Device dictionary

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Reference ID	String
0	Manufacturer ID D00
1	Request Pream D02
2	HART Rev D03
3	TS Cmd Rev D04
4	Software Rev D05
5	Hardware Rev D06
6	Flags D07
7	Device ID D08
8	Tag P01
9	Description P02
10	Date P03
11	Final Assy No P04
12	Message P00
13	Poll Address D951
14	Mobrey
15	Device Type D950
16	MLT100
17	ADC reference high
18	The ADC reference voltage is high. This is a hardware fault and the transmitter's sensor is no longer able to provide a reliable level reading. Check that the sensor connector is fully engaged with the electronic module. If the error persists then refer to the supplier.
19	ROM checksum error
20	ROM checksum error - The transmitter has detected an error in its program memory. Temporarily interrupt the power and if the error persists then refer to the supplier.
21	ADC reference low
22	The ADC reference voltage is low. This is a hardware fault and the transmitter's sensor is no longer able to provide a reliable level reading. Check that the sensor connector is fully engaged with the electronic module. If the error persists then refer to the supplier
23	EEPROM Signature error
24	EEPROM Signature error - The transmitter has detected an error in its EEPROM data and the parameter database has been loaded with default values. If the Device ID is non-zero then the transmitter may be re-configured. If however the Device ID is zero, or if the problem persists after re-configuration, then correct operation cannot be guaranteed. This can only be rectified by specialised equipment - refer to the supplier.
25	EEPROM Checksum error
26	EEPROM Checksum error - The transmitter has detected an error in its EEPROM data. Editing a user parameter will clear the error. It is recommended that the User loads defaults and re-configures the transmitter. If the problem persists after re-configuration then correct operation cannot be guaranteed - refer to the supplier.
27	RAM test failure
28	RAM test failure - The transmitter has detected an error in its RAM memory. The error may be cleared by interrupting the power. If the problem persists then correct operation cannot be guaranteed - refer to the supplier.
29	Output fault high
30	The sensor output voltage is too high. This is a hardware problem indicating that the sensor is operating outside of its linear region. The transmitter is no longer able to provide a reliable level reading. Check that the sensor is correctly adjusted. If the error persists then refer to the supplier.
31	Output fault low
32	The sensor output voltage is too low. This is a hardware problem indicating that the sensor is operating outside of its linear region. The transmitter is no longer able to provide a reliable level reading. Check that the sensor is correctly adjusted. If the error persists then refer to the supplier.
33	Primary Variable is the scaled answer, Secondary is the height, Tertiary is the ullage.
34	primary_variable
35	height above bottom of displacer
36	unfilled space in vessel
37	PV units P12
38	PV Units - the units that are displayed with the PV, Ullage and associated readings.
39	Process value - The digital value based on the height scaled by P13, or profiled by P11 and P13 if the curve profile is non-linear.
40	Process value D10
41	13.5f
42	Current output D12
43	Current output - The analog value related to the PV
44	mA
45	10.3f
46	Percent range D13
47	%
48	10.2f
49	Smoothing time P20
50	Smoothing time - the damping in seconds applied to the PV value and the analogue output.
51	s
52	4.1f
53	Sensor ser No P05
54	Sensor serial number - usually set to the same value as the Device ID but may be changed for site use.
55	8u
56	Calibrate max P15
57	Calibrate max - the PV at which the current output is 20mA and the % output is 100%.
58	10.6g
59	Calibrate min P16
60	Calibrate min - the PV at which the current output is 4mA and the % output is 0%.
61	SCALED_ANSWER
62	Factors relating to the scaled answer.
63	A0
64	Height units
65	Level D11
66	Level - The height of the lower liquid above the zero datum
67	m
68	HEIGHT_ANSWER
69	The height is the value of the answer prior to scaling or profiling.
70	The scaled space above the level.
71	ULLAGE_ANSWER
72	Temperature - Either the value preset in P44, or the value derived from the sensor on the PCB in the enclosure.
73	Temperature D25
74	øC
75	10.1f
76	PV
77	PV %
78	PV AO
79	TBD
80	Process value - The value based on the level scaled by P13 or profiled by P11 if the curve profile is non-linear
81	these variables will generate current loop warning message when they are written to
82	SG setup - The specific gravity of the upper fluid that was assumed during initial calibration.
83	SG setup P59
84	12.6g
85	Transmitter type - See manual for full meaning of displayed data
86	Model code D01
87	Password P06
88	CLOSED
89	OPEN
90	FULLY OPEN
91	Alarm delay - the time delay in seconds between the occurrence of a fault condition and the current output going to the value specified in P22
92	Alarm delay P21
93	Alarm action - defines the current output when a fault condition exists.
94	Alarm action P22
95	MINIMUM
96	HOLD
97	MAXIMUM
98	Display 1 - Selects the source of the value displayed as the main display. The local display is optional.
99	Display 1 P23
100	process variable
101	level
102	current output
103	ullage
104	D21
105	D22
106	D23
107	D24
108	D25
109	Display 2 - Selects the source of the value to be displayed as an alternate to that selected by P23. The local display is optional
110	Display 2 P24
111	Minimum sensor output - Sets the value of D20 for minimum level
112	Min sensor output P60
113	Electronics temperature - If set to a value then the temperature will be fixed, else if set to NaN the integral temperature sensor will be used. The temperature is used to correct for system temperature effects.
114	Temperature P44
115	Temperature setup - The process temperature assumed to apply, that was used for the initial calibration
116	Temp setup P58
117	Temperature coefficient - The correction factor for temperature effects of the system.
118	Temp coeff P45
119	Process temperature - defines the temperature inside the vessel being measured. If set to NaN then the temperature measured by the sensor in the instrument head is used
120	Process temp P25
121	SG lower - The specific gravity of the lower liquid in the system.
122	SG lower P26
123	SG upper - The specific gravity of the upper fluid in the system.
124	SG upper P27
125	Displacer length - The effective length of the displacer
126	Displacer length P51
127	Displacer area - The cross sectional area of the displacer
128	Displacer area P52
129	sq cm
130	Temp max P46
131	Temperature max - The maximum temperature to which the head end of the instrument has been subjected.
132	10d
133	Temp min P47
134	Temperature min - The minimum temperature to which the head end of the instrument has been subjected.
135	Curve profile - Selecting a non-linear profile will set the 10 point plot values P30 to P39 to that curve. SPECIAL allows individual point values to be changed.
136	Curve profile P11
137	Linear
138	Special
139	Horizontal cylinder
140	Spherical
141	Conical 1
142	Conical 2
143	Flume/weir (3/2)
144	V-notch (5/2)
145	Standing level/volume - The value of the PV at the zero level point, this offset is added after all other calculations.
146	Standing value P14
147	Level for max PV - The height up the displacer for the maximum PV value. If set to NaN then the full length of the displacer as defined by P51 is automatically used.
148	Level for max PV P17
149	Level for min PV - The height up the displacer for the minimum PV value.
150	Level for min PV P18
151	PV scale factor - If the curve profile is LINEAR this is the multiplier for the PV in units per metre, else it is the maximum PV value for the curve profile selected. If P13 = NaN then P51 (Displacer Length) is used
152	PV scale factor P13
153	Upper limit - The maximum usable sensor output
154	Upper limit P68
155	mV
156	Lower limit - The minimum usable sensor output
157	Lower limit P69
158	10% level P30
159	10% level - the output in percent at 10% of the non-linear profile height.
160	20% level P31
161	20% level - the output in percent at 20% of the non-linear profile height.
162	30% level P32
163	30% level - the output in percent at 30% of the non-linear profile height.
164	40% level P33
165	40% level - the output in percent at 40% of the non-linear profile height.
166	50% level P34
167	50% level - the output in percent at 50% of the non-linear profile height.
168	60% level P35
169	60% level - the output in percent at 60% of the non-linear profile height.
170	70% level P36
171	70% level - the output in percent at 70% of the non-linear profile height.
172	80% level P37
173	80% level - the output in percent at 80% of the non-linear profile height.
174	90% level P38
175	90% level - the output in percent at 90% of the non-linear profile height.
176	100% level P39
177	100% level - the output in percent at 100% of the non-linear profile height.
178	Protected by curve profile
179	Coefficient 1 - value used to linearize the LVDT
180	LVDT coeff 1 P61
181	Coefficient 2 - value used to linearize the LVDT
182	LVDT coeff 2 P62
183	Coefficient 3 - value used to linearize the LVDT
184	LVDT coeff 3 P63
185	Coefficient 4 - value used to linearize the LVDT
186	LVDT coeff 4 P64
187	Coefficient 5 - value used to linearize the LVDT
188	LVDT coeff 5 P65
189	LVDT gain - For calibration of the sensor assembly.
190	LVDT Gain P66
191	LVDT rate - For calibration of the sensor assembly.
192	LVDT rate P67
193	mV/cm
194	Spring rate - The load versus extension rate of the spring
195	Spring rate P55
196	g/cm
197	Displacer weight - The total weight of the displacer and the attached rod/actuator assembly
198	Displacer weight P53
199	g
200	Spring material - The material used for the spring in the displacer system
201	Spring Material P54
202	The same units as the PV.
203	Ullage units
204	Ullage - The space above the present level up to the 100% level in the same units as the PV.
205	Ullage D14
206	Normalised - The output from the LVDT after polynomial and smoothing corrections have been applied.
207	Normalised D21
208	Compensated - LVDT output after temperature compensation has been applied.
209	Compensated D22
210	Raw output - The LVDT output value as received at the A to D converter
211	Raw output D23
212	10.4f
213	Percent range - The level as a percentage of the range defined by P17 and P18
214	Percent level D24
215	Add 100
216	Subtract 100
217
218	Trim 4mA
219	Trim 20mA
220	Curve profile - Selecting a non-linear profile will set the 10 point plot values P30 to P39 to that curve. SPECIAL allows individual point values to be changed.
221	Set Curve profile
222	Set PV scale factor
223	Set Calibrate max
224	auto text
225
226	Validity Switch
227	Set Level for max PV
228	Set Process Temperature
229	Set Temperature
230	Electronics temperature - If set to a value then the temperature will be fixed, else if set to NaN the integral temperature sensor will be used. The temperature is used to correct for system temperature effects.
231	Sensor rerange
232	Sensor rerange - Used to redefine the place on the displacer that represents zero PV and max PV. These are by default the top and bottom of the displacer
233	If password is OPEN then non protected parameters can be changed. Enter 62 to OPEN the password.
234	Password P06 is OPEN
235	Password P06 is FULLY OPEN
236	Password P06 is CLOSED
237	Device Image
238	Mobrey Logo
239	Emerson Logo
240	Tank Image
241	Status Image
242	Device Diagnostics
243	Summary
244	Failed
245	Advisory
246	Monitor Readings
247	Monitor Diagnostics
248	Status Group 1
249	Hardware Error
250	Process
251	Device Status
252	Variables
253	Analog Output
254	History
255	Process Variables
256	PV (P15 not = NaN)
257	PV (P15 = NaN)
258	Measured Variables
259	Identification
260	PV Measurement
261	Range Values
262	PV D10
263	Primary Variable
264	PV Value
265	LRV P16
266	URV P15
267	Variable Measurements
268	Configure/Setup
269	Basic Setup
270	Device Configuration
271	Variables Configuration
272	Calibration Configuration
273	Advanced Setup
274	Identity
275	Device Revisions
276	HART Communications
277	Scaled Variable
278	Plot NLP Points
279	Electronics Temperature
280	Engineering Setup
281	Analog Calibration
282	LCD
283	Current Output Diagnostics
284	Process Properties
285	Sensor Calibration
286	LVDT
287	Sensor
288	Displacer Properties
289	Ref calibrate
290	FMU860
291	DT
292	DVC
293	FCX
294	AS800
295	340T
296	340C
297	344
298	Siemens Micro K
299	SITRANS L
300	SIPAN PH
301	SITRANS P
302	75SMT
303	UNIDELTA
304	8320
305	SX5100
306	TSV175
307	DMU
308	3780
309	BM70
310	Trim 4mA value
311	Exit;Increase;Decrease
312	Trim 20mA value
313	Curve profile P11
314	Sending ten point plot data
315	Set Value
316	Auto(NaN);Edit to fix value;Exit
317	Auto(NaN);Edit to fix temp;Exit
318	Maximum level;Minimum level;Exit
319	Change maximum level
320	Sensor output currently: %0 %1
321	Set max level;Read new level;Exit
322	Change minimum level
323	Set min output;Read new level;Exit
324	Password is %{0} enter new password
325	password_in
Reference ID	String