More Functions and Higher Performance for Real-Time Ethernet
The netX is a highly integrated network controller with a new system architecture optimized for communication and maximum data throughput.
Based on the 32 bit CPU ARM 926EJ-S cycled at 200 MHz, it possesses a memory management unit, caches, DSP and Java extensions. The internal memory of 144 KByte RAM and 32 KByte ROM that contains the boot loader is sufficient for smaller applications whereas for Windows CE and Linux it is supplemented with the 32 bit memory controller memory externally with SDRAM, SRAM or FLASH. The connection to a primary Host is carried out via the dual-port memory interface, which is configurable for stand-alone applications also as a 16 bit extension bus. Comprehensive peripheral functions, serial interfaces such as UART, USB, SPI, I²C as well as the integrated graphic controller permit a wide spectrum of applications. Yet, it is the central data switch and the four freely configurable communication channels with their own intelligence that is the main characteristic of the netX as a "high end” network controller.
The data switch connects via five data paths to the ARM CPU and the communication, graphic and Host controllers with the memory or the peripheral units.
In this way the controllers transmit their data in parallel, contrary to the traditional sequential architecture with only one common data bus and additional bus allocation cycles.
The controllers of the four communication channels are structured on two levels and are identical to each other. They consist of dedicated ALUs and special logic units that receive their protocol functions via Microcode. Two channels posses an additional integrated PHY for Ethernet.
The Medium-Access-Controller xMAC sends or receives the data according to the respective bus access process and encrypts or converts these into byte depictions.
The Protocol Execution Controller xPEC compiles these into data packets and controls the telegram traffic. These are exchanged in DMA blocks over the memory of the ARM. In addition, every channel has a dual-port memory available for status information or as local data image.
With the intelligent communication ALUs, the netX carries out the most varied protocols and protocol combinations and can synchronize them independently of the reaction time of the CPU – an absolutely new feature in industrial communication technology.
Block Diagram
netX 100/500 - Details
Technical Specifications
| netX 100 | netX 500 | |||
| Core | ||||
|---|---|---|---|---|
| Processor | ARM 926EJ-S, 200 MIPS, ARMv5TE-command set with DSP- and Java-extension | X | X | |
| Cache | 16 KByte commands / 8 KByte data | X | X | |
| Tightly coupled memory | 8 KByte data | X | X | |
| Memory Managment Unit | Windows CE and Linux support | X | X | |
| Internal memory | ||||
| RAM | 144 KByte, of this 16 KByte with external voltage supply | X | X | |
| ROM | 32 KByte with boot loader | X | X | |
Ethernet Interface | ||||
| Port | 2 x 10BASE-T / 100BASE-TX, half/ full duplex, IEEE 1588 time stamp | X | X | |
| PHY | Integrated, auto negotiation, auto crossover | X | X | |
| Real-Time-Ethernet | EtherCAT with three FMMUs and four sync managers |
X |
X | |
| Fieldbus Interface | If Ethernet is not used, then one respecively two additional fieldbusses are available | |||
| Fieldbus | The systems can be freely combined. | Quantity | 1 | 2 |
| AS-interface, Master, only CANopen, Master or Slave CC-Link, Slave, only CompoNet, Slave, only DeviceNet, Master or Slave PROFIBUS, Master or Slave |
X |
X | ||
Peripheral components | ||||
| Color LCD controller | For TFT-panels, Color-STN- and Mono-STN-panels Resolution 320 x 200 to 640 x 480, color depth 1, 2, 4, 8, 16-Bit | X | ||
| Real-Time clock | With external voltage supply | X | ||
| IEEE 1588 system time | 32 bit second counter, 32 bit nanosecond counter | X | X | |
| USB | Revision 1.1, 12 MBaud full speed, host or device mode | X | X | |
| UART | 16550-compatible, max. 3 MBaud, RTS / CTS support | Quantity | 3 | 3 |
| I²C | X | X | ||
| SPI | Master- and Slave-Mode, max. 10 MHz, 3 Chip-Select-Signals | X | X | |
| AD-Converter | 2 x 4 Channels with 1MS/s Sample&Hold and 10 Bit-resolution Single ended, Common Analog Ground, external reference voltage | X | X | |
| PWM | 0 – 20 kHz /12-Bit-resolution 0 – 80 kHz /10-Bit-resolution | X | X | |
| Encoder | 2 Channels, Impuls quadruplication, digital input filter | X | X | |
| General IOs | 3.3 V / 6 mA | Quantity | 16 | 16 |
| Status LEDs | 2 LEDs dual colored, 3.3 V / 9 mA | X | X | |
| Memory interface | ||||
| Memory bus | 32-Bit-Databus / 24-Bit-Address bus | X | X | |
| Address region | 256 MByte SDRAM / 64 MByte Flash | X | X | |
| Memory modules | SDRAM, SRAM, Flash | X | X | |
| Host Interface | ||||
| Dual-port memory mode | 8/16-Bit-Databus, 64 KByte configurable in 8 Blocks; emulated by internal RAM | X | X | |
| Extension mode | 8/16 bit data bus, 24 bit address bus, bus timing adjustable | X | X | |
| PIO mode | Freely programmable inputs and outputs | Quantity | 53 | 53 |
| Debug Interface | ||||
| JTAG | ARM processor and boundary scan | X | X | |
| ETM | Embedded Trace Macrocell, ETM9 V2 Medium Size | X | X | |
| Operating Conditions, Housing, Miscellaneous Data | ||||
| System cycle | 200 MHz ARM / 100 MHz Periphery | |||
| Signal level | V | 3.3 | 3.3 | |
| Power supply | for core | V | 1.5 | 1.5 |
| for inputs/outputs | V | 3.3 | 3.3 | |
| Operating temperature | without heat sink, circuit board > 30 cm² | °C | –40 ... +70 | –40 ... +70 |
| with heat sink 10°/W | °C | –40 ... +85 | –40 ... +85 | |
| Storage temperature | °C | –65 ... +150 | –65 ... +150 | |
| Power consumption | PHYs switched off, typically | W typ. | 1.0 | 1.0 |
| PHYs switched on, typically | W typ. | 1.5 | 1.5 | |
| Housing | PBGA, 1.0 mm raster | pins | 345 | 345 |
| Dimensions | mm | 22 x 22 | 22 x 22 | |