HART设备字典

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引用ID	字符串
0	LMT Magnetostrictive Level Transmitter
1	Level Sensor Failure
2	液位传感器故障可能原因：液位传感器故障推荐操作：联系 ABB 服务部门进行更换。
3	Temperature Sensor Failure
4	温度传感器故障可能原因：温度传感器故障推荐操作：联系 ABB 服务部门进行更换。
5	Illegal Memory Access
6	非法访问内存可能原因：非法访问内存。推荐操作：重置设备并重新检查
7	Safety Function Flow Failure
8	安全功能流量错误可能原因：安全功能流量故障推荐操作：重置设备并重新检查
9	Level Sensor Out of Limits
10	液位传感器超限可能原因：液位传感器超限。推荐操作：验证信号质量和波形设置。
11	Temperature Sensor Out of Limits
12	温度传感器超限可能原因：温度传感器超限。推荐操作：验证工艺温度。如果读数与实际工艺温度不匹配，请联系 ABB 服务部门。
13	Self Test Failure
14	可能原因：自检失败。推荐操作：重置设备并重新检查
15	Level Sensor Out of Range
16	主值超出范围可能原因：液位传感器超出范围。推荐操作：检查工艺条件。液位高于 URV 或低于 LRV。如果读数与实际工艺不匹配，请联系 ABB 服务部门。
17	Sensor Board Memory Failure
18	传感器非易失性内存故障可能原因：传感器板内存故障。推荐操作：重置设备并重新检查
19	Sensor Board Non-Volatile Write Error
20	传感器板非易失性写入错误可能原因：传感器板非易失性内存故障。推荐操作：重置设备并重新检查
21	Device Reset Required
22	需要重置设备可能原因：设备配置不完整。推荐操作：重置设备并重新检查
23	Communication Error
24	传感器通信错误可能原因：传感器通信故障。推荐操作：重置设备并重新检查
25	Electronics Non-Volatile Failure
26	电子设备非易失性内存故障可能原因：电子设备板非易失性内存故障推荐操作：重置设备并重新检查
27	Electronics Non-Volatile Syncing Information
28	电子设备非易失性同步可能原因：电子设备非易失性内存同步。推荐操作：无需任何操作。
29	HMI Validation Test Failure
30	HMI 验证测试失败可能原因：HMI 验证测试失败。推荐操作：更换 HMI。
31	Sensor Board Fault
32	传感器板故障可能原因：传感器板发生故障推荐操作：重置设备并重新检查
33	Electronics Power Supply Insufficient Voltage to operate device
34	电子设备输入电压不足可能原因：使用了不适合设备正确运行的错误电压推荐操作：检查 4-20 mA 回路中的电源和串联电阻。
35	Ambient Temp Out of Range
36	环境温度超出范围可能原因：环境条件超出了可接受的设备运行条件。推荐操作：纠正错误的环境条件。
37	Process Temp Warning
38	工艺温度警告可能原因：工艺温度警告。推荐操作：工艺温度超出警告限值。如果读数与实际工艺不匹配，请联系 ABB 服务部门。
39	Process Temp Alarm
40	工艺温度警报可能原因：工艺温度警报。推荐操作：工艺温度超出警告限值。如果读数与实际工艺不匹配，请联系 ABB 服务部门。
41	Data Simulation Warning
42	工艺数据处于模拟模式可能原因：一个或多个测量值处于模拟模式。推荐操作：确认测量值处于模拟模式。
43	Alarm Simulation Warning
44	警报处于模拟模式可能原因：一个或多个警报条件处于模拟模式。推荐操作：测试完成后，退出模拟模式。
45	Current Output in Fixed Mode
46	电流以固定模式输出可能原因：电流输出设为固定模式推荐操作：测试完成后，退出固定输出模式。
47	Primary Current Uncertain
48	一次电流不确定可能原因：当前输出电路发生故障。推荐操作：重置设备并重新检查
49	Electronics ROM Failure
50	电子设备 ROM 故障可能原因：内存自检失败。推荐操作：重置设备并重新检查
51	Electronics RAM Failure
52	电子设备 RAM 故障可能原因：内存自检失败。推荐操作：重置设备并重新检查
53	Non-Volatile Replace Error
54	非易失性内存更换错误可能原因：更换非易失性内存时发生错误。推荐操作：按照手册验证指拨开关设置，然后重新尝试更换操作。
55	Primary Current Saturated
56	一次电流饱和可能原因：电流处于饱和水平。推荐操作：监控工艺条件。
57	Current Output Failure
58	电流输出回读失败可能原因：电流输出回读失败。推荐操作：重置设备并重新检查
59	Process Media Warning
60	工艺介质警告可能原因：工艺介质警告。推荐操作：工艺测量结果超出警告限值。如果读数与实际工艺不匹配，请联系 ABB 服务部门。
61	Process Media Alarm
62	工艺介质警报可能原因：工艺介质警报。推荐操作：工艺测量结果超出警报限值。如果读数与实际工艺不匹配，请联系 ABB 服务部门。
63	Sensor Config Warning
64	可能原因：传感器需要微调。推荐操作：恢复出厂设置，如果问题仍然存在，请联系 ABB 服务部门。
65	CheckFunction
66	Off Specification
67	Maintenance
68	Failure
69	Electronics status
70	Sensor status
71	Configuration status
72	Operating conditions
73	Process operating conditions
74	Diagnostics Simulation
75	.3f
76	QV
77	Force Loop Current
78	D/A Trim
79	Self Test
80	液位
81	容器中产品的高度。
82	液位单位
83	距离测量的工程单位。
84	液位数据质量
85	液位限值状态
86	液位状态
87	液位分类
88	液位设备系列
89	液位最小量程
90	阻尼
91	.2f
92	模拟
93	液位值模拟状态。
94	OFF
95	ON
96	Level Update Period
97	传感器序列号
98	7d
99	Simulate
100	Update Period
101	LIN 0 数据质量
102	LIN 0 限值状态
103	LIN 0 液位状态
104	输出类型
105	线性化输出类型。
106	流量
107	体积
108	液位
109	LIN 0 传感器上限
110	LIN 0 传感器下限
111	LIN 0 最小量程
112	线性化液位最小量程
113	LIN 0 Update Period
114	流量
115	线性化流量值
116	流量单位
117	流量分类
118	LIN 阻尼
119	8.2f
120	线性化液位值模拟状态。
121	Linearized Level-Flow
122	体积
123	线性化体积值
124	体积单位
125	体积分类
126	Linearized Level-Volume
127	缺量
128	缺量值
129	Ullage Data Quality
130	Ullage Limit Status
131	Ullage Status
132	缺量分类
133	缺量传感器上限
134	缺量传感器下限
135	缺量最小量程
136	缺量阻尼
137	缺量值模拟状态。
138	Ullage Update Period
139	界面
140	界面是表面在构成两种不混溶液体之间的共同界线时所处的高度。
141	Interface Data Quality
142	Interface Limit Status
143	Interface Status
144	Interface Classification
145	Interface Device Family
146	界面传感器上限
147	界面传感器下限
148	界面最小量程
149	界面阻尼
150	界面值模拟状态。
151	Interface Update Period
152	LIN 1 值
153	线性化界面值
154	LIN 1 Data Quality
155	LIN 1 Limit Status
156	LIN 1 Status
157	LIN 1 传感器上限
158	LIN 1 传感器下限
159	LIN 1 最小量程
160	线性化界面最小量程
161	模拟设备的线性化界面读数。
162	LIN 1 Update Period
163	LIN 界面单位
164	线性化界面值模拟状态。
165	Linearized Interface-Volume
166	温度
167	温度单位
168	传感器温度单位 — 用于显示传感器温度的工程单位。
169	Temperature Data Quality
170	Temperature Limit Status
171	Temperature Status
172	温度分类
173	温度传感器上限
174	温度传感器下限
175	最小量程
176	阻尼值 — 应用于温度值的阻尼时间常数。此变量的单位始终为秒。
177	温度值模拟状态。
178	Temperature Update Period
179	温度传感器序列号
180	Loop Warning Variables
181	Loop Warning Variables- Variables that display a warning message before new values are sent.
182	Write Variables
183	List of variables that can be edited Offline and written to the device
184	Read Variables
185	List of variables that can be read from the device
186	Select Display Type
187	Select the type of display graph
188	Analog
189	BarGraph
190	Polling Address
191	Polling Address- Address used by the Host to identify a Field Device.
192	Number of Response Preambles
193	Device ID
194	Field Device Revision
195	Universal Revision
196	Final Assembly Number
197	AO Alarm Type
198	Loop Current Mode
199	Long Tag
200	Write Protect
201	PV Loop Current
202	清除表
203	选择“清除表”将完全擦除线性化表中的所有值。
204	恢复表
205	选择“恢复表”将恢复已存储在设备备份文件中的线性化表值。
206	保存表
207	选择“保存表”将把线性化表中的所有值保存到设备 EPROM 中的备份文件。
208	Linearization Table
209	Displays the Linearization Input points, Output points and points status.
210	No.
211	Input Value
212	Output Value
213	Point Status
214	1
215	2
216	3
217	4
218	5
219	6
220	7
221	8
222	9
223	10
224	11
225	12
226	13
227	14
228	15
229	16
230	17
231	18
232	19
233	20
234	21
235	Set LIN Points
236	若要配置线性化点模式
237	软件写入保护
238	指示变量是否可写入现场设备
239	安装方向
240	设备既可安装在顶部，也可安装在底部。
241	Bottom
242	Top
243	服务代码注销
244	偏移
245	偏移从探针底部处 RTD 读取的温度值。
246	运行总时间
247	以天数表示的自上次设备重置以来的运行总时间。
248	CPU 负载
249	CPU 负载百分比。
250	%
251	警报延迟
252	只有当信号至少在警报延迟持续时间内一直丢失时，输出才会进入警报状态。
253	脉冲宽度
254	用于液位测量的能量
255	设备配置
256	选项包括 1 级或 2 级以及带温度或不带温度。
257	Single Level without Temperature
258	Single Level with Temperature
259	Dual Level without Temperature
260	Dual Level with Temperature
261	消隐距离
262	消隐是 LMT 被设置为忽略的一片测量区域，包括喷嘴距离。为了忽略来自探针顶部的反射，可能需要进一步扩大消隐至超过喷嘴。消隐根据单位进行设置。若要调整消隐
263	状态
264	允许远程访问的硬件开关。
265	软件版本
266	电子设备软件版本。
267	硬件版本
268	电子设备硬件版本。
269	传感器软件版本。
270	传感器硬件版本。
271	1.1.0
272	FPGA Revision
273	Field Programmable Gate Array revision.
274	Transducer ID
275	sim points
276	index sim
277	警报
278	液位警报启用/禁用
279	禁用
280	使能
281	警报
282	缺量警报启用/禁用
283	禁用
284	使能
285	界面警报启用/禁用
286	使能
287	温度警报启用/禁用
288	Array Alarm Enable
289	Index Alarm Enable
290	单极
291	信号既可是标准信号，也可是反向信号。
292	标准
293	Reversed
294	阈值
295	阈值电压提供了一种沿波形检测信号的方法。来自工艺反射的信号必须越过此屏障才能被检测为信号。LMT 旨在检测超过阈值的第一个脉冲。可能需要提高阈值来避开基线干扰，或降低阈值来检测正确脉冲。
296	警报源
297	警报选择源可以是软件
298	Software
299	Hardware-Low
300	Hardware-High
301	低饱和
302	模拟输出电流饱和下限。
303	高饱和
304	模拟输出电流饱和上限。
305	低警报
306	模拟输出电流的警报下限。（NAMUR 标准 = 3.6 mA）
307	高警报
308	模拟输出电流的警报上限。（NAMUR 标准 = 21.0 mA）
309	失效模式
310	故障模式指示错误条件下设备回路电流所采取的措施。
311	高
312	低
313	访问级别
314	访问级别可以是“只读”、“标准”、“高级”或“服务”用户
315	Read Only
316	Advanced
317	Service
318	HART 服务代码
319
320	密码错误；访问级别降级为“只读”。
321	LIN 输入点 1
322	线性化输入点 1
323	LIN 输入点 2
324	线性化输入点 2
325	LIN 输入点 3
326	线性化输入点 3
327	LIN 输入点 4
328	线性化输入点 4
329	LIN 输入点 5
330	线性化输入点 5
331	LIN 输入点 6
332	线性化输入点 6
333	LIN 输入点 7
334	线性化输入点 7
335	LIN 输入点 8
336	线性化输入点 8
337	LIN 输入点 9
338	线性化输入点 9
339	LIN 输入点 10
340	线性化输入点 10
341	LIN 输入点 11
342	线性化输入点 11
343	LIN 输入点 12
344	线性化输入点 12
345	LIN 输入点 13
346	线性化输入点 13
347	LIN 输入点 14
348	线性化输入点 14
349	LIN 输入点 15
350	线性化输入点 15
351	LIN 输入点 16
352	线性化输入点 16
353	LIN 输入点 17
354	线性化输入点 17
355	LIN 输入点 18
356	线性化输入点 18
357	LIN 输入点 19
358	线性化输入点 19
359	LIN 输入点 20
360	线性化输入点 20
361	LIN 输入点 21
362	线性化输入点 21
363	LIN 输出点 1
364	线性化输出点 1
365	LIN 输出点 2
366	线性化输出点 2
367	LIN 输出点 3
368	线性化输出点 3
369	LIN 输出点 4
370	线性化输出点 4
371	LIN 输出点 5
372	线性化输出点 5
373	LIN 输出点 6
374	线性化输出点 6
375	LIN 输出点 7
376	线性化输出点 7
377	LIN 输出点 8
378	线性化输出点 8
379	LIN 输出点 9
380	线性化输出点 9
381	LIN 输出点 10
382	线性化输出点 10
383	LIN 输出点 11
384	线性化输出点 11
385	LIN 输出点 12
386	线性化输出点 12
387	LIN 输出点 13
388	线性化输出点 13
389	LIN 输出点 14
390	线性化输出点 14
391	LIN 输出点 15
392	线性化输出点 15
393	LIN 输出点 16
394	线性化输出点 16
395	LIN 输出点 17
396	线性化输出点 17
397	LIN 输出点 18
398	线性化输出点 18
399	LIN 输出点 19
400	线性化输出点 19
401	LIN 输出点 20
402	线性化输出点 20
403	LIN 输出点 21
404	线性化输出点 21
405	LIN 点状态 1
406	线性化点状态 1
407	禁用
408	使能
409	LIN 点状态 2
410	线性化点状态 2
411	LIN 点状态 3
412	线性化点状态 3
413	LIN 点状态 4
414	线性化点状态 4
415	LIN 点状态 5
416	线性化点状态 5
417	LIN 点状态 6
418	线性化点状态 6
419	LIN 点状态 7
420	线性化点状态 7
421	LIN 点状态 8
422	线性化点状态 8
423	LIN 点状态 9
424	线性化点状态 9
425	LIN 点状态 10
426	线性化点状态 10
427	LIN 点状态 11
428	线性化点状态 11
429	LIN 点状态 12
430	线性化点状态 12
431	LIN 点状态 13
432	线性化点状态 13
433	LIN 点状态 14
434	线性化点状态 14
435	LIN 点状态 15
436	线性化点状态 15
437	LIN 点状态 16
438	线性化点状态 16
439	LIN 点状态 17
440	线性化点状态 17
441	LIN 点状态 18
442	线性化点状态 18
443	LIN 点状态 19
444	线性化点状态 19
445	LIN 点状态 20
446	线性化点状态 20
447	LIN 点状态 21
448	线性化点状态 21
449	array points
450	index array points
451	输入单位
452	线性化液位值的输入单位。
453	输入模式
454	要确定如何分配表中的值，可手动输入输入值，或提升罐体液位并自动输入值。 “手动模式”允许将输入值连同所需的各输出液位一起输入。 “自动模式”要求产品液位为设置各输出值时的测量液位。注意：与自动模式相比，手动模式将产生更精确的线性化轮廓。
455	Automatic
456	手动
457	LIN 输入模式 1
458	LIN 输入模式 2
459	LIN 输入模式 3
460	LIN 输入模式 4
461	LIN 输入模式 5
462	LIN 输入模式 6
463	LIN 输入模式 7
464	LIN 输入模式 8
465	LIN 输入模式 9
466	LIN 输入模式 10
467	LIN 输入模式 11
468	LIN 输入模式 12
469	LIN 输入模式 13
470	LIN 输入模式 14
471	LIN 输入模式 15
472	LIN 输入模式 16
473	LIN 输入模式 17
474	LIN 输入模式 18
475	LIN 输入模式 19
476	LIN 输入模式 20
477	LIN 输入模式 21
478	array write points
479	index array write points
480	Output value too large
481	Output value too small
482	Input value too large
483	Input value too small
484	LIN Table Clear
485	LIN Table Reload
486	LIN Table Backup
487	输出最大值
488	此值分配给探针长度沿线的最高可测量点。
489	输出最小值
490	此值分配给探针长度沿线的最低可测量点。它通常会被设置为 0
491	输出单位
492	线性化输出单位允许为线性化表选择所需的输出单位。线性化输出单位可以为液位
493	Invalid Unit Type
494	LIN 输出单位
495	线性化流量单位
496	线性化体积单位
497	线性化液位单位
498	Array Linearization Units
499	Linearization_Units
500	线性化状态
501	如果线性化状态为“活动”
502	位置
503	波形位置
504	Sensor Reference Point
505	界面
506	User Distance
507	End of Probe
508	距离
509	距离单位
510	设置波形 X 轴距离单位。
511	波形起点
512	波形起始位置
513	Increment
514	Distance between each point of the waveform data.
515	上限
516	液位测量的上限值。
517	下限
518	液位测量的下限值。
519	线性化流量测量的上限值。
520	线性化流量测量的下限值。
521	线性化体积测量的上限值。
522	线性化体积测量的下限值。
523	缺量测量的上限值。
524	缺量测量的下限值。
525	界面测量的上限值。
526	界面测量的下限值。
527	温度测量的上限值。
528	温度测量的下限值。
529	array range
530	index array range
531	Invalid span
532	Span too small
533	Horizontal Scale
534	0.25 ft/div
535	0.5 ft/div
536	1 ft/div
537	2 ft/div
538	0.05 m/div
539	0.1 m/div
540	0.2 m/div
541	0.4 m/div
542	3 in/div
543	6 in/div
544	12 in/div
545	24 in/div
546	5 cm/div
547	10 cm/div
548	20 cm/div
549	40 cm/div
550	50 mm/div
551	100 mm/div
552	200 mm/div
553	400 mm/div
554	显示模式
555	设置此页面中的行数和每行的字符数。此外
556	Graph
557	1 row x 6 char
558	1 row x 6 char+Bar
559	1 row x 9 char
560	1 row x 9 char+Bar
561	2 rows x 9 char
562	2 rows x 9 char+Bar
563	3 rows x 9 char
564	关闭
565	第 1 行
566	设置第 1 行中显示的设备变量。
567	Raw Level
568	缺量
569	Current Output %
570	Current Output mA
571	Linearized Level-Flow
572	Linearized Level-Volume
573	温度
574	Raw Interface
575	Linearized Interface-Volume
576	第 2 行
577	设置第 2 行（如有）中显示的设备变量。
578	第 3 行
579	设置第 3 行（如有）中显示的设备变量。
580	条形图
581	设置条形图（如有）中显示的设备变量。
582	Array Operator Pages
583	Index Operator Pages
584	本地操作
585	使用按钮启用本地操作。
586	语言
587	LMT 配备了数种不同操作语言，以便对设备进行设置。当选中某一语言时
588	英语
589	德语
590	法语
591	西班牙语
592	意大利语
593	Russian
594	Chinese
595	Portuguese
596	对比度
597	调整设备 HMI 的对比度。
598	自动滚动
599	使操作者页面在 HMI 上能够自动滚动。
600	日期格式
601	DD-MM-YYYY
602	MM-DD-YYYY
603	YYYY-MM-DD
604	显示器版本
605	显示器版本。
606	Diagnosis Condition Number
607	Diagnosis Condition Details Class
608	Diagnosis Condition Details Group
609	Diagnosis Condition Details Priority
610	Diagnosis Condition Details Alarm Counter
611	Diagnosis Condition Details Alarm Time Counter Day
612	Diagnosis Condition Details Alarm Time Counter Msec
613	Diagnosis Condition Details Time Stamp Last Alarm Day
614	Diagnosis Condition Details Time Stamp Last Alarm Msec
615	Extended Diagnostics 0
616	Diagnosis Condition Details Code
617	Data in Simulation Mode
618	警报处于模拟模式
619	电子设备非易失性内存故障
620	Sensor Non-Volatile Memory Write Failure
621	Electronics Non-Volatile Memory Write Failure
622	Replace Sensor to Electronics Blocked
623	Replace Required Sensor to Electronics Blocked
624	Replace Required Both Directions Enabled
625	安全功能流量错误
626	HMI 验证测试失败
627	Electronics Temperature Too Low
628	Electronics Temperature Too High
629	Invalid Input Value
630	Fail-Safe Low
631	Span Limit High
632	Span Limit Low
633	Hardware Limit Low
634	Hardware Limit High
635	System Limit Low
636	System in Fixed Curent Mode
637	Power Supply Too Low (<10.5 VDC)
638	Power Supply Too High (>40.5 VDC)
639	Current Readback Failed High
640	Current Readback Failed Low
641	电子设备 RAM 故障
642	电子设备 ROM 故障
643	Ambient Temperature Too High
644	Ambient Temperature Too Low
645	Illegal Memory Access Failure
646	Memory Test Failure
647	Electronics Self Test Failure
648	液位传感器故障
649	Level Sensor Warning
650	Level Out of Limits
651	Interface Out of Limits
652	Level Sensor Trim Needed
653	温度传感器故障
654	温度传感器超限
655	Temperature Sensor Trim Needed
656	Sensor Non-Volatile Write Active
657	Sensor Non-Volatile Write Failure
658	Sensor Non-Volatile Failure
659	Sensor Non-Volatile Busy
660	传感器通信错误
661	需要重置设备
662	PV Value Out of Range
663	Level Low Low Alarm
664	Level Low Warning
665	Level High Warning
666	Level High High Alarm
667	Ullage Low Low Alarm
668	Ullage Low Warning
669	Ullage High Warning
670	Ullage High High Alarm
671	Interface Low Low Alarm
672	Interface Low Warning
673	Interface High Warning
674	Interface High High Alarm
675	Level in Simulation Mode
676	Interface in Simulation Mode
677	Ullage in Simulation Mode
678	Temperature in Simulation Mode
679	Volume-Level in Simulation Mode
680	Volume-Interface in Simulation Mode
681	Flow in Simulation Mode
682	Temperature Low Low Alarm
683	Temperature Low Warning
684	Temperature High Warning
685	Temperature High High Alarm
686	Extended Diagnostics 1
687	Extended Diagnostics 2
688	Extended Diagnostics 3
689	Extended Diagnostics 4
690	Extended Diagnostics 5
691	Extended Diagnostics 6
692	Extended Diagnostics 7
693	Extended Diagnostics 8
694	Extended Diagnostics 9
695	Extended Diagnostics 10
696	Extended Diagnostics 11
697	Extended Diagnostics 12
698	Extended Diagnostics 13
699	Ext. Diagnostics 1
700	Ext. Diagnostics 2
701	Extended Diag. 1
702	Extended Diag. 2
703	Extended Diag. 3
704	Extended Diag. 4
705	Extended Diag. 5
706	Extended Diag. 6
707	Extended Diag. 7
708	Masking
709	非法访问内存
710	液位传感器超限
711	自检失败
712	主值超出范围
713	传感器非易失性内存故障
714	传感器板非易失性写入错误
715	传感器通信错误
716	电子设备非易失性内存故障
717	电子设备非易失性同步
718	传感器板故障
719	电子设备输入电压不足
720	环境温度超出范围
721	工艺温度警告
722	工艺温度警报
723	工艺数据处于模拟模式
724	警报处于模拟模式
725	电流以固定模式输出
726	一次电流不确定
727	非易失性内存更换错误
728	一次电流饱和
729	Current Output Failure
730	工艺介质警告
731	工艺介质警报
732	需要微调传感器
733	Diagnostics simulation status
734	模拟
735	System in Fixed Current Mode
736	液位传感器故障
737	Sensor Board Fault
738	Temperature Sensor Trim Needed
739	Sensor Non-Volatile Write Error
740	Flow in simulation mode
741	Process Temperature Low Low Alarm
742	Process Temperature Low Warning
743	Process Temperature High Warning
744	Process Temperature High High Alarm
745	温度传感器超限
746	低低
747	“温度低低警报”状态位设置在此温度值之下。
748	‘“温度低警报”状态位设置在此温度值之下。
749	“温度高警报”状态位设置在此温度值之上。
750	高高
751	“温度高高警报”状态位设置在此温度值之上。
752	Array T Alarm
753	Index Array T Alarm
754	电子设备温度
755	设备周围的环境温度。
756	工艺最低温度
757	工艺的最低记录温度。
758	工艺最高温度
759	工艺的最高记录温度。
760	设置标准密码
761	更改标准访问级别密码。
762	65535
763	设置高级密码
764	更改高级访问级别密码。
765	Array Write Password
766	Index Write Passowrd
767	传感器 ID
768	设备传感器 ID
769	Array Alarm Non Media Level Points
770	index array alarm Non Media Level points
771	array alarm limit low low
772	index array alarm limit low low
773	array alarm limit low
774	index array alarm limit low
775	array alarm limit high
776	index array alarm limit high
777	array alarm limit high high
778	index array alarm limit high high
779	Sensor Status Byte 0
780	Sensor defect
781	Sensor Unknown
782	Sensor Value Invalid
783	Sensor Signal Lost
784	Sensor Signal Interface
785	Critical Siganl to Noise Ratio
786	New Sensor Settings Necessary
787	Sensor Status Byte 1
788	Additional Sensor defect
789	Additional Sensor Value Invalid
790	Level Status Byte 0
791	Level below Level Alarm Low Low
792	Level below Low Alarm Low
793	Level below Level Alarm High
794	Level above Level Alarm High High
795	Distance in Blocking Distance Low
796	Distance in Blocking Distance High
797	Level Status Byte 1
798	New Calibration necessary
799	Incorrect Calibration
800	New Level Settings Necessary
801	Interface Status Byte 0
802	Interface below Level Alarm Low Low
803	Interface below Low Alarm Low
804	Interface below Level Alarm High
805	Interface above Level Alarm High High
806	Interface Status Byte 1
807	Array Status
808	Index Array Status
809	Family revision
810	Additional Sensor Availability
811	Additional Sensor Device Variable Availability
812	Not Available
813	Available
814	Ullage Available
815	Ullage Device Variable Available
816	传感器技术代码
817	现场设备中传感器的类型。
818	Magnetostrictive
819	Num of Calibration Points
820	Maximum number of Calibration Points
821	Sensor Compensation Availbility
822	Blocking Distances Availbility
823	No Blocking Distance
824	Only Blocking Distance High
825	Only Blocking Distance Low
826	Both Blocking Distances
827	未知
828	Special
829	Array Level Family Capability
830	Index Level Family Capability
831	Device Variable Code Media Level
832	Device Variable Code of the Media Level
833	Device Variable Code Ullage Level
834	Device Variable Code of the Ullage Level
835	Device Variable Code Additional Sensor
836	Device Variable Code of the Additional Sensor
837	Additional Sensor Not Used
838	Classification Additional Sensor
839	Array Read Level Family Device Variable Values
840	Index Read Level Family Device Variable Values
841	Additional Sensor Unit
842	Additional Sensor Value
843	Sensor Unit Type
844	Sensor Units Type
845	Measured Level Value
846	The level of the product in the vessel before Level Offset
847	Measured Interface Value
848	The interface of the product in the vessel before Interface Offset
849	Sensor Value
850	Raw Sensor Value
851	Array Read Level Family Internal Variable Values
852	Index Read Level Family Internal Variable Values
853	传感器偏移（液位）
854	可用于补偿探针下方的不可测量区域，或使 LMT 的测量与其他设备保持一致。
855	传感器偏移（界面）
856	Sensor Compensation
857	液位偏移
858	添加至测量电平以给出介质电平的值
859	界面偏移
860	添加至测量界面以给出介质界面的值
861	缺量参考点
862	缺量液位为 0 的液位。
863	“液位低低警报”状态位设置在此液位值之下。
864	“液位低警报”状态位设置在此液位值之下。
865	“液位高警报”状态位设置在此液位值之下。
866	高高
867	“液位高高警报”状态位设置在此液位值之下。
868	“缺量低低警报”状态位设置在此缺量值之下。
869	“缺量低警报”状态位设置在此缺量值之下。
870	“缺量高警报”状态位设置在此缺量值之上。
871	“缺量高高警报”状态位设置在此缺量值之上。
872	“界面低低警报”状态位设置在此界面值之下。
873	“界面低警报”状态位设置在此界面值之下。
874	“界面高警报”状态位设置在此界面值之上。
875	“界面高高警报”状态位设置在此界面值之上。
876	Array Alarm Points
877	index array alarm points
878	探针长度
879	设备电位最高参考点与传感器参考点之间的距离。
880	Blocking Distance Low
881	Blocking Distance High
882	Calibration Index
883	Index A
884	Index B
885	Calibration Function Code
886	Change
887	传感器上限
888	校准时的传感器上限。它对应于液位上限（LMT 校准表中使用 2 个液位点）。
889	传感器下限
890	校准时的传感器下限。它对应于液位下限（LMT 校准表中使用 2 个液位点）。
891	液位上限
892	校准时的液位上限。它对应于传感器上限（LMT 校准表中使用 2 个液位点）。
893	液位下限
894	校准时的液位下限。它对应于传感器下限（LMT 校准表中使用 2 个液位点）。
895	校准时的传感器上限。它对应于界面上限（LMT 校准表中使用 2 个界面点）。
896	校准时的传感器下限。它对应于界面下限（LMT 校准表中使用 2 个界面点）。
897	界面上限
898	校准时的界面上限。它对应于传感器上限（LMT 校准表中使用 2 个界面点）。
899	界面下限
900	校准时的界面下限。它对应于传感器下限（LMT 校准表中使用 2 个界面点）。
901	警报限值选择
902	警报限值选择代码
903	Level Point too large
904	Level Point too small
905	Identical Sensor Point already specified
906	Non-Monotonic Calibration
907	Delete calibration point not supported
908	Gain
909	Service Account
910	Disable
911	Enable
912	标准登录
913	登录至标准访问级别。
914	高级登录
915	登录至高级访问级别。
916	服务登录
917	登录至服务访问级别。
918	注销访问级别
919	返回至最低访问级别。
920	更改标准密码
921	更改标准访问级别密码
922	更改高级密码
923	更改高级访问级别密码
924	重置 D/A 微调
925	重置设备 D/A 微调点为出厂设置。
926	重置密码为默认值
927	重置标准和高级密码为出厂默认值。
928	设置液位下限
929	通过将液位下限值写入设备并使用设备测量和存储相关传感器值来执行校准。
930	设置液位上限
931	通过将液位上限值写入设备并使用设备测量和存储相关传感器值来执行校准。
932	设置界面下限
933	通过将界面下限值写入设备并使用设备测量和存储相关传感器值来执行校准。
934	设置界面上限
935	通过将界面上限值写入设备并使用设备测量和存储相关传感器值来执行校准。
936	清除诊断历史记录
937	清除设备中的诊断历史记录。
938	清除工艺温度历史记录
939	重置记录的最高和最低工艺温度。
940	模拟设备的液位读数。
941	模拟设备的线性化液位读数。
942	模拟设备的缺量读数。
943	模拟设备的界面读数。
944	模拟设备的温度读数。
945	Clear Diagnostics Simulated
946	Clear all diagnostics simulated.
947	Reset Level Trim
948	Reset the device level trim points to factory settings.
949	Reset Interface Trim
950	Reset the device interface trim points to factory settings.
951	Reset Temperature Trim
952	Reset the device temperature trim points to factory settings.
953	DeviceHealthVariable
954	Click for Updated Diagnostics
955	Change Display Mode
956	command 3
957	Change Device Configuration
958	Change Linearization State
959	Change Output Type
960	Process Variables
961	Device Settings
962	Diagnostics
963	设备
964	Additional device revisions
965	Electronics Revision
966	Sensor Revision
967	Device Data
968	Additional Info
969	LMT Device Image
970	Device image
971	Easy Setup
972	Waveform
973	Device Setup
974	Basic Setup
975	General
976	PV Setup
977	Device Characteristics
978	Input/Output
979	HRT Mapping
980	Analog Output
981	温度传感器
982	Current Output Limits
983	Current Saturation Limits
984	Alarm Limits
985	Current Output Alarm
986	Communication
987	Linearization
988	Setup
989	Configure Table
990	Device Variables
991	Display
992	Display Settings
993	Operator Page 1
994	Operator Page 2
995	Operator Page 3
996	Operator Page 4
997	校准
998	PV Range Values
999	Current Output
1000	Simulation
1001	Output Current
1002	Diagnostics Monitoring
1003	Displays the current device diagnostics.
1004	Device Status
1005	Device Status : OK
1006	Failure
1007	Function Check
1008	Out of Specification
1009	Maintenance Required
1010	OK
1011	Electronics
1012	Operating Conditions
1013	Diagnostics History
1014	Displays the history of device diagnostics.
1015	Sensor
1016	Configuration
1017	Diagnostics Masking
1018	To mask the device diagnostics.
1019	To simulate the device diagnostics.
1020	Level out of limits
1021	Interface out of limits
1022	Interface in simulation mode
1023	Temperature in simulation mode
1024	Volume-Level in simulation mode
1025	Volume-Interface in simulation mode
1026	Temperature sensor trim needed
1027	Temperature sensor out of limits
1028	Temperature low warning
1029	Temperature high warning
1030	Temperature low low alarm
1031	Temperature high high alarm
1032	Interface low warning
1033	Interface high warning
1034	Interface low low alarm
1035	Interface high high alarm
1036	Process Temperature History
1037	Process Alarms
1038	在传感器参考点处
1039	在液位
1040	在界面
1041	在探针末端处
1042	在用户距离处
1043	Device Self Test
1044	Sensor Info
1045	Sensor Setup
1046	Sensor Limits
1047	Access
1048	Access Level Status
1049	登录访问级别
1050	Read Only Switch
1051	Clear Temperature History
1052	Factory Trimming
1053	Change Password
1054	Calibrated Points
1055	Dry Calibration
1056	用于执行干态校准，此时传感器点和液位点均由用户提交。
1057	湿态校准
1058	通过将液位值写入设备并使用设备测量和存储相关传感器值来执行校准。
1059	用于执行干态校准，此时传感器点和界面点均由用户提交。
1060	通过将界面值写入设备并使用设备测量和存储相关传感器值来执行校准。
1061	www.abb.com
1062	Image of Transmitter
1063	Gauge
1064	轻松设置
1065	Offline
1066	Detailed Setup
1067	General
1068	Linearization
1069	Configuration
1070	设置线性化点
1071	校准
1072	Login
1073	Sensor Trim Factory Reset
1074	Diagnostics
1075	Overview
1076	Possible Cause: An error occurred in the sensor module. Possible cause could be a failed component in the sensor electronics or an error changing the configuration. Suggested Action: Restart the device. If the condition persists contact service for a replacement.
1077	Error Code: F198.000
1078	Possible Cause: An error occurred in the sensor module. Possible cause could be a failed component in the sensor electronics or an error changing the configuration.
1079	Suggested Action: Restart the device. If the condition persists contact service for a replacement.
1080	Possible Cause: A temperature measurement has resulted in a value outside of the operating range. Suggested Action: Restart the device. If the condition persists contact service for a replacement.
1081	Error Code: S098.001
1082	Possible Cause: A temperature measurement has resulted in a value outside of the operating range.
1083	Possible Cause: Illegal memory access. Suggested Action: Restart device and recheck, contact ABB if problem persists.
1084	Error Code: F245.002
1085	Possible Cause: Illegal memory access.
1086	Suggested Action: Restart device and recheck, contact ABB if problem persists.
1087	Possible Cause: Calculation of safety function did not occur in the proper sequence. Suggested Action: Restart the device. If the condition persists contact service for a replacement.
1088	Error Code: F244.003
1089	Possible Cause: Calculation of safety function did not occur in the proper sequence.
1090	Possible Cause: Result of the Level measurement is outside of the valid and expected range. Suggested Action: Using the HART configurator (DTM - Handheld) or the local HMI, navigate to the Diagnostics -> Waveform display and confirm the quality of the signal. The signal peak should visibly cross the threshold line and should measure approximately 2 Volts. Contact ABB service for additional support or a replacement if the condition persists.
1091	Error Code: F215.004
1092	Possible Cause: Result of the Level measurement is outside of the valid and expected range.
1093	Suggested Action: Using the HART configurator (DTM - Handheld) or the local HMI, navigate to the Diagnostics -> Waveform display and confirm the quality of the signal. The signal peak should visibly cross the threshold line and should measure approximately 2 Volts. Contact ABB service for additional support or a replacement if the condition persists.
1094	Possible Cause: Suggested Action: Restart the device. If the condition persists contact service for a replacement.
1095	Error Code: F248.006
1096	Possible Cause:
1097	Possible Cause: Writing to the sensor non-volatile memory was not successful. Suggested Action: The sensor should be replaced as soon as possible.
1098	Error Code: F212.017
1099	Possible Cause: Writing to the sensor non-volatile memory was not successful.
1100	Suggested Action: The sensor should be replaced as soon as possible.
1101	Possible Cause: An error occurred in communication between the sensor and electronics modules. Suggested Action: Restart the device. If the condition persists contact service for a replacement.
1102	Error Code: F196.020
1103	Possible Cause: An error occurred in communication between the sensor and electronics modules.
1104	Possible Cause: Electronics memory is corrupted. Suggested Action: The electronics must be replaced.
1105	Error Code: F218.023
1106	Possible Cause: Electronics memory is corrupted.
1107	Suggested Action: The electronics must be replaced.
1108	Possible Cause: An error occurred in the sensor module. Possible causes could be a failed component in the sensor electronics, a configuration error, or the sensor assembly. Suggested Action: Using a HART configuration (DTM - Hand held) or the local HMI, navigate to the Diagnostics -> Waveform display and confirm the quality of the signal. The signal peak should visibly cross the threshold line and should measure approximately 2 volts. Contact ABB service for additional support or a replacement if the condition persists.
1109	Error Code: F194.031
1110	Possible Cause: An error occurred in the sensor module. Possible causes could be a failed component in the sensor electronics, a configuration error, or the sensor assembly.
1111	Suggested Action: Using a HART configuration (DTM - Hand held) or the local HMI, navigate to the Diagnostics -> Waveform display and confirm the quality of the signal. The signal peak should visibly cross the threshold line and should measure approximately 2 volts. Contact ABB service for additional support or a replacement if the condition persists.
1112	Possible Cause: The D to A convert is not properly calibrated or trimmed. Suggested Action: A DAC(digital to output converter) trimming should be performed and if the error persists the communication board must be replaced. Possible Cause: The device is not properly configured. Suggested Action: Check the device configuration.
1113	Error Code: F228.039
1114	Possible Cause: The D to A convert is not properly calibrated or trimmed.
1115	Suggested Action: A DAC(digital to output converter) trimming should be performed and if the error persists the communication board must be replaced.
1116	Possible Cause: The device is not properly configured.
1117	Suggested Action: Check the device configuration.
1118	Possible Cause: Program memory test failed. Suggested Action: Restart the device. If condition persists contact service for a replacement.
1119	Error Code: F247.040
1120	Possible Cause: Program memory test failed.
1121	Suggested Action: Restart the device. If condition persists contact service for a replacement.
1122	Possible Causes: 1)Electronics memory test failed. 2)Process data memory check failed (dynamic duplicated error). Suggested Action: Restart the device. If condition persists contact service for a replacement.
1123	Error Code: F246.041
1124	Possible Causes: 1)Electronics memory test failed. 2)Process data memory check failed (dynamic duplicated error).
1125	Possible Cause: The electronics or the sensor have been changed but the replacement operation has not been executed. Suggested Actions: 1)The replacement operation must be executed. Set the SW1 of the electronics to the position 1 to enable the replace mode. Set SW2 accordingly depending on which component (Electronics or Sensor) has been replaced. Power cycle the device. Move the SW1 of the electronics to position 0. 2)The replacement operation must be executed. Only the data of the electronics can be copied to the sensor. Set the SW1 of the electronics to position 1 to enable the replace mode. Set SW2 to New Sensor position 1. Power cycle of the device. Move the SW1 of the electronics to position 0. Possible Cause: The Electronics of the Sensor have been changed. The replacement has been enabled but with the wrong direction (SW2 = 0). Suggested Action: Change the replacement direction (if possible). The SW1 is already set to Enable replace mode. Set SW2 to New Sensor (1). Power cycle the device. Move the SW1 of the electronics to position 0.
1126	Error Code: F210.042
1127	Possible Cause: The electronics or the sensor have been changed but the replacement operation has not been executed.
1128	Suggested Actions: 1)The replacement operation must be executed. Set the SW1 of the electronics to the position 1 to enable the replace mode. Set SW2 accordingly depending on which component (Electronics or Sensor) has been replaced. Power cycle the device. Move the SW1 of the electronics to position 0. 2)The replacement operation must be executed. Only the data of the electronics can be copied to the sensor. Set the SW1 of the electronics to position 1 to enable the replace mode. Set SW2 to New Sensor position 1. Power cycle of the device. Move the SW1 of the electronics to position 0.
1129	Possible Cause: The Electronics of the Sensor have been changed. The replacement has been enabled but with the wrong direction (SW2 = 0).
1130	Suggested Action: Change the replacement direction (if possible). The SW1 is already set to Enable replace mode. Set SW2 to New Sensor (1). Power cycle the device. Move the SW1 of the electronics to position 0.
1131	Possible Cause: The output circuit could be broken or not correctly calibrated. Suggested Action: A DAC(digital to output converter) trimming should be performed and if the error persists the communication board must be replaced.
1132	Error Code: F226.044
1133	Possible Cause: The output circuit could be broken or not correctly calibrated.
1134	Suggested Action: A DAC (digital to output converter) trimming should be performed and if the error persists the communication board must be replaced.
1135	Possible Cause: An attempt to save data to the sensor module is failed. Suggested Action: Restart the device. If the condition persists contact service.
1136	Error Code: C211.018
1137	Possible Cause: An attempt to save data to the sensor module is failed.
1138	Suggested Action: Restart the device. If the condition persists contact service.
1139	Possible Cause: Device change require restart. Suggested Action: Restart device.
1140	Error Code: C200.019
1141	Possible Cause: Device change require restart.
1142	Suggested Action: Restart device.
1143	Possible Cause: The Level Value produced in output is derived by the value simulated in input. Suggested Action: Using a HART configurator(DTM - Hand held) place device back in normal operating mode (Remove input simulation).
1144	Error Code: C138.036
1145	Possible Cause: The Level Value produced in output is derived by the value simulated in input.
1146	Suggested Action: Using a HART configurator(DTM - Hand held) place device back in normal operating mode (Remove input simulation).
1147	Possible Cause: An alarm condition is being simulated by the device. Suggested Action: Using a HART configurator(DTM - Hand held) place device back in normal operating mode (Remove input simulation).
1148	Error Code: C139.037
1149	Possible Cause: An alarm condition is being simulated by the device.
1150	Possible Cause: Output current is in fixed mode. This could be due to the device being used in multidrop mode or a simulation. Suggested Action: Using a HART configuration (DTM - Haand held) place device back in normal operating mode (Remove inputs simulation).
1151	Error Code: C220.038
1152	Possible Cause: Output current is in fixed mode. This could be due to the device being used in multidrop mode or a simulation.
1153	Suggested Action: Using a HART configuration (DTM - Haand held) place device back in normal operating mode (Remove inputs simulation).
1154	Possible Causes: 1)The Level sensor trim is set to a default value. 2)The Temperature trimming configured is corrupted. Suggested Action: Contact service to perform a factory level sensor trim.
1155	Error Code: C154.047
1156	Possible Causes: 1)The Level sensor trim is set to a default value. 2)The Temperature trimming configured is corrupted.
1157	Suggested Action: Contact service to perform a factory level sensor trim.
1158	Possible Cause: Result of temperature measurement above or below process range. Suggested Action: Restart the device. If condition persists contact service for a replacement. The Compatibility of level transmitter model and process condition has to be checked. Probably a different transmitter type is required.
1159	Error Code: S096.005
1160	Possible Cause: Result of temperature measurement above or below process range.
1161	Suggested Action: Restart the device. If condition persists contact service for a replacement. The Compatibility of level transmitter model and process condition has to be checked. Probably a different transmitter type is required.
1162	Possible Cause: Primary sensor reading above or below range values. Suggested Action: Check process conditions and/or device configuration. The compatibility of level transmitter model and process condition has to be checked. Probably a different transmitter type is required.
1163	Error Code: S148.010
1164	Possible Cause: Primary sensor reading above or below range values.
1165	Suggested Action: Check process conditions and/or device configuration. The compatibility of level transmitter model and process condition has to be checked. Probably a different transmitter type is required.
1166	Possible Cause: Power supply too high or too low. Suggested Action: Check power supply voltage at the device terminal is at least 12 Vdc.
1167	Error Code: S238.032
1168	Possible Cause: Power supply too high or too low.
1169	Suggested Action: Check power supply voltage at the device terminal is at least 12 Vdc.
1170	Possible Causes: 1)Ambient temperature too high or too low. 2)Temperature compenstaion saturated high or low. Suggested Action: Check ambient temperature.
1171	Error Code: S222.033
1172	Possible Causes: 1)Ambient temperature too high or too low. 2)Temperature compenstaion saturated high or low.
1173	Suggested Action: Check ambient temperature.
1174	Possible Cause: Process temperature above or below warning limits. Suggested Action: Check process condition. The compatibility of level transmitter model and process condition has to be checked. Probably a different transmitter type is required.
1175	Error Code: S044.034
1176	Possible Cause: Process temperature above or below warning limits.
1177	Suggested Action: Check process condition. The compatibility of level transmitter model and process condition has to be checked. Probably a different transmitter type is required.
1178	Error Code: S046.035
1179	Possible Cause: Current saturated high or low. Suggested Action: Check process condition and/or device configuration. The compatibility of the level transmitter model and process condition has to be checked. Probably a different transmitter type is required.
1180	Error Code: S244.043
1181	Possible Cause: Current saturated high or low.
1182	Suggested Action: Check process condition and/or device configuration. The compatibility of the level transmitter model and process condition has to be checked. Probably a different transmitter type is required.
1183	Possible Cause: Process value above high limit or below low limit. Suggested Action: Check process condition and/or device configuration. The compatibility of level transmitter model and process condition has to be checked. Probably a different transmitter type is required.
1184	Error Code: S140.045
1185	Possible Cause: Process value above high limit or below low limit.
1186	Suggested Action: Check process condition and/or device configuration. The compatibility of level transmitter model and process condition has to be checked. Probably a different transmitter type is required.
1187	Possible Cause: Process value above high high limit or below low low limit. Suggested Action: Check process condition and/or device configuration. The compatibility of level transmitter model and process condition has to be checked. Probably a different transmitter type is required.
1188	Error Code: S146.046
1189	Possible Cause: Process value above high high limit or below low low limit.
1190	Possible Cause: HMI failed validation test. Suggested Action: Replace HMI.
1191	Error Code: M130.030
1192	Possible Cause: HMI failed validation test.
1193	Suggested Action: Replace HMI.
1194	Possible Causes: 1)Write Non-Volatile command received from CB. 2)Non-volatile Storage in progress. Suggested Action: .
1195	Error Code: _156.025
1196	Possible Causes: 1)Write Non-Volatile command received from CB. 2)Non-volatile Storage in progress.
1197	Suggested Action:
1198	Note : To change access level, navigate to access menu in detailed setup
1199	Process variable
1200	Diagnostics status
1201	Maintenance required
1202	OK
1203	NAMUR NE107
1204	One or more device variables (i.e. measurement or control values) are invalid due to a malfunction in the field device or ist peripherals
1205	One or more device variables are temporarily invalid (e.g. frozen) due to ongoing work on the device
1206	There are deviations from the permissible ambient or process conditions detected that may compromise measurement or control accuracy (i.e. device performance may be degraded)
1207	The field device requires maintenance
1208	No Active Alarm exists
1209	好的
1210	Process Value[mA]
1211	Loop Current(mA)
1212	Detailed Setup
1213	Function Check
1214	Out of Specification
1215	要求维护
1216	过程变量
1217	Percent range(%)
1218	Percent range
1219	FEHWExtract
1220	feHW_MajVer
1221	feHW_MinVer
1222	TH Level Scaled
1223	Blanking Scaled
1224	零点
1225	零点线
1226	显示传感器参考点处的波形数据。图例波形 — 蓝色消隐距离 — 紫色阈值 — 绿色零点 — 红色
1227	显示液位处的波形数据。图例波形 — 蓝色消隐距离 — 紫色阈值 — 绿色零点 — 红色
1228	显示界面处的波形数据。图例波形 — 蓝色消隐距离 — 紫色阈值 — 绿色零点 — 红色
1229	显示用户距离处的波形数据。图例波形 — 蓝色消隐距离 — 紫色阈值 — 绿色零点 — 红色
1230	显示探针末端处的波形数据。图例波形 — 蓝色消隐距离 — 紫色阈值 — 绿色零点 — 红色
1231	PV Analog Channel Saturated
1232	PV Analog Channel Fixed
1233	Wireless
1234	WirelessHART Device
1235	IEEE 802.15.4 2.4GHz DSSS with O-QPSK Modulation
1236	Primary
1237	Primary Analog Channel
1238	Secondary
1239	Secondary Analog Channel
1240	Tertiary
1241	Tertiary Analog Channel
1242	Quaternary
1243	Quaternary Analog Channel
1244	Quinary
1245	Quinary Analog Channel
1246	Critical Power Failure
1247	Lock all
1248	Trim not supported
1249	Configuration cannot be changed
1250	Locked by gateway
1251	Analog Input Channel
1252	Analog Output Channel
1253	Secondary Analog Channel Saturated
1254	Tertiary Analog Channel Saturated
1255	Quaternary Analog Channel Saturated
1256	Quinary Analog Channel Saturated
1257	Secondary Analog Channel Fixed
1258	Tertiary Analog Channel Fixed
1259	Quaternary Analog Channel Fixed
1260	Quinary Analog Channel Fixed
1261	Simulation active
1262	The device is in simulation mode and the level output is not representative of the process.
1263	Non-Volatile memory failure
1264	The Non-Volatile memory check is invalid or maybe corrupt, or the battery of a battery-backed memory has failed.
1265	Volatile memory error
1266	The RAM memory check is invalid or maybe corrupt
1267	Watchdog reset executed
1268	A watchdog reset has been performed
1269	Voltage conditions out of range
1270	A voltage condition is outside its allowable range
1271	Environmental conditions out of range
1272	An internal or environmental condition is beyond acceptable limits.
1273	Electronic failure
1274	A hardware problem not related to the sensor has been detected.
1275	Subdevice list changed
1276	Duplicate master detected
1277	Capacity Denied
1278	The device was unable to acquire the communication bandwidth required to support the Burst Messaging specified
1279	Bandwidth allocation pending
1280	Block transfer pending
1281	Battery life
1282	Percent range
1283	Loop current
1284	Primary variable
1285	Secondary variable
1286	Tertiary variable
1287	Quaternary variable
1288	Read receive time
1289	Write date and time
1290	Non-Volatile Clock
1291	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.
1292	Clock Uninitialized
1293	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.
1294	None
1295	No restrictions
1296	SI Only
1297	Restricted to SI Unit codes only
1298	Process automation device
1299	Discrete device
1300	Hybrid:Process automation+discrete
1301	I/O System
1302	WirelessHART Process automation device
1303	WirelessHART Discrete device
1304	WirelessHART Process automation+discrete
1305	WirelessHART Gateway
1306	WirelessHART Access point
1307	WirelessHART Process adapter
1308	WirelessHART Discrete adapter
1309	WirelessHART enabled handheld/portable maintenance tool
1310	Device Profile
1311	US
1312	United States of America
1313	JP
1314	Japan
1315	DE
1316	Germany
1317	FR
1318	France
1319	ES
1320	Spain
1321	RU
1322	Russian Federation
1323	CN
1324	People's Republic of China
1325	Secondary Master
1326	Primary Master
1327	Device Diagnostic Status 0
1328	Device Diagnostic Status 1
1329	I/O and Subdevice Status
1330	WirelessHART Status
1331	Time Set Option
1332	Real Time Clock Flags
1333	Country
1334	Country of intended device installation
1335	SI Unit Control
1336	Indicates if device should only display SI unit codes
1337	Time Stamp
1338	Relative time value on network
1339	8u
1340	Dynamic Variables Returned for Device Variables
1341	Command Response Truncated
1342	Configuration Change Counter Mismatch
1343	Status bytes mismatch
1344	8.3f
1345	Device Variable
1346	Variable to trim
1347	Are you sure you want to clear the linearization table to factory defaults?
1348	Clearing linearization table in progress...
1349	Clearing linearization table completed.
1350	Are you sure you want to restore the linearization table from backup?
1351	Linearization table reload in progress...
1352	Linearization table reload completed.
1353	Are you sure you want to save the linearization table to backup?
1354	Linearization table backup completed.
1355	Please select the point to configure
1356	Point 1;Point 2;Point 3;Point 4;Point 5;Point 6;Point 7;Point 8;Point 9;Point 10;Point 11;Point 12;Point 13;Point 14;Point 15;Point 16;Point 17;Point 18;Point 19;Point 20;Point 21;Exit
1357	Linearization Input Point 1 Mode
1358	Level Value is: %{0} %{1}. Press OK when stable.
1359	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 1:
1360	Linearization Point 1 status
1361	Linearization Point 1 Saved.
1362	Enter Linearization Input Point 1
1363	Enter Linearization Output Point 1
1364	Linearization Input Point 2 Mode
1365	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 2:
1366	Linearization Point 2 status
1367	Linearization Point 2 Saved.
1368	Enter Linearization Input Point 2
1369	Enter Linearization Output Point 2
1370	Linearization Input Point 3 Mode
1371	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 3:
1372	Linearization Point 3 status
1373	Linearization Point 3 Saved.
1374	Enter Linearization Input Point 3
1375	Enter Linearization Output Point 3
1376	Linearization Input Point 4 Mode
1377	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 4:
1378	Linearization Point 4 status
1379	Linearization Point 4 Saved.
1380	Enter Linearization Input Point 4
1381	Enter Linearization Output Point 4
1382	Linearization Input Point 5 Mode
1383	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 5:
1384	Linearization Point 5 status
1385	Linearization Point 5 Saved.
1386	Enter Linearization Input Point 5
1387	Enter Linearization Output Point 5
1388	Linearization Input Point 6 Mode
1389	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 6:
1390	Linearization Point 6 status
1391	Linearization Point 6 Saved.
1392	Enter Linearization Input Point 6
1393	Enter Linearization Output Point 6
1394	Linearization Input Point 7 Mode
1395	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 7:
1396	Linearization Point 7 status
1397	Linearization Point 7 Saved.
1398	Enter Linearization Input Point 7
1399	Enter Linearization Output Point 7
1400	Linearization Input Point 8 Mode
1401	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 8:
1402	Linearization Point 8 status
1403	Linearization Point 8 Saved.
1404	Enter Linearization Input Point 8
1405	Enter Linearization Output Point 8
1406	Linearization Input Point 9 Mode
1407	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 9:
1408	Linearization Point 9 status
1409	Linearization Point 9 Saved.
1410	Enter Linearization Input Point 9
1411	Enter Linearization Output Point 9
1412	Linearization Input Point 10 Mode
1413	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 10:
1414	Linearization Point 10 status
1415	Linearization Point 10 Saved.
1416	Enter Linearization Input Point 10
1417	Enter Linearization Output Point 10
1418	Linearization Input Point 11 Mode
1419	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 11:
1420	Linearization Point 11 status
1421	Linearization Point 11 Saved.
1422	Enter Linearization Input Point 11
1423	Enter Linearization Output Point 11
1424	Linearization Input Point 12 Mode
1425	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 12:
1426	Linearization Point 12 status
1427	Linearization Point 12 Saved.
1428	Enter Linearization Input Point 12
1429	Enter Linearization Output Point 12
1430	Linearization Input Point 13 Mode
1431	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 13:
1432	Linearization Point 13 status
1433	Linearization Point 13 Saved.
1434	Enter Linearization Input Point 13
1435	Enter Linearization Output Point 13
1436	Linearization Input Point 14 Mode
1437	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 14:
1438	Linearization Point 14 status
1439	Linearization Point 14 Saved.
1440	Enter Linearization Input Point 14
1441	Enter Linearization Output Point 14
1442	Linearization Input Point 15 Mode
1443	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 15:
1444	Linearization Point 15 status
1445	Linearization Point 15 Saved.
1446	Enter Linearization Input Point 15
1447	Enter Linearization Output Point 15
1448	Linearization Input Point 16 Mode
1449	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 16:
1450	Linearization Point 16 status
1451	Linearization Point 16 Saved.
1452	Enter Linearization Input Point 16
1453	Linearization Input Point 17 Mode
1454	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 17:
1455	Linearization Point 17 status
1456	Linearization Point 17 Saved.
1457	Enter Linearization Input Point 17
1458	Enter Linearization Output Point 17
1459	Linearization Input Point 18 Mode
1460	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 18:
1461	Linearization Point 18 status
1462	Linearization Point 18 Saved.
1463	Enter Linearization Input Point 18
1464	Enter Linearization Output Point 18
1465	Linearization Input Point 19 Mode
1466	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 19:
1467	Linearization Point 19 status
1468	Linearization Point 19 Saved.
1469	Enter Linearization Input Point 19
1470	Enter Linearization Output Point 19
1471	Linearization Input Point 20 Mode
1472	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 20:
1473	Linearization Point 20 status
1474	Linearization Point 20 Saved.
1475	Enter Linearization Input Point 20
1476	Enter Linearization Output Point 20
1477	Linearization Input Point 21 Mode
1478	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit} Enter Linearization Output Point 21:
1479	Linearization Point 21 status
1480	Linearization Point 21 Saved.
1481	Enter Linearization Input Point 21
1482	Enter Linearization Output Point 21
1483	Please enter the standard password to login
1484	Enter standard password
1485	mHServiceCode
1486	Login successful
1487	Please enter the advanced password to login
1488	Enter advanced password
1489	Please enter the service password to login
1490	Enter service password
1491	Are you sure you want to logout?
1492	Logout successful
1493	Are you sure you want to change standard password?
1494	更改标准密码
1495	mHSetPassword_StandardLevel_L
1496	Standard password changed
1497	Are you sure you want to change advanced password?
1498	更改高级密码
1499	mHSetPassword_AdvancedLevel_L
1500	Advanced password changed
1501	Are you sure you want to reset the device D/A trim points to factory settings?
1502	Resetting to factory D/A trim values done.
1503	Are you sure you want to reset the passwords to defaults?
1504	Resetting the passwords to factory defaults successful.
1505	Set Liquid Level (float) to desired Level Point (Lower). Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit}. Press OK when stable.
1506	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit}. Enter Lower Level Point
1507	Wet calibration - Writing Lower Level point completed.
1508	Set Liquid Level (float) to desired Level Point (Upper). Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit}. Press OK when stable.
1509	Level Value is: %{Level_Obj_value_0} %{Level_Obj_unit}. Enter Upper Level Point
1510	Wet calibration - Writing Upper Level point completed.
1511	Set Liquid Interface (float) to desired Interface Point (Lower). Interface Value is: %{Interface_Obj_value_0} %{Level_Obj_unit}. Press OK when stable.
1512	Interface Value is: %{Interface_Obj_value_0} %{Level_Obj_unit}. Enter Lower Interface Point
1513	Wet calibration - Writing Lower Interface point completed.
1514	Set Liquid Interface (float) to desired Interface Point (Upper). Interface Value is: %{Interface_Obj_value_0} %{Level_Obj_unit}. Press OK when stable.
1515	Interface Value is: %{Interface_Obj_value_0} %{Level_Obj_unit}. Enter Upper Interface Point
1516	Wet calibration - Writing Upper Interface point completed.
1517	Are you sure you want to clear diagnositcs history?
1518	Clearing diagnostics history completed.
1519	Are you sure you want to clear process minimum and maximum temperature history?
1520	Clearing process minimum and maximum temperature history completed.
1521	Please select to ON/OFF simulation
1522	Level value simulation disabled.
1523	Please enter the value to simulate
1524	Level value simulated.
1525	Linearized Level value simulation disabled.
1526	Linearized Level value simulated.
1527	Linearized Level value simulation disabled.
1528	Ullage value simulation disabled.
1529	Ullage value simulated.
1530	Interface value simulation disabled.
1531	Interface value simulated.
1532	Linearized Interface value simulation disabled.
1533	Linearized Interface value simulated.
1534	Are you sure you want to simulate Temperature value?
1535	Temperature value simulation disabled.
1536	Temperature value simulated.
1537	Are you sure you want to reset the device level trim points to factory settings?
1538	Resetting to factory level trim values done.
1539	Are you sure you want to reset the device interface trim points to factory settings?
1540	Resetting to factory interface trim values done.
1541	Are you sure you want to reset the device temperature trim points to factory settings?
1542	Resetting to factory temperature trim values done.
1543	01.00.00
1544	01.01.00
1545	01.02.00
1546	02.00.00
1547	Select the display mode:
1548	Display mode changed successfully
1549	Select Device Configuration
1550	Device Configuration changed successfully
1551	Select Linearization State:
1552	Linearization state changed successfully
1553	Select Output Type:
1554	Changing output type in progress..
1555	Please enable the linearization
1556	Please wait,loading the waveform...
引用ID	字符串