Fluke Calibration Fluke Calibration 9170-A-156 Manual

Test Equipment Depot - 800.517.8431 - 99 Washington Street Melrose, MA 02176

TestEquipmentDepot.com

917X Series

Metrology Well

Users Guide

2005, Rev. 1, 3/11

© 2005 - 2011 Fluke Corporation. All rights reserved. Specications subject to change without notice.

All product names are trademarks of their respective companies.

LIMITED WARRANTY AND LIMITATION OF LIABILITY

Each Fluke product is warranted to be free from defects in material and workmanship under normal use and
service. The warranty period is one year and begins on the date of shipment. Parts, product repairs, and
services are warranted for 90 days. This warranty extends only to the original buyer or end-user customer of a
Fluke authorized reseller, and does not apply to fuses, disposable batteries, or to any product which, in Fluke’s
opinion, has been misused, altered, neglected, contaminated, or damaged by accident or abnormal conditions
of operation or handling. Fluke warrants that software will operate substantially in accordance with its func­tional specications for 90 days and that it has been properly recorded on non-defective media. Fluke does not
warrant that software will be error free or operate without interruption.

Fluke authorized resellers shall extend this warranty on new and unused products to end-user customers only
but have no authority to extend a greater or different warranty on behalf of Fluke. Warranty support is available
only if product is purchased through a Fluke authorized sales outlet or Buyer has paid the applicable interna­tional price. Fluke reserves the right to invoice Buyer for importation costs of repair/replacement parts when
product purchased in one country is submitted for repair in another country.

Fluke’s warranty obligation is limited, at Fluke’s option, to refund of the purchase price, free of charge repair, or
replacement of a defective product which is returned to a Fluke authorized service center within the warranty

period.

To obtain warranty service, contact your nearest Fluke authorized service center to obtain return authorization
information, then send the product to that service center, with a description of the difculty, postage and insur­ance prepaid (FOB Destination). Fluke assumes no risk for damage in transit. Following warranty repair, the
product will be returned to Buyer, transportation prepaid (FOB Destination). If Fluke determines that failure was
caused by neglect, misuse, contamination, alteration, accident, or abnormal condition of operation or handling,
including overvoltage failures caused by use outside the product’s specied rating, or normal wear and tear of
mechanical components, Fluke will provide an estimate of repair costs and obtain authorization before com­mencing the work. Following repair, the product will be returned to the Buyer transportation prepaid and the
Buyer will be billed for the repair and return transportation charges (FOB Shipping Point).

THIS WARRANTY IS BUYER’S SOLE AND EXCLUSIVE REMEDY AND IS IN LIEU OF ALL OTHER WAR­RANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY IMPLIED WARRANTY OF
MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. FLUKE SHALL NOT BE LIABLE FOR
ANY SPECIAL, INDIRECT, INCIDENTAL, OR CONSEQUENTIAL DAMAGES OR LOSSES, INCLUDING
LOSS OF DATA, ARISING FROM ANY CAUSE OR THEORY.

Since some countries or states do not allow limitation of the term of an implied warranty, or exclusion or limita­tion of incidental or consequential damages, the limitations and exclusions of this warranty may not apply to
every buyer. If any provision of this Warranty is held invalid or unenforceable by a court or other decision-mak­er of competent jurisdiction, such holding will not affect the validity or enforceability of any other provision.

Fluke Corporation Fluke Europe B.V.
P.O. Box 9090 P.O. Box 1186
U.S.A. 5602 BD Eindhoven
Everett, WA 98206-9090 The Netherlands

11/99

To register your product online, visit register.uke.com

Table of Contents

1 Before You Start ....................................................................... 1

1.1 Introduction ............................................................................................... 1

1.2 Symbols Used ........................................................................................... 1

1.3 Safety Information ..................................................................................... 2

1.3.1 Warnings .........................................................................................................2

1.3.2 Cautions ..........................................................................................................4

1.4 CE Comments ........................................................................................... 5

1.4.1 EMC Directive .................................................................................................5

1.4.2 Immunity Testing .............................................................................................5

1.4.3 Emission Testing ............................................................................................. 6

1.4.4 Low Voltage Directive (Safety) ........................................................................6

1.5 Authorized Service Centers ...................................................................... 6

2 SpecicationsandEnvironmentalConditions .....................9

2.1 Specications ............................................................................................ 9

2.2 Environmental Conditions ....................................................................... 10

3 Quick Start ..............................................................................13

3.1 Unpacking ............................................................................................... 13

3.2 Setup....................................................................................................... 14

3.3 System Setup.......................................................................................... 15

3.4 Display .................................................................................................... 15

3.4.1 Measure ........................................................................................................15

3.5 Setting the Temperature .......................................................................... 16

3.5.1 Set-point Setup..............................................................................................16

3.6 Reference Probe (-R models only) ......................................................... 16

3.6.1 Probe Connection..........................................................................................17

3.6.2 Measure Temperature ...................................................................................17

4 PartsandControls .................................................................19

4.1 Back panel .............................................................................................. 19

4.2 Front panel .............................................................................................. 20

4.3 Front Panel Display................................................................................. 22

4.4 Front Panel Buttons ................................................................................ 22

4.5 Accessories ............................................................................................. 24

i

917X Series Metrology Wells

Figures

Figure 1 Probe connector wiring ...................................................................... 17

Figure 2 Metrology Well back panel view ........................................................ 19

Figure 3 Metrology Well front panel view ......................................................... 21

Figure 4 Metrology Well insert options. Probe sizes indicated in inches for A, B,
and C, and millimeters for sleeves D, E, and F except for 0.25 inch reference

holes in E and F.

.............................................................................................. 25

ii

Tables

Table 1 International Symbols ............................................................................ 1

Table 2 Metrology Well Specications ............................................................... 9

Table 3 Built-in Readout Specications............................................................ 10

iii

917X Series Metrology Wells

iv

Before You Start

1 Before You Start

1.1 Introduction

Fluke’s Hart Metrology Wells (9170, 9171, 9172, and 9173) are designed to be stable
heat sources that can be used in a laboratory or eld environment. With a calibrated
display and an optional built-in reference thermometer input (designated with “-R”),
Metrology Wells may also be used as a reference standard.

Metrology Wells feature interchangeable probe sleeves that t various sized diameter
probes.

The Metrology Wells’ controller uses a PRT sensor and thermoelectric modules or
heaters to achieve stable, uniform temperatures throughout the block.

The LCD display continuously shows many useful operating parameters including the
block temperature, block stability, heating and cooling status, and current set-point.
The temperature may be easily set with the control buttons to any desired temperature
within the calibrator’s specied range.

Metrology Wells are designed for laboratory performance that can be used anywhere.
With proper use, the instrument will provide continued accurate calibration of temper­ature sensors and devices. Before use, the user should be familiar with the warnings,
cautions, and operating procedures of the calibrator as described in the Getting Started
Guide.

Symbols Used

1.2 SymbolsUsed

Table 1 lists the International Electrical Symbols. Some or all of these symbols may be
used on the instrument or in this manual.

Table 1 International Symbols

Symbol Description Symbol Description

AC (Alternating Current) PE Ground

AC-DC Hot Surface (Burn Hazard)

Battery

Complies with European Union

directives

DC On

Double Insulated Canadian Standards Association

Read the User’s Guide (Important
Information)

Off

1

917X Series Metrology Wells

Safety Information

Symbol Description Symbol Description

Electric Shock C-TICK Australian EMC mark

Fuse

OVERVOLTAGE (Installation)
CATEGORY II, Pollution Degree 2
per IEC1010-1 refers to the level
of Impulse Withstand Voltage

protection provided. Equipment of

OVERVOLTAGE CATEGORY II is
energy-consuming equipment to be
supplied from the xed installation.
Examples include household, ofce,
and laboratory appliances.

1.3 SafetyInformation

Use this instrument only as specied in this guide. Otherwise, the protection provided
by the instrument may be impaired. Refer to the safety information in the Warnings
and Cautions sections below.

The following denitions apply to the terms “Warning” and “Caution”.

●

“Warning” identies conditions and actions that may pose hazards to the user.

●

“Caution” identies conditions and actions that may damage the instrument
being used.

1.3.1 Warnings

To avoid personal injury, follow these guidelines.

The European Waste Electrical
and Electronic Equipment (WEEE)

Directive (2002/96/EC) mark.

GENERAL

DO NOT use this instrument in environments other than those listed in the User’s

Guide.

Inspect the instrument for damage before each use. DO NOT

use the instrument if it

appears damaged or operates abnormally.

Follow all safety guidelines listed in this guide.

Calibration equipment should only be used by trained personnel.

If this equipment is used in a manner not specied by the manufacturer, the protection
provided by the equipment may be impaired.

Before initial use, or after transport, or after storage in humid or semi-humid environ­ments, or anytime the Metrology Well has not been energized for more than 10 days,
the instrument needs to be energized for a “dry-out” period of 2 hours before it can be
assumed to meet all of the safety requirements of the IEC 1010-1. If the product is wet

2

Before You Start

Safety Information

or has been in a wet environment, take necessary measures to remove moisture prior
to applying power such as storage in a low humidity temperature chamber operating at
50°C for 4 hours or more.

DO NOT use this instrument for any application other than calibration work. The
instrument was designed for temperature calibration. Any other use of the instrument
may cause unknown hazards to the user.

Completely unattended operation is not recommended.

DO NOT place the instrument under a cabinet or other structure. Overhead clearance
is required. Always leave enough clearance to allow for safe and easy insertion and
removal of probes.

Use of this instrument at HIGH TEMPERATURES for extended periods of time
requires caution.

Completely unattended high temperature operation is not recommended due to safety
hazards that can arise.

If the instrument is used in a manner not in accordance with the equipment design, the
operation of the Metrology Well may be impaired or safety hazards may arise.

This instrument is intended for indoor use only.

BURN HAZARD

Each Metrology Well is equipped with a Block Temperature Indicator (front panel
LED HOT indicator – U.S. Patent 7,561,058 even when the instrument is unplugged.
When the indicator is ashing, the instrument is not powered and the temperature of
the block is above 50°C. When the indicator is illuminated, always on, the instrument
is powered and the block temperature is above 50°C.

DO NOT turn the instrument upside down with the inserts in place; the inserts will
fall out.

DO NOT operate instrument in any orientation other than vertical (block opening face
up). Risk of re or burn hazard may result due to excessive heat build up.

DO NOT operate on a ammable surface or near ammable materials.

DO NOT touch the well access surface of the instrument.

The block vent may be very hot due to the fan blowing across the heater block of the
Metrology Well.

The calibration well temperature of the Metrology Well is the same as the actual dis­play temperature, for example, if the instrument is set to 700°C and the display reads
700°C, the well is at 700°C.

The air over the well can reach temperatures greater that 200°C for high temperature
(400°C and higher) Metrology Wells.

Probes and inserts may be hot and should only be inserted and removed from the
instrument when the instrument is operating at temperatures below 50°C.

3

917X Series Metrology Wells

Safety Information

DO NOT turn off the instrument at temperatures higher than 100°C. This could create
a hazardous situation. Select a set-point less than 100°C and allow the instrument to
cool before turning it off.

The high temperatures present in Metrology Wells designed for operation at 300°C
and higher may result in res and severe burns if safety precautions are not observed.

ELECTRICAL HAZARD

These guidelines must be followed to ensure that the safety mechanisms in this instru­ment will operate properly. This instrument must be plugged into a 115 VAC (230
VAC optional), AC only electric outlet. The power cord of the instrument is equipped
with a three-pronged grounding plug for your protection against electrical shock haz­ards. It must be plugged directly into a properly grounded three-prong receptacle. The
receptacle must be installed in accordance with local codes and ordinances. Consult a
qualied electrician. DO NOT use an extension cord or adapter plug.

If supplied with user accessible fuses, always replace the fuse with one of the same
rating, voltage, and type.

Always replace the power cord with an approved cord of the correct rating and type.

HIGH VOLTAGE is used in the operation of this equipment. SEVERE INJURY or
DEATH may result if personnel fail to observe safety precautions. Before working
inside the equipment, turn power off and disconnect power cord.

1.3.2 Cautions

To avoid possible damage to the instrument, follow these guidelines:

To properly calibrate the Metrology Well, the “Fan Limit” must be set to “Auto.”

DO NOT leave the sleeve(s) in the instrument for prolonged periods. Due to the high
operating temperatures of the instrument, the sleeves should be removed after each use
and buffed with a Scotch-Brite® pad or emery cloth (see the Maintenance section of
the Technical Guide).

Always operate this instrument at room temperature between 5°C and 50°C (41°F
and 122°F). Allow sufcient air circulation by leaving at least 6 inches (15 cm) of
clearance around the instrument. Overhead clearance is required. DO NOT place the
instrument under any structure.

DO NOT interchange inserts between Metrology Well models. The inserts provided
with the instrument as well as any additional inserts ordered are model specic.

Component lifetime can be shortened by continuous high temperature operation.

DO NOT apply any type of voltage to the switch terminals. Applying a voltage to the
terminals may cause damage to the controller.

DO NOT use uids to clean out the well. Fluids could leak into electronics and dam­age the instrument.

DO NOT introduce any foreign material into the probe hole of the insert. Fluids, etc.
can leak into the instrument causing damage.

4

Before You Start

CE Comments

DO NOT change the values of the calibration constants from the factory set values.
The correct setting of these parameters is important to the safety and proper operation
of the calibrator.

DO NOT slam the probe sheath or sleeves into the well. This type of action can cause
a shock to the sensor and affect the calibration.

The instrument and any thermometer probes used with it are sensitive instruments that
can be easily damaged. Always handle these devices with care. DO NOT allow them
to be dropped, struck, stressed, or overheated.

DO NOT operate this instrument in an excessively wet, oily, dusty, or dirty environ­ment. Always keep the well and inserts clean and clear of foreign material.

The Metrology Well is a precision instrument. Although it has been designed for opti­mum durability and trouble free operation, it must be handled with care. Always carry
the instrument in an upright position to prevent the probe sleeves from dropping out.
The convenient handle allows for hand carrying the instrument.

If a mains supply power uctuation occurs, immediately turn off the instrument.
Power bumps from brown-outs could damage the instrument. Wait until the power has
stabilized before re-energizing the instrument.

The probe and the block may expand at different rates. Allow for probe expansion
inside the well as the block heats. Otherwise, the probe may become stuck in the well.

Most probes have handle temperature limits. Be sure the air temperature above the
Metrology Well does not exceed the probe handle’s temperature limit. If the probe
handle limits are exceeded, the probe may be permanently damaged.

1.4 CEComments

1.4.1 EMCDirective

Fluke’s equipment has been tested to meet the European Electromagnetic Compatibil­ity Directive (EMC Directive, 89/336/EEC). The Declaration of Conformity for your
instrument lists the specic standards to which the instrument was tested.

The instrument was designed specically as a test and measuring device. Compliance
to the EMC directive is through IEC 61326-1 Electrical equipment for measurement,
control and laboratory use – EMC requirements (1998).

As noted in the IEC 61326-1, the instrument can have varying congurations. The
instrument was tested in a typical conguration with shielded RS-232 cables.

1.4.2 ImmunityTesting

The instrument has been designed and tested to meet electromagnetic compatibility
(EMC) requirements for electrical equipment for measurement, control, and laboratory
use (IEC 61326-1) for controlled electromagnetic (EM) environments. To that end, the
following modications to the specications apply. For models 9170-R and 9171-R
in a disturbance radio frequency EM eld greater than 0.5 V/m in the frequency band
175-250 MHz, the Built-In Reference Input specications for resistance and tempera­ture accuracy are unspecied.

5

917X Series Metrology Wells

Authorized Service Centers

1.4.3 EmissionTesting

The instrument fullls the limit requirements for Class A equipment but does not fulll
the limit requirements for Class B equipment. The instrument was not designed to be
used in domestic establishments.

1.4.4 LowVoltageDirective(Safety)

In order to comply with the European Low Voltage Directive (73/23/EEC), Fluke’s
equipment has been designed to meet the IEC 1010-1 (EN 61010-1) and the IEC
1010-2-010 (EN 61010-2-010) standards.

1.5 AuthorizedServiceCenters

Please contact one of the following authorized Service Centers to coordinate service
on your Fluke product:

6

Before You Start

Authorized Service Centers

7

917X Series Metrology Wells

Authorized Service Centers

8

Specications and Environmental Conditions

Specications

2 SpecicationsandEnvironmentalConditions

2.1 Specications

Table 2 Metrology Well Specications

Specication 9170 9171 9172 9173

Range –45°C to 140°C

Display Accuracy

1

Stability

AxialUniformity
(40mm[1.6in])

AxialUniformity
(60mm[2.3in])

AxialUniformity
(80mm[3.15in])

RadialUniformity ±0.01°C full range ±0.01°C: 35°C to 100°C

LoadingEffect
(withreference
thermometer)

Hysteresis ±0.025°C ±0.04°C ±0.07°C

Operating Range1 5°C to 40°C (41°F to 104°F)

Well Depth 160 mm (6.3 in) 203 mm (8 in)

Resolution 0.001° C/F

Display LCD, °C or °F user–selectable

KeyPad Ten key with decimal and +/– key. Function keys, menu key, and °C/°F key.

CoolingTime 44 min: 23°C to –45°C

HeatingTime 32 min: 23°C to 140°C

Size 366 x 203 x 323 mm (14.4 x 8 x 12.7 in) [height x width x depth]

Weight 14.2 kg (31.5 lb) 14.6 kg (32 lb) 12.2 kg (27 lb) 14.2 kg (31 lb)

2

2

2

(–49°F to 284°F)

2

±0.08°C: –45°C to –35°C

±0.04°C: –35°C to 0°C

±0.02°C: 0°C to 50°C

±0.07°C: 50°C to 140°C

±0.1°C: –45°C to –35°C

±0.04°C: –35°C to 0°C

±0.02°C: 0°C to 50°C

±0.07°C: 50°C to 140°C

N/A ±0.05°C: –30°C to 0°C

±0.02°C: –45°C to –35°C

±0.005°C: –35°C to

100°C

±0.01°C: 100°C to 140°C

19 min: 23°C to –30°C
19 min: 140°C to 23°C

45 min: –45°C to 140°C

±0.1°C full range ±0.1°C: 35°C to 100°C

±0.005°C full range ±0.005°C: 35°C to 100°C

–30°C to 155°C

(–22°F to 311°F)

±0.025°C: –30°C to 0°C

±0.02°C: 0°C to 50°C

±0.05°C: 50°C to 155°C

±0.025°C: –30°C to 0°C

±0.02°C: 0°C to 50°C

±0.07°C: 50°C to 155°C

±0.04°C: 0°C to 50°C

±0.15°C: 50°C to 155°C

±0.005°C: –30°C to 0°C
±0.005°C: 0°C to 100°C

±0.01°C: 100°C to 155°C

30 min: 23°C to –30°C
25 min: 155°C to 23°C

44 min: 23°C to 155°C

56 min: –30°C to 155°C

35°C to 425°C

(95°F to 797°F)

±0.15°C: 100°C to 225°C

±0.2°C: 225°C to 425°C

±0.008°C: 100°C to

225°C

±0.01°C: 225°C to 425°C

±0.05°C: 35°C to 100°C

±0.09°C: 100°C to 225°C

±0.17°C: 225°C to 425°C

±0.05°C: 35°C to 100°C
±0.1°C: 100°C to 225°C
±0.2°C: 225°C to 425°C

±0.06°C: 35°C to 100°C

±0.12°C: 100°C to 225°C
±0.23°C: 225°C to 425°C

±0.02°C: 100°C to 225°C

±0.025°C: 225°C to

425°C

±0.01°C full range ±0.02°C: 50°C to 425°C

220 min: 425°C to 35°C

100 min: 425°C to 100°C

27 min: 35°C to 425°C 46 min: 50°C to 700°C

50°C to 700°C

(122°F to 1292°F)

±0.2°C: 50°C to 425°C

±0.25°C: 425°C to 660°C

±0.005°C: 50°C to 100°C
±0.01°C: 100°C to 425°C
±0.03°C: 425°C to 700°C

±0.09°C: 50°C to 100°C

±0.22°C: 100°C to 425°C
±0.35°C: 425°C to 700°C

±0.1°C: 50°C to 100°C

±0.25°C: 100°C to 425°C

±0.4°C: 425°C to 700°C

±0.15°C: 50°C to 100°C
±0.30°C: 100°C to 425°C
±0.45°C: 425°C to 700°C

±0.01°C: 50°C to 100°C

±0.025°C: 100°C to

425°C

±0.04°C: 425°C to 700°C

±0.04°C: 425°C to 700°C

235 min: 700°C to 50°C
153 min: 700°C to 100°C

9

917X Series Metrology Wells

Environmental Conditions

Specication 9170 9171 9172 9173

Power 115 V (±10%), 50/60 Hz, 550 W

230 V (±10%), 50/60 Hz, 550 W

SystemFuse

Ratings

Internal Fuse
Ratings

115 V: 6.3 A 250 V

230 V: 3.15 A 250 V

F1: 8 A 250 V
F2: 1 A 250 V
F4: 4 A 250 V

ComputerInterface RS-232 Interface and 9930 Interface-it control software included

Safety OVERVOLTAGE (Installation) CATEGORY II, Pollution Degree 2 per IEC–61010–1:2001

1

Specications are given with an ambient temperature of 23°C (73.4°F). Range, display accuracy, axial uniformity, loading effect, cooling time, and heating

time are subject to the ambient temperature and may be affected outside the “Full Accuracy” temperature range

2

Refer to the Maintenance section in the User’s Guide regarding maintaining the accuracy of the instrument.

Table 3 Built-in Readout Specications

Specications Built-in Reference Input

TemperatureRange

Resistance Range

Characterizations ITS-90 subranges 4, 6, 7, 8, 9, 10, and

Resistance Accuracy

TemperatureAccuracy

TemperatureResolution 0.001° C/F

Operating Range 5°C to 40°C (41°F to 104°F)

Calibration NIST-traceable calibration provided

RecommendedProbes 5626-15-D or 5614-12-D3

1

Specications are given with an ambient temperature of 23°C (73.4°F). Resistance accuracy and temperature accuracy are subject to the ambient

temperature and may be affected outside the “Full Accuracy” temperature range.

2

The temperature range may be limited by the reference probe connected to the external “Probe” connection of the Metrology Well. Does not include

sensor probe accuracy. It does not include probe uncertainty or probe characterization errors.

3

The 5614–12–D’s temperature range is 420°C.

1

–200°C to 962°C
(–328°F to 1764°F)

0Ω to 400Ω, auto-ranging

11

Callendar-Van Dusen (CVD): R0,
ALPHA, DELTA, BETA

1

0Ω to 20Ω: 0.0005Ω
20Ω to 400Ω: 25 ppm (0.0025%)

1, 2

10Ω PRTs:
±0.013°C at 0°C
±0.013°C at 50°C
±0.014°C at 155°C
±0.014°C at 225°C

±0.019°C at 425°C
±0.028°C at 700°C

115 V (±10%), 50/60 Hz, 1025 W
230 V (±10%), 50/60 Hz, 1025 W

115 V: 10 A 250 V

230 V: 5 A 250 V

n/a

25Ω and 100Ω PRTs:
±0.005°C at –100°C
±0.007°C at 0°C
±0.011°C at 155°C
±0.013°C at 225°C

±0.019°C at 425°C
±0.027°C at 661°C

10

2.2 EnvironmentalConditions

Although the instrument has been designed for optimum durability and trouble-free
operation, it must be handled with care. The instrument should not be operated in an
excessively dusty or dirty environment. Maintenance and cleaning recommendations
can be found in the Maintenance section.

●

The instrument operates safely under the following environmental conditions:

Specications and Environmental Conditions

Environmental Conditions

●

temperature range: 5-40°C (41-104°F)

●

ambient relative humidity: maximum 80% for temperature <31°C, decreasing
linearly to 50% at 40°C

●

pressure: 75kPa-106kPa

●

mains voltage: within ±10% of nominal

●

vibrations in the calibration environment should be minimized

●

altitude: less than 2,000 meters

●

indoor use only

11

917X Series Metrology Wells

Environmental Conditions

12

3 Quick Start

3.1 Unpacking

Unpack the instrument carefully and inspect it for any damage that may have occurred
during shipment. If there is shipping damage, notify the carrier immediately.

Verify that the following components are present:

9170

●

9170 Metrology

●

9170-INSX Insert (X=A, B, C, D, E, or F)

●

Power Cord

●

RS-232 Cable

●

Getting Started Guide

●

User’s Guide

●

Report of Calibration and calibration label

●

DIN Connector (-R units only)

●

Well Insulator

●

Tongs (insert removal tool)

Well

Quick Start

Unpacking

9171

●

9171 Metrology

●

9171-INSX Insert (X=A, B, C, D, E, or F)

●

Power Cord

●

RS-232 Cable

●

Getting Started Guide

●

User’s Guide

●

Report of Calibration and calibration label

●

DIN Connector (-R units only)

●

Well Insulator

●

Tongs (insert removal tool)

Well

9172

●

9172 Metrology Well

●

9172-INSX Insert (X=A, B, C, D, E, or F)

●

Power Cord

●

RS-232 Cable

13

917X Series Metrology Wells

Setup

●

Getting Started Guide

●

User’s Guide

●

Report of Calibration and calibration label

●

DIN Connector (-R units only)

●

Tongs (insert removal tool)

9173

●

9173 Metrology

●

9173-INSX Insert (X=A, B, C, D, E, or F)

●

Power Cord

●

RS-232 Cable

●

Getting Started Guide

●

User’s Guide

●

Report of Calibration and calibration label

●

DIN Connector (-R units only)

●

Tongs (insert removal tool)

If all items are not present, contact an Authorized Service Center.

Well

14

3.2 Setup

NOTE: The instrument will not heat, cool, or control until the “CONT
ENABLE” parameter is set to “On.” Refer to Set-Point Setup on page 16 to set
this parameter.

Place the calibrator on a at surface with at least 6 inches of free space around the in­strument. Overhead clearance is required. DO NOT place under a cabinet or structure.

Plug the Metrology Well power cord into a mains outlet of the proper voltage, fre­quency, and current capability (see Specications for power details). Observe that the
nominal voltage corresponds to that indicated on the back of the calibrator.

Carefully insert the probe sleeve into the well. Probe sleeves should be of the small­est hole diameter possible still allowing the probe to slide in and out easily. Sleeves
of various sizes are available from Fluke Calibration. The well must be clear of any
foreign objects, dirt and grit before the sleeve is inserted. The sleeve is inserted with
the two small tong holes positioned upward.

Turn on the power to the calibrator by toggling the switch on the power entry module.
After a brief self-test, the controller should begin normal operation. The main screen
will appear within 30 seconds. If the instrument fails to operate, please check the
power connection.

The display will show the well temperature, and wait for user input before heating or
cooling to current set-point.

3.3 SystemSetup

Before using the instrument, the parameters in this section need to be setup (Main
Menu: SYSTEM|SETUP MENU).

3.4 Display

Language

Select the preferred language (English, French, or Chinese) using the right/left arrow
keys and press “ENTER” to accept the selection.

Decimal

The decimal of the numbers in the instrument can be either a comma or decimal.
Select the desired decimal type using the right/left arrow keys and press “ENTER” to
accept the selection.

3.4.1 Measure

Stability Limit

Quick Start

Display

NOTE: Metrology Wells should not be expected to operate better than the

stability limit specication set forth in the Specications section of this guide.

Therefore, the minimum setting of the stability limit should not be less than the

stability specication set forth in the Specications section.

The stability limit of the instrument is the parameter which allows the instrument to
notify the user when it has achieved the stability limit set in this parameter. There are
two notications: visual and audible. The visual notication is always active. When
the instrument is operating within the stability limit, the stability parameter on the
main screen will remain highlighted as long as the instrument is within the given
specication, otherwise the parameter will not be highlighted. The audible, if enabled,
alerts the user once per set-point when the instrument achieves the set stability limit.
Use the numeric keys to set the desired stability limit and press “ENTER” to accept
the new stability limit.

Example:

A specic calibration process requires the instrument be operating within ±0.1°C.
“0.1” would be entered into the stability limit parameter. When the instrument is
within ±0.1°C, “STAB: X.XXX°C” will be highlighted and the audible alarm (if
enabled) will notify the user that the instrument is operating within ±0.1°C. Use the
numeric keys to set the desired stability limit and press “ENTER” to accept the new
stability limit.

15

917X Series Metrology Wells

Setting the Temperature

Stability Alarm (STAB ALARM)

The audible alarm described in “Stability Limit” is turned on or off using this param­eter. Select either “On” or “Off” using the right/left arrow keys and press “ENTER” to
accept the selection.

3.5 SettingtheTemperature

The users guide explains in detail how to set the temperature set-point of the calibrator
using the front panel keys. The procedure is summarized here.

3.5.1 Set-point Setup

1. From the main screen, press “ENTER” once to access the “CONTROL SET
POINT” menu.

2. Press +/- to set a positive or negative temperature. If the “-” symbol is not
present, the temperature is assumed to be positive. Use the number keys to set
the desired temperature. Press “ENTER” to set the temperature and continue
setting up the set-point information. If the other information in the set-point
menu does not need to be edited at this point, press “EXIT” to return to the
main screen

NOTE: Each time the instrument is turned off and back on, the “CONT
ENABLE” parameter is set to “Off”.

16

3. The “CONT ENABLE” parameter enables or disables active heating or cooling
of the instrument. This parameter must be set to “On” for the instrument to heat
or cool. Using the right/left arrow keys, select “On” to allow the instrument to
heat or cool or select “Off” to disable heating and cooling.

4. The scan rate of the instrument can be set from 0.1 to 99°C/min, however
the actual scan rate is limited by the natural heating or cooling rate of the
instrument. Use the number keys to set the desired scan rate and press
“ENTER”.

When the set-point temperature is changed the controller will switch the thermoelec­tric modules or heater on or off to raise or lower the temperature. The displayed well
temperature will gradually change until it reaches the set-point temperature. The well
may require 5 to 10 minutes to reach the set-point depending on the span. Another 5 to
10 minutes is required to stabilize with ±0.1°C of the set-point. Ultimate stability may
take 15 to 20 minutes more of stabilization time.

3.6 ReferenceProbe(-Rmodelsonly)

The reference probe section of the user manual explains in detail how to set up the
reference probe of the calibrator using the front panel keys. The procedure is summa­rized here.

3.6.1 Probe Connection

Probe Connector

A PRT is the only type of probe that is supported by the reference thermometer input.
The PRT (RTD or SPRT) probe connects to the reference thermometer input using a
5-pin DIN connector. Figure 1 shows how a four-wire probe is wired to the ve-pin
DIN connector. One pair of wires attaches to pins 1 and 2 and the other pair attaches
to pins 4 and 5 (pins 1 and 5 source current and pins 2 and 4 sense the potential). If a
shield wire is present it should be connected to pin 3.

1

2

3

Quick Start

Reference Probe (-R models only)

5

4

Shield

3.6.2 MeasureTemperature

RTD Sensor

Figure 1

Probe connector wiring

A two-wire probe can also be used with the reference thermometer. It is connected
by attaching one wire to both pins 1 and 2 of the plug and the other wire to both pins
4 and 5. If a shield wire is present it should be connected to pin 3. Accuracy may be
signicantly degraded using a two-wire connection because of lead resistance.

To make temperature measurements using your probe, the following parameters must
be set up:

1. From the main screen, press the “MENU” button. Access the reference probe
select menu (REF MENU|SELECT). Select “Probe 1” using the right or left
arrow button. Press “ENTER” to accept the probe to be used.

2. To enable “Probe 1,” use the 4 or 5 button to turn the reference probe “On.”
Press “ENTER” to accept the selection.

3. Press the “Setup” soft key (Main Menu: REF MENU|SETUP). In the reference
probe setup menu, select “Probe 1” and press “ENTER”.

17

917X Series Metrology Wells

Reference Probe (-R models only)

4. Select the calibration type for the probe (ITS-90, CVD, or Res) using the 4 or
5 keys. Press “ENTER” to accept the calibration type.

5. Use the numeric keys to enter the serial number and calibration coefficients of
the probe. Press “ENTER” after each parameter is entered to accept the new
parameter value. Calibration coefficients can be found on a report of calibration
that was shipped with your probe. If no coefficients can be found, contact
the manufacturer or vendor of the probe for assistance. If the probe is out of
calibration, Fluke offers calibration services. Contact an Authorized Service
Center for assistance on obtaining a calibration for the probe.

6. After the reference probe has been enabled, the focus of the temperature display
can be set. The focus is disabled if the reference probe is disabled. From the
reference menu, press the “Focus” soft key (Main Menu: REF MENU|FOCUS).
Use the 4 or 5 key to select reference focus. Press “ENTER” to accept the
selection. The largest temperature on the display will now be the reference
temperature.

18

4 PartsandControls

This section describes the exterior features of the Metrology Well.

4.1 Back panel

The following are found on the back of the Metrology Well (see Figure 2 ).

Parts and Controls

Back panel

Figure 2 Metrology Well back panel view

Power Cord Plug (1)

The power supply cord attaches to the back panel. Plug the cord into an AC mains sup­ply appropriate for the voltage range as specied in the specications tables.

19

917X Series Metrology Wells

Front panel

Power Switch (2)

The power switch is located on the power entry module of the unit at the bottom left
of the back panel.

Serial Connector (3)

The serial connector is a 9-pin subminiature D type located on the back panel. The
serial (RS-232) interface can be used to transmit measurements and control the opera­tion of the Metrology Well.

Fan (4)

The fan is necessary to keep the internal components cool. Always make sure air can
ow freely underneath and around the instrument.

4.2 Front panel

The following are found on the front of the Metrology Well (see Figure 3, on opposite
page).

Display (1)

The display is a 320 x 240 pixel monochrome graphics LCD device with a bright
CCFT backlight. The contrast can be adjusted using the 2 or 1 arrow buttons on the
front panel. The display is used to show current control temperature, measurements,
status information, operating parameters, and soft key functions.

20

Soft Keys (2)

The soft keys are the four buttons immediately below the display (labeled F1 to F4).
The functions of the soft keys are indicated on the display above the buttons. The
function of the keys may change depending on the menu or function that is selected.

Buttons (3)

The front panel buttons allow you to select menus, enter numeric data for operating
parameters, move the cursor on the display, change the display layout, and adjust the
contrast of the display.

Reference Thermometer Connection (-R models only) (4)

The 5-pin DIN connector on the front panel allows a reference probe to be attached to
the unit for use with the reference thermometer function of the unit.

Switch Connectors (5)

The switch hold patented DWF connector posts are located on the right side of the
front panel.

Parts and Controls

Front panel

Block Temperature Indicator (U.S. Patent 7,561,058) (6)

The block temperature indicator lamp allows users to know when the block tempera­ture is above 50°C.

Figure 3 Metrology Well front panel view

21

917X Series Metrology Wells

Front Panel Display

4.3 Front Panel Display

The front panel display is shown in detail in Figure 3, on previous page and its fea­tures are described below.

Control Focus

The most recent block temperature measurement is shown in large digits in the box at
the top of the screen. While viewing the main screen, the left arrow key enables the
control focus view. The main control parameters are shown in the box at the bottom
left of the screen. The current program selected is shown in the box at the bottom right
of the screen.

Reference Focus (-R models only)

The most recent reference thermometer measurement is shown in large digits in the
box at the top of the screen. While viewing the main screen, the right arrow key
enables the reference focus view. The main control parameters are shown in the box at
the bottom left of the screen and the current program selected is shown in the box at
the bottom right of the screen.

Heating/Cooling Status

Just above the “PROGRAM” box there is a bar graph that will indicate HEATING,
COOLING, or CUTOUT. This status graph indicates the current level of heating or
cooling if the instrument is not in cutout mode.

22

Soft Key Functions

The four boxes at the bottom of the display indicate the functions of the soft keys (F1–
F4). These functions change with each menu.

Editing Windows

While setting up and operating the instrument, you are often required to enter or select
parameters. Editing windows appear on the screen when necessary to show the values
of parameters and allow you to change them.

4.4 Front Panel Buttons

The functions of the front panel buttons are described below and shown in Figure 3,
on previous page.

Soft Keys (2)

The four soft keys (F1–F4) just below the display are used to select menus or menu
functions. The functions of the soft keys are indicated in text just above the soft keys
on the display. The functions of the soft keys change depending on the selected menu.
Pressing the “EXIT” key allows the user to exit from a sub-menu or window and
returns to the previous menu or main screen.

Parts and Controls

Front Panel Buttons

Numeric Keys (3)

The ten number keys, the decimal point, and +/– keys are used to enter numeric data.

ENTER (7)

The “ENTER” key is used to enter a new parameter value or option or as a shortcut
key to the set-point menu while viewing the main screen. When the value of any pa­rameter is changed “ENTER” must be pressed to accept the new value. If the up/down
arrow, exit or menu buttons are pressed before “ENTER”, the cursor will leave the
parameter and any changes made to it will be canceled. Within a window with a list of
parameters, pressing “ENTER” will also move the cursor down to the next parameter.
If the cursor is at the bottom of the list, pressing “ENTER” with or without changing
the parameter will exit the window. The “ENTER” button may also be used during
some operations to afrm or continue with an action or choice.

NOTE: The “ENTER” button must always be pressed after changing a
parameter to accept the new value or option.

Menu (8)

The menu key allows the user to access all parameter and settings menus. From the
main menu, the user can use the soft keys to access submenus and functions.

EXIT (9)

The “EXIT” key is used to cancel an operation, exit a window, as a shortcut key to the
cutout menu while viewing the main screen, or return from a lower menu to a higher
menu. In any window, pressing “EXIT” will immediately exit the window and go to
the previous window or menu. If a parameter is entered or changed and “EXIT” is
pressed before “ENTER”, the change will be canceled. During some operations the
“EXIT” key may be used to cancel the operation. If a cutout condition exists, press the
“EXIT” key to access the Cutout menu. To reset the cutout, select the “RESET CUT­OUT” parameter and select “YES” using the 4 or 5 keys. Press “ENTER” to reset the

Cutout.

°C/°F (10)

The “C/F” key allows the user to change the display units from Celsius to Fahrenheit
and vice-versa while viewing the main screen.

Up/Down (21)Arrows (11)

The up and down arrow keys have three functions: move the cursor through a list of
parameters in a window, scroll through parameters list that is longer than can be dis­played, and, while viewing the main screen, change the contrast of the display.

23

917X Series Metrology Wells

Accessories

NOTE: Parameter entry will abort if the up or down arrow key is pressed
before “ENTER”. Therefore, the up or down arrow keys can be used to cancel a
parameter change.

Left/Right (4 5) Arrows (11)

The left and right arrow keys have three functions: move from digit to digit while
editing a parameter, select or change an option for some parameters, and change focus
from control to reference or from reference to control. Remember, “ENTER” must
always be pressed to save a new value or option selected.

4.5 Accessories

●

9170-CASE, Case, 9170–3 Carrying

●

9170-DCAS, Case, Transportation with wheels, 9170–3 Metrology Wells

●

9170-INSA, Insert, A, 9170, miscellaneous holes

●

9170-INSB, Insert, B, 9170, comparison holes

●

9170-INSC, Insert, C, 9170, four 0.25 inch holes

●

9170-INSD, Insert, D, 9170, metric, miscellaneous holes

●

9170-INSE, Insert, E, 9170, metric, 0.25 inch reference, miscellaneous holes

●

9170-INSF, Insert, F, 9170, metric, 0.25 inch reference, comparison holes

●

9170-INSG, Insert, G, 9170, EA testing

●

9170-INSY, Insert, Custom, 9170

●

9170-INSZ, Insert, Blank, 9170

●

9171-INSA, Insert, A, 9171, miscellaneous holes

●

9171-INSB, Insert, B, 9171, comparison holes

●

9171-INSC, Insert, C, 9171, four 0.25 inch holes

●

9171-INSD, Insert, D, 9171, metric miscellaneous holes

●

9171-INSE, Insert, E, 9171, metric,0.25 inch reference, miscellaneous holes

●

9171-INSF, Insert, F, 9171, metric, 0.25 inch reference, comparison holes

●

91710-INSG, Insert, G, 9171, EA testing

●

9171-INSY, Insert, Custom, 9171

●

9171-INSZ, Insert, Blank, 9171

●

9172-INSA, Insert, A, 9172, miscellaneous holes

●

9172-INSB, Insert, B, 9172, comparison holes

●

9172-INSC, Insert, C, 9172, four 0.25 inch holes

●

9172-INSD, Insert, D, 9172, metric miscellaneous holes

●

9172-INSE, Insert, E, 9172, metric, 0.25 inch reference, miscellaneous holes

●

9172-INSF, Insert, F, 9172, metric, 0.25 inch reference, comparison holes

●

9172-INSG, Insert, G, 9172, EA testing

●

9172-INSY, Insert, Custom, 9172

24

Parts and Controls

Insert “A” Insert “B” Insert “C”

Insert “D” Insert “E” Insert “F”

Accessories

●

9172-INSZ, Insert, Blank, 9172

●

9173-INSA, Insert, A, 9173, miscellaneous holes

●

9173-INSB, Insert, B, 9173, comparison holes

●

9173-INSC, Insert, C, 9173, four 0.25 inch holes

●

9173-INSD, Insert, D, 9173, metric miscellaneous holes

●

9173-INSE, Insert, E, 9173, metric, 0.25 inch reference, miscellaneous holes

●

9173-INSF, Insert, F, 9173, metric, 0.25 inch reference, comparison holes

●

9173-INSG, Insert, G, 9173, EA testing

●

9173-INSY, Insert, Custom, 9173

●

9173-INSZ, Insert, Blank, 9173

1/4

3/16

3/8

4

66

3

Figure 4

1/4

1/4

1/8

3

4

3/8

10

Metrology Well insert options. Probe sizes indicated in inches for A, B, and C, and mil-

limeters for sleeves D, E, and F except for 0.25 inch reference holes in E and F.

3/16

1/4

3/16

3/8

1/4

3

.25"

8

6

4

1/4

1/4

1/4

3

6

4

1/4

1/41/4

4

.25"

3

.228"

.199" .199"

.228"

.199" .199"

.228"

Insert “G”

.228"

25

917X Series Metrology Wells

Accessories

26