www.advantech.com/products Online Download Features PCI-1245E PCI-1285E Encoder input is 10 MHz for 4xAB mode, 2.5 MHz for CW/CCW mode Pulse output up to 5 Mpps Memory buffer for trajectory planning (circular trajectory and auto blending are not supported) Supports E-Gear Hardware emergency input Watchdog timer Programmable interrupt RDY/LTC-dedicated input channels & SVON/CMP/CAM-DO/ERC-dedicated output channels are switchable for general input and output purposes Introduction PCI-1245E/1285E is a 4/8-axis economic universal PCI (supporting both 3.3 V and 5 V signal slot) stepping/pulse-type servo motor control card designed for entry-level applications which need to control linear interpolation, electronic gear, continuous contouring (circular trajectories and auto blending are excluded). PCI-1245E/1285E utilizes the high-performance DSP and FPGA to calculate the motion trajectories, synchronization timing control for multiple axes and input/output handling to offer functionality, such as 2~8-axis linear interpolation, E-Gear (only for PCI-1245E), T/S-curve acceleration/deceleration rate, speed override, 16 home modes and so on. In addition, Advantech supplies a Common Motion API library, graphical utility and user-friendly examples to decrease programming load, helping users complete configuration and diagnosis easily. Specifications Pulse Type Motion Control Motor Driver Support Pulse-type servo/stepping Number of Axis PCI-1245E: 4 PCI-1285E: 8 Interpolation PCI-1245E: 2-axis linear PCI-1285E: 2-axis linear Max. Output Speed 5 Mbps Step Count Range ±2, 147, 483, 646 Pulse Output Type Pulse/direction (1-pulse, 1-direction type) or CW/CCW (2-pulse type) Position Counters Range of command and actual position Velocity Profiles T-Curve, S-Curve Local I/O Machine Interfaces: LMT+, LMT-, ORG Servo Driver Interfaces: ALM, INP General Digital I/O: PCI-1245E: 16-ch DI, 16-ch DO PCI-1285E: 32-ch DI, 32-ch DO Encoder Interface Input Type Quadrature (A/B phase) or up/down Counts per Enc. Cycle x1, x2, x4 (A/B phase only) Input Range PCI-1245E: 3~10V PCI-1285E: 3~10V Isolation Protection 2,500 VDC Max. Input Frequency 10 MHz under 4xAB mode General Bus Type Universal PCI V2.2 Connectors PCI-1245E: 1 x 100-pin SCSI female connector PCI-1285E: 2 x 100-pin mini-SCSI female connector Dimensions (L x H) 175 x 100 mm (6.9" x 3.9") Power Consumption PCI-1245E: Typical: 5 V @ 850 mA Max.: 5 V @ 1 A PCI-1285E: Typical: 5 V @ 530 mA 3.3 V @ 160 mA Max.: 5 V @ 500 mA 3.3 V @ 1 A Humidity 5 ~ 95% RH, non-condensing (IEC 60068-2-3) Operating Temperature 0 ~ 60°C (32 ~ 140°F) Storage Temperature -20 ~ 85°C (-4 ~ 185°F) Ordering Information PCI-1245E-AE Economic 4-axis Stepping/Servo Control Universal PCI Card PCI-1285E-AE Economic 8-axis Stepping/Servo Control Universal PCI Card Accessories ADAM-3956-AE 100-pin DIN-rail SCSI 4-axis Motion Wiring Board ADAM-3955-AE 50-pin DIN-rail SCSI 2-axis Motion Wiring Board ADAM-39100-AE 100-pin DIN-rail SCSI Wiring Board PCL-101100M-1E/2E/3E 100-pin SCSI Cable, 1m/2m/3m PCL-10251-1E/2E/3E 100-pin SCSI to Two 50-pin SCSI Cable, 1m/2m/3m PCL-101100SB-1E/2E/3E Mini-SCSI-100 Shielded Cable, 1m/2m/3m (for PCI-1285E) PCL-10153PA5-2E 50-pin Cable to Panasonic A4/A5 Servo, 2 m PCL-10153PA5LS-2E 50-pin Cable to Panasonic MINAS A Servo, 2 m PCL-10153YS5-2E 50-pin Cable to Yaskawa Sigma V/7 Servo, 2 m PCL-10153MJ3-2E 50-pin Cable to Mitsubishi J3/J4 Servo, 2 m PCL-10153DA2-2E 50-pin Cable to Delta A2 Servo, 2 m Economic DSP-Based 4/8-Axis Stepping and Servo Motor Control Universal PCI Card PCI-1245E PCI-1285E RoHS COMPLIANT 2002/95/EC Power & Energy Automation 8 5 4 4 10 Panel PCs 9 iDoor Technology Modules 8 Industrial monitors 7 Industrial IoT Gateways 6 Control Cabinet PCs High-Performance Control Panels Industrial Operator Panels 3 2 IntelligentMotionControl andMachineVision 1 WebAccess+ Solution 11 Control IPCs 12 Remote DA&C Systems 13 Wireless IoT Sensing Devices 14 15 RS-485 I/O Modules 16 Thin-Client Terminals Industrial Ethernet Solutions 17 IP Gateway and Serial Device Servers iNetworking 18 19 Ethernet I/O Modules Chapter 2 Table of Contents Table of Contents