ADLINK EOS 1200 is a compact embedded vision system equipped with the 2nd generation Intel ® Core ™ I5/i7 quad core processor, provides 4 independent Gigabit PoE (Power over Ethernet) ports, with a total bandwidth of 4.0 Gb/s, and supports IEEE 1588 Precision Time Protocol (PTP), enabling multi camera sub microsecond synchronization. Its rich front-end I/O -4 x serial ports, 2 x USB 3.0, 32 channels of PNP/NPN isolated digital I/O, dual SATA storage (supporting RAID 0/1), internal USB, and 1Kbit programmable EEPROM - make it an ideal choice for machine vision, robot guidance, 3D measurement, and medical imaging. However, the budget for PoE power supply, PTP synchronization configuration, isolated DIO wiring, RAID establishment, and other aspects often give engineers headaches. This article outlines the complete deployment path of EOS 1200 from hardware installation, network and synchronization optimization, I/O configuration to storage and system maintenance, and provides a quick solution for high-frequency faults.
Hardware Overview and Installation Points
The EOS 1200 adopts a fanless aluminum alloy heat dissipation design, with a compact size that supports wall mounting and DIN rail installation (optional kit). The front panel includes: 4 x PoE Ethernet ports (RJ45, compliant with IEEE 802.3af/at), 2 x USB 3.0, power input (12-24V DC), power indicator light, and hard drive indicator light; The rear panel provides: 4 x serial ports (RS-232/422/485 optional), 32 isolated DIOs (via 68 pin SCSI connector), VGA display output, dual SATA hard drive slots (internal), internal USB 2.0 (for encryption dongles or system recovery disks), and EEPROM programming interface.
Installation precautions:
Ensure that the load-bearing capacity of the installation surface is ≥ 2.5 kg and leave at least 50mm of heat dissipation space.
The power supply uses 2-pin terminals with a voltage range of 12-24V DC (± 10%). It is recommended to use an industrial power supply with 24V/5A or higher to meet the total power consumption of both the host and four PoE channels (the maximum total power supply of PoE is about 60W).
If using DIN rail installation, it is necessary to first fix the rail clamp and pay attention to the direction of the buckle.
Static protection: When opening the chassis to install hard drives or memory, be sure to wear an anti-static wristband to avoid damaging sensitive components.
PoE power supply and camera connection
The four PoE ports of the EOS 1200 can simultaneously power and transmit data to compatible GigE Vision cameras, with a maximum power supply of 30W per port (compliant with 802.3at) and a total power budget of 60W (limited by the host power supply). When deploying, the total power consumption of all cameras needs to be calculated. If it exceeds 60W, an external PoE power supply module is required.
Port allocation: Four network ports correspond to independent MAC addresses (identifiable by labels), displayed as eth0~eth3 under the operating system. It is recommended to fix the IP address in the IP configuration to avoid DHCP conflicts.
IEEE 1588 PTP synchronization: This feature enables multiple cameras to capture data at the same time reference, suitable for moving objects or 3D reconstruction. Enabling steps:
Enable "IEEE 1588" support in BIOS (located in the "Peripheral" menu).
After installing the operating system (Windows 7/XP or Windows Embedded 7), install the Intel network card driver and enable PTP (through the Intel PROSet tool or command line).
Set a master clock (usually setting the port or external PTP source connected to the master camera as Grandmaster) and the rest as slaves.
Using applications such as the PTP API provided by ADLINK to obtain synchronization timestamps, the accuracy can reach ± 100ns.
Common faults:
Camera unable to obtain IP: Check if PoE power supply is normal (network port indicator light is on); Disable firewall; Manually set the same subnet.
Unstable PoE power supply: Measure the total camera power consumption. If it is close to 60W, it is recommended to use an external PoE injector; Check if the power adapter is sufficient (recommended ≥ 120W).
PTP synchronization jitter is large: ensure that all camera firmware supports PTP; Use high-quality Cat6 shielded Ethernet cables; Avoid cascading switches (direct connection to EOS 1200 is best).
Isolation Digital I/O (DIO) Configuration and Wiring
The EOS 1200 provides 32 channels of optically isolated digital I/O, which can be connected through a 68 pin SCSI connector (similar to SCSI III). Each group consists of 8 channels (4 groups in total), and each group can be independently configured as an input or output (set through software). It has a withstand voltage of up to 24V and supports direct connection of PNP/NPN sensors.
Pin definition and wiring:
Each group contains 8 I/O points and 1 common terminal (COM), as well as isolated power inputs (VISO+/VISO -).
PNP mode: The common terminal is connected to VISO - (0V), and the input signal is high and effective (sensor output+V).