HART设备字典

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引用ID	字符串
0	密度气体粘度计
1	型号
2	动作
3	固定
4	实时
5	模式
6	写保护
7	Disabled
8	启用
9	触发模式
10	The type of process change that will initiate the trigger.
11	事件通知控制：
12	初级变量超出限定范围
13	非初级变量超出限定范围
14	初级变量毫安输出饱和
15	初级变量毫安输出固定
16	g/mol
17	µ秒
18	MJ/Kg
19	MJ/Nm3
20	BTU/lb
21	BTU/scf
22	MJ/min
23	MJ/day
24	BTU/min
25	BTU/day
26	长位号
27	日期
28	说明
29	变送器软件
30	.1f
31	硬件
32	序列号
33	通用
34	现场设备
35	A000：未定义
36	A001：EEPROM 错误
37	A002：RAM 错误
38	A003：传感器无响应
39	A004：温度超限
40	A005：速度超限
41	A006：需要特征化
42	A007：预留
43	A008：密度超限
44	A009：变送器初始化/预热
45	A010：校准失败
46	A011：调零校准失败：低
47	A012：调零校准失败：高
48	A013：调零校准失败：不稳定
49	A014：变送器故障
50	A015：预留
51	A016：传感器 RTD 故障
52	A017：传感器 RTD 故障
53	A018：预留
54	A019：预留
55	A020：缺少标定系数
56	A021：变送器/传感器/软件不匹配
57	A022：预留
58	A023：预留
59	A024：预留
60	A025：预留
61	A026：预留
62	A027：安全漏洞
63	A028：预留
64	A029： PIC/子板通讯故障
65	A030：错误的电子板类型
66	A031：电量不足
67	A032：预留
68	A033：传感器信号不足
69	A034：预留
70	A035：预留
71	A036: Viscosity Overrange
72	A037：传感器检查失败
73	A038：周期超限
74	A039：未定义
75	A100：毫安输出 1 饱和
76	A101：毫安输出 1 固定
77	A102：驱动超限
78	A103：预留
79	A104：标定进行中
80	A105: Two-Phase Flow
81	A106：启用阵发模式
82	A107：发生电源复位
83	A108：预留
84	A109：预留
85	A110：预留
86	A111：预留
87	A112：预留
88	A113：毫安输出 2 饱和
89	A114：毫安输出 2 固定
90	A115：无外部输入或轮询数据
91	A116：温度超限 (API)
92	A117：密度超限 (API)
93	A118：离散输出固定
94	A119：预留
95	A120：曲线拟合失败（浓度）
96	A121：外推警报（浓度）
97	A122：压力超限 (API)
98	A123：预留
99	A124：预留
100	A125：预留
101	A126：预留
102	A127：预留
103	A128：预留
104	A129：预留
105	A130：预留
106	A131：预留
107	A132：传感器仿真激活
108	A133： EEPROM 错误（显示屏）
109	A134：管-壳温差超限
110	A135：周期中断激活
111	A136：显示类型不正确
112	A137：传感器检查可疑
113	A138：预留
114	A139：未定义
115	传感器检查进行中
116	SG/RD/MW 标定进行中
117	密度偏差标定进行中
118	粘度比例标定进行中
119	标定检查
120	调零校准正在进行
121	温度斜率校准正在进行
122	温度偏移校准正在进行
123	增强事件 1 激活
124	增强事件 2 激活
125	增强事件 3 激活
126	增强事件 4 激活
127	增强事件 5 激活
128	离散输出 1 激活
129	预留
130	Velocity Switch Active
131	未定义
132	Dynamic Variables Returned for Device Variables
133	Command Response Truncated
134
135
136
137
138	% 范围
139	MAO1
140	初级变量百分比范围
141	初级变量量程上限值
142	初级变量量程下限值
143	4.2f
144	更新速率
145	默认更新速率
146	触发水平
147	The value of the process variable that will initiate the trigger. Applicable only if Trigger Mode = Rising or Falling.
148	阵发变量 0
149	触发时间间隔
150	The amount of time that the meter will wait, after an alert is active, before initiating event notification.
151	重试速率
152	Event notification will continue until acknowledged by a host or until this interval expires, whichever comes first.
153	A105：团状流
154	选项
155	带状态的设备变量
156	读取其他设备状态
157	选择无效。
158	速度开关设定点值超出范围
159	变送器的特殊指令错误（无效 CM 曲线）
160	无效浓度单位代码
161	无效温度单位代码
162	无效密度单位代码
163	参考温度超出范围
164	水参考温度超出范围
165	水参考密度超出范围
166	斜率调整超出范围
167	斜率偏移超出范围
168	推测警报限定超出范围
169	拟合最高阶超出范围
170	线圈或启动寄存器超出范围。
171	值超出范围。
172	温度斜率标定超出范围
173	温度偏差标定超出范围
174	模拟故障水平超出限制。
175	热膨胀系数超出范围
176	备选压力超出范围。
177	启用 API 计算时出错。
178	启用超出范围的浓度测量代码
179	启用密度外推下限时出错。
180	启用密度外推上限时出错。
181	启用温度外推下限时出错。
182	启用温度外推上限时出错。
183	曲线索引无效
184	数据索引无效
185	Invalid Viscosity Range Select Index
186	Invalid Referred Viscosity Calculation Method
187	Invalid Referred Viscosity Maximum Fit Order
188	遗留指数 1 无效。
189	遗留指数 2 无效。
190	无效浓度测量模式代码
191	密度专用基本单位超出范围。
192	动态粘度专用基本单位超出范围。
193	运动粘度专用基本单位超出范围。
194	Invalid Compressibility Method
195	SGERG value Out of Range
196	用户水密度超出范围。
197	用户定义的计算输出基本密度来源无效。
198	高度无效。
199	Invalid Gas Type
200	浓度方程类型无效。
201	应用过程太高。
202	应用过程太低。
203	Enable External Volume Flow Error
204	Enable External Mass Flow Error
205	Density at Reference (API)
206	浓度 (CM)
207	Density at Reference (CM)
208	管-壳温差
209	速度
210	用户定义的计算输出
211	分子量
212	相对密度
213	Specific Gravity (Gas)
214	Base Density (Gas)
215	Net Mass Flow Rate (CM)
216	Net Volume Flow Rate (CM)
217	Specific Gravity (CM)
218	动态粘度
219	运动粘度
220	参考粘度
221	Referred Viscosity (Secondary)
222	可压缩性
223	电流（毫安输出 1）
224	电流（毫安输出 2）
225	Pickoff Amplitude
226	传感器周期 (A)
227	传感器周期
228	质量系数
229	外壳温度
230	特定温度和浓度液体密度
231	浓度
232	浓度 1
233	密度 1
234	浓度 2
235	密度 2
236	浓度 3
237	密度 3
238	浓度 4
239	密度 4
240	浓度 5
241	密度 5
242	参考温度和特定浓度液体密度
243	参考温度
244	参考密度 1
245	参考密度 2
246	参考密度 3
247	参考密度 4
248	参考密度 5
249	浓度 6
250	参考密度 6
251	Subtest
252	检定周期差异
253	检定周期稳定性（测试）
254	流体温度稳定性（测试）
255	外壳温度稳定性（测试）
256	驱动增益（测试）
257	结果
258	Fluids and Samples
259	Fluid 1 and Sample 1
260	Fluid 1 and Sample 2
261	Fluid 2 and Sample 1
262	Fluid 2 and Sample 2
263	Fluid 3 and Sample 1
264	Fluid 3 and Sample 2
265	Fluid 4 and Sample 1
266	Fluid 4 and Sample 2
267	Fluid 5 and Sample 1
268	Fluid 5 and Sample 2
269	Fluid 6 and Sample 1
270	Fluid 6 and Sample 2
271	Fluid 7 and Sample 1
272	Fluid 7 and Sample 2
273	Fluid 8 and Sample 1
274	Fluid 8 and Sample 2
275	粘度
276	Fluid 1
277	Sample 1
278	Sample 2
279	Fluid 2
280	Fluid 3
281	Fluid 4
282	Fluid 5
283	Fluid 6
284	Fluid 7
285	Fluid 8
286	Referred Viscosity at Specified Temperature
287	Limits
288	Calibration Gas Low
289	Calibration Gas Medium
290	Calibration Gas High
291	比重
292	Sensor Time Period (µs)
293	Molecular Weight (g/mol)
294	高级 HART 组态
295	重置矩阵数据
296	Deletes all data in the concentration matrices.
297	External Device Polling
298	锁定/解锁设备
299	API 参考设置
300	输入矩阵数据
301	Define or modify the matrix being configured.
302	毫安输出
303	恢复工厂组态
304	定位设备
305	读取 Modbus 数据
306	写入 Modbus 数据
307	Discrete Output Loop Test
308	外部输入
309	Configure parameters required for pressure, external temperature, and other external variables.
310	特殊单位
311	Configure the parameters required to convert an existing measurement unit to a different unit.
312	启用/禁用应用程序
313	Enable or disable optional applications.
314	标定系数
315	已知密度检定
316	用户定义的计算
317	Create a new process variable from current process data and user-defined constants.
318	密度偏差标定
319	设备复位
320	A005: Velocity Overrange
321	Start Calibration
322	Viscosity Scaling Factor Calibration
323	Gas Meter Calibration
324	Perform gas meter calibration.
325	Base Density
326	Configure the parameters and inputs required for base density measurement.
327	Enable/Disable Compressibility Calculations
328
329	Results
330	Select Device Measurement
331	概述
332	阵发模式
333	阵发信息 1
334	信息内容
335	组态更新速率
336	阵发信息 2
337	阵发信息 3
338	事件通知
339	警报位选择
340	标识
341	修订版本
342	应用
343	MID 信息
344	安全
345	组态
346	CDM 100 格式
347	7835/45 Format
348	Displays the calibration factors in legacy format.
349	Density (Uncompensated) Range 1
350	Density (Uncompensated) Range 2
351	Temperature Compensation
352	Pressure Compensation Range 1
353	Pressure Compensation Range 2
354	Pressure Compensation Range 3
355	Pressure Compensation Range 4
356	Density (Calculated)
357	Density (Uncompensated)
358	Ultra Low Range (0.50 – 10.46 cP)
359	Low Range (10.46 – 108.16 cP)
360	Medium Range (108.16 – 1087.43 cP)
361	High Range (1087.43 – 13345.64 cP)
362	Viscosity Compensation for Density (Low)
363	Viscosity Compensation for Density (High)
364	Velocity of Sound Compensation
365	Calibration Coefficients Set 1
366	Calibration Coefficients Set 2
367	Calibration Coefficients Set 3
368	Calibration Coefficients Set 4
369	Calibration Information
370	Time Period Data Set 1
371	Time Period Data Set 2
372	Time Period Data Set 3
373	Time Period Data Set 4
374	Gas Data Set 1
375	Gas Data Set 2
376	Gas Data Set 3
377	Gas Data Set 4
378	可选设置
379	Mass (Calculated)
380	API 参考
381	浓度测量配置
382	Configure Matrix
383	Reference Conditions
384	特定温度和浓度下
385	参考温度和浓度下
386	温度等温线
387	等温线 1
388	等温线 2
389	等温线 3
390	等温线 4
391	等温线 5
392	等温线 6
393	调整浓度测量过程变量
394	参考密度
395	Calculation Constants
396	Configure External Inputs
397	Gas Measurement
398	Setup Compressibility
399	Energy Content Measurement
400	Volume
401	Gas Composition
402	Energy
403	Gas Calibration
404	Mass
405	显示行为
406	显示菜单
407	过程变量
408	速度开关
409	外部装置轮询
410	外部轮询 1
411	外部轮询 2
412	外部轮询 3
413	外部轮询 4
414	Mapped Variable Units
415	输入/输出故障动作
416	警报严重级别
417	增强事件
418	增强事件 1
419	增强事件 2
420	增强事件 3
421	增强事件 4
422	增强事件 5
423	浓度测量警报
424	维修工具
425	变量
426	Calculated Variables
427	API Variable
428	Ignition Index
429	毫安输出 1 (MAO1)
430	毫安输出 2 (MAO2)
431	标定
432	重置/恢复
433	F：EEPROM 错误
434	F：RAM 错误
435	F：传感器无响应
436	查看诊断变量
437	F：温度超限
438	Alert Diagnostic Variables
439	F: Velocity Overrange
440	F：需要特征化
441	查看标定系数
442	F：密度超限
443	F：变送器初始化/预热
444	F：校准失败
445	F：调零校准失败：低
446	F：调零校准失败：高
447	F：调零校准失败：不稳定
448	F：变送器故障
449	F：传感器 RTD 故障
450	M：传感器 RTD 故障
451	F: Calibration Factors Missing
452	F: Transmitter/Sensor/Software Mismatch
453	F：安全漏洞
454	F：PIC/子板通讯故障
455	F：错误的电子板类型
456	F: Insufficient Pickoff Signal
457	F: Viscosity Overrange
458	F: Sensor Check Failed
459	F: Time Period Overrange
460	A: mA Output 1 Saturated
461	A: mA Output 1 Fixed
462	M：驱动超限
463	A：正在进行校准
464	M: Two-Phase Flow
465	A：启用阵发模式
466	M：发生电源复位
467	A：毫安输出 2 饱和
468	A：毫安输出 2 固定
469	M：无外部输入或轮询数据
470	M: Temperature Overrange (API)
471	M: Density Overrange (API)
472	A：离散输出固定
473	A: Curve Fit Failure (Concentration)
474	M: Extrapolation Alert (Concentration)
475	View Concentration Measurement Configuration
476	M: Pressure Overrange (API)
477	A：传感器仿真激活
478	M: EEPROM Error (Display)
479	M: Tube-Case Temperature Difference Overrange
480	M: Incorrect Display Type
481	A: Enhanced Event 1 Active
482	A: Enhanced Event 2 Active
483	A: Enhanced Event 3 Active
484	A: Enhanced Event 4 Active
485	A: Enhanced Event 5 Active
486	A: Velocity Switch Active
487	M：初级变量毫安输出饱和
488	A：初级变量毫安输出固定
489	User-Defined 1
490	Programmable Constants
491	Calculation Variables
492	Calculation Variable (a)
493	Calculation Variable (b)
494	Calculation Variable (c)
495	Calculation Variable (d)
496	Calculation Variable (e)
497	Calculation Variable (f)
498	User-Defined 2
499	User-Defined 3
500	诊断变量
501	External Variables
502	Setup Calibration Gas Data
503	Matrix Referral
504	Viscosity at Specific Temp
505	ASTM D341 Single
506	Multi-curve ASTM
507	8.2f
508	8d
509	更新周期
510	温度分类
511	温度类型
512	状态
513	温度 LS
514	温度类型状态
515	温度更新周期
516	.2f
517	.3f
518	.4f
519	.5f
520	.6f
521	High Density Cutoff
522	Damping
523	密度分类
524	密度类型
525	密度 LS
526	密度类型状态
527	密度更新周期
528	The referred density value after the density offset has been applied.
529	API 密度分类
530	API 密度类型
531	API 密度 LS
532	API 密度类型状态
533	API 密度更新周期
534	参考条件下的密度 (CM)
535	ED 密度参考分类
536	ED 密度参考类型
537	ED 密度参考 LS
538	ED 密度参考类型状态
539	ED 密度参考更新周期
540	比重 (CM)
541	Specific Gravity (CM) Upper Sensor Limit
542	Specific Gravity (CM) Lower Sensor Limit
543	Specific Gravity (CM) Minimum Span
544	ED 密度 SGU 分类
545	ED 密度 SGU 类型
546	ED 密度 SGU PDQ
547	ED 密度 SGU LS
548	ED 密度 SGU 类型状态
549	ED 密度 SGU 更新周期
550	Mass Flow Rate Unit
551	ED 净质量流量分类
552	ED 净质量流量类型
553	ED 净质量流量 PDQ
554	ED 净质量流量 LS
555	ED 净质量流量类型状态
556	ED 净质量流量更新周期
557	Volume Flow Rate Unit
558	10.4f
559	ED 净体积流量分类
560	ED 净体积流量类型
561	ED 净体积流量 PDQ
562	ED 净体积流量 LS
563	ED 净体积流量类型状态
564	ED 净体积流量更新周期
565	The concentration value after the density offset has been applied.
566	5.4f
567	ED 浓度分类
568	ED 浓度类型
569	ED 浓度 LS
570	ED 浓度类型状态
571	ED 浓度更新周期
572	Drive Gain Unit
573	Drive Gain is the amount of current required to drive the vibrating element, expressed as a percentage of the maximum allowable drive gain.
574	6.2f
575	驱动分类
576	驱动类型
577	驱动 LS
578	驱动类型状态
579	驱动更新周期
580	管壳温度分类
581	管壳温度类型
582	管壳温度 PDQ
583	管壳温度 LS
584	管壳温度类型状态
585	外壳温度更新周期
586	Pickoff Amplitude represents the distance that the vibrating element is traveling from its resting state.
587	8.3f
588	管分类
589	管类型
590	管 PDQ
591	管 LS
592	管类型状态
593	管更新周期
594	Board Temperature is the temperature of the device's electronic board stack.
595	电子板温度分类
596	电子板温度类型
597	电子板温度 PDQ
598	电子板温度 LS
599	电子板温度类型状态
600	板温度更新周期
601	Input Voltage is the current power input.
602	输入电压分类
603	输入电压类型
604	输入电压 PDQ
605	输入电压 LS
606	输入电压类型状态
607	输入电压更新周期
608	Pressure (Absolute) Unit
609	Pressure (Gauge) Unit
610	External Pressure (Absolute)
611	External Pressure (Gauge)
612	Current pressure value from an external device.
613	压力分类
614	压力类型
615	压力 PDQ
616	压力 LS
617	压力类型状态
618	压力更新周期
619	Current temperature value from an external device.
620	外部温度分类
621	外部温度类型
622	外部温度 PDQ
623	外部温度 LS
624	外部温度类型状态
625	外部温度更新周期
626	User-Defined Calculation Output Unit
627	The result of the user-defined calculation.
628	用户定义的计算输出传感器上限
629	用户定义的计算输出传感器下限
630	用户定义的计算输出最小量程
631	用户定义的计算输出分类
632	用户定义的计算输出类型
633	用户定义的计算输出 PDQ
634	用户定义的计算输出 LS
635	用户定义的计算输出类型状态
636	用户定义的计算输出更新周期
637	Sensor Time Period Unit
638	传感器周期 (A) 分类
639	传感器周期 (A) 类型
640	传感器周期 (A) PDQ
641	传感器周期 (A) LS
642	传感器周期 (A) 类型状态
643	传感器周期更新周期
644	The difference between the temperature of the sensor case and the temperature of the sensor tubes.
645	管-壳温差分类
646	管-壳温差类型
647	管-壳温差 LS
648	管-壳温差类型状态
649	管-壳温差更新周期
650	动态粘度单位
651	动态粘度传感器上限
652	动态粘度传感器下限
653	动态粘度最小量程
654	动态粘度分类
655	动态粘度类型
656	动态粘度 LS
657	动态粘度类型状态
658	动态粘度更新周期
659	运动粘度单位
660	运动粘度传感器上限
661	运动粘度传感器下限
662	运动粘度最小量程
663	运动粘度分类
664	运动粘度类型
665	运动粘度 LS
666	运动粘度类型状态
667	运动粘度更新周期
668	Referred Viscosity Unit
669	参考粘度传感器上限
670	参考粘度传感器下限
671	参考粘度最小量程
672	参考粘度分类
673	参考粘度类型
674	参考粘度 PDQ
675	参考粘度 LS
676	参考粘度类型状态
677	参考粘度更新周期
678	二级参考粘度传感器上限
679	二级参考粘度传感器下限
680	二级参考粘度最小量程
681	二级参考粘度分类
682	二级参考粘度类型
683	二级参考粘度 PDQ
684	二级参考粘度 LS
685	二级参考粘度类型状态
686	二级参考粘度更新周期
687	Calculated Carbon Aromaticity Index
688	CCAI 传感器上限
689	CCAI 传感器下限
690	CCAI 最小量程
691	CCAI 分类
692	CCAI 类型
693	CCAI PDQ
694	CCAI LS
695	CCAI 类型状态
696	CCAI 更新周期
697	Calculated Ignition Index
698	CII 传感器上限
699	CII 传感器下限
700	CII 最小量程
701	CII 分类
702	CII 类型
703	CII PDQ
704	CII LS
705	CII 类型状态
706	CII 更新周期
707	质量系数传感器上限
708	质量系数传感器下限
709	质量系数最小量程
710	质量系数分类
711	质量系数类型
712	质量系数 PDQ
713	质量系数 LS
714	质量系数类型状态
715	质量系数更新周期
716	气体比重传感器上限
717	气体比重传感器下限
718	气体比重最小量程
719	气体比重
720	气体比重分类
721	气体比重类型
722	气体比重 LS
723	气体比重类型状态
724	气体比重更新周期
725	Relative Density Upper Sensor Limit
726	Relative Density Minimum Span
727	相对密度分类
728	相对密度类型
729	相对密度 LS
730	相对密度类型状态
731	相对密度更新周期
732	分子量单位
733	分子量传感器上限
734	分子量传感器下限
735	分子量最小量程
736	分子量分类
737	分子量类型
738	分子量 LS
739	分子量类型状态
740	分子量更新周期
741	可压缩性分类
742	可压缩性类型
743	可压缩性 PDQ
744	可压缩性 LS
745	可压缩性类型状态
746	可压缩性更新周期
747	沃布指数
748	The ratio of the calorific value of a gas to its specific gravity. Typically measured in BTU/SCF or MJ/SCM.
749	沃布指数传感器上限
750	沃布指数传感器下限
751	沃布指数最小量程
752	沃布指数分类
753	沃布指数类型
754	沃布指数 PDQ
755	沃布指数 LS
756	沃布指数类型状态
757	沃布指数更新周期
758	热值单位
759	热值
760	The amount of heat released during the combustion of a specified amount of gas. Measured in units of energy per units of the gas.
761	热值传感器上限
762	热值传感器下限
763	热值最小量程
764	热值分类
765	热值类型
766	热值 PDQ
767	热值 LS
768	热值类型状态
769	热值更新周期
770	CO2 百分比单位
771	CO2 百分比
772	CO2 百分比传感器上限
773	CO2 百分比传感器下限
774	CO2 百分比最小量程
775	CO2 百分比分类
776	CO2 百分比类型
777	CO2 百分比 PDQ
778	CO2 百分比 LS
779	CO2 百分比类型状态
780	CO2 百分比更新周期
781	External Volume Flow Rate
782	Current volume flow rate from an external device.
783	来自电磁仪表的体积
784	体积流量分类
785	体积流量类型
786	体积流量 LS
787	体积流量类型状态
788	体积流量更新周期
789	气体基本密度
790	气体基本密度分类
791	气体基本密度类型
792	气体基本密度 PDQ
793	气体基本密度 LS
794	气体基本密度类型状态
795	气体基本密度更新周期
796	Mass Flow Rate (Calculated)
797	Current mass flow rate as calculated from external volume flow rate.
798	质量流量分类
799	质量流量类型
800	质量流量 LS
801	质量流量类型状态
802	质量流量更新周期
803	N2 百分比单位
804	N2 百分比
805	N2 百分比传感器上限
806	N2 百分比传感器下限
807	N2 百分比最小量程
808	N2 百分比分类
809	N2 百分比类型
810	N2 百分比 PDQ
811	N2 百分比 LS
812	N2 百分比类型状态
813	N2 百分比更新周期
814	H2 百分比单位
815	H2 百分比
816	H2 百分比传感器上限
817	H2 百分比传感器下限
818	H2 百分比最小量程
819	H2 百分比分类
820	H2 百分比类型
821	H2 百分比 PDQ
822	H2 百分比 LS
823	H2 百分比类型状态
824	H2 百分比更新周期
825	CO 百分比单位
826	CO 百分比
827	CO 百分比传感器上限
828	CO 百分比传感器下限
829	CO 百分比最小量程
830	CO 百分比分类
831	CO 百分比类型
832	CO 百分比 PDQ
833	CO 百分比 LS
834	CO 百分比类型状态
835	CO 百分比更新周期
836	参考温度时的体积流量分类
837	参考温度时的体积流量类型
838	参考温度时的体积流量 PDQ
839	参考温度时的体积流量 LS
840	参考温度时的体积流量类型状态
841	参考温度时的体积流量更新周期
842	External Mass Flow Rate
843	Current mass flow rate from an external device.
844	Energy Flow Rate Unit
845	MJ/hr
846	BTU/hr
847	能量流量
848	The energy of the process gas flowing through the meter per unit of time. Measured in units of energy per units of time.
849	能量流量传感器上限
850	能量流量传感器下限
851	能量流量最小量程
852	能量流量分类
853	能量流量类型
854	能量流量 PDQ
855	能量流量 LS
856	能量流量类型状态
857	能量流量更新周期
858	速度单位
859	The velocity value below which the transmitter will report zero velocity.
860	速度临界值
861	速度传感器上限
862	速度阻尼
863	Viscosity Damping
864	速度传感器下限
865	速度最小量程
866	速度分类
867	速度类型
868	速度 LS
869	速度类型状态
870	速度更新周期
871	The time required for the vibrating element to complete one vibration cycle.
872	Sensor Time Period Upper Sensor Limit
873	Sensor Time Period Lower Sensor Limit
874	Sensor Time Period Minimum Span
875	传感器周期分类
876	传感器周期类型
877	传感器周期 PDQ
878	传感器周期 LS
879	传感器周期类型状态
880	参考条件下的密度 (API)
881	Volume from Mag/Vortex Meter
882	Calculated Mass Flow from Mag Meter Input
883	Volume Flow at Reference Temperature
884	Mass from Coriolis Meter
885	二级变量百分比范围
886	二级变量量程上限值
887	二级变量量程下限值
888	MAO2
889	仪表法兰
890	ANSI 300
891	ANSI 600
892	PN40
893	ANSI 900
894	PN100
895	ANSI 150
896	卫生夹接头
897	PN16
898	ANSI 1500
899	锥形座压接
900	未知
901	接液材料
902	Hastelloy C
903	钛
904	316L SST
905	The Product Code of the device as ordered from the factory.
906	产品代码
907	1d
908	Controls the effect of forward and reverse flow on transmitter outputs and digital communications. See the transmitter configuration manual for more information.
909	流向
910	前向
911	反向
912	双向
913	两相流上限
914	两相流下限
915	板类型
916	气体密度计
917	音叉密度计/粘度计
918	管式密度计
919	两相流超时
920	5.2f
921	Velocity Switch Setpoint
922	滞后 (0.001-0.1)
923	4.3f
924	变量代码 22
925	变量代码 23
926	变量代码 24
927	变量代码 25
928	变量代码 26
929	变量代码 27
930	变量代码 28
931	变量代码 29
932	变量代码 30
933	变量代码 31
934	变量代码 32
935	变量代码 33
936	变量代码 34
937	变量代码 35
938	变量代码 36
939	变量代码 37
940	变量代码 38
941	数值所要显示的小数点位数.
942	Sensor Time Period (A)
943	正在配置的矩阵
944	Select the matrix to be configured or modified.
945	曲线 1
946	曲线 2
947	曲线 3
948	曲线 4
949	曲线 5
950	曲线 6
951	参考温度
952	水参考温度
953	温度单位
954	水参考密度
955	密度单位
956	斜率
957	偏移
958	限定范围
959	曲线拟合最高阶
960	浓度单位
961	浓度单位串
962	矩阵名称
963	曲线拟合结果
964	准确性
965	Concentration Equation Type
966	The multiplier (meter factor) to be used to adjust the concentration process variable.
967	The value to be added to the concentration process variable.
968	2
969	3
970	4
971	5
972	The label to be used for the concentration measurement unit.
973	Label
974	A user-defined label to be used for the concentration measurement unit.
975	Displays the name of the matrix.
976	不良
977	空
978	0
979	1
980	5d
981	Source
982	速度比率开关
983	标定进行中
984	极性
985	The state to which the discrete output will be set if the transmitter detects a fault with Alert Severity = Fault. If None is selected, the behavior of the discrete output will be controlled by Discrete Output Source.
986	斜率
987	偏移
988	3d
989	当前零值
990	故障动作
991	高刻度端 (21.0-21.5 mA)
992	低刻度端 (3.2-3.6 mA)
993	故障动作
994	故障动作
995	This parameter allows you to select the lower or upper mA output level that will indicate a fault condition. The range is 3.2 to 3.6 mA for downscale or 21.0 to 21.5 for upscale.
996	故障等级
997	故障等级
998	2d
999	轮询控制 1
1000	初级轮询主机
1001	二级轮询主机
1002	轮询控制 3
1003	轮询控制 4
1004	轮询变量 1
1005	来自科里奥利仪表的质量流量
1006	轮询变量 2
1007	轮询变量 3
1008	轮询变量 4
1009	外部设备位号 3
1010	外部设备位号 4
1011	Pressure (Absolute) Input
1012	Pressure (Gauge) Input
1013	禁用
1014	启用
1015	Fixed or Polled Pressure (Absolute)
1016	Fixed or Polled Pressure (Gauge)
1017	RTD 线缆电阻
1018	Meter RTD Resistance
1019	管线 RTD 电阻
1020	供电时间
1021	Power On Time is the number of seconds since the last power cycle.
1022	表 23E
1023	表 24E
1024	/degC
1025	4.1f
1026	已禁用
1027	已启用
1028	The pressure to which referred density data will be corrected.
1029	Reference Pressure (Gauge)
1030	API K0
1031	API K1
1032	外部温度
1033	Fixed or Polled Temperature
1034	Enabled: Process measurement will be adjusted for the effect of temperature on the vibrating element. Disabled: Process measurement will not be adjusted for the effect of temperature.
1035	外部温度模数
1036	External Temperature for Viscosity
1037	Enabled: The external (polled) temperature value will be used in gas measurement. Disabled: The onboard (RTD) temperature data will be used in gas measurement.
1038	External Temperature for Gas
1039	菜单密码
1040	密码（4 位数字）
1041	4d
1042	变量 1
1043	变量 2
1044	变量 3
1045	变量 4
1046	变量 5
1047	变量 6
1048	变量 7
1049	变量 8
1050	变量 9
1051	变量 10
1052	变量 11
1053	变量 12
1054	变量 13
1055	变量 14
1056	变量 15
1057	刷新率 (100 - 10,000)
1058	英语
1059	德语
1060	法语
1061	西班牙语
1062	Modbus ASCII 支持
1063	MID
1064	工程师到订单编号
1065	变送器固件校验和
1066	The result of the integrity check calculated for the meter.
1067	MID 软件版本
1068	The version of the software component that implements MID security.
1069	活动矩阵
1070	浓度测量
1071	Displays the status of the concentration measurement application.
1072	温度高
1073	Enable or disable the extrapolation alerts as desired. Note: If you are using matrix switching, you must enable the extrapolation alerts that will trigger matrix switching.
1074	密度低
1075	密度高
1076	温度低
1077	变量
1078	事件类型
1079	密度 6
1080	温度等温线 1
1081	温度等温线 2
1082	温度等温线 3
1083	温度等温线 4
1084	温度等温线 5
1085	温度等温线 6
1086	得出的变量
1087	Density at Reference
1088	Specific Gravity
1089	Mass Concentration(Dens)
1090	Mass Concentration(SG)
1091	Volume Concentration(Dens)
1092	Volume Concentration(SG)
1093	Concentration(Dens)
1094	Concentration(SG)
1095	速度上限
1096	速度下限
1097	The calibration factors calculated for this meter, in an updated format.
1098	A1
1099	A2
1100	A3
1101	A4
1102	A5
1103	A6
1104	A7
1105	A8
1106	A9
1107	The adjustment to be applied to the pressure value. This value is added to the external pressure value.
1108	Pressure (Absolute) Offset
1109	Pressure (Gauge) Offset
1110	The adjustment to be applied to the density process variable. This value is added to the measured density.
1111	密度偏差
1112	The adjustment to be applied to the density process variable. The measured density is multiplied by this value.
1113	仪表系数
1114	VOS 校正
1115	The unit from which the special unit will be calculated.
1116	基础单位
1117	The value by which the base unit will be divided, to report data in the special unit.
1118	转换系数
1119	The name to be used for the special unit.
1120	标签
1121	Enabled: The meter will calculate and report process variables based on the values specified here. Disabled: The meter will calculate and report process variables based on live data.
1122	When Sensor Simulation is enabled, Velocity will be fixed at this value.
1123	The amount of time required for one vibration cycle.
1124	The temperature of the process gas or fluid.
1125	A
1126	The value to be used for this constant in the equation.
1127	B
1128	X
1129	C
1130	Y
1131	E
1132	F
1133	常量
1134	The constant value to be used for this variable in the equation.
1135	User-Defined Calculation Output Type
1136	基本密度来源
1137	计算得出的基本密度
1138	用户基本密度
1139	The process variable to be used for this variable in the equation.
1140	t
1141	a
1142	b
1143	c
1144	d
1145	e
1146	f
1147	ρw (density of water)
1148	Density of water at reference temperature and reference pressure.
1149	The label to be used for the result of the user-defined calculation.
1150	Calculation Output Label
1151	实验室密度
1152	The density of your process fluid at line temperature, as measured in a laboratory or by a very accurate device.
1153	开始密度偏差标定
1154	用户传感器检查
1155	基本密度传感器检查
1156	Time Period (Vacuum) at 20 degC
1157	Time Period (Air) at 20 degC
1158	健康检查结果
1159	可疑
1160	未运行
1161	进行中
1162	No Factory Calibration
1163	传感器周期 (A) 平均值
1164	传感器周期 (A) 稳定性
1165	温度检查平均值
1166	温度检查稳定性
1167	传感器检查平均值
1168	质量平均值
1169	温差平均值
1170	温差稳定性
1171	仪表海拔
1172	The altitude or elevation of this meter. 0 = sea level.
1173	0 英尺
1174	1000 英尺
1175	2000 英尺
1176	3000 英尺
1177	4000 英尺
1178	5000 英尺
1179	6000 英尺及更高
1180	500 米
1181	1000 米
1182	2000 米及更高
1183	健康检查失败
1184	传感器周期平均值错误
1185	传感器周期最大偏差错误
1186	温度最大偏差错误
1187	DG 平均值错误
1188	外壳温度最大偏差错误
1189	开始传感器检查
1190	Measurement Type
1191	音叉类型
1192	Viscomaster
1193	Viscomaster Dynamic
1194	Aquametro Basic
1195	接口类型
1196	TPS
1197	模拟
1198	远程访问
1199	尖头型
1200	短
1201	长
1202	CM SG
1203	CM Baume
1204	CM Twaddle
1205	CM Plato
1206	CM Brix
1207	Matrix Switching
1208	通道 A
1209	毫安输出 1
1210	通道 B
1211	毫安输出 2
1212	密度遗留指数 1
1213	设置 1
1214	设置 2
1215	K0
1216	K1
1217	K2
1218	The calibration factors calculated for this meter, in legacy format.
1219	密度遗留指数 2
1220	设置 3
1221	设置 4
1222	K20A
1223	K20B
1224	K21A
1225	K21B
1226	K18
1227	K19
1228	K22
1229	K23
1230	驱动增益平均值
1231	驱动增益稳定性
1232	外壳温度平均值
1233	外壳温度稳定性
1234	选择要进行组态的选项：
1235	完成退出
1236	Select ‘Yes’ to save the burst configuration settings.
1237	保存组态：
1238	Version of the current Device Description.
1239	A020：未输入标定系数
1240	A021：传感器类型未被认出/未输入
1241	A029：内部通讯故障
1242	A030：硬件/软件不兼容
1243	A033：管道/音叉不振动
1244	A038：周期超出范围
1245	A100：MAO1 饱和
1246	A114：毫安输出 2 固定
1247	A122： API：压力超出标准范围
1248	A133： UI EEPROM 错误
1249	A134：外壳-仪表温差超出限制
1250	A136：显示类型不正确
1251	PASS
1252	FAIL
1253	KDV Calibration Index
1254	传感器周期稳定性
1255	Sensor Time Period obtained during factory test.
1256	用户平均周期
1257	A113: Secondary mAO Saturated
1258	A114: Secondary mAO Fixed
1259	A118: Discrete Output Fixed
1260	A036：速度超出限制
1261	KV Index
1262	KV4
1263	KV5
1264	KV6
1265	Density calibration factors.
1266	K0
1267	K1
1268	K2
1269	Temperature calibration factors.
1270	K18
1271	K19
1272	Velocity of Sound of Calibration Fluid
1273	Velocity of Sound of Measured Fluid
1274	Gas K19 Index
1275	Density calibration factors, used to establish the relationship between density and sensor response.
1276	6.6f
1277	Temperature compensation factors, used to adjust measurement for the effects of temperature on the device.
1278	Velocity of sound compensation factors, used to adjust measurement for the effects of pressure waves in the process gas.
1279	K3
1280	K4
1281	The molecular weight of air. The default value (28.96469 g/mol) is appropriate for most applications.
1282	Molecular Weight of Air
1283	Calibration Gas Constant
1284	Measurement Gas Constant
1285	Calibration Temperature Constant
1286	Measurement Temperature Constant
1287	Viscosity Value Range
1288	Ultra Low (0.50 – 10.46 cP)
1289	Low (10.46 – 108.16 cP)
1290	Medium (108.16 – 1087.43 cP)
1291	High (1087.43 – 13345.64 cP)
1292	V0
1293	V1
1294	V2
1295	Range Scale at selected range
1296	Viscosity range switch setpoint index
1297	Ultra Low to Low
1298	Low to Medium
1299	Medium to High
1300	Dynamic Viscosity Scaling Factor
1301	Viscosity Hysteresis
1302	Compression Filter parameter
1303	Viscosity Offset
1304	The density of the process gas at base temperature and base pressure.
1305	Density ASTM Coeff A
1306	Density ASTM Coeff B
1307	Start Viscosity Scaling Factor Calibration
1308	cP
1309	Laboratory Dynamic Viscosity
1310	Referred Viscosity Calculation Method
1311	Referred Viscosity Maximum Fit Order for 6x6 matrix
1312	Referred Temperature 1
1313	Referred Temperature 2
1314	Fit Accuracy
1315	Fit Result
1316	Good
1317	Failed
1318	Matrix Data Unit
1319	Number of ASTM Reference Curves
1320	Compressibility Method
1321	The measurement standard to be used to measure compressibility.
1322	SGERG88
1323	AGA NX19
1324	AGA NX19 MOD
1325	AGA NX19 MOD3H
1326	Base Pressure (Absolute)
1327	Base Pressure (Gauge)
1328	The compressibility of the process gas at base temperature and base pressure.
1329	Base Compressibility
1330	The temperature to which density data will be corrected (the reference temperature).
1331	Base Temperature
1332	The density of air at base temperature and base pressure.
1333	Base Density of Air
1334	The percentage of carbon dioxide in the process gas.
1335	The percentage of nitrogen in the process gas.
1336	The percentage of hydrogen in the process gas.
1337	The percentage of carbon monooxide in the process gas.
1338	SGERG Method
1339	SGERG_ALL
1340	SGERG_NOT_N2
1341	SGERG_NOT_CO2
1342	SGERG_NOT_CV
1343	SGERG_NOT_RD
1344	Calibration Number
1345	Low Range Time Period Gas K0
1346	Mid Range Time Period Gas K1
1347	High Range Time Period Gas K2
1348	Low Range SG Gas K0
1349	Mid Range SG Gas K1
1350	High Range SG Gas K2
1351	Gas
1352	The sensor time period used to calculate the K0 calibration point.
1353	Sensor Time Period (Low)
1354	The sensor time period used to calculate the K1 calibration point.
1355	Sensor Time Period (Medium)
1356	The sensor time period used to calculate the K2 calibration point.
1357	Sensor Time Period (High)
1358	The specific gravity used to calculate the K0 calibration point.
1359	The relative density used to calculate the K0 calibration point.
1360	The molecular weight used to calculate the K0 calibration point.
1361	Specific Gravity (Low)
1362	Relative Density (Low)
1363	Molecular Weight Low (g/mol)
1364	5.6f
1365	The specific gravity used to calculate the K1 calibration point.
1366	The relative density used to calculate the K1 calibration point.
1367	The molecular weight used to calculate the K1 calibration point.
1368	Specific Gravity (Medium)
1369	Relative Density (Medium)
1370	Molecular Weight Medium (g/mol)
1371	The specific gravity used to calculate the K2 calibration point.
1372	The relative density used to calculate the K2 calibration point.
1373	The molecular weight used to calculate the K2 calibration point.
1374	Specific Gravity (High)
1375	Relative Density (High)
1376	Molecular Weight High (g/mol)
1377	The name of the gas to be used to determine the K0 calibration point.
1378	Hydrogen
1379	Helium
1380	CO2
1381	Nitrogen
1382	CO
1383	Oxygen
1384	Argon
1385	Air
1386	Hydrogen Sulphide
1387	Methane
1388	Ethane
1389	Propane
1390	Butane
1391	Custom Gas 1
1392	Custom Gas 2
1393	Custom Gas 3
1394	Custom Gas 4
1395	Other
1396	The name of the gas to be used to determine the K1 calibration point.
1397	The name of the gas to be used to determine the K2 calibration point.
1398	Start/Abort Gas Calibration
1399	Abort
1400	Start
1401	Save Gas Calibration 1
1402	Save Gas Calibration 2
1403	Save Gas Calibration 3
1404	Start Gas Calibration
1405	Active Calibration
1406	The calibration factors to be used for measurement.
1407	Calibration Format
1408	Displays whether this calibration is based on two calibration gases or three calibration gases.
1409	2-Point Calibration
1410	3-Point Calibration
1411	Indicates whether or not the data for this calibration is acceptable.
1412	Calibration Point
1413	A measure of the variability of the Sensor Time Period value, used to indicate the stage or the quality of the calibration process.
1414	ns
1415	Stability
1416	Volume Flow Source
1417	Enabled: Volume flow data will be obtained from an external device. Requires polling setup. Disabled: No volume flow data will be obtained.
1418	The current volume flow rate from the external device.
1419	External Flow
1420	Mass Flow Source
1421	Enabled: Mass flow data will be obtained from an external device. Requires polling setup. Disabled: No mass flow data will be obtained.
1422	The current mass flow rate from the external device.
1423	Referred Viscosity Curve Isotherm Index
1424	Referred Viscosity Temperature Isotherm Value
1425	Referred Viscosity ISO at temperature 0
1426	Referred Viscosity ISO at temperature 1
1427	Referred Viscosity ISO at temperature 2
1428	Referred Viscosity ISO at temperature 3
1429	Referred Viscosity ISO at temperature 4
1430	Referred Viscosity ISO at temperature 5
1431	Centistokes
1432	Viscosity 1
1433	Viscosity 2
1434	Viscosity 3
1435	Viscosity 4
1436	Viscosity 5
1437	Viscosity 6
1438	Referred Viscosity ASTM Curve Index
1439	Temperature 1
1440	Temperature 2
1441	The compressibility of the process gas. Typically measured using a gas chromatograph.
1442	Line Compressibility
1443	Tag, model code, revision, security, and related data.
1444	修订号
1445	Current values of process variables and outputs.
1446	NOTE: If pressure is assigned, the value will be reported as gauge pressure.
1447	NOTE: If pressure is assigned, the value will be reported as absolute pressure.
1448	初级变量
1449	二级变量
1450	External Variable
1451	Trend charts for common process and diagnostic variables.
1452	Displays a trend chart for net mass flow rate (CM).
1453	Displays a trend chart for net volume flow rate (CM).
1454	Displays a trend chart for specific gravity (CM).
1455	Displays a trend chart for density.
1456	Displays a trend chart for temperature.
1457	Displays a trend chart for velocity.
1458	Displays a trend chart for concentration (CM).
1459	Displays a trend chart for density at reference (CM).
1460	Displays a trend chart for density at reference (API).
1461	Displays a trend chart for specific gravity (Gas).
1462	Displays a trend chart for molecular weight.
1463	Displays a trend chart for relative density.
1464	Displays a trend chart for base density (Gas).
1465	Displays a trend chart for dynamic viscosity.
1466	Displays a trend chart for kinematic viscosity.
1467	Displays a trend chart for referred viscosity.
1468	Displays a trend chart for referred viscosity (Secondary).
1469	Displays a trend chart for sensor time period (A).
1470	Displays a trend chart for sensor time period.
1471	Displays a trend chart for case temperature.
1472	Displays a trend chart for tube-case temp difference.
1473	Displays a trend chart for input voltage.
1474	Displays a trend chart for board temperature.
1475	Displays a trend chart for left pickoff amplitude.
1476	Displays a trend chart for right pickoff amplitude.
1477	Displays a trend chart for pickoff amplitude.
1478	Displays a trend chart for drive gain.
1479	Displays a trend chart for quality factor.
1480	初始设置
1481	组态标定系数。
1482	Configure channels, outputs and mapped variables.
1483	执行已知密度检定。
1484	Configure outputs and mapped variables.
1485	Perform Gas Meter Calibration.
1486	View calibration data.
1487	Configure the parameters required to measure the energy content of the gas.
1488	Note: Gas Composition values can be read in from an external device if External Polling has been configured.
1489	Configure the parameters required for external pressure, temperature, gas composition, and other process variables.
1490	The meter supports a maximum of four polling connections.
1491	Configure the parameters required for fundamental gas measurement.
1492	Configure the parameters required to measure gas compressibility.
1493	Calculation Methods
1494	Note: The SGERG-88 and AGA NX19 MOD3H compressibility methods require Calorific Value. You must set up energy content measurement for these methods.
1495	Note: Gas Composition values can be read in from an external device if External Polling has been configured. Percent H2 value can be entered only if Compressibility Method is set to SGERG-88.
1496	选择要显示在显示屏上的过程变量。
1497	指定每个过程变量的显示精度。
1498	View the output channel types.
1499	组态毫安输出 1 和毫安输出 2（如果可用）。
1500	组态轮询以获取外部过程数据。
1501	将变量映射到“初级变量 (PV)”、“二级变量 (SV)”、“三级变量 (TV)”和“四级变量 (QV)”。
1502	设置通道 B 的通道类型。
1503	组态离散输出。
1504	View the channel types.
1505	仪表信息
1506	组态阵发信息和事件通知。
1507	组态 HART 通讯。
1508	组态阵发变量
1509	Configure the contents of Burst Message 1.
1510	设备变量
1511	PV、SV、TV、QV
1512	装置锁定时，只有当前连接的 HART 主机可组态或标定装置。装置未锁定时，所有 HART 主机均可组态或标定装置。其他连接类型不受影响。
1513	数字通讯
1514	输入警报代码并将警报的严重级别更改为 Fault（故障）、Information（通知）或 Ignore（忽略）。
1515	输入警报代码并查看警报的当前严重级别。
1516	外推类型
1517	同时确认所有警报。
1518	变送器检测到与传感器的通讯问题。
1519	推荐措施： 1. 关闭并重新打开仪表电源。 2. 联系高准公司。
1520	变送器未从传感器接收一个或多个基本电信号。
1521	推荐措施： 1. 检查驱动增益和传感器电压。 2. 检查有无短路。 3.检查传感器管的完整性。
1522	RTD 电阻超出传感器的范围。
1523	推荐措施： 1. 检查有无短路。 2. 验证温度特征或标定参数。 3. 对照装置报告的值检查过程条件。 4. 联系高准公司。
1524	测得的速度超过传感器的最大速度限制。
1525	推荐措施： 1. 如果存在其他警报，首先解决这些警报条件。如果当前警报持续存在，请继续执行推荐措施。 2. 对照装置报告的值检查过程条件。 3. 检查两相流。
1526	未输入标定系数，或传感器类型错误，或标定系数不适用于该传感器类型。
1527	推荐措施： 1. 验证所有特征或标定参数。参考传感器位号或仪表的标定数据表。 2. 检查有无短路。 3. 联系高准公司。
1528	管道密度超过 10 g/cm3。
1529	推荐措施： 1. 如果存在其他警报，首先解决这些警报条件。如果当前警报持续存在，请继续执行推荐措施。 2. 检查流量管中是否存在有空气、未充液、有异物、有涂层或其他过程问题。 3. 检查两相流。 4. 如果伴有警报 A003，检查有无短路。 5. 验证所有特征或标定参数。参考传感器位号或仪表的标定数据表。 6. 检查驱动增益和传感器电压。 7. 联系高准公司。
1530	变送器处于通电模式。
1531	推荐措施： 1. 等待仪表完成其通电过程。警报应当自动清除。 2. 验证并确保管中充满过程流体。 3. 验证并确保变送器获得充足的电能。 4. 如果未获得，纠正问题，关闭并重新打开仪表电源。 5. 如果已获得，则表示变送器存在内部电源问题。更换变送器。
1532	可能的原因有多种，例如标定过程中流经传感器的流体过多，或者调零结果超出范围。此警报直到关闭并重新打开仪表电源后才会清除。
1533	推荐措施： 1. 如果此警报在调零过程中出现（仅限于 CDM 仪表），验证并确保没有流体流过传感器，关闭并重新打开仪表电源，然后重新执行该程序。
1534	可能的原因有多种，例如标定过程中流经传感器的流体过多（特别是反向流），或者调零结果过低。此警报伴有 A010。此警报直到关闭并重新打开仪表电源后才会清除。
1535	推荐措施： 1. 验证没有流体流过传感器，关闭并重新打开仪表电源，然后重新执行该程序。
1536	可能的原因有多种，例如标定过程中流经传感器的流体过多（特别是正向流），或者调零结果过高。此警报伴有 A010。此警报直到关闭并重新打开仪表电源后才会清除。
1537	标定期间过程太不稳定。此警报直到关闭并重新打开仪表电源后才会清除。
1538	推荐措施： 1. 清除或减少机电噪声源（例如，泵、振动、管道应力），关闭并重新打开仪表电源，然后重新执行该程序。
1539	推荐措施： 1. 确保所有接线盒盖都安装正确。 2. 确保所有变送器线路都符合规范，且所有缆线屏蔽层都正确端接。 3. 检查所有组件的接地情况。 4. 评估环境中的高电磁干扰 (EMI) 源，必要时重新部署变送器或线路。 5. 联系高准公司。
1540	推荐措施： 1. 对照装置报告的值检查过程条件。 2. 检查有无短路。 3. 联系高准公司。
1541	计算出的仪表和壳体 RTD 的电阻值超出限制。
1542	推荐措施： 1. 对照装置报告的值检查过程条件。温度应在 -200 ºF 至 +400 ºF 之间。 2. 检查有无短路。 3. 联系高准公司。
1543	部分标定系数未输入或不正确。
1544	推荐措施： 1. 验证所有特征或标定参数。参考传感器位号或仪表的标定数据表。
1545	组态的板类型与实际的板不匹配，或组态的传感器类型与实际的传感器不匹配。
1546	推荐措施： 1. 验证所有特征或标定参数。参考传感器位号或仪表的标定数据表。 2. 确保安装了正确的板。
1547	变送器从安全模式切换到非安全模式。在非安全模式下，变送器组态可更改。
1548	推荐措施： 1. 检查 HART 设备 ID。对于 MID 应用，它必须为非零值。如果设置为 0，请联系厂家。 2. 将变送器设置为安全模式以清除警报。请注意，可能需要执行其他程序以使装置恢复安全模式。
1549	内部电子元件故障。这可能指示变送器与显示模块之间存在通讯丢失。
1550	推荐措施： 1. 关闭并重新打开仪表电源。 2. 更换显示模块。 3. 联系高准公司。
1551	附加软件与编程好的电子板类型不兼容。
1552	来自传感器的信号不足。这表示传感器管或振动元件不振动。
1553	推荐措施： 1. 检查流量管中是否存在有空气、未充液、有异物、有涂层或其他过程问题。 2. 通过监测密度值并与从预期密度值获得的结果进行比较，检查流体分离情况。 3. 确保传感器方位符合应用要求。即使流量管已充满，使用两相流或三相流的设置也可能会产生这种警报。
1554	The measured viscosity is outside the calibrated range.
1555	Recommended Actions: 1. Check your process conditions against the values reported by the device. 2. Contact Micro Motion.
1556	已知密度检定失败。
1557	推荐措施： 1. 检查子测试结果并执行推荐措施。 2. 重试测试。 3. 联系高准公司。
1558	周期信号超出传感器类型的限制。
1559	推荐措施： 1. 对照装置报告的值检查过程条件。
1560	计算得出的毫安输出值超出组态范围。
1561	推荐措施： 1. 检查“上限值”和“下限值”的设置。 2. 检查过程条件。实际条件可能会超出组态输出时的正常条件。 3. 检查流量管中是否存在有空气、未充液、有异物、有涂层或其他过程问题。 4. 验证并确保已根据您的应用正确组态测量单位。 5. 清洗流量管。
1562	HART 地址设置为非零值，或毫安输出组态为发送常量值。
1563	推荐措施： 1. 检查输出是否处于回路测试模式。如果是，取消输出固定。 2. 如果适合，退出毫安输出调整。 3. 检查 HART 地址。如果 HART 地址为非零值，您可能需要启用毫安输出操作（回路电流模式）参数。 4. 通过数字通讯检查输出是否设置为常量值。
1564	推荐措施： 1. 检查驱动增益和传感器电压。 2. 检查有无短路。 3. 检查流量管中是否存在有空气、未充液、有异物、有涂层或其他过程问题。 4. 通过监测密度值并与从预期密度值获得的结果进行比较，检查流体分离情况。 5. 确保传感器方位符合应用要求。即使流量管已充满，使用两相流或三相流的设置也可能会产生这种警报。
1565	推荐措施： 1. 等待程序完成。 2. 对于零点标定（仅限于 CDM 仪表），您可以中断标定、将调零时间参数设置为更低的值并重新开始标定。
1566	The density has exceeded the user-defined two-phase (density) limits.
1567	Recommended Actions: 1. Check that meter is completely full. 2. Check that two-phase limits are set to appropriate values. 3. Verify density cutoff is at least 0.2 g/cc. 4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1568	HART 猝发模式已启用。
1569	推荐措施： 1. 无需任何措施。 2. 如果需要，将警报强度重新组态为“忽略”。
1570	毫安输出组态为发送常量值。
1571	推荐措施： 1. 检查输出是否处于回路测试模式。如果是，取消输出固定。 2. 如果适合，退出毫安输出调整。 3. 通过数字通讯检查输出是否设置为常量值。
1572	与外部测量装置的连接发生故障。无外部数据可用。
1573	推荐措施： 1. 验证并确保外部装置正常工作。 2. 验证并确保变送器与外部装置之间的线路完好。 3. 验证 HART 轮询组态。
1574	测得的温度超出 API 表的范围。
1575	推荐措施： 1. 对照装置报告的值检查过程条件。 2. 验证 API 参考应用程序的组态和相关参数。
1576	测得的密度超出 API 表的范围。
1577	推荐措施： 1. 对照装置报告的值检查过程条件。 2. 验证 API 参考应用程序的组态和相关参数。
1578	离散输出组态为发送常量值。
1579	推荐措施： 1. 检查输出是否处于回路测试模式。如果是，取消输出固定。
1580	变送器无法从当前数据计算出有效的浓度矩阵。
1581	推荐措施： 1. 验证浓度测量应用程序的组态。
1582	管道密度或管道温度超出浓度矩阵以及组态外推限制的范围。
1583	推荐措施： 1. 对照装置报告的值检查过程条件。 2. 验证浓度测量应用程序的组态。
1584	管道压力超出 API 表以及外推限制的范围。
1585	推荐措施： 1. 对照装置报告的值检查过程条件。 2. 验证 API 参考应用程序的组态和相关参数。
1586	显示模块中出现内存错误。
1587	推荐措施： 1. 关闭并重新打开仪表电源。 2. 更换显示模块。 3. 联系高准公司。
1588	推荐措施： 1. 禁用传感器模拟。
1589	外壳温度与流体温度之间的差值超过 10 °C。
1590	推荐措施： 1. 检查有无过程紊乱。管道温度的变化可能不会立即反映到外壳温度。 2. 检查有无短路。 3. 安装加热夹套。 4. 联系高准公司。
1591	装置中安装了错误的显示模块。在危险区域中这可能会造成安全违规事件。
1592	推荐措施： 1. 将安装的显示模块更换为正确的显示模块。
1593	推荐措施： 1. 验证并确保毫安输出范围设置为适当的值。
1594	建议措施： 1. 检查 HART 地址。如果非零，设置毫安输出动作参数，允许实时毫安输出。 2. 如果正在进行毫安输出调整，则需退出毫安输出调整。 3. 如果正在进行毫安输出回路测试，则需退出毫安输出回路测试。 4. 检查是否已通过数字通讯或本地显示器将输出设置为固定值。
1595	建议措施： 1. 这是一个即时报警，故障严重级别警报之一活动时会产生该报警。先解决其它活动报警。
1596	增强事件 1 已触发。
1597	推荐措施： 1. 无需任何措施。
1598	增强事件 2 已触发。
1599	增强事件 3 已触发。
1600	增强事件 4 已触发。
1601	增强事件 5 已触发。
1602	Velocity switch has been triggered.
1603	No Active Alerts
1604	标定毫安输出以匹配参考仪表。
1605	如果设备配备有显示屏，则在显示屏上显示图案以便于识别设备。
1606	这种模式将在显示屏上显示 60 秒。
1607	单击“下一步”开始。
1608	这种模式当前显示在装置显示屏上。
1609	显示屏会在 60 秒后恢复正常工作状态。要在 60 秒之内恢复正常工作，按设备显示屏上的任意按钮。
1610	执行密度偏差标定。
1611	执行温度标定。
1612	Perform Viscosity Scaling Factor Calibration.
1613	从装置内存读取 Modbus 数据。
1614	向装置内存写入 Modbus 数据。
1615	关闭并重新打开装置电源，此时不会影响装置组态。
1616	使用出厂组态集覆盖现有装置组态。
1617	Manually reset the configuration changed flag if the host is not able to reset the flag automatically.
1618	验证毫安输出 1 的线路和电流电平。
1619	验证毫安输出 2 的线路和电流电平。
1620	验证离散输出的线路和极性。
1621	模拟值
1622	组态阵发信息 1
1623	需要启用阵发信息 1 后才可继续。此信息将以连续的传输速率阵发。请选择以下阵发选项：
1624	组态阵发信息 2
1625	请选择以下阵发选项：
1626	组态阵发信息 3
1627	阵发信息 1 组态如下所示。是否保存设置？
1628	阵发速率组态
1629	阵发信息 2 组态如下所示。是否保存设置？
1630	阵发信息 3 组态如下所示。是否保存设置？
1631	主机系统必须能接收阵发信息和事件通知。请先确认再继续组态操作。
1632	事件通知通过发送阵发信息帮助确定设备的异常状况。
1633	在屏幕上选择状态变化会触发事件通知的警报。
1634	需要时调整“触发时间间隔”和“重试速率”的值。触发时间间隔是警报为触发事件通知而被激活的时间。重试速率是通过主机确认前事件通知持续显示的时间。
1635	高级 HART 组态成功完成。
1636	信息 2
1637	扩展设备状态
1638	信息 3
1639	警告
1640	已调整触发更新速率。
1641	错误
1642	选择了无效的阵发触发模式。
1643	阵发条件冲突
1644	矩阵数据
1645	毫安输出 1
1646	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
1647	毫安输出 2
1648	型号
1649	确保“温度单位”设置为外部温度装置使用的单位。
1650	Gas Inputs
1651	Percent Carbon Dioxide
1652	Percent Nitrogen
1653	Percent Carbon Monoxide
1654	Percent Hydrogen
1655	“初级变量”自动分配为毫安输出 1。
1656	“二级变量”自动分配为毫安输出 2（如果可用）。
1657	“三级变量”仅用于 HART 通讯。
1658	“四级变量”仅用于 HART 通讯。
1659	映射变量单位
1660	初级变量单位
1661	二级变量单位
1662	三级变量单位
1663	四级变量单位
1664	已知密度检定结果
1665	已知密度检定失败。
1666	通过已知密度检定。
1667	检定周期信号平均值超出可接受的范围。推荐措施：确保仪表洁净干燥。然后重试已知密度检定程序。
1668	检定周期信号最大偏差超出可接受的范围。推荐措施：确保仪表洁净干燥。然后重试已知密度检定程序。
1669	管道温度最大偏差 > 1 degC 推荐措施：验证并确保仪表的环境温度稳定，且仪表温度在测试位置达到稳定。然后重试已知密度检定程序。
1670	驱动增益平均值超出可接受的范围。推荐措施：确保仪表洁净干燥。然后重试已知密度检定程序。
1671	外壳温度最大偏差 > 1 degC 推荐措施：验证并确保仪表的环境温度稳定，且仪表温度在测试位置达到稳定。然后重试已知密度检定程序。
1672	用户定义的计算 1
1673	对于每个计算变量，分配一个过程变量或输入一个常量。
1674	NOTE: The meter performs this calculation using internal measurement units. If a constant represents a process variable, you must enter its value in the internal measurement unit. If a constant will be used to modify a process variable, you must use the internal measurement units to derive the constant.
1675	用户定义的计算 2
1676	对于变量 t，分配一个过程变量或输入一个常量。
1677	用户定义的计算 3
1678	选择与仪表海拔高度最接近的值。
1679	验证结果
1680	Configure the parameters required for concentration measurement.
1681	Configure Concentration Measurement
1682	Select the concentration matrix to be used for measurement.
1683	Define or modify a concentration matrix.
1684	矩阵配置
1685	Equation Selection Type
1686	Adjust concentration measurement by applying an offset or a slope.
1687	Important: These trim values are applied only to the concentration matrix currently selected for configuration.
1688	矩阵选择
1689	测警报
1690	电子条件
1691	传感器条件
1692	过程条件
1693	配置条件
1694	Referred Matrices
1695	ASTM Referral Matrices
1696	Select the calibration gas and enter the Specific Gravity:
1697	Select the calibration gas and enter the Relative Density:
1698	Select the calibration gas and enter the Molecular Weight:
1699	Calibration is in progress. Allow the sensor to stabilize for a minimum of 15 minutes, then observe the Sensor Time Period and Stability values. When the Calibration Point is Good,click Next to accept the calibration.
1700	Calculated Coefficients
1701	阵发变量 1
1702	阵发变量 2
1703	阵发变量 3
1704	阵发变量 4
1705	阵发变量 5
1706	阵发变量 6
1707	阵发变量 7
1708	分类
1709	触发单位
1710	阵发信息
1711	事件
1712	PV Analog Channel Saturated
1713	PV Analog Channel Fixed
1714	Wireless
1715	WirelessHART Device
1716	IEEE 802.15.4 2.4GHz DSSS with O-QPSK Modulation
1717	Primary
1718	Primary Analog Channel
1719	Secondary
1720	Secondary Analog Channel
1721	Tertiary
1722	Tertiary Analog Channel
1723	Quaternary
1724	Quaternary Analog Channel
1725	Quinary
1726	Quinary Analog Channel
1727	Critical Power Failure
1728	Lock all
1729	Trim not supported
1730	Configuration cannot be changed
1731	Locked by gateway
1732	Analog Input Channel
1733	Analog Output Channel
1734	Secondary Analog Channel Saturated
1735	Tertiary Analog Channel Saturated
1736	Quaternary Analog Channel Saturated
1737	Quinary Analog Channel Saturated
1738	Secondary Analog Channel Fixed
1739	Tertiary Analog Channel Fixed
1740	Quaternary Analog Channel Fixed
1741	Quinary Analog Channel Fixed
1742	Simulation active
1743	The device is in simulation mode and the level output is not representative of the process.
1744	Non-Volatile memory failure
1745	The Non-Volatile memory check is invalid or maybe corrupt, or the battery of a battery-backed memory has failed.
1746	Volatile memory error
1747	The RAM memory check is invalid or maybe corrupt
1748	Watchdog reset executed
1749	A watchdog reset has been performed
1750	Voltage conditions out of range
1751	A voltage condition is outside its allowable range
1752	Environmental conditions out of range
1753	An internal or environmental condition is beyond acceptable limits.
1754	Electronic failure
1755	A hardware problem not related to the sensor has been detected.
1756	Subdevice list changed
1757	Duplicate master detected
1758	Capacity Denied
1759	The device was unable to acquire the communication bandwidth required to support the Burst Messaging specified
1760	Bandwidth allocation pending
1761	Block transfer pending
1762	Battery life
1763	Percent range
1764	Loop current
1765	Primary variable
1766	Secondary variable
1767	Tertiary variable
1768	Quaternary variable
1769	Read receive time
1770	Write date and time
1771	Non-Volatile Clock
1772	When set the device contains a battery-backed clock. In this case, the clock does not need to be reset if there is a power failure.
1773	Clock Uninitialized
1774	The real-time clock has never been set with the date and time. For example, the clock is volatile and power was removed from and restored to the device.
1775	None
1776	No restrictions
1777	SI Only
1778	Restricted to SI Unit codes only
1779	Process automation device
1780	Discrete device
1781	Hybrid:Process automation+discrete
1782	I/O System
1783	WirelessHART Process automation device
1784	WirelessHART Discrete device
1785	WirelessHART Process automation+discrete
1786	WirelessHART Gateway
1787	WirelessHART Access point
1788	WirelessHART Process adapter
1789	WirelessHART Discrete adapter
1790	WirelessHART enabled handheld/portable maintenance tool
1791	Device Profile
1792	US
1793	United States of America
1794	JP
1795	Japan
1796	DE
1797	Germany
1798	FR
1799	France
1800	ES
1801	Spain
1802	RU
1803	Russian Federation
1804	CN
1805	People's Republic of China
1806	Secondary Master
1807	Primary Master
1808	Device Diagnostic Status 0
1809	Device Diagnostic Status 1
1810	I/O and Subdevice Status
1811	WirelessHART Status
1812	Time Set Option
1813	Real Time Clock Flags
1814	Country
1815	Country of intended device installation
1816	SI Unit Control
1817	Indicates if device should only display SI unit codes
1818	Burst Trigger Units
1819	Enable on token-passing data link layer only
1820	Enable on TDMA data link layer only
1821	Enable on both TDMA and token-passing data link layer
1822	Burst Trigger Class
1823	Continuous
1824	The Burst Message is published continuously at (worst case) the Minimum Update Period.
1825	Window
1826	The Burst Message is triggered when the source value deviates more than the specified trigger value
1827	Rising
1828	The Burst Message is triggered when source value Rises Above the specified trigger value.
1829	Falling
1830	The Burst Message is triggered when the source value Falls Below the specified trigger value.
1831	On-change
1832	The Burst Message is triggered when any value in the message changes.
1833	Off
1834	Enable event notification on token-passing data link layer
1835	Enable event notification on TDMA data link layer
1836	Enable event notification on TDMA and token-passing data link layer
1837	Configuration changed event pending
1838	Device status event pending
1839	More status available event pending
1840	Wired HART Enabled
1841	Enabled on Wired HART device connection only
1842	Wireless HART Enabled
1843	Enabled on WirelessHART device connection only
1844	Both Wired and WirelessHart Enabled
1845	Enabled on both Wired and WirelessHART connections
1846	Burst Msg Trigger Mode
1847	Event Status
1848	Event Notification Control
1849	Device Status Mask
1850	Ext dev status Mask
1851	Device Diagnostic Status 0 Mask
1852	Device Diagnostic Status 1 Mask
1853	Device Diagnostic Status 2 Mask
1854	Device Diagnostic Status 3 Mask
1855	AO saturated Mask
1856	AO fixed Mask
1857	Latched Device Status
1858	Operate mode Mask
1859	Not Defined
1860	Latched Ext dev status
1861	Latched Device Diagnostic Status 0
1862	Latched Device Diagnostic Status 1
1863	Latched Device Diagnostic Status 2
1864	Latched Device Diagnostic Status 3
1865	Latched AO saturated
1866	Latched AO fixed
1867	Latched Operate Mode
1868	Flow Coriolis Mass
1869	Time Stamp
1870	Relative time value on network
1871	8u
1872	Configuration Change Counter Mismatch
1873	Status bytes mismatch
1874	Device Variable
1875	Analog Channel Number
1876	Analog Channel Number- Index into an array of Analog Channels.
1877	STX Count
1878	Count of STX messages received by this device
1879	ACK Count
1880	Count of ACK messages received by this device
1881	BACK Count
1882	Count of BACK messages received by this device
1883	Burst Command
1884	Cmd 48: Read Additional Device Status
1885	Read Additional Device - This command reads additional device status information
1886	Update Period
1887	Update period for burst message
1888	5.3f
1889	Max Update Period
1890	Maxium update period for burst message
1891	Burst Variable Code
1892	Burst Variable Slot - Device variable code assigned to the slot to be read in burst mode.
1893	Burst Trigger Level
1894	Time First Unack Event Triggered
1895	The time when the first unacknowledged event was triggered
1896	Event Notification Retry Time
1897	Max Update Time
1898	Burst Message Number
1899	Total Burst Msgs
1900	Total number of burst messages supported by this device
1901	Event Number
1902	Event Debounce Interval
1903	Device Specific Status 0 Mask
1904	Device Specific Status 1 Mask
1905	Device Specific Status 2 Mask
1906	Device Specific Status 3 Mask
1907	Device Specific Status 4 Mask
1908	Device Specific Status 5 Mask
1909	Device Specific Status 14 Mask
1910	Device Specific Status 15 Mask
1911	Device Specific Status 16 Mask
1912	Device Specific Status 17 Mask
1913	Device Specific Status 18 Mask
1914	Device Specific Status 19 Mask
1915	Device Specific Status 20 Mask
1916	Latched Device Specific Status 0
1917	Latched Device Specific Status 1
1918	Latched Device Specific Status 2
1919	Latched Device Specific Status 3
1920	Latched Device Specific Status 4
1921	Latched Device Specific Status 5
1922	Latched Device Specific Status 14
1923	Latched Device Specific Status 15
1924	Latched Device Specific Status 16
1925	Latched Device Specific Status 17
1926	Latched Device Specific Status 18
1927	Latched Device Specific Status 19
1928	Latched Device Specific Status 20
1929	Latched Cfg chng count
1930	Number of Events Supported
1931	Burst Variable Codes
1932	Update time adjusted
1933	Invalid burst message
1934	Invalid device variable classification
1935	Invalid burst trigger mode selection code
1936	Burst condition conflict
1937	Update period increased
1938	Insufficient bandwidth
1939	Update period or debounce interval adjusted
1940	Update times adjusted
1941	Update rate uncertain
1942	Not all events cleared
1943	NOTE-Send TV assignment before modifying range values.
1944	现在可以安全地将控制回路恢复为自动控制模式。
1945	更改组态可能影响变送器操作。确保将控制回路设置为手动操作后再继续。
1946	select
1947	由于现场装置错误而中断。
1948	warning
1949	select1
1950	select2
1951	select3
1952	完成
1953	输入调零时间:
1954	Prepare the meter: 1. Allow the meter to warm up for at least 20 minutes after applying power. 2. Run the process fluid through the meter until the sensor temperature reaches the normal process operating temperature. 3. Stop flow through the meter by shutting the downstream valve, and then the upstream valve if available. 4. Verify that the meter is blocked in, that flow has stopped, and that the meter is completely full of process fluid. 5. Observe the drive gain, temperature, and density readings. If they are stable, check the Live Zero value. If the average value is close to 0, you should not need to zero the meter. Click Next when meter preparation is complete.
1955	调零标定进行中...
1956	Press Next to reset the data for all six matrices. Warning: All matrix data will be deleted from the device.
1957	所有矩阵数据都已从装置中删除。
1958	Press Next to refresh the Concentration Measurement screen.
1959	选择锁定选项：
1960	永久；暂时；全部锁定
1961	不能使设备解锁。设备被其他主机锁定。
1962	所有警报已确认。
1963	选择 API 表号：
1964	选择 API 表字符：
1965	A;B;D
1966	A;B;D;E
1967	C;E
1968	输入热膨胀系数:
1969	输入参考温度：
1970	Enter Reference Pressure (Gauge):
1971	Select the mA output to configure:
1972	mA Output 1;mA Output 2;Exit
1973	Keep Existing Assignment;Temperature;Density;Density at Reference (API);Density at Reference (CM);Specific Gravity (CM);Concentration (CM);Drive Gain;Case Temperature;External Pressure (Gauge);External Temperature;User-Defined Calculation Output;Tube-Case Temperature Difference;Velocity;Sensor Time Period;
1974	Keep Existing Assignment;Temperature;Drive Gain;Case Temperature;External Pressure (Gauge);External Temperature;User-Defined Calculation Output;Tube-Case Temperature Difference;Velocity;Sensor Time Period;
1975	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Temperature.
1976	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Density.
1977	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Density at Reference (API).
1978	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Density at Reference (CM).
1979	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Specific Gravity (CM).
1980	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Concentration (CM).
1981	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Drive Gain.
1982	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Case Temperature.
1983	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to External Pressure (Gauge).
1984	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to External Temperature.
1985	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to User-Defined Calculation Output.
1986	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Tube-Case Temperature Difference.
1987	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Velocity.
1988	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Sensor Time Period.
1989	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Temperature.
1990	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Density.
1991	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Density at Reference (API).
1992	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Density at Reference (CM).
1993	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Specific Gravity (CM).
1994	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Concentration (CM).
1995	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Drive Gain.
1996	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Case Temperature.
1997	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to External Pressure (Gauge).
1998	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to External Temperature.
1999	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to User-Defined Calculation Output.
2000	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Tube-Case Temperature Difference.
2001	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Velocity.
2002	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Sensor Time Period.
2003	您将使用出厂值覆盖设备组态。在继续之前，将控制回路设置为手动操作，并确保现有的组态值已记录或保存在文件中。如果设备连接丢失，请使用默认设置重新连接。要继续吗？
2004	Factory values are restored successfully.
2005	连接参考仪表。
2006	Click Next to set mA Output 1 to %0 mA.
2007	输入从参考仪表获得的读数：
2008	装置输出与参考仪表是否匹配？
2009	Click Next to set mA Output 2 to %0 mA.
2010	设备被锁定，无法组态参数。
2011	将毫安输出 1 恢复为正常功能。
2012	将毫安输出 2 恢复为正常功能。
2013	Modbus 数据类型：
2014	线圈;未分配 16(U16);未分配 32(U32);浮点;退出
2015	要读取的线圈地址：
2016	number
2017	要读取的寄存器地址：
2018	线圈值为 %0，异常码为 %1。
2019	U16 值为 %0，异常码为 %1。
2020	U32 值为 %0，异常码为 %1。
2021	浮点值为 %0，异常码为 %1。
2022	要写入的线圈地址：
2023	要写入的寄存器地址：
2024	要写入的线圈值：
2025	0;1
2026	要写入的 U16 值：
2027	uValue
2028	要写入的 U32 值：
2029	要写入的浮点值：
2030	fValue
2031	选择毫安输出 1 水平：
2032	毫安输出 1 固定为 %0 mA。
2033	选择毫安输出 2 水平：
2034	毫安输出 2 固定为 %0 mA。
2035	选择离散输出状态：
2036	关闭;打开;结束
2037	Discrete Output State is OFF.
2038	Discrete Output State is ON.
2039	Returning Discrete Output to normal function.
2040	Select pressure (absolute) unit used by the external pressure (absolute) device:
2041	Select pressure (gauge) unit used by the external pressure (gauge) device:
2042	选择警报代码：
2043	当前严重级别为 %0。
2044	选择警报严重级别：
2045	查看警报严重级别：
2046	将 %{1} 设置为 %{0}。
2047	A001：EEPROM 错误 (CP) 设置为 %0。
2048	A002：RAM 错误 (CP) 设置为 %0。
2049	A003：无传感器响应设置为 %0。
2050	A004：温度超限设置为 %0。
2051	A005：质量流量超限设置为 %0。
2052	A006：所需特征化设置为 %0。
2053	A008：密度超限设置为 %0。
2054	A009：变送器初始化预热设置为 %0。
2055	A010：校准失败设置为 %0。
2056	A011：调零校准失败：低设置为 %0。
2057	A012：调零校准失败：高设置为 %0。
2058	A013：调零校准失败：不稳定设置为 %0。
2059	A014：变送器故障设置为 %0。
2060	A016：传感器 RTD 故障设置为 %0。
2061	A017：T 系列 RTD 故障设置为 %0。
2062	A020：无流量校准值设置为 %0。
2063	A021：无 K1 值设置为 %0。
2064	A027：安全漏洞设置为 %0。
2065	A029：内部通讯故障设置为 %0。
2066	A030：硬件/软件不兼容设置为 %0。
2067	A033：无 LPO RPO 信号设置为 %0。
2068	A037：传感器检查失败设置为 %0。
2069	A038：周期超出范围设置为 %0。
2070	A100：MAO1 饱和设置为 %0。
2071	A101：MAO1 固定设置为 %0。
2072	A102：驱动超限设置为 %0。
2073	A104：正在进行校准设置为 %0。
2074	A106：启用阵发模式设置为 %0。
2075	A107：发生电源复位设置为 %0。
2076	A113：MAO2 饱和设置为 %0。
2077	A114：MAO2 固定设置为 %0。
2078	A115：无外部数据设置为 %0。
2079	A116：API：温度超限设置为 %0。
2080	A117：API：密度超限设置为 %0。
2081	A118：DO1 固定设置为 %0。
2082	A120：ED：曲线拟合失败设置为 %0。
2083	A121：ED：推测报警设置为 %0。
2084	A122： API：压力超出标准范围设置为 %0。
2085	A132：传感器仿真激活设置为 %0。
2086	A133：本地显示固件校验和错误设置为 %0。
2087	A134：外壳-仪表温差超出限制设置为 %0。
2088	A136：显示类型不正确设置为 %0。
2089	Select the application option:
2090	API 参考;浓度测量;无
2091	API Referral;None
2092	Concentration Measurement;None
2093	注： MID 已启用，无法更改。选择应用程序选项：
2094	注： MID 已禁用，无法更改。选择应用程序选项：
2095	应用程序已禁用。您要启用它吗？
2096	应用程序已启用。您要禁用它吗？
2097	API 参考为 %0。
2098	浓度测量为 %0。
2099	API application is disabled.
2100	Concentration Measurement is disabled.
2101	所有应用程序都已禁用。
2102	Current viscosity value range is Ultra Low Range (0.50 – 10.46 cP). Select the viscosity value range:
2103	Ultra Low Range (0.50 – 10.46 cP);Low (10.46 – 108.16 cP);Medium (108.16 – 1087.43 cP);High (1087.43 – 13345.64 cP)
2104	Current viscosity value range is Low (10.46 – 108.16 cP). Select the viscosity value range:
2105	Current viscosity value range is Medium (108.16 – 1087.43 cP). Select the viscosity value range:
2106	Current viscosity value range is High (1087.43 – 13345.64 cP). Select the viscosity value range:
2107	注：应当首先完成偏差标定，然后再进行斜率标定。选择所需的选项：
2108	温度偏差标定;温度斜率标定
2109	温度偏差标定：
2110	标定进行中...
2111	标定完成。
2112	温度斜率标定：
2113	Known Density Verification has been aborted.
2114	Prepare the meter: 1. Remove the meter from the process and place it in a protected stable environment. 2. Minimize variation in ambient temperature. 3. Eliminate vibration. 4. Ensure that a suitably rated vacuum pump is used that is able to draw a vacuum on the meter. Pull a vacuum inside the meter to a maximum pressure of 0.2 Torr. 5. Apply power to the meter. Click Next when meter preparation is complete.
2115	Prepare the meter: 1. Remove the meter from the process and place it in a protected stable environment. 2. Minimize variation in ambient temperature. 3. Eliminate vibration. 4. Ensure that the meter is clean. Check for deposition on the vibrating element or the inner walls of the device. 5. Apply power to the meter. Click Next when meter preparation is complete.
2116	已知密度检定需要 20 份样品，完成验证大约需要 20 秒。单击“下一步”继续。
2117	Known Density Verification in progress...
2118	No factory calibration present. Known Density Verification cannot be run.
2119	在显示屏上显示易识别的图案有助于识别设备。单击“确定”开始。
2120	设备正显示图案，使其可被识别。显示屏会在 60 秒后恢复正常工作状态，按设备显示屏上的任意按钮可中断这种状态。
2121	Active Calculation: User-Defined Calculation 1
2122	无;用户定义的计算 1;用户定义的计算 2;用户定义的计算 3
2123	Active Calculation: User-Defined Calculation 2
2124	Active Calculation: User-Defined Calculation 3
2125	活动计算：无
2126	None;User-Defined Calculation 1;User-Defined Calculation 2
2127	您已选择不使用用户定义的计算。点击“下一步”继续。
2128	User-Defined Calculation Output value is %0 %1
2129	密度：值 %0 %1 温度：值 %2 %3 速度：值 %4 %5
2130	User-Defined Calculation Output: Value %0
2131	Concentration (CM): Value %0 %1 Density at Reference (CM): Value %2 %3 Temperature: Value %4 %5
2132	User-Defined Calculation Output: Value %0 Velocity: Value %1 %2 Specific Gravity: Value %3
2133	Density at Reference (API): Value %0 %1 Temperature: Value %2 %3 User-Defined Calculation Output: Value %4
2134	Velocity: Value %0 %1
2135	Temperature: Value %0 %1 Velocity: Value %2 %3 User-Defined Calculation Output: Value %4
2136	单击“下一步”开始密度偏差标定。
2137	Access Restricted
2138	Resetting device. Please wait.
2139	设备复位成功完成。
2140	按“OK”（确认）重置全部六个矩阵数据，或按“ABORT”（中止）不重置数据。
2141	Press OK to refresh the Concentration Measurement screen.
2142	Priority: Failed - Fix Now The transmitter has detected a problem communicating with the sensor. Recommended Actions: 1. Cycle power to the meter. 2. Contact Micro Motion.
2143	Priority: Failed - Fix Now The transmitter is not receiving one or more basic electrical signals from the sensor. Recommended Actions: 1. Check the drive gain and the pickoff voltage. 2. Check for electrical shorts. 3. Check the integrity of the sensor tubes.
2144	Priority: Failed - Fix Now The RTD resistance is out of range for the sensor. Recommended Actions: 1. Check for electrical shorts. 2. Verify temperature characterization or calibration parameters. 3. Check your process conditions against the values reported by the device. 4. Contact Micro Motion.
2145	Priority: Failed - Fix Now The measured velocity is greater than the maximum velocity limit of the sensor. Recommended Actions: 1. If other alerts are present, resolve those alert conditions first. If the current alert persists, continue with the recommended actions. 2. Check your process conditions against the values reported by the device. 3. Check for two-phase flow.
2146	Priority: Failed - Fix Now Calibration factors have not been entered, or the sensor type is incorrect, or the calibration factors are incorrect for the sensor type. Recommended Actions: 1. Verify all of the characterization or calibration parameters. See the sensor tag or the calibration sheet for your meter. 2. Check for electrical shorts. 3. Contact Micro Motion.
2147	Priority: Failed - Fix Now The line density is greater than 10 g/cm3. Recommended Actions: 1. If other alerts are present, resolve those alerts conditions first. If the current alert persists, continue with the recommended actions. 2. Check for air in the flow tubes, tubes not filled, foreign material in the tubes, coating in the tubes, or other process problems. 3. Check for two-phase flow. 4. If accompanied by an A003 alert, check for electrical shorts. 5 Verify all of the characterization or calibration parameters. See the sensor tag or the calibration sheet for your meter. 6. Check the drive gain and the pickoff voltage. 7. Contact Micro Motion.
2148	Priority: Failed - Fix Now Transmitter is in power-up mode. Recommended Actions: 1. Allow the meter to complete its power-up sequence. The alert should clear automatically. 2. Verify that the tubes are full of process fluid. 3. Verify that the transmitter is receiving sufficient power. 4. If it is not, correct the problem and cycle power to the meter. 5. If it is, this suggests that the transmitter has an internal power issue. Replace the transmitter.
2149	Priority: Failed - Fix Now Many possible causes, such as too much flow through the sensor during a calibration procedure, or a zero result that is out of range. This alert will not clear until you cycle power to the meter. Recommended Actions: 1. If this alert appears during zeroing (CDM meters only), verify that there is no flow through the sensor, cycle power to the meter, then retry the procedure.
2150	Priority: Failed - Fix Now Many possible causes, such as too much flow, especially reverse flow, through the sensor during a calibration procedure, or a zero result that is too low. This alert is accompanied by A010. This alert will not clear until you cycle power to the meter. Recommended Actions: 1. Verify that there is no flow through the sensor, cycle power to the meter, then retry the procedure.
2151	Priority: Failed - Fix Now Many possible causes, such as too much flow, especially forward flow, through the sensor during a calibration procedure, or a zero result that is too high. This alert is accompanied by A010. This alert will not clear until you cycle power to the meter. Recommended Actions: 1. Verify that there is no flow through the sensor, cycle power to the meter, then retry the procedure.
2152	Priority: Failed - Fix Now There was too much process instability during the calibration procedure. This alert will not clear until you cycle power to the meter. Recommended Actions: 1. Remove or reduce sources of electromechanical noise (e.g., pumps, vibration, pipe stress), cycle power to the meter, then retry the procedure.
2153	Priority: Failed - Fix Now Many possible causes. Recommended Actions: 1. Ensure that all wiring compartment covers are installed correctly. 2. Ensure that all transmitter wiring meets specifications and that all cable shields are properly terminated. 3. Check the grounding of all components. 4. Evaluate the environment for sources of high electromagnetic interference (EMI) and relocate the transmitter or wiring as necessary. 5. Contact Micro Motion.
2154	Priority: Failed - Fix Now The value computed for the resistance of the Line RTD is outside limits. Recommended Actions: 1. Check your process conditions against the values reported by the device. 2. Check for electrical shorts. 3. Contact Micro Motion.
2155	Priority: Maintenance - Fix Soon The value computed for the resistance of the meter and case RTDs are outside limits. Recommended Actions: 1.Check your process conditions against the values reported by the device. Temperature should be bettween – 200 °F and +400 °F. 2. Check for electrical shorts. 3. Contact Micro Motion.
2156	Priority: Failed - Fix Now Some calibration factors have not been entered or are incorrect. Recommended Actions: 1. Verify all of the characterization or calibration parameters. See the sensor tag or the calibration sheet for your meter.
2157	Priority: Failed - Fix Now The configured board type does not match the physical board, or the configured sensor type does not match the physical sensor. Recommended Actions: 1. Verify all of the characterization or calibration parameters. See the sensor tag or the calibration sheet for your meter. 2. Ensure that the correct board is installed.
2158	Priority: Failed - Fix Now The transmitter has been switched from secure mode to unsecure mode. In unsecured mode, the transmitter configuration can be changed. Recommended Actions: 1. Check the HART device ID. For MID applications, it must be non-zero. If it is set to 0, contact the factory. 2. Set the transmitter to secure to clear the alert. Note that additional procedures may be required to return the device to secured mode.
2159	Priority: Failed - Fix Now Internal electronics failure. This can indicate a loss of communication between the transmitter and the display module. Recommended Actions: 1. Cycle power to the meter. 2. Replace the display module. 3. Contact Micro Motion.
2160	Priority: Failed - Fix Now The loaded software is not compatible with the programmed board type. Recommended Actions: 1. Cycle power to the meter. 2. Contact Micro Motion.
2161	Priority: Failed - Fix Now The signal from the sensor pick-off(s) is insufficient. This suggests that the sensor tubes or vibrating elements are not vibrating. Recommended Actions: 1. Check for air in the flow tubes, tubes not filled, foreign material in the tubes, coating in the tubes, or other process problems. 2. Check for fluid separation by monitoring the density value and comparing the results against expected density values. 3. Ensure that the sensor orientation is appropriate for your application. Settling from a two-phase or three-phase fluid can cause this alert even if the flow tubes are full.
2162	Priority: Failed - Fix Now The measured viscosity is outside the calibrated range. Recommended Actions: 1. Check your process conditions against the values reported by the device. 2. Contact Micro Motion.
2163	Priority: Failed - Fix Now Known Density Verification failed. Recommended Actions: 1. Check the subtest results and perform the recommended actions. 2. Retry the test. 3. Contact Micro Motion.
2164	Priority: Failed - Fix Now The time period signal is outside the limits for the sensor type. Recommended Actions: 1. Check your process conditions against the values reported by the device.
2165	Priority: Advisory The calculated mA output value is outside the configured range. Recommended Actions: 1. Check the settings of ‘Upper Range Value’ and ‘Lower Range Value.’ 2. Check process conditions. Actual conditions may be outside the normal conditions for which the output is configured. 3. Check for air in the flow tubes, tubes not filled, foreign material in the tubes, coating in the tubes, or other process problems. 4. Verify that the measurement units are configured correctly for your application. 5. Purge the flow tubes.
2166	Priority: Advisory The HART address is set to a non-zero value, or the mA output is configured to send a constant value. Recommended Actions: 1. Check whether the output is in loop test mode. If it is, unfix the output. 2. Exit mA output trim, if applicable. 3. Check the HART address. If the HART address is non-zero, you may need to enable the mA Output Action (Loop Current Mode) parameter. 4. Check whether the output has been set to a constant value via digital communication.
2167	Priority: Maintenance - Fix Soon The drive power (current/voltage) is at its maximum. Recommended Actions: 1. Check the drive gain and the pickoff voltage. 2. Check for electrical shorts. 3. Check for air in the flow tubes, tubes not filled, foreign material in the tubes, coating in the tubes, or other process problems. 4. Check for fluid separation by monitoring the density value and comparing the results against expected density values. 5. Ensure that the sensor orientation is appropriate for your application. Settling from a two-phase or three-phase fluid can cause this alert even if the flow tubes are full.
2168	Priority: Advisory A calibration procedure is in progress. Recommended Actions: 1. Allow the procedure to complete. 2. For zero calibration (CDM meters only), you may abort the calibration, set the zero time parameter to a lower value, and restart the calibration.
2169	Priority: Maintenance - Fix Soon The density has exceeded the user-defined two-phase (density) limits. Recommended Actions: 1. Check that meter is completely full. 2. Check that two-phase limits are set to appropriate values. 3. Verify density cutoff is at least 0.2 g/cc. 4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2170	Priority: Advisory HART burst mode is enabled. Recommended Actions: 1. No action required. 2. If desired, you can reconfigure the alert severity level to Ignore.
2171	Priority: Maintenance - Fix Soon The transmitter has been restarted. Recommended Actions: 1. No action required. 2. If desired, you can reconfigure the alert severity level to Ignore.
2172	Priority: Advisory The mA output is configured to send a constant value. Recommended Actions: 1. Check whether the output is in loop test mode. If it is, unfix the output. 2. Exit mA output trim, if applicable. 3. Check whether the output has been set to a constant value via digital communication.
2173	Priority: Maintenance - Fix Soon The connection to an external measurement device has failed. No external data is available. Recommended Actions: 1. Verify that the external device is operating correctly. 2. Verify the wiring between the transmitter and the external device. 3. Verify the HART polling configuration.
2174	Priority: Maintenance - Fix Soon The measured temperature is outside the range of the API table. Recommended Actions: 1. Check your process conditions against the values reported by the device. 2. Verify the configuration of the API referral application and related parameters.
2175	Priority: Maintenance - Fix Soon The measured density is outside the range of the API table. Recommended Actions: 1. Check your process conditions against the values reported by the device. 2. Verify the configuration of the API referral application and related parameters.
2176	Priority: Advisory The discrete output has been configured to send a constant value. Recommended Actions: 1. Check whether the output is in loop test mode. If it is, unfix the output.
2177	Priority: Advisory The transmitter was unable to calculate a valid concentration matrix from the current data. Recommended Actions: 1. Verify the configuration of the concentration measurement application.
2178	Priority: Maintenance - Fix Soon The line density or line temperature is outside the range of the concentration matrix plus the configured extrapolation limit. Recommended Actions: 1. Check your process conditions against the values reported by the device. 2. Verify the configuration of the concentration measurement application.
2179	Priority: Maintenance - Fix Soon The line pressure is outside the range of the API table plus the extrapolation limit. Recommended Actions: 1. Check your process conditions against the values reported by the device. 2. Verify the configuration of the API Referral application and related parameters.
2180	Priority: Advisory Simulation mode is enabled. Recommended Actions: 1. Disable sensor simulation.
2181	Priority: Maintenance - Fix Soon There is a memory error in the display module. Recommended Actions: 1. Cycle power to the meter. 2. Replace the display module. 3. Contact Micro Motion.
2182	Priority: Maintenance - Fix Soon The difference between the case temperature and the fluid temperature is greater than 10 °C. Recommended Actions: 1. Check for process upsets. Changes to line temperature may not be immediately reflected in case temperature. 2. Check for electrical shorts. 3. Install a heat jacket. 4. Contact Micro Motion.
2183	Priority: Maintenance - Fix Soon An incorrect display module has been installed on the device. This may cause a safety violation in hazardous areas. Recommended Actions: 1. Replace the installed display module with an appropriate display module.
2184	Priority: Advisory Enhanced Event 1 has been triggered. Recommended Actions: 1. No action required.
2185	Priority: Advisory Enhanced Event 2 has been triggered. Recommended Actions: 1. No action required.
2186	Priority: Advisory Enhanced Event 3 has been triggered. Recommended Actions: 1. No action required.
2187	Priority: Advisory Enhanced Event 4 has been triggered. Recommended Actions: 1. No action required.
2188	Priority: Advisory Enhanced Event 5 has been triggered. Recommended Actions: 1. No action required.
2189	Priority: Advisory Velocity switch has been triggered. Recommended Actions: 1. No action required.
2190	Priority: Maintenance - Fix Soon Non-zero HART address configured, or user has set the mA output to a fixed value. Recommended Actions: 1. Check the HART address. If non-zero, set mA Output Action parameter to enable Live mA Output. 2. If mA output trim is being performed, exit mA output trim. 3. If mA output loop test is being performed, exit mA output loop test. 4. Check to see if the output has been fixed via digital communications or the local display.
2191	Priority: Maintenance - Fix Soon The calculated amount of current output is outside of the linear range. Recommended Actions: 1. Verify that mA output range values are set to appropriate values.
2192	Prepare the meter: 1. Remove the meter from the process and place it in a protected stable environment. 2. Minimize variation in ambient temperature. 3. Eliminate vibration. 4. Ensure that a suitably rated vacuum pump is used that is able to draw a vacuum on the meter. Pull a vacuum inside the meter to a maximum pressure of 0.2 Torr. Click OK when meter preparation is complete.
2193	Prepare the meter: 1. Remove the meter from the process and place it in a protected stable environment. 2. Minimize variation in ambient temperature. 3. Eliminate vibration. 4. Ensure that the meter is clean. Check for deposition on the vibrating element or the inner walls of the device. Click OK when meter preparation is complete.
2194	Known Density Verification requires 20 samples, and will take about 20 seconds to complete. Click OK to continue.
2195	已知密度检定进行中...
2196	Know Density Verification: %0 Time Period Diff: %1 Time Period Stability: %2 Fluid Temp: %3 Drive Gain: %4 Case Temp Stability: %5
2197	Know Density Verification: %0 Time Period Diff: %1 Time Period Stability: %2 Fluid Temp: %3 Drive Gain: %4
2198	Click OK to begin density offset calibration.
2199	Keep Existing Assignment;Temperature;Density;Density at Reference (API);Density at Reference (CM);Specific Gravity (CM);Net Mass Flow Rate (CM);Net Volume Flow Rate (CM);Concentration (CM);Drive Gain;Case Temperature;External Pressure (Gauge);External Temperature;User-Defined Calculation Output;Volume from Mag/Vortex Meter;Calculated Mass Flow from Mag Meter Input;Sensor Time Period;
2200	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Net Mass Flow Rate (CM).
2201	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Net Volume Flow Rate (CM).
2202	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Volume from Mag/Vortex Meter.
2203	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Calculated Mass Flow from Mag Meter Input.
2204	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Net Mass Flow Rate (CM).
2205	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Net Volume Flow Rate (CM).
2206	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Volume from Mag/Vortex Meter.
2207	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Calculated Mass Flow from Mag Meter Input.
2208	Keep Existing Assignment;Temperature;Density;Density at Reference (API);Density at Reference (CM);Specific Gravity (CM);Net Mass Flow Rate (CM);Net Volume Flow Rate (CM);Concentration (CM);Drive Gain;External Pressure (Gauge);External Temperature;User-Defined Calculation Output;Dynamic Viscosity;Kinematic Viscosity;Referred Viscosity;Referred Viscosity (Secondary);Volume from Mag/Vortex Meter;Calculated Mass Flow from Mag Meter Input;
2209	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Dynamic Viscosity.
2210	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Kinematic Viscosity.
2211	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Referred Viscosity.
2212	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Referred Viscosity (Secondary).
2213	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Dynamic Viscosity.
2214	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Kinematic Viscosity.
2215	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Referred Viscosity.
2216	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Referred Viscosity (Secondary).
2217	Keep Existing Assignment;Temperature;Density;Drive Gain;External Pressure (Absolute);External Temperature;User-Defined Calculation Output;Specific Gravity (Gas);Relative Density;Molecular Weight;Volume from Mag/Vortex Meter;Base Density (Gas);Calculated Mass Flow from Mag Meter Input;Volume Flow at Reference Temperature;Mass from Coriolis Meter;Sensor Time Period;
2218	Keep Existing Assignment;Temperature;Drive Gain;External Pressure (Absolute);External Temperature;User-Defined Calculation Output;Specific Gravity (Gas);Relative Density;Molecular Weight;Volume from Mag/Vortex Meter;Base Density (Gas);Calculated Mass Flow from Mag Meter Input;Volume Flow at Reference Temperature;Mass from Coriolis Meter;Sensor Time Period;
2219	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to External Pressure (Absolute).
2220	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Specific Gravity (Gas).
2221	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Relative Density.
2222	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Molecular Weight.
2223	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Base Density (Gas).
2224	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Volume Flow at Reference Temperature.
2225	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Mass from Coriolis Meter.
2226	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to External Pressure (Absolute).
2227	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Specific Gravity (Gas).
2228	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Relative Density.
2229	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Molecular Weight.
2230	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Base Density (Gas).
2231	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Volume Flow at Reference Temperature.
2232	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Mass from Coriolis Meter.
2233	Keep Existing Assignment;Temperature;Density;Density at Reference (API);Drive Gain;External Temperature;User-Defined Calculation Output;Dynamic Viscosity;Kinematic Viscosity;Referred Viscosity;Referred Viscosity (Secondary);CCAI;CII;
2234	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to CCAI.
2235	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to CII.
2236	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to CCAI.
2237	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to CII.
2238	A036: Viscosity Out of Limit is set to %0.
2239	Keep Existing Assignment;Temperature;Density;Net Mass Flow Rate (CM);Net Volume Flow Rate (CM);Concentration (CM);Drive Gain;External Pressure (Absolute);External Temperature;User-Defined Calculation Output;Specific Gravity (Gas);Molecular Weight;Wobbe Index;Calorific Value;Percent CO2;Volume from Mag/Vortex Meter;Base Density (Gas);Calculated Mass Flow from Mag Meter Input;Percent N2;Percent H2;Percent CO;Volume Flow at Reference Temperature;Mass from Coriolis Meter;Energy Flow;Sensor Time Period;
2240	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Wobbe Index.
2241	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Calorific Value.
2242	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Percent CO2.
2243	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Percent N2.
2244	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Percent H2.
2245	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Percent CO.
2246	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to Energy Flow.
2247	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Wobbe Index.
2248	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Calorific Value.
2249	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Percent CO2.
2250	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Percent N2.
2251	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Percent H2.
2252	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Percent CO.
2253	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Secondary Variable is set to Energy Flow.
2254	Keep Existing Assignment;Temperature;Density;Net Mass Flow Rate (CM);Net Volume Flow Rate (CM);Concentration (CM);Drive Gain;External Pressure (Absolute);External Temperature;User-Defined Calculation Output;Relative Density;Percent CO2;Volume from Mag/Vortex Meter;Base Density (Gas);Calculated Mass Flow from Mag Meter Input;Percent N2;Percent H2;Percent CO;Volume Flow at Reference Temperature;Mass from Coriolis Meter;Sensor Time Period;
2255	Dynamic Viscosity: Value %0 %1 Kinematic Viscosity: Value %2 %3 Referred Viscosity: Value %4 %5
2256	Referred Viscosity (Secondary): Value %0 %1 Density: Value %2 %3 Temperature: Value %4 %5
2257	Dynamic Viscosity: Value %0 %1 Kinematic Viscosity: Value %2 %3 Density: Value %4 %5
2258	Temperature: Value %0 %1
2259	Kinematic Viscosity: Value %0 %1 Temperature: Value %2 %3
2260	Keep Existing Assignment;Temperature;Density;Dynamic Viscosity;Kinematic Viscosity;
2261	Keep Existing Assignment;Temperature;
2262	Keep Existing Assignment;Kinematic Viscosity;
2263	Density: Value %0 %1 Temperature: Value %2 %3
2264	Specific Gravity (Gas): Value %0 Molecular Weight: Value %1 %2 Density: Value %3 %4
2265	Specific Gravity (Gas): Value %0 Molecular Weight: Value %1 %2 Base Density (Gas): Value %3 %4
2266	Relative Density: Value %0 Base Density (Gas): Value %1 %2 Density: Value %3 %4
2267	Current referred viscosity method is ASTM D341 Single. Select referred viscosity method:
2268	ASTM D341 Single;Multi-curve ASTM;Matrix Referral
2269	Current referred viscosity method is Multi-curve ASTM. Select referred viscosity method:
2270	Current referred viscosity method is Matrix Referral. Select referred viscosity method:
2271	Select the fluid:
2272	Fluid 1;Fluid 2;Fluid 3;Fluid 4;Fluid 5;Fluid 6;Fluid 7;Fluid 8;End;
2273	The ASTM Referral Matrix data was successfully written to the device.
2274	Matrix Referral Results: Fit Accuracy: %0 Fit Result: %1
2275	Click Next to begin viscosity scaling factor calibration.
2276	A calibration is already in progress. Please complete the calibration before starting another one.
2277	Before beginning calibration, the reference chamber must be purged. See the configuration manual for more information.
2278	Select device measurement:
2279	Specific Gravity;Molecular Weight;Relative Density;
2280	Select calibration format (applies to all calibrations):
2281	2-point Calibration;3-point Calibration;
2282	Select calibration number:
2283	1;2;3;4;
2284	Select the calibration option:
2285	Calibration Gas Low;Calibration Gas High;Exit Gas Calibration;
2286	Flow Calibration Gas Low through the meter, and click Next to start the calibration.
2287	Flow Calibration Gas Low has been saved. Click Next to view the results.
2288	The calibration is complete. Ensure that all required calibrations have been performed before beginning measurement: • 2-point calibrations: Calibration Gas Low (K0) and Calibration Gas High (K2).
2289	Flow Calibration Gas High through the meter and click Next to start the calibration.
2290	Flow Calibration Gas High has been saved. Click Next to view the results.
2291	Calibration Gas Low;Calibration Gas Medium;Calibration Gas High;Exit Gas Calibration;
2292	The calibration is complete. Ensure that all required calibrations have been performed before beginning measurement: • 3-point calibrations: Calibration Gas Low (K0), Calibration Gas Medium (K1), and Calibration Gas High (K2).
2293	Flow Calibration Gas Medium through the meter and click Next to start the calibration.
2294	Flow Calibration Gas Medium has been saved. Click Next to view the results.
2295	Calibration Gas Low;Calibration Gas High;
2296	Sensor Time Period: %0 Stability: %1 Calibration Point: %2
2297	Calibration Gas Low;Calibration Gas Medium;Calibration Gas High;
2298	The calibration has been aborted. Ensure that all required calibrations have been performed before beginning measurement: • 2-point calibrations: Calibration Gas Low (K0) and Calibration Gas High (K2).
2299	Flow Calibration Gas Medium has been aborted.
2300	Enter density of pure gas:
2301	Enter density of second gas:
2302	Resetting configuration changed flag. Please wait.
2303	Configuration changed flag has been reset.
2304	The calibration has been aborted. Ensure that all required calibrations have been performed before beginning measurement: • 3-point calibrations: Calibration Gas Low (K0), Calibration Gas Medium (K1), and Calibration Gas High (K2).
2305	The compressibility calculations is disabled. Do you want to enable it?
2306	The compressibility calculations is enabled.
2307	The compressibility calculations is enabled. Do you want to disable it?
2308	The compressibility calculations is disabled.
2309	Fit Accuracy: %0 Fit Result: %1
2310	Select Device Measurement:
2311	Gas Specific Gravity;Relative Density;Molecular Weight
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