0B95h) and Product ID (1790h). Some of AX88179 manufacturers have their own Vendor ID and Product ID on their AX88179 applications. In this case, ASIX's AX88179 standard drivers will not work with your AX88179 device. Please contact the technical support of your AX88179 device manufacturer to obtain a proper driver.

All ASIX's AX88772A standard drivers are qualified with ASIX's AX88772A demo board with AX88772A default Vendor ID (0B95h) and Product ID (772Ah). Some of AX88772A manufacturers have their own Vendor ID and Product ID on their AX88772A applications. In this case, ASIX's AX88772A standard drivers will not work with your AX88772A device. Please contact the technical support of your AX88772A device manufacturer to obtain a proper driver.

All ASIX's AX88772B standard drivers are qualified with ASIX's AX88772B demo board with AX88772B default Vendor ID (0B95h) and Product ID (772Bh). Some of AX88772B manufacturers have their own Vendor ID and Product ID on their AX88772B applications. In this case, ASIX's AX88772B standard drivers will not work with your AX88772B device. Please contact the technical support of your AX88772B device manufacturer to obtain a proper driver.

All ASIX's AX88772C/AX88772B standard drivers are qualified with ASIX's AX88772C/AX88772B demo boards with AX88772C/AX88772B default Vendor ID (0B95h) and Product ID (772Bh). Some of AX88772C manufacturers have their own Vendor ID and Product ID on their AX88772C applications. In this case, ASIX's AX88772C standard drivers will not work with your AX88772C device. Please contact the technical support of your AX88772C device manufacturer to obtain a proper driver.

Please install Nu-Link Keil or IAR Driver first.

This tutorial video introduces the EtherCAT device emulation function and demonstrate how to enable EtherCAT device emulation mode for AX58100 Non-MCU EtherCAT slave applications and AX58100 + 3rd Party MCU without EtherCAT protocol stack EtherCAT slave applications.

This ASIX e-Learning video teaches designers how to modify AX58200 ADIO (Analog/Digital I/O) demo kit firmware source and TwinCAT PLC demo source for 12-bit digital I/O applications.

This ASIX e-Learning video teaches designers how to customize AX58200 TwinCAT EtherCAT slave device information with your own company logo and product descriptions.

This video demonstrates the offline robot programming functionality of AX58200 AxRobot EtherCAT 7-Axis Force-Assisted Control Robot solution.

This video demonstrates the online robot programming functionality of AX58200 AxRobot EtherCAT 7-Axis Force-Assisted Control Robot solution.

This video demonstrates how to quickly build up ASIX AX58400 EtherCAT Slave ADIO Demo Kit BSP development environment.

This video demonstrates how to quickly build up AX58400 EtherCAT Slave Motor Control Reference Design Kit BSP development environment.

This video shows a complete tutorial on generating the AX58400 motor control firmware source code and running the TwinCAT PLC demo application to evaluate the AX58400 EtherCAT slave motor control functionalities.

ASIX Electronics Corporation is a leading IC design company for industrial/embedded networking and connectivity solutions. ASIX products include EtherCAT/Industrial Ethernet ICs, SuperSpeed USB Ethernet ICs, Non-PCI/SPI Embedded Ethernet ICs, Interface ICs, RS-232/RS-485 Transceivers and Ethernet/Wi-Fi/USB KVM SoCs.

Sep. 24-27, 2024 @ NECC (Shanghai), ASIX Booth: 6.1H-A018

ASIX will showcase AX88279/AX88179B USB PTP Hardware Timestamping solutions at the “IEEE ISPCS 2024” in Tokyo, Japan on October 7th~11th, 2024.

ASIX Electronics today launches a small package and easy-design EtherCAT slave controller SoC solution – AX58200 2/3-Port EtherCAT Slave Controller SoC with 2 Embedded Ethernet PHYs

ASIX Electronics and Avalue Technology are jointly launching the latest AXM57104 TSN IPC development platform solutions today to shape the future of TSN technology together.

ASIX Electronics Corp. and TRG Components are pleased to announce a distribution agreement that covers TRG's locations in the US and the UK.

To simplify the EtherCAT network setup by using EtherCAT P One Cable solution with EtherCAT data lines and two individual 24V DC/3A power supplies

ASIX Electronics Corp. is going to exhibit its new AX58100 2/3-Port EtherCAT Slave Controller solution at China International Industry Fair (Shanghai) - Industrial Automation Show 2018 (IAS).

ASIX Electronics Corp. is going to exhibit its new EtherCAT + IO-Link Master protocol stack solution at Taipei International Industrial Automation Exhibition (TIIAE) 2019

ASIX Electronics Corp. is going to exhibit its new AX58100 2/3-Port EtherCAT Slave Controller solution at Taiwan Automation Intelligence and Robot Show 2018 (TAIROS).

ASIX Electronics exhibits complete industrial Ethernet EtherCAT solutions at SPS Industrial Automation Fair (SIAF) Guangzhou 2019

ASIX showcased its latest ASIX IO-Link Master & Device Software Stacks, AX58400 EtherCAT to IO-Link Gateway integrated with ASIX IO-Link Master Software Stack, and AXM57104A TSN Gigabit PCIe NIC solutions at IAS 2024 in Shanghai.

This video demonstrates the application scenarios of AX58400 EtherCAT to IO-Link Gateway and ASIX IO-Link Device Software Stack solutions.

This video demonstrates typical application scenarios of ASIX’s total solution for the latest TSN, EtherCAT and IO-Link industrial Ethernet technologies.

Using ASIX AX58200 AxRobot EtherCAT slave servo drive modular design to effectively reduce the motor drive board PCB space and hardware design cost for each robotic arm joint.

ASIX AX58400 EtherCAT Slave Controller with Dual-Core MCU is equipped with the highest-performing 480MHz ARM® Cortex®-M7 core, 240MHz ARM® Cortex®-M4 core, and EtherCAT Slave Controller integrated with two embedded Fast Ethernet PHYs.

After launching the first EtherCAT slave controller in Greater China area in 2018, ASIX Electronics is going to launch the first EtherCAT slave controller SoC in Greater China area in Q4 2019

Optimistic about the prospects of IO-Link intelligent communication technology, ASIX Electronics launches the newest "AX58400 EtherCAT to IO-Link Gateway Solution ", which combines EtherCAT industrial Ethernet fieldbus technology and IO-Link intelligent communication technology.

The combination of TSN with OPC UA provides the key technology to realize the Industrial Internet of Things (IIoT) (known as Industrial Internet), and will become a rising star of next generation industrial communication technologies in the coming future.

ASIX Electronics actively seeks new media marketing partners for creating a win-win partnership. Welcome to contact ASIX Marketing via email: marketing@asix.com.tw !!

With a compound annual growth rate (CAGR) of 26.7%, ASIX Electronics is featured in the 5th edition of FT’s Top 500 High-Growth Companies Asia-Pacific 2023 ranking, which identifies the strong international competitiveness of ASIX's industrial/embedded Ethernet controller products in the global market.

ASIX Electronics made a successful showcase of its latest TSN/EtherCAT/IO-Link industrial Ethernet solutions at IAS 2023.

Compared to the traditional 4-Port USB KVM switch with up to 12 chipsets solution, ASIX provides a simple design and cost-effective AX6800x USB KVM Switch SoC single chip solution.

ASIX to showcase their latest AXM57104 TSN Development Platform & AX58400 EtherCAT to IO-Link Gateway over TSN total solution, AxRobot EtherCAT 7-Axis Force-Assisted Control Robot Solution, as well as various EtherCAT slave typical application scenarios at IAS 2023 in Shanghai.

ASIX Electronics is set to showcase its latest ASIX IO-Link Master & Device Software Stacks, AX58400 EtherCAT to IO-Link Gateway integrated with ASIX IO-Link Master Software Stack, and AXM57104A TSN PCIe NIC solutions at IAS 2024 in Shanghai.

ASIX launches the new generation of driverless USB Ethernet controller solution -- “AX88179B USB 3.2 Gen1 to Gigabit Ethernet Controller”. This solution eliminates the need for annoying driver download and installation steps, enables users to effortlessly achieve a good plug-and-play networking experience.

ASIX launches the latest AX88772E USB 2.0 to 10/100M Fast Ethernet Controller, featuring a small form factor, low power consumption, and driverless capabilities.

ASIX Electronics unveils the new generation "AX99100A PCIe to Multi I/O (4S, 2S+1P, 2S+SPI, LB) Controller", providing a cost-effective PCIe to multiple serial/parallel ports & I/O bridge controller solution.

ASIX Electronics presents a comprehensive solution, incorporating the EtherCAT to IO-Link Master Gateway and IO-Link Device Software Protocol Stack solutions. This enables customers to seamlessly integrate the latest IO-Link smart sensors and actuators into EtherCAT industrial Ethernet networks, thereby achieving a more flexible and efficient smart factory production environment.

ASIX USB Ethernet iPXE solution integrates the iPXE network booting technology with ASIX's latest USB Ethernet controllers to provide users with a new powerful, flexible, and efficient iPXE network booting experience.

This video demonstrates typical application scenarios of ASIX USB Ethernet iPXE solution. This solution supports the latest ASIX USB Ethernet controllers, including AX88279, AX88179B/AX88179A/AX88179, and AX88772E/AX88772D.

This video demonstrates typical application scenarios of ASIX USB Ethernet iPXE solution with Tiny PXE Server. This solution supports the latest ASIX USB Ethernet controllers, including AX88279, AX88179B/AX88179A/AX88179, and AX88772E/AX88772D.

ASIX USB Ethernet macOS 11.3 and above driver supports ASIX AX88179/AX88178A/AX88772C/AX88772B USB Ethernet controllers.

How to improve the network stability and throughput of Nintendo Switch native Wi-Fi connection? Nintendo Switch already supports AX88179/AX88772 USB Ethernet in-box drivers so users can easily plug ASIX USB Ethernet adapters onto Nintendo Switch to get a stable wired network connection and much higher network throughput.

This video introduces ASIX AX58100 EtherCAT slave controller solutions, and shows the AX58100 + STM32 MCU EtherCAT Motor Control Reference Design Demonstration.

Why need to use EtherCAT to Modbus TCP gateway solution? Modbus TCP is NOT a real-time network, since the Modbus TCP/IP ADU data is embedded inside the TCP/IP frames of standard Ethernet packets. Designers can use AX58200 EtherCAT to Modbus TCP Gateway solution to integrate Non-real-time Modbus TCP network into Real-time EtherCAT network!!

This video demonstrates the functionalities of ASIX AX58400 EtherCAT to IO-Link Gateway and EtherCAT Slave Motor Control solutions.

This video demonstrates the functionalities of AX58400 EtherCAT to IO-Link Gateway solution, using ASIX’s own IO-Link Master Protocol Stack.

How to troubleshoot macOS 10.15 3rd party device drivers installation issues? macOS 10.15 supports new Gatekeeper Security feature to ensure only trusted software runs on your Mac. Before opening downloaded software for the first time, macOS requests your approval to make sure you aren’t misled into running software you didn’t expect. Users MUST manually click the lock icon in System Preferences - Security & Privacy console to allow “ASIX ELECTRONICS CORPORATION” developer software for normal driver installation.

This video introduces ASIX AX58200 AxRobot EtherCAT 7-Axis Force-Assisted Control Robot solution for collaborative robot applications.

This video demonstrates the robot collision protection functionality of AX58200 AxRobot EtherCAT 7-Axis Force-Assisted Control Collaborative Robot solution.

ASIX is honored to be awarded the 23rd Rising Star Award from Small and Medium Enterprise Administration (SMEA), Ministry of Economic Affairs! Winning this award represents a concrete affirmation of ASIX's great company operation management system and outstanding export performance.

The COVID-19 pneumonia epidemic has brought a huge impact on the global manufacturing industry, but it has also given global manufacturers a new opportunity to accelerate the development of smart factory industrial automation applications.

November 15-17, 2006 Booth #C-01 Pacifico Yokohama Tokyo, Japan

November 14-16, 2007 Booth #C-45 Pacifico Yokohama Tokyo, Japan

February 13-15, 2007 Hall 12.0 Stand 277 Nuernberg Messe Exhibition Center Nuernberg, Germany

February 26-28, 2008 Hall 9 Stand 392 Nuernberg Messe Exhibition Center Nuernberg, Germany

April 4-6, 2006 Booth #3234 McEnery Convention Center San Jose, CA

April 3-5, 2007 Booth #126 McEnery Convention CenterSan Jose, CA

April 15-17, 2008 Booth #1947 McEnery Convention Center San Jose, CA

March 31-April 2, 2009 Booth #545 McEnery Convention Center San Jose, CA

May 14-16, 2008 East 41-8 Tokyo Big Sight Tokyo,Japan

ASIX AX88279 USB 3.2 to 2.5G Ethernet Controller supports advanced driverless and plug-and-play features by supporting in-box network drivers on different platforms such as macOS, Windows 11/10/8.x, Linux/Android/Chrome OS and Nintendo Switch, etc.

Apr. 1-5, 2019 Exhibition Hall: 9, Booth: D18 Hannover, Germany

Sep. 19-23, 2018 Exhibition Hall: 6.1H Booth: C062 National Exhibition and Convention Center (Shanghai)

Sep. 17-21, 2019 Exhibition Hall: 6.1H Booth: A018 National Exhibition and Convention Center (Shanghai)

March 5-6, 2009 Booth #A5 China World Trade Center Beijing, China

March 6-7, 2006 Booth #4K19 Shanghai Mart Shanghai,China

March 10-11, 2006 Booth #8E48 Shenzhen Convention & Exhibition Center Shenzhen, China

March 5-6, 2007 Booth #2E48 Shenzhen Convention & Exhibition Center Shenzhen, China

February 26-27, 2009 Booth #2E22 Shenzhen Convention & Exhibition Center Shenzhen, China

March 4-5, 2010 Booth #2S07 Shenzhen Convention & Exhibition Center Shenzhen, China

Feb 24-26, 2011 Booth #2D27 Shenzhen Convention & Exhibition Center Shenzhen, China

Feb 23-25, 2012 Booth #1F27 Shenzhen Convention & Exhibition Center Shenzhen, China

Feb 28-Mar 2, 2013 Booth #2D29 Shenzhen Convention & Exhibition Center Shenzhen, China

Smart home, smart office, smart factory, smart city, smart transportation, etc., people can access Internet anytime, anywhere in the smart world, ASIX Electronics Corp. provides easy-to-design, cost-efficient industrial/embedded networking and I/O bridge controllers solutions for industrial automation and smart embedded devices applications.

This video introduces ASIX's Latest Industrial Ethernet Controllers and TSN NIC Solutions.

Technological innovation has become the key to competitive advantages and is considered a driving force for industrial transformation.

Mar. 10-12, 2019 Exhibition Hall: 3.1, Booth: F51 China Import and Export Fair Complex in Guangzhou

Aug. 29-Sep. 1, 2018 Booth #K1024 Taipei Nangang Exhibition Center, Hall 1, 1F

Sep. 19-23, 2023 @ NECC (Shanghai), ASIX Booth: 6.1H-A066

ASIX Electronics presents the first EtherCAT slave controller in Greater China area at Hannover Messe 2019 ETG Joint Booth.

Aug. 21-24, 2019 Exhibition Hall: 2 Booth: S904 Taipei Nangang Exhibition Center, Hall 2, 4F