氢气分析仪 CONTHOS 3

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据显示, 信号输入和输出



LCD 显示 40 x 16 + 图条




2个可设定的独立电隔离输出: RLoad = 600Ω max.

输出值: 0-20 mA, 4-20mA, 4-20mA (依据NAMUR NE43)

和 测试信号值(0mA, 4mA, 10mA, 12mA & 20 mA)



触电输出仪器状态 (28V max.; 350mA max.) :

故障   |   维护需求  |   维护


3 电隔离输入 0 – 20mA    4 – 20mA (Ri = 50Ω)

数字 I/O 2 (optional)

数字输入: 8 数字输入 (6 – 24VDC; 10mA max.)






数字输出: 7数字输出 (浮动触点 28V max.; 350mA max.)

              报警值 (每量程一个报警值)


Analytical-/ Operational Data

Measuring principle

Difference in thermal conductivity (∆λ) of various gases

Measured quantity

Concentration of a particular gas component in binary and quasi-binary mixtures.

In many applications involving multi-component gases the inherent non-selectivity of the thermal conductivity principle can be minimized using interference correction techniques.

Physical interference reduction is sometimes possible with certain applications due to the wide temperature range of the CONTHOS' TC-detector.

Measuring ranges

Up to 3 independently configurable, switchable ranges. The reference response of each range is factory linearized (4th-degree polynomial).

Suppressed output ranges within the corresponding reference range can be easily configured.

Range switching is accomplished manually, automatically and/or externally (via optional digital inputs).

lowest range: 0 - 0.5% H2 in N2   or   99.5-100% H2 in N2    (or equivalent ∆λ) largest range: 0 - 100% H2

Response time τ90

approx. 2 sec. (dependent upon gas flow and analyzer configuration) (integration time configurable)


≤ 0.5% F.S.O. (typically better than ± 0.2%  F.S.O.)


better than ± 0.5%  F.S.O. (typically better than ± 0.3%  F.S.O.)


Manual: 2-point (offset/span) calibration  Option: automatic or semi-automatic calibration in conjunction with the optional digital I/O-board or RS-485

Interference correction

3 correction channels for static and/or dynamic interference correction (dynamic correc tion only in conjunction with the optional analog inputs or RS-485)

One of the prerequisites for dynamic interference correction is the availability of a selective signal, proportional to the particular gas component to be corrected for. The processing of analyzer ranges with a suppressed zero range is not possible.

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