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XC-303-C32-002 191080 EATON ELECTRIC XC303 modular PLC, small PLC, programmable CODESYS 3, SD Slot, USB, 3x ..

Reference: XC-303-C32-002

Code: 191080

Manufacturer: EATON-MOELLER

Description:

XC303 modular PLC, small PLC, programmable CODESYS 3, SD Slot, USB, 3x Ethernet, 2x CAN, RS485, four digital inputs/outputs

XC-303-C32-002

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Categories:
PLC's > PLC CPU-module

Remote I / O Modules XN300

* Brand new product in its original packaging covered by the warranties and certifications provided by EATON-MOELLER

Guarantee, repair and return.

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XC303 modular PLC, small PLC, programmable CODESYS 3, SD Slot, USB, 3x Ethernet, 2x CAN, RS485, four digital inputs/outputs

With the XC-303, Eaton offers a high-performance and flexible control system that makes it possible for machinery and equipment manufacturers to achieve a streamlined and modern automation concept in combination with the compact XN300 I/O system and the innovative XV300 multi-touch panel. Ethernet interfaces for connection to different networks paired with standard CAN and RS485 interfaces expand the functions of the XC-303 into a universal data and communication point for networked equipment. The communicative compact controller is CODESYS 3 programmable , supports WEB visualization in HTML5 format and the OPC-UA server ensures data exchange in machine-to-machine (M2M) communication. Up to 32 modules of the XN300 I/O system allow for connection as local I/O levels. The following interfaces are included in this version: USB, microSD, 3x Ethernet, 2x CAN and RS485 and 4x digital inputs/outputs

General specifications

Product name

Eaton XC Modular PLC

Part no.

XC-303-C32-002

EAN

4015081915668

Product Length/Depth

108 millimetre

Product height

65 millimetre

Product width

85 millimetre

Product weight

0.28 kilogram

Certifications

CE
EN 61131
EAC
UL File No.: E205091
UL listed
cULus Listed

Product Tradename

Product Type

Modular PLC

Product Sub Type

None

Catalog Notes

Protective devices must be installed directly at the inductive load in order to prevent interference.

Features & Functions

Features

Short-circuit protection (digital outputs)

Functions

Redundancy
Additional program memory possible

General information

Connection type

Push-in spring-cage terminal, Connection design in TOP direction

Degree of protection

IP20

Memory capacity

512,000 kByte

Model

Modular

Mounting method

Rail mounting possible

Overvoltage category

Pollution degree

Protocol

MODBUS
TCP/IP
CAN
Other bus systems
EtherNet/IP

Rated operational voltage

24 V
160 V (terminations)

Voltage type

Ambient conditions, mechanical

Height of fall (IEC/EN 60068-2-32) - max

1 m

Mounting position

Vertical (on horizontal top-hat rail)

Shock resistance

15 g, Mechanical, according to IEC/EN 60068-2-27, Half-sinusoidal shock 11 ms, 9 Impacts

Vibration resistance

5 - 8.4 / 8.4 -150 Hz, 3,5 mm / 1 g

Climatic environmental conditions

Air pressure

795 - 1080 hPa (operation)

Ambient operating temperature - min

-20 °C

Ambient operating temperature - max

55 °C

Ambient storage temperature - min

-40 °C

Ambient storage temperature - max

80 °C

Climatic proofing

Dry heat to IEC 60068-2-2
Damp heat, constant, to IEC 60068-2-3

Environmental conditions

Condensation: prevent with appropriate measures

Relative humidity

< 95 % (non-condensing)

Electro magnetic compatibility

Air discharge

8 kV/4 kV, Air/contact discharge, ESD

Burst impulse

1 kV, Signal cable
2 kV, Supply cable

Electromagnetic fields

10 V/m at 0.08 - 1.0 GHz (according to IEC EN 61000-4-3)
1 V/m at 2 - 2.7 GHz (according to IEC EN 61000-4-3)
3 V/m at 1.4 - 2 GHz (according to IEC EN 61000-4-3)

Emitted interference

40 dB (at 30 - 230 MHz, Class A, radiated, high frequency)
47 dB (at 230 - 1000 MHz, Class A, radiated, high frequency)

Radiated RFI

10 V

Surge rating

0.5/0.5 kV, Supply cable, balanced/unbalanced), EMC
1 kV, Signal cable, unbalanced, EMC

Terminal capacities

Terminal capacity (AWG)

24 - 16

Terminal capacity (flexible with ferrule)

0.25 - 1.5 mm², with ferrules without plastic collar according to DIN 46228-1 (ferrules crimped gas-tight)
0.25 - 1.5 mm², with ferrules with plastic collar according to DIN 46228-1 (ferrules crimped gas-tight)

Terminal capacity (flexible)

0.2 - 1.5 mm², H 07V-K

Terminal capacity (solid)

0.2 - 1.5 mm², H07V-U

Stripping length (main cable)

10 mm

Gauge pin

A1 (according to IEC/EN 60947-1)

Insulating material group

Power supply

Heat dissipation

0.05 W (Digital inputs according to EN61131-2 Type 1, per active channel)
0.1 W (Digital outputs, internal, per active channel)

Input voltage

0 - 5 V (Digital inputs, low level)
24 V DC (Digital inputs)
15 - 30 V (Digital inputs, high level)

Supply voltage at AC, 50 Hz - max

0 V AC

Output current

0.5 A

Supply voltage at DC - max

30 V DC

Supply voltage at AC, 50 Hz - min

0 V AC

Supply voltage at DC - min

18 V DC

Voltage dips

Voltage dips: 10 ms/Voltage fluctuations: Yes

Input/Output

Delay time

200 µs, Digital outputs, Delay on signal change and resistive load, from High to Low signal
200 µs, Digital outputs, Delay on signal change and resistive load, from Low to High signal

Digital outputs

Note: Protective devices must be installed directly at the inductive load in order to prevent interference.

Input current

≤ 1.1 mA (Digital inputs, low level)
2 mA (Ie)
≥ 2.3 mA (Digital inputs, high level)

Input delay

300 µs (rising edge)
300 µs (falling edge)

Load current

Max. 6 A per 1.5 mm² (cross-sectional area)

Number of channels

4, Digital Outputs

Number of inputs (analog)

Number of inputs (digital)

Number of outputs (analog)

Number of outputs (digital)

Number of relay outputs

Rated operational current (Ie)

2.8 A (supply input)

Utilization factor

100 % (Ʃ IAmax = 2A)

Safety

Explosion safety category for dust

None

Explosion safety category for gas

None

Potential isolation

Between Digital inputs: no
Between Digital outputs: no

Design verification

Static heat dissipation, non-current-dependent Pvs

8 W

Heat dissipation details

The max. heat dissipation is specified as the maximum power produced inside the device's housing.

10.2.2 Corrosion resistance