Specifications
DM&P Vortex86EX2 Processor, Master 533MHz/Slave 400MHz
EtherCAT MDevice Core runs on dedicated CPU
Hardware/Software Real-time
86Duino Integrated Development Environment (IDE)
Up to 128 axes support for motion control
7-inch TFT 800×480 Resolution LCD with Restive touchscreen
Internal Monitoring Hardware Information
Operating Temperature -20 to +70°C/-40 to +85°C (Option)
3LAN/3USB/MicroUSB/VGA/MiniPCIe/Arduino Pins
CPU | DM&P Vortex86EX2 Processor, Master 533MHz/Slave 400MHz | |
Memory | 512MB/1GB DDRIII Onboard | |
Storage | 32MB SPI Flash/2GB SLC eMMC | |
LCD Display | 7-inch TFT 800×480 Resolution LCD with Restive touchscreen | |
LAN |
1Gbps Ethernet RJ45 x1 10/100Mbps Ethernet RJ45 x2 for EtherCAT |
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Expansion | MiniPCIe x 1 with Micro SIM Card Holder | |
I/O Connector |
2.54mm 2-pin header for Power Connector 1.25mm 4-pin wafer for Line-Out Power DC Input/Output Connector x1 Micro USB (Type-B) x1 (Upload/Debug only) VGA Connector (10-pin) x1 |
1.25mm 4-pin header for EXT I2C TFT Driver Micro SIM Card Holder x1 MiniPCIe slot x1 USB 2.0 Host x3 RJ45 x3 |
Arduino Compatible Connector | 2.54mm 10-pin female header for I2C0, MCM, GPIO 2.54mm 8-pin female header for MCM, GPIO, COM1 (TTL) 2.54mm 8-pin female header for Power source 2.54mm 6-pin female header for ADC/GPIO 2.54mm 6-pin female header for GPIO, VCC and GND |
2.54mm 6-pin female header for CAN0 and CAN1 bus 2.54mm 10-pin header for SPI0 bus, RESET-, GPIO and I2C1 2.54mm 10-pin header for SPI1 bus, RESET-, GPIO and RS485 function (COM4) |
Protocol | EtherCAT (EtherCAT Master Functions: PDO, CoE, DC, Cable-redundancy, etc.) | |
Ethernet Standard | IEEE 802.3 | |
Control Cycle Time | 125 µs (min.) | |
Power Connector | 6-pin Power Input /Output | |
Power Requirement | +19 to +50VDC Power Input (Typ. +24VDC) | |
Power Consumption | 8W | |
Operating Temperature | -20 to +70°C/-40 to +85°C (Option) | |
Dimension | 186 x 121.05 x 31.05 mm | |
Weight | 520 g | |
Internal Monitoring | Temperature, Voltage, Current | |
Software Support | 86Duino Coding IDE 500+ (The environment is written in Java and based on Arduino IDE, Processing, DJGPP, and other open source software) |
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Certifications | CE, FCC, VCCI |
ICOP’s QEC-M-070T is an EtherCAT MainDevic with a real-time, reliable, and synchronous control equipped with a 7-inch TFT LCD. The industrial Arduino makes it an easy-to-develop, stable, and economical automation system, allowing users to develop EtherCAT with UI quickly.
The QEC MainDevice is highly compatible with third-party EtherCAT devices for communication, such as servo, I/O, etc. It supports PDO, CoE, FoE, DC, and EtherCAT cable redundancy to use other EtherCAT SubDevice flexibly. The QEC master has precise synchronization (min.125μs), and its 86Duino IDE provides less than 1us jitter time in the minimum cycle time; it could apply to highly synchronized and precision automatic applications, like motion control and I/O control. (Read More: EtherCAT Master’s Benchmark –QEC)
QEC-M-070T has a built-in high endurance 2GB SLC eMMC, designed to provide a stable and reliable operating system. Users can upload the developed executable files and required images or data, such as HMI images, to the QEC-M-070’s SLC via the 86Duino IDE without affecting the performance of the master system. Besides, 86Duino IDE also integrates with the LVGL library to provide an advanced and intuitive approach to user interface design on QEC-M-070T.
QEC-M-070T can also monitor hardware information on temperature, voltage, and current. These features allow users to track the system’s carbon footprint and estimate its lifespan. QEC-M-070T’s dimension is 186 x 121.05 x 31.05 mm, with its open frame design for easy integration and customization. The operating temperature is from -20°C to +70°C, with an extended option of -40 to +85°C.
QEC-M-070T has two networks for EtherCAT Cable redundancy and one Giga LAN for external network connection. It also offers unrivaled connectivity, featuring 3 USB ports, a MicroUSB port (debug/upload only), VGA output slot, and full Arduino function Pins (GPIO, PWM, SPI, I2C, CAN, etc.); All provide an off-the-shelf API to use.
Dimensions: