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INSTRUCTION MANUAL
Cole-Parmer
19060 Series
EC Meter
Printed in the U.S.A. 03/98
Date:___________________
Serial No.:_____________
Dwg. No.:_______________
Calibrated By:__________
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Table of Contents
Warranty Information, Shipping Checklist page 2
Shipping checklist continued page 3
Cells, Calibration Solution & Introduction page 3
Intro. continued, Conductivity, Resistivity & TDS page 4
Salinity (19060-10 only), Temperature page 5
Operation, Placement of Instrument, Specifications page 5
Specifications continued page 6
Specifications continued page 7
Power entry module, RS232 & Software diskette page 8
Diskette continued, Analog Recorder Output (19060-10) page 9
Front Panel Controls page 9
Front & Rear Panel Controls, Conductivity Cells page 10
Conductivity Cells cont., Cleaning Cells page 11
Cell Constant page 11
Cell Constant Adjust, Calibration page 12
Making Conductivity, Resistivity & TDS Measurements page 13
Making Salinity Measurements (19060-10 only) page 14
Checking instrument accuracy, Solutions & Literature page 14
Declaration of Conformity for CE mark page 15
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WARRANTY:
COLE PARMER warrants this product to be free from defects in materials
and workmanship for a period of one year from date shipped. Warranty
will be allowed whenever possible, however all warranty claims will be
reviewed by COLE PARMER.
This warranty shall not apply to fuses, disposable batteries
(rechargeable type batteries, pH electrodes, temperature probes and
conductivity cells are warranted for 90 days) or any product or part
which have been subject to misuse, neglect, tampering, accident or
abnormal conditions of operations.
COLE PARMER is pleased to offer suggestions on the use of this product;
however, we have no control over its use or intended use. No
representation or warranty, whether of merchantability, fitness for any
particular purpose is made beyond the repair, replacement or refund of
purchase price at the sole discretion of COLE PARMER. In no event shall
COLE PARMER be liable for special or consequential damages for injury to
person or property which may result from the use of this product. Users
shall determine the suitability of this product for its intended
applications before using and users shall assume all risks and liability
whatsoever in connection therewith regardless of our suggestions as to
applications or constructions.
RETURN OF ITEMS:
Authorization should be obtained from our Customer Satisfaction
Department (Call - 1-800-323-4340) before returning any item for any
reason. When applying for authorization, please include any data
regarding the reason the item is being returned. All items must be
carefully packed as to prevent shipping damage, and insured against loss
and shipping damage. COLE PARMER will not be responsible for any
shipping damage. Items being returned without prior authorization may
not be accepted.
NOTE:
COLE PARMER reserves the right to make changes in specifications,
designs, construction and appearance of our products without notice.
SHIPPING CHECKLIST:
Upon receipt, the instrument should be carefully unpacked and inspected
for shipping damage. All materials in the container should be checked
against the enclosed packing list. If the instrument has been damaged
in transit, you must file a damage claim with the carrier. Please
retain all packing material and carton.
MODEL 19060-00 Packing includes the following:
Model 19060-00 Conductivity Meter
U.S. Standard Power Cord (removable)
Fuses [2] (1/16 amp) for optional 230 VAC operation
Ferrite Shield [2] see page 15
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Instruction Manual
SHIPPING CHECKLIST CONTINUED:
Model 19060-10 Packing includes the following:
Model 19060-10 Conductivity Meter with RS232 & Recorder Output
U.S. Standard Power Cord (removable)
Fuses [2] (1/16 amp) for optional 230 VAC operation
Analog Recorder Connector
Software diskette (For PC data logging)
Ferrite Shield [2] see page 15
Instruction Manual
CELLS:
Order cells separately
Four wire cell with embedded thermistors
Cell Constant approximately 10 cm -1
Au cells are best suited for high purity solutions
Multipurpose cells are combination dip and flow
19060-51 Dip Cell (Au) with 48” cable
19060-52 Dip Cell (Pt) with 48” cable
19060-53 Multipurpose cell (Au) with 48” cable
19060-54 Multipurpose cell (Pt) with 48” cable
19060-55 Multipurpose cell (Au) with 2 meter cable
19060-56 Multipurpose cell (Pt) with 2 meter cable
01481-11 Platinizing Station for replatinizing (Pt) cells
(does not include ASTM D1125 Platinizing Solution)
CALIBRATION SOLUTION:
See our General Catalog for available Conductivity Calibration
Solutions.
INTRODUCTION:
The model 19060-00 is a bench top microprocessor based multifunction
meter designed for the measurement of conductivity and temperature of
aqueous solutions. This conductivity meter has six ranges, each from 0
to 3300 counts and is displayed on a large sixteen character dot matrix
liquid crystal display. All instruments are shipped from the factory
for 115 VAC line operation. The power entry module on the rear panel
can be easily changed for 230 VAC operation when necessary.
This meter features four front panel controls, one for manual range
selection or auto ranging. One for function selection of conductivity,
resistivity, TDS, self-test or standby. One for parameter selection of
reference temperature, temperature coefficient, cell constant and TDS
multiplier. The last front panel control is for the display and setting
of the parameters as well as transmit on command (transmit on command
for model 19060-10 only).
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INTRODUCTION CONTINUED:
The model 19060-10 has an additional function of Salinity, RS232 output
for a serial printer or PC data display, logging and printing. An
analog output of conductance and temperature for strip chart recording.
CONDUCTIVITY:
The basic unit of resistance is the ohm, conductance is the reciprocal
of resistance, its basic unit of measurement is the mho (international
system of units for mho is Siemens [S]).
In the measurement of aqueous solutions, conductivity is based on the
reciprocal of the resistance of a 1-cm cube of material measured between
opposite faces. This is a cell constant of 1. Conductivity cells
usually consist of two metallic plates of a determined size mounted in a
defined area. The cell constant “K” is the length “L” (or distance
between the plates) of the conducting path in centimeters divided by the
effective cross sectional area “A” of the conducting path in square
centimeters (K=L/A). The resistance of conductor is inversely
proportional to its cross sectional area and directly proportional to
its length.
The model 19060-00, -10 is designed to use a cell with a constant of 10
cm-1. The instrument’s cell constant parameter setting is adjustable
from 8.00 to 12.00.
Conduction in aqueous solutions is by ionic movement and increases with
temperature. This change is expressed in percent per degree “C”
relative to a reference temperature normally 25.0°C and is commonly
called the slope.
The model 19060-00, -10 has Automatic Temperature Compensation for slope
correction with reference temperature parameter adjustable from 12 to
28°C, temperature coefficient parameter adjustable from 0 to 12.5% per
degree C and displays conductivity in mS or mS.
RESISTIVITY:
The model 19060-00, -10 displays resistivity as a reciprocal of the
conductivity. Resistivity’s basic unit of measurement is the ohm.
Model 19060-00, -10 displays resistivity in MW and KW.
TOTAL DISSOLVED SOLIDS:
The Total Dissolved Solids (TDS) in a solution does not change with
temperature. Conductivity is sensitive to temperature. The Model
19060-00, -10 automatically calculates the TDS from the conductivity
reading by applying the appropriate factor that the user sets or by
using the preset parameter. The TDS multiplier is adjustable from 40%
to 125% and displays TDS in PPM (Parts P
Thousand).
er Million) or PPT (Parts Per
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SALINITY: (MODEL 19060-10 ONLY)
Conductivity may also be used to determine the Salinity of sea water in
Practical Salinity U
42 SU (salinity units) at one atmosphere when solution temperature is
between 0 and 30°C.
nits (SU). The 19060-10 displays salinity from 2 to
TEMPERATURE:
Temperature of the solution is displayed in degree [C] Celsius. Each
conductivity cell has embedded thermistors for temperature
determination. The temperature range is from 0°C to 70°C and will
display to the right of the conductivity or resistivity (and salinity,
Model 19060-10 only) measurement.
OPERATION:
The next section in this manual contains operating information and
should be read before installing and using the instrument. If you have
questions, please contact the COLE PARMER Applications Department at (1800-323-4340 or 847-549-7600) for assistance.
PLACEMENT OF INSTRUMENT:
Place the instrument on a dry flat surface. The instrument may also be
secured on or under a shelf using the two pre drilled holes in the tilt
stand/handle. Apply correct power to the instrument. See rear panel of
instrument for power requirement and the section under “Power Entry
Module” for more information. Do not operate the instrument in direct
sunlight, extreme temperatures, electromagnetic fields or in explosive
or corrosive atmospheres. Do not allow fluids to run into the
instrument.
SPECIFICATIONS:
CONDUCTIVITY RANGE:
Manual and Auto Range from .001 mS to 330.0 mS
Range Full Scale Resolution Accuracy
A 0-3.300 mS .001 mS 0.3%
B 0-33.00 .01 0.2%
C 0-330.0 .1 0.1%
D 0-3.300 mS .001 mS 0.1%
E 0-33.00 .01 0.2%
F 0-330.0 .1 0.3%
AUTO 0-330.0 mS .001 mS to .1 mS
Auto range up range @ 3300 down range @300
SPECIFICATIONS CONTINUED:
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CELL DRIVE:
Low distortion sine wave
Current @
Range Frequency Amplitude Mid Range
A 33 Hz 1.6 V RMS .264 mA
B 130 Hz 1.6 V RMS 2.64 mA
C 510 Hz 1.6 V RMS 26.4 mA
D 2.2 KHz .16 V RMS 26.4 mA
E 8.8 KHz .16 V RMS .264 mA
F 31 KHz .16 V RMS 2.64 mA
RESISTIVITY RANGE:
Manual and Auto range from 33.33 M ohms to 3.03 K ohms (as a function of
conductivity)
Resistivity - displayed in A, B & C Range only
Range
A 33.33 MW to 3.34 MW
3.333 MW to .303 MW
B 3.333 MW to .334 MW
333.3 KW to 30.3 KW
C 333.3 KW to 33.4 KW
33.33 KW to 3.03 KW
AUTO 33.33 MW to 3.03 KW
TDS RANGE:
Manual and Auto range displays in PPM or PPT TDS (as a function of
conductivity and the TDS multiplier).
SALINITY RANGE (MODEL 19060-10 ONLY):
2.0 TO 42.0 SU (Practical Salinity Units)
Range automatically set to “F”
Reference Temperature automatically set to 15.0°C
Temperature Range 0.0 to 30.0°C
Temperature Coefficient function of algorithm
Accuracy 0.3% + 1 digit
TEMPERATURE RANGE:
0.0°C to 70.0°C (temperature displays with conductivity & resistivity)
SPECIFICATIONS CONTINUED:
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TEMPERATURE ACCURACY:
Plus or minus .2°C
PARAMETERS:
Cell Constant adjustable from 8.00 to 12.00 (displayed in Self Test)
Ref. Temperature adjustable from 12.0°C to 28.0°C
Temp. Coefficient adjustable from .00 to 12.50%
TDS Multiplier adjustable from .400 to 1.250
STANDBY function will retain the last parameter settings and may be used
in place of power off to blank the display yet retain all parameter set
points.
PRESET PARAMETERS:
POWER ON Parameters are reset to:
Reference Temperature 25.0°C
Cell Constant 10.00 cm-1
Temperature Coefficient 1.91%
TDS Multiplier 0.625
AUTO ZERO:
Auto zero check is made at POWER ON, when switching from SELF TEST and
STANDBY.
DISPLAY:
Dot matrix LCD, .317” character height, 16 characters
ENVIRONMENTAL LIMITS:
Temperature 5 to 45°C (41 to 113°F)
Humidity 10 to 90% (relative, non condensing)
POWER REQUIREMENTS:
Less than 3.5 watts
105 to 125 VAC 60 Hz 1/8 amp Fuse (Fast-Acting)
210 to 250 VAC 50 Hz 1/16 amp Fuse (Fast-Acting)
A removable U.S. standard power cord set with international IEC 320
connector is supplied.
SPECIFICATIONS CONTINUED:
POWER ENTRY MODULE [PEM]:
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International safety recognized power entry module and transformer can
be changed for either 115 VAC or 230 VAC operation.
The instrument is shipped from the factory for 115 VAC operation.
If it is necessary to change to 230 VAC operation:
Disconnect power cord from outlet and instrument. Use a small flat
blade screwdriver to open the cover on the power entry module (Fuse
Access Panel).
Use the screwdriver to carefully remove the fuse holder. Replace the
(2) 1/8 amp fuses with (2) IEC Type “F” 1/16 amp fuses (supplied).
Rotate 180° and insert fuse holder into PEM and with Access Panel Door
closed, 230 V should appear in window.
RS232 OUTPUT: (MODEL 19060-10 ONLY)
RS232 output can transmit automatically or on command. Automatic mode
transmits measurement data, command mode transmits measurement data or
parameter settings. RS232 output is disabled in SELF TEST, STANDBY, and
during auto zero check. Software diskette supplied with Model 19060-10
only.
Output data with meter connected directly to a serial printer or a PC
serial port. Data is in ASCII format, 9600 baud, 8 data bits, no parity
and 2 stop bits.
DB-9 Pin assignment: Pin 2 Data Out, Pin 3 Force print command in, Pin
5 Ground.
NOTE: See page 10 for RS232 transmit command information.
SOFTWARE DISKETTE: (MODEL 19060-10 ONLY)
This program is designed to monitor and record data from your
conductivity meter via a serial connection.
To install EC Meter Data Recorder program on your computer:
At DOS prompt insert disk in appropriate drive (A or B): enter, at
prompt type INSTALL enter.
Edit drive if not “C” enter. Edit Com port if not “1” enter.
Type drive (C or ?): at the prompt type CD\ECMETER enter, at prompt type
ECMETER enter.
A command list is displayed at the bottom of the screen which allows the
user to setup the com port and activate functions. With exception of
the Enter and ESC key, all commands are activated by first pressing and
holding down the ALT key and then pressing a letter key.
SOFTWARE DISKETTE CONTINUED: (MODEL 19060-10 ONLY)
<ESC = Quit>: Ends program and returns to DOS.
<Enter = Force Print>: Transmit print command to EC Meter.
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<ALT-H = Help>: Access Help file.
<ALT-R = Record file>: Will prompt you to enter a file name, choose to
start a new file or append to a file, and then
will begin recording the same data that is
received by the com port into the file.
<ALT-Q = Quit record>: Will quit recording and close recording file.
<ALT-P=Printer on/off>: This will enable the LPT1 printer port to
receive com port data. Printer status is
displayed at the lower right corner of the
screen.
<ALT-S=Select Com Port>:Changes setup of Com Port from 1 to 2 or 2 to 1
by F1 key.
ANALOG RECORDER OUTPUT: (MODEL 19060-10 ONLY)
Conductance 0 to 3 V
Temperature 0 to 1 V
FRONT PANEL CONTROLS:
RANGE:
The RANGE switch is seven positions for selecting A through F range with
Auto range in the center. When auto ranging, the display will read
RANGE CHANGE and the STANDBY L.E.D. will blink momentarily.
FUNCTION:
The 19060-00 FUNCTION switch is five positions for selecting SELF TEST,
RESISTIVITY, CONDUCTIVITY, TDS and STANDBY. The 19060-10 has one
additional for SALINITY. The SELF TEST mode replaces the conductivity
cell with a precision resistor of a value that will display the cell
constant parameter setting + 1 digit. STANDBY function will retain the
last parameter settings and may be used in place of power off to blank
the display, yet retain all parameter set points.
PARAMETERS:
The PARAMETER switch is four positions for selecting REFERENCE
TEMPERATURE, CELL CONSTANT, TEMPERATURE COEFFICIENT and the TDS
MULTIPLIER.
FRONT PANEL CONTROLS CONTINUED:
PUSH TO DISPLAY/SET:
The PUSH TO DISPLAY knob has two functions. The first function will
display the parameter setting (Ref. Temp., Cell Constant (cell constant
displays momentarily) Temp. Coeff., or TDS multiplier) when pushed. The
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second function the PUSH TO DISPLAY knob has, will allow the parameters
to be set. Once the knob is pushed and the L.E.D. lights (2 second
delay) the user can adjust the parameter settings. NOTE: When in TDS
function, CELL CONSTANT parameter cannot be changed and when in
RESISTIVITY function, no parameters can be changed. When in SALINITY
(Model 19060-10 only) function, REFERENCE TEMPERATURE and TEMPERATURE
COEFFICIENT parameter cannot be changed.
STANDBY function will retain the last parameter settings and may be used
in place of power off to blank the display yet retain your parameter set
points. When power to the instrument is turned off and turned back on,
the parameters will return to the preset parameter mode Power on Reset).
PUSH TO DISPLAY/SET (MODEL 19060-10 ONLY):
The PUSH TO DISPLAY knob has the same two functions listed on previous
page as well as the RS232 transmit functions.
RS232 TRANSMIT:
A toggle switch on the rear panel of the instrument enables auto
transmit and push to transmit, at the same time disabling the PUSH TO
SET.
REAR PANEL CONTROL: TOGGLE SWITCH
Toggle switch ON, RS232 will transmit automatically with a two digit
change of the conductivity being measured.
Toggle switch ON, PUSH TO DISPLAY will transmit RS232.
Toggle switch ON, parameters will transmit by PUSH TO DISPLAY when in
SELF TEST FUNCTION.
Toggle switch ON, Parameter set is disabled.
Toggle switch OFF, RS232 transmit is disabled and parameter set is
enabled.
CONDUCTIVITY CELLS:
There are several types of conductivity cells available. The (Au) cell
is recommended for measurements below 3.3 mS. The (Au) multipurpose
cell in the flow configuration is recommended for ultra pure water (grab
samples of ultra pure water are subject to contamination from the vessel
used and atmospheric gases). The (Au) cell has much less tendency to
carry over solution from one measurement to the next. The (Au) cells
require less maintenance than the (Pt) cells but the linearity is not
guaranteed above 3.3 mS.
CONDUCTIVITY CELLS CONTINUED:
The (Pt) cells are needed for measuring solutions with conductivity
readings above 3.3 mS. The (Pt) cells will require replatinizing on
occasion. Anytime a (Pt) cell is cleaned it should be replatinized.
This can be accomplished by sending the cell to the manufacturer or the
user can replatinize the cell with the Model 01481-11 Platinizing
Station and with Platinizing Solution (ASTM D1125).
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It is important to remember that the conductivity cell is delicate and
should be cared for properly. Before using your cell it should be
rinsed in tap or deionized (DI) water if available. Carefully, shake
off excess and dry with a clean lab wipe.
If possible, rinse cell in a sample of the solution to be measured
before the actual measurement is made. Once the cell is placed in the
sample for measurement, it is helpful to agitate the cell by moving up
and down a few times. This will aid in dislodging any air bubbles.
Allow sufficient time for temperature equilibration before recording
measurement. When finished using the cell, rinse in an appropriate
solvent and dry. The cell may be stored dry.
CLEANING CELLS:
To clean a conductivity cell, wet a cotton tipped applicator with a
solvent appropriate to remove any residue that has contaminated the
plates of the cell. Choose a solvent (ie: Isopropanol 99%) that will
not damage the epoxy tube the cell is constructed of (do not use Aqua
Regia to clean cell or remove old platinum). Insert the wetted swab
through the cell. You may need to do this several times until the swab
shows no residue. Then clean with a mild detergent and warm DI water.
Clean cell only when necessary. Remember, if it is a (Pt) cell, it will
need to be replatinized after it has been cleaned.
NOTE: A clean dry cell will display no more than 1 digit on any range
after auto zero check.
The conductivity dip cell should be immersed in the solution a minimum
of 1.5 inches for proper measurement.
Multipurpose cells are combination dip and flow cells. The outside
diameter (OD) of the cell is 7/16” or .4375”. To connect flexible
tubing to the cell for an inline flow, use 7/16” inside diameter (ID)
tubing. Using the cell in a flow configuration is recommended for
measurements of ultra pure water.
For convenience, the instrument features a built-in cell holder. An oring on the conductivity cell allows the cell to be vertically
positioned in the cell holder.
TO READ CELL CONSTANT:
METHOD 1: Turn Function to SELF TEST and read cell constant on
display.
METHOD 2: Turn Parameter to CELL CONSTANT, push the PUSH TO DISPLAY
knob and the cell constant will display momentarily.
CELL CONSTANT ADJUST:
To observe and adjust the cell constant if necessary:
Turn Function to SELF TEST
Turn Parameter to CELL CONSTANT
Push, PUSH TO DISPLAY knob until L.E.D. lights (2 second delay)
By turning PUSH TO DISPLAY knob, the user can adjust the cell constant
between 8.00 and 12.00.
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CALIBRATION: STANDARDIZE/CALIBRATE INSTRUMENT AND CELL
STEP 1:
Select a Conductivity Standard Solution of a known value above 50 mS
(values less than 50 mS are not always reliable). Rinse three (Clean)
test tubes with a small amount of the standard solution then discard the
rinse solution. Fill the three test tubes with the standard solution to
a depth of 30 mm. Hold the three test tubes at 25°C (if practical).
Soak your cell in deionized (DI) water for 5 minutes (this allows the
plates of cell to be wetted).
For this example we will use a 1409 mS/cm Calibration Standard Solution.
STEP 2:
Plug conductivity cell into meter. Turn power ON (power cord connected
to meter and AC outlet). POWER ON RESET will display (all parameters
reset to preset value).
Turn Range to AUTO
Turn Function to CONDUCTIVITY
Turn Parameter to CELL CONSTANT
Dip cell into 1st test tube sample of standard solution. Agitate cell
with gentle up and down motion and then wait for temperature to
equilibrate. Remove cell and carefully shake off excess.
Dip cell in 2nd test tube for 10-15 seconds, remove and shake off
excess.
Dip cell in 3rd test tube and push, PUSH TO DISPLAY knob (cell constant
will display momentarily) when L.E.D. light comes on, turn knob to make
display read the value of the calibration solution (example 1409 mS).
The instrument with cell has now been standardized (calibrated) to a
known value of solution. Use STANDBY mode to retain parameter settings.
NOTE: If power to instrument is removed, parameter settings will return
to preset values when instrument power is returned.
MAKING CONDUCTIVITY MEASUREMENTS:
Standardize/calibrate the instrument and cell using a conductivity
standard (see previous page).
Select AUTO RANGE or appropriate manual RANGE, set REFERENCE TEMPERATURE
if different than 25.0°C. Set TEMPERATURE COEFFICIENT if different than
1.91%. Rinse cell in DI water, then rinse cell in a portion of unknown
sample if possible. Wait for temperature equilibration of cell to
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sample. Immerse cell in sample (minimum 30 mm) agitate cell with gentle
up and down motion, when temperature equilibrates, take reading.
Temperature in Degree C will display to the right of conductivity data.
NOTE: Range changing will be indicated by the STANDBY L.E.D. blinking.
MAKING RESISTIVITY MEASUREMENTS:
Standardize/calibrate the instrument and cell using a conductivity
standard. Follow steps under “Calibration”.
Select AUTO RANGE or the appropriate manual RANGE (A, B or C)
Turn Function to RESISTIVITY and follow steps under “Making Conductivity
Measurements”.
When is RESISTIVITY function, parameters cannot be changed.
Temperature in Degree C will display to right of resistivity data.
MW = Meg ohms (1 meg = one million)
KW = Kilo ohms (1 K = one thousand)
MAKING TDS MEASUREMENTS:
Standardize/calibrate the instrument and cell using a conductivity
standard. Follow steps under “Calibration”.
When in TDS function, CELL CONSTANT parameter cannot be changed.
To set TDS multiplier using a TDS standard of your choice:
Follow the three test tube method as described in Standardize/Calibrate
instrument and cell.
Select AUTO RANGE or appropriate manual range (A - F)
Turn Function to TDS
Turn Parameter to TDS MULT
Set the TDS multiplier by pushing PUSH TO DISPLAY knob (TDS mult will
display momentarily) when L.E.D. light comes on, turn the knob to make
display read the same as the TDS standard being used.
TDS will display in either PPM or PPT.
MAKING SALINTY MEASUREMENTS: (MODEL 19060-10 ONLY)
Standardize/calibrate the instrument and (Pt) cell in SALINITY function
using a KCl solution having a Practical Salinity value of 35.0 at 15°C.
Follow the three test tube method as described in “standardize/calibrate
instrument and cell” except hold at 15°C. When in SALINITY function,
REFERENCE TEMPERATURE and TEMPERATURE COEFFICIENT parameter cannot be
set. The RANGE is automatically set to “F” and the maximum solution
temperature is 30°C.
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Please note:
If you have any technical questions, please contact the Applications
Department at Cole Parmer (800) 323-4340 or (847) 549-7600.
CHECKING INSTRUMENT ACCURACY WITH FUNCTION VERIFIER:
A Function Verifier is available to check the calibration of the Model
#19060-00 &-10 Multi-Function Conductivity Meter. Contact the Cole
Parmer Applications Department for more information on the new Function
Verifier available for the Model 19060-00, -10 Conductivity Meter.
CONDUCTIVITY REFERENCE SOLUTIONS:
Reference Approximate Grams of KCl weighed in
Solution Normality of Air per 1 liter of
@ 25°C Solution Solution @ 20°C
1408.8 mS .01 .7440
12856 mS .1 7.4365
111342 mS 1 74.2460
SALINITY REFERENCE SOLUTION:
Reference solution Grams of KCl per
@ 15.0°C 1 kilogram of solution
35.0 Practical Salinity Units 32.4356
REFERENCE LITERATURE:
Standard Methods, 19th Edition ISBN 0-87553-223-3
ASTM Standards, Volume 11.01 ISBN 0-8031-2332-9
DECLARATION OF CONFORMITY
Manufacturer’s Name: Amber Science, Inc.
Manufacturer’s Address: 277 Blair Blvd.
Eugene, Oregon 97402 USA
declares, that the product
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Product name: Electrical Conductivity Meter
Model: EC Meter 19060-Series
Options: All
Conforms to the following: Application of Council Directives
93/68/EEC
89/336/EEC
Conformity Declared to Standards
EN 61010-1
EN 50081-1
EN 50082-1
and carries the “CE” mark accordingly.
December 1997
David Alsop
_______________________________
David Alsop, Production Manager
WARNING: This is a Class A product. In a domestic environment this
product may cause radio interference in which case the user may be
required to take adequate measures.
This product has special EMI immunity characteristics and requires a
high-frequency impedance in the form of a Ferrite Shield (FairRite P/N
0444164951 or equivalent) to be placed around cell cable at the cell
connector to attenuate undesired fields.
Safety protection provided may be impaired if instrument is not used as
instructed.
The following symbols are located on the instrument (CE version only):
Electrical Safety Hazard General Warning CE Mark
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