B&B Electronics ADAM-6018 - Datasheet User Manual

ADAM-6018 - 0704 - 1/1

International Headquarters:

707 Dayton Road P.O. Box 1040 Ottawa, IL 61350 USA

815-433-5100 Fax 433-5104 www.bb-elec.com [email protected] [email protected]

Westlink Commercial Park Oranmore Co. Galway Ireland

+353 91 792444 Fax +353 91 792445 www.bb-europe.com [email protected] [email protected]

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B&B ELECTRONICS

PRODUCT INFORMATION

Model ADAM-6018

Accurate and Reliable Thermocouple

Measurement for Industrial Automation

8-Channel Thermocouple Input with DO Module

Overview

The ADAM-6018 8-channel thermocouple input module is the most prevailing temperature sensor in today’s industrial
automation market. In addition to 8 T/C input channels, the ADAM-6018 is also equipped with 8 digital output channels
such as auxiliary alarm outputs or pure outputs. It also comes with an external DIN-rail terminal board for wiring
between the ADAM-6018 module and the field sensor. This special wiring mechanism greatly enhances the accuracy
and reliability for thermocouple measurement in environmental and facility monitoring applications.

Features

• I/O type: 8 thermocouple and 8 digital output

• 10/100 Based-T Ethernet

• Supports multi-channel/multi-range

• Provides default/customized web page

• 2,500 VDC optical isolation

• Built-in

watchdog

timer

Specifications

Communication
Ethernet interface:

RJ45

Speeds: 10/100

Mbps

Max. Communication distance:

333 feet (100m), can be extended by using switch hub

Power and communication LED indicator

TCP/IP, UDP, MODBUS/TCP supported

Online module insertion and removal

Channels: 8

differential

Effective Resolution:

16-bit

Input Type:

Thermocouple

Thermocouple Type and Range:
J

0

~

760°C

K

0

~

1370°C

T

-100

~

400°C

E

0

~

1000°C

R

500

~

1750°C

S 500 ~ 1750°C

B 500 ~ 1800°C

Isolation Voltage:

2000VDC

Fault and Overvoltage Protection: Withstands overvoltage up to ± 35 V
Sampling Rate:

10 samples / sec.

Input Impedance:

10KΩ

Bandwidth:

13.1 Hz @ 50 Hz.

15.72 Hz @ 60 Hz

Accuracy:

± 0.1% or better

Zero Drift:

± 6 µV/°C

Span Drift:

± 25 ppm/°C

CMR @ 50/60 Hz:

92 dB min.