0 |
TLK-TT306H-R |
1 |
BALDOTA CONTROL |
2 |
Loop Current Saturated |
3 |
Sensor1 Open |
4 |
Sensor1 Short |
5 |
Sensor2 Open |
6 |
Sensor2 Short |
7 |
Resvered |
8 |
DeviceTemp Error |
9 |
AD/DA Error |
10 |
QV |
11 |
Sensor1 Value |
12 |
|
13 |
.3f |
14 |
Sensor1 Unit |
15 |
Temp Dev fmly |
16 |
Temp Class |
17 |
Temp PDQ |
18 |
Temp LS |
19 |
Temp Fmly stat |
20 |
Temp USL |
21 |
Temp LSL |
22 |
Minimum Span |
23 |
8.3f |
24 |
Sensor1 snsr s/n |
25 |
7d |
26 |
Sensor 1 |
27 |
Sensor2 Value |
28 |
Sensor2 Unit |
29 |
Sensor2 snsr s/n |
30 |
Sensor 2 |
31 |
Dev Temp Value |
32 |
Snsr temp unit |
33 |
Sensor Temperature Units- Engineering unit to be displayed with Sensor Temperature. |
34 |
Temp Dev Stat |
35 |
Temp min span |
36 |
Temp snsr s/n |
37 |
Dev Temperature |
38 |
Average Value |
39 |
Average Unit |
40 |
Snsr s/n |
41 |
Average |
42 |
Difference Value |
43 |
Difference Unit |
44 |
Difference |
45 |
RJ value |
46 |
device temperature for temperature compensation. |
47 |
RJ preset value 1 |
48 |
Use this function to define the fixed preset value for temperature compensation.-50 to +87℃ |
49 |
RJ preset value 2 |
50 |
Sensor type 1 |
51 |
Settings for sensor input 1. |
52 |
CU50 |
53 |
CU100 |
54 |
PT100 |
55 |
PT1000 |
56 |
B_TC |
57 |
E_TC |
58 |
J_TC |
59 |
K_TC |
60 |
N_TC |
61 |
R_TC |
62 |
S_TC |
63 |
T_TC |
64 |
100MV |
65 |
0_500R |
66 |
0_4000R |
67 |
Sensor type 2 |
68 |
Settings for sensor input 2. |
69 |
NO sensor |
70 |
Connection type 1 |
71 |
Use this function to select the connection type for the sensor 1. |
72 |
2 Wire |
73 |
3 Wire |
74 |
4 Wire |
75 |
Connection type 2 |
76 |
Use this function to select the connection type for the sensor 2. |
77 |
Reference junction 1 |
78 |
Use this function to select reference juntion measurement for temperature compensation of thermocouples(TC). |
79 |
NO Compensation |
80 |
no temperature compensation used |
81 |
Internal measurement |
82 |
the internal reference junction temperature is used |
83 |
Preset value |
84 |
a fixed preset value is used |
85 |
Measured value sensor 2 |
86 |
the measured value of sensor 2 is used |
87 |
Reference junction 2 |
88 |
Channel diagnostics 1 |
89 |
Use this function to display the diagnostics messages of sensor channel. |
90 |
IO_SUCCESS |
91 |
no error |
92 |
IO_UNDER_RANGE |
93 |
under range |
94 |
IO_OVER_RANGE |
95 |
over range |
96 |
IO_CHANNEL_OPEN |
97 |
channel open |
98 |
IO_SHORT_CIRCUIT |
99 |
short circuit |
100 |
IO_CFG_ERROR |
101 |
cfg error |
102 |
IO_CLOSED |
103 |
closed |
104 |
IO_COLD_TEMP_ERROR |
105 |
cold temp error |
106 |
IO_AD_DA_ERROR |
107 |
AD/DA error |
108 |
Channel diagnostics 2 |
109 |
R0 value 1 |
110 |
Use this function to set RTD to zero in the ice-water mixture.range 0.9~1.1 |
111 |
R0 value 2 |
112 |
Calibrate two wire zero |
113 |
Calibrate RTD/TC |
114 |
Result calibrate |
115 |
Processor function code |
116 |
Alarm Direction |
117 |
High |
118 |
Low |
119 |
Low Alarm |
120 |
range 3.5~3.75 mA |
121 |
High Alarm |
122 |
range 21.75~23 mA |
123 |
Calibrate Point of 0_500R 1 |
124 |
Range 350.0 ~ 490.0
Preset Point of 0~500R |
125 |
Calibrate Point of 0_500R 2 |
126 |
Calibrate Point of 0_4000R 1 |
127 |
Range 2500.0 ~ 3900.0
Preset Point of 0~4000R |
128 |
Calibrate Point of 0_4000R 2 |
129 |
Calibrate Point of 100mV 1 |
130 |
Range 10.0 ~ 19.0
Preset Point of -100~+100mV |
131 |
Calibrate Point of 100mV 2 |
132 |
Configure Sensor(s) |
133 |
Calibrate Sensor(s) |
134 |
Configure Device |
135 |
Device Function |
136 |
Device settings |
137 |
Diagnostics |
138 |
Maintenance |
139 |
Offline |
140 |
Operate |
141 |
Status |
142 |
Guided Setup |
143 |
Sensor info 1 |
144 |
Sensor info 2 |
145 |
Device Image |
146 |
This is an IMAGE |
147 |
PV Analog Channel Saturated |
148 |
PV Analog Channel Fixed |
149 |
Wireless |
150 |
WirelessHART Device |
151 |
IEEE 802.15.4 2.4GHz DSSS with O-QPSK Modulation |
152 |
Primary |
153 |
Primary Analog Channel |
154 |
Secondary |
155 |
Secondary Analog Channel |
156 |
Tertiary |
157 |
Tertiary Analog Channel |
158 |
Quaternary |
159 |
Quaternary Analog Channel |
160 |
Quinary |
161 |
Quinary Analog Channel |
162 |
Critical Power Failure |
163 |
Lock all |
164 |
Trim not supported |
165 |
Configuration cannot be changed |
166 |
Locked by gateway |
167 |
Analog Input Channel |
168 |
Analog Output Channel |
169 |
Secondary Analog Channel Saturated |
170 |
Tertiary Analog Channel Saturated |
171 |
Quaternary Analog Channel Saturated |
172 |
Quinary Analog Channel Saturated |
173 |
Secondary Analog Channel Fixed |
174 |
Tertiary Analog Channel Fixed |
175 |
Quaternary Analog Channel Fixed |
176 |
Quinary Analog Channel Fixed |
177 |
Simulation active |
178 |
The device is in simulation mode and the level output is not representative of the process. |
179 |
Non-Volatile memory failure |
180 |
The Non-Volatile memory check is invalid or maybe corrupt, or the battery of a battery-backed memory has failed. |
181 |
Volatile memory error |
182 |
The RAM memory check is invalid or maybe corrupt |
183 |
Watchdog reset executed |
184 |
A watchdog reset has been performed |
185 |
Voltage conditions out of range |
186 |
A voltage condition is outside its allowable range |
187 |
Environmental conditions out of range |
188 |
An internal or environmental condition is beyond acceptable limits. |
189 |
Electronic failure |
190 |
A hardware problem not related to the sensor has been detected. |
191 |
Subdevice list changed |
192 |
Duplicate master detected |
193 |
Capacity Denied |
194 |
The device was unable to acquire the communication bandwidth required to support the Burst Messaging specified |
195 |
Bandwidth allocation pending |
196 |
Block transfer pending |
197 |
Battery life |
198 |
Percent range |
199 |
Loop current |
200 |
Primary variable |
201 |
Secondary variable |
202 |
Tertiary variable |
203 |
Quaternary variable |
204 |
Read receive time |
205 |
Write date and time |
206 |
Non-Volatile Clock |
207 |
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. |
208 |
Clock Uninitialized |
209 |
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. |
210 |
None |
211 |
No restrictions |
212 |
SI Only |
213 |
Restricted to SI Unit codes only |
214 |
Process automation device |
215 |
Discrete device |
216 |
Hybrid:Process automation+discrete |
217 |
I/O System |
218 |
WirelessHART Process automation device |
219 |
WirelessHART Discrete device |
220 |
WirelessHART Process automation+discrete |
221 |
WirelessHART Gateway |
222 |
WirelessHART Access point |
223 |
WirelessHART Process adapter |
224 |
WirelessHART Discrete adapter |
225 |
WirelessHART enabled handheld/portable maintenance tool |
226 |
Device Profile |
227 |
US |
228 |
United States of America |
229 |
JP |
230 |
Japan |
231 |
DE |
232 |
Germany |
233 |
FR |
234 |
France |
235 |
ES |
236 |
Spain |
237 |
RU |
238 |
Russian Federation |
239 |
CN |
240 |
People's Republic of China |
241 |
Secondary Master |
242 |
Primary Master |
243 |
Device Diagnostic Status 0 |
244 |
Device Diagnostic Status 1 |
245 |
I/O and Subdevice Status |
246 |
WirelessHART Status |
247 |
Time Set Option |
248 |
Real Time Clock Flags |
249 |
Country |
250 |
Country of intended device installation |
251 |
SI Unit Control |
252 |
Indicates if device should only display SI unit codes |
253 |
Time Stamp |
254 |
Relative time value on network |
255 |
8u |
256 |
Dynamic Variables Returned for Device Variables |
257 |
Command Response Truncated |
258 |
Configuration Change Counter Mismatch |
259 |
Status bytes mismatch |
260 |
Device Variable |
261 |
Please choose an option: |
262 |
Configure Sensor 1;Configure Sensor 2;Display Sensor Configurations;Set Advanced Sensor Options;Exit |
263 |
Select Sensor Type: |
264 |
Sensor connection set to 2 Wire. |
265 |
Select Sensor Connection: |
266 |
degC |
267 |
degF |
268 |
degR |
269 |
Kelin |
270 |
mV |
271 |
Ohms |
272 |
Error |
273 |
Sensor 1:
Units = %[s]{disp_unit}
Type = %[s]{disp_type}
Connection = %[s]{disp_connection}
|
274 |
Sensor 2:
Units = %[s]{disp_unit}
Type = %[s]{disp_type}
Connection = %[s]{disp_connection}
|
275 |
Please choose engineering units. |
276 |
degC;degF;degR;Kelvin;mV;Ohms |
277 |
Calibrate Sensor 1;Calibrate Sensor 2;Set Advanced Options;Exit |
278 |
Select Calibrate function: |
279 |
Calibrate RTD;Calibrate TC;Enable 2-wire Zero Calibration |
280 |
Step 1 - 4 Wire,input = 0Ω |
281 |
Calibrate RTD Failed! |
282 |
Step 2 - 4 wire, input = Preset Point of 0~500R. |
283 |
Step 3 - 4 wire, input = Preset Point of 0~4000R. |
284 |
Calibrate RTD Succeeded. |
285 |
2 Wire,input = Preset Point of -100~+100mV. |
286 |
Calibrate TC Succeeded. |
287 |
Calibrate TC Failed! |
288 |
Enable 2-wire Zero Calibration |
289 |
Enable 2-wire Zero Calibration Succeeded. |
290 |
Enable 2-wire Zero Calibration Failed! |
291 |
Step 1 - 3 Wire,input = 0Ω |
292 |
Step 2 - 3 wire, input = Preset Point for 0~500R. |
293 |
Step 3 - 3 wire, input = Preset Point for 0~4000R. |
294 |
2 Wire,input = Preset Point for -100~+100mV. |
295 |
Calibrate TC Succeeded! |
296 |
Enable 2-wire Zero Calibration. |
297 |
Enable 2-wire Zero Calibration Succeeded! |
298 |
Note - Users can define calibration points themselves,Select Advanced function: |
299 |
Calibrate Point of Sensor 1;Calibrate Point of Sensor 2 |
300 |
Note - 0_500R : 350.0Ω ~ 490.0Ω
Please enter an float for Calibrate_point_0_500R_1 |
301 |
Note - 0_4000R : 2500.0Ω ~ 3900.0Ω
Please enter an float for Calibrate_point_0_4000R_1 |
302 |
Note - -100_+100mV : 10.0mV ~ 19.0mV
Please enter an float for Calibrate_point_100mV_1 |
303 |
Set Calibrate Point Succeeded. |
304 |
Note - 0_500R : 350.0Ω ~ 490.0Ω
Please enter an float for Calibrate_point_0_500R_2 |
305 |
Note - 0_4000R : 2500.0Ω ~ 3900.0Ω
Please enter an float for Calibrate_point_0_4000R_2 |
306 |
Note - -100_+100mV : 10.0mV ~ 19.0mV
Please enter an float for Calibrate_point_100mV_2 |
307 |
Select an option for configuration to set up your device: |
308 |
Tagging;Variable Mapping;PV Range;PV Damping;Exit |
309 |
Note-Device Tag is limited to 8 characters. |
310 |
Device Identification Tag has been saved. |
311 |
Select Primary Variable: |
312 |
Select Second Variable: |
313 |
Select Third Variable: |
314 |
Select Fourth Variable: |
315 |
Variable mapping complete.
Waring - Return control loop to automatic control. |
316 |
Enter PV Lower Range Value: |
317 |
Enter PV Upper Range Value: |
318 |
PV Upper Range Value set to %[5.3f]{var_upper}
PV Lower Range Value set to %[5.3f]{var_lower}
|
319 |
Waring - Return control loop to automatic control. |
320 |
Enter PV Damping Value: |
321 |
PV Damping set to %[5.3f]{var_damp} |
322 |
Select an funtion to set up your device: |
323 |
Restore Default Factory;Restore Factory;Save as Factory |
324 |
Do this and the device will revert to its factory default state. |
325 |
Restore default factory succeeded. |
326 |
Do this and the device will restore the configuration information saved by the user. |
327 |
Restore factory succeeded. |
328 |
Do this and the device will save the current information. |
329 |
Save as factory succeeded. |
330 |
Please reload device. |