KUKA KR C2 edition2005 Robot Controller Operation Manual

The KUKA KR C2 edition 2005 Robot Controller Operation Manual covers core content such as product description, technical data, safety specifications, planning, transportation, startup and debugging, operation, maintenance, repair, troubleshooting, and KUKA services. It clarifies that the target users of the controller are personnel with advanced knowledge of electrical and electronic systems, robot controllers, and Windows systems. The core function is to operate KUKA industrial robots, linear units, and locators, emphasizing the need to strictly follow safety specifications and operating procedures to avoid personal injury and equipment damage. At the same time, it provides detailed component information, operating steps, and fault handling solutions.

Product Core Information

composition structure

Industrial robot: composed of manipulator (mechanical arm and electrical device), robot controller, teaching pendant (KCP), connecting cable, software, and optional accessories

Robot controller: including control PC, power unit, KCP, ESC safety logic, KCP coupler (optional), service interface (optional), connection panel

Key component description

Control PC: The core functions include program creation, path planning, driver control, etc., including motherboard, hard disk, MFC3, KVGA and other components, supporting multiple interfaces (USB, Ethernet, serial port, etc.)

Power supply unit: including KPS600 power supply, KPS-27 low-voltage power supply, KSD servo driver, fuse, fan, etc., providing 24V and other voltage outputs

ESC safety logic: dual circuit computer safety system, monitoring emergency stop, enabling devices, etc., including CI3 series cards (Standard/Extended/Bus/Tech)

KCP (Teaching pendant): including mode selection switch, emergency stop button, enable switch, etc., protection level IP54 (top)/IP23 (bottom), weight 1.4kg

Technical data

Category key parameters

Maximum number of axes for basic parameters: 8 axes; Protection level: IP54; Average sound level: 67 dB (A)

Power supply requirements rated voltage: AC 3x400V-3x415V (tolerance ± 10%); Frequency: 49-61Hz; Rated power: Standard 7.3kVA, Heavy load 13.5kVA

Environmental operating temperature:+5~+45 ℃ (without cooling unit)/+5~+55 ℃ (with cooling unit); Storage temperature: -25~+70 ℃ (without battery); Humidity: 3k3 level (no condensation)

Size and gap installation gap: The minimum gap requirement must be followed (see document diagram for details); Cabinet door opening angle: about 180 ° for independent cabinets and about 155 ° for parallel cabinets

Cable length: Motor cable: standard 7m, optional 15/25/35/50m; KCP cable: standard 10m, expandable up to 60m

Safety regulations

core principle

Only allowed for intended use (such as operating KUKA industrial robots), and misuse of personnel/animal transportation, climbing, and hyperparameter operation is prohibited

Compliance with standards such as the EC Machinery Directive (2006/42/EC) and the EMC Directive (2004/108/EC) is required

Personnel Requirements

Operators need to have advanced knowledge of electrical and electronic systems, robot controllers, and Windows systems. It is recommended to attend KUKA College training

The system integrator is responsible for installation, risk assessment, and compliance declaration; Maintenance needs to be carried out by professionally trained personnel

Key safety functions

Operation modes: T1 (manual low speed ≤ 250mm/s), T2 (manual high speed), AUT (automatic), AUT EXT (external automatic)

Safety devices: local/external emergency stop button, dual circuit enable switch, safety door interlock, software limit switch, mechanical terminal block

Stop category: STOP 0 (immediate stop), STOP 1 (path keeping stop), STOP 2 (normal deceleration stop)

Scene security measures

Transportation: The controller needs to be transported upright to avoid vibration and impact; The manipulator needs to be placed in the designated transportation location according to regulations

Startup: Wiring, safety devices, and temperature adaptation need to be checked. The new program needs to be tested in T1 mode first

Maintenance/Repair: Power off and lock, post warning labels, wait for 5 minutes to discharge after power off (some components have residual voltage of 50-600V)

Operation and maintenance

Startup and Debugging

Core steps: Install controller → Connect cables → Connect KCP → Equipotential connection → Connect power supply → Configure X11 interface → Power on → Check fan direction → Safety equipment testing → Software configuration

Key requirements: Ensure no condensation, correct wiring, and avoid errors caused by cable swapping

routine operations

KCP coupler: supports connection/disconnection during operation, which needs to be operated by pressing the request button. After disconnection, KCP needs to be removed to avoid misuse

Startup method: Supports booting from KUKA USB stick, press F10 to select the startup option

Maintenance cycle and tasks | Maintenance cycle | Task content | | — | | | Maximum 2 years | Clean internal and external fans, heat exchangers, and heat sinks; Check the tightness of the components | | 2 years | Replace the battery | | 5 years | Replace the motherboard battery; 3 shift operation requires replacement of PC fan | | 5 years | replacement of internal and external fans | | replacement of filter element when color changes | replacement of pressure relief plug filter element|

Maintenance and troubleshooting

Common maintenance tasks

Component replacement: Supports the replacement of control PCs, fans, motherboards, memory, hard drives, CI3 boards, RDC/SafeRDC boards, batteries, etc., and must comply with ESD specifications

Software installation: KUKA System Software (KSS) can be reinstalled

fault diagnosis

Tools: DSE-RDW diagnostic tool (monitoring DSE-RDC communication, drive bus), ESC diagnostic tool (monitoring safety circuit)

Common errors: Control PC startup failure, MFC3 initialization failure, bus communication error, KCP no display, etc. Provide error causes and solutions

Error code: Meaning and handling plan of error codes containing KPS600, KSD and other components (e.g. Pr1 Trip is a checksum error for parameter set 1)