WESTINGHOUSE 5X00497G01

Description

High reliability is the key performance of electrical control equipment. PLC adopts modern large-scale integrated circuit technology, adopts strict manufacturing process, and adopts advanced anti-interference technology for its internal circuit, which has high reliability. For example, the mean time between failures of F series PLC produced by Mitsubishi Corporation is up to 300000 hours. Some PLCs that use redundant CPUs have longer MTBF. In terms of the external circuit of PLC, PLC is used to constitute the control system. Compared with the relay contactor system of the same scale, the electrical wiring and switch contacts have been reduced to hundreds or even thousands of times, and the failure has also been greatly reduced. In addition, PLC has hardware fault self-diagnosis function, which can send out alarm information in time in case of fault. In the application software, the application can also program the fault self-diagnosis program of peripheral devices, so that the circuit and equipment in the system other than PLC can also obtain fault self-diagnosis protection. In this way, it is not surprising that the whole system has high reliability.

Today, PLC has developed into a series of large, medium and small scale products. It can be used in various industrial control occasions. In addition to the logic processing function, most modern PLCs have perfect data processing ability, which can be used in various digital control fields. In recent years, a large number of functional units of PLC have emerged, making PLC penetrate into various industrial controls such as position control, temperature control, CNC, etc. With the enhancement of PLC communication capability and the development of human-computer interface technology, it is very easy to use PLC to compose various control systems.

Relay Output Module G2R 16 1C31219G01 1C31223G01 or

(Base Unit)

Relay Output Module KUEP (Form C or X) 12 1C31219G01 1C31222G01 or

(Base Unit)

RTD Interface 4 1C31161G01 1C31164G01

RTD Interface (CE Mark certified) (50-60 Hz

filtered)

4 1C31161G02 1C31164G02

RTD Interface 8 5X00119G01 5X00121G01

Seq. of Events (125VDC differential) 16 1C31157G02 1C31110G02

Seq. of Events (125VDC single ended) 16 1C31157G02 1C31110G01

Seq. of Events (24/48VDC differential) 16 1C31157G01 1C31110G02

Seq. of Events (24/48VDC single ended) 16 1C31157G01 1C31110G01

Seq. of Events contact input w/48V wetting 16 1C31157G03 1C31110G03

Seq. of Events (125VDC indiv. fused com rtn)

(Compact)

16 1C31233G03 5X00034G01

Seq. of Events (125VDC differential)

(Compact)

16 1C31233G03 Cavity Insert 2

Seq. of Events (24/48VDC indiv. fused com

rtn)) (Compact)

16 1C31233G02 5X00034G01

Seq. of Events (24/48VDC differential)

(Compact)

16 1C31233G02 Cavity Insert 2

Seq. of Events (24VDC or 48VDC single

ended) (Compact)

16 1C31233G01 Cavity Insert 2

Seq. of Events (24VDC or 48VDC single

ended) (Compact)

16 1C31233G01 Cavity Insert 2

Serial Link Controller RS232 1 1C31166G01 1C31169G01

Serial Link Controller RS485 4 wire 1 1C31166G01 1C31169G02

Servo Driver (19VAC 1KHz to an AC LVDT) 6 1C31199G02 1C31201G02

Servo Driver (19VAC 3KHz to an AC LVDT) 6 1C31199G03 1C31201G02

Servo Driver (16VDC to a DC LVDT) 6 1C31199G01 1C31201G01

Speed Detector Interface 8 1C31189G01 1C31192G01

Valve Positioner (17 Volt 1Khz to an

LVDT 82 Ohm Coil)

8 1C31194G01 1C31197G01

Valve Positioner (17 Volt 1Khz to an

LVDT 250Ohm Coil)

8 1C31194G01 1C31197G02