Device dictionary

Loading…

Reference ID	String
0	Sensor Serial No.
1	7d
2	Acknowledge Error
3	Password
4	Password Enter a password to protect the detector against unauthorized access. Then access to editable parameters is disabled. To undo the protection again, you must enter the password again. You can choose any password you want; it may comprise a maximum of 8 characters or digits.
5	Signal Unlocked
6	Signal Unlocked You will get alerted when the device is unlocked with a password. Choose WARNING only if the control system is to be alerted when the device was unlocked with the password. OFF The function is switched off. WARNING Once the detector is unlocked with a password, a warning is issued. If "Error Handling" is set to SENSITIVE, then a fault current is output in addition to the alarm.
7	OFF
8	No signaling when device is unlocked
9	WARNING
10	As long as device is unlocked it signals error current and error relais alarm.
11	License Key Part1
12	License Key Part2
13	License Key Part3
14	License Key Part4
15	License Key Part5
16	Date
17	Date Enter here the current date. The date is necessary for the proper work of the decay compensation and also for the error log and modification log, to know at which day the error or a parameter modification happened.
18	Time
19	Time Enter here the current time. The time is necessary for the error log and modification log, to know at which time the error or a parameter modification happened.
20	Operating Mode
21	Operating Mode RUN The measurement is in the normal measurement mode. WARNING A warning message has appeared. The error code is indicated in "Sensor Settings". ERROR An error is indicated. The error code is displayed in "Sensor Settings". SHUTDOWN A serious error is indicated. The error code is displayed in "Sensor Settings". HOLD The measurement is in the hold state, which means that the measured value and the current output signal is frozen. This status can occur under the following conditions: - the plateau recording is running - interference radiation was detected - the digital input is on Hold TEST A test value is enabled.
22	INIT
23	INIT Boot process.
24	STARTUP
25	STARTUP Boot process.
26	SHUTDOWN
27	SHUTDOWN A serious error is indicated. The error code is indicated in "Sensor Settings".
28	ERROR
29	ERROR An error is indicated. The error code is indicated in "Sensor Settings".
30	WARNING A warning message has appeared. The error code is indicated in "Sensor Settings".
31	HOLD
32	HOLD The measurement is in the hold state, which means that the measured value and the current output signal is frozen. This status can occur under the following conditions: - the plateau recording is running - interference radiation was detected - the digital input is on Hold
33	TEST
34	TEST A test value is enabled.
35	RUN
36	RUN The measurement is in the normal measurement mode.
37	Safety Mode
38	Safety Mode Indicates whether the safety mode is enabled: ON Safety mode is enabled. OFF Safety mode is disabled.
39	undefined help string
40	ON
41	Error Handling
42	Error Handling Here you can set a different weighting of errors and error handling: SENSITIVE All faults cause the current output to report a Fault current. To also get warning messages, you must also evaluate the messages via the HART® signal or the digital output. NORMAL Only fatal errors are reported as a fault current. Thus, the measured via the current signal will fail only if the measurement can no longer be used. To also get minor error and warning messages, you must also evaluate the messages via the HART® signal or the digital output.
43	SENSITIVE
44	Measurement is aborted in case of error.
45	NORMAL
46	Measurement continues in case of error.
47	Reset Device
48	INACTIVE
49	Reset is inactive.
50	SW RESET
51	Reset software now.
52	FACTORY RESET
53	Reset to factory settings now.
54	MODIFICATION LOG RESET
55	Clear modification log now.
56	ERROR LOG RESET
57	Clear error log now.
58	Mod Log Index
59	Mod Log Index Active Index of modification log entry
60	Description
61	Description Description of displayed modififcation log entry
62	New Value
63	New Value The modified parameter has changed to this value
64	Old Value
65	Old Value This was the former value of the modified parameter.
66	Mod Date
67	Mod Date The date of mofification
68	Modification Time
69	Modification Time The time of mofification
70	Error Code
71	Error Code Indicates if an error is present in the active detector. If no error is present, then 0 is displayed here. An error message is displayed with a three digit number. The cause of the error and suggestions for correcting the error are described in the operating manual.
72	Error Log Index
73	Error Log Index Active index of error log entry
74	Error Date
75	Error Date Occurence date of active displayed log entry error
76	Error Time
77	Error Time Occurence time of active displayed log entry error
78	Error Description
79	Error Description Description of active displayed log entry error
80	Bus Address Source
81	AUTO DETECTION
82
83	MENU
84	Bus Address
85	Bus Address Enter fieldbus address of device.
86	Device Temp.
87	.1f
88	Temp. Unit
89	Device Temp. Test
90	Device Temp. Test Enter test value for device temperature
91	Device Temp. Mode
92	Device Temp. Mode Select device temperature mode. Select 'Fix Value' for test.
93	Temp. Upper Limit
94	Temp. Lower Limit
95	Temp. Hysteresis
96	Device Temp. Min
97	Device Temp. Min Minimum device temperature since last reset
98	Device Temp. Max
99	Device Temp. Max Maximum device temperature since last reset
100	Reset Temp Extrema
101	RESET
102	Reset Temperature Extrema now.
103	Detector Code
104	Detector Code The currently selected detector code is displayed. The detector code is crucial for the proper function of the automatic HV control (high voltage control). The detector code has already been set by BERTHOLD TECHNOLOGIES. It is dependent on the scintillator size and the detector type, see operating manual.
105	HV Manual
106	HV Manual You can enter a fixed HV value. The value becomes active when you select MANUAL at "HV-Mode".
107	.0f
108	HV Default
109	HV Default This setting affects: - A quick operation point control after power failure After a power failure, the HV starts at the last "HV Average" value which results from the "HV Default". This will significantly reduce the start-up phase after power failure. - Error detection in case of HV-drift If the HV deviates too far (+40%, -20%) from the HV Default or if the HV reaches the limits of the range of 300 V or 1300 V, this is reported as an error. - Special feature: 0V For maintenance purposes, the HV Default can also be set to 0V. In this case, the mechanisms described above are suspended; after a power failure, the measurement begins to get adjusted at 800 V. "HV Default" has already determined and set by BERTHOLD TECHNOLOGIES.
110	HV Live
111	HV Live Displays the current HV (high voltage) at the photomultiplier. If the "HV Mode" is set to AUTO (normal operation), the values in HV Live must change, viewed over several seconds.
112	HV Feedback
113	HV Average
114	HV Average Shows the average HV (high voltage) of the last 10 days. Significant deviations from "HV Live" to "HV Average" are considered and reported as errors.
115	Cps Single Detector
116	Cps Single Detector Shows the count rate of the active detector normalized to one second.
117	cps
118	Meas CH CPS
119	Control CH CPS
120	.2f
121	Auxiliary CH CPS
122	HV Mode
123	HV Mode The HV-mode (high-voltage control) provides the following options: AUTO Automatic HV control. Select this mode in normal measurement mode. It enables a temperature-stable operation of the detector. MANUAL Manual HV control. This setting is used for testing purposes; you can also provisionally set the operating point of the detector. The specified voltage must, however, lie in the plateau. If you select "Manual", the automatic HV control is switched off. The HV is then set to the value that was set in the menu item HV Manual. PLATEAU Starts the plateau measurement. If you select PLATEAU, the measurement mode is exited and the plateau of the multiplier measured, which is used in the detector.
124	AUTO
125	Sensor works with HV auto mode
126	MANUAL
127	Sensor works with HV manual mode
128	PLATEAU
129	Sensor is gathering a plateau
130	HV Start
131	HV Start Enter HV start value for plateau measurement beginning
132	4u
133	HV Stop
134	HV Stop Enter HV stop value for plateau measurement end
135	HV Step
136	HV Step Enter HV step width for plateau measurement step width
137	Meas. Time
138	Meas. Time Enter measuring time for each plateau measuring point
139	Plateau Tab Entries
140	Plateau Date
141	Plateau Index
142	Plateau Index Active plateau table Index
143	Plateau HV
144	Plateau HV HV of active displayed plateau table entry
145	Plateau Impulses
146	Plateau Impulses Impulses of active displayed plateau table entry
147	PMT Current
148	PMT Current Displays active current at multiplier
149	.4f
150	PMT Current Max
151	PMT Current Max Displays the maximum PMT current measured since last reset.
152	Reset Current Extrema
153	Reset PMT now.
154	Error Current Value
155	Error Current Value Here you define the fault current in mA, if you have selected Value in the "Loop Alarm Type" parameter. If you have selected High or Low, then the appropriate current value is displayed here. If you exceed the mA value, then Value is set in the "Loop Alarm Type" parameter.
156	Current Lower Limit
157	Current Lower Limit Lower limit of the current range for the 4-20 mA current output. For adjustment purposes or to safely identify an over or under measuring range condition, the current range available for the measurement signal is extended beyond the standard range of 4 mA and 20mA. According to the Namur specifications (NE 43), the lower current value must not be less than 3.8 mA. The limits can be set within the range from 3.8 mA to 4 mA.
158	Current Upper Limit
159	Current Upper Limit Upper limit of the current range for the 4-20 mA current output. For adjustment purposes or to safely identify an over or under measuring range condition, the current range available for the measurement signal is extended beyond the standard range of 4 mA and 20mA. According to Namur specifications (NE 43), the upper current value must not be higher than 20.5mA. The limits can be set within the range from 20 mA to 20.5 mA.
160	Digital Out State
161	ALARM
162	Digital Out Mode
163	Digital Out Test State
164	OPEN
165	CLOSED
166	Digital In State
167	Digital In Mode
168	Digital In Test State
169	Meas Delay Time
170	Meas Delay Time If interference radiation detection is enabled, the measured values are output with a delay. The delay is adjustable from 0 to 5 seconds. The delay is required so that at the moment of detection the measured value remains unaffected, because in this case, increased count rates are already present which may distort the measured value.
171	Io Factor
172	Io Factor Defines the threshold where the interference radiation detection responds. With the default value of 1.5, the threshold is 1.5 times the active empty count rate and is suitable for most applications. You can adjust the factor for the threshold yourself. Note that a value below 1.5 may trigger faulty switching caused by fluctuations in the measured values. Increasing the factor decreases the sensitivity. Increase the factor if false alarms are triggered by significant fluctuations in the measured values, for example, by agitator blades.
173	Waiting Time
174	Waiting Time If interference radiation is detected, the measurement is "frozen" and will be released at the earliest after the waiting period is over. You have to enter the value for the waiting time in seconds.
175	Cps Average Mode
176	Cps Average Mode Select cps average mode. Select 'Fix Value' for test.
177	Cps Average Test
178	Cps Average Test Enter test value for Cps Average
179	Cps Average
180	Cps Average The ReadIn rate is newly averaged in every measurement cycle. Standardized to one second.
181	Cal/Comp Date
182	Cal/Comp Date Date of last calibration or compensation
183	Restore Date
184	Restore Date Contains the validity date that is used for the function "Restore Upload". It can be loaded with the calibration data set or entered by hand.
185	Nuclide
186	Nuclide The indication must be identical with the isotope (nuclide) that is used in your source.
187	Cs-137
188	Decay compensation will be done with Cs-137.
189	Co-60
190	Decay compensation will be done with Co-60.
191	USER DEFINED
192	Background
193	Background The term background refers to the background radiation which is present in the environment. The background radiation has to be measured so that the detector can correctly compensate for the decay of the radiation source.
194	Background The term background refers to the background radiation which is present in the environment. The background radiation has to be measured so that the detector can correctly compensate for the decay of the radiation source. Select "ReadIn" to read in the count rate for the background radiation. If you already know the value, you can enter it here.
195	Nuclide Enter here the isotope (nuclide) that is used in your source: - Co-60 - Cs-137 - USER DEFINED This entry controls the automatic decay compensation. The isotope used is listed on the type plate of the shielding and on your delivery documents. The item "USER DEFINED" allows you to use any isotope you want. In this case, additional parameters are requested: Specify the half-life under "Half Life Time" and the absorption coefficient at "Absorption".
196	Half Life Time
197	Half Life Time The isotope's half life period
198	a
199	Warning Date
200	Warning Date Enter the date when you want to get the Source Exchange warning (format: MM/DD/YYYY)
201	Remaining Time
202	ReadIn Time
203	ReadIn Time Here you can define the period of time over which the count rate is to be read-in for each calibration point. The statistical variation of the count rate is averaged over this time period. A longer read-in time results in a better mean value. A time period of 30 sec (default setting) is usually reasonable.
204	Application Level
205	Invalid
206	Level 1
207	Level 2
208	Level 3
209	Level 4
210	Level 5
211	Level 6
212	Level 7
213	Level 8
214	SW Revision
215	SW Revision Date
216	Current Loop Monitoring
217	Current Loop Monitoring Enable or disable the monitoring of the 4-20mA current signal. Monitoring checks whether the set current is actually flowing in the current loop, and signals an error if any deviation is detected. You have the following setting options: ENABLED Monitoring is enabled (default setting). Unless there are compelling reasons, you should keep this setting. The setting is automatically enabled when the Safety Mode is selected. DISABLED Monitoring is disabled. The HART Communicator outputs a corresponding message.
218	DISABLED
219	ENABLED
220	Cps Live
221	Cps Live Display of active unaveraged count rate. (Cps live)
222	Level
223	Level Displays active level value.
224	Level Unit
225	Device variable family
226	Level Classification
227	Level Data Quality
228	Level Limit Status
229	Level Family Status
230	Time Constant
231	Time Constant Shows the active time constant. The value 0.0 leaves the count rate unfiltered.
232	Cps Max
233	Cps Min
234	Minimum Span
235	Level Mode
236	Update Period
237	PV
238	PV Primary Variable
239	Detector Device Id
240	Alarm State
241	Alarm State Displays, if Limit Value is exceeded.
242	Digital Out Function
243	LS ALARM
244	Level switch alarm set
245	DET. TEMP
246	Detector temperature out of limits
247	Measurement in hold mode
248	WARNING + ERROR
249	Measurement is in error mode
250	BUILD UP
251	Build up alarm detected
252	RAD. INTERF.
253	Radiation interference detected
254	Digital In Function
255	Digital input disabled
256	Hold Measurement when digital input closed
257	EMPTY
258	Calibrate empty point when digital input is closed
259	FULL
260	alibrate full point when digital input is closed
261	ReadIn Mode
262	ReadIn disabled
263	BACKGROUND
264	ReadIn background count rate
265	LOWER-PT
266	ReadIn count rate of lower point
267	UPPER-PT
268	ReadIn count rate of upper point.
269	Calibration Mode
270	RECALL
271	RESTORE
272	CALIBRATE
273	CALIBRATE + PRESET
274	Calibration Status
275	0- OK
276	0- OK The calibration carried out is OK.
277	1- ERROR BACKGROUND
278	1- ERROR BACKGROUND The count rate of the background radiation is higher than that for the calibration points for empty or full (Cal Point 0% or Cal Point 100%).
279	2- ERROR CALIBRATION POINT
280	2- ERROR CALIBRATION POINT The empty count rate is lower than the full count rate (Lower Cal Pt-Empty < Upper Cal Pt-Full).
281	3- ERROR THRESHOLD / TIME CONSTANT
282	3- ERROR THRESHOLD / TIME CONSTANT The switching threshold (Threshold) is too close to one of the calibration points for empty (Lower Cal Pt-Empty) or full (Upper Cal Pt-Full) or the time constant was selected too small for the manual calibration. The error also occurs when the time constant exceeds 999 s.
283	4- ERROR THRESHOLD OUT OF RANGE
284	4- ERROR THRESHOLD OUT OF RANGE The switching threshold (Threshold) plus or minus the hysteresis exceeds the allowable range of 0% ... 100%.
285	5- ERROR BU TC
286	5- ERROR BU TC The time constant for the build-up alarm is above 14,400 seconds. This is either because the difference between empty count rate and full count rate is too low (Lower Cal Pt-Empty ? Upper Cal Pt-Full) or the limit value is too close to one of the calibration points for empty (Lower Cal Pt-Empty) or full (Upper Cal Pt-Full).
287	6- DATE ERROR
288	6- DATE ERROR A date is still set to the default value of 1.1.2000. At Calibrate, check the Date parameter. At Restore, check the date in Restore Date.
289	7- CHECK ERROR
290	7- CHECK ERROR The status of the calibration parameters could not be fully verified. In this case, repeat the calibration. If the error occurs again, replace the detector, at least the detector electronics. The above described plausibility check cannot prevent that the user may read-in incorrect data. If in doubt, please consult a BERTHOLD TECHNOLOGIES service technician.
291	Measurement Status
292	Calibration Method
293	Calibration Method 1-POINT LIN Use the 1-point calibration only if full calibration is not possible. In this method, an empty adjustment (level below the monitoring level) is required. Using additional inputs such as product density and measuring path the count rate for the full calibration (level above the monitoring level) is then determined automatically. 2-POINT EXP An empty calibration (level below the monitoring level) and a full calibration (level above the monitoring level) is required for a two-point calibration.
294	1-POINT
295	Calibration with one point
296	2-POINT
297	Calibration with two points
298	Absorption
299	Calibration Method Shows the selected calibration method.
300	Lower Point
301	Lower Cal Pt -Empty
302	Lower Cal Pt -Empty Count rate with empty container or at a level below the switching threshold. Select "ReadIn" to read in the count rate. If you already know the value, you can enter it here.
303	Op Lower Point
304	Op Lower Point If you use the gas density compensation, the count rate which would be obtained under operating conditions is displayed here. The value shown cannot be changed and depends on: - Count rate in "Lower Cal Pt-Empty" - Setup Gas Density - Op Gas Density - Measuring Path - Nuclide
305	Upper Point
306	Upper Cal Pt -Full
307	Upper Cal Pt -Full Count rate with full container or at a level above the switching threshold. If you have selected in "Calibration Method" the setting 1-POINT, the value for "Upper Cal Pt-Full" is automatically calculated from the value of "Lower Cal Pt-Empty" and the parameters defined in the "Product Conditions menu". Select "ReadIn" to read-in the count rate, if you have chosen the setting "2-POINT" at Calibration Method. If you already know the value, you can enter it here.
308	Selection
309	Selection OFF: No message is output. DATE: The message Source Exchange is output on a specific date. Enter the date in "Warning Date". TIME CONSTANT: In Max Time Constant enter a maximum time constant when a certain response time of the measurement should not be exceeded. (The response time is approximately equal to the time constant.) After entering the maximum time constant, the detector automatically calculates the date of the source exchange. The date is displayed under Date. To use the function TIME CONSTANT, you must set "Evaluation Mode" to AUTO SET. In the MANUAL setting the time constant is not adjusted automatically.
310	Source exchange signaling is disabled
311	DATE
312	Source exchange depends on date
313	TIME CONSTANT
314	Source exchange depends on maximum time constant.
315	Max Time Constant
316	Max Time Constant The maximum allowable time constant must be greater than the current, automatically calculated time constant (see "Time Constant"). The value of the time constant approximately corresponds to the response time of the measurement. After entry of a value, the date on which the warning will be expected is displayed in "Warning Date". Due to the automatic decay compensation, the time constant is increased constantly until the maximum time constant is reached, whereupon the source exchange warning message is reported.
317	Response Mode
318	Response Mode Select the detection mode: DISABLED Interference radiation detection and Rapid switchover are disabled. RAD. INTERFERENCE Interference radiation detection is enabled.
319	Radiation Interference is disabled
320	RAD.INTERFERENCE
321	Radiation Interference
322	Evaluation Mode
323	Evaluation Mode Threshold and Hysteresis are calculated automatically and adjusted continuously, or whether they can be manually set to a fixed value. AUTO SET This is the default setting which should ideally be maintained. It ensures that the above parameters are optimized and adjusted continuously and checked at every decay compensation. MANUAL SET Use this setting only if it is absolutely necessary for your application and if you are aware of the consequences of manual input of fixed values. Incorrect entries that jeopardize the switching reliability can be compensated for only partially in this mode. Important: With manual input (MANUAL SET), the decay compensation has to be taken into account. Therefore, you must choose the time constant so large that it is valid for years to come and will not lead to incorrect switching. In the default setting (AUTO SET), the switching reliability is checked as well in the daily decay compensation.
324	AUTO SET
325	The dynamic reaction will be done automatically.
326	MANUAL SET
327	Configure the dynamic reaction manually.
328	Hysteresis
329	Hysteresis Shows the current hysteresis. The hysteresis is calculated automatically, but can also be manually set to a fixed value (Evaluation Mode: MANUAL SET). The hysteresis lies symmetrically around the switching threshold and prevents switching back and forth, which would be triggered by fluctuations of the measured value.
330	Threshold
331	Threshold Displays the current switching threshold (alarm threshold for the level). The time constant is calculated automatically (factory setting), but can also be manually set to a fixed percentage value (Evaluation Mode: MANUAL SET). We recommend using the automatic calculation (AUTO SET), unless important reasons speak against it. If the alarm for the switching threshold is triggered, the following signals are set: - the current output goes to 4 or 20 mA - Alarm State is ON - the open collector switches
332	Threshold Cps
333	Time Constant Shows the current time constant. The time constant is either calculated automatically (factory setting), or manually set to a fixed value. The time constant smoothes the output signal. Statistical fluctuations, as well as level fluctuations due to the process, e.g. by agitators, are smoothed. The value of the time constant corresponds approximately to the response time of the measurement. Depending on the setting in "Evaluation Mode", either the calculated time constant is displayed (AUTO SET) or a time can be entered in seconds (MANUAL SET). We recommend using the automatic calculation (AUTO SET), unless important reasons speak against it. For manual input please keep in mind: The time constant must be sufficiently large to avoid incorrect switching. At the same time, however, an increase in the time constant will delay the reaction of the measurement to a level exceedance; therefore, the time constant should not be selected too large. A time constant of 20 seconds is a good choice for standard applications and correct source detector configurations.
334	Switch Function
335	Switch Function You can specify whether the limit switch is used as a High Alarm or as a Low Alarm. The switching direction affects the fail-safe function of the digital output (open collector). To output the alarm as a signal via the open collector, you have to set "Digital Out Function" in the I/O Setup menu to LS ALARM. You have the following setting options: MAX The alarm is triggered when exceeding the switching threshold. MIN The alarm is triggered when falling below the switching threshold MAX + BUILD UP The alarm is triggered if the switching threshold is exceeded (High Alarm). In addition, monitoring is performed which triggers an alarm if wall deposits 1 is detected. Prerequisite for correct function is that both the count rate for empty and the count rate for full was measured. During the measurement of the empty value it must be ensured that no build-up occurs.
336	MAX
337	Application signals alarm, when measurement value exceeds threshold.
338	MAX + BUILD UP
339	Application signals alarm, when measurement value exceeds threshold and build up is detected.
340	MIN
341	Application signals alarm, when measurement value is below threshold.
342	BU Alarm
343	BU Alarm Display build up alarm.
344	Build up alarm is inactive.
345	ACTIVE
346	Build up alarm is active.
347	BU Level
348	BU Level Second level measurement value parallel to normal level.(Averaged with 10x time constant)
349	BU Threshold
350	BU Threshold Build up Threshold (+ Hysteresis) has to be exceeded for alarm signaling.
351	BU Hysteresis
352	BU Hysteresis Needed for build up alarm signaling and to calculate BU Time Constant.
353	BU Time Constant
354	BU Time Constant Equivalent to 10x time constant of level value.
355	sec
356	BU Delay Time
357	Measuring Path
358	Measuring Path This menu item is required for "Calibration Method" 1-POINT to determine the full count rate automatically. The value to be entered is the length of the beam path through the measured product. It is also required when using the function "Gas Density Compensation" and "Bulk Cone Measurement".
359	Product Density
360	Product Density This setting is needed only when using "Calibration Method" 1-POINT or in connection with "Bulk Cone Diameter". For liquids you have to enter the liquid density in kg/m³, for bulk material, the bulk density. If you known the fluid density and the bulk density only approximately, then you have to enter the lowest expected value.
361	Bulk Cone Diameter
362	Bulk Cone Diameter The setting is used to determine the switching point in bulk materials. In bulk materials the switching threshold should often lie at a specific bulk cone diameter. Enter a value greater than 0mm to calculate the switching threshold using the bulk cone diameter, provided that the "Measuring Path" and the "Product Density" are indicated. Please note that the time constant can be very large if the bulk cone diameter is selected too small or too large.
363	Setup Gas Density
364	Setup Gas Density Enter the gas pressure in kg/m3 which is present during calibration. Use this parameter only if the gas density during calibration is different from the gas density under operating conditions. Using the gas density, a compensated count rate is then calculated from the count rate in "Lower Cal Pt-Empty" which you can read off under "Op Lower Point". Prerequisite for the proper correction are correct entries in the following menu items: - Setup Gas Density - Op Gas Density - Measuring Path - Nuclide
365	Gas Density at Op
366	Gas Density at Op Visible only if "Compensation Mode" is set to MANUAL GDA. Enter the gas pressure in kg/m3 you expect under operating conditions. Use this parameter only if the gas density during calibration is different from the gas density under operating conditions. Using the gas density, a compensated count rate is then calculated from the count rate in "Lower Cal Pt-Empty" which you can read off under "Op Lower Point". See manual for more details.
367	Safety Status 1
368	Safety Status 1 Safety status flags part 1
369	Indicates ON when all following states are set to OK.
370	Watchdog
371	Indicates ON when the watchdog jumper on the CPU board is plugged.
372	Err. Handling
373	Indicates ON if the parameter Error Handling is set to SENSITIVE.
374	Current Feedback
375	Indicates ON if the monitoring of the Current Loop is activated.
376	Loop Alarm = HIGH?
377	Indicates ON if the parameter Loop Alarm Type is set to HIGH.
378	Loop Test disabled?
379	Indicates ON if the Loop Test is disabled.
380	Multidrop disabled?
381	Indicates ON if the Multidrop Mode is disabled.
382	Safety Status 2
383	Safety Status 2 Safety status flags part 2
384	HV Mode AUTO?
385	Indicates ON if the parameter HV Mode is set to AUTO.
386	Indicates ON if HV Default is in the range between 300 to 1300V.
387	Dig. In disabled?
388	Indicates ON if the parameter Digital In Function is set to OFF.
389	Dig. In Test disabled?
390	Indicates ON if the parameter Digital In Mode in I/O Test Settings is set to NORMAL.
391	Dig. Out Test disabled?
392	Indicates ON if the parameter Digital Out Mode in I/O Test Settings is set to NORMAL.
393	Safety Status 3
394	Safety Status 3 Safety status flags part 3
395	Cps Test disabled?
396	Indicates ON if the parameter Cps Average Mode (test pulse generator) in Test Settings is set to NORMAL.
397	Cps Comp Test disabled?
398	Indicates ON if the parameter Cps Comp Average Mode (test pulse generator) in Test Settings is set to NORMAL.
399	Dev Temp Test disabled?
400	Indicates ON if the parameter Device Temp. Mode is set to NORMAL.
401	Comp Mode disabled?
402	Indicates ON if the parameter Compensation Mode in menu Cal Parameter/Product Conditions is set to OFF.
403	Reset Modification Flag
404	Software Reset
405	Software Reset This method performs a software reset on the active probe.
406	Factory Reset
407	Factory Reset This method performs a factory reset on the active probe.
408	Reset Error Log
409	Reset Modification Log
410	Safety OFF
411	Safety OFF Disables the safety mode. Keep the password handy in case you want to make changes, because you will need any time you make changes. If you disable the safety mode, the following settings are made automatically: - the detector is unlocked, i.e. Write Protect is set to OFF - Error Handling is set to NORMAL - Response Mode is set to DISABLED
412	Refresh Plateau
413	Refresh Plateau Read values from device and refresh graphical view of plateau table.
414	Refresh Error Log
415	Refresh Modification Log
416	Set Poll Addr
417	Set License Key
418	Refresh Safety Statuses
419	Safety ON
420	Safety ON The safety mode has to be enabled for safety-relevant applications. In safety mode, safety-limiting values are set to a safety-compatible setting. In addition, you will be prompted to protect the detector with a password. The following settings are set automatically when safety mode is enabled: Current Loop Monitoring: = ENABLED HV Mode = AUTO Test Settings = NORMAL Error Handling = SENSITIV Digital inputs: = OFF Multidrop: Poll Addr = 0
421	ReadIn
422	ReadIn Start reading-in the count rates. While the count rate is read in, the average is calculated and displayed continuously. Under "ReadIn Time" you define the read-in period. First choose which calibration point you want to read in: BACKGROUND The background radiation has to be measured so that the detector can correctly compensate for the decay of the radiation source. Before taking measurements, make sure you do not measure any radiation from the radiation source The easiest way to ensure this is if the source is not yet mounted. Otherwise, close the beam path and fill the container in addition. LOWER-PT For this measurement, the level in the tank must be below the monitoring level or the tank must be completely empty. UPPER-PT This measurement can only be performed at a 2-point calibration. For the measurement, the level in the tank must be above the monitoring level or the tank must be completely filled.
423	Calibrate
424	Calibrate With this menu item you enable the calibration data determined during the measurements. The calibration data are transferred to "Meas Parameter". Thus, the detector will get a new calibration which in the future will be used to determine the measured values. After the calibration, a status message is displayed, indicating if the activation of the calibration data has been carried out successfully. If not, the measurement parameters are unchanged.
425	Calibrate + Preset
426	Calibrate + Preset With this menu item you enable the calibration data determined during the measurements. In this case, the calibration data are transferred to "Meas Parameter". Thus, the detector will get a new calibration which in the future will be used to determine the measured values. After the calibration, a status message is displayed, indicating if the activation of the calibration data has been carried out successfully. If not, the measurement parameters are unchanged. The following settings are made automatically at Calibrate + Auto Set: Evaluation Mode = AUTO SET OP Gas Density = 0 Setup Gas Density = 0 Bulk Cone = 0
427	Restore Upload
428	Restore Upload Has a similar function as "Calibrate", but considers a validity date, for example, of older calibration data and automatically performs a decay compensation. First, you have to save the original set of parameters in the HOST or the HART® Communicator as off-line parameters. The off-line parameters can then be restored to the detector. Then enable this parameter set with Restore Upload. The validity date (Restore Date) of the calibration, which is contained in the off-line parameters, will automatically be compared with the current date in the detector and the calibration count rate is adjusted accordingly.
429	Recall
430	Recall Recall allows you to copy the current data set from Meas Parameter to Cal Parameter. This allows you to revise the valid parameters, without this having an influence on the measurement at first. After you have finished editing, you can activate the changed settings with "Calibrate". Recall is also necessary because the count rates in the calibration parameters (Cal Parameter) in contrast to the count rates of the measuring parameters (Meas Parameter) are not decay compensated. Important: "Recall" overwrites all settings of the "Cal Parameter" menu.
431	Plateau Curve
432	Plateau
433	HV
434	V
435	Cps
436	Plateau Table
437	Point
438	Error Log Table
439	Modification Log Table
440	Berthold Device
441	%
442	Current
443	mA
444	Temp.
445	Trend
446	Online - Root
447	Device Config
448	Setup
449	Setup !locked!
450	Setup locked, while write protection active
451	Access
452	Identification
453	Location
454	Device Information
455	Device Revision
456	Temp. Threshold Settings
457	Current Output
458	Digital Input
459	HART Interface
460	Service
461	Sensor Temperature
462	License Key
463	Operating Status
464	Device Variables Status
465	Config Change Status
466	Log
467	Modification Log
468	Test
469	Error Status 100..207
470	Error Status 300..323
471	Error Status 324..507
472	Error Status 600..707
473	Error Status 900..907
474	Offline - Root
475	Cal Parameter
476	I/O Setup
477	Live Display
478	Diagnostic
479	Safety
480	Error Status
481	Date - Time
482	Sensor Configuration
483	PMT
484	Sensor Settings
485	Adapt Calibration
486	Cal Settings
487	Cal Points
488	Product Conditions
489	Meas Parameter
490	Meas Settings
491	Meas Data
492	Build Up Alarm
493	Signal Condition
494	Signal Parameter
495	Signal Dependency
496	Source Exchange
497	Digital Output
498	Plateau View
499	Plateau Information
500	Plateau Measurement
501	Test Settings
502	I/O Test Settings
503	Error Log
504	Quick Start
505	Step 1 - Date
506	Step 2 - Setup
507	Step 3 - Product Conditions
508	Step 4 - Calibration Points
509	Parameter Setup
510	Parameter Upload
511	Maintenance
512	Device Type
513	LB480 LEVEL SWITCH
514	Write Protect
515	Write Protect Indicates whether the detector is protected against changes in the settings (parameters). NO The detector is not write protected, so that the settings can be edited. YES The detector is write protected; settings cannot be edited, but they can still be displayed.
516	Loop Current Mode
517	FIXED VALUE
518	Current Out
519	8.2f
520	Loop Alarm Type
521	Loop Alarm Type Here you specify the fault current, i.e. the current that is to be output in case of error. Important: In Safety Mode, the fault current is automatically set to High. You have the following setting options: High In case of error the current output is set to 22mA. Low In case of error the current output is set to 2mA. Hold Last Value In case of error the current output holds the last measured value. Value In case of error, the current output is set to the current value, which is set in Error Current Value.
522	HIGH
523	Current output in case of error: 22mA
524	LOW
525	Current output in case of error: 3.5 mA
526	HOLD LAST VALUE
527	Current output in case of error: Hold last value
528	VALUE
529	Current output in case of error: Error current value
530	Transfer Function
531	Transfer Function Here you can specify how the current output should behave in case of a change in level: LINEAR A continuous 4-20 mA signal is output which is proportional to the count rate. DISCRETE SWITCH Depending on the set switching threshold (alarm threshold for the level) a current of 4 mA or 20 mA is output. Values between 4 and 20 mA will not be output.
532	LINEAR
533	DISCRETE SWITCH
534	% Meas Range
535	Upper Range Value
536	Lower Range Value
537	Tag
538	Descriptor
539	Message
540	Device Id
541	Poll Addr
542	Final Assembly Num
543	Field Dev Rev
544	Software Rev
545	Hardware Rev
546	Num Req Preams
547	Num Resp Preams
548	Modification Counter
549	Errors 101..108
550	Errors 101..108 System Errors Group 101..108
551	101 HW module missing or not tested
552	Error No. 101 HW module missing or not tested
553	102 Device data-set error
554	Error No. 102 Device data-set error
555	103 RAM Error
556	Error No. 103 RAM Error
557	104 Device Error
558	Error No. 104 Device Error
559	105 Real time clock not valid
560	Error No. 105 Real time clock not valid
561	106 Test mode active
562	Error No. 106 Test mode active
563	107 Watchdog reset
564	Error No. 107 Watchdog reset
565	108 Safety parameter invalid
566	Error No. 108 Safety parameter invalid
567	Errors 200..207
568	Errors 200..207 Mainboard Errors Group 200..207
569	200 Data flow
570	Error No. 200 Data flow
571	201 Error by analog input calibration
572	Error No. 201 Error by analog input calibration
573	202 Clock signal deviation
574	Error No. 202 Clock signal deviation
575	203 Reserved
576	Error No. 203 Reserved
577	204 Reserved
578	Error No. 204 Reserved
579	205 Reserved
580	Error No. 205 Reserved
581	206 Reserved
582	Error No. 206 Reserved
583	207 Reserved
584	Error No. 207 Reserved
585	Errors 300..307
586	Errors 300..307 Detector Control Errors Group 300..307
587	300 Data flow
588	Error No. 300 Data flow
589	301 Error by ADC calibration
590	Error No. 301 Error by ADC calibration
591	302 Error by DAC calibration
592	Error No. 302 Error by DAC calibration
593	303 Supply 5.0V
594	Error No. 303 Supply 5.0V
595	304 Reference 2.0V
596	Error No. 304 Reference 2.0V
597	305 Reference 2.5V
598	Error No. 305 Reference 2.5V
599	306 ERROR GND CPU ST9
600	Error No. ERROR GND CPU ST9
601	307 No impulses in measurement channel
602	Error No. 307 No impulses in measurement channel
603	Errors 308..315
604	Errors 308..315 Detector Control Errors Group 308..315
605	308 No impulses in control channel
606	Error No. 308 No impulses in control channel
607	309 No impulses in auxiliary channel
608	Error No. 309 No impulses in auxiliary channel
609	310 Impulse difference (measurement channel)
610	Error No. 310 Impulse difference in measurement channel too large
611	311 Impulse difference (control channel)
612	Error No. 311 Impulse difference in control channel too large
613	312 Impulse difference (auxiliary channel)
614	Error No. 312 Impulse difference in auxiliary channel too large
615	313 Instable pulse rates in both channels
616	Error No. 313 Instable pulse rates in both channels
617	314 Threshold of measurement channel 1
618	Error No. 314 Threshold of measurement channel 1
619	315 Threshold of measurement channel 2
620	Error No. 315 Threshold of measurement channel 2
621	Errors 316..323
622	Errors 316..323 Detector Control Errors Group 316..323
623	316 Threshold of control channel 1
624	Error No. 316 Threshold of control channel 1
625	317 Threshold of control channel 2
626	Error No. 317 Threshold of control channel 2
627	318 Threshold of auxiliary channel 1
628	Error No. 318 Threshold of auxiliary channel 1
629	319 Threshold of auxiliary channel 2
630	Error No. 319 Threshold of auxiliary channel 2
631	320 HV voltage
632	Error No. 320 HV voltage
633	321 Generated HV voltage
634	Error No. 321 Generated HV voltage
635	322 HV reached it's limit value
636	Error No. 322 HV reached it's limit value
637	323 HV average is 20% lower than default HV
638	Error No. 323 HV average is 20% lower than default HV
639	Errors 324..331
640	Errors 324..331 Detector Control Errors Group 324..331
641	324 HV average is 40% higher than default HV
642	Error No. 324 HV average is 40% higher than default HV
643	325 PMT current warning
644	326 PMT current error
645	327 Temperature sensors deviation
646	Error No. 327 Temperature sensors deviation
647	328 Temperature warning
648	Error No. 328 Temperature warning
649	329 Temperature out of allowed limits
650	Error No. 329 Temperature out of allowed limits
651	330 Detector malfunction
652	Error No. 330 Detector malfunction
653	331 Reserved
654	Help 331 Reserved
655	Errors 400..407
656	Errors 400..407 Interface Errors Group 400..407
657	400 Data flow
658	Error No. 400 Data flow
659	401 Supply 11V
660	Error No. 401 Supply 11V
661	402 Supply 5V
662	Error No. 402 Supply 5V
663	403 Supply 5VM
664	Error No. 403 Supply 5VM
665	404 Supply 3.3V
666	Error No. 404 Supply 3.3V
667	405 RS-485 Communication error
668	Error No. 405 RS-485 Communication error
669	406 Remote device warning
670	Error No. 406 Remote device warning
671	407 Remote device error
672	Error No. 407 Remote device error
673	Errors 500..507
674	Sensor Errors Group 500..507
675	500 Data flow
676	Error No. 500 Data flow
677	501 Undefined
678	Help 501 Undefined
679	502 Digital input malfunction
680	Error No. 502 Digital input malfunction
681	503 Digital output malfunction
682	Error No. 503 Digital output malfunction
683	504 Inherited Message
684	Error No. 504
685	505 Undefined
686	Help 505 Undefined
687	506 Undefined
688	Help 506 Undefined
689	507 Reserved
690	Help 507 Undefined
691	Errors 600..607
692	Errors 600..607 Application Errors Group 600..607
693	600 Data flow
694	Error No. 600 Data flow
695	601 License Key Error
696	Error No. 601 License Key Error
697	602 Undefined
698	Help 602 Undefined
699	603 Meas Error, check <Error Status>
700	Error No. 603 Meas Error, check <Error Status>
701	604 Decay compensation error
702	Error No. 604 Decay compensation error
703	605 Source Exchange
704	Error No. 605 Source Exchange
705	606 Radiation interference
706	Error No. 606 Radiation interference
707	607 RID Interference
708	Error No. 607 RID Interference
709	Errors 608..615
710	Application Errors Group 608..615
711	608 Build up detected
712	Error No. 608 Build up detected
713	609 Inherited Message
714	Error No. 609
715	610 Inherited Message
716	Error No. 610
717	611 Inherited Message
718	Error No. 611
719	612 Inherited Message
720	Error No. 612
721	613 Inherited Message
722	Error No. 613
723	614 Undefined
724	Help 614 Undefined
725	615 Undefined
726	Help 615 Undefined
727	Errors 700..707
728	Errors 700..707 Current Output Errors 700..707
729	700 Data flow
730	Error No. 700 Data flow
731	701 Current Loop Monitoring
732	Error No. 701 Current Loop Feedback Difference
733	702 Current loop malfunction
734	Error No. 702 Current loop malfunction
735	703 Current Loop Monitoring DISABLED
736	Error No. 703 Current Loop Monitoring DISABLED
737	704 ERROR GND CPU ST6
738	Error No. 704 ERROR GND CPU ST6
739	705 Reserved
740	Help 705 Reserved
741	706 Reserved
742	Help 706 Reserved
743	707 Reserved
744	Help 707 Reserved
745	Errors 900..907
746	Errors 900..907 HART Errors Group 900..907
747	900 Data flow
748	Error No. 900 Data flow
749	901 Signal Unlocked
750	Error No. 901 Signal Unlocked
751	902 Reserved
752	Help 902 Reserved
753	903 Reserved
754	Help 903 Reserved
755	904 Reserved
756	Help 904 Reserved
757	905 Reserved
758	Help 905 Reserved
759	906 Reserved
760	Help 906 Reserved
761	907 Reserved
762	Help 907 Reserved
763	Lock/Unlock Device
764	Lock Dev Status
765	Device is Locked
766	Lock is Permanent
767	Locked by Primary Master
768	D/A trim
769	D/A trim Allows you to adjust the current output. You will need a current meter which has to be connected to the current loop. A method will take you through the adjustment.
770	Loop test
771	PV Analog Channel Saturated
772	PV Analog Channel Fixed
773	Wireless
774	WirelessHART Device
775	IEEE 802.15.4 2.4GHz DSSS with O-QPSK Modulation
776	Primary
777	Primary Analog Channel
778	Secondary
779	Secondary Analog Channel
780	Tertiary
781	Tertiary Analog Channel
782	Quaternary
783	Quaternary Analog Channel
784	Quinary
785	Quinary Analog Channel
786	Critical Power Failure
787	Lock all
788	Trim not supported
789	Configuration cannot be changed
790	Locked by gateway
791	Analog Input Channel
792	Analog Output Channel
793	Secondary Analog Channel Saturated
794	Tertiary Analog Channel Saturated
795	Quaternary Analog Channel Saturated
796	Quinary Analog Channel Saturated
797	Secondary Analog Channel Fixed
798	Tertiary Analog Channel Fixed
799	Quaternary Analog Channel Fixed
800	Quinary Analog Channel Fixed
801	Simulation active
802	The device is in simulation mode and the level output is not representative of the process.
803	Non-Volatile memory failure
804	The Non-Volatile memory check is invalid or maybe corrupt, or the battery of a battery-backed memory has failed.
805	Volatile memory error
806	The RAM memory check is invalid or maybe corrupt
807	Watchdog reset executed
808	A watchdog reset has been performed
809	Voltage conditions out of range
810	A voltage condition is outside its allowable range
811	Environmental conditions out of range
812	An internal or environmental condition is beyond acceptable limits.
813	Electronic failure
814	A hardware problem not related to the sensor has been detected.
815	Subdevice list changed
816	Duplicate master detected
817	Capacity Denied
818	The device was unable to acquire the communication bandwidth required to support the Burst Messaging specified
819	Bandwidth allocation pending
820	Block transfer pending
821	Battery life
822	Percent range
823	Loop current
824	Primary variable
825	Secondary variable
826	Tertiary variable
827	Quaternary variable
828	Read receive time
829	Write date and time
830	Non-Volatile Clock
831	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.
832	Clock Uninitialized
833	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.
834	None
835	No restrictions
836	SI Only
837	Restricted to SI Unit codes only
838	Process automation device
839	Discrete device
840	Hybrid:Process automation+discrete
841	I/O System
842	WirelessHART Process automation device
843	WirelessHART Discrete device
844	WirelessHART Process automation+discrete
845	WirelessHART Gateway
846	WirelessHART Access point
847	WirelessHART Process adapter
848	WirelessHART Discrete adapter
849	WirelessHART enabled handheld/portable maintenance tool
850	Device Profile
851	US
852	United States of America
853	JP
854	Japan
855	DE
856	Germany
857	FR
858	France
859	ES
860	Spain
861	RU
862	Russian Federation
863	CN
864	People's Republic of China
865	Secondary Master
866	Primary Master
867	Device Diagnostic Status 0
868	Device Diagnostic Status 1
869	I/O and Subdevice Status
870	WirelessHART Status
871	Time Set Option
872	Real Time Clock Flags
873	Country
874	Country of intended device installation
875	SI Unit Control
876	Indicates if device should only display SI unit codes
877	8.3f
878	.3f
879	Time Stamp
880	Relative time value on network
881	8u
882	Dynamic Variables Returned for Device Variables
883	Command Response Truncated
884	Configuration Change Counter Mismatch
885	Status bytes mismatch
886	Device Variable
887	Reset Modification Flag now?
888	Cancel;Yes
889	Modification Flag is reset!
890	Reset device now?
891	Resetting... %{l_iProcessPercent}%
892	Software reset done.
893	Device is reset! In order to update all parameter values, disconnect and reconnect the communication to the device.
894	Resetting...
895	Error Log is reset!
896	Reset Modification Log?
897	Modification Log is reset!
898	Safety is already deactivated!
899	Enter Password:
900	Resetting device...
901	Safety Mode is deactivated! Error Handling set to NORMAL! Device is not write protected!
902	No Plateau Data available
903	Refreshing ... (Entry No.: %{i_plateau_id})
904	Refresh Error Log?
905	Refreshing ... %{l_iProcessPercent}%
906	Error Log refresh done.
907	Refresh Modification Log?
908	Modification Log refresh done.
909	Set Key Part1
910	Set Key Part2
911	Set Key Part3
912	Set Key Part4
913	Set Key Part5
914	Send Key: %{0}-%{1}-%{2}-%{3}-%{4}
915	Performing software reset. This will take 15 seconds.
916	Safety is already activated!
917	Safety Mode is activated! Device is write protected!
918	Device is in write protect mode! Please disable write protect first!
919	Preparing ReadIn...
920	Select ReadIn Mode:
921	Another ReadIn already running!
922	Error - Invalid Selection
923	ReadIn in process Rate = %{0} cps Remaining Time = %{1} s
924	Attention: This will overwrite your measurement settings!
925	Performing calibration ... 0%
926	Performing calibration ... 15%
927	Performing calibration ... 30%
928	Performing calibration ... 45%
929	Performing calibration ... 60%
930	Performing calibration ... 75%
931	Performing calibration ... 90%
932	Performing calibration ... 100%
933	Unknown device status
934	Performing restore ... 0%
935	Performing restore ... 20%
936	Performing restore ... 35%
937	Performing restore ... 50%
938	Performing restore ... 65%
939	Performing restore ... 80%
940	Performing restore ... 100%
941	Restore Status: %{0}
942	This will overwrite your actual calibration settings!
943	Performing recall ... 0%
944	Performing recall ... 15%
945	Performing recall ... 30%
946	Performing recall ... 45%
947	Performing recall ... 60%
948	Performing recall ... 75%
949	Performing recall ... 90%
950	Performing recall ... 100%
951	Copy of measuring data transferred to calibration parameter!
952	Enable current loop monitoring now?
953	Yes;No
Reference ID	String