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Specification Sheet SS-CP-2285-0600
June 2000
Issue 1
JOFRA
TM
ATC Series
Dry Block
Temperature Calibrators
G
Temperature Ranges
-
ATC-155 -24° to 155°C (-11° to 311°F)
-
ATC-320 50° to 320°C (122° to 608°F)
-
ATC-650 50° to 650°C (122° to 1202°F)
G
Dual-Zone Heating Block
- Ensures Temperature Homogeneity Throughout the Block
- Performance Equivalent to Liquid Temperature Bath
G
Enhanced Accuracy and Stability
- Built-in External Reference Sensor
- MVI Circuitry Ensures Stability Despite Mains
Supply Variations
G
Universal Inputs
- Handles Multiple Type Temperature Sensors
- No Need for Multiple Instruments
G
Automatic, Stand-Alone Calibration System
- Upload/Download Your Calibration Routines
PRODUCT DESCRIPTION
The JOFRA
TM
ATC Series (Advanced Temperature Calibrators) combine the accuracy of laboratory calibrators with the speed and portability of dry block calibrators. They feature an improved design for optimum performance and temperature homogeneity throughout the block.
The ATC Series calibrators are available in three different temperature ranges and each version in two models, A and B.
The ATC-155 features improved Peltier elements that use a
“Multi-Stage Technology” that improves the efficiency, and extends the life of the heating/cooling block.
The ATC-320 and ATC-650 models feature an innovative dual zone heating block designed for optimum performance and superior temperature homogeneity throughout the block. This new design delivers performance equivalent to a liquid temperature bath.
Each ATC dry-block calibrator may be used to perform fully automatic calibration routines without the use of an external computer. Use the computer for full upload and download capabilities. Units may also be supplied with an input for an external reference sensor and inputs for sensor under test.
All ATC calibrators feature RS232 serial communication interface.
FUNCTIONAL COMPARISON
Functions
Multi-Stage Peltier Heating Block l l
Dual Zone Heating Block
MVI - Mains Variance Immunity
Stability Indicator l l
Automatic Step Function l l
Calibration Software Included l l
RS232 Communications l l
Display Resolution 0.01° l l
Output for “Calibrator is Stable” l l
Insert Storage Compartment l l
Downloading of Calibration Work
Orders (Up to 20) l
Uploading of Calibration Result to
Personal Computers
Input for RTD, TC, V, mA, Switch
24VDC Transmitter Supply
Reference Sensor Input
Automatic Switch Test l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l
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Specification Sheet SS-CP-2285-0600
June 2000
Issue 1
Precision Temperature Modulation (ATC-320/650)
The ATC Series calibrators provide precision temperature calibration of sensors, whatever the type or format. This is accomplished through an innovative dual-zone heating block.
The ATC-320 and ATC-650 feature a dual-zone heating block.
Each heating zone is independently controlled for precision temperature measurement. The homogeneity in the lower part of the block is close to that of a laboratory liquid bath. The lower zone ensures optimum heat dissipation throughout the entire block. The upper zone compensates for heat loss from the sensor-under-test and from the top of the block. This design also eliminates the need for insulating the sensors-under-test and makes it possible to calibrate liquid-filled and other mechanical sensors.
Optimum Temperature Stability (ATC-320/650)
Unstable mains power supplies are a major contributor to onsite calibration inaccuracies. Traditional temperature calibrators often become unstable in production environments where large electrical motors, heating elements and other devices are periodically turned “on” or “off”. The cycling of power can cause the temperature regulator to perform inconsistently leading to both inaccurate readings and unstable temperatures.
The ATC Series calibrators employ Mains Power Variance
Immunity (MVI) which removes stability problems by identifying variations in the mains input voltage. MVI circuitry continuosly monitors the input voltage and ensures that a constant energy flow to the heating block is supplied.
Dual Heating Block Schematic
Extended Heating Element Lifetime (ATC-155)
AMETEK uses “Multi-Stage Technology” where two Peltier elements are stacked. This makes the ATC-155 more efficient and extends the lifetime of the elements. The power source (for the Peltier elements) is a variable current controlled DC power supply that reduces the self-heating effect of the elements and increases the temperature range.
Optimum thermal conditions are maintained by a new high efficiency insulation layer around the entire aluminum block.
Heating and cooling is purely controlled through the electronic controlled Peltier elements.
- 2 -
Peltier Effect Schematic
Specification Sheet SS-CP-2285-0600
June 2000
Issue 1
Peltier Effect (ATC-155)
In 1834, Jean Peltier, a French physicist, found that an “opposite thermocouple effect” could be observed when an electric current was connected to a thermocouple. Heat would be absorbed at one of the junctions and discharged at the other junction. This effect is called the ”PELTIER EFFECT”.
The practical Peltier element (Electronic Heating Pump) consists of many elements of semiconductor material that are connected electrically in series and thermally in parallel. These thermoelectric elements and their electrical interconnections are mounted between two ceramic plates. The plates serve to mechanically hold the overall structure together and to electrically insulate the individual elements from one another.
High Accuracy ( model B only)
ATC Series calibrators may be supplied with a built-in reference thermometer for use with an external probe. This feature allows one instrument to provide the freedom and flexibility to perform calibrations at the process site while maintaining a high accuracy.
A special 90° angled external reference sensor is designed to accommodate sensors with a transmitter head, top connector or having similar arrangements. The user can decide whether to read the built-in reference sensor or the more accurate angled reference sensor from the calibrator’s large, easy-to-read LCD display. The external sensor and internal sensor are independent of one another. Downloading of reference sensor linearization is done via a personal computer.
Easy-To-Use, Intuitive Operation
All instrument controls are performed from the front panel.
The heat source is positioned away from the panel which helps protecting the operator.
The ATC keyboard is equipped with five, positive feedback function keys. These correspond to the text in the display and change functionality based on instrument operations. There are also dedicated function keys with permanent functions.
The easy-to-read, backlit display is large with a high contrast that is readible even in high ambient light conditions. The display is easily read from all angles and from a distance without parallax problems. The display also features icons which help identifing instrument conditions and operational steps.
Set Temperature
The “Set Temperature” feature allows the user set the exact desired temperature with a resolution of 0.01°.
Instrument Setups
The ATC Series allows the user to store up to nine (9) complete instrument setups. You may store all variables of information including temperature units, stability criteria, use of external reference sensor, resolution, sensor-under-test
(SUT), conversion to temperature, display contrast, etc. The setup may be recalled at any time.
Special 90° angled reference sensor
Set-Follows-True (Model B only)
Available on B Models only, the “SET-Follows TRUE” causes the instrument to tune in so that the temperature of the external reference “TRUE” is related to the desired “SET” temperature. This is used when it is critical that the temperature in the block should be matched to the desired temperature as measured with an accurate external reference sensor. This function is ideal for calibrating gas correctors or other custody transfer applications. It is extremely beneficial in the calculation process.
Automatic Calibration Routines (Model B only)
The ATC Series model B is equipped with built-in converters
(inputs) that measure virtually any type of temperature sensor including:
G thermostats
G resistance thermometers
G thermocouples
G transmitters
G milliamps (mA)
G voltage (V)
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Specification Sheet SS-CP-2285-0600
June 2000
Issue 1
ATC Series calibrators can be user-programmed for completely automated temperature calibrations. Once the unit is set up, the instrument operates itself by performing the configured calibration routine. All calibration data are stored and is available for uploading for generating exact calibration certificates or reports.
Simplified Calibration Documentation
All ATC Series calibrators are provided with the AMECAL-TEM-
PERATURE software. This WINDOWS
®
-based software lets the user customize their calibration routines. The software is easy to use so you don’t have to be a programmer to configure your calibration procedure. The software features prompts, menus and help functions that guide you through the configuration process.
Calibrations are collected and stored as “Work Orders” in a file and downloaded to the calibrator from a personal computer using a standard RS232 interface cable. The ATC calibrator stores the calibration procedure and may be taken out to the process site without the need of a personal computer.
This allows your ATC calibrator to:
G
Operate as a stand-alone instrument, using advanced calibration routines without the assistance of a personal computer on site;
G
Prevent unauthorized changes to a calibration routine.
Personnel who are not authorized to alter a calibration routine cannot do so.
As Found/As Left (model B only)
The JOFRA ATC Series calibrator automatically handles “As
Found/As Left” calibrations. The calibrator stores both results. The first performed calibration is “As Found” and the last performed calibration is the “As Left”, regardless of the number of calibrations/adjustments that may have been made in between.
Calibration (model B only)
Users may perform or read the results of the downloaded calibration tasks directly from the instrument. When calibrating an indicating device, users can key in the results during or after the test. Using the “Calibration Info” function, the user can view the complete calibration task, including the “Scenario” before the calibration takes place.
Once all calibrations are completed, the data may be uploaded to the AMECAL-TEMPERATURE software for post-processing and printing of certificates. The calibration data collected may be stored on the personal computer for later recall or analysis.
The AMECAL-TEMPERATURE software supports all JOFRA dry-block calibrators equipped with an RS232 serial data interface, the JOFRA DTI -1000 reference thermometer and applications using liquid baths, ice point or other dry-block heat sources. Using the software’s “SCENARIO” function, instruments may be combined in virtually any configuration.
SYNC Output
An output is located directly on the front of the ATC calibrator.
This output signals when the instrument is stable and may be used with ancillary devices including video recorder, digital camera or as an input to a data logging device. The SYNC output may be useful for automating and documenting your calibrations when calibrating reading devices.
- 4 -
MAX Temperature
Using the Setup menu, the user can select the maximum temperature limit. This function prevents the sensor under test from being destroyed by applying excessive temperatures.
It also helps reduce drift resulting from long extended periods at a high temperature. This feature can be locked with an access code.
Enhanced Stability
A stability indicator shows when the ATC calibrator has reached the desired temperature and is stable. The user may change the stability criteria, external reference and the unit under test quickly and simply. The stability criteria is the user’s security for a correct calibration. A count-down timer is displayed next to the temperature read-out.
Auto Stepping
Up to 20 different temperature steps may be programmed including the hold time for each step. Upon completion of an
Auto Step routine, the user can easily read the results for the sensor-under-test.Up to five (5) Auto Step results may be stored.
Switch Test (Model B only)
Users may perform a thermoswitch test and find “Open”,
“Closed” and the hysteresis (deadband) automatically. The instrument retains the last five tests. This information cannot be uploaded to a personal computer.
Specification Sheet SS-CP-2285-0600
June 2000
Issue 1
PHYSICAL SPECIFICATIONS
Instrument Dimensions (L x W x H)
352 x 156 x 360 mm
13.9 x 6.1 x 14.2 in
Instrument Weight
ATC-155A ............................................ 12.6 kg (27.8 lbs)
ATC-155B ............................................ 12.7 kg (28.0 lbs)
ATC-320-A ........................................... 10.1 kg (22.3 lbs)
ATC-320-B .......................................... 10.2 kg (22.5 lbs)
ATC-650-A ........................................... 12.0 kg (26.5 lbs)
ATC-650-B .......................................... 12.1 kg (26.7 lbs)
Insert Dimensions
Diameter ................................................ 30 mm (1.18 in)
ATC-155 Overall Length ...................... 150 mm (5.91 in)
ATC-155 Immersion Depth ................. 160 mm (6.30 in)
(including the insulation plug)
ATC-320/650 Overall Length ............... 160 mm (6.30 in)
ATC-320/650 Immersion Depth .......... 150 mm (5.91 in)
Weight of Non-Drilled Insert (Approximate)
ATC-155 ........................................................ 290 g (9 oz)
ATC-320/ATC-650 .................................... 940 g (29.2 oz)
Shipping Dimensions (L x W x H)
Without Optional Carrying Case but with all accessories
570 x 235 x 440 mm
22.4 x 9.3 x 17.3 in
Including Optional Carrying Case
659 x 309 x 514 mm
26.0 x 12.2 x 20.2 in
Shipping Weight
Including Optional Carrying Case
ATC-155 .............................................. 22.7 kg (50.0 lbs)
ATC-320 .............................................. 20.7 kg (45.6 lbs)
ATC-650 .............................................. 22.6 kg (49.8 lbs)
Serial Data Interface
................... RS232C (9-pin Male)
Operating Temperature
........ 0° to 40°C (32° to 104°F)
Storage Temperature
.............. -20 to 60 o
C (-4 to 140 o
F)
Humidity
..................................................... 0 to 90% RH
Protection Class
.................................................... IP-10
CE Conformance
EN61326-1 : 1997/A1:1998
EN61010-1 : 1993/A2:1995
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Specification Sheet SS-CP-2285-0600
June 2000
Issue 1
FUNCTIONAL SPECIFICATIONS
Power Voltage
ATC-155/320 ... 115VAC (90-127V) 230VAC (180-254V)
ATC-650 ........ 115VAC (100-127V) 230VAC (200-254V)
Power Frequency
45 - 65 Hz
Power Consumption (Maximum)
ATC-155 ................................................................ 200 VA
ATC-320/650 ....................................................... 1150 VA
Temperature Range
ATC-155
Maximum ................................................. 155°C (311°F)
Minimum @ ambient temp 0°C (32°F) ..... -40°C (-40°F)
Minimum @ ambient temp 23°C (73°F) ... -24°C (-11°F)
Minimum @ ambient temp 40°C (104°F) .. -12°C (10°F)
ATC-320 ............................ 50° to 320°C (122° to 608°F)
ATC-650 .......................... 50° to 650°C (122° to 1202°F)
Resolution (User-Selectable)
All temperatures and inputs may be displayed with 1°, 0.1° or
0.01°
Stability
ATC-155 ................................................ +0.02°C (+0.04°F)
ATC-320 ................................................ +0.02°C (+0.04°F)
ATC-650 ................................................ +0.03°C (+0.06°F)
Measured after the stability indicator has been on for 10 minutes.
Measuring time is 10 minutes.
Accuracy (Model B)
ATC-155 B ......................................... +0.04°C (+0.07°F)
ATC-320 B ......................................... +0.07°C (+0.13°F)
ATC-650 B ......................................... +0.11°C (+0.20°F)
12 month period. Specification for the external reference probe and the reference input.
Accuracy (Model A and B)
ATC-155 A+B ..................................... +0.19°C (+0.34°F)
ATC-320 A+B ..................................... +0.26°C (+0.47°F)
ATC-650 A+B ..................................... +0.39°C (+0.70°F)
12 month period. Specification by the use of the internal reference.
Radial Homogeneity (Difference Between Holes)
ATC-155 A+B ......................................... 0.02°C (0.04°F)
ATC-320 A+B ......................................... 0.01°C (0.02°F)
ATC-650 A+B ......................................... 0.05°C (0.09°F)
Cooling Time
ATC-155
155° to 100°C (311° to 212°F) ....................... 3 minutes
155° to 23°C (311° to 73°F) ......................... 13 minutes
23° to -24°C (73° to -11°F) ........................... 37 minutes
155° to -24°C (311° to -11°F) ....................... 50 minutes
ATC-320
320° to 100°C (608° to 212°F) .................... 22 minutes
320° to 50°C (608° to 122°F) ...................... 42 minutes
ATC-650
650° to 100°C (1202° to 212°F) .................. 43 minutes
650° to 50°C (1202° to 122°F) .................... 68 minutes
Heating Time
ATC-155
-24° to 23°C (-11° to 73°F) ............................. 4 minutes
23° to 155°C (73° to 311°F) ......................... 23 minutes
-24° to 155°C (-11° to 311°F) ....................... 27 minutes
ATC-320
50° to 320°C (122° to 608°F) ........................ 7 minutes
ATC-650
50° to 650°C (122° to 1202°F) .................... 27 minutes
Time to Stability (Approximate)
Time .............................................................. 10 minutes
Sync. Output (Dry Contact)
Switching voltage ............................... Maximum 30 VDC
Switching current ............................... Maximum 100 mA
Transmitter Supply (Model B Only)
Output voltage ............................................ 24VDC +10%
Output current ...................................... Maximum 25 mA
Transmitter Input mA (Model B Only)
Range: ........................................................... 0 to 24 mA
Accuracy (12 months) .......... +0.01% Rdg. +0.015% F.S.
Voltage Input VDC (Model B Only)
Range: .......................................................... 0 to 12VDC
Accuracy (12 months) ........ +0.005% Rdg. +0.015% F.S.
Switch Input (Model B Only)
Switch Dry Contacts
Test voltage ........................................... Maximum 5 VDC
Test current .......................................... Maximum 2.5 mA
RTD Reference Input (Model B Only)
Type ............. 4-wire RTD with true ohm measurements 1
F.S. (Full Scale) ................................................. 350 Ohm
Accuracy (12 months) ......... 0.003% Rdg. + 0.002% F.S.
RTD
Type
Pt100
Reference
Temperature
°C °F
-50
0
155
320
500
700
-58
32
311
592
932
1292
°C
12 Months
°F
+0.024
+0.026
+0.032
+0.038
+0.047
+0.056
+0.042
+0.046
+0.057
+0.068
+0.084
+0.101
Note
1
: As found on the JOFRA DTI-1000 Reference
Thermometer (eliminates the error from induced thermoelectrical voltages)
- 6 -
Thermocouple Input (Model B Only)
Range ................................................................ +78 mV
F.S. (Full Scale) .................................................... 78 mV
Accuracy (12 months) ........... 0.01% Rdg. + 0.005% F.S.
TC
Type
E
J
K
T
R
S
N
XK
U
-50
0
155
320
650
1768
-50
0
155
320
0
155
320
400
-50
0
155
320
650
1760
320
650
1200
-50
0
155
320
650
1372
-50
-50
0
155
320
650
1000
-50
0
155
650
800
-50
0
155
320
650
800
-50
0
155
320
600
Temperature
°C °F °C
12 Months
°F
32 +0.10
311 +0.09
592 +0.09
752 +0.10
-58 +1.31
32 +0.78
311 +0.50
592 +0.42
1202 +0.41
3200 +0.50
-58 +0.98
32 +0.78
311 +0.50
592 +0.46
1202 +0.45
3214 +0.52
-58 +0.16
32 +0.15
311 +0.14
592 +0.14
-58 +0.08
32 +0.07
311 +0.07
592 +0.08
1202 +0.11
1832 +0.15
-58 +0.10
32 +0.08
311 +0.08
592 +0.10
1202 +0.12
2192 +0.19
-58 +0.11
32 +0.10
311 +0.11
592 +0.12
1202 +0.16
2502 +0.28
-58 +0.12
1202 +0.16
1472 +0.17
-58 +0.07
32 +0.06
311 +0.06
592 +0.07
1202 +0.11
1472 +0.12
-58 +0.12
32 +0.10
311 +0.09
592 +0.09
1112 +0.10
+1.77
+1.40
+0.90
+0.83
+0.81
+0.94
+0.29
+0.27
+0.24
+0.25
+0.18
+0.16
+0.17
+0.17
+2.35
+1.40
+0.90
+0.75
+0.74
+0.90
+0.18
+0.19
+0.34
+0.20
+0.18
+0.20
+0.22
+0.28
+0.50
+0.22
+0.14
+0.12
+0.12
+0.14
+0.20
+0.28
+0.17
+0.14
+0.15
+0.28
+0.31
+0.13
+0.11
+0.12
+0.13
+0.19
+0.22
+0.21
+0.18
+0.17
+0.17
+0.19
If automatic cold junction compensation is used, the specification for CJ is +0.40°C (+0.72°F).
Specification Sheet SS-CP-2285-0600
June 2000
Issue 1
RTD Input (Model B Only)
Type of RTDs ........................................... 2-, 3- or 4-wire
F.S. (Range) ............................... 350 Ohm or 2900 Ohm
Accuracy (12 months) ......... 0.005% Rdg. + 0.005% F.S.
RTD
Type
Pt1000
Pt500
Pt100
Pt50
Temperature
°C °F
500
-50
0
155
320
650
700
-50
0
155
-50
0
155
320
500
-50
0
155
320
320
650
700
932
-58
32
311
592
1202
1292
-58
32
311
-58
32
311
592
932
-58
32
311
592
592
1202
1292
°C
12 Months
°F
+0.046
+0.050
+0.061
+0.071
+0.087
+0.083
+0.087
+0.100
+0.111
+0.130
+0.054
+0.058
+0.069
+0.079
+0.106
+0.112
+0.098
+0.103
+0.116
+0.128
+0.161
+0.169
+0.083
+0.090
+0.110
+0.127
+0.156
+0.149
+0.157
+0.180
+0.200
+0.235
+0.097
+0.104
+0.124
+0.142
+0.191
+0.202
+0.176
+0.185
+0.209
+0.230
+0.290
+0.303
All input specifications apply with the calibrator’s dry block running at the respective temperature (stable plus additional 20 minute period). Where the input measuring range is out of the calibrator’s range, the SET temperature is either
MIN or MAX.
EA-10/13 GUIDELINE
EA means European Accreditation. The purpose of this organisation is to maintain and develop multilateral agreements within member and non-member accreditation bodies to achieve universal acceptance of accredited certificates and reports and interchange of technical knowledge among the countries.
EA has given birth to a new “Guideline on the Calibration of
Temperature Block Calibrators”. Including a complete uncertainty budget. Publication reference is EA-10/13.
Besides measuring absolute temperature by representative set-points, the calibrator must also be investigated for the following: Axial temperature homogeneity, T e m p e r a t u r e difference between the borings, Influence upon the temperature in the measurement zone due to different loading,
Stability with time and Temperature deviation due to heat conduction.
AMETEK CALIBRATION INSTRUMENTS is convinced that This guideline will become the standard of how to specify/qualify a
Dry Block Temperature Calibrator in the future. The ATC series is already specified according to this guideline in a special document.
- 7 -
Specification Sheet SS-CP-2285-0600
June 2000
Issue 1
ORDERING INFORMATION
MODEL ATC SERIES DRY BLOCK TEMPERATURE CALIBRATORS
Order Number Description
ATC155A
ATC155B
ATC320A
ATC320B
ATC650A
ATC650B
ATC320B
115
230
I
A
B
C
D
E
F
G
H
115 B
M01
M02
M03
M04
M05
M06
125
187
025
312
375
437
562
625
009
010
011
012
013
014
015
016
003
004
005
006
008
XXX
Base Model Number- 1st thru 7th Characters
ATC-155 Series, -24° to 155°C (-11° to 311°F), Model A
ATC-155 Series, -24° to 155°C (-11° to 311°F), Model B
ATC-320 Series, 50° to 320°C (122° to 608°F), Model A
ATC-320 Series, 50° to 320°C (122° to 608°F), Model B
ATC-650 Series, 50° to 650°C (122° to 1202°F), Model A
ATC-650 Series, 50° to 650°C (122° to 1202°F), Model B
Power Supply- Size- 8th thru 10th Characters
115VAC, 50/60Hz
230VAC, 50 Hz
Mains Power Cable Type- 11th Character
EUROPEAN, 230V,
USA, 115V
UK, 240V
SOUTH AFRICA, 220V
ITALY, 220V
AUSTRALIA, 240V
DENMARK, 230V
SWITZERLAND, 220V
ISRAEL, 230V
Insert Type and Size- 12th thru 14th Characters
Metric, Pre-drilled, 3 mm
Metric, Pre-drilled, 4 mm
Metric, Pre-drilled, 5 mm
Metric, Pre-drilled, 6 mm
Metric, Pre-drilled, 8 mm
Metric, Pre-drilled, 9 mm
Metric, Pre-drilled, 10 mm
Metric, Pre-drilled, 11 mm
Metric, Pre-drilled, 12 mm
Metric, Pre-drilled, 13 mm
Metric, Pre-drilled, 14 mm
Metric, Pre-drilled, 15 mm
Metric, Pre-drilled, 16 mm
Inch, Pre-drilled, 1/8 in
Inch, Pre-drilled, 3/16 in
Inch, Pre-drilled, 1/4 in
Inch, Pre-drilled, 5/16 in
Inch, Pre-drilled, 3/8 in
Inch, Pre-drilled, 7/16 in
Inch, Pre-drilled, 9/16 in
Inch, Pre-drilled, 5/8 in
Metric, Multi-Holed, No. 1 (5 x 4 mm)
Metric, Multi-Holed, No. 2 (5 x 6 mm, 1 x 4 mm)
Metric, Multi-Holed, No. 3 (8 x 3 mm, 1 x 6 mm, 1 x 4 mm)
Metric, Multi-Holed, No. 4 (1 x 3 mm, 1 x 4 mm, 1 x 5 mm, 2 x 6 mm, 1 x 9 mm)
Inch, Multi-Holed, No. 5 (5 x 1/4 in and 1 x 4 mm)
Inch, Multi-Holed, No. 6 (1 x 1/8 in, 1 x 3/16 in, 2 x 1/4 in, 1 x 3/8 in, 1 x 4 mm)
A
C
E
M
R
S
X
025 ACR
Customer Special
Options- 15th thru 17th Characters
Basic Accessory Kit
Carrying Case
Extended Accessory Kit, English
Extended Accessory Kit, Metric
90° Angled Reference Probe, with Accredited Certificate
90° Angled Reference Probe, No Certificate
Not Used
Sample Order Number
ACT-320-B Series Dry Block Calibrator, 115VAC power with USA Power Cord and
Pre-drilled 1/4-inch Insert. Includes Basic Accessory Kit, Carrying Case and Reference probe.
- 8 -
STANDARD DELIVERY
ATC-155, ATC-320 and ATC-650
Model A and B instruments contain the following standard items: q
ATC Dry Block Calibrator. (User Specified) q
Mains Power Cable (User Specified) q
Traceable Certificate - Temperature Performance q
Insert (User Specified) q
3 Pcs. Insulation plugs for 6, 10, 16 mm sensors (ATC-155 only) q
Tool for Insertion tubes q
RS-232 Cable q
Software, AMECAL-TEMPERATURE q
Software, AMETRIM-ATC to adjust the ATC Series Instruments q
Users’ Manual (Multi-Language) q
Reference Manual (English)
Model B instruments contain the following extra items: q
Test Cables (2x Red, 2x Black) q
Traceable Certificate - Input Performance
Specification Sheet SS-CP-2285-0600
June 2000
Issue 1
COMPUTER REQUIREMENTS
AMECAL-TEMPERATURE and AMETRIM-ATC
Listed are the minimum hardware requirements needed for running the AMECAL-TEMPERATURE calibration software and the AMETRIM-
ATC adjusting software: q
INTEL
TM
486 processor (PENTIUM
TM
200 MHz recommended) q
16 MB RAM (32 MB recommended) q
40 MB free disk space on hard disk prior to installation q
Standard VGA (640x480, 16 colors) compatible screen
(800x600 256 colors recommended) q
CD-ROM drive for installation of the program q
1 or 2 free RS232 serial ports, depending on configuration
CALIBRATION ACCESSORY KITS
Calibration Kits are available which contain various supplies required for a complete calibration system. These kits may be ordered with the instrument as an option or may be ordered separately. Three kits are available.
Basic Calibration Kit
This kit contains a heat protection shield, cleaning brushes
(4 mm, 6 mm and 8 mm), undrilled inserts with 4 mm reference hole
(3 pcs.) and a Self-Drilling Guide for Inserts.
Extended Calibration Kits
Two extended calibration kits are available (Metric and Inches). Both kits contain a heat protection shield, assorted cleaning brushes
(3 pcs.), multi-hole insert no. 4 or 6 (ATC-155 kits includes multi-hole insulation plug), undrilled inserts with 4 mm reference hole (3 pcs.) and a Self-Drilling Guide for Inserts.
ATC-155 SERIES CALIBRATION ACCESSORY KITS
PART NO.
122833
122835
122837
DESCRIPTION
Basic Calibration Accessory Kit
Extended Calibration Accessory Kit (Metric)
Extended Calibration Accessory Kit (Inches)
ATC-320 AND ATC-650 SERIES CALIBRATION ACCESSORY KITS
PART NO.
122834
122836
122838
DESCRIPTION
Basic Calibration Accessory Kit
Extended Calibration Accessory Kit (Metric)
Extended Calibration Accessory Kit (Inches)
- 9 -
Specification Sheet SS-CP-2285-0600
June 2000
Issue 1
INSERTS- UNDRILLED
ATC-155 SERIES
PART NO.
122720
122722
DESCRIPTION
5 Pack, Undrilled Insertion Tubes
5 Pack, Undrilled Insertion Tubes
+ 4 mm Hole for Reference Probe
ATC-320 AND ATC-650 SERIES
PART NO.
122719
122721
DESCRIPTION
5 Pack, Undrilled Insertion Tubes
5 Pack, Undrilled Insertion Tubes
+ 4 mm Hole for Reference Probe
INSERTS- PRE-DRILLED- METRIC
ATC-155 SERIES
PART NO.
SIZE
ATC-320 SERIES
PART NO.
SIZE
105623
105625
105627
105629
105631
105633
3 mm
4 mm
5 mm
6 mm
7 mm
8 mm
105622
105624
105626
105628
105630
105632
3 mm
4 mm
5 mm
6 mm
7 mm
8 mm
105635
105637
105639
9 mm
10 mm
11 mm
105634
105636
105638
9 mm
10 mm
11 mm
105641
105643
105645
12 mm
13 mm
14 mm
105640
105642
105644
12 mm
13 mm
14 mm
105647 15 mm 105646 15 mm
105649 16 mm 105648 16 mm
Note: All inserts (metric and inches) are supplied with a hole for the 4 mm OD Reference Probe.
ATC-650 SERIES
PART NO.
105622
105624
105626
105628
105630
105632
105634
105636
105638
105640
105642
105644
105646
105648
SIZE
9 mm
10 mm
11 mm
12 mm
13 mm
14 mm
15 mm
16 mm
3 mm
4 mm
5 mm
6 mm
7 mm
8 mm
INSERTS- MULTI-HOLE- METRIC
ATC-155 SERIES ATC-320 SERIES ATC-650 SERIES
PART NO.
INSERT NO.
PART NO.
INSERT NO.
122751
122753
122755
122757
No. 1
No. 2
No. 3
No. 4
122750
122752
122754
122756
No. 1
No. 2
No. 3
No. 4
Note: All Multi-hole inserts (metric and inches) for ATC-155 are supplied with a matching insulation plug.
PART NO.
INSERT NO.
122750
122752
122754
122756
No. 1
No. 2
No. 3
No. 4
INSERTS- MULTI-HOLED- METRIC LAYOUTS
4 mm
Reference
Probe Hole
4 mm
Reference
Probe Hole
4 mm
6 mm
4 mm
4 mm
4 mm
Multi-Hole No. 1
P/N 122750
P/N 122751 (ATC-155)
6 mm
4 mm
Reference
Probe Hole
3 mm
3 mm
3 mm
6 mm
6 mm
Multi-Hole No. 2
P/N 122752
P/N 122753 (ATC-155)
6 mm
3 mm
3 mm
3 mm
3 mm
6 mm
3 mm
Multi-Hole No. 3
P/N 122754
P/N 122755 (ATC-155)
6 mm
4 mm
Reference
Probe Hole
3 mm
9 mm
6 mm
5 mm
4 mm
Multi-Hole No. 4
P/N 122756
P/N 122757 (ATC-155)
- 10 -
Specification Sheet SS-CP-2285-0600
June 2000
Issue 1
INSERTS- UNDRILLED
General Insert decription
All inserts for ATC-155 are made of aluminum
All inserts for ATC-320 and ATC-650 are made of brass.
4 mm
Reference
Probe Hole
All specifications about hole size are referring to the outer diameter of the sensor-under-test.
The correct clearance size is applied in all predrilled inserts
INSERTS- PRE-DRILLED- INCHES
ATC-155 SERIES
PART NO.
SIZE
ATC-320 SERIES
PART NO.
SIZE
105677
105679
105681
105683
105685
105687
1/8 in
3/16 in
1/4 in
5/16 in
3/8 in
7/16 in
105676
105678
105680
105682
105684
105686
1/8 in
3/16 in
1/4 in
5/16 in
3/8 in
7/16 in
105689
105691
105693
1/2 in
9/16 in
5/8 in
105688
105690
105692
1/2” in
9/16 in
5/8 in
Note: All inserts (metric and inches) are supplied with a hole for the 4 mm OD Reference Probe.
ATC-650 SERIES
PART NO.
105676
105678
105680
105682
105684
105686
105688
105690
105692
SIZE
1/8 in
3/16 in
1/4 in
5/16 in
3/8 in
7/16 in
1/2 in
9/16 in
5/8 in
INSERTS- MULTI-HOLE- INCHES
ATC-155 SERIES ATC-320 SERIES ATC-650 SERIES
PART NO.
INSERT NO.
PART NO.
INSERT NO.
122759
122761
No. 5
No. 6
122758
122760
No. 5
No. 6
Note: All Multi-hole inserts (metric and inches) for ATC-155 are supplied with a matching insulation plug.
PART NO.
INSERT NO.
122758
122760
No. 5
No. 6
INSERTS- MULTI-HOLED- IMPERIAL LAYOUTS
4 mm
Reference
Probe Hole
1/4 in
1/4 in
1/4 in
1/4 in
4 mm
Reference
Probe Hole
3/8 in
1/4 in
1/4 in
Multi-Hole No. 5
P/N 122758
P/N 122759 (ATC-155)
1/8 in
3/16 in
Multi-Hole No. 6
P/N 122758
P/N 122751 (ATC-155)
1/4 in
- 11 -
ACCESSORIES
PART NO.
DESCRIPTION
105446
105447
105805
122832
60F174
122822
60D711+712
122771
60F135
60F139
60F138
60F137
60F141
60F140
60F143
ATC Series, Reference Manual
ATC Series, User Manual
Carrying Case
Cleaning Brush, 4 mm (3/Pkg)
Cleaning Brush, 6 mm (3/Pkg)
Cleaning Brush, 8 mm (3/Pkg)
Connector, Lemo (Male) for Reference input
Cable (4.3 to 5.1 mm diameter)
Connector, Mini Jack, for “stable” relay output
Mains Cable, 115V, USA, Type B
Mains Cable, 220V, Australia, Type F
Mains Cable, 220V, Italy, Type E
Mains Cable, 220V, South Africa, Type D
Mains Cable, 230V, Denmark, Type G
Mains Cable, 230V, Europe, Type A
Mains Cable, 230V, Israel, Type I
60F142
60F136
122823
122801
Mains Cable, 230V, Switzerland, Type H
Mains Cable, 240V, UK, Type C
Reference Input Cable, Lemo to Banana
Reference Probe Cable, Lemo to Lemo (0.5 m)
75-PT100-90DEG Reference Probe, with Accredited Certificate
65-PT100-90DEG Reference Probe, No Certificate
105366
104203
RS232 Cable
Test Cable Set (Model B Only)
105496
120519
120517
120514
120515
60F170
105810
105813
Heat Shield
Thermocouple, Type Cu-Cu, Male Plug
Thermocouple, Type K, Male Plug
Thermocouple, Type N, Male Plug
Thermocouple, Type T, Male Plug
Tool for Insertion Tube
Insulation Plug (ATC-155 Series Only) 3 pcs.
for 6 mm (1/4 in), 10 mm (3/8 in), 16 mm (5/8 in)
AMECAL-TEMPERATURE Software
Accesssories
An external heat shield is available and may be placed on top of the calibrator to reduce the hot air stream around the sensor under test.
This is especially important for testing thermocouples having head-mounted transmitters with cold-junction compensation.
The optional protective carrying case helps ensure safe transporation and storage of the instrument and all associated equipment,
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