GE FANUC IC660BBA021 DC RTD Input Block

The GE Fanuc IC660BBA021 is a critical component in industrial automation systems, designed for precise temperature measurement through resistance temperature detector (RTD) inputs. Ideal for applications requiring high accuracy and reliability in temperature control.

Description

Operating Voltage:24V DC

Input Type:RTD

Channels:4

Response Time:Less than 2 seconds

Power Consumption:50mA

Operating Temperature:-40°C to +70°C

Storage Temperature:-40°C to +85°C

Reliability Rating:99.99% MTBF

    Introducing the GE FANUC IC660BBA021, a precision-engineered RTD input block that excels in industrial automation environments. Designed with a robust structure and advanced technology, this module ensures accurate and reliable temperature measurements.

    Featuring 6 channels capable of handling diverse RTD sensors, the IC660BBA021 provides exceptional flexibility for various industrial applications. Its 24/48 Volts DC power supply supports seamless integration into existing systems.

    Equipped with 16 discrete source block output circuits, this input block offers efficient data processing and transmission, ensuring smooth operation within complex automation setups. The compact design with dimensions of 152 x 94 x 38 mm facilitates easy installation and space-saving solutions.

    Manufactured from industrial-grade plastic and metal, the IC660BBA021 boasts durability and resistance to harsh environmental conditions, making it suitable for challenging industrial environments. Its lightweight design, weighing just 1.8 kg, simplifies transportation and handling during installation.

    Experience the precision and reliability of GE FANUC’s IC660BBA021 in your industrial automation projects. This cutting-edge RTD input block delivers unparalleled performance, enhancing system accuracy and efficiency.

GE FANUC IC660BBA021 DC RTD Input Block

Reviews

There are no reviews yet.

Be the first to review “GE FANUC IC660BBA021 DC RTD Input Block”

Your email address will not be published. Required fields are marked *