Device dictionary

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Reference ID	String
0	.3f
1	8.3f
2	7d
3	Level
4	Linearized Level
5	Level - The total product measurement of the device
6	This is the UNIT of measure for the process variable of the device and provides a basis for all of the setup functions. Selectable engineering UNITS include: inches, feet, meters, millimeters and centimeters.
7	Units
8
9	None
10	Linearized Level - The output of the linearization table based on Level
11	Ultra Low Dielectric Mode
12	Used only when dielectric constant of material is between 1.3 and 2.3.
13	Off
14	On
15	% Range
16	Alarm Setting
17	Software Revision Date- Gregorian calendar date denoting the date of Software Release
18	Software Revision Date
19	Probe Type
20	This function will help adjust the transmitter setting for the installed configuration. Certain aspects of the transmitter setup will be adjusted to conform to the probe type selected. Selectable probe types include: Single Rod/Cable, Dual Rod/Cable or Coaxial. Select only the type of probe mounted to the MT5xxx transmitter. Failure to set the correct probe type could result in measurement errors.
21	Single Rod/Cable
22	Dual Rod/Cable
23	Coaxial
24	Mounting Type
25	Mounting configurations will affect probe types in different ways. A sensor mounted on a nozzle whose length is greater than its width could cause a reduced signal capacity which must be accounted for by the MT5xxx. The MOUNTING TYPE corresponding to the installation must be entered correctly. The MOUNTING TYPE should fall into one of the categories listed below: PLATE - a flat surface roof or metal disk used for signal launch COUPLING PLATE - a coupling or nipple fitting welded to a flat ceiling or launch plate. NOZZLE/FLANGE H>S - A nozzle with a greater height than diameter. NOZZLE/FLANGE H<S - A Nozzle with a lesser height than diameter. STILLING WELL - a continuous metal pipe from the process connection to the end of the measuring range. EXT. CHAMBER - an external metal chamber with side connections. 2WARNING - Adjustment of this parameter may disturb settings in your Extended Parameters. Please verify Extended Parameters are set correctly for the application.
26	Plate
27	Coupling/Plate
28	Nozzle/Flange H>S
29	Nozzle/Flange H<S
30	Stilling Well or External Chamber
31	Nozzle Length
32	Also known as nozzle blanking distance, this setting allows the transmitter to ignore anything within the designated distance. The distance will be in the units designated in the UNITS parameter. At a minimum, enter the length of the mounting nozzle from the face of the sensor to the ceiling of the tank. Additional distance can be added in order to ignore unwanted false reflections. 2CAUTION: This entry will allow the transmitter to ignore any reading in the designated area including the level you are measuring if it rises to this range. 2WARNING - Adjustment of this parameter may disturb settings in your Extended Parameters. Please verify Extended Parameters are set correctly for the application
33	.2f
34	.1f
35	.0f
36	Probe Length
37	Also described as insertion length, PROBE LENGTH is the measured distance from the bottom thread of the process fitting (or the face of the flange) to the end of the probe. This value must be entered in units that correspond to the UNITS parameter.
38	Blanking Distance
39	Blanking is a measured area which the MT5xxx will be set to ignore INCLUDING the nozzle distance. It may be necessary to extend the Blanking further past the nozzle to ignore reflections from the top portion of the probe. Blanking is set in terms of UNITS. To adjust the Blanking, enter the distance from the Reference Measurement to be ignored. Do not blank into your measuring range. Signal will be lost.
40	Offset
41	Offset is a parameter which may be used to compensate for an un-measureable area below a probe OR to align the measurement of the MT5xxx with another device. The value entered in the Offset will be Added to or subtracted from the LVL indication on the main display as well as the output signal. Example: If the end of the probe were 4 inches off the bottom of the tank, the OFFSSET would be 4 inches. If the actual Measured Level were 21 inches after entering the OFFSET, the local indicator would indicate 25 inches (21 +4) and the output signal would indicate a level of 25 inches.
42	Gas Phase Dielectric
43	Liquid Phase Dielectric
44	The DIELECTRIC setting is an optional entry. It is not used to set or establish any operating parameters within the unit. It will not be necessary to know the exact dielectric constant of the process or to enter a valid value in this setting. NOTE: If the application was for interface measurement, you would need to use the parameter UPPER DIELECTRIC.
45	Language
46	The MT5xxx has been equipped with several different operating languages to assist in the setup of the unit. When a specific language is selected, the titles of the menu items will be translated. Abbreviations specific to the MT5xxx will remain unchanged as icons regardless of language selection. Available LANGUAGES include: o English o French o Spanish o Portuguese o Italian o Russian o Chinese (Mandarin).
47	English
48	French
49	German
50	Spanish
51	Portuguese
52	Italian
53	Russian
54	Polish
55	Chinese
56	Threshold
57	The Threshold voltage provides a method of signal detection along the waveform. The signal from the process reflection must cross this barrier to be detected as a signal. The MT5xxx is designed to detect the first pulse crossing the Threshold. The LEVEL THRESHOLD may need to be increased to avoid baseline interference or decreased to detect the correct pulse.
58	Low Trim Point
59	Lower Trim Count
60	High Trim Point
61	High Trim Count
62	Sensor Reference
63	Gain
64	GAIN is a factory set function designed to adjust the return pulse to the best possible signal to noise ratio. The GAIN setting will be optimized by the MT5xxx based on the entries from the BASIC SETUP menu. Increasing the GAIN setting will amplify the noise as well as the return pulse. Lowering the GAIN setting will decrease the return pulse as well as the noise.
65	Range
66	The RANGE setting is determined by the PROBE LENGTH. RANGE 1 is set for probes shorter than 100 feet. RANGE 2 is set for probes from 100 to 200 feet. Changing the RANGE setting will erase all factory trim settings and calibration values. Changing the RANGE setting is not recommended unless a commitment to changing the physical probe length has been made.
67	1 Short Range
68	2 Long Range
69	Shape
70	The SHAPE function will be set based on the mounting configuration. Like the GAIN function it is designed to create the best signal to noise ratio from the return pulse. The SHAPE setting will determine how the signal is amplified.
71	1
72	2
73	PV
74	LEVEL PV is a function which allows the user to determine which variable the OUTPUT of the MT5100 will be based upon. Selections for OUTPUT are Total and Interface. Total and Interface are the actual linear measurements the MT5100 is interpreting from its configuration. Total is the top level of all liquids and Interface is the level of the lower liquid in the vessel.
75	Total
76	Interface
77	Measure Mode
78	The MT5xxx can be used to measure Media Level or Ullage. Media Level refers to a Level Measurement from the end of the probe to the surface of the product level. Said differently, it is measuring the amount of product in the tank. 2Ullage refers to a Level Measurement from the face of the sensor to the surface of the product being measured. Said differently, it is measuring the amount of vapor space in the tank. 2Factory default the MEASURE MODE will be Media Level. Media Level = Level in the tank Ullage = vapor space in the tank
79	Media Level
80	Ullage
81	Available Levels
82	Total Only
83	Total & Interface
84	Device Status Bits 0
85	EEProm Status
86	ALU Status
87	LCD Status
88	External Ram Status
89	Malloc Status
90	Data Acq Status
91	Level Status
92	Interface Status
93	Access to Extended Parameters
94	Raw Level
95	Raw Level- The raw count measured for the total level
96	Counts
97	If the UPPER DIELECTRIC is not known, the ACTUAL INTERFACE level can be entered into this menu item and the UPPER DIELECTRIC will be reverse calculated. The ACTUAL INTERFACE will be measured from the end of the probe in the selected UNITS.
98	Alarm Delay
99	sec
100	Software Version
101	Loop Warning Variables
102	Loop Warning Variables- Variables that display a warning message before new values are sent.
103	Linearization Units
104	LIN UNITS allows the selection of the desired output UNITS for the linearization table. LIN UNITS can be in Level, %, Volume or Flow units. Please see the Installation & Maintenance Manual or menu contents for unit options.
105	Linearization Mode
106	Determines how the values in the table will be assigned; either by entering the input values manually or by raising the tank level and entering the values automatically. - Manual Mode allows the entry of the input values along with the desired respective output level. - Automatic mode requires the level of the product to be at the measured level when the respective output value is set. NOTE: Manual mode will produce a more exact linearization profile compared to Automatic mode.
107	Automatic
108	Manual
109	Linearization Minimum
110	The value assigned to the lowest measurable point along the PROBE LENGTH. Typically this will be set to 0, although it is not required.
111	.5f
112	Linearization Maximum
113	The value assigned to the highest measurable point along the PROBE LENGTH. This value must be greater than the largest value entered in the Linearization Table.
114	Input 1
115	Input 2
116	Input 3
117	Input 4
118	Input 5
119	Input 6
120	Input 7
121	Input 8
122	Input 9
123	Input 10
124	Input 11
125	Input 12
126	Input 13
127	Input 14
128	Input 15
129	Input 16
130	Input 17
131	Input 18
132	Input 19
133	Input 20
134	Output 1
135	Output 2
136	Output 3
137	Output 4
138	Output 5
139	Output 6
140	Output 7
141	Output 8
142	Output 9
143	Output 10
144	Output 11
145	Output 12
146	Output 13
147	Output 14
148	Output 15
149	Output 16
150	Output 17
151	Output 18
152	Output 19
153	Output 20
154	Clear Table
155	Selecting CLEAR TABLE will completely erase all values from the Linearization Table.
156	Reload Table
157	Selecting RELOAD TABLE will reinstall the values of a Linearization Table that have been stored in the Back Up file of the MT5xxx.
158	Backup Table
159	Selecting BACKUP TABLE will store all of the values in the Linearization Table to a Back Up file in the EPROM of the MT5xxx.
160	Input Table
161	LIN TABLE contains the parameters used to collate Measured or Input Level and a user selected set of values for Output Values. Table points will be entered based on the LIN MODE. Table points must be entered from smallest value to largest value from point 01 to point 20. 2In Manual Mode, the table will ask for Output Point 01 -20 THEN ask for the corresponding Input Point 01-20. The Output Point is the desired reading. The Input Point is the Measured Level or Input Value. 2In Automatic Mode, the table will only ask for the Output Point 01-20. The corresponding Input Point will be gained by setting the level to the correct location along the PROBE LENGTH. 2CAUTION -DO NOT use zero as table point 01. This must be a positive value or it will not function properly.
162	Output Table
163	Linearization Values
164
165	Input
166	Output
167	1)
168	2)
169	3)
170	4)
171	5)
172	6)
173	7)
174	8)
175	9)
176	10)
177	11)
178	12)
179	13)
180	14)
181	15)
182	16)
183	17)
184	18)
185	19)
186	20)
187	Incorrect Language Code reported. Device uses English
188	Illegal Probe Type
189	Illegal Mounting Type
190	Illegal Mounting Type for the given Probe Type (Check the manual)
191	Level Offset Reset
192	Probe Length Too Small
193	Probe Length Too High
194	Nozzle Length Too Small
195	Nozzle Length Too High
196	Interface Offset Reset
197	Illegal length units
198	Level and Interface Offset Reset
199	Offset Too Small
200	Offset Too High
201	Interface Offset Too Small
202	Interface Offset Too High
203	Gas Phase Dielectric Too Small
204	Gas Phase Dielectric Too High
205	Liquid Phase Dielectric Too Small
206	Liquid Phase Dielectric Too High
207	Actual Level Too Small
208	Actual Level Too High
209	ULD Mode Not Enabled
210	Command Not Implemented
211	Blanking Distance Too Small
212	Blanking Distance Too High
213	Threshold Too Small
214	Threshold Too High
215	Gain Too Small
216	Gain Too High
217	Point index too large
218	Applied Process Too High
219	Applied Process Too Low
220	Input Point Too High
221	Input Point Too Small
222	Output Point Too High
223	Output Point Too Small
224	Illegal Input units
225	Illegal Output units
226	Invalid Mode requested
227	Invalid Selection. The requested action was not valid.
228	Invalid Input Mode Selection
229	Output Minimum Too High
230	Output Minimum Too Small
231	Output Maximum Too High
232	Output Maximum Too Small
233	tmp pv
234	Position in Data Array is Too High
235	Too Few Data Bytes Received
236	Device is not updating Output Data
237	Number of requested Wave form points is Too Small (can not be 0)
238	LTP and HPT returned in inches: Current Device EU set to %
239	Parameter rounded to nearest possible value
240	Voltage magnitude of device waveform
241	Amplitude
242	Level Threshold
243	TH_level_scaled
244	Wave Position
245	Zero
246	calc thold
247	Distance
248	Relative distance of device waveform
249	Wave Increment
250	Waveform Start
251	Waveform End
252	X Increment
253	Wave Points Required
254	Waveform->Coupler
255	Show Data
256	'
257	Level Waveform
258	Waveform->Level
259	Waveform->End
260	Waveform At Coupler
261	D/A Trim
262	MT5200
263	Device Setup
264	Basic Setup
265	BASIC SETUP is the menu of the minimum settings required to tune the device for specific installation conditions. At a minimum, the items in the BASIC SETUP menu will need to be entered for the MT5xxx to operate.
266	Output Setup
267	Hart Settings
268	Extended Setup
269	Linearization
270	Setup
271	The LINEARIZATION TABLE allows a set of output values to be assigned to input level points along the PROBE LENGTH. The points in the table can be assigned exact measured values to linearize the measured level for increased accuracy at the top and bottom of the probe, assigned volume points for tank strapping, or assigned flow rates for measurement of flow in an open channel.
272	Configure Tables
273	Extended Parameters
274	Device Parameters
275	Device Info
276	Revision Info
277	Process Variables
278	Test Device
279	Device Status
280	MT5200 Waveform
281	MT5xxx Waveform View
282	Signal Conditioning
283	K-Tek Assistance
284	For assistance in Setup, Commissioning,
285	or Troubleshooting or to schedule
286	a service technician onsite visit,
287	please contact us at:
288	Email: service@ktekcorp.com
289	Phone: + 1 (225) 673.6100
290	Fax: + 1 (225) 673.2525
291	For manuals and other info:
292	Website: ktekcorp.com
293	write_variables
294	Range Values
295	Sensors
296	Output Conditioning
297	Analog Output
298	Sensor Info
299	Diagnostics
300	Waveform at Coupler
301	Waveform Parameters
302	Waveform at Level
303	Waveform at End
304	Modify Extended Parameters
305	Disable Point
306	Disable a point in the Linearization Table
307	Enable/Edit Point
308	Enable/Edit a point in the Linearization Table. Initially, points are set to NAN (not a number). By entering a valid value for point n (value must be between value of point n-1 and point n+1), the point is Enabled. To disable a point, use the Disable Menu.
309	Set Actual Level
310	K-TEK
311	MT5000
312	MT5200
313	Primary Variable
314	2nd Variable
315	Reserved 01
316	Program Flow Status
317	CRC Status
318	Reserved 04
319	Reserved 05
320	Reserved 06
321	Reserved 07
322	Reserved 08
323	Common Tables
324	Interoperable *
325	Universal
326	Common Practice
327	Pressure Universal
328	Pressure Common
329	Menu
330	Rosemount Magflow
331	Rosemount Pressure
332	Moore Products
333	Siemens Pressure
334	P2 Common
335	Munge
336	Analytical Oxygen/Combustion/Methane/CO
337	Flow Totalizer - Rate Indicator
338	Flow Variable Area
339	Flow Coriolis Mass
340	Level Ultrasonic
341	Level Radar - Microwave
342	Pressure Absolute
343	Level Capacitance
344	Pressure Differential
345	Level Hydrostatic
346	Pressure Absolute/Relative
347	Level Microwave
348	Level Radar
349	Level Density - Nuclear
350	Pressure Deltabar S Evolution
351	Pressure Cerabar S Evolution
352	Flow Electromagnetic
353	Flow Vortex
354	Flow Magmeter - Rack Version
355	Flow High Performance Magmeter
356	Flow Mass
357	Flow Ultrasonic
358	Flow Magnetic
359	Flow Magnetic - Custody Transfer
360	Flow 2-wire Magnetic
361	Flow Coriolis Mass - Custody Transfer
362	Flow 2-wire Vortex
363	Flow Thermal
364	Temperature Head Mounted
365	Temperature Compact
366	Temperature DIN Rail Mounted
367	Analytical pH
368	Analytical Conductivity - Conductive
369	Analytical Conductivity - Inductive
370	Temperature Sensor
371	Level Servo
372	Temperature DIN Rail
373	Temperature
374	Analytical ORP
375	Analytical pION
376	Analytical IConc
377	Analytical Electrode Conductivity
378	Analytical Toroidal Conductivity
379	Valve Controller
380	Pressure
381	Pressure Multivariable
382	Analytical pH/ORP
383	Flow Coriolis
384	Analytical Conductivity
385	Valve Positioner/Pneumatic
386	Temperature Dual Input
387	Valve Actuator
388	Analytical Density - Nuclear
389	Level Continuous Gamma
390	Level Laser Ranging
391	Pressure Safety
392	Pressure P, dP + Multivariable
393	Temperature 2-wire
394	Pressure w/ PID
395	Pressure Saturated Steam
396	Analytical Density - Gamma Ray
397	Level Gamma Ray
398	Analytical Weight - Gamma Ray
399	Level w/ Density - Gamma Ray
400	Analytical Motorized Density
401	Flow Multivariable Mass
402	Temperature Multivariable
403	Specialty HART-to-Analog Signal Conv
404	Flow dP
405	Pressure Low Power
406	Pressure Certified SIL2
407	Interoperable
408	Analytical Density
409	Valve Positioner/Electropneumatic
410	Flow Magnetic Inductive
411	Flow
412	Analytical Oxygen
413	Analytical
414	Analytical Opacity Monitor
415	Analytical Oxygen/Combustion
416	Analytical 2-wire Conductivity
417	Analytical 2-wire Conductivity w/ pure H20
418	Analytical 2-wire Conductivity w/ % conc
419	Analytical 2-wire Oxygen/Chlorine/Ozone
420	Analytical 2-wire pH/ORP
421	Analytical 2-wire Contacting/Toroidal
422	Analytical Oxygen - High Temperature
423	Analytical Conductivity w/ % conc
424	Analytical pH/ORP/ISE
425	Analytical Amperometric Analyzer
426	Pressure Pressure/Level
427	Analytical Consistency
428	Analytical Microwave-Pulp Consistency
429	Valve Digital Positioner
430	Valve Positioner
431	Valve Smart Valve Positioner
432	Temperature Differential
433	Analytical Dissolved Oxygen
434	Analytical pH Controller
435	Analytical Conductivity/Resistivity Controller
436	Analytical Conductivity/Resistivity
437	Level Displacement
438	Temperature w/ PID
439	Valve Universal Positioner
440	Level Radar - Reflex
441	Valve Digital Positioner w/ PID
442	Valve Intelligent Positioner
443	Analytical Gas Detector
444	Analytical Infrared Gas Detector
445	Analytical Electrochemical Gas Detector
446	Level Magnostrictive
447	Valve On/Off Valve Controller
448	Level Radar - Pulse
449	Analytical Corrosion
450	Level Continuous Capactive
451	Valve Damper Actuator
452	Valve Electric Damper Actuator
453	Flow Electronic
454	Flow Vortex - Multiparameter Mass
455	Analytical Flame Detector
456	Level Nuclear
457	Analytical Density - Radiometric
458	Level Radiometric
459	Analytical Gas/Steam
460	Level Nucleonic
461	Analytical Blade Consistency
462	Analytical Rotary Consistency
463	FMU860
464	DT
465	DVC
466	FCX
467	AS800
468	340T
469	340C
470	344
471	Siemens Micro K
472	SITRANS L
473	SIPAN PH
474	SITRANS P
475	75SMT
476	UNIDELTA
477	8320
478	SX5100
479	TSV175
480	DMU
481	3780
482	BM70
483	8u
484	Are you sure you want to clear the table?
485	tmp_av
486	CAUTION: Adjusting the following parameters may adversely affect the performance of this device! Please contact K-Tek if you are uncertain about how changing these settings will affect the performance of the device! Click OK to continue or ABORT to return to the previous menu.
487	Enter Password to Continue
488	Save Changes?
489	Yes;No
490	Invalid Password Entered
491	Point to Disable
492	ptstr
493	Disable Point?
494	Point to Enable/Edit
495	lin_table_input_index
496	Enable/Edit Point?
497	Input Value - Point
498	Output Value - Point
499	Enter Actual Level:
500	Method Failed Due To Error
Reference ID	String