I-7540D
CAN Ethernet Gateway enables CAN networks to integrate with the Internet / Ethernet. Supports operating temperatures between -25 to 75°C.
Features
The VxComm technology can be used to simulate COM/CAN ports of the I-7540D to become a COM port of a PC . With the help of VxComm driver, users can access the remote COM/CAN ports of the I-7540 just as they would access the PC's COM port. The block diagram of data processes in I-7540D is given as follows:
Internet communications using TCP/IP is increasing in the industrial sector. Using Ethernet for industrial networks is a good idea because the required cabling is already installed. The CAN-Ethernet Gateway from ICP DAS is a solution that enables CAN networks to be coupled together over the Internet via Ethernet, creating an environment where monitoring and control is possible. The CAN-Ethernet Gateway controls networked communications and creates a transparent CAN-based application interface.
The device supports a transparent, protocol-independent transfer of the CAN messages, thus allowing its implementation into a wide range of possible applications. Furthermore, the CAN-Ethernet Gateway can be used with various higher layer CAN protocols (e.g. CANopen, DeviceNet or other proprietary protocols). The following figure shows the application architecture for the CAN-Ethernet Gateway .
I-7540D can also be used as an Ethernet to CAN/RS-232/485 Device Server. The Device Server is an appliance that makes any device network enabled with a serial communication port. By virtue of its independent operating system, protocol independence, small size and flexibility, Device servers are able to meet the demand of virtually any network-enabled application. Most devices don't have network ports - I-7540D allows those devices to become connected to the network.
Applications
- Factory Automation
- Building Automation
- Home Automation
- Control System
- Monitor System
- Vehicle Automation
Features
- 80186-80 Embedded CPU, or compatible
- Ethernet Protocols, TCP,UDP,IP,ICMP,ARP
- 10/100 Base-TX Ethernet Controller
- Reloadable Operating Software
- Message transmitted by using TCP/IP protocol
- Diagnostics
- COM driver support interrupt & 1K QUEUE Input & Output buffer
- Support one RS-232 port, one RS-485 port and one CAN port
- 2500Vrms photo-isolation protection on CAN side.
- Jumper select 120Ω terminator resistor for CAN channel
- Phillip 82C 250/251CAN Transceiver
- Support both CAN specification 2.0A and 2.0B.
- Max transmission speed up to 1M bps for CAN and 115.2kbps for RS-232 & RS-485
- Max transmission distance of CAN over 1000m (follow CAN specification)
- Built-in self-tuner ASIC controller on RS-485 port
- 7-segment LED display.
- Software configurable CAN and RS-232 communication parameters
- Firmware updated from COM1 or Ethernet port
- Support Web Configuration
- Support maximum 25 Ethernet clients connection
- Support for Virtual COM technology
Utility
- IP, Gateway, Mask configuration
- CAN bus Baud rate configuration
- CAN BTR0 and BTR1 configuration
- CAN acceptance filter configuration
- CAN 2.0A or 2.0B specific selection
- Error code Responded selection
- Easy test to transmit/receive CAN messages
Virtual CAN
There are various communication interfaces among the CAN devices like PCI CAN board, Ethernet series, and RS-232 series CAN module. According to the different purposes of users’ projects, the users might need to choose different CAN products. Because of this situation, the programmer should develop different communication programs to handle different CAN devices. For example, the user could develop a “Socket Client” to communicate with I-7540. When using the I-7530, the users need “UART” techniques to communicate. Nowadays, ICP DAS develops the Virtual CAN technique. The Virtual CAN driver is an excellent tool for users. It transforms whole CAN devices into Virtual CAN ports. Then it generates Virtual CAN ports like “VxCAN 1” or “VxCAN 2”. The users could then send and receive CAN message by appointing a Virtual CAN port number. The users don't need to figure out what kind of CAN device is used.
Performance Test
The test is the performance which transfer 8 bytes data frame from CAN to Ethernet (one TCP client). |
||||||||
CAN setting |
Transfer frames |
Transfer time(ms) |
Ethernet setting |
Receive frames |
Receive time (ms) |
The max frames/sec |
Data<8 byes/frme |
ASCII command length |
2.0A 1Mbps |
1,000,000 |
619,831 |
100M |
1,000,000 |
619,871 |
1613 |
>=1613 |
22 B |
2.0B 1Mbps |
1,000,000 |
662,432 |
100M |
1,000,000 |
662,513 |
1509 |
>=1509 |
27 B |
The test is the performance which transfer 8 bytes data frame from Ethernet (one TCP client) to CAN. |
||||||||
CAN setting |
Transfer frames |
Transfer time (ms) |
Ethernet setting |
Receive frames |
Receive time (ms) |
The max frames/sec |
Data<8 byes/frame |
ASCII command length |
2.0A 1Mbps |
1,000,000 |
535,280 |
100M |
1,000,000 |
535,618 |
1867 |
>=1867 |
22 B |
2.0B 1Mbps |
1,000,000 |
563,170 |
100M |
1,000,000 |
563,395 |
1774 |
>=1774 |
27 B |
Specifications
Model |
I-7540D |
CPU |
RDC186, 80MHz or compatible |
Flash |
512K bytes |
SRAM |
512K bytes |
EERROM |
16K bytes |
Ethernet port |
10/100 Base-T |
Real Time Clock |
Year-2000 compliance; seconds, minutes, hours, date of the month, year, valid up from 1980 to 2079 |
CAN Signal Support |
CAN_H, CAN_L |
Connecter |
5-pin screw terminal connecter |
Power Consumption |
3W |
COM1 |
RS-232: TXD, RXD, RTS, CTS, GND |
COM2 |
RS-485: D2+, D2- |
COM Speed |
115200 bps max |
CAN Controller |
Phillip SJA1000T CAN Controller |
CAN Transceiver |
Phillip 82C250 CAN Transceiver |
CAN bus Speed |
1Mbps Max |
LED Directors |
ER, TX, RX |
Display |
7-segment LED: 5 digits |
Isolated |
2500Vrms on CAN side |
Reauired Supply Voltage | +10 ~ +30VDC |
Operating Temp |
-25°C to 75°C |
Storage Temp |
-30°C to 85°C |
Himidity |
5 ~ 95% |
Dimensions |
123mm x 64.5mm x 19.6mm |