Device dictionary

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Reference ID	String
0	Yokogawa
1	YTA70-E/Z
2	Sensor errors
3	Error status byte, indicates errors related to sensors or sensorwires
4	sensor1
5	sensor2
6	CJC/electr sens
7	Misc. errors
8	Error status byte, indicates errors related to the device.
9	Downscl EEP xor
10	Downscl RAM xor
11	Downscl ADC
12	Field Device Variable Unit - Engineering unit that the Digital Value, Upper Range Value and Lower Range value will be displayed with. Any unit defined in Table 2. Unit Codes of the Common Tables document will be accepted, but calculation of values between units by the device, are only done when units are degC, degF ,degR or Kelvin
13	Field Device Variable Value - Digital value that dynamicly represents the actual measured primary value of the device, in engineering units.
14	.2f
15	.4f
16	Damping Value - Damping time constant applied to both the Digital Value and Analog Value of the respective output. The Unit of this variable is always in seconds.
17	2.2f
18	5.24f
19	Upper Sensor Limit - Value that defines the absolute upper endpoint (largest magnitude) for the digital value. Temperature - Temperature of the process measured with respect to some reference pressure.
20	Lower Sensor Limit - Value that defines the absolute lower endpoint (smallest magnitude) for the digital value. Temperature - Temperature of the process measured with respect to some reference pressure.
21	Minimum Span value - Indicates the minimum allovable value for the span. The span is the algebraic difference between the Upper and Lower Range Value.
22	Sensor Serial Number - Indicates the sensor's module serial number.
23	7d
24	Sensor 1 Units
25	Sensor 1 Units - For differential or average measurements only
26	Snsr1
27	Sensor 1 digital value - For differential or average measurements only
28	Sensor 2 Units
29	Sensor 2 Units - For differential or average measurements only
30	Snsr2
31	Sensor 2 digital value - For differential or average measurements only
32	Electr temp units
33	CJC int temp units
34	CJC ext temp units
35	Electr temperature digital units
36	CJC int temperature digital units
37	CJC ext temperature digital units
38	Electr
39	CJC int
40	CJC ext
41	Electr temperature.
42	CJC int temperature.
43	CJC ext temperature.
44	Sensor type - Indicates the type of the sensor element: millivolt, thermocouple type, resistance thermometer type, ohms.
45	Pt100 IEC 751
46	Ni100 DIN 43760
47	T/C Type B IEC 584
48	T/C Type E IEC 584
49	T/C Type J IEC 584
50	T/C Type K IEC 584
51	T/C Type L DIN 43710
52	T/C Type N IEC 584
53	T/C Type R IEC 584
54	T/C Type S IEC 584
55	T/C Type T IEC 584
56	T/C Type U DIN 43710
57	T/C Type W3 ASTM
58	T/C Type W5 ASTM
59	Measurement type - Indicates the type of measurement: single/differential or average, internal/external or const CJC, external CJC sensor Pt100 or Ni100, 2/3 or 4 wire.
60	RTD/Ohm sgl 2-wire
61	RTD/Ohm sgl 3-wire
62	RTD/Ohm sgl 4-wire
63	RTD/Ohm diff 2-wire
64	RTD/Ohm avg 2-wire
65	TC/V sgl int CJC
66	TC/V sgl ext CJC Pt
67	TC/V sgl ext CJC Ni
68	TC/V sgl const. CJC
69	TC/V diff int CJC
70	TC/V diff ext CJC Pt
71	TC/V diff ext CJC Ni
72	TC/V diff const. CJC
73	TC/V avg int CJC
74	TC/V avg ext CJC Pt
75	TC/V avg ext CJC Ni
76	TC/V avg const. CJC
77	Meter option - Defines whether there is a meter installed or not and possibly what information the meter will display.
78	LCD
79	system configuration
80	For future use
81	Const. CJC value
82	Constant CJ temperature value, the actual temperature at the junction of the thermocouple wires and the terminals. Units of PV
83	RTD factor
84	Multiplication factor for 100 Ohm RTD, reciprocal value, e.g. X=2 for Pt50, X=0.1 for Pt1000
85	Abs. max. value
86	Absolute maximum value on individual sensors for differential measurements in units of PV
87	Cable resistance config
88	Cable resistance configuration - Configures the cable resistance value
89	Sensor1
90	ext CJC sensor
91	Cable resistance value
92	Cable resistance value in Ohms. If RTD/Ohm 3 or 4 wire is selected, sensor 1 is the expected max value for the total cable resistance in 2 wires, otherwise it is the actual total cable resistance.
93	Error detection
94	Configures the sensor error detection
95	No test performed
96	broken sensor
97	shorted sensor
98	broken and shorted
99	Sh sens
100	Output current value for shorted sensor, units of mA
101	Br sens
102	Output current value for broken sensor, units of mA
103	Write protect control code
104	Enables, disables write protection, or sets new password
105	Enable write protected
106	Disable write protected
107	Set new password
108	Enter password
109	Password for controlling write protection. 8 byte ASCII. No password will be entered as '********'
110	New password
111	New password for controlling write protection. 8 byte ASCII. No password will be entered as '********'
112	Serial Number
113	9 digit production line serial number, consisting of yybbbrrrr, where <yy> is the year of production, <bbb> is the batch number and <rrrr> is a running number for this batch. Expanded from device id
114	09u
115	PV classification
116	Sensor 1 classification
117	Sensor2 classification
118	Electr classification
119	CJC int classification
120	CJC ext classification
121	PV data qual
122	Sensor 1 data qual.
123	Sensor 2 data qual
124	Electr data qual
125	CJC int data qual
126	CJC ext data qual
127	PV lim status
128	Sensor 1 lim status
129	Sensor2 lim status
130	Electr lim status
131	CJC int lim status
132	CJC ext lim status
133	PV family status
134	Sensor 1 family status
135	Sensor2 family status
136	Electr family status
137	CJC int family status
138	CJC ext family status
139	PV device family
140	Sensor 1 device family
141	Sensor2 device family
142	Electr device family
143	CJC int device family
144	CJC ext device family
145	Collection of variable for Temperature Transmitter
146	Collection of variable for sensor 1 temperature
147	Collection of variable for sensor 2 temperature
148	Electr/CJC temp
149	Collection of variable for electronics or CJC temperature
150	Primary Variable Temperature
151	constant CJC value too low
152	RTD factor too high
153	constant CJC value too high
154	RTD factor too low
155	Cable resistance value too high
156	shorted sensor value too high
157	shorted sensor value too low
158	broken sensor value too high
159	broken sensor value too low
160	incorrect password
161	write_variables
162	Status
163	Calibration
164	Write protection
165	Cable resistance
166	Sensors
167	Process sensor
168	Sensor setup
169	Sensor info
170	Signal condition
171	Sens error values
172	Broken sensor
173	Shorted sensor
174	Revision #'s
175	Review
176	Output info
177	Input info
178	Before polling
179	Loop in manual
180	Back to normal
181	Write protect
182	Write protects the device, if correct password is entered
183	Write enable
184	Write enables the device, if correct password is previously entered
185	Sets a new password for write protection, if correct password is entered
186	Sensor config
187	Configures the sensor, sensor type, measurement type, CJC compensation etc.
188	Enter value
189	Enter new value for cable resistance. If the device setup is RTD/Ohm 3 or 4 wire, cable resistance for sensor 1 is the expected max value for the total cable resistance in 2 wires. Otherwise it is the actual total cable resistance for the selected sensor
190	Measure value
191	Automaticly measures the cable resistance. If the device setup is RTD/Ohm 3 or 4 wire, cable resistance for sensor 1 is the expected max value for the total cable resistance in 2 wires. Otherwise it is the actual total cable resistance for the selected sensor
192	restoring configuration
193	NAMUR down
194	Enables broken sensor error detection, and sets the error output value to 3.5 mA acc. to NAMUR NE43
195	NAMUR up
196	Enables broken sensor error detection, and sets the error output value to 23 mA acc. to NAMUR NE43
197	Enables shorted sensor error detection, and sets the error output value to 3.5 mA acc. to NAMUR NE43
198	Enables shorted sensor error detection, and sets the error output value to 23 mA acc. to NAMUR NE43
199	Override D/A trim
200	Overrides any previously D/A trimming by restoring factory calibration values
201	Common Tables
202	Interoperable *
203	Universal
204	Common Practice
205	Pressure Universal
206	Pressure Common
207	Menu
208	Rosemount Magflow
209	Rosemount Pressure
210	Moore Products
211	Siemens Pressure
212	P2 Common
213	PV
214	Wireless
215	Munge
216	Analytical Oxygen/Combustion/Methane/CO
217	Flow Totalizer - Rate Indicator
218	Flow Variable Area
219	Flow Coriolis Mass
220	Flow Ultrasonic - Gas
221	Flow Ultrasonic - Liquid
222	Level Ultrasonic
223	Level Radar - Microwave
224	Pressure Absolute
225	Level Capacitance
226	Pressure Differential
227	Level Hydrostatic
228	Level
229	Pressure Absolute/Relative
230	Level Microwave
231	Level Radar
232	Level Density - Nuclear
233	Flow Electromagnetic
234	Flow Vortex
235	Flow Magmeter - Rack Version
236	Flow High Performance Magmeter
237	Flow Mass
238	Flow Ultrasonic
239	Flow Magnetic
240	Flow Magnetic - Custody Transfer
241	Flow 2-wire Magnetic
242	Flow Coriolis Mass - Custody Transfer
243	Flow 2-wire Vortex
244	Flow Thermal
245	Temperature Head Mounted
246	Temperature Compact
247	Temperature DIN Rail Mounted
248	Analytical pH
249	Analytical Conductivity - Conductive
250	Analytical Conductivity - Inductive
251	Temperature Sensor
252	Level Servo
253	Temperature DIN Rail
254	Temperature
255	Analytical ORP
256	Analytical pION
257	Analytical IConc
258	Analytical Electrode Conductivity
259	Analytical Toroidal Conductivity
260	Valve Positioner
261	Valve Controller
262	Pressure
263	Pressure Multivariable
264	Analytical pH/ORP
265	Flow Coriolis
266	Analytical Conductivity
267	Valve Positioner/Pneumatic
268	Valve Actuator - Electrical
269	Temperature Dual Input
270	Valve Actuator
271	Analytical Corrosion
272	Analytical Density - Nuclear
273	Level Continuous Gamma
274	Level Laser Ranging
275	Pressure Safety
276	Flow Vortex/Swirl
277	Flow
278	Analytical 4 Electrode Conductivity
279	Analytical 2 Electrode Conductivity
280	Analytical Troidal Conductivity
281	Analytical pH/ORP/pIon/Ion Conc
282	Analytical Oxygen
283	Pressure P, dP + Multivariable
284	Temperature 2-wire
285	Pressure w/ PID
286	Pressure Saturated Steam
287	Analytical Density - Gamma Ray
288	Level Gamma Ray
289	Analytical Weight - Gamma Ray
290	Level w/ Density - Gamma Ray
291	Analytical Motorized Density
292	Flow Multivariable Mass
293	Temperature Multivariable
294	Specialty HART-to-Analog Signal Conv
295	Flow dP
296	Pressure Low Power
297	Pressure Certified SIL2
298	Interoperable
299	Analytical Density
300	Valve Positioner/Electropneumatic
301	Flow Magnetic Inductive
302	Analytical
303	Analytical Opacity Monitor
304	Analytical Oxygen/Combustion
305	Analytical 2-wire Conductivity
306	Analytical 2-wire Conductivity w/ pure H20
307	Analytical 2-wire Conductivity w/ % conc
308	Analytical 2-wire Oxygen/Chlorine/Ozone
309	Analytical 2-wire pH/ORP
310	Analytical 2-wire Contacting/Toroidal
311	Analytical Oxygen - High Temperature
312	Analytical Conductivity w/ % conc
313	Analytical pH/ORP/ISE
314	Analytical Amperometric Analyzer
315	Analytical Dual Input Analyzer
316	Pressure Pressure/Level
317	Analytical Consistency
318	Analytical Microwave-Pulp Consistency
319	Analytical Microwave Consistency
320	Valve Digital Positioner
321	Valve Smart Valve Positioner
322	Temperature Differential
323	Analytical Dissolved Oxygen
324	Analytical pH Controller
325	Analytical Conductivity/Resistivity Controller
326	Analytical Conductivity/Resistivity
327	Level Displacement
328	Temperature w/ PID
329	Valve Universal Positioner
330	Level Radar - Reflex
331	Pressure Gauge
332	Pressure Sealed Gauge
333	Valve Digital Positioner w/ PID
334	Valve Intelligent Positioner
335	Analytical Gas Detector
336	Analytical Infrared Gas Detector
337	Analytical Electrochemical Gas Detector
338	Analytical Measuring Instruments
339	Level Magnostrictive
340	Valve On/Off Valve Controller
341	Level Radar - Pulse
342	Level Continuous Capactive
343	Valve Damper Actuator
344	Valve Electric Damper Actuator
345	Flow Electronic
346	Flow Vortex - Multiparameter Mass
347	Analytical UV Flame Detector
348	Analytical UVIR Flame Detector
349	Analytical IR Flame Detector
350	Analytical Fire Detector
351	Analytical Gas Detector Display Interface
352	Analytical Toxic Gas Detector
353	Analytical Flame Detector
354	Level Nuclear
355	Analytical Microwave
356	Analytical Density - Radiometric
357	Level Radiometric
358	Analytical Gas/Steam
359	Level Nucleonic
360	Analytical Blade Consistency
361	Analytical Rotary Consistency
362	Pressure Absolute/Differential
363	Positioner
364	Analytical Combustible Gas Detector
365	Analytical Point Infrared Gas Detector
366	Analytical Multi-Detector Monitor System
367	Valve Positioner/Electro-hydraulic
368	Valve Monitor
369	Enable on token-passing data link layer only
370	Enable on TDMA data link layer only
371	Enable on both TDMA and token-passing data link layer
372	WirelessHART Device
373	IEEE 802.15.4 2.4GHz DSSS with O-QPSK Modulation
374	Primary
375	Primary Analog Channel
376	Secondary
377	Secondary Analog Channel
378	Tertiary
379	Tertiary Analog Channel
380	Quaternary
381	Quaternary Analog Channel
382	Quinary
383	Quinary Analog Channel
384	Critical Power Failure
385	Lock all
386	Trim not supported
387	Configuration cannot be changed
388	Locked by gateway
389	Analog Input Channel
390	Analog Output Channel
391	Secondary Analog Channel Saturated
392	Tertiary Analog Channel Saturated
393	Quaternary Analog Channel Saturated
394	Quinary Analog Channel Saturated
395	Secondary Analog Channel Fixed
396	Tertiary Analog Channel Fixed
397	Quaternary Analog Channel Fixed
398	Quinary Analog Channel Fixed
399	Simulation active
400	The device is in simulation mode and the level output is not representative of the process.
401	Non-Volatile memory failure
402	The Non-Volatile memory check is invalid or maybe corrupt, or the battery of a battery-backed memory has failed.
403	Volatile memory error
404	The RAM memory check is invalid or maybe corrupt
405	Watchdog reset executed
406	A watchdog reset has been performed
407	Voltage conditions out of range
408	A voltage condition is outside its allowable range
409	Environmental conditions out of range
410	An internal or environmental condition is beyond acceptable limits.
411	Electronic failure
412	A hardware problem not related to the sensor has been detected.
413	Subdevice list changed
414	Duplicate master detected
415	Capacity Denied
416	The device was unable to acquire the communication bandwidth required to support the Burst Messaging specified
417	Bandwidth allocation pending
418	Block transfer pending
419	Continuous
420	The Burst Message is published continuously at (worst case) the Minimum Update Period.
421	Window
422	The Burst Message is triggered when the source value deviates more than the specified trigger value
423	Rising
424	The Burst Message is triggered when source value Rises Above the specified trigger value.
425	Falling
426	The Burst Message is triggered when the source value Falls Below the specified trigger value.
427	On-change
428	The Burst Message is triggered when any value in the message changes.
429	Battery life
430	Percent range
431	Loop current
432	Primary variable
433	Secondary variable
434	Tertiary variable
435	Quaternary variable
436	Off
437	Enable event notification on token-passing data link layer
438	Enable event notification on TDMA data link layer
439	Enable event notification on TDMA and token-passing data link layer
440	Configuration changed event pending
441	Device status event pending
442	More status available event pending
443	Disable
444	Enable single data point trending
445	Enable filtered trending
446	The sample is filtered using a time constant equal to one-third the trend sample period
447	Enable average trending
448	The value obtained by dividing the sum of all samples in the period by the total number of samples
449	Read receive time
450	Write date and time
451	Non-Volatile Clock
452	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.
453	Clock Uninitialized
454	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.
455	Line Power
456	Device is powered via a hardwired connection to a plant power source.
457	Battery Power
458	Device operates solely of its (internal) battery.
459	Recharg.B./Power Sc.
460	Rechargeable battery power or power scavenging. The device has a short-term supply of energy (must be at least one hour) that is continuously being replenished. The device's power is being replenished by harvesting and converting energy from the environment surrounding the device (e.g. solar, vibration, heat).
461	Idle
462	Active search
463	Looking for neighbors.
464	Negotiating
465	Quarantined
466	Operational
467	Suspended
468	Deep sleep
469	Ultra-low power
470	Wireless Signal Found
471	Network packets have been recognized
472	Wireless Signal Identified
473	Wireless Time Synchronized
474	WirelessHart Signal Identified
475	Network Admission Requested
476	Set on transmission of first join request
477	Join Retrying
478	Set after the first join request retry (i.e. when number of join requests > 2). Cleared when device is authenticated or when Active Search started.
479	Join Failed
480	Set on transition from Active Search mode to Deep Sleep mode. Cleared on transition from Deep Sleep to Active Search.
481	Network Security Clearance Granted
482	Network Manager Session Established
483	Network Joined
484	Network Joined. Normal superframe and links obtained.
485	Network Bandwidth Requested
486	Negotiating Network Properties. Gateway session obtained.
487	Join Complete
488	Normal operating mode.
489	None
490	No restrictions
491	SI Only
492	Restricted to SI Unit codes only
493	Open - accept all devices
494	Use Whitelist for access
495	Use Blacklist
496	Use Whitelist and Blacklist
497	Lockdown - disable join links
498	Process automation device
499	Discrete device
500	Hybrid:Process automation+discrete
501	I/O System
502	WirelessHART Process automation device
503	WirelessHART Discrete device
504	WirelessHART Process automation+discrete
505	WirelessHART Gateway
506	WirelessHART Access point
507	WirelessHART Process adapter
508	WirelessHART Discrete adapter
509	WirelessHART enabled handheld/portable maintenance tool
510	Don't attempt to join
511	Join now
512	Attempt to join immediately on powerup or reset
513	US
514	United States of America
515	JP
516	Japan
517	DE
518	Germany
519	FR
520	France
521	ES
522	Spain
523	RU
524	Russian Federation
525	CN
526	People's Republic of China
527	Nominal
528	Device Power Status is nominal
529	Low
530	Device Power Status is low
531	Critically Low
532	Device Power Status is critically low
533	Recharging - Low
534	Recharging - High
535	Secondary Master
536	Primary Master
537	PV Analog Channel Saturated
538	PV Analog Channel Fixed
539	Device Profile
540
541	Device Diagnostic Status 0
542	Device Diagnostic Status 1
543	I/O and Subdevice Status
544	WirelessHART Status
545	Time Set Option
546	Real Time Clock Flags
547	Country
548	Country of intended device installation
549	SI Unit Control
550	Indicates if device should only display SI unit codes
551	Burst Trigger Units
552	Burst Trigger Class
553	Wired HART Enabled
554	Enabled on Wired HART device connection only
555	Wireless HART Enabled
556	Enabled on WirelessHART device connection only
557	Both Wired and WirelessHart Enabled
558	Enabled on both Wired and WirelessHART connections
559	Burst Msg Trigger Mode
560	Event Status
561	Event Notification Control
562	Operate mode Mask
563	Not Defined
564	Power Source
565	Power source of the device
566	Wireless Mode
567	Join Status
568	The current location in the joining sequence of operations.
569	Network Access Mode
570	Join Mode
571	Power Status
572	Power status of the device
573	Master Mode
574	This sets the I/O System's Data Link Layer operation on all channels as either primary or secondary master mode.
575	Trend Units
576	Trend Device Variable Unit Code
577	Trend Classification
578	Trend Device Variable Classification
579	Trend Control
580	Device Status Mask
581	Ext dev status Mask
582	Device Diagnostic Status 0 Mask
583	Device Diagnostic Status 1 Mask
584	Device Diagnostic Status 2 Mask
585	Device Diagnostic Status 3 Mask
586	AO saturated Mask
587	AO fixed Mask
588	Latched Device Status
589	Latched Ext dev status
590	Latched Operate Mode
591	Latched Device Diagnostic Status 0
592	Latched Device Diagnostic Status 1
593	Latched Device Diagnostic Status 2
594	Latched Device Diagnostic Status 3
595	Latched AO saturated
596	Latched AO fixed
597	Wireless Module Device Type
598	Device type of the Wireless Radio
599	Wireless Module Manufacturer ID
600	Manufacturer of the Wireless Radio contained in this device
601	Subdevice Device Type
602	Device type of the subdevice attached to this system.
603	Subdevice Manufacturer Id
604	Manufacturer of the subdevice attached to this system.
605	8u
606	8.3f
607	.3f
608	WARN: Tx with polling address different from 0 cannot be part of a control loop.
609	Note: Loop may be returned to automatic control when SEND is done
610	Enter correct password (ENTER if none):
611	Device write protected
612	Device NOT write protected
613	Enter new password (ENTER if none):
614	Change password to: %{0}
615	Password changed %{0}
616	Enter sensor type:
617	Enter primary variable units:
618	Enter number of sensor wires:
619	2-wire;3-wire;4-wire;2-wire diff;2-wire average
620	Enter RTD factor:
621	choice >4
622	Enter measurement type:
623	Single;Differential;Average
624	choice >2
625	Enter cold junction compensation:
626	Internal sensor;External Pt100;External Ni100;Constant (none)
627	Enter constant CJC temperature:
628	Enter highest possible value on each sensor:
629	Wait, sending configuration...
630	Note: Range values is set to default for the chosen sensor type.
631	Note: Lower range value set to: %{0} %{2} Upper range value set to: %{1} %{2}
632	Enter cable resistance for:
633	sensor1;sensor2
634	Enter cable resistance for sensor1:
635	Enter cable resistance for sensor2:
636	Enter cable resistance for external CJC sensor:
637	Measure cable resistance for:
638	Connect sensor1 to terminals 3 and 6, and short circuit the wires as close as possible to the sensor
639	Connect sensor2 to terminals 3 and 6, and short circuit the wires as close as possible to the sensor
640	Connect external CJC sensor to terminals 3 and 6, and short circuit the wires as close as possible to the sensor
641	error in method!
642	wait... measuring cable resistance
643	Sensor1 cable resistance: %{0} %{1}
644	OK;Original value;Read new value
645	Sensor2 cable resistance: %{0} %{1}
646	External CJC sensor cable resistance: %{0} %{1}
647	error in method
648	Cable resistance too high, set to original value!
649	Due to communication error(s), measurement could not be performed, be aware that the configuration of the device could be currupt!!
650	Due to abortion, measurement could not be performed, be aware that the configuration of the device could be currupt!!
651	Sets broken sensor output value to 3.5 mA, and enables broken sensor detection
652	Sets broken sensor output value to 23 mA, and enables broken sensor detection
653	Sets shorted sensor output value to 3.5 mA, and enables shorted sensor detection
654	Sets shorted sensor output value to 23 mA, and enables shorted sensor detection
655	Override D/A trimming with factory calibration
Reference ID	String