Download Hart Scientific 9144 Product Manual

9142, 9143, 9144
Field Metrology Well
Technical Guide
January 2013
© 2013 Fluke Corporation. All rights reserved. Specifications are subject to change without notice.
All product names are trademarks of their respective companies.
Table of Contents
1
Before You Start .......................................................................1
1.1
1.2
Introduction ............................................................................................... 1
Unpacking ................................................................................................ 2
1.3
Symbols Used........................................................................................... 3
1.4
Safety Information ..................................................................................... 4
1.4.1
1.4.2
1.5
CE Comments ........................................................................................... 8
1.5.1
1.5.2
1.5.3
1.5.4
1.6
2
Authorized Service Centers ...................................................................... 9
Specifications ......................................................................................... 13
Environmental Conditions ....................................................................... 15
Quick Start ..............................................................................17
3.1
3.2
Setup....................................................................................................... 17
Parts and Controls .................................................................................. 18
3.2.1
3.2.2
3.2.3
3.2.4
3.3
Display Panel ................................................................................................19
Display ..........................................................................................................20
Power Panel ..................................................................................................22
-P Option Panel (-P models only) ..................................................................24
Languages .............................................................................................. 26
3.3.1
3.3.2
4
EMC Directive .................................................................................................8
Immunity Testing .............................................................................................9
Emission Testing..............................................................................................9
Low Voltage Directive (Safety) ........................................................................9
Specifications and Environmental Conditions....................13
2.1
2.2
3
Warnings .........................................................................................................5
Cautions ..........................................................................................................7
Language Selection ......................................................................................26
Reset to English Language ...........................................................................27
Menu Structure .......................................................................29
4.1
4.2
Temp Setup Menu ................................................................................... 29
Prog Menu .............................................................................................. 30
4.2.1
4.2.2
4.3
4.4
Switch Test Parameters .................................................................................31
Switch Test Description .................................................................................31
System Menu .......................................................................................... 33
Input Setup (-P only) ............................................................................... 34
iii
5
Controller operation...............................................................35
5.1
5.2
Main Screen ............................................................................................ 35
Main Menu .............................................................................................. 36
5.2.1
5.2.2
5.2.3
5.2.4
6
Digital communication interface...........................................57
6.1
Wiring ...................................................................................................... 57
6.1.1
6.1.2
6.2
6.3
6.4
6.5
6.6
7
Setup .............................................................................................................57
Serial Operation ............................................................................................57
Command Syntax ................................................................................... 58
Commands by Function or Group .......................................................... 59
Serial Commands - Alphabetic Listing ................................................... 63
Non-SCPI Process Commands ............................................................... 85
Non-SCPI Commands by Function or Group ......................................... 85
Calibration of your Field Metrology Well ..............................89
7.1
7.2
7.3
7.4
General ................................................................................................... 89
Terminology............................................................................................. 89
Fundamentals ......................................................................................... 89
Procedure ............................................................................................... 93
7.4.1
7.4.2
7.4.3
7.4.4
7.4.5
7.4.6
7.4.7
7.4.8
7.4.9
7.4.10
7.4.11
7.4.12
7.4.13
7.4.14
7.4.15
7.5
iv
Temp Setup ...................................................................................................36
Prog Menu .....................................................................................................38
System Menu.................................................................................................45
INPUT SETUP (-P model only) ......................................................................51
Readout Calibration/Tests .............................................................................93
Readout Specifications .................................................................................93
UUT Thermocouple Calibration.....................................................................93
Thermocouple Accuracy Test .......................................................................93
Thermocouple Reference Junction Accuracy Test .......................................94
Thermocouple Accuracy Alignment..............................................................94
Thermocouple Reference Junction Accuracy Alignment .............................95
Reference Accuracy Test ..............................................................................96
UUT PRT 4-wire Test......................................................................................96
UUT PRT 3-wire Test......................................................................................97
Reference Accuracy Alignment ....................................................................97
UUT 4-20mA Input Calibration ......................................................................98
4-20mA Accuracy Test ..................................................................................98
24V Source Test ............................................................................................99
4-20mA Accuracy Alignment .......................................................................99
Heat Source Calibration/Test .................................................................. 99
7.5.1
7.5.2
7.5.3
7.5.4
7.5.5
7.5.6
Axial Gradient Test ......................................................................................101
Accuracy Test..............................................................................................102
Stability Test ................................................................................................102
Hysteresis Calculation .................................................................................103
Uniformity Alignment ...................................................................................104
Accuracy Alignment ....................................................................................105
8
Troubleshooting ................................................................... 107
9
Maintenance ......................................................................... 109
9.1
Field Metrology Well Performance Analysis ......................................... 109
v
Tables
Table 1 Symbols used........................................................................................ 3
Table 2 Base Unit Specifications ..................................................................... 13
Table 3 -P Option Specifications ..................................................................... 14
Table 4 Matching Certificate Values to 917X ITS-90 Coefficients .................... 54
Table 5 Setting Coefficients Rtpw, a8, b8, and b4........................................... 54
Table 6 Commands by Function or Group ....................................................... 59
Table 7 PROG:SEQ:PAR parameters ............................................................... 72
Table 8 PROG:SWIT:PAR parameters ............................................................. 73
Table 9 Test equipment specifications............................................................. 90
Table 10 Standard resistor specifications ........................................................ 90
Table 11 Thermocouple Testing Process ......................................................... 93
Table 12 Reference Probe and UUT PRT Input Process ................................. 95
Table 13 UUT 4-20 mA Calibration Steps ........................................................ 98
Table 14 Heat Source Calibration/Test Sequence ......................................... 100
Table 15 Axial Gradient Limits ....................................................................... 100
Table 16 Heat Source As Found Data/As Left Data Specifications ............... 103
Table 17 Accuracy alignment parameters ..................................................... 106
Table 18 Troubleshooting, problems, causes and solutions .......................... 107
vi
Figures
Figure 1 Clamp-on ferrite installation ................................................................ 9
Figure 2 914X Field Metrology Well ................................................................. 18
Figure 3 Display panel and keys .................................................................... 20
Figure 4 914X display ...................................................................................... 21
Figure 5 9142 power panel .............................................................................. 23
Figure 6 9143 and 9144 power panel.............................................................. 23
Figure 7 -P option panel ................................................................................. 24
Figure 8 Probe connector wiring ..................................................................... 25
Figure 9 Jumper locations for 3-wire and 2-wire connections ......................... 26
Figure 10 Steps to language selection ............................................................ 27
Figure 11 Main Menu - Temp SetUp ................................................................ 29
Figure 12 Main Menu - Prog Menu .................................................................. 30
Figure 13 Auto and manual switch test operation example ............................ 32
Figure 14 Main Menu - System Menu .............................................................. 33
Figure 15 Main Menu - Input Setup ................................................................ 34
Figure 16 Schematic diagram showing the deadband in a temperature
switch as it closes and opens with temperature changes. ..................... 41
Figure 17 RS-232 wiring .................................................................................. 58
Figure 18 Readout calibration flow chart ......................................................... 91
Figure 19 Heat source calibration flow chart ................................................... 92
Figure 20 PRT and insert orientation during heat source calibration. ........... 101
vii
Before You Start
Introduction
1 Before You Start
1.1
Introduction
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1
914X Field Metrology Wells
Unpacking
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1.2
Unpacking
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Before You Start
Symbols Used
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1.3
Symbols Used
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Table 1 Symbols used
Symbol
Description
AC (Alternating Current)
AC-DC
Battery
Complies with European Union directives
DC
Double Insulated
3
914X Field Metrology Wells
Safety Information
Symbol
Description
Electric Shock
Fuse
PE Ground
Hot Surface (Burn Hazard)
Read the User’s Guide (Important Information)
Off
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1.4
Safety Information
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Before You Start
Safety Information
1.4.1
Warnings
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5
914X Field Metrology Wells
Safety Information
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6
Before You Start
Safety Information
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CE Comments
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Authorized Service Centers
1.5.2
Immunity Testing
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Specifications and Environmental Conditions
Specifications
2
Specifications and Environmental Conditions
2.1
Specifications
Table 2 Base Unit Specifications
Base Unit Specifications
9142
9143
9144
–25 °C to 150 °C
(-13 °F to 302 °F)
33 °C to 350 °C
(91 °F to 662 °F)
50 °C to 660 °C
(122 °F to 1220 °F)
Display Accuracy
± 0.2 °C Full Range
± 0.2 °C Full Range
± 0.35 °C at 50 °C
± 0.35 °C at 420 °C
± 0.5 °C at 660 °C
Stability
± 0.01 °C Full Range
± 0.02 °C at 33 °C
± 0.02 °C at 200 °C
± 0.03 °C at 350 °C
± 0.03 °C at 50 °C
± 0.05 °C at 420 °C
± 0.05 °C at 660 °C
Axial Uniformity at 40
mm (1.6 in)
± 0.05 °C Full Range
± 0.04 °C at 33 °C
± 0.1 °C at 200 °C
± 0.2 °C at 350 °C
± 0.05 °C at 50 °C
± 0.35 °C at 420 °C
± 0.5 °C at 660 °C
Axial Uniformity at 60
mm (2.4 in)
± 0.07 °C Full Range
± 0.04 °C at 33 °C
± 0.2 °C at 200 °C
± 0.25 °C at 350 °C
± 0.1 °C at 50 °C
± 0.6 °C at 420 °C
± 0.8 °C at 660 °C
Radial Uniformity
± 0.01 °C Full Range
± 0.01 °C at 33 °C
± 0.015 °C at 200 °C
± 0.02 °C at 350 °C
± 0.02 °C at 50 °C
± 0.05 °C at 420 °C
± 0.1 °C at 660 °C
Loading Effect (with
a 6.35 mm reference
probe and three 6.35
mm probes)
± 0.006 °C Full Range
± 0.015 °C Full Range
± 0.015 °C at 50 °C
± 0.025 °C at 420 °C
± 0.035 °C at 660 °C
Loading Effect (versus
display with 6.35 mm
probes)
± 0.08 °C Full Range
± 0.2 °C Full Range
± 0.1 °C at 50 °C
± 0.2 °C at 420 °C
± 0.2 °C at 660 °C
0.025 °C
0.03 °C
0.1 °C
Temperature Range at
23 °C
Hysteresis
Operating Conditions
0 °C to 50 °C, 0 % to 90 % RH (non-condensing)
Environmental
conditions for all
specifications except
temperature range
13 °C to 33 °C
Immersion (Well)
Depth
Insert OD
150 mm (5.9 in)
30 mm (1.18 in)
25.3 mm (1.00 in)
24.4 mm (0.96 in)
Heating Time
16 min: 23 °C to 140 °C
23 min: 23 °C to 150 °C
25 min: –25 °C to 150 °C
5 min: 33 °C to 350 °C
15 min: 50 °C to 660 °C
Cooling Time
15 min: 23 °C to –25 °C
25 min: 150 °C to –23 °C
32 min: 350 °C to 33 °C
14 min: 350 °C to 100 °C
35 min: 660 °C to 50 °C
25 min: 660 °C to 100 °C
Resolution
0.01 °
Display
LCD, °C or °F user-selectable
Key Pad
Arrows, Menu, Enter, Exit, 4 soft keys
Size (H x W x D)
290 mm x 185 mm x 295 mm (11.4 x 7.3 x 11.6 in)
13
914X Field Metrology Wells
Specifications
Base Unit Specifications
Weight
9142
9143
9144
8.16 kg (18 lbs)
7.3 kg (16 lbs) 7.7 kg (17 lbs) Power Requirements
100 V to 115 V (± 10 %)
50/60 Hz, 575 W
230 V (± 10 %) 50/60 Hz,
575 W
100 V to 115 V (± 10 %), 50/60 Hz, 1400 W
230 V (± 10%), 50/60 Hz, 1800 W
System Fuse Ratings
115 V: 6.3 A T 250 V
230 V: 3.15 A T 250 V
115 V: 15 A F 250 V
230 V: 10 A F 250 V
4–20 mA Fuse (-P
model only)
50 mA F 250V
Computer Interface
RS-232 and 9930 Interface-it control software included
Safety
EN 61010-1:2001, CAN/CSA C22.2 No. 61010.1-04
Table 3 -P Option Specifications
-P Specifications
Built-in Reference Thermometer Readout
Accuracy
(4-Wire Reference Probe)†
± 0.013 °C at -25 °C
± 0.015 °C at 0 °C
± 0.020 °C at 50 °C
± 0.025 °C at 150 °C
± 0.030 °C at 200 °C
± 0.040 °C at 350 °C
± 0.050 °C at 420 °C
± 0.070 °C at 660 °C
Reference Resistance Range
0 ohms to 400 ohms
Reference Resistance Accuracy‡
0 ohms to 42 ohms: ±0.0025 ohms
42 ohms to 400 ohms: ±60 ppm of reading
Reference Characterizations
ITS-90, CVD, IEC-751, Resistance
Reference Measurement Capability
4-wire
Reference Probe Connection
6 Pin Din with Infocon Technology
Built-in RTD Thermometer Readout Accuracy
NI-120: ± 0.015 °C at 0 °C
PT-100 (385): ± 0.02 °C at 0 °C
PT-100 (3926): ± 0.02 °C at 0 °C
PT-100 (JIS): ± 0.02 °C at 0 °C
RTD Resistance Range
0 ohms to 400 ohms
‡
14
Resistance Accuracy
0 ohms to 25 ohms: ±0.002 ohms
25 ohms to 400 ohms: ±80 ppm of reading
RTD Characterizations
PT-100 (385),(JIS),(3926), NI-120, Resistance
RTD Measurement Capability
2-,3-,4-wire RTD w\ Jumpers only
RTD Connection
4 terminal input
Specifications and Environmental Conditions
Environmental Conditions
-P Specifications
Built-in TC Thermometer Readout Accuracy
Type J: ± 0.7 °C at 660 °C
Type K: ± 0.8 °C at 660 °C
Type T: ± 0.8 °C at 400 °C
Type E: ± 0.7 °C at 660 °C
Type R: ± 1.4 °C at 660 °C
Type S: ± 1.5 °C at 660 °C
Type M: ± 0.6 °C at 660 °C
Type L: ± 0.7 °C at 660 °C
Type U: ± 0.75 °C at 600 °C
Type N: ± 0.9 °C at 660 °C
Type C: ± 1.1 °C at 660 °C
TC Millivolt Range
–10 mV to 75 mV
Voltage Accuracy
0.025 % of reading +0.01mV
Internal Cold Junction Compensation Accuracy
± 0.35 °C (ambient of 13 °C to 33 °C)
TC Connection
Small connectors
Built-in mA Readout Accuracy
0.02% of reading + 0.002 mA
mA Range
Cal 4-22 mA, Spec 4-24 mA
mA Connection
2 terminal input
Loop Power Function
24 VDC loop power
Built-in Electronics Temperature Coefficient
(0 °C to 13 °C, 33 °C to 50 °C)
± 0.005 % of range per °C
†
The temperature range may be limited by the reference probe connected to the readout. The BuiltIn Reference Accuracy does not include the sensor probe accuracy. It does not include the probe
uncertainty or probe characterization errors.
‡
Measurement accuracy specifications apply within the operating range and assume 4-wires for PRTs.
With 3-wire RTDs add 0.05 ohms to the measurement accuracy plus the maximum possible difference
between the resistances of the lead wires.
2.2
Environmental Conditions
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Quick Start
Setup
3
Quick Start
3.1
Setup
Note: The instrument will not heat, cool, or control until the “SET PT.” parameter is
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Quick Start
Parts and Controls
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Parts and Controls
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914X Field Metrology Wells
Parts and Controls
3.2.3
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Parts and Controls
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Parts and Controls
3.2.4
-P Option Panel (-P models only)
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24
Quick Start
Parts and Controls
Probe Connector
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Languages
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Reset to English Language
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27
Menu Structure
Temp Setup Menu
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Menu Structure
4.1
Temp Setup Menu
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Prog Menu
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Prog Menu
4.2.1
Switch Test Parameters
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Switch Test Description
CAUTION: The switch, switch wires, switch components and switch accessories can be
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Prog Menu
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Menu Structure
System Menu
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Input Setup (-P only)
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35
914X Field Metrology Wells
Main Menu
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5.2
Main Menu
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5.2.1
5.2.1.1
5.2.1.1.1
Temp Setup
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Setup
SCAN RATE
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5.2.1.1.2
STABLE LIMIT
NOTE: The Field Metrology Well should not be expected to operate better than
the stability specification set forth in the Specifications section of this guide.
Therefore, the minimum setting of the stability limit should not be less than the
stability specification.
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36
Controller operation
Main Menu
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5.2.1.1.3
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5.2.1.2
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5.2.1.2.1
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NOTE: CUTOUT RESET: If the Field Metrology Well exceeds the temperature
set in the soft cutout menu or if it exceeds the maximum operating temperature
of the instrument, a cutout condition occurs. If this happens, the instrument
enters cutout mode and will not actively heat or cool until the user resets the
instrument.
37
914X Field Metrology Wells
Main Menu
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5.2.2
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TEST ID
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NO. SETPOINTS
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38
Controller operation
Main Menu
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5.2.2.2.2
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5.2.2.3
SWITCH TEST
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39
914X Field Metrology Wells
Main Menu
CAUTION: The switch, switch wires, switch components and/or switch
accessories can be damaged if the Field Metrology Well exceeds its temperature
limits.
5.2.2.3.1
TEST METHOD
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5.2.2.3.2
AUTO TEST
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5.2.2.3.3
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5.2.2.3.3.2
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40
Controller operation
Main Menu
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Figure 16 Schematic diagram showing the deadband in a temperature switch as it closes and opens
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914X Field Metrology Wells
Main Menu
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NOTE: If the window is too narrow, the switch test may abort before
determining the characteristics of the switch.
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42
Controller operation
Main Menu
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NOTE: 10°C/min is the recommended maximum for the SCAN RATE during
SWITCH TEST operation.
NOTE: The APPROACH LIMIT AND CYCLES should be set such that the
highest desired accuracy of the switch temperatures is obtained.
NOTE: Depending on the mass and/or diameter of the switch, there may be a
significant lag time in how fast the switch heats up or cools with respect to the
block of the Field Metrology Well. For larger mass and/or diameter switches, a
lower SCAN RATE (0.4-1.0°C) and a higher APPROACH (5-10°C) can produce
better results. More cycles may give a better average of when the switch opens
and closes, but a minimum of 2 cycles should be used when running a switch
test.
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914X Field Metrology Wells
Main Menu
5.2.2.4.1.2
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5.2.2.4.1.3
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5.2.2.4.1.4
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5.2.2.4.1.5
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5.2.2.4.1.5.1
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5.2.2.4.1.5.1.1
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Main Menu
NOTE: If the wrong language is selected, return to the Main Screen by holding
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Controller operation
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5.2.4.2.3
mA SETUP
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5.2.4.2.3.1
LOOP POWER
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5.2.4.2.4
TEST CALC
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5.2.4.3
REF INPUT
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5.2.4.3.1
PROG PROBE
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5.2.4.3.1.1
SERIAL
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5.2.4.3.1.2
CAL DATE
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53
914X Field Metrology Wells
Main Menu
5.2.4.3.1.3
PROBE TYPE
7KH352%(7<3(SDUDPHWHULVXVHGWRFKRRVHZKLFKSUREHFRQYHUVLRQW\SHWREH
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5.2.4.3.1.3.1
TYPE (ITS-90)
7KH7<3(SDUDPHWHUFDQEH,76&DOOHQGDU9DQ'XVHQ&9',(&RU5H
VLVWDQFH7KH,76RSWLRQLVIRU357VFDOLEUDWHGDQGFKDUDFWHUL]HGXVLQJWKH,QWHU
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RQWKHFDOLEUDWLRQFHUWL¿FDWHRIWKH3577KHSDUDPHWHU³573:´WDNHVWKHWULSOHSRLQW
RIZDWHUUHVLVWDQFHRIWHQODEHOHG³5´RU³5.´RQWKHFHUWL¿FDWH3DUDPHWHUV
³&2()$´³&2()%´³&2()&´WDNHWKHDQEQDQGFQFRHI¿FLHQWVZKHUHQLVD
QXPEHUIURPWR3DUDPHWHUV³&2()$´DQG³&2()%´WDNHWKHDDQGEFRHI
¿FLHQWVRQWKHFHUWL¿FDWH$Q\,76SDUDPHWHURIWKHLQVWUXPHQWWKDWGRHVQRWKDYHD
FRUUHVSRQGLQJFRHI¿FLHQWRQWKH357¶VFHUWL¿FDWHPXVWEHVHWWR
7KHIROORZLQJWDEOH7DEOHVKRZVZKLFKSDUDPHWHUWRVHWIRUHDFKRIWKHFRHI¿FLHQWV
WKDWPD\DSSHDURQWKHFHUWL¿FDWH7KHH[DPSOHWKDWIROORZVGHPRQVWUDWHVKRZWRVHW
WKH,76SDUDPHWHUVIRUFHUWDLQFDVHV
Table 4 Matching Certificate Values to 917X ITS-90 Coefficients
914X ITS-90 Coefficient
Certificate Value
COEF A
a7, a8, a9, a10, or a11
COEF B
b7, b8, b9, or 0
COEF C
c7 or 0
COEF A4
a4
COEF B4
b4
NOTE: If the certificate has two sets of coefficients, one set for “zero-power”
calibration and one set for 1 mA calibration, use the coefficients for the 1 mA
calibration.
([DPSOH
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¿FLHQWV5WSZDEDDQGE6HWWKHLQVWUXPHQW¶VSDUDPHWHUVZLWKYDOXHVIURPWKH
FHUWL¿FDWHDVIROORZV
Table 5 Setting Coefficients Rtpw, a8, b8, and b4
54
914X Coefficient
Certificate Value
RTPW
Rtpw
COEF A
a8
COEF B
b8
COEF C
0
Controller operation
Main Menu
5.2.4.3.1.3.1.1
COEF A4
a4
COEF B4
b4
PROG PROBE
7KH352*352%(SDUDPHWHULVXVHGWRWHOOWKHLQVWUXPHQWWRSURJUDPD6PDUWSUREH
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5.2.4.3.1.3.2
TYPE (CVD)
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9DQ'XVHQHTXDWLRQ
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5.2.4.3.1.3.2.1
PROG PROBE
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RU³1R´,I³<HV´LVVHOHFWHGWKH6PDUWSUREH,QIR&RQZLOOEHSURJUDPPHGZLWK
55
914X Field Metrology Wells
Main Menu
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FRHI¿FLHQWYDOXHVQHHGWRHQWHUHGEHIRUHSURJUDPPLQJWKH,QIR&RQ)RU,(&DQG
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5.2.4.3.1.3.3
TYPE (IEC751)
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5.2.4.3.1.3.3.1
PROG PROBE
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RU³1R´,I³<HV´LVVHOHFWHGWKH6PDUWSUREH,QIR&RQZLOOEHSURJUDPPHGZLWK
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5.2.4.3.1.3.4
TYPE (RESISTANCE)
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5.2.4.3.2
TEST CALC
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WKHRXWSXWRIDVSHFL¿FFRQYHUVLRQDOJRULWKP6LPSO\VHOHFWWKHFRQYHUVLRQW\SHDQG
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7(03(5$785(;;;;;
56
Digital communication interface
Wiring
6 Digital communication interface
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:LWKDGLJLWDOLQWHUIDFHWKHLQVWUXPHQWPD\EHFRQQHFWHGWRDFRPSXWHURURWKHUHTXLS
PHQW7KLVDOORZVWKHXVHUWRLQSXWWKHVHWSRLQWWHPSHUDWXUHPRQLWRUWKHWHPSHUDWXUH
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6.1
Wiring
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6.1.1
Setup
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6.1.2
Serial Operation
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57
914X Field Metrology Wells
Command Syntax
Figure 17 RS-232 wiring
6.2
Command Syntax
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HQFRGHGFKDUDFWHUV$VIDUDVSRVVLEOHWKH)LHOG0HWURORJ\:HOOFRPPDQGV\QWD[
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58
Digital communication interface
Commands by Function or Group
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VLVWLQJRIWKUHHRUIRXUFKDUDFWHUVWKDWLVPRUHHI¿FLHQW
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WKHQWUDQVPLWWHGDXWRPDWLFDOO\RYHUWKH56SRUW5HVSRQVHVDUHORVWLIQRWUHDG
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6.3 Commands by Function or Group
,QWKLVVHFWLRQWKHFRPPDQGVDUHDUUDQJHGLQWRWKHIROORZLQJJURXSV
&DOLEUDWLRQ&RPPDQGV±FRPPDQGVIRU)LHOG0HWURORJ\:HOOFDOLEUDWLRQ
SDUDPHWHUV
0DLQ6FUHHQ&RPPDQGV±FRPPDQGVIRUSDUDPHWHUVGLVSOD\HGRQWKHPDLQVFUHHQ
3URJUDP&RPPDQGV±FRPPDQGVIRUSURJUDPVHWXSDQGVWDWXV
5HIHUHQFH&RPPDQGV±FRPPDQGVIRUDFFHVVLQJUHIHUHQFHWKHUPRPHWHUSDUDPHWHUV
887&RPPDQGV±FRPPDQGVIRUDFFHVVLQJ887SDUDPHWHUV
6HWXS&RPPDQGV±FRPPDQGVIRUVHWWLQJXSFRPPXQLFDWLRQGLVSOD\SDVVZRUG
PHDVXUHDQGRSHUDWLRQSDUDPHWHUV
6\VWHP&RPPDQGV±FRPPDQGVWRUHSRUWDQGFKDQJHWKHVWDWXVRIWKHLQVWUXPHQW
7HPSHUDWXUH&RPPDQGV±FRPPDQGVIRUFRQWUROWHPSHUDWXUHDQGFXWRXWIXQFWLRQV
Table 6 Commands by Function or Group
Calibration - Controller
SCREEN
PARAMETER
Command
Password Protection
Group
Read/Write
TEMP PB
SOUR:LCON:PBAN
Unconditional
R/W
TEMP INT
SOUR:LCON:INT
Unconditional
R/W
TEMP DER
SOUR:LCON:DER
Unconditional
R/W
CALDATE
CAL:DATE:UNIT
Unconditional
R/W
59
914X Field Metrology Wells
Commands by Function or Group
Calibration – Heat Source
SCREEN
PARAMETER
Command
Password Protection
Group
Read/Write
TEMP 1
SOUR:SENS:CAL:PAR1
Unconditional
R/W
TEMP 2
SOUR:SENS:CAL:PAR2
Unconditional
R/W
TEMP 3
SOUR:SENS:CAL:PAR3
Unconditional
R/W
GRAD 1
SOUR:SENS:CAL:GRAD1
Unconditional
R/W
GRAD 2
SOUR:SENS:CAL:GRAD2
Unconditional
R/W
GRAD 3
SOUR:SENS:CAL:GRAD3
Unconditional
R/W
GRAD 4
SOUR:SENS:CAL:GRAD4
Unconditional
R/W
GRAD 5
SOUR:SENS:CAL:GRAD5
Unconditional
R/W
TEMP 1
SOUR:SENS:CAL:TEMP1
N/A
R
TEMP 2
SOUR:SENS:CAL:TEMP2
N/A
R
TEMP 3
SOUR:SENS:CAL:TEMP3
N/A
R
SENS1:CAL:PAR1
Unconditional
R/W
SENS1:CAL:PAR2
Unconditional
R/W
INPUT CAL DATE
CAL:DATE:MOD
Unconditional
R/W
TCC0
SENS2:CAL:PAR1
Unconditional
R/W
TCC100
SENS2:CAL:PAR2
Unconditional
R/W
TCCRJ
SENS2:CAL:PAR3
Unconditional
R/W
INPUT CAL DATE
CAL:DATE:MOD
Unconditional
R/W
mAC4
SENS2:CAL:PAR4
Unconditional
R/W
mAC20
SENS2:CAL:PAR6
Unconditional
R/W
INPUT CAL DATE
CAL:DATE:MOD
Unconditional
R/W
(none)
SOUR:SENS:DATA
N/A
R
Calibration – Reference (-P REF1C0
model only)
REF1C100
Calibration – UUT – TC (-P
model only)
Calibration – UUT-mA
Main Screen
SETPT
SOUR:SPO
N/A
R/W
STAB
SOUR:STAB:DAT
N/A
R
STAB graph
SOUR:STAB:TEST
N/A
R
HEAT %
OUTP1:DATA
N/A
R
(none)
OUTP2:DATA
N/A
R
ENABLE
OUTP1:STAT
N/A
R/W
(-P model only)
REF
CALC1:DATA
N/A
R
(-P model only)
REF TEMP
READ, MEAS, FETC
N/A
R
UUT (-P model only)
TC-n, P100, mA
CALC2:DATA
N/A
R
Program – Run
TEST STATUS
PROG:STAT
N/A
R/W
Program - List
(none)
PROG:CAT
N/A
R
Program - Select
(none)
PROG:TYP
N/A
R/W
Program - Setup
TEST ID
PROG:IDEN
N/A
R/W
(none)
PROG:MEM:COUN
N/A
R
ERASE TESTS
PROG:MEM:CLEA
Unconditional
W
Erase Tests
60
Digital communication interface
Commands by Function or Group
SCREEN
PARAMETER
Ramp & Soak
Command
Password Protection
Group
Read/Write
RAMP/SOAK SETUP
PROG:SEQ:CAT
N/A
R
SETPOINT n
PROG:SEQ:PAR SPOn
Conditional
R/W
SOAK TIME
PROG:SEQ:PAR DWEL
Conditional
R/W
SETPOINTS
PROG:SEQ:PAR POIN
Conditional
R/W
NO CYCLES
PROG:SEQ:PAR CYCL
Conditional
R/W
PASS TOLERANCE
PROG:SEQ:PAR PTOL
Conditional
R/W
DIRECTION
PROG:SEQ:PAR DIR
Conditional
R/W
SETPOINT 1
SOUR:LIST:SPO1
N/A
R/W
SETPOINT 2
SOUR:LIST:SPO2
N/A
R/W
SETPOINT 3
SOUR:LIST:SPO3
N/A
R/W
SETPOINT 4
SOUR:LIST:SPO4
N/A
R/W
SETPOINT 5
SOUR:LIST:SPO5
N/A
R/W
SETPOINT 6
SOUR:LIST:SPO6
N/A
R/W
SETPOINT 7
SOUR:LIST:SPO7
N/A
R/W
SETPOINT 8
SOUR:LIST:SPO8
N/A
R/W
Switch Test – List
Parameters
(none)
PROG:SWIT:CAT
N/A
R
Input State
(none)
INP:SWIT:CLOS
N/A
R
Auto Test
SWITCH TEMP
PROG:SWIT:PAR TNOM
N/A
R/W
Manual Test
LOWER TEMP
PROG:SWIT:PAR TLOW
N/A
R/W
UPPER TEMP
PROG:SWIT:PAR THIG
N/A
R/W
APPROACH LIMIT
PROG:SWIT:PAR APPR
N/A
R/W
Test – Results (-P model
only)
NO OF CYCLES
PROG:SWIT:PAR CYCL
N/A
R/W
PRINT TEST
PROG:MEM:PRINT
N/A
W
ERASE TESTS
PROG:MEM:CLEA
Unconditional
W
Reference - List (-P model
only)
PROBE TYPE
CALC1:CONV:CAT
N/A
R
Characterization
Parameters - Active List
(-P model only)
(none)
CALC1:CONV:PAR:CAT
N/A
R
CAL DATE
CALC1:CONV:DATE
Conditional
R/W
PROGRAM
CALC1:CONV:PROG
Unconditional
W
Reference – Setup (-P
model only)
PROBE TYPE: ITS-90
CALC1:CONV:NAME ITS-90
Conditional
R/W
Reference – Setup (-P
model only)
PROBE TYPE: CVD
CALC1:CONV:NAME CVD
Conditional
R/W
Reference – Setup (-P
model only)
PROBE TYPE: IEC
CALC1:CONV:NAME IEC-751
Conditional
R/W
Reference – Setup (-P
model only)
CONV TYPE:
RESISTANCE
CALC1:CONV:NAME RES
Conditional
R/W
(-P model only)
SERIAL
CALC1:CONV:SNUM
Conditional
R/W
ITS90 (-P model only)
RTPW
CALC1:CONV:PAR:VAL
RTPW
Conditional
R/W
A
CALC1:CONV:PAR:VAL A7
Conditional
R/W
B
CALC1:CONV:PAR:VAL B7
Conditional
R/W
C
CALC1:CONV:PAR:VAL C7
Conditional
R/W
A4
CALC1:CONV:PAR:VAL A4
Conditional
R/W
B4
CALC1:CONV:PAR:VAL B4
Conditional
R/W
61
914X Field Metrology Wells
Commands by Function or Group
SCREEN
PARAMETER
Command
Password Protection
Group
Read/Write
R0
CALC1:CONV:PAR:VAL R0
Conditional
R/W
ALPHA
CALC1:CONV:PAR:VAL AL
Conditional
R/W
DELTA
CALC1:CONV:PAR:VAL DE
Conditional
R/W
BETA
CALC1:CONV:PAR:VAL BE
Conditional
R/W
RESISTANCE
SENS1:DATA
N/A
R
Reference – Test Algorithm TEST CALC
(-P model only)
CALC1:CONV:TEST
N/A
R
UUT (-P model only)
SENS2:DATA
N/A
R
CVD (-P model only)
List (-P model only)
RES, mA, mV
SENSOR
SENS2:FUNC
N/A
R/W
RTD TYPE
CALC2:CONV:CAT RTD
N/A
R
TC TYPE
CALC2:CONV:CAT TC
N/A
R
RTD TYPE:
RESISTANCE
CALC2:CONV:NAME 0
N/A
R/W
RTD TYPE:
PT100(385)
CALC2:CONV:NAME 1
N/A
R/W
RTD TYPE:
PT100(3926)
CALC2:CONV:NAME 2
N/A
R/W
RTD TYPE: PT100(JIS) CALC2:CONV:NAME 3
N/A
R/W
RTD TYPE: NI-120
CALC2:CONV:NAME 4
N/A
R/W
TC-C
CALC2:CONV:NAME C
N/A
R/W
TC-E
CALC2:CONV:NAME E
N/A
R/W
TC-J
CALC2:CONV:NAME J
N/A
R/W
TC-K
CALC2:CONV:NAME K
N/A
R/W
TC-L
CALC2:CONV:NAME L
N/A
R/W
TC-M
CALC2:CONV:NAME M
N/A
R/W
TC-N
CALC2:CONV:NAME N
N/A
R/W
TC-R
CALC2:CONV:NAME R
N/A
R/W
TC-S
CALC2:CONV:NAME S
N/A
R/W
TC-T
CALC2:CONV:NAME T
N/A
R/W
TC-U
CALC2:CONV:NAME U
N/A
R/W
mV
CALC2:CONV:NAME MV
N/A
R/W
UUT–mA (-P model only)
LOOP POWER
INP2:MAMP:LPOW
N/A
R/W
UUT–RTD (-P model only)
WIRES
INP2:RTD:WIR
N/A
R/W
UUT – Test Algorithm (-P
model only)
TEST CALC
CALC2:CONV:TEST
N/A
R
Setup - Communication
BAUD RATE
SYST:COMM:SER:BAUD
N/A
R/W
Setup - Display
Setup - Password
Status
Setup – Date/Time
System - Setup
62
LINEFEED
SYST:COMM:SER:LIN
N/A
R/W
LANGUAGE
SYST:LANG
N/A
R/W
DECIMAL
SYST:DEC:FORM
N/A
R/W
KEY AUDIO
SYST:BEEP:KEYB
N/A
R/W
PASSWORD (Disable)
SYST:PASS:CDIS
Unconditional
W
PASSWORD (Enable)
SYST:PASS:CEN
Unconditional
W
(none)
SYST:PASS:CEN:STAT
N/A
R
USER PASSWORD
SYST:PASS:NEW
Unconditional
W
PROTECTION
SYST:PASS:PROT
N/A
R/W
DATE
SYST:DATE
Unconditional
R/W
TIME
SYST:TIME
Unconditional
R/W
°C/°F key
UNIT:TEMP
N/A
R/W
Digital communication interface
Serial Commands - Alphabetic Listing
Heat Enable
System - Information
SCREEN
PARAMETER
Command
Password Protection
Group
(none)
OUTP:STAT
N/A
R/W
(none)
SYST:KLOC
Conditional
R/W
(none)
SYST:CONF:MOD
N/A
R
Read/Write
(none)
SYST:ERR
N/A
R
(all)
*IDN
N/A
R
(none)
*CLS
N/A
W
(none)
*OPT
N/A
R
FW VER
SYST:COD:VERS
N/A
R
(none)
SYST:BEEP:IMM
N/A
W
HARD CUTOUT
SOUR:PROT:HCUT
N/A
R
SOFT CUTOUT
SOUR:PROT:SCUT:LEV
Conditional
R/W
Reset
(none)
SOUR:PROT:CLE
N/A
W
Trip State
(none)
SOUR:PROT:TRIP
N/A
R
Temperature - Setup
SCAN RATE
SOUR:RATE
N/A
R/W
STABLE LIMIT
SOUR:STAB:LIM
N/A
R/W
STABLE ALARM
SOUR:STAB:BEEP
N/A
R/W
Temperature – Cutout
6.4 Serial Commands - Alphabetic Listing
(DFKFRPPDQGGHVFULSWLRQSURYLGHVWKHVWUXFWXUHORQJDQGVKRUWIRUPDWDGHVFULS
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FRPSRQHQWLVUHFHLYHGZKHQRQO\DQLQWHJHULVUHTXLUHGWKHQXPEHULVURXQGHG
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0,1DQG0$;DUHRIWHQDFFHSWDEOHIRUWKHGHIDXOWPLQLPXPDQGPD[LPXP
YDOXHUHVSHFWLYHO\8QLWVXI¿[HVVXFKDV9RU2+0FDQEHDSSHQGHGWR
QXPHULFSDUDPHWHUVDQGDUHDFFHSWHGZLWKRXWHUURUEXWLJQRUHG
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SDUDPHWHUVJHQHUDWHHUURUPHVVDJHVLQWKHHUURUTXHXH
8SSHUFDVHOHWWHUVGHVLJQDWHV\QWD[WKDWLVUHTXLUHGZKHQLVVXLQJWKHFRPPDQG
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63
914X Field Metrology Wells
Serial Commands - Alphabetic Listing
●
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●
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●
●
●
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Q!LQGLFDWHVDQXPEHULVUHTXLUHG
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SURJ!LQGLFDWHVDSURJUDPQXPEHU6(4Q!RU6:,7Q!LVUHTXLUHG
ERRO!LQGLFDWHVD%RROHDQYDOXHRULVUHTXLUHG7KHPQHPRQLFV2))DQG
21DUHDOVRDFFHSWHGIRUDQGUHVSHFWLYHO\
FRQY!LQGLFDWHVDFRQYHUVLRQPQHPRQLFLVUHTXLUHG
SDUDP!LQGLFDWHVDSDUDPHWHUQDPHLVUHTXLUHG
VHUL!LQGLFDWHVDVHULDOQXPEHULVUHTXLUHG
UHV!LQGLFDWHVDUHVLVWDQFHYDOXHLVUHTXLUHG
YROW!LQGLFDWHVDYROWDJHYDOXHLVUHTXLUHG
XQLW!LQGLFDWHVDWHPSHUDWXUHXQLWLVUHTXLUHG
WHPS!LQGLFDWHVDWHPSHUDWXUHƒ&)LVUHTXLUHG
SDVV!LQGLFDWHVDSDVVZRUGLVUHTXLUHG
SRUW!LQGLFDWHVDSRUWQXPEHULVUHTXLUHG
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\HDU!LQGLFDWHVDIRXUGLJLWQXPEHULVUHTXLUHG
PRQWK!LQGLFDWHVDRQHRUWZRGLJLWQXPEHULVUHTXLUHG
GD\!LQGLFDWHVDRQHRUWZRGLJLWQXPEHULVUHTXLUHG
KRXU!LQGLFDWHVDRQHRUWZRGLJLWQXPEHULVUHTXLUHG
PLQXWH!LQGLFDWHVDRQHRUWZRGLJLWQXPEHULVUHTXLUHG
VHFRQG!LQGLFDWHVDRQHRUWZRGLJLWQXPEHULVUHTXLUHG
EDXG!LQGLFDWHVDYDOLGEDXGQXPEHULVUHTXLUHG
&/6
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5HDGWKHSURGXFWLQIRUPDWLRQ0DQXIDFWXUHU0RGHO1XPEHU6HULDO1XPEHUDQG
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64
Digital communication interface
Serial Commands - Alphabetic Listing
([DPSOH237"
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NOTE: This command is unconditionally protected, which requires a password
to set it.
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NOTE: This command is unconditionally protected, which requires a password
to set it.
5HDGRUVHWWKHFDOLEUDWLRQGDWHIRUWKH0DLQ8QLWZKHUHWKHHQWHUHGYDOXHVDUHDOOQX
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65
914X Field Metrology Wells
Serial Commands - Alphabetic Listing
&$/&&219'$7(>"@>\\\\PPGG!@3PRGHORQO\
NOTE: This command is conditionally protected, which requires a password to
set it.
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NOTE: This command is conditionally protected, which requires a password to
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66
Digital communication interface
Serial Commands - Alphabetic Listing
&$/&&2193$59$/>"@SDU>Q!@3PRGHORQO\
NOTE: This command is conditionally protected, which requires a password to
set it.
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NOTE: This command is unconditionally protected, which requires a password
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67
914X Field Metrology Wells
Serial Commands - Alphabetic Listing
&$/&&2196180>"@VHUBQXP!3PRGHORQO\
NOTE: This command is conditionally protected, which requires a password to
set it.
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HTXDOV^$=µµ`XSWRFKDUDFWHUVLQOHQJWKZLWKDPLQLPXPRIFKDUDFWHU
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68
Digital communication interface
Serial Commands - Alphabetic Listing
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69
914X Field Metrology Wells
Serial Commands - Alphabetic Listing
,130$03/32:>"@>_@3PRGHORQO\
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70
Digital communication interface
Serial Commands - Alphabetic Listing
352*&$7"
$FDWDORJOLVWRIDOOGH¿QHSURJUDPV5DPS6RDN 6(4$XWR6ZLWFK7HVW $6:
DQG0DQXDO6ZLWFK7HVW 06:
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5HDG([DPSOH352*,'(1"
6HW([DPSOH7(67
352*0(0&/(30RGHORQO\
NOTE: This command is unconditionally protected, which requires a password
to set it.
(UDVHDOOWHVWUHSRUWVVWRUHGLQ190HPRU\
([DPSOH352*0(0&/(
352*0(0&281"30RGHORQO\
5HDGWKHWHVWUHSRUWFRXQW
([DPSOH352*0(0&281"
3URYLGHWKHFRXQWIRUWKHQXPEHURIWHVWUHSRUWVFXUUHQWO\VWRUHGLQPHPRU\
352*0(035,1>Q@>$//@30RGHORQO\
3ULQWVRQHRU$//WHVWUHSRUWV:KHUH³Q´LQGLFDWHVWKHWHVWUHSRUWWREHSULQWHGDQG
LVWKHHDUOLHVWWHVW
([DPSOH352*0(035,17
352*6(4&$7"
5HDGDOLVWRISURJUDPSDUDPHWHUVIRU5DPS6RDNWHVWV
([DPSOH352*6(4&$7"
5HVSRQVH³632Q´´':(//´´',5´´32,1´´&<&/´´372/´
7KLVFRPPDQGSURYLGHVDOLVWRIWKHSDUDPHWHUVIRUWKH5DPSDQG6RDNWHVW
71
914X Field Metrology Wells
Serial Commands - Alphabetic Listing
352*6(43$5"SDU>Q!@
5HDGRUVHWDSURJUDPSDUDPHWHUIRU5DPS6RDNWHVWV5DQJH ^632Q':(//
',532,1&<&/372/`
Table 7 PROG:SEQ:PAR parameters
Parameter
Min
Max
Default
SPO[n]*
1
8
1
DWEL
1
100
15
POIN
1
8
8
CYCL
1
999
1
PTOL
0.01
99.9
1.00
DIR
0 (up)
1 (U/D)
0
5HDG2QO\PXVWEH RIVHWSRLQWV32,1
5HDG([DPSOH352*6(43$5"GZHOO
5HVSRQVH
6HW([DPSOH352*6(43$5F\FOH
5HDGVRUVHWVDVSHFL¿HGSDUDPHWHULQWKH5DPS6RDNWHVW
352*67$7>"@>_@
5HDGRUVHWWKHH[HFXWLRQVWDWHIRUWKHVHOHFWHGSURJUDP2II 5XQ 'HIDXOW 5HDG([DPSOH352*67$7"
5HVSRQVH
6HW([DPSOH352*67$7
,IWKHVHOHFWHGSURJUDPLVQRWUXQQLQJWKHQDYDOXHRILVUHWXUQHGRWKHUZLVHDLV
UHWXUQHG
352*6:,7&$7"
5HDGDOLVWRISURJUDPSDUDPHWHUVIRUWKHVZLWFKWHVW7/2:7+,*7120$335
$1'&<&/
([DPSOH352*6:,7&$7"
5HVSRQVH³7/2:´´7+,*´´7120´´$335´´&<&/´
&RPPDQGSURYLGHVWKHFXUUHQWYDOXHVIRUWKHVZLWFKWHVWSDUDPHWHUV7/2: /RZHU
7HPS7+,* 8SSHU7HPS7120 1RPLQDO7HPS$335 $SSURDFK/LPLWDQG
&<&/ 1RRI&\FOHV
72
Digital communication interface
Serial Commands - Alphabetic Listing
352*6:,73$5"SDU>Q!@
5HDGRUVHWDSURJUDPSDUDPHWHUIRUWKHVZLWFKWHVWZKHUH³SDU´LVWKHSDUDPHWHU
7/2:7+,*7120$335RU&<&/DQG³Q´LVWKHYDOXH
Table 8 PROG:SWIT:PAR parameters
Parameter
Min
Max
Default
TLOW
9142
–25.00
150.00
25.00
9143
25.00
350.00
25.00
9144
25.00
660.00
25.00
9142
–25.00
150.00
–15.00
9143
25.00
350.00
35.00
9144
25.00
660.00
35.00
9142
–25.00
150.00
–15.00
9143
25.00
350.00
35.00
9144
25.00
660.00
35.00
APPR
0.0
999.9
0.0
CYCL
1
100
1
THIG
10.00
TNOM
5HDG([DPSOH352*6:,7"WORZ
5HVSRQVH
6HW([DPSOH352*6:,7"7/2:
&RPPDQGSURYLGHVRUVHWVWKHFXUUHQWYDOXHIRUWKHVSHFL¿HGVZLWFKWHVWSDUDPHWHU
7/2: /RZHU7HPS7+,* 8SSHU7HPS7120 [[[$335 $SSURDFK/LPLW
DQG&<&/ 1RRI&\FOHV
352*7<3(>"@>SURJ!@
5HDGRUVHOHFWDSURJUDPWRUXQZKHUH³SURJ´LVDQDPH6(4$6:RU064'HIDXOW
6(4
5HDG([DPSOH352*7<3("
5HVSRQVH6(4
6HW([DPSOH352*7<3($6:
5HDGVRUVHOHFWVWKHFXUUHQWSURJUDPVHWWLQJ5DPS6RDN 6(4$XWR6ZLWFK7HVW
$6:RU0DQXDO6ZLWFK7HVW 06:
5($'"0($6"RU)(7&"3PRGHORQO\
5HDGWKH5HIHUHQFHVHQVRUWHPSHUDWXUHƒ&RUƒ)
([DPSOH5($'"
5HVSRQVH
73
914X Field Metrology Wells
Serial Commands - Alphabetic Listing
,IWKHH[WHUQDOUHIHUHQFHSUREHLVHQDEOHGWKHUHIHUHQFHWHPSHUDWXUHLVUHWXUQHGRWKHU
ZLVHLVUHWXUQHG
6(16&$/3$5Q!>"@>FDO@3PRGHORQO\
NOTE: This command is unconditionally protected, which requires a password
to set it.
5HDGRUVHWDUHIHUHQFHLQSXWFDOLEUDWLRQSDUDPHWHUZKHUH³Q´LVDYDOXHRIRUFRU
UHVSRQGLQJWRWKHFDOLEUDWLRQSDUDPHWHUV5()&DQG5()&UHVSHFWLYHO\³FDO´LV
DUHDOQXPEHUXVHGDVWKHFDOLEUDWLRQRIIVHWIRUWKHUHVSHFWLYHSDUDPHWHU
5()&5DQJH ^WR`
5()&5DQJH ^WR`
'HIDXOWVDOO
5HDG([DPSOH6(16&$/3$5"
5HVSRQVH
6HW([DPSOH6(16&$/3$5
5HIHUHQFHWKHUPRPHWHULQSXWFRPPDQGVWRYHULI\RUVHW5()&3$5RU
5()&3$5FDOLEUDWLRQSDUDPHWHUV
6(16'$7$"3PRGHORQO\
5HDGWKHUHIHUHQFHLQSXWUHVLVWDQFH
([DPSOH6(16'$7$"
5HVSRQVH
7KLVFRPPDQGUHWXUQVWKHUHVLVWDQFHLQRKPVRIWKHUHIHUHQFHSUREH
6(16&$/3$5Q!>"@>FDO@3PRGHORQO\
NOTE: This command is unconditionally protected, which requires a password
to set it.
5HDGRUVHWWKH887LQSXWFDOLEUDWLRQSDUDPHWHUIRUWKHVHOHFWHGIXQFWLRQZKHUH³Q´
LVDQLQWHJHU3$5 7&&3$5 7&&3$5 7&&5-3$5 P$&DQG
3$5 P$&UHVSHFWLYHO\³FDO´LVDUHDOQXPEHUXVHGDVWKHFDOLEUDWLRQRIIVHWIRU
WKHUHVSHFWLYHSDUDPHWHU
5DQJH 7& “P9
P$ “P$
'HIDXOW7& “P9
74
Digital communication interface
Serial Commands - Alphabetic Listing
P$ “P$
5HDG([DPSOH6(16&$/3$5"
5HVSRQVH
6HW([DPSOH6(16&$/3$5
887LQSXWFRPPDQGVWRYHULI\RUVHW7&&3$57&&3$57&&5-
3$5IRUWKHWKHUPRFRXSOH7&IXQFWLRQFDOLEUDWLRQSDUDPHWHUVDQGP$&3$5
DQGP$&3$5IRUWKHPLOLDPSP$IXQFWLRQFDOLEUDWLRQSDUDPHWHUV
6(16'$7$"3PRGHORQO\
5HDGWKH887LQSXW7KHUHWXUQHGYDOXHXQLWVZLOOEHDFFRUGLQJWRIXQFWLRQ35757'
ZLOOEHLQUHVLVWDQFH7&ZLOOEHLQP9P$ZLOOEHLQP$
([DPSOH6(16'$7$"
5HVSRQVH
7KLVFRPPDQGUHWXUQVWKH887LQSXWLQRKPVIRUWKH35757'IXQFWLRQP9IRUWKH
WKHUPRFRXSOHIXQFWLRQDQGP$IRUWKHFXUUHQWORRSIXQFWLRQ
6(16)81&>"@>SDU@3PRGHORQO\
5HDGRUVHWWKH8876HQVH)XQFWLRQGHYLFHVHOHFWLRQZKHUH³SDU´LVWKHVHOHFWHG
GHYLFHDQGLVHQWHUHGDV57'7&RU0$'HIDXOW 57'
5HDG([DPSOH6(16)81&"
5HVSRQVH57'
6HW([DPSOH6(16)81&7&
7KLVFRPPDQGUHDGVRUVHWVWKH8876HQVH)XQFWLRQDV57'7&RUP$
6285/&21'(5>"@>Q@
NOTE: This command is unconditionally protected, which requires a password
to set it.
5HDGRUVHWWKHPDLQFRQWUROORRSGHULYDWLYHWLPHLQVHFRQGV0LQ0D[
5HDG([DPSOH6285/&21'(5"
5HVSRQVH
6HW([DPSOH6285/&21'(5
7KHPDLQ]RQHGHULYDWLYHLVWKHGHULYDWLYHWLPHLQVHFRQGVWKDWWKHLQVWUXPHQW¶V3,'
FRQWUROOHUXVHVIRUPDLQ]RQHFRQWURO
75
914X Field Metrology Wells
Serial Commands - Alphabetic Listing
6285/&21,17>"@>Q@
NOTE: This command is unconditionally protected, which requires a password
to set it.
5HDGRUVHWWKHPDLQFRQWUROORRSLQWHJUDOWLPHLQVHFRQGV5DQJH ^`
5HDG([DPSOH6285/&21,17"
5HVSRQVH
6HW([DPSOH6285/&21,17
7KHPDLQ]RQHLQWHJUDOLVWKHLQWHJUDWLRQWLPHLQVHFRQGVWKDWWKHLQVWUXPHQW¶V3,'
FRQWUROOHUXVHVIRUPDLQ]RQHFRQWURO
6285/&213%$1>"@>Q@
NOTE: This command is unconditionally protected and requires a password to
set it.
5HDGRUVHWWKHPDLQFRQWUROORRSSURSRUWLRQDOEDQGƒ&5DQJH ^`
5HDG([DPSOH6285/&213%$1"
5HVSRQVH
6HW([DPSOH6285/&213%$1
7KHPDLQ]RQHSURSRUWLRQDOEDQGLVWKHJDLQLQƒ&WKDWWKHLQVWUXPHQW¶VSURSRUWLRQDO
LQWHJUDOGHULYDWLYH3,'FRQWUROOHUXVHVIRUPDLQ]RQHFRQWURO
6285/,67632L!>"@>Q@
5HDGRUVHWDPDLQWHPSHUDWXUHSUHVHWVHWSRLQW
5HDGH[DPSOH6285/,67632"
5HVSRQVH
6HW([DPSOH6285/,67632
7KLVVHWVWKHSUHVHWVHWSRLQWVIRXQGLQ352*0(18XQGHU5$0362$.
62853527+&87"
5HDGWKHKDUGFXWRXWWHPSHUDWXUHVHWSRLQWLQƒ&RUƒ)
5HDG([DPSOH62853527+&87"
5HVSRQVH
5HWXUQVWKHFXUUHQWYDOXHRIWKHKDUGFXWRXWVHWSRLQW
76
Digital communication interface
Serial Commands - Alphabetic Listing
62853527&/($
5HVHWWKHFXWRXWWRHQDEOHWKHV\VWHP
([DPSOH62853527&/($
7KLVFRPPDQGKDVQRUHVSRQVH
,IWKH)LHOG0HWURORJ\:HOOH[FHHGVWKHWHPSHUDWXUHVHWLQWKHVRIWFXWRXWPHQXRULI
LWH[FHHGVWKHPD[LPXPRSHUDWLQJWHPSHUDWXUHRIWKHLQVWUXPHQWDFXWRXWFRQGLWLRQ
RFFXUV,IWKLVKDSSHQVWKHLQVWUXPHQWHQWHUVFXWRXWPRGHDQGZLOOQRWDFWLYHO\KHDW
RUFRROXQWLOWKHXVHULVVXHVWKLVFRPPDQGWRFOHDUWKHFXWRXWRUUHVHWVWKHLQVWUXPHQW
XVLQJWKH6HWSWNH\WRFOHDUWKHFXWRXWPRGHDQGDFWLYDWHWKHLQVWUXPHQW
628535276&87/(9>"@>Q@
NOTE: This command is conditionally protected and requires a password to set
it.
5HDGRUVHWWKHVRIWFXWRXWVHWSRLQWZKHUH³Q´LVDQLQWHJHUYDOXHIURPWR
5DQJH ^WR`
5DQJH ^WR`
5DQJH ^WR`
5HDG([DPSOH628535276&87/(9"
5HVSRQVH
6HW([DPSOH628535276&87/(9
5HDGRUVHWWKHVRIWFXWRXWVHWSRLQW7KHVRIWFXWRXWVKRXOGEHVHWWRSURWHFWWKHWHP
SHUDWXUHOLPLWVRIWKHLQVWUXPHQWVXQGHUWHVW
6285352775,3"
5HDGWKHWHPSHUDWXUHFXWRXWWULSSHGVWDWH5DQJH ^` 1R&XWRXW &XWRXW
([DPSOH6285352775,3"
5HVSRQVH
$YDOXHRILVUHWXUQHGLIWKHFXWRXWVHWSRLQWKDVQRWEHHQUHDFKHG2WKHUZLVHDYDOXH
RILVUHWXUQHGDQGWKHFXWRXWVHWSRLQWKDVEHHQUHDFKHG
62855$7(>"@>Q@
5HDGRUVHWWKHFRQWUROWHPSHUDWXUHUDWHRIFKDQJH6FDQ5DWHƒ&RUƒ)SHUPLQXWH
0LQ0D['HIDXOW
5HDG([DPSOH62855$7("
5HVSRQVH
77
914X Field Metrology Wells
Serial Commands - Alphabetic Listing
6HW([DPSOH62855$7(
7KHUHVSRQVHWRWKLVFRPPDQGVWDUWVRXWKLJKLQLWLDOO\DQGGHFUHDVHVDVWKHVHWSRLQWLV
UHDFKHG
62856(16&$/*5$'[!>"@>Q@
NOTE: This command is unconditionally protected and requires a password to
set it.
5HDGRUVHWWKHD[LDOJUDGLHQWFRQWUROSDUDPHWHUZKHUH³[´LVDQXPHULFYDOXHLQGLFDW
LQJWKHSDUDPHWHU>@ *5$' *5$'>@ *5$' *5$'>@ *5$'
*5$'>@ *5$' *5$'>@ *5$' *5$'³Q´LVDUHDOQXPEHU
UDQJLQJIURPWRHQWHUHGDVDUDWLRRIWKHPDLQKHDWHUSRZHU
5HDG([DPSOH62856(16&$/*5$'"
5HVSRQVH
6HW([DPSOH62856(16&$/*5$'
7KHWRS]RQHKHDWHUUHDFWVDVDUDWLRRIWKHPDLQVKHDWHUSRZHUWRFRQWUROWKHD[LDO
JUDGLHQW
62856(16&$/3$5[!>"@>Q@
NOTE: This command is unconditionally protected and requires a password to
set it.
5HDGRUVHWDFRQWUROWHPSHUDWXUHFDOLEUDWLRQSDUDPHWHUZKHUH³[´LVDQXPHULFYDOXH
LQGLFDWLQJWKHSDUDPHWHU>@ 3$5 7HPS3$5 7HPS3$5 7HPS³Q´LV
WKHHQWHUHGYDOXHRIWKHSDUDPHWHU5DQJH “'HIDXOWV
5HDG([DPSOH62856(16&$/3$5"
5HVSRQVH
6HW([DPSOH62856(16&$/3$5
7KLVFRPPDQGUHDGVRUVHWVWKHFDOLEUDWLRQSDUDPHWHUYDOXHIRUPDLQFRQWURO6HHWKH
³&DOLEUDWLRQRI\RXU)LHOG0HWURORJ\:HOO´VHFWLRQIRUPRUHGHWDLO
62856(16&$/7(03[!"
5HDGWKHUHTXLUHGFDOLEUDWLRQWHPSHUDWXUHƒ&FRUUHVSRQGLQJWRDFDOLEUDWLRQSDUDPH
WHUZKHUH³[´LVDQXPHULFYDOXHLQGLFDWLQJWKHSDUDPHWHU>@ 7(03>@ 7(03
$1'>@ 7(035DQJH ^`'HIDXOW ([DPSOH62856(16&$/7(03"
5HVSRQVH
78
Digital communication interface
Serial Commands - Alphabetic Listing
62856(16'$7$">7(03@
5HDGWKHFRQWUROWHPSHUDWXUHƒ&RUƒ)
([DPSOH62856(16'$7$"RU62856(16'$7$"7(03
5HVSRQVHƒ&FXUUHQWFRQWUROWHPS
7KHFXUUHQWFRQWUROWHPSHUDWXUHLVUHWXUQHGLIWKHDERYHRULI7(03LVDSSHQGHGWRWKH
HQGRIWKHH[DPSOH
62856(16'$7$">5(6@
5HDGWKHFRQWUROVHQVRUUHVLVWDQFH
([DPSOH62856(16'$7$"5(6
5HVSRQVH
:KHQ5(6LVDSSHQGHGWRWKHHQGRIWKHH[DPSOHDERYHWKHLQWHUQDOVHQVRUUHVLVWDQFH
LVUHWXUQHG
6285632>"@>Q@
6HWWKHFRQWUROVHWSRLQWƒ&RUƒ)ZKHUH³Q´LVDUHDOYDOXHZLWKDFFHSWDQFHOLPLWV
EDVHGRQWKHPRGHO
Parameter
Min
Max
9142
-25.00
150.00
Default
25.00
9143
25.00
350.00
25.00
9144
25.00
660.00
25.00
5HDG([DPSOH6285632"
5HVSRQVH
6HW([DPSOH6285632
7KLVFRPPDQGUHDGVRUVHWVWKHYDOXHRIWKHFRQWUROVHWSRLQWEDVHGRQWKHV\VWHP
WHPSHUDWXUHXQLWV
628567$%%((3>"@>Q@
5HDGRUVHWWKHVWDELOLW\DOHUWEHHSHQDEOHZKHUH³Q´LVDYDOXHRU>@LVGLVDEOH
>@LVHQDEOHEHHS'HIDXOW(QDEOH%HHS
5HDG([DPSOH628567$%%((3"
5HVSRQVH
6HW([DPSOH628567$%%((3
(QDEOHRUGLVDEOHWKHDXGLEOHVWDELOLW\DOHUW
79
914X Field Metrology Wells
Serial Commands - Alphabetic Listing
628567$%'$7"
5HDGWKHFRQWUROWHPSHUDWXUHVWDELOLW\ƒ&RUƒ)
([DPSOH628567$%'$7"
5HVSRQVH
7KHFRQWUROOHUVWDELOLW\LVUHWXUQHG
628567$%/,0>"@>Q@
5HDGRUVHWWKHFRQWUROWHPSHUDWXUHVWDELOLW\OLPLWƒ&RUƒ)ZKHUH³Q´LVDSRVLWLYHUHDO
YDOXH5DQJH ^WRƒ&`'HIDXOWƒ&
5HDG([DPSOH628567$%/,0"
5HVSRQVH
6HW([DPSOH628567$%/,0
5HDGRUVHWWKHFRQWUROVWDELOLW\OLPLW
628567$%7(67"
5HDGWKHWHPSHUDWXUHVWDELOLW\WHVWUHVXOWV6WDEOH 8QVWDEOH ([DPSOH628567$%7(67"
5HVSRQVH
$YDOXHRILVUHWXUQHGLIWKHFRQWUROOHULVQRWVWDEOHDWWKHFXUUHQWVHWSRLQW2WKHUZLVH
DYDOXHRILVUHWXUQHGLIWKHFRQWUROOHULVVWDEOHDWWKHFXUUHQWVHWSRLQW
6<67%((3,00
%HHSWKHV\VWHPEHHSHU
([DPSOH6<67%((3,00
7KHV\VWHPEHHSHUVKRXOGPDNHDQDXGLEOHVRXQGLQUHVSRQVHWRWKLVFRPPDQG
6<67%((3.(<%>"@>Q@
5HDGRUVHWWKHNH\ERDUGEHHSIXQFWLRQ 2II 2Q'HIDXOW
5HDG([DPSOH6<67%((3.(<%"
5HVSRQVH
6HW([DPSOH6<67%((3.(<%
7XUQVWKHNH\ERDUGEHHSIXQFWLRQRQRURII
80
Digital communication interface
Serial Commands - Alphabetic Listing
6<67&2'(/$1*"
5HDGWKHODQJXDJHVHWRSWLRQ(XURSHDQ5XVVLDQ$VLDQ7KHDYDLODEOHODQ
JXDJHVDUHGHSHQGHQWXSRQZKLFKYHUVLRQRIWKHSURGXFWLVVXSSOLHG7KHYHUVLRQLV
GHSHQGHQWXSRQWKH¿QDOGHVWLQDWLRQDQGFRQ¿JXUDWLRQ
(XURSHDQ(1*/LVKGHIDXOW)5(1FK63$1LVK,7$/LDQ*(50DQ
5XVVLDQ5866LDQGHIDXOW(1*/LVK
●
$VLDQ(1*/LVKGHIDXOW&+,1HVH-$3DQHVH
([DPSOH6<67&2'(/$1*"
●
●
5HVSRQVH
6<67&2'(9(56"
5HDGWKHPDLQFRGHYHUVLRQ
([DPSOH6<67&2'(9(56"
5HVSRQVH
3URYLGHVWKHXVHUZLWKWKHYHUVLRQRIWKHPDLQSURFHVVRUFRGH
6<67&2006(5%$8'>"@>EDXG!@
5HDGRUVHWVHULDOLQWHUIDFHEDXGUDWHZKHUH³EDXG´LVDVWDQGDUGEDXGUDWHYDOXH
5DQJHEDXG ^DQG`'HIDXOW
5HDG([DPSOH6<67&2006(5%$8'"
5HVSRQVH
6HW([DPSOH6<67&2006(5%$8'
6<67&2006(5/,1>"@>Q@
6HWVHULDOLQWHUIDFHOLQHIHHGHQDEOHZKHUH³Q´LVDYDOXHRU>@ /)2))>@ /)
21'HIDXOW2))
5HDG([DPSOH6<67&2006(5/,1"
5HVSRQVH
6HW([DPSOH6<67&2006(5/,1
7KLVFRPPDQGHQDEOHVRUGLVDEOHVOLQHIHHG
6<67&21)02'"
5HDGWKHSUHVHQFHRIWKH±3PRGXOH>@LIQR±3VHQVRUPRGXOH>@LI±3VHQVRUFDUG
LVLQVWDOOHG
([DPSOH6<67&21)02'"
5HVSRQVH
81
914X Field Metrology Wells
Serial Commands - Alphabetic Listing
,IWKH±3VHQVRUPRGXOHLVLQVWDOOHGWKHLQVWUXPHQWLVD±30RGHO
6<67'$7(>"@>\HDU!PRQWK!GD\!@3PRGHORQO\
NOTE: This command is conditionally protected and requires a password to set
it.
5HDGRUVHWWKH6\VWHP'DWH6HWWLQJXVLQJQXPEHUVVHSDUDWHGE\FRPPDV
\\\\PPGG'HIDXOW%ODQN!
5HDG([DPSOH6<67'$7("
5HVSRQVH
6HW([DPSOH6<67'$7(
6<67'(&)250>"@>Q@
5HDGRUVHWWKHGHFLPDOIRUPDWZKHUH³Q´LVSHULRG>@FRPPD>@'HIDXOW
3HULRG
5HDG([DPSOH6<67'(&)250"
5HVSRQVH
6HW([DPSOH6<67'(&)250
6<67(55"
5HDGWKHPRVWUHVHQWHUURUIURPWKHHUURUTXHXH
([DPSOH6<67(55"
5HVSRQVHFRPPDQGSURWHFWHG
7KLVFRPPDQGUHVSRQVHUHSRUWVWKHHUURUVLQWKHHUURUTXHXH
6<67./2&>"@>Q@
NOTE: This command is unconditionally protected and requires a password to
set it.
5HDGRUVHWWKHNH\SDGORFNRXW>@ XQORFNDQG>@ ORFN'HIDXOW8QORFN
5HDG([DPSOH6<67./2&."
5HVSRQVH
6HW([DPSOH6<67./2&
7KLVFRPPDQGORFNVRUXQORFNVWKHV\VWHPNH\SDGSURYLGLQJFRQWURORQO\WKURXJKWKH
VHULDOLQWHUIDFH56SRUWRUWKHNH\SDG
82
Digital communication interface
Serial Commands - Alphabetic Listing
6<67/$1*ODQJ!
6HWWKHGLVSOD\ODQJXDJH7KHDYDLODEOHODQJXDJHVDUHGHSHQGHQWXSRQZKLFKYHUVLRQ
RIWKHSURGXFWLVVXSSOLHG7KHYHUVLRQLVGHSHQGHQWXSRQWKH¿QDOGHVWLQDWLRQDQG
FRQ¿JXUDWLRQ
(XURSHDQ(1*/LVKGHIDXOW)5(1FK63$1LVK,7$/LDQ*(50DQ
●
●
●
5XVVLDQ5866LDQGHIDXOW(1*/LVK
$VLDQ(1*/LVGHIDXOW&+,1HVH-$3DQHVH
([DPSOH6<67/$1*63$1
6<67/$1*&$7"
5HDGWKHDYDLODEOHGLVSOD\ODQJXDJHV7KHDYDLODEOHODQJXDJHVDUHGHSHQGHQWXSRQ
ZKLFKYHUVLRQRIWKHSURGXFWLVVXSSOLHG7KHYHUVLRQLVGHSHQGHQWXSRQWKH¿QDOGHVWL
QDWLRQDQGFRQ¿JXUDWLRQ
(XURSHDQ(1*/LVKGHIDXOW)5(1FK63$1LVK,7$/LDQ*(50DQ
●
5XVVLDQ5866LDQGHIDXOW(1*/LVK
●
$VLDQ(1*/LVKGHIDXOW&+,1HVH-$3DQHVH
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Serial Commands - Alphabetic Listing
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Non-SCPI Commands by Function or Group
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87
Calibration of your Field Metrology Well
Fundamentals
7 Calibration of your Field Metrology Well
7.1
General
Note: For assistance with the process or any questions regarding the calibration
of the Field Metrology Well, contact an Authorized Service Center.
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7.2
Terminology
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Note: The Measuring and Test Equipment (M&TE) is referred to as the Unit
Under Test (UUT).
7.3
Fundamentals
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Fundamentals
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Table 9 Test equipment specifications
CLASSIFICATION
MINIMUM USE SPECIFICATIONS
Test Insert (Sleeve)
One hole accepts 1/4-inch diameter PRT, one hole accepts 3/16-inch
diameter PRT (Hart model numbers 9142-INSG, 9143-INSG, or
9144-INSG)
Primary Reference
Readout
20 ppm
PRT
0.008°C @ 0°C
Secondary Reference
Readout
20 ppm
PRT
Sensor length ≤ 5 mm
External Reference
Four-Wire Resistors
See Table 10
Voltage/Current Source
Voltage: ± 6 ppm + 0.6 μV
Amperage: ± 40 ppm + 80 nA
Ice Point
25°C, Stability: ± 0.02°C
Readout
Accuracy: 0.0025°C
Probe
0.02°C @ 25°C
Thermocouples
0.025°C @ 25°C
Type E characterized wire @ 25°C
Table 10 Standard resistor specifications
US1 (k=1)
90
US2 (k=1)
UT (k=1)
UT (k=2)
Resistance
(Ω)
Reference
Resistor
Uncertainty
(ppm)
Reference
Resistor
Uncertainty
(Ω)
TCR
Uncertainty
(ppm)
TCR
Uncertainty
(Ω)
0
--
0.000040
--
--
0.00004
0.00008
25
1.80
0.000045
0.3
0.0000075
0.000045
0.00009
Total Uncertainty (Ω)
100
2.00
0.00020
0.3
0.00003
0.000205
0.00041
200
2.65
0.00053
0.3
0.00006
0.00055
0.0011
400
2.65
0.00106
0.3
0.00012
0.0011
0.0022
Calibration of your Field Metrology Well
Fundamentals
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Figure 18 Readout calibration flow chart
91
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Fundamentals
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Figure 19 Heat source calibration flow chart
92
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Calibration of your Field Metrology Well
Procedure
7.4
7.4.1
Procedure
Readout Calibration/Tests
Notes:
1. Before performing the thermocouple tests, the instrument must be running for
at least 30 minutes to allow sufficient time for warm-up.
The thermocouple readout and block temperature should be allowed to warm up
for 30min before calibrating. Set the heat source to control at the following
temperatures:
9142: 25° C
9143: 33° C
9144: 50° C
This will ensure that the cold junction reference circuit has stabilized.
2. Thermocouple tests will require the technician to connect/disconnect the
voltage source and Type E TC probes.
7.4.2
Readout Specifications
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7.4.3
UUT Thermocouple Calibration
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Table 11 Thermocouple Testing Process
7.4.4
#
Test Name
Nominal(s) mV Notes
1
Thermocouple Accuracy Test
–10, 0, 50, 100
As Found/Alignment data
2
Thermocouple Reference Junction
Accuracy Test
25°C
As Found/Alignment data
3
Thermocouple Reference Junction
Alignment
-
Calculate reference junction offset using
Alignment data
4
Thermocouple Accuracy Alignment
-
Calculate offsets using Alignment data
5
Thermocouple Reference Junction
Accuracy Test
25°C
As Left data
6
Thermocouple Accuracy Test
–10, 0, 50, 100
As Left data
Thermocouple Accuracy Test
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1.
2.
3.
4.
Connect the voltage source.
Turn on the TC reference in the UUT
Set the instrument conversion type for the UUT thermocouple input to mV.
Turn the voltage on in the voltage source to -10 mV
93
914X Field Metrology Wells
Procedure
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
7.4.5
Let the readout stabilize for a minimum of 20 sec.
Take a minimum of 40 samples.
Turn the voltage on in the voltage source to 0mv
Let the readout stabilize for a minimum of 20 sec.
Take a minimum of 40 samples.
Turn the voltage on in the voltage source to 50mv
Let the readout stabilize for a minimum of 20 sec
Take a minimum of 40 samples.
Turn the voltage on in the voltage source to 100mv
Let the readout stabilize for a minimum of 20 sec
Take a minimum of 40 samples.
Calculate the average of the measurements taken.
Record the data as appropriate for the type of calibration or step in the process.
Thermocouple Reference Junction Accuracy Test
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Note: The Thermocouple Reference Junction Accuracy Test requires the use of a
Type E thermocouple. This thermocouple must be placed in a heat source and
controlled at a constant 25°C throughout the duration of the test.
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1. Connect the Type E thermocouple to the thermocouple UUT connector on the
instrument.
2. Set the instrument to take UUT measurements from the thermocouple input.
3. Set the instrument conversion type for the UUT thermocouple input to TC-E.
4. Allow the instrument to soak for 180 seconds.
5. Take temperature measurements from the UUT thermocouple input at a 2
second interval for a minimum of 40 samples.
6. Calculate the average of the measurements taken. Record these results.
7. Calculate the error using the formula indicated below. Record this result.
error = average – nominal
8. Compare the error with the spec to determine the status. Record the result.
7.4.6
94
Thermocouple Accuracy Alignment
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Calibration of your Field Metrology Well
Procedure
1. Locate the results of the Thermocouple Accuracy Tests.
2. Using the calculated errors and the previous (current) offset values, calculate
the new offset values for each thermocouple accuracy parameter using the
formulas below:
TCC0new = TCC0previous – error0mV
TCC100new = TCC100previous + (0.5 x error0mv)– (1.0 x error50mV) – (0.5 x error100mV)
3. Enter the new offset values into the instrument.
4. Allow the instrument to soak for 20 seconds after entering the new offset values
before taking any measurements.
5. Take As Left data using the steps outlined in the Thermocouple Accuracy Test.
7.4.7
Thermocouple Reference Junction Accuracy Alignment
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NOTE: This alignment relies on the results of the thermocouple accuracy test.
Therefore, the thermocouple accuracy test MUST be performet before this
alignment!
1. Locate the results of the Thermocouple Reference Junction Accuracy Test and
the Thermocouple Accuracy Test at 0mV.
2. Using the calculated errors and the previous (current) offset value, calculate the
new offset value for the thermocouple reference junction accuracy parameter
using the formula below:
TCCRJnew = TCCRJprevious – error25°C + (17 x error0mV)
3. Enter the new offset values into the instrument.
4. Allow the instrument to soak for 20 seconds before taking any measurements.
5. Take As Left data using the steps outlined in the Thermocouple Reference
Junction Accuracy Test.
Table 12 Reference Probe and UUT PRT Input Process
#
Test Name
Nominal(s) Ohms
Notes
1
Reference Accuracy Test
0, 25, 100, 200, 400
As Found/Alignment data – Reference input
2
UUT PRT 4-wire Accuracy Test
100
3
UUT PRT 3-wire Accuracy Test
100
4
Reference Accuracy Alignment
-
5
Reference Accuracy Test
6
UUT PRT 4-wire Accuracy Test
0, 25, 100, 200, 400
100
As Found data – UUT input
As Found data – UUT input
Calculate offsets using Alignment data
As Left data – Reference input
As Left data – UUT input
95
914X Field Metrology Wells
Procedure
7.4.8
#
Test Name
7
UUT PRT 3-wire Accuracy Test
Nominal(s) Ohms
100
Notes
As Left data – UUT input
Reference Accuracy Test
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1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
Turn on the PRT reference input in the instrument
Set the instrument conversion type for the UUT PRT input to resistance.
Connect the short (0 Ohm).
Let readout stabilize for 70 seconds.
Take resistance measurements from the reference probe input at a 2 second
interval. Take a minimum of 40 samples.
Connect the 25 Ohm resistor.
Let readout stabilize for 70 seconds.
Take resistance measurements from the reference probe input at a 2 second
interval. Take a minimum of 40 samples.
Connect the 100 Ohm resistor.
Let readout stabilize for 70 seconds.
Take resistance measurements from the reference probe input at a 2 second
interval. Take a minimum of 40 samples.
Connect the 200 Ohm resistor.
Let readout stabilize for 70 seconds.
Take resistance measurements from the reference probe input at a 2 second
interval. Take a minimum of 40 samples.
Connect the 400 Ohm resistor.
Let readout stabilize for 70 seconds.
Take resistance measurements from the reference probe input at a 2 second
interval. Take a minimum of 40 samples.
Calculate the average of the measurements taken. Record these results.
Calculate the error using the formula indicated below where actual is the
calibrated resistance value of the standard resistor. Record this result.
error = average – actual
20. Compare the error with the spec to determine the status. Record the result.
7.4.9
UUT PRT 4-wire Test
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1. Connect the 100 Ohm resistor in the 4-wire UUT configuration.
2. Set the instrument to take UUT measurements from the PRT input.
3. Set the instrument to 4-wire mode for the UUT PRT input.
96
Calibration of your Field Metrology Well
Procedure
4. Set the instrument conversion type for the UUT PRT input to resistance.
5. Allow the instrument to soak for 20 seconds.
6. Take resistance measurements from the UUT PRT input at a 2 second interval.
Take a minimum of 40 samples.
7. Calculate the average of the measurements taken. Record these results.
8. Calculate the error using the formula indicated below where actual is the
calibrated resistance value of the standard resistor. Record this result.
error = average – actual
9. Compare the error with the spec to determine the status. Record the result.
7.4.10
UUT PRT 3-wire Test
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ZLUH7HVWDUHWREHSHUIRUPHGLQ2KPV
1.
2.
3.
4.
5.
6.
Connect the 100 Ohm resistor in the 3-wire UUT configuration.
Set the instrument to take UUT measurements from the PRT input.
Set the instrument to 3-wire mode for the UUT PRT input.
Set the instrument conversion type for the UUT PRT input to resistance.
Allow the instrument to soak for 20 seconds.
Take resistance measurements from the UUT PRT input at a 2 second interval.
Take a minimum of 40 samples.
7. Calculate the average of the measurements taken. Record these results.
8. Calculate the error using the formula indicated below where actual is the
calibrated resistance value of the standard resistor. Record this result.
error = average – actual
9. Compare the error with the spec to determine the status. Record the result.
7.4.11
Reference Accuracy Alignment
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FL¿FSRLQWVRYHUWKHUHVLVWDQFHUDQJHRIWKHLQSXW
1. Locate the results of the Reference Accuracy Tests.
2. Using the calculated errors and the previous (current) offset values, calculate
the new offset values for each reference accuracy parameter using the formulas
below:
REF1C0new = REF1C0previous – error0 ohms
REF1C100new = REF1C100previous + (0.625 x error0 ohms) – (0.5 x error100 ohms) – (0.125 x error400 ohms)
3. Enter the new offset values into the instrument.
4. Allow the instrument to soak/equilibrate for 70 seconds before taking any
97
914X Field Metrology Wells
Procedure
measurements.
5. Take As Left data using the Reference Accuracy Test, UUT PRT 4-wire
Accuracy Test and UUT 3-wire Accuracy Tests.
7.4.12
UUT 4-20mA Input Calibration
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Table 13 UUT 4-20 mA Calibration Steps
7.4.13
#
Test Name
Nominal(s) mA
Notes
1
4-20 mA Accuracy Test
0, 4, 12, 20, 22
As Found/Alignment data
2
4-20 mA Accuracy Alignment
-
Calculate offsets using Alignment data
3
4-20 mA Accuracy Test
0, 4, 12, 20, 22
As Left data
4
24 V Source Test
24 volts
Functional test
4-20mA Accuracy Test
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1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
98
Connect the current source to the 4-20mA UUT connector on the instrument.
Set the instrument to take UUT measurements from the 4-20mA input.
Set the instrument’s UUT mA input LOOP POWER setting to DISABLED.
Set the current source to supply 0mA.
Let the readout stabilize for 20 seconds.
Take mA measurements from the UUT mA input at a 2 second interval. Take a
minimum of 40 samples.
Set the current source to supply 4mA.
Let the read out stabilize for 20 seconds.
Take mA measurements from the UUT mA input at a 2 second interval. Take a
minimum of 40 samples.
Set the current source to supply 12mA.
Let the readout stabilize for 20 seconds.
Take mA measurements from the UUT mA input at a 2 second interval. Take a
minimum of 40 samples.
Set the current source to supply 20mA
Let the readout stabilize for 20 seconds.
Take mA measurements from the UUT mA input at a 2 second interval. Take a
minimum of 40 samples.
Set the current source to supply 22mA
Let the readout stabilize for 20 seconds.
Take mA measurements from the UUT mA input at a 2 second interval. Take a
minimum of 40 samples.
Calibration of your Field Metrology Well
Heat Source Calibration/Test
19. Calculate the average of the measurements taken. Record these results.
20. Calculate the error using the formula indicated below. Record this result.
error = average – nominal
21. Compare the error with the spec to determine the status. Record the result.
7.4.14
24V Source Test
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1.
2.
3.
4.
5.
6.
7.
8.
9.
7.4.15
Connect the voltage source to the 4-20mA UUT connector on the instrument.
Set the instrument to take UUT measurements from the 4-20mA input.
Set the instrument’s UUT mA input LOOP POWER setting to ENABLE 24V.
Connect the 1200 ohm resistor to the voltage source.
Set the voltage source to supply 24 volts.
Allow the instrument to soak for 30 seconds.
Take voltage measurements from the UUT 4-20mA input at a 1 second interval.
Calculate the average of the measurements taken. Record these results.
Compare the average with the spec (see Section 2.1Specifications on page 13)
to determine the status. Record the result.
4-20mA Accuracy Alignment
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FL¿FSRLQWVRYHUWKHFXUUHQWUDQJHRIWKHLQSXW
1. Locate the results of the 4-20mA Accuracy Tests.
2. Using the calculated errors and the previous (current) offset values, calculate
the new offset values for each 4-20mA accuracy parameter using the formulas
below:
MAC4new = MAC4previous – error4mA
MAC22new = MAC22previous + (o.5 x error4mA) – (1.0 x error12mA) – (0.5 x error22mA)
3. Enter the new offset values into the instrument.
4. Allow the instrument to soak for 20 seconds after entering the new offset values
before taking any measurements.
5. Take As Left data using the 4-20 mA Accuracy Test and the 24V Source Test.
7.5 Heat Source Calibration/Test
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99
914X Field Metrology Wells
Heat Source Calibration/Test
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Table 14 Heat Source Calibration/Test Sequence
#
Test Name
Nominal(s) °C
Notes
9142
9143
9144
1
Accuracy
Test
–25, 0, 50,
100, 150
33. 100, 200,
275, 350
50, 200, 420, As Found data - Perform twice at each
550, 660
point (up-down or down-up) except at
vertex
2
Stability
Test
–25, 150
33, 200, 350
50, 420, 660
3
Axial
Gradient
Test
–25, 50, 100,
150
33, 100, 200,
350
50, 200, 420, As Found/Alignment data – use data
550, 660
for initial uniformity alignment - can be
performed with Accuracy Tests at same
nominal set-points
4
Hysteresis
Calculation
–25, 0, 50,
100, 150
33, 100, 200,
275, 350
50, 200, 420, As Found data – use two As Found
550, 660
Accuracy Test results, except at vertex
5
Uniformity
Alignment
–25, 50, 100,
150
100, 200, 350
50, 200, 420, Calculate offset using As Found/Alignment
550, 660
data
6
Axial
Gradient
Test
–25, 50, 100,
150
33, 100, 200,
350
50, 200, 420, Make sure Uniformity Alignment
550, 660
is successful – repeat steps 6–7 if
necessary (max 3 times)
7
Accuracy
Test
–25, 0, 50,
100, 150
33, 100, 200,
275, 350
50,200, 420,
550, 660
Alignment data – collect data at each setpoint for Accuracy Alignment calculations
(cannot use As Found data)
8
Accuracy
Alignment
—
—
—
Calculate offsets using Alignment data
9
Accuracy
Test
–25, 0, 50,
100, 150
33, 100, 200,
275, 350
50, 200, 420, As Left data - Perform twice at each point
550, 660
(up-down or down-up) except at vertex
10
Stability
Test
-25, 150
33, 200, 350
50, 420, 660
11
Axial
Gradient
Test
–25, 50, 100,
150
33, 100, 200,
350
50, 200, 420, As Left data - can be performed with
550, 660
Accuracy Tests at same nominal setpoints
12
Hysteresis
Calculation
–25, 0, 50,
100, 150
33, 100, 200,
275, 350
50, 200, 420, As Left data – use two As Left Accuracy
550, 660
Test results, except at vertex
Table 15 Axial Gradient Limits
Model
9142
Set-point (°C)
Soak (min)
-25
30
Samples Limit (± °C)
40
0.050
30
40
0.040
50
100
150
9143
33
100
100
0.080
200
0.100
350
0.200
As Found data - can be performed with
Accuracy Tests at same nominal setpoints
As Left data – can be performed with
Accuracy Tests at same nominal setpoints
Calibration of your Field Metrology Well
Heat Source Calibration/Test
Model
9144
7.5.1
Set-point (°C)
Soak (min)
50
30
Samples Limit (± °C)
40
0.050
200
0.170
420
0.350
550
0.430
660
0.500
Axial Gradient Test
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SDJH
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7KHVHFRQGDU\357LVLQVHUWHGWKHIXOOGHSWKRIWKHZHOOLQWKHSRVLWLRQLQGLFDWHGLQ
)LJXUH
Figure 20 PRT and insert orientation during heat source calibration.
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
Insert the reference PRT the full-depth of the appropriate well.
Insert the 5 mm PRT the full –depth (0 mm) as indicated in Figure 20.
Set UUT to lowest set-point according to Table 15.
Allow the UUT to stabilize – soak for 30 minutes.
Take readings for 2 minutes or a minimum of 40 samples.
Record data and average readings.
Move 5 mm PRT to 40 mm.
Wait for the UUT to stabilize – soak for 30 minutes.
Take readings for 2 minutes or a minimum of 40 samples.
Record data and average readings.
Calculate the gradient.
101
914X Field Metrology Wells
Heat Source Calibration/Test
dtn = t40mm –t0mm
12. Check that data is within limit stated in Table 15.
13. Set UUT to next set-point and repeat steps 4-12.
7.5.2
Accuracy Test
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VWDQGDUGVKRXOGEHRULHQWHGZLWKWKHFDOLEUDWLRQLQVHUWDVLQGLFDWHG
Note: For cold UUTs, perform the Accuracy Tests start with the coldest nominal
set-point first, performing the test at each subsequent nominal set-points up to
the hottest, then repeat in reverse. For hot UUTs, start with the hottest nominal
set-point first, down to the coldest nominal set-point, then repeat in reverse.
1. Set the heat source to the nominal temperature set-point and engage temperature
control.
2. Monitor the instrument’s stability indicator until it reports the heat source is
stable.
3. Allow the instrument to soak at the set-point.
4. Take measurements from the primary reference standard at a 20 second interval.
5. Calculate the average of the measurements taken. Record the results.
6. Calculate the error using the formula indicated below. Record this result.
error = average – nominal
7. Compare the error with the spec in Table 16on page 103 to determine the status.
Record the result.
7.5.3
Stability Test
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SUHYLRXVSDJH
Note: Stability Tests may be performed simultaneously with an Accuracy Test
that uses the same nominal set-point. In this case, the steps to set the set-point,
wait for stability, and soak may be skipped so long as the soak time requirement
has already been met.
102
Calibration of your Field Metrology Well
Heat Source Calibration/Test
1. Set the heat source to the nominal temperature set-point and engage temperature
control.
2. Monitor the instrument’s stability indicator until it reports the heat source is
stable.
3. Allow the instrument to soak at the set-point.
4. Take measurements from the primary reference standard at a 20 second interval
for the duration of the test.
5. Calculate the 2σ (2x standard deviation) of the measurements taken. Record
these results.
6. Compare the 2σ result with the 2σ specification in Table 16 to determine the
pass/fail result. Record the result.
7.5.4
Hysteresis Calculation
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Note: There are two Accuracy Tests for each nominal temperature set-point for
As Found and As Left data sets with the exception of the vertex (hottest set-point
when scanning up then down, coldest set-point when scanning down then up).
1. Locate the results of the two Accuracy Tests at each nominal set-point
temperature in the same data set (As Found or As Left). Ensure that the data is
from the same data set (As Found or As Left) and NOT mixed, one As Found
and one As Left.
2. Calculate the magnitude of the difference between the two results for each
nominal set-point temperature using the formula below. Record these results.
differencen = |average test 1n – average test 2n|
3. Locate the data for the nominal set-point temperature with the largest
difference.
4. Compare the difference with the published hysteresis specification (see Section
2.1Specifications on page 13) to determine the status. Record these results.
Table 16 Heat Source As Found Data/As Left Data Specifications
Model
9142
(Descending
Order)
Set-Point
Soak Time
# Samples
Accuracy Spec
(± °C)
Stability 2σ
Limit (°C)
–25
30 min
40
0.200
0.010
0
50
100
150
103
914X Field Metrology Wells
Heat Source Calibration/Test
Model
9143
(Ascending
Order)
9144
(Ascending
Order)
7.5.5
Set-Point
Soak Time
# Samples
Accuracy Spec
(± °C)
33
30 min
40
0.200
Stability 2σ
Limit (°C)
0.020
100
0.020
200
0.020
275
0.025
350
0.030
0.350
0.030
200
100
30 min
40
0.350
0.030
350
0.350
0.040
550
0.420
0.050
660
0.500
0.050
Uniformity Alignment
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UDPHWHUWREHSURJUDPPHGLQWRWKHLQVWUXPHQWWRFRUUHFWIRUWHPSHUDWXUHGLIIHUHQFHV
EHWZHHQWKHWRSDQGERWWRP]RQHVRIWKHKHDWVRXUFHEORFN
Note: The Uniformity Alignment process must be completed before any data may
be collected using Accuracy Tests to perform the Accuracy Alignment process.
1. Locate the results of the Uniformity Tests.
2. Calculate the new value for the uniformity parameter using the previous
(current) parameter value and the results of the Uniformity Tests using the
formula below specific to each model:
±*5$'*5$'DQG*5$'2QO\
GRAD 1new = GRAD 1old + dG1
GRAD 2new = GRAD 2old + dG2
GRAD 3new = GRAD 3old + dG3
ZKHUH
dG1 = 1.55 x dt(–25)
dG2 = –0.385 x dt(50) – 1.10 x dt(100)
dG3 = –0.360 x dt (150)
±*5$'*5$'DQG*5$'2QO\
GRAD 1new = GRAD 1old + dG1
GRAD 2new = GRAD 2old + dG2
104
Calibration of your Field Metrology Well
Heat Source Calibration/Test
GRAD 3new = GRAD 3old + dG3
ZKHUH
dG1 = –4.2 x dt(100)
dG2 = –1.75 x dt(200)
dG3 = –0.75 x dt(350)
±*5$'*5$'*5$'*5$'DQG*5$'
GRAD 1new = GRAD 1old + dG1
GRAD 2new = GRAD 2old + dG2
GRAD 3new = GRAD 3old + dG3
GRAD 4new = GRAD 4old + dG4
GRAD 5new = GRAD 5old + dG5
ZKHUH
dG1 = –1.900 x dt(50)
dG2 = –0.360 x dt(200)
dG3 = –0.215 x dt (420)
dG4 = –0.165 x dt(550)
dG5 = –0.130 x dt(660)
1. Enter the new parameter value into the instrument.
2. Allow the instrument to soak/equilibrate after entering the new parameter value
before taking any measurements.
7.5.6
Accuracy Alignment
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Note: The Accuracy Alignment process must be performed using data that was
collected from Accuracy Tests after the Uniformity Alignment process has been
completed successfully.
1. Locate the results of the Accuracy Tests that were performed after the
105
914X Field Metrology Wells
Heat Source Calibration/Test
Uniformity Alignment process was completed. Data at all set-points is used.
2. Calculate the temperature bias offset at each set-point and update the
parameters (refer to Table 17).
Table 17 Accuracy alignment parameters
Model
9142
Nominal Align
Set-point (°C)
Display
-25
SOUR:SENS:CAL:PAR1
TEMP 1
50
SOUR:SENS:CAL:PAR2
TEMP 2
150
SOUR:SENS:CAL:PAR3
TEMP 3
35
SOUR:SENS:CAL:PAR1
TEMP 1
200
SOUR:SENS:CAL:PAR2
TEMP 2
350
SOUR:SENS:CAL:PAR3
TEMP 3
9143
9144
Parameter
Serial Command
100
SOUR:SENS:CAL:PAR1
TEMP 1
425
SOUR:SENS:CAL:PAR2
TEMP 2
660
SOUR:SENS:CAL:PAR3
TEMP 3
Note: To calculate the bias offset, simply subtract the reference temperature
from the set-point and enter the difference, i.e. set-point = 30°C, actual
temperature = 30.6°C.
TREF-TSPT = Offset
7KXVƒ&±ƒ& ƒ&RIIVHW
3. After updating the calibration parameters with the new offset values, take As
Left data using the steps 9 through 12 of Table 14on page 100.
Note: The calibration parameters are accessed from the front panel by selecting
MENU|SYSTEM MENU|CALIB. Enter the correct password to access the
parameters. The parameters may also be accessed through the RS232 interface.
106
Troubleshooting
8 Troubleshooting
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VHULDOQXPEHUDQGYROWDJHDYDLODEOH
Table 18 Troubleshooting, problems, causes and solutions
Problem
Causes and Solutions
The instrument does not power
up
Check the fuses. If a fuse blows, it may be due to a power surge or a
component failure. Replace the fuse once. DO NOT replace the fuse
with one of a higher current rating. Always replace the fuse with one
of the same rating, voltage, and type. If the fuse blows a second time,
it is likely caused by failure of a component part.
Check if the circuit breaker has tripped. Press the button to reset the
circuit breaker. If the circuit breaker continues to trip repeatedly, there
is likely a failure of a component part. Contact an Authorized Service
Center.
Power Cord. Check that the power cord is plugged in and connected
to the instrument.
AC Mains Power. Insure the circuit supplying power to the instrument
is on.
The display is blank
The instrument powers up:
9142 – fan turns on, 9143 and
9144 – the power relay clicks,
but the display remains blank
Contrast. Check the screen contrast. Toggle the down arrow key to
see if the screen contrast lightens.
The instrument heats slowly
Scan Rate. Check the Scan Rate settings. The Scan Rate may be set
with too low a rate per minute for the current application.
If the display shows an
abnormal temperature
The sensor is disconnected, open or shorted. Please contact a
Service Center for further instructions.
If the display shows cutout
Cutout. If the Metrology Well exceeds the temperature set in the soft
cutout menu, or if it exceeds the maximum operating temperature of
the instrument, a cutout condition occurs. If this happens, the unit
enters cutout mode and will not actively heat or cool until the user
issues the command to clear the cutout or resets the instrument
using the SET PT. key to clear the cutout mode and activate the
instrument.
Reset. The software cutout may need to be adjusted for the
application. Check and adjust the cutout setting by entering CUTOUT
menu: MENU|TEMPSETUP|CUTOUT.
If the contrast is not the issue, contact an Authorized Customer
Service Center.
107
914X Field Metrology Wells
Problem
Causes and Solutions
Temperature readout is not
the actual temperature of the
well OR Incorrect temperature
reading
Operating Parameters. Insure that all operating parameters for the
Metrology Well, reference thermometer, and/or probe parameters
match the Report of Certification that was sent with the instrument
and/or probe.
Electrical Interference. Look for sources of electrical interference,
such as motors, welders, generating equipment nearby, or ground
loops. Try shielding wires, removing ground loops, or changing
location.
(9142) Probes stuck in the well
at low temperatures
Moisture. If the Metrology Well has been used at low temperatures
for extended periods of time, moisture may have built up in the well
forming ice at low temperatures. Set the temperature high enough to
melt ice to remove probes. Set the set-point to +100°C and allow the
moisture to evaporate out of the system.
(9142) Insert stuck in well
If maintenance has not been performed on the insert as described
in the Maintenance Section and the insert cleaned periodically, hard
water build-up on the insert may cause it to stick.
Have the unit in a cold environment – less 21°C. Set the unit to
100°C. While the unit is heating, at approximately 50°C to 70°C, pull
on the insert.
If this does not remove the insert, contact an Authorized Service
Center.
-P Model Only
The Ref Probe shows an
Check the Probe type setting in the Reference Probe Setup menu
abnormal temperature or “……” is correct. Check all associated parameters. Check that the 4 probe
wires are connected and not shorted inside of the connector.
RTD shows an abnormal
temperature or “…..”
Check the RTD type setting in the RTD Setup menu is correct. Check
all associated parameters for the current RTD type. Check that the
number of wires setting is correct for the number wires actually used.
If using a 2-wire RTD, make sure that the unused RTD inputs are
shorted to the used RTD inputs as shown in the manual. Using a
3-wire setting on a 4-wire probe can cause errors of 0.01 to 0.1 ohms.
Check that the probe wires are not shorted or open.
Thermocouple shows an
abnormal temperature or “…..”
Check the TC type setting in the TC Setup menu is correct for the
TC used. Make sure the TC wires are not loose in the connector or
shorted.
mA reading does not read
Check to see if the device being tested needs loop power, if so
enable Loop Power in the mA Setup menu. Make sure the mA fuse is
good. It is located on the front panel just under the RTD inputs.
The Ref, RTD, TC, or mA
Reading is abnormal or noisy
Wrong Calibration Parameters. The problem may be that the
wrong calibration parameters are loaded into the 914x. Check the
parameters in the instrument against the parameters listed on the
Report of Calibration for both the REF and UUT.
Electrical Interference. Strong radio frequency radiation from sources
such as radio transmitters, welders, and large electric motors may
change the reading. Try moving the instrument to another location
away from the source of interference.
Please contact an Authorized Customer Service Center for further
The current REF and UUT
measurement will not display in instructions.
the Main Menu
108
Maintenance
Field Metrology Well Performance Analysis
9 Maintenance
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Field Metrology Well Performance Analysis
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