System design guidelines, System mounting requirements – Rockwell Automation 2094-EN02D-M01-Sx Kinetix 6200 and Kinetix 6500 Modular Multi-axis Servo Drives User Manual User Manual

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Rockwell Automation Publication 2094-UM002E-EN-P - May 2012

Chapter 2

Planning the Kinetix 6200 and Kinetix 6500 Drive System Installation

System Design Guidelines

Use the information in this section when designing your enclosure and planning
to mount your system components on the panel.

For on-line product selection and system configuration tools, including
AutoCAD (DXF) drawings of the product, refer to

http://www.rockwellautomation.com/en/e-tools

.

System Mounting Requirements

• To comply with UL and CE requirements, the Kinetix 6200 and Kinetix

6500 drive systems must be enclosed in a grounded conductive enclosure
offering protection as defined in standard EN 60529 (IEC 529) to IP2X
such that they are not accessible to an operator or unskilled person. A
NEMA 4X enclosure exceeds these requirements providing protection to
IP66.

• The panel you install inside the enclosure for mounting your system

components must be on a flat, rigid, vertical surface that won’t be subjected
to shock, vibration, moisture, oil mist, dust, or corrosive vapors.

• Size the drive enclosure so as not to exceed the maximum ambient

temperature rating. Consider heat dissipation specifications for all drive
components.

• Combined motor power cable lengths for all axes and hybrid cable lengths

for all IDM units on the same DC bus must not exceed 240 m (787 ft)
with 400V-class systems. Drive-to-motor power cables must not exceed 90
m (295.5 ft).

• Combined length of Ethernet cables on Kinetix 6500 systems connecting

drive-to-drive, drive-to-controller, or drive-to-switch must not exceed 100
m (328 ft).

• Segregate input power wiring and motor power cables from control wiring

and motor feedback cables. Use shielded cable for power wiring and
provide a grounded 360° clamp termination.

• Use high-frequency (HF) bonding techniques to connect the modules,

enclosure, machine frame, and motor housing, and to provide a low-
impedance return path for high-frequency (HF) energy and reduce
electrical noise.

Refer to the System Design for Control of Electrical Noise Reference Manual,
publication

GMC-RM001

, to better understand the concept of electrical noise

reduction.

IMPORTANT

System performance was tested at these cable length specifications.
These limitations also apply when meeting CE requirements.