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2-14

SM MX100-01E

2.5 Tests of the 10-CH, Medium-Speed Universal

Input Module (MX110-UNV-H10)

Tests

2.5.1 Insulation Resistance Test

2.5.2 Withstanding Voltage Test

2.5.3 Excessive Input Test

2.5.4 ID Check

2.5.5 Measurement Accuracy Test

2.5.6 Between-Channel Error Test

2.5.7 Burnout Test

2.5.8 Reference Junction Compensation Accuracy Test

Instruments Used

Instrument Standards, Recommended Products Etc.

MX100, MW100, or equivalent A device that can connect with and perform communications with

the MX110 10-ch Medium-Speed Universal Input Module (Ex.

MX100 + MX150 or MW100 + MX150)

MX150 Base Plate

Front TR Assembly (When with

the /NC option)

Product number: B8720BE

A device that can receive input independently on each channel

Screw Term Assembly & Cable Product number: B8720BH

Used to confirm the ID setting. If the ID is correct, a device with an

altered connector or the like can be substituted.

‡

A device that can perform communication with the MX100/M\W100

or equivalent instrument

DC voltage generator FLUKE 5520A* or equivalent

Accuracy: 0.005% of setting + 1mV

A device capable of 100 V output or higher

Rheostat ALPHA ADR-1202

†

or equivalent

Accuracy: 0.005% of setting + 2 mΩ

A device with resolution of 1 mΩ or less

DMM Agilent 3458A or equivalent

Voltage: 0.005% of rdg + 1mV

Resistance: 0.01% of rdg + 1 mΩ

Insulation resistance tester DC500 V

Withstanding voltage tester AC 1 kV–4 kV

Temperature tank standardized

at 0°C

Coper Electronics ZC-114 or equivalent

0±0.01°C

* If a DC voltage generator meeting the standards above is not available, you can ensure that

the stated voltage is output by substituting a FLUKE 9100 or equivalent and monitoring the

output voltage using a DMM. Also, due to the output impedance, some voltage generators

cannot output all stated voltages, and at 0 V, there are many cases where the above

standard is not met, so 0 V can be obtained by shorting the terminals. It is recommended to

monitor when set to DOWN.

† Measure the setting value and actual output value, then confirm that the above standards

are met.

0.2 Ω or less cannot be set on the ADR-1202, so 0 Ω can be achieved by shorting the

terminals.

‡ Ensure that the module settings and measured values can be read in.