Process Analytics
Measuring Solutions
Global Presence
Hamilton has sales representatives in many countries. There is always a
competent representative or partner in the neighborhood of our customers.
The map below shows the Hamilton offices.
Sensor manufacturing in Bonaduz, CH
Headquarter in Reno, USA
Want to get in touch with Hamilton? We are just one click away:
www.hamiltoncompany.com
Process Analytics
Measuring Solutions
Arc – Wisdom
from Within
See more on page 12
Cell Density
See more on page 66
Housings
See more on page 108
TABLE OF CONTENTS
Table of
Contents
What’s new? ......................................................... 4
Innovations ........................................................... 8
Arc Family ........................................................... 12
System Installations ........................................... 14
Sensors ............................................................... 16
pH
.............................................................................. 16
ORP ........................................................................... 42
Conductivity ............................................................... 56
Cell Density ................................................................ 66
DO .............................................................................. 74
Beverly ................................................................ 88
DuraCal pH Buffers ............................................ 90
Conductivity Standards ..................................... 92
Connecting Cables for Sensors ......................... 94
Oxygen Accessories .......................................... 96
Electrolytes and Solutions ................................. 97
Arc Accessories ................................................. 98
Hamilton Customized Products ....................... 101
Transmitter ........................................................ 102
H100 ......................................................................... 102
H200 ........................................................................ 106
Housings ........................................................... 108
Sensor Comparison ......................................... 140
Alphabetical Index ............................................ 142
3
WHAT’S NEW
What’s new?
Cell Density
Viable and Total Cell Density Monitoring
Biological processes are increasingly important in biotechnical
and pharmaceutical industries. The variability of living
organisms is often very high, making the culture process
difficult to standardize. Extensive process optimization and
control are required for stable cell cultures, fermentations
and improved yield. Today bioprocess development relies on
labor intensive sampling and offline measurements that also
lack the necessary granularity to fully optimize the yield. The
available online measurements of pH and dissolved oxygen
are linked indirectly to the cell status and characteristics.
Online monitoring of cell density provides the continuous cell
data necessary to optimize control and yield beyond what is
possible offline. Hamilton now offers sensors for continuous
cell density measurement. The Incyte capacitance sensor
delivers information on viable cell density whereas the
Dencytee sensor measures total cell density via turbidity. In
combination with our advanced wireless Arc pH and dissolved
oxygen probes, capacitance and turbidity sensors provide
all relevant information on the progress of mammalian, yeast
and bacteria cultures. This enables better understanding of
optimization and control of bioprocesses.
WHAT’S NEW
Arc Modbus –
Profibus Converter
Arc Integration into a Profibus DP
Process Control System
Hamilton Arc and VisiFerm DO sensors provide a digital
Modbus® protocol that can be converted into the Profibus DP
protocol using the Deutschmann Unigate® CL Module. All Arc
parameters DO, pH, ORP and conductivity are supported. For an
easy adaption to Profibus DP, Hamilton developed a conversion
script for the Deutschmann Unigate® CL-Profibus Module giving
access to the most common Modbus register. In cooperation
with Sanofi-Aventis (Frankfurt/Germany) Hamilton Arc sensors
were tested successfully on their Profibus DP Yokogawa System
(Master Device), using a Deutschmann Unigate® CL Module.
Master Devices
PCS
PCS
Profibus DP
pH
ORP
Cond
DO
Slave Devices
VisiPro DO
The First Optical DO Sensor with
ATEX / IECEx Approval
The optical technology of the VisiPro DO sensor improves
the measuring performance and simplifies maintenance
as compared to traditional amperometric sensors.
Improvements compared to conventional electrochemical
(amperometric) sensors include flow independence, rapid
start-up with no polarization time, and less maintenance.
With their integrated transmitter, VisiPro DO sensors enable
direct communication to the process control system via
2 wire 4-20 mA standard signal or digital HART. All relevant
sensor data including calibration and diagnostic information
are stored in the sensor head. The VisiPro DO is the first
optical DO sensor that comes with an ATEX / IECEx
approval. Additional wireless communication directly from
the sensor to a computer simplifies laboratory calibration,
configuration and maintenance.
Arc ECS Adapter
Easy Arc pH/ORP Integration into a
Bio-Controller or Standard Transmitter
The ECS Adapter converts the digital signal from the pH Arc
or ORP Arc electrochemical sensors to the classic mV signal
so that you can connect to the classical measuring device, i.e.,
bio-controller or standard transmitter.
5
WHAT’S NEW
Polilyte Plus Family
Three New Sensors for an Extended Range
of Applications
ODO H Caps
Hygienic Designed ODO Cap with Improved
Chemical Resistance
In many bioprocesses lipohilic compounds are part
of the raw material. These substances may enter the
silicone membrane of an ODO cap and interfere with
the luminophore. A special PTFE layer was developed
without slowing down the response time significantly.
This leads to a much longer lifetime of the ODO cap
H1 and H2 in an environment containing lipophilic
compounds and aggressive liquids. The cap is suitable
with all optical DO sensors: VisiFerm DO, Visiferm DO B
and VisiPro DO Ex.
If very fast response time and hygienic design is required
the ODO Cap H0 is the best choice. In case of an
abrasive media the mechanically robust and chemical
resistant ODO Cap H1 is the preferred cap. If hygienic
design and improved chemical resistance are important
for a process the new ODO Cap H2 is the solution.
As of 2015 Hamilton introduces the new Polilyte Plus family.
The outstanding success of the Polilyte Plus in chemical and
wastewater applications gave the inspiration for transferring
the good features to a whole family of sensors. The expanded
portfolio widens the range of applications that can be covered.
All family members will use Polisolve Plus as reference
electrolyte but different pH glasses.
How to find the best sensor for an application?
20
Please refer to page
WHAT’S NEW
Safety First
The IECEx system is a conformity assessment system of the
International Electrical Commission (IEC). It is the objective
of the IECEx system to facilitate international trade in
equipment and services. Currently Australia, New Zealand,
and Singapore accept the IECEx certificate of conformity as
meeting all of the national requirements for Ex Certification.
No further national certification is required. The IECEx is also
accepted in many other countries.
Hamilton Offers More Certificates Then Ever
Many industrial processes are in hazardous environments
and require suitable equipment with the European ATEX or
the global IECEx approval. Hamilton provides safe sensors
and housings since many years for these applications.
In case a gas atmosphere and a dust atmosphere are or
could be present at the same time, the risk of explosion
must be examined carefully and special precautions may
be necessary. Typical gas atmospheres can be found in
oil refineries, printing industries and biogas plants. Dust
atmospheres can be found in underground coalmines,
woodworking areas and in all kind of mills. In the chemical
industry both atmospheres can be found.
Marking sensors or housings for ATEX / IECEx is as follows:
European
Conformity
0035
ATEX is the widely used synonym for the ATEX directives of
the European Union. ATEX stands for the French abbreviation
“ATmosphère EXplosible”. The objective of ATEX is to ensure
the free movement of goods throughout the European
Union, by offering one harmonized compliance procedure
accepted by all EU countries. This means that different
national standards within the EU are obsolete. ATEX covers
equipment only. Equipment for hazardous areas requires an
ATEX approval when sold within the European Union.
Sensor / Housing
Notified
Body
Explosion
Group
Temperature
Classification
II 1/2 G Ex ia IIC T4/T5/T6 Ga/Gb
Equipment
Group
Gas: CE 0035 II 1/2 G
Dust: CE 0035 II 1/2 D
Gas
or Dust
Explosion
Protection
Gas
Group
Equipment
Protection
Level
ia IIC T4/T5/T6 Ga/Gb
ia IIIC T x °C Da/Db
The temperature value x in dust atmospheres needs to be calculated.
GasDust
Analog Sensors




Housings




Arc
––
––
Memosens
 –
 pending
– –
VisiPro DO
Equipment
Category
Example OxyFerm FDA
ATEXIECEx
GasDust
Explosion
Protection
Symbol
 pending
The table gives an overview of the approvals
available for the different product lines. Detailed
information about a specific product can be
found on the Hamilton website their spec sheets.
For general overview please refer to:
www.hamiltoncompany.com/support/process-analytics/
certificates/products-for-explosive-atmospheres
7
INNOVATIONS
Beyond Process Analytics
Hamilton’s electrochemical and optical sensors are the solution for process analytical measurement
systems, characterized by proven quality and outstanding performance. Offering measurement parameter
solutions in pH, ORP, dissolved oxygen and conductivity, our sensors and accessories are backed by over
50 years of engineering and manufacturing expertise in innovative design.
Foodlyte
Biocompatible Reference Electrolyte
The Foodlyte electrolyte was specifically developed for the
needs of the biotechnology, pharmaceutical and food industries.
It’s based on food ingredients and the perfect electrolyte for
applications where non-toxicity is mandatory. Foodlyte is
taste-, odor- and harmless for microorganisms.
pH Glasses
The biocompatibility is approved by MDT1 according to EN
ISO 10993-52 and USP 31, 2008 Chapter 873 and according
to international GLP4 guidelines.
Measurement Accuracy in Various Applications
Measurement stability and sensor lifetime in various
environments requires different pH glasses.
Our high performance glasses, the PHI and the HB glass,
were developed to withstand frequent steam sterilization,
autoclaving and CIP cleaning using hot caustics. PHI and
HB glass provide the lowest drift and show almost no shift
after sterilization and cleaning procedures.
The H glass has excellent aging characteristics and offers
stable readings even in samples with low water content
such as anhydrous or only partially aqueous solutions. The
low alkali error of H glass means accurate measurements
even at high pH or high operating temperatures. HF glass
ensures the longest possible lifetime in low temperature
processes and processes containing hydrofluoric acid.
1 Medical Device Testing GmbH Ochsenhausen
2 Biological evaluation of medical devices -- Part 5: Tests for in vitro cytotoxicity
3 Biological Activity Tests, In Vitro
4 Good Laboratory Practice
INNOVATIONS
Polisolve Plus
Most innovative Polymer Reference Electrolyte
Single Pore
Single Pore
Concept
The never-clog Liquid Junction
A Single Pore is an open liquid junction and an alternative
to diaphragms. Instead of many tiny pores in a ceramic
diaphragm, a single pore, about 2000 times larger in
diameter, is used. This concept provides a direct contact
between reference electrode and sample. In combination
with the bigger diameter this liquid junction can hardly be
clogged. The Single Pore results in a faster response time,
more accurate readings and prevents reference poisoning.
Hamilton has designed innovative Polisolve Plus polymer
electrolyte sensors that cover the full pH range, a wide
temperature range and withstand reference poisoning for
an extended lifetime. It’s also stable against most organic
solvents and free of toxic acrylamide.
When Polisolve Plus and Single Pore concepts are
combined the result is a Polilyte Plus sensor for a wide
range of applications as well as a problem solver for difficult
applications.
XX
Industrial waste water
XX
Hot sugar juice
XX
Samples containing color pigments
XX
Oily samples
The combination leads to more stable reference signals and
minimized diffusion potentials. Polisolve Plus represents a
significant contribution to long lasting pH sensors.
NOTE: The PTB (Physikalisch-Technische Bundesanstalt
= Physical Technical Federal Institute) in Braunschweig,
Germany, determined the Single Pore pH electrode to be
the most accurate laboratory electrode. Further information
can be found in “Traceability of pH measurement” by Petra
Spitzer; ISBN 3-89429-877-4 or ISSN 0947-7063
9
INNOVATIONS
Conductivity
Standards
Certified and Traceable
Hamilton was the first to offer conductivity standards
at 1.3 and 5 μS/cm with a certified accuracy of ±1% and
a durability of 1.5 or 3 years. All conductivity standards
exhibit a previously unknown level of stability which has
been confirmed by measurements done by the PTB.
Governmental metrological institutes that deal with
measurement of electrolytic conductivity have become
aware of these standards, and the composition of these
standards is patented. The measurement procedure
for determining conductivity has been developed in
collaboration with the DFM1. Each batch is certified by
the DFM. In an inter-laboratory test among prestigious
European metrological institutes (PTB, DFM, DAkkS2),
Hamilton standards were used as a measurement solution.
DuraCal pH Buffers
Easy Calibration with 5-Year Shelf Life
DuraCal pH buffers consist of a complete range of patented
stable pH buffer solutions from pH 1.09 to pH 12.00.
Hamilton guarantees that they will last for five years from the
date of manufacture. The pH 9.21 and pH 10.01 buffers are
even stable in air. High buffer capacities enable quick and
stable calibrations.
Closed-loop traceability: In contrast with other manufacturers
Hamilton has developed a “closed-loop“ traceability. For
users of DuraCal pH buffer solutions this means a unique
level of reliability.
Top-down traceability: With Hamilton the pH value of the
DuraCal buffer is determined by a comparison with two
secondary reference solutions.
1 DFM: Danish Institue of Fundamental Metrology, Lyngby, Denmark
2 DAkkS: Deutsche Akkreditierungsstelle, Wolfen, Germany
Bottom-up traceability: From each lot manufactured, a
representative quantity is measured at DAkkS (Deutsche
Akkreditierungsstelle, Wolfen, Germany). This ensures an
external independent verification by an accredited institute.
The DAkkS issues an official calibration certificate for every
DuraCal batch manufactured.
INNOVATIONS
VisiFerm DO
The most reliable Optical Dissolved Oxygen
sensor in the Industry
The VisiFerm DO is the first optical dissolved oxygen
(DO) process sensor for demanding applications in the
pharmaceutical, biotechnology and beverage industries.
The measuring principle is based on oxygen dependent
quenching of the emitting light of a luminophore. Easy and
fast to maintain, the multiple time-constraints caused by
the use of electrochemical type DO sensors is eliminated.
Decreased cost of ownership is further improved with an
integrated sensor lifetime check that indicates when the
sensor is in need of maintenance. A simple, replaceable
cap rebuilds the sensor in seconds.
The optical measurement is independent from the flow
and insensitive to CO2. A special window behind the
luminophore enables the sensor to withstand pressure
hammers and spikes. Due to this design, the VisiFerm DO
is suitable for inline measurement of dissolved oxygen in
various processes.
Beverly
Portable Dissolved Oxygen Measurement
Beverly is designed for at-line and laboratory use in small
and midsize breweries as well as in the beverage industry to
provide excellent reliability in a rugged design, and purpose
built to handle the environmental extremes encountered
in everyday brewing operations. Superior performance at
an affordable price is achieved using Hamilton’s best in
class optical sensor VisiFerm DO B with built-in intelligence,
making Beverly the brewer’s best friend.
11
ARC FAMILY
The True Power
No external Transmitter
Hamilton Arc revolutionizes the integration of sensors by rethinking
communication between sensors, end users and process control systems
(PCS). The functionality of a traditional transmitter has been replaced by
a microprocessor within the sensors head. Arc sensors communicate
directly with the PCS through 4-20mA standard and digital signals.
With the micro-transmitter integrated, Arc sensors offer a fully compensated,
converted digital and 4-20mA signal directly to the process control system.
Fully compensated signal
XX
Temperature compensated
XX
E.g. Pressure, Salinity
Conversion to
XX
Digital Modbus
XX
4-20mA analog
XX
Different parameter units
(e.g. mV, ppb, %sat….)
The integrated
micro-transmitter stores
XX
Last calibration data
XX
Diagnostic information
XX
Sensor configuration
ARC FAMILY
Arc Intelligence
Wireless Communication and Calibration
Arc sensors provide full online wireless option for monitoring, configuration and calibration.
4-20 mA Loop/Modbus
Arc Cond probe
Arc DO probe
Arc pH probe
Arc Wi Adapter
PCS
Fermentation
Cross Flow
Laboratory Calibration
Batching Tank
Complete Arc Sensor Portfolio
pH Arc
DO Arc
ORP Arc
COND Arc
13
SYSTEM INSTALLATIONS
Analog Systems
Standard Measuring Loop
4-20 mA
H100 pH
EasyFerm Plus
PCS
FlexiFit Bio
OxyFerm FDA
H100 DO
4-20 mA
Measuring Loop in Hazardous Area
H200 pH
ChemoTrode
RetractoMaster
4-20 mA
PCS
Measuring Loop in Pipe
4-20 mA
Polilyte Plus
H100 pH
FlexiFit TC
PCS
SYSTEM INSTALLATIONS
Arc Systems
Skid System
4-20 mA / Modbus
EasyFerm Plus Arc
VisiFerm DO Arc
PCS
FlexiFit Bio
Arc View Handheld
Arc in R&D
Arc View Handheld
Incyte
Arc ECS
Adapter
pH/ORP
4-20 mA
Modbus
EasyFerm Bio
pre-amplifier
Arc View
Controller
for pH, DO, VCD, TCD
DO
pH
VCD
Fermenter
Controller
TCD
VCD
pre-amplifier
TCD
Dencytee
VisiFerm DO
15
SENSORS
pH
pH measurements are important in many processes. There is
almost none where the pH value does not play a dominant
role. All biological processes depend on the activity of
enzymes because they show a pH optimum and lose their
functionality if the pH is too low or too high.
The pH value is measured in most processes using a
glass electrode. This pH glass forms a thin gel layer in
aqueous solutions that is highly selective to H+ ions. The pH
dependent potential of the gel layer is measured against a
built-in reference electrode with a constant potential. This
reference electrode may be a silver wire in contact with solid
silver chloride or a calomel electrode.
In general, the pH value is a measure of the acidity or the
basicity of an aqueous solution. In technical terms, pH is
the negative logarithm of the activity of the solvated protons
H+. It’s mostly explained as the measure of the proton
concentration which is correct for dilute aqueous solutions.
Segment
Bio Pharma
Application
Fermentation
Sensor
EasyFerm Plus
Feature
Hygienic
Autoclavable
CIP / SIP
FermoTrode
EasyFerm Bio
Brewery / Beverage
Fermentation
Polilyte Plus
Bottle washer
ChemoTrode
IonoTrode
Organic solvents
Refillable
Low Conductivity
InchTrode
Chem Pharma
Polyplast
Plastic Shaft
MecoTrode
Easycontrol
Water / Wastewater
ClaryTrode
Liq-Glass PG
HF
Low Temperature
17
SENSORS
Polilyte Plus
Polilyte Plus sensors are designed to withstand
demanding applications in chemical and
petrochemical industries. It’s also suitable for
process water, wastewater treatment and many
other applications more. Because of its two Single
Pore diaphragms you will never have liquid junction
problems and total breakdowns. The Polilyte Plus
sensors show good measurement accuracy in
highly alkaline solutions as well as in samples with
low conductivity. Additionally, the Everef-L reference
cartridge ensures a long lifetime.
A stabilized sensor signal and an extended sensor
diagnosis thanks to the integrated Liquid Earth in
the VP are further features of the Polilyte Plus. The
Polilyte Plus XP is suited for very high pressures up
to 50 bar with the same advantages like Polilyte Plus.
“
Did you know… that the
Single Pore is an open junction
between the measuring solution
and the electrolyte?
”
Benefits
XX 2 Single Pores prevent clogging and ensure reliable
measurements
XX Upside-down mounting possible
XX Highly reproducible measurements and very stable over
a long period of time
XX Resistant against solvents, strong acids and basis
Arc System
The Polilyte Plus is also available with our innovative
Arc system. The Arc system eliminates the transmitter and
communicates directly with your Process Control System.
More information can be found on page
12
Typical applications
XX Sugar industry
XX Dye industry
XX Industrial Waste water
USP
Class VI
XX Paper industry
SENSORS
pH
Specifications
Measuring range
0 – 14 pH
Process temperature
0 – 130 °C (Arc: analog 0 – 110 °C,
digital 0 – 130 °C)
Pressure range
(relative to ambient)
Polilyte Plus: 0 – 10 bar (130 °C),
0 – 16 bar (100 °C)
Polilyte Plus XP: 0 – 50 bar (60 °C),
0 – 20 bar (100 °C), 0 – 16 bar (130 °C)
Hygienic aspects
Autoclavable, SIP
pH glass
H
Electrolyte
Polisolve Plus
Reference system
Everef-L
Diaphragm
Single Pore
Temperature sensor
Pt1000 in VP version
Ordering Information
a-length
S8
VP 6
Arc
MS
Polilyte Plus 120
242431242428242111242660
120 (Pt100)
–243019–
–
225
242432242429242112242661
325
242433242439242113242662
360
242434242442
425
242435242449242114242664
Polilyte Plus XP120
238811
242415
–
–
242663
–
Accessories
pH buffers see page
Cables see page
Housings see page
90
94
108
19
SENSORS
Polilyte Plus Family
The outstanding success of the Polilyte Plus in
chemical and wastewater applications gave the
inspiration for transferring the good features
to a whole family of sensors. The expanded
portfolio widens the range of applications that
can be covered.
Benefits
XX More applications with HB pH glass
XX Better overview of the portfolio
XX There’s always at least one family member that suits the
different applications
XX Resistant against solvents, strong acids and bases
All members will have the same reference electrolyte
Polisolve Plus, use the Single Pore technology but
will have different pH glasses. A new member with the
HB glass will be established.
The new family members can be ordered as of now but
the Atex approval will be available as of 2015 for all of them.
Typical applications
XX Sugar industry
XX Microelectronics
XX Industrial waste water
XX Downstream processes
USP
XX Fermentation
Class VI
How to choose the right sensor?
How to choose the sensor
New sensor
pH glass
Electrolyte
Predecessor
HF in the media, low temperature Polilyte Plus HF HF
Polisolve Plus
ClaryTrode
Low conductivity Polilyte Plus H H
Polisolve Plus
Polilyte HT
CIP, SIP, autoclavations, chemical robustness
Polilyte Plus PHI PHI
Polisolve Plus
Polyclave
CIP, SIP, autoclavations, fast response time
Polilyte Plus HB
HB
Polisolve Plus
High pressure
Polilyte Plus XP H
Polisolve Plus
Polilyte Plus XP
SENSORS
le
b
a
l
i
/
Ava
/
5
1
0
2
pH
Specifications
Measuring range
0 – 14 pH
Process temperature
See table on page 140/141
Pressure range
(relative to ambient)
See table on page 140/141
Hygienic aspects
Autoclavable: H, HB, PHI
CIP: HB, PHI
SIP: H, HB, PHI
pH glass
See table on page 20
Electrolyte
Polisolve Plus
Reference system
Everef-L
Diaphragm
Single Pore
Ordering Information
Polilyte Plus Family Structure
242428
Basic number = Polilyte Plus VP 120 (old Ref)
Code
pH glass
1H
2
HB (not for MS)
3HF
4PHI
Code
Electrical Connector
1VP
2S8
3Arc
4Memosens
Code
a-length (mm)
1
120
2
225
3
325
4
360 (not for Arc, only MS with H glass)
5
425
Code
Temperature sensor
1
Pt100 (VP)
2
Pt1000 (VP)
3
none (S8) or given (Memosens, Arc)
242428 –< Order Code
238811
Polilyte Plus XP S8 120
242415
Polilyte Plus XP VP 120
21
SENSORS
EasyFerm Plus
The EasyFerm Plus sensors are designed
to withstand demanding applications in
pharmaceutical and chemical industries. It is
supplied with a pre-pressurized electrolyte which
prevents the diffusion of sample into the sensor.
The Everef-F reference cartidge ensures that
the Phermlyte reference electrolyte remains free
of silver and precipitation. It withstands steam
sterilization, autoclavation and CIP cleanings.
The EasyFerm Plus LEVP (LE = Liquid Earth) has
a stabilized sensor signal and an extended sensor
diagnosis thanks to the integrated Liquid Earth.
“Did you know… that with
a pre-pressurized reference
system the life time of a
sensor is extended?
”
Benefits
XX Pre-pressurized reference electrolyte ensures a
clog-free diaphragm
Arc System
The EasyFerm Plus is also available with our innovative
Arc system. The Arc system eliminates the transmitter and
communicates directly with your Process Control System.
More information can be found on page
12
XX Almost drift-free measurement
XX Stable measurement signals after steam sterilization,
autoclavation and CIP cleanings
Typical applications
XX Bioreactors
XX Industrial processes
USP
Class VI
XX Downstream processes
SENSORS
pH
Specifications
Measuring range
0 – 14 pH
Process temperature
0 – 140 °C (Arc: analog 0 – 110 °C,
digital 0 – 140 °C)
Pressure range
(relative to ambient)
0 – 6 bar (pressurized)
Hygienic aspects
Autoclavable, SIP, CIP
pH glass
PHI
ElectrolytePhermlyte
Reference system
Everef-F
Diaphragm
HP Coatramic
Temperature sensor
Pt100 in VP version
Pt1000 in LEVP version
Ordering
Information
a-length
S8
K8
VP 6
Arc
MS
120
120 (LE Pt1000)
238643238625238633242091 242650
–
–
243646
–
–
160
238679238630238641
200
–238627–
–
–
–
–
225
225 (LE Pt1000)
238644238626238634242092 242651
–
–
243647
–
–
325
238645238628238635242093 242652
360
238642–238632–242653
425
238674 238629238636242094
–
Accessories
pH buffers see page
Cables see page
Housings see page
90
94
108
23
SENSORS
EasyFerm Bio
EasyFerm Bio sensors are designed for
applications in pharmaceutical, biotechnology
and food & beverages industries. It is certified
to EHEDG criteria. The Foodlyte electrolyte has
a certificate for its Bio-compatibility. It does
not harm microorganisms in fermenters. The
electrolyte is pre-pressurized to prevent the
diffusion of sample into the sensor. The Everef-F
reference cartridge ensures that the Foodlyte
reference electrolyte remains free of silver and
precipitation of proteins. EasyFerm Bio sensors
withstand steam sterilization, autoclavation and
cleaning in place.
“Did you know…
that you may even
eat the Foodlyte?
”
Benefits
XX Specifically designed for sterile applications in Pharma
and Biotechnology (EHEDG, Biocompatibility)
XX Highly reliable measurements after steam sterilization,
autoclavation and CIP cleanings
Arc System
XX Drift free measurements
The EasyFerm Bio is also available with our innovative Arc
system. The Arc system eliminates the transmitter and
communicates directly with your Process Control System.
More information can be found on page
12
XX Ceramic diaphragm is an improved barrier of the electrode
Typical applications
XX Bioreactors
XX Brewhouse
XX Downstream processes
USP
Class VI
XX Gelatine manufacturing
TYPE EL - CLASS I
MARCH 2009
SENSORS
pH
Specifications
Measuring range
0 – 14 pH
Process temperature
0 – 140 °C (Arc: analog 0 – 110 °C,
digital 0 – 140 °C)
Pressure range
(relative to ambient)
0 – 6 bar (pressurized)
Hygienic aspects
Autoclavable, SIP, CIP
pH glass
HB
ElectrolyteFoodlyte
Reference system
Everef-F
Diaphragm
HP Coatramic
Temperature sensor
Pt100 in VP version
Ordering Information
a-length
EasyFerm Bio120
S8
K8
VP 6
Arc
243642 243625 243632 242120
160
–243626–
–
200
–243627–
–
225
243643243628243633 242121
325
243644243629243634 242122
425
243645243630243635 242123
Accessories
pH buffers see page
Cables see page
Housings see page
90
94
108
25
SENSORS
pHeasy
The pHeasy is one of the first pH sensors with
built-in lifetime monitoring that doesn’t require
calibration. The second reference electrode
(CheckRef) monitors the state of the reference
electrolyte and indicates when the sensor
has to be changed. It is designed for various
applications such as the chemical industry or in
wastewater treatment that appreciate monitoring
the long term stability.
Reference electrolyte
Polisolve
Reference wire
CheckRef wire
Diffusion resistance
Single Pore
pH half cell wire
NTC 22 kOhm
temperature sensor
Inner buffer
Arc System
The pHeasy is only available with our innovative Arc
system. The Arc system eliminates the transmitter and
communicates directly with your Process Control System.
More information can be found on page
12
pH glass
Benefits
XX 2 Single Pores for clog-free contact between
measurement medium and Polisolve electrolyte
XX Extends service intervals and increases reliability of
pH measurement
XX Built-in accuracy monitoring
Typical applications
XX Wastewater
SENSORS
pH
Specifications
Measuring range
0 – 14 pH
Process temperature
0 – 130 °C (Arc: analog 0 – 110 °C,
digital 0 – 130 °C)
Pressure range
(relative to ambient)
0 – 6 bar
Hygienic aspects
Autoclavable, CIP, SIP
pH glass
PHI
ElectrolytePolisolve
Reference system
Everef-L
Temperature sensor
NTC 22 kOhm
Ordering Information
a-lengthArc
pHeasy 120242154
225242155
Accessories
pH buffers see page
Cables see page
90
94
Arc Accessories see page
Housings see page
98
108
27
SENSORS
ChemoTrode
ChemoTrode Bridge
The ChemoTrode is the most robust sensor
to measure pH in demanding applications in
pharmaceutical and chemical industries.
The ChemoTrode has a refill hole which allows
refilling of the electrolyte and pressurization
of the reference system. Its Everef-F reference
cartridge ensures that the reference electrolyte
remains free of silver and precipitation of
proteins.
“Did you know… that the
ChemoTrode Bridge has an
extended life time due to its
special reference system?
”
Benefits
XX Liquid electrolyte ensures fast response time and high
precision
XX Longer lifetime thanks to refillable electrolyte
XX Everef-F reference cartridge extends electrode life in
aggressive media
Typical applications
XX Industrial processes
XX Mining Industry
XX Pulp and Paper industry
XX Fermentations
SENSORS
pH
Specifications
Measuring range
0 – 14 pH
Process temperature
0 – 130 °C
Pressure range
(relative to ambient)
0 – 6 bar
Hygienic aspects
SIP, CIP
pH glass
PHI
Electrolyte
ChemoTrode: Viscous 3 M KCl-LR
ChemoTrode Bridge: Skylyte
Reference system
ChemoTrode: Everef-F
ChemoTrode Bridge: Everef-B
Diaphragm
ChemoTrode: HP ceramic
ChemoTrode Bridge: Platinum
Temperature sensor
Pt1000 in VP version
Ordering Information
a-length
S7
VP 6
ChemoTrode 120
238760242700
150
238762242701
200 238764–
250
ChemoTrode Bridge120
238766242703
238770
–
(Non Ex) 150 238772–
250 238776–
Accessories
pH buffers see page
Cables see page
Housings see page
90
94
108
29
SENSORS
FermoTrode
The maintenance free FermoTrode sensors are
designed for measuring pH in pharmaceutical
and biotechnological industries and fit in the
MasterFit and RetractoMaster housings. The
Everef-F reference cartridge ensures that the
reference electrolyte Skylyte remains free of
silver and precipitation, and withstands steam
sterilization.
It is not suited for contact with caustic soda
like in CIP-cleanings or for use in media
containing citric acid.
Benefits
XX No air pressure required, no risk of empty reference
electrolyte compartment
XX 3 Coatramic diaphragms prevent clogging due to proteins
XX Very long lifetime, stable calibration after sterilization
and practically drift-free signals
Typical applications
XX Biotechnology
XX Pharmaceutical Industry
SENSORS
pH
Specifications
Measuring range
0 – 14 pH
Process temperature
0 – 130 °C
Pressure range
(relative to ambient)
0 – 4 bar
Hygienic aspects
SIP
pH glass
PHI
ElectrolyteSkylyte
Reference system
Everef-F
DiaphragmCoatramic
Ordering Information
a-lengthS7
FermoTrode120
238480
150238482
200238484
250238486
Accessories
pH buffers see page
Cables see page
Housings see page
90
94
108
31
SENSORS
IonoTrode
“Did you know…
The IonoTrode sensor is designed for
applications in ion weak media. The F glass
membrane has a very low resistance, therefore
the sensor can be used in samples with low
conductivity, where it offers highest accuracy
over a long period of time.
that the IonoTrode is designed
for ion weak media with a low
conductivity of only 0.2 μS/cm?
If there is a storage container with 3 M KCl
attached via a tube to the side-arm of the
IonoTrode, the flow-out of the electrolyte can
be controlled with the sleeve diaphragm.
Benefits
”
XX Offers highest accuracy over a long period of time
XX Stable measurements in samples with low conductivity
of at least 0.2 µS/cm
XX Removable PTFE sleeve diaphragm to check electrolyte
outflow
XX Side-arm attachment via tube to storage vessel
containing 3 M KCl, and control of electrolyte flow with
PTFE diaphragm ring
Typical applications
XX Drinking Water Plants
XX Boiler Feed Water
SENSORS
pH
Specifications
Measuring range
0 – 14 pH
Process temperature
-10 – 40 °C
Pressure range
(relative to ambient)
0 – 0.5 bar or higher if
pressurization by side-arm
pH glass
F
Electrolyte
3 M KCl
Reference system
Everef
DiaphragmSleeve
Ordering Information
a-lengthS7
IonoTrode120 238525
Accessories
pH buffers see page
Cables see page
Housings see page
90
94
108
33
SENSORS
InchTrode
The InchTrode sensors are designed to
measure pH in demanding applications in
the paper making as well as in the chemical
industries. The Single Pore liquid junction
guarantees the best and fast measuring results
because of direct contact between the sample
and the Polisolve electrolyte.
The InchTrode sensors are easy to install
without additional housing and have a robust
PEEK shaft.
“Did you know… that
the InchTrode is available
in two different sizes and with
different membrane shapes?
”
Benefits
XX Single Pore for direct sample contact with Polisolve
electrolyte – no clogging
XX Very long-lasting reference system
XX Robust PEEK shaft
XX Simple installation without additional housing
Typical applications
XX Pulp and Paper industry
XX Water and Wastewater
SENSORS
pH
Specifications
Measuring range
0 – 14 pH
Process temperature
-10 – 130 °C (flat membrane)
0 – 130 °C (cylindrical membrane)
Pressure range
(relative to ambient)
0 – 10 bar (25 °C)
0 – 6 bar (130 °C)
pH glass
HF (flat membrane)
PHI (cylindrical membrane)
ElectrolytePolisolve
Reference system
Everef-L
Diaphragm
Single Pore
Temperature sensor
Pt1000 in VP version
Pt100 in fix cable version
Ordering Information
Type
InchTrode
N75F143
238346
N75P
238342
N75FC10143
N75PC10150
N100F
F = Flat membrane
P = Cylindrical membrane
C = Fix cable
a-length
150 140
VP 6
Fix Cable
–
–
–
238364
–
238359
238352 (non Ex)
–
Accessories
pH buffers see page
Cables see page
Housings see page
90
94
108
35
SENSORS
MecoTrode
The maintenance free MecoTrode sensor
is designed for processes in the chemical
industry with extreme pH values. The H glass
type membrane glass provides a low alkaline
error and stable measurement even at high
temperatures.
Three high-performance ceramic diaphragms
reduce the effect of flow potential in pipe
mounting.
“Did you know…
that the MecoTrode is already
20 years in the market?
”
Benefits
XX 3 high performance ceramic diaphragms for reduced
flow potentials when mounted in pipes
XX «H» glass for most accurate readings at high pH values
or high temperatures
XX Very good precision at low pH values (pH < 2)
Typical applications
XX Water and Wastewater
USP
Class VI
XX Industrial processes
SENSORS
pH
Specifications
Measuring range
0 – 14 pH
Process temperature
0 – 130 °C
Pressure range
(relative to ambient)
0 – 16 bar (25 °C)
0 – 6 bar (130 °C)
pH glass
H
Electrolyte
Viscous 3 M KCI-Pharma, blue
Reference system
Everef
Diaphragm
HP ceramic
Temperature sensor
Pt100 in VP version
Ordering Information
a-length
MecoTrode
120
S8
VP 6
238801238437
Accessories
pH buffers see page
Cables see page
Housings see page
90
94
108
37
SENSORS
Polilyte Pro
Polyplast Pro
The maintenance free Polilyte Pro and
Polyplast Pro sensors are designed for pH
measurement in water applications, especially
in low conductivity samples, e.g. wastewater,
fish farming, ground water, etc.
The Single Pore liquid junction guarantees
best measurement results because of direct
contact between the sample and the Polisolve
electrolyte – clogging is nearly impossible.
The Polyplast Pro sensor comes with a robust
plastic shaft and glass bulb protection.
“Did you know…
that the Polilyte Pro has the
HF resistant pH glass?
”
Benefits
XX Single Pore for direct sample contact with Polisolve
electrolyte
XX No clogging
XX Fast response even in low conductivity media
XX Easy maintenance due to non-refillable electrolyte
Typical applications
XX Wastewater applications
XX Fish farming
XX Ground water
SENSORS
pH
Specifications
Measuring range
0 – 14 pH
Process temperature
Polilyte Pro: -10 – 60 °C
Polyplast Pro: -10 – 40 °C
Pressure range
(relative to ambient)
0 – 6 bar
pH glass
Polilyte Pro: HF
Polyplast Pro: V
ElectrolytePolisolve
Reference system
Polilyte Pro: Everef-B
Polyplast Pro: Ag/AgCl
Diaphragm
Single Pore
Temperature sensor
Pt1000 in VP version
Ordering Information
a-length
S8
VP 6
Polilyte Pro 120
238411238417
Polyplast Pro120
238408
–
Accessories
pH buffers see page
Cables see page
Housings see page
90
94
108
39
SENSORS
Liq-Glass PG
EasyControl
The maintenance free Liq-Glass PG and the
EasyControl sensors are entry level sensors
for chemical or waste water applications and
low process temperatures. They show good
behavior in samples containing few ions,
respectively low conductivity.
“Did you know…
that the EasyControl is also
available as ORP sensor?
”
Benefits
XX Suitable for low conductivity media
XX Easy maintenance due to non-refillable electrolyte
XX Liq-Glass PG has 3 ceramic diaphragms for reduced
flow potentials
Typical applications
XX Wastewater applications
XX Fish farming
XX Ground water
XX Swimming Pools
SENSORS
pH
Specifications
Measuring range
Liq-Glass PG: 1 – 12 pH
EasyControl: 0 – 14 pH
Process temperature
Liq-Glass PG: -5 – 60 °C
EasyControl: 0 – 60 °C
Pressure range
(relative to ambient)
0 – 2 bar
pH glass
Liq-Glass PG: F
EasyControl: HF
Electrolyte
Liq-Glass PG: Viscous 3 M KCl-LR
EasyControl: Viscous 3 M
KCl-Pharma
Reference system
Liq-Glass PG: Everef
EasyControl: Ag/AgCl
DiaphragmCeramic
Ordering Information
a-lengthS8
Liq-Glass PG120
EasyControl
120
238515
238522 (non Ex)
Accessories
pH buffers see page
Cables see page
Housings see page
90
94
108
41
SENSORS
ORP
ORP (Oxidation Reduction Potential) is a common measurement
in biochemistry, environmental chemistry and water quality.
In the biochemical perspective, an oxidizing chemical pulls
electrons away from the cell membrane which means it can
be destabilized and leaky. The rapid death of a cell is the
consequence of a destroyed membrane. The ORPs of natural
systems like aerated surface water, rivers, lakes, rainwater and
acid mine water usually have oxidizing conditions leading to
positive potentials. Submerged soils, swamps and marine
sediments, where air supply has its limitations, reducing
conditions are the norm leading to negative potentials. For
water system monitoring, the ORP value provides the operator
with a rapid and single-value assessment of the disinfection
potential of water in the postharvest system. This enables the
operator to assess the activity of the applied disinfectant rather
than the applied dose.
ORPs in aqueous solutions are determined by measuring
the potential difference between an inert sensing electrode
in contact with the solution and a stable reference electrode.
The reference electrode is connected to the solution by a
salt bridge. It has a known potential and is made of silver
chloride or saturate calomel. Platinum is frequently used for
the sensing electrode.
The Oxygen-Reduction Potential, also known as Redox
Potential describes the tendency of a chemical species or
a solution to acquire electrons and therefore to be reduced.
Each species has its own reduction potential. It is measured
in Volts (V) or mV.
43
SENSORS
PH:
PHARMACEUTICALS AND FERMENTATION
Polilyte Plus ORP
The maintenance free Polilyte Plus ORP sensors
are designed to withstand demanding applications
in chemical and petrochemical industries.
Monitoring the ORP value is becoming increasingly
important in many applications, especially harsh
chemical environments or high alkaline wastewater.
Because of its Single Pore diaphragms you will
never have liquid junction problems and total
breakdowns. The Polilyte Plus ORP sensors
demonstrate reliable reproducible measurement
accuracy in highly alkaline solutions as well as in
samples with low conductivity. Additionally, the
Everef-L reference cartridge ensures a long lifetime.
Benefits
XX 2 Single Pores prevent clogging and ensure reliable
measurements
XX Minimal diffusion potenital
XX Highly reproducible measurements and very stable over
a long period of time
Arc System
XX Resistant against solvents, strong acids and bases
The Polilyte Plus ORP is only available with our innovative
Arc system. The Arc system eliminates the transmitter and
communicates directly with your Process Control System.
More information can be found on page
12
Typical applications
XX Sugar industry
XX Dye industry
XX Industrial wastewater
USP
Class VI
XX Paper industry
PH: PHARMACEUTICALS AND FERMENTATION
SENSORS
ORP
Specifications
Measuring range
± 2000 mV (Arc: ± 1500 mV)
Process temperature
0 – 130 °C (Arc: analog 0 – 110 °C,
digital 0 – 130 °C)
Pressure range
(relative to ambient)
see page 15
Hygienic aspects
Autoclavable, CIP, SIP
ORP element
Pt wire
Electrolyte
Polisolve Plus
Reference system
Everef-L
Diaphragm
Single Pore
Ordering Information
a-lengthS8
Arc
Polilyte Plus ORP120
243185
225
243186243061
325
–243062
425
–243063
243060
Accessories
ORP buffers see page
Cables see page
90
94
Arc Accessories see page
Housings see page
98
108
45
SENSORS
EasyFerm Plus ORP
The EasyFerm Plus ORP sensors are designed to
withstand demanding applications in pharmaceutical
and chemical industries. It is supplied with a prepressurized electrolyte which prevents the diffusion
of sample into the sensors. The Everef-F reference
cartridge ensures that the Phermlyte reference
electrolyte remains free of silver and precipitation.
Measuring the ORP value is getting more and
more important in the branches mentioned above.
Benefits
Arc System
The EasyFerm Plus ORP is only available with our innovative
Arc system. The Arc system eliminates the transmitter and
communicates directly with your Process Control System.
More information can be found on page
12
XX Pre-pressurized reference electrolyte ensures a
clog-free diaphragm
XX Almost drift-free measurement
XX Stable measurement signals after steam sterilization,
autoclavation and CIP cleanings
XX Large platinum ring
Typical applications
XX Bioreactors
XX Industrial processes
USP
Class VI
XX Downstream processes
SENSORS
ORP
Specifications
Measuring range
± 2000 mV (Arc: ± 1500 mV)
Process temperature
0 – 140 °C (Arc: analog 0 – 110 °C,
digital 0 – 140 °C)
Pressure range
(relative to ambient)
0 – 6 bar
Hygienic aspects
Autoclavable, CIP, SIP
ORP element
Pt ring
ElectrolytePhermlyte
Reference system
Everef-F
Diaphragm
HP Coatramic
Ordering Information
a-lengthS8
Arc
EasyFerm Plus ORP120
243187
225
243188243051
325
–243052
425
–243053
243050
Accessories
ORP buffers see page
Cables see page
90
94
Arc Accessories see page
Housings see page
98
108
47
SENSORS
ChemoTrode ORP
The ChemoTrode ORP is the most robust sensor
to measure the oxidation-reduction potential
in demanding applications in pharmaceutical
and chemical industries. The ChemoTrode has
a refill hole which allows refilling the electrolyte
and pressurization of the reference electrolyte.
Its Everef-F reference cartridge ensures that the
reference electrolyte remains free of silver and
precipitation of proteins.
Benefits
XX Liquid electrolyte ensures fast response time and
high precision
XX Longer lifetime thanks to refillable electrolyte
XX Everef-F reference cartridge extends electrode life
in aggressive media
Typical applications
XX Industrial processes
XX Mining Industry
XX Pulp and Paper industry
XX Fermentations
SENSORS
ORP
Specifications
Measuring range
± 2000 mV
Process temperature
0 – 130 °C
Pressure range
(relative to ambient)
0 – 6 bar
ORP element Pt ring
Electrolyte
Viscous 3 M KCI-LR
Reference system
Everef-F
Diaphragm
HP Ceramic
Ordering Information
a-lengthS7
ChemoTrode ORP
120 238740
150 238742
Accessories
ORP buffers see page
Cables see page
Housings see page
90
94
108
49
SENSORS
OxyTrode Pt
The maintenance free OxyTrode Pt is an ORP
sensor designed for processes in the chemical
industry and for applications in wastewater
treatment. Three high-performance ceramic
diaphragms reduce the effect of flow potential
in pipe mounting.
“Did you know… that the
OxyTrode Pt is the ORP
version of the MecoTrode?
”
Benefits
XX 3 high performance ceramic diaphragms for reduced
flow potentials when mounted in pipes
XX Platinum wire coil welded onto the glass
Typical applications
XX Water and Wastewater
USP
Class VI
XX Industrial processes
SENSORS
ORP
Specifications
Measuring range
± 2000 mV
Process temperature
0 – 130 °C
Pressure range
(relative to ambient)
0 – 16 bar (25 °C)
0 – 6 bar (130 °C)
ORP element
Pt wire
Electrolyte
Viscous 3 M KCI-Pharma, blue
Reference system
Everef
Diaphragm
HP ceramic
Ordering Information
a-lengthS8
OxyTrode 120 238810
Accessories
ORP buffers see page
Cables see page
Housings see page
90
94
108
51
SENSORS
Polilyte RX
Polyplast Pro RX
The maintenance free Polilyte RX and
Polyplast Pro RX sensors are designed for ORP
measurement in water applications and low
conductivity samples, e.g. wastewater, fish
farming, ground water, etc.
The Single Pore liquid junction guarantees
best measurement results because of direct
contact between the sample and the Polisolve
electrolyte – clogging is nearly impossible.
The Polyplast Pro sensor comes with a robust
plastic shaft and glass bulb protection, making
it one of our most economical and longest
lasting sensors.
Benefits
XX Single Pore for direct sample contact with Polisolve
electrolyte
XX No clogging
XX Fast response even in low conductivity media
XX Easy maintenance due to non refillable electrolyte
Typical applications
XX Wastewater applications
XX Fish farming
XX Ground water
SENSORS
ORP
Specifications
Measuring range
± 2000 mV
Process temperature
Polilyte Pro: -10 – 60 °C
Polyplast Pro: -10 – 40 °C
Pressure range
(relative to ambient)
0 – 6 bar
ORP element
Pt-wire
ElectrolytePolisolve
Reference system
Polilyte Pro: Everef-B
Polyplast Pro: Ag/AgCl
Diaphragm
Single Pore
Ordering Information
a-lengthS8
Polilyte RX120
238433
Polyplast Pro RX120
238409
Accessories
ORP buffers see page
Cables see page
Housings see page
90
94
108
53
SENSORS
EasyControl ORP
The maintenance free EasyControl ORP is
an entry level ORP sensor for chemical or
wastewater applications and low process
temperatures.
It is also often used in swimming pools to
control the disinfection with chlorine. They show
also good behavior in samples containing few
ions, with respectively low conductivity.
Benefits
XX Suitable for low conductivity media
XX Easy maintenance due to non refillable electrolyte
Typical applications
XX Wastewater applications
XX Fish farming
XX Ground water
XX Swimming Pools
SENSORS
ORP
Specifications
Measuring range
± 2000 mV
Process temperature
0 – 60 °C
Pressure range
(relative to ambient)
0 – 2 bar
ORP element
Pt-wire
Electrolyte
Viscous 3 M KCI-Pharma
Reference system
Ag/AgCl
DiaphragmCeramic
Ordering Information
a-lengthS8
EasyControl ORP120
238523
Accessories
ORP buffers see page
Cables see page
Housings see page
90
94
108
55
SENSORS
Cond
The electrical conductivity is important for the characterization
of liquids in different kinds of processes. In aqueous solutions
the conductivity is caused by the decomposition of dissolved
acids, bases or salts into positive cations and negative
anions. In ultra-pure water, where no ions, except very few
H3O+ and OH-, are present, the conductivity is extremely
low. This intrinsic conductivity of water represents the lower
border of the conductivity scale.
The electrical conductivity is determined by a resistivity
measurement when an alternating voltage is applied to a
measurement cell that consists of two or four electrodes. To
compensate for the geometry of the conductivity cell a cell
constant is used. This constant is either known or determined
by means of conductivity standards.
Electrical conductivity is the reciprocal of electrical
resistivity, and measures a material’s ability to conduct
an electric current. Its SI unit is Siemens per meter (S/m).
For the measurement of the conductivity of a solution it’s
common to use µS/cm or mS/cm.
Segment / Application
CIP station
Sensor Feature
Conducell 4UxF
Bio Pharma
Chem Pharma
Varivent ®
4 pole / wide measuring range
Conducell 4US
Various O-ring positions
Brewery / Beverage
Conducell PWSE
Triclamp
UPW
Waste Water
Conducell 2DC
2 pole
57
SENSORS
Conducell 4UxF
The Conducell 4UxF sensors are suited
for measurements in hygienic applications.
All wetted parts are FDA approved, can be
cleaned easily and withstand CIP cleanings
and autoclavations. The sensors show a very
good linearity over a broad measuring range.
They are available with different process
connections such as BioConnect® (BC) or
Varivent®.
The Conducell 4USF with stainless steel
electrodes is most common and suitable for
many applications.
Benefits
XX Very good linearity, especially for applications with
sharp variations in conductivity
XX All wetted parts are FDA-compliant
Arc System
XX Sensor is very easy to clean due to the forward facing,
flush arrangement of electrodes
The Conducell 4UxF is available with our innovative Arc
system. The Arc system eliminates the transmitter and
communicates directly with your Process Control System.
More information can be found on page
12
XX Specifically designed for sterile applications in Pharma
and Biotechnology (EHEDG)
Typical applications
XX CIP station
USP
Class VI
XX Water preparation
TYPE EL - CLASS I
MARCH 2009
SENSORS
Cond
Specifications
Measuring range
1 µS/cm – 300 mS/cm
Measurement Principle 4 pole contacting
Process temperature
-20 – 150 °C (Arc: analog 0 – 110 °C,
digital 0 – 150 °C)
Pressure range
(relative to ambient)
-1 – 20 bar (135 °C)
-1 – 10 bar (140 °C)
Hygienic aspects
Autoclavable, CIP, SIP
Cell constant
0.36/cm
Material of electrodes
(x)
S = Stainless steel 1.4435
H = Hastelloy C 2.4602
T = Titanium
Ordering Information
a-length
Conducell 4USF-PG 120
VP 6
Arc
237620242159
225
237632
242160
325
237633
242161
425
237634
242162
Conducell 4UHF-PG 120 237627–
Conducell 4UTF-PG 120 237630–
Conducell 4USF-VV
3
Conducell 4USF-BC
21 237650–
237640–
VV = Varivent®
BC = BioConnect
Accessories
Conductivity Standards see page
Cables see page
Housings see page
92
94
108
59
SENSORS
Conducell 4US
The Conducell 4US 4-pole conductivity
sensors are designed for different process
connections such as Triclamp or G 1¼“ with
various O-ring positions.
The sensors show a very good linearity over
a broad range of conductivities.
The Conducell 4US 4-pole sensor can
easily bei cleaned and is suitable for steam
sterilization, autoclavation and CIP cleanings.
Benefits
XX Very good linearity, especially for applications with
wide variations in conductivity
XX All wetted parts are FDA-compliant
XX Sanitary: Sensor is easy to clean
XX O-ring position can be chosen individually
Typical applications
XX Fermentation
USP
Class VI
XX Chemical industry
SENSORS
Cond
Specifications
Measuring range
0.1 µS/cm – 500 mS/cm
Measurement Principle
4 pole contacting
O-ring position
22 mm – 55 mm
Process temperature
-20 – 135 °C
Pressure range
(relative to ambient)
0 – 6 bar
Hygienic aspects
CIP, SIP
Cell constant
0.147/cm
Material of electrodes
Stainless steel 1.4435
a = 37 + OP
Ordering Information
a-length
Conducell 4US-G125
variable
5 m Fix cable
Conducell 4US-T150-50
50
237750
Conducell 4US-T150-100
100
237760
237700-OP
Accessories
• Flow-through cell PEEK TC 1.5” Ref 237931
This flow through cell made of FDA approved PEEK
facilitates insertion of Conducell 4US-T150-50 in pipework.
Conductivity Standards see page
Safety Socket see page
92
132
61
SENSORS
Conducell PWSE
The Conducell PWSE 2-pole conductivity
sensors are designed for the use in liquids with
very low conductivity, i.e. Ultra Pure Water, Pure
Water and Water for Injection, particularly in the
pharmaceutical and chemical industry.
Conducell PWSE sensors are available with
different process connections such as
TriClamp 1.5”, PG 13.5, G 1¼”, NPT ¾”.
“Did you know… that with
Arc all the important
information is stored in the
sensor head?
”
Arc System
The Conducell PWSE is only available with our innovative
Arc system. The Arc system eliminates the transmitter and
communicates directly with your Process Control System.
More information can be found on page
12
Benefits
XX Sanitary design: all wetted parts are FDA approved
XX Easy cleanable
XX Intelligence in the sensor: fully compensated
measurement signals
XX Easy handling due to user-friendly interface
Typical applications
XX Ultra Pure Water
XX Pure Water
USP
Class VI
XX Water for Injection
SENSORS
Cond
Specifications
Measuring range
0.01 – 2000 µS/cm
Measurement Principle
2 pole contacting
Process temperature
Arc: analog 0 – 110 °C,
digital 0 – 130 °C
Pressure range
(relative to ambient)
0 – 10 bar (130 °C)
Hygienic aspects
Autoclavable, CIP, SIP
Cell constant
< 0.1/cm
Material of electrodes
Stainless Steel DIN 1.4435
Surface quality
R a < 0.4 μm (N5)
Ordering Information
a-length
Conducell PWSE Arc PG 13.5
120
Conducell PWSE Arc TC 1.5” 87
Arc
Arc
242730–
–
242720
Accessories
Conductivity Standards see page
Cables see page
94
Arc Accessories see page
Housings see page
92
98
108
63
SENSORS
Conducell 2DC-PG
The Conducell 2DC sensor is constructed in a
simple way and is best suited for measurements
in clean solutions and non-critical applications.
Contaminants, such as lime, will affect the
measurement.
Benefits
XX 2 large graphite electrodes for stable measurements
XX Mechanically-stable plastic shaft
XX Easily cleanable
Typical applications
XX Water and Wastewater
SENSORS
Cond
Specifications
Measuring range
10 µS/cm – 20 mS/cm
Measurement Principle
2 pole contacting
Process temperature
-5 – 80 °C
Pressure range
(relative to ambient)
0 – 6 bar
Cell constant
1/cm
Material of electrodes
Graphite
Ordering Information
a-length
Conducell 2DC-PG 120
120
5 m Fix cable
237610
Accessories
Conductivity Standards see page
Housings see page
92
108
65
SENSORS
Cell
Density
Biological processes are increasingly important in
biotechnical and pharmaceutical industries. The variability
of living organisms is often very high, making the culture
process difficult to standardize. Extensive process optimization
and control are required for stable cell cultures, fermentations
and improved yield. Today bioprocess development relies on
labor intensive sampling and offline measurements that also
lack the necessary granularity to fully optimize the yield. The
available online measurements of pH and dissolved oxygen
are linked indirectly to the cell status and characteristics.
Online monitoring of cell density provides the continuous cell
data necessary to optimize control and yield beyond what is
possible offline. Hamilton now offers sensors for continuous
cell density measurement. The Incyte capacitance sensor
delivers information on viable cell density whereas the
Dencytee sensor measures total cell density via turbidity.
In combination with our advanced wireless Arc pH and
dissolved oxygen probes, capacitance and turbidity
sensors provide all relevant information on the progress of
mammalian, yeast and bacteria cultures at a glance on the
Arc View Controller. This enables better understanding of
optimization and control of bioprocesses.
Segment
Application
Cell Culture
Sensor
VCD (Viable Cell Density)
Incyte
Capacitance
BioPharma
Feature
Insensitiv to micro-carrier / cell debris
Yeast
TCD (Total Cell Density)
Dencytee
Bacteria
Optical Density
Low density fermentation
67
SENSORS
Incyte
Accurately analyzing the characteristics of viable
cells during bioprocess is crucial. Only viable and
healthy cells are producing the product of interest.
Today these characteristics are monitored by labor
intensive offline samplings.
Analyzing cell characteristics online provides deep insight into the
bioprocess. It allows stable process control, fast optimization
and reduces the risk of sampling errors. The Incyte sensor is
especially designed for measuring viable cells during mammal
cell culture, yeast and high density bacterial fermentation.
The measurement principle of Incyte sensors is based on
capacitance. Viable cells behave like little capacitors and their
polarization and depolarization in an alternating electrical
field is measured. This signal can be correlated to the viable
cell density. This method is insensitive to cell debris and
microcarriers because only viable cells can be polarized.
A measuring unit consists of an Incyte sensor and a preamplifier, which converts the analog measurement to a
stable digital signal. This unit has to be connected to the
Arc View Controller, equipped with a required Incyte and
optional Incyte scan license.
“Did you know… that Hamilton
is the only provider of all
relevant parameters for cell
cultures & fermentations: viable
cell density, pH and DO?
”
Benefits
XX Specific for viable cells
XX Suitable for cell culture and fermentation
XX Insensitive to microcarriers and cell debris
XX No more hidden events
XX Optimization of feeding strategy and yield
Typical applications
XX Eucaryotic cells
XX Yeast
USP
Class VI
XX High density bacteria fermentation
SENSORS
Cell
density
Specifications
Measuring Range
5 x 10 5 – 8 x 10 9 cells/mL
(Mammalian)
5 – 200 g/L dry weight
(fermentation)
2 – 50 mS/cm (media)
Measuring principle
Capacitance
Process temperature
0 – 60 °C
Pressure range
(relative to ambient)
0 – 3 bar
Hygienic aspects
Autoclavable, CIP, SIP
Surface quality
R a < 0.4 µm (N5)
+
Ordering Information
Conductivity range
a-length
Unit*
Replacement Sensor
Incyte DN25 - SG70
243710
243730
Incyte DN25 - DG46
243711
243731
Incyte DN25 - DG BE54
243712
243736
Incyte DN12
120
243700243732
Incyte DN12
220 243701243733
Incyte DN12
320
Incyte DN12
420 243703243735
SG = Single Gasket (Standard DN25)
DG = Double Gasket (Sartorius / B.Braun)
DG BE = Double Gasket Bioengineering
243702243734
* when purchased as unit, sensor and pre-amp are factory calibrated
Accessories
• Val/Cal Kit Capacitance Ref 243740
• Solution B Ref 243742
• 10 m cable M12 Ref 243871
• Capacitance Simulator Ref 243743
• Incyte Pre-Amp Ref 243720
• 20 m cable M12 Ref 243872
• Solution A Ref 238988
• 5 m cable M12 Ref 243870
• 40 m cable M12 Ref 243873
69
SENSORS
Dencytee
Accurate cell growth analysis during bioprocesses
is essential. The Dencytee sensor is especially
designed for monitoring total cell density during low
density bacterial fermentation, as well as yeast and
mammal cell cultivation.
As soon as the required amount of cells is reached,
bio-production and analysis can begin. Monitoring total
cell density requires offline sampling and analysis, which
leads to delayed result information. By measuring this
parameter online the cell growth rate can be determined
quickly and accurately without the loss of any information.
Dencytee sensors are based on optical density respectively
the turbidity of a suspension at NIR (near-infra red)
wavelengths. All particles and molecules that scatter the
NIR light will be detected and can be correlated to the
total cell density. The sensor keeps the light intensity at the
detector constant, which leads to broader range of linearity.
A measuring unit consists of a Dencytee sensor, available
in different lengths, and a pre-amplifier. This unit has to
be connected to the Arc View Controller, equipped with a
required Dencytee license.
“Did you know… that Dencytee
is the only optical density sensor
that works with a constant light
intensity at the detector?
”
Benefits
XX Wide linear measuring range
XX LED provides long lifetime
Typical applications
USP
Class VI
XX Low density fermentation
SENSORS
Cell
density
Specifications
Measuring Range
10 5 – 7 x 10 8 cells/mL
(Mammalian)
0.5 – 300 g/L dry weight
(fermentation)
Density range
0 – 4 AU
Measuring principle
Optical density, Near
Infrared (NIR, 880 nm)
Process temperature
0 – 80 °C
Pressure range
(relative to ambient)
0 – 10 bar (25 °C)
Hygienic aspects
Autoclavable, SIP
Surface quality
R a < 0.8 µm (N6)
Optical window
Sapphire glass
Optical path length
5 mm
+
Ordering Information
a-length
Unit*
Replacement Sensor
Dencytee
120
243755243750
Dencytee
220
243756243751
Dencytee
320
243757243752
Dencytee
420
243758243753
* when purchased as unit, sensor and pre-amp are factory calibrated
Accessories
• Val/Cal Solution OD Ref 243886
• 10 m cable M12 Ref 243871
• Dencytee Pre-Amp Ref 243760
• 20 m cable M12 Ref 243872
• 5 m cable M12 Ref 243870
• 40 m cable M12 Ref 243873
71
TRANSMITTER
Arc View Controller
In order to understand a
biological process, all relevant
parameters must be plotted
on a graph to be interpreted.
This is done manually after
ending a process run or
continuously with a process
control system.
It is now possible to display all relevant parameters of a
bioprocess simultaneously on a screen and also directly
at the fermenter. The Arc View controller is specifically
designed for viable and total cell density measurements
and supports Hamilton’s wireless Arc-technology to
graph and record pH and DO measurements. This allows
process analysis directly on site.
The Arc View Controller stores the calibration and
recorded data of the Incyte and Dencytee units. When the
recorded data of the connected units is displayed, errors
or failures will be detected, reported and an alarm initiated.
A software license is required for the use of the Arc View
Controller, Incyte and Dencytee; an additional license
will also be needed if options such as the Incyte Scan or
OPC are selected. A new feature provides the option to
graph Arc pH and dissolved oxygen sensors on the same
screen. The signals can be sent wirelessly directly from
the sensors, equipped with the Arc Wi adapter, to the Arc
wireless converter connected to the Arc View Controller.
The Arc View Controller is available with 2 or 4 wired input
channels for cell density, and additionally two inputs of Arc
sensors for every wired channel is available. Two screen
sizes are available and data output can be Modbus, OPC
or 4-20 mA (AUX).
Benefits
XX All relevant parameters for cell culture and fermentation
can be shown at once
XX Various different outputs ensure compatibility to process
control systems
XX Immediate automatic re-start after power failure ensures
minimum loss of data
XX Data of several runs can be stored and copied on a
USB stick
XX Different licenses for different customers’ needs
TRANSMITTER
Cell
density
Specifications
Measured variable
Conductivity, permittivity, optical density
Calculated variable
Viable cell density, total cell density
Analog output
AUX to Analog Output Box 4-20 mA
Digital outputs
Modbus RTU (RS485), Ethernet RJ45 (OPC XML-DA)
Digital inputs
USB for downloading data and firmware upgrade
Dimensions (W x D x H)
275 x 240 x 110 mm (Arc View 265)
300 x 240 x 110 mm (Arc View 465)
435 x 363 x 110 mm (Arc View 465 XL)
Display
5.7” color display (Arc View 265, 465)
12” color display (Arc View 465 XL)
Virtual keyboard
Housing material
Stainless Steel 1.4435
Measuring Channels
2 (Arc View 265)
4 (Arc View 465, 465 XL)
Operating humidity
0 – 80%
Ambient temperature
-10 – 45 °C
Power supply
24 VDC-power adapter 110 – 240 VAC to 24 VDC
Ordering Information
Arc View
265
465
465 XL
243800243801243802
Accessories
• Incyte Capacitance License Ref 243822
• 4-20 mA Output Box Ref 243850
• Incyte Scan License Ref 243823
• 5 m cable Output Box Ref 243851
• Dencytee Optical Density License Ref 243824
• 10 m cable Output Box Ref 243852
• OPC XML-DA License Ref 243820
73
SENSORS
DO
The partial pressure of dissolved oxygen (DO) plays an
important role in many biological, chemical and physical
processes. Respiration in a lung or a leaf depends on the
differences of the partial pressure as well as fermentation
of substrates by yeast or bacteria. The amount of dissolved
oxygen is also important for the safety and the quality of
many other industrial processes.
The most common technologies to measure DO are the
classical amperometric and the modern optical method.
Classical amperometric Clark cells, where cathode and
anode are separated from the sample by a gas permeable
membrane, generate an electrical current proportional to the
oxygen partial pressure of dissolved oxygen. The oxygen is
reduced in the sensor, catalyzed by an electrolyte at a platinum
cathode. At the anode silver is oxidized. In contrast to the Clark
cells the optical measurement is based on the luminescence
of a luminophore that absorbs photons and releases a part
of the absorbed energy by emission of photons with a higher
wavelength. Oxygen quenches this process by transferring
the energy partially by collision. The more oxygen present the
more quenching is observed. Hamilton measures the phase
shift between excitation and emission across a population
of light pulses in order to achieve the highest accuracy and
widest operating range. The difference in the intensity of both
waves is used for online sensor diagnostics.
Segment / Application
Waste Water
Sensor Feature
Oxysens
VisiFerm DO
Bio Pharma
Optical / Flow independent
Optical / Atex / IECEx
VisiFerm DO B
CIP / Brewery mode
Chem Pharma
VisiPro DO Ex
2-wire HART 4-20 mA
OxyFerm
Boiler Feed Water
OxyGold G
Brewery / Beverage
OxyGold B
Amperometric
Trace level
75
SENSORS
VisiPro DO Ex
The VisiPro DO is the only optical dissolved
oxygen (DO) sensor for use in explosive
environment. VisiPro DO optical technology
improves the measuring performance and
simplifies maintenance. Improvements
compared to conventional electrochemical
(amperometric) sensors include flow indepen­
dence, rapid start-up with no polarization
time, and simplified maintenance.
With their integrated transmitter, VisiPro DO
sensors enable direct communication to the
process control system via 2 wire 4-20 mA
standard signal or digital HART. All relevant
sensor data including calibration and diagnostic
information are stored in the sensor head,
simplifying calibration and maintenance.
Additional wireless communication directly from
the sensor to your computer simplify laboratory
calibration, configuration, and maintenance.
“Did you know…
that Hamilton invented
the first optical DO sensor with
ATEX / IECEx approval?
”
Benefits
XX Reliable and robust optical measurement in
hazardous environments
XX Easy installation with 2-wire connection
XX Laboratory calibration possible with HDM
XX Direct analog or digital HART communication to the
process control system via 4-20 mA signal
Typical applications
XX ATEX environment
USP
Class VI
XX Fermentation
SENSORS
DO
Specifications
Measuring range
4 ppb – 25 ppm (DO)
Measurement Principle Oxygen dependent
luminescence quenching
Process temperature
-10 – 140 °C, the sensor provides
no DO reading above 85 °C
Analog interface
Two wire sink needs to be powered
by external power supply
Operating voltage
18 – 30 VDC
Pressure range
(relative to ambient)
-1 – 12 bar
Hygienic aspects
CIP, SIP
Surface Quality
R a < 0.4 μm (N5)
Material
Stainless steel 1.4435
Ordering Information
a-lengthM12
VisiPro DO Ex120
243400
The ODO Cap has to be
ordered according to the
application separately.
225 243401
325 243402
425 243403
ODO Cap H0: For general application in biotechnology,
water treatment and monitoring as well as in breweries,
wineries and soft drink processing.
ODO Cap H1: For fermentation processes where
sterilization in place (SIP) is performed in media containing
higher amounts of lipophilic compounds.
Accessories
• ODO Cap H0 Ref 243515
• ODO Cap H1 Ref 243500
• ODO Cap H2 Ref 243505
Cables see page
Housings see page
94
108
ODO Cap H2: Hygienic designed version of ODO Cap H1.
77
SENSORS
VisiFerm DO / B
The VisiFerm DO is the first optical oxygen sensor
with integrated opto-electronics, having the full
functionality of a measuring device with selfdiagnostics. It is steam sterilizable, autoclavable
and CIP compatible. The VisiFerm requires less
maintenance than a classical oxygen sensor as it
does not have a mechanically sensitive membrane
or a corrosive electrolyte.
The VisiFerm DO B is designed to measure
DO in brewing applications, notably during
fermentation, filtration and filling. An integrated
CIP and brewery mode enable reliable
measurements in environments which may not
allow calibration after CIP.
“Did you know… that Hamilton
invented the first optical DO
sensor in 12 mm format?
”
Benefits
XX No fragile membrane – with a solid sensor cap
XX No polarization time required
XX Instantly stable values, low drift, quick response
XX Electrolyte-free, so no leakage
Arc System
The VisiFerm DO and the VisiFerm DO B are also available
with our innovative Arc system. The Arc system eliminates
the transmitter and communicates directly with your
Process Control System. More information can be found
on page
12
XX Convenient precalibration in the laboratory, because
data is stored in the sensor head
Typical applications
XX Ethanologenic fermentation
XX Biotechnical fermentation
XX Brewery fermentation, filtration, filling
USP
Class VI
XX Proactive corrosion control in HVAC systems
SENSORS
DO
Specifications
Measuring range
4 ppb – 25 ppm (DO)
Measurement Principle Oxygen dependent
luminescence quenching
Response time t98%
< 30 s at 25 °C, from air to nitrogen
Process temperature
-10 – 140 °C, the sensor provides
no DO reading above 85 °C
Operating voltage
7 – 30 VDC max. 1 W
Pressure range
(relative to ambient)
-1 – 12 bar
Hygienic aspects
Autoclavable, CIP, SIP
Surface Quality
R a < 0.4 μm (N5)
Material
Stainless steel 1.4435
Ordering Information
a-length
VP 8
Arc
VisiFerm DO120
242450-02
160
VP 8
242163
Arc
–
–
242451-02–
–
–
225
242452-02242164
–
–
325
242453-02242165
–
–
425
242454-02242166
–
–
VisiFerm DO B120
–
–
225
–
–
243091243095
325
–
–
243092243096
425
–
–
243093243097
ODO Cap H0: For general application in biotechnology,
water treatment and monitoring as well as in breweries,
wineries and soft drink processing.
ODO Cap H1: For fermentation processes where
sterilization in place (SIP) is performed in media containing
higher amounts of lipophilic compounds.
ODO Cap H2: Hygienic designed version of ODO Cap H1.
243090
243094
Accessories
• ODO Cap P0
• ODO Cap P1
• ODO Cap H0
• ODO Cap H1
• ODO Cap H2
Ref 242427
Ref 243510
Ref 243515
Ref 243500
Ref 243505
Cables see page
94
Arc Accessories see page
Housings see page
98
108
79
SENSORS
OxyFerm FDA
The OxyFerm FDA is an electrochemical oxygen
sensor suited for applications with high demands
for hygiene, e.g. in pharmaceutical industry, in
biotechnology and in food & beverage production.
It is available with 12 mm or 25 mm (XL) shaft
diameter.
When using Oxylyte USD (UpSide Down)
electrolyte, even upside-down insertion is
possible. The sensor is equipped with a
FDA approved membrane for use in hygienic
processes. It withstands steam sterilization,
autoclavation and CIP cleanings.
Benefits
Arc System
The OxyFerm FDA is also available with our innovative Arc
system. The Arc system eliminates the transmitter and
communicates directly with your Process Control System.
More information can be found on page
12
XX Sanitary Feature: The silicone membrane seals without
a gap to steel membrane body (no additional o-ring)
XX Little drift, fast response, short polarization time
XX Replacing the cathode is possible and very simple
to perform.
Typical applications
XX ATEX environment
USP
Class VI
XX Fermentation
SENSORS
DO
Specifications
Measuring range
10 ppb – 40 ppm (DO)
Response time t 98%
< 60 s at 25 °C, from air to nitrogen
Process temperature
0 – 130 °C (Arc: analog 0 – 110 °C,
digital 0 – 130 °C)
Pressure range
(relative to ambient)
0 – 4 bar
Hygienic aspects
Autoclavable, CIP, SIP
ElectrolyteOxylyte
Surface Quality
R a < 0.4 μm (N5)
Current in air at 25°C
40 – 80 nA
Material
Stainless steel 1.4435
Polarization voltage
-670 mV
Ordering Information
a-length
T82
VP 6
Arc
OxyFerm FDA
120
237450
160
237455237541243101
225
237452237542243102
325
237453237543243103
425
XL-version 56
237540
243100
237454237544243104
237175-OP–243140-OP
150 237170–
–
300 237174–
–
With the XL option, the o-ring position can be optimally matched to the weld-in socket from 22 to 55mm. Please state the OP you need when ordering.
Accessories
• Membrane Kit FDA Ref 237140
• Replacement Cathode OxyFerm Ref 237306
Cables see page
• Membrane Kit CIP Ref 237126
• Autoclavation Cap Oxyferm Ref 242000
Arc Accessories see page
• Membrane Kit Ref 237123
• Polarization Module G Ref 237350
Housings see page
• Oxylyte 50 mL Ref 237118
• Polarization Module T Ref 237370
94
98
108
• Oxylyte USD 50 mL Ref 237136
81
SENSORS
OxyGold B
The OxyGold B is an electrochemical oxygen
sensor especially designed for applications which
contain carbon dioxide like the production of beer,
sparkling wine or soft drinks. The sensor is not
affected by acidic gases.
Apart from the production of sparkling beverages,
the OxyGold B can be used in all production
processes where CO2 might be an issue for
electrochemical sensors.
“Did you know…
that the OxyGold B is the only
sensor in the market with a
polarization voltage of 0 mV?
”
Benefits
XX No cross-sensitivity with CO2
Arc System
The OxyGold B is also available with our innovative Arc
system. The Arc system eliminates the transmitter and
communicates directly with your Process Control System.
More information can be found on page
12
XX Only very little flow required
XX Pressure and CIP resistent
XX Replacing the cathode is possible and very simple
to perform.
Typical applications
XX CO2 recovery
USP
Class VI
XX Water de-aeration
SENSORS
DO
Specifications
Measuring range
8 ppb – 40 ppm (DO)
Response time t 98%
< 60 s at 25 °C, from air to nitrogen
Process temperature
0 – 100 °C (Arc and VP6)
Pressure range
(relative to ambient)
0 – 12 bar
Hygienic aspects
CIP
Electrolyte
Oxylyte B
Surface Quality
R a < 0.4 μm (N5)
Current in air at 25°C
180 – 500 nA
Material
Stainless steel 1.4435
Polarization voltage
0 mV
Ordering Information
a-length
VP 6
Arc
OxyGold B120
237180
237185243116
225
243115
Accessories
• OxyGold Membrane Kit Ref 237135
• Oxylyte B 50 mL Ref 237138
• Polarization Module B Ref 237360
• Replacement Cathode OxyGold B Ref 237437
Cables see page
94
Arc Accessories see page
Housings see page
98
108
83
SENSORS
OxyGold G
The OxyGold G is an electrochemical oxygen
sensor designed for processes in which very small
amounts of oxygen have to be traced, like in the
pharmaceutical or microelectronics industry. It is
also suitable for processes where high pressures
are applied.
Arc System
The OxyGold G is available with our innovative Arc
system. The Arc system eliminates the transmitter and
communicates directly with your Process Control System.
12
More information can be found on page
Benefits
XX Trace level measurement
XX Suitable for use at high temperatures and high
pressures during sterilization and CIP
XX Little flow sensitivity
XX Replacing the cathode is possible and very simple
to perform.
Typical applications
XX Boiler Feed Water
USP
Class VI
XX Microelectronics
SENSORS
DO
Specifications
Measuring range
1 ppb – 40 ppm (DO)
Response time t 98%
< 60 s at 25 °C, from air to nitrogen
Process temperature
0 – 130 °C (Arc: analog 0 – 110 °C,
digital 0 – 130 °C)
Pressure range
(relative to ambient)
0 – 12 bar
Hygienic aspects
Autoclavable, CIP, SIP
Electrolyte
Oxylyte G
Surface Quality
R a < 0.4 μm (N5)
Current in air at 25°C
180 – 500 nA
Material
Stainless steel 1.4435
Polarization voltage
-670 mV
Ordering Information
a-length
VP 6
Arc
OxyGold G120
237395
237396243111
225
243110
Accessories
• OxyGold Membrane Kit Ref 237135
• Oxylyte G 50 mL Ref 237139
• Polarization Module G Ref 237350
• Replacement Cathode OxyGold G Ref 237427
Cables see page
94
Arc Accessories see page
Housings see page
98
108
85
SENSORS
Oxysens
The Oxysens is an electrochemical oxygen
sensor designed for applications in water,
e.g. wastewater treatment, swimming pools
or fish farms. It is easy to maintain, because
the membrane and the electrolyte do not need
to be replaced.
The response time of the Oxysens is fast, it
is almost independent to flow and insensitive
to soiling.
Benefits
XX Maintenance-free DO sensor, no change of membrane
or electrolyte
XX Robust design
XX Insensitive to soiling
XX Short polarization and response times
Typical applications
XX Water and Wastewater
USP
Class VI
XX Fish farming
SENSORS
DO
Specifications
Measuring range
40 ppb – 40 ppm (DO)
Response time t 98%
< 60 s at 25 °C, from air to nitrogen
Process temperature
0 – 60 °C
Pressure range
(relative to ambient)
0 – 4 bar
ElectrolyteOxylyte
Surface Quality
R a < 0.8 μm (N6)
Current in air at 25°C
40 – 80 nA
Material
Stainless steel 1.4435
Polarization voltage
-670 mV
Ordering Information
a-length
Oxysens120
5 m fix cable
237150
Accessories
• Immersing Set Ref 237158
The Immersing Set sheaths and protects 120mm sensors
such as Oxysens while immersed in streams or channels.
Housings see page
108
87
BEVERLY
Born with a
Purpose
Powered
by VisiFerm
DO B
Beverly is designed for at-line and laboratory
use in small and midsize breweries as
well as in the beverage industry to provide
excellent reliability in a rugged design, and
purpose built to handle the environmental
extremes encountered in everyday brewing
operations.
Superior performance at an affordable price
is achieved using Hamilton’s best in class
optical sensor VisiFerm DO B with built-in
intelligence, making Beverly the brewer’s
best friend.
Benefits
XX Efficiency and serviceability bred from Visiferm DO B
optical sensors
Ordering Information
XX Built to endure IP 67 watertight standards
XX Stamina for 50 hours of continuous operation
TypeRef
XX Fast response time down to ppb level
Beverly817100
XX Calibration without removing the sensor
BEVERLY
DO
Portable DO Measurement
Measure DO in the bottle or can
Beverly can be used as shown in the pictures and even
beyond. An additional application is to check the oxygen
content of the exhaust gas of vessels while flushing with
CO2 after cleaning and prior to filling. Measuring the oxygen
at this point can help to save time and CO2. Even if Beverly
stays connected to a pipe or a vessel while CIP is running
it’s robust stainless steel flow cell prevents damage.
drain
Measure DO during or after filtration
drain
Check DO of bright beer tank prior to bottling
Specifications
Operating temperature range
0 – 80 °C (media)
0 – 40 °C (environment)
Operating pressure range
0 – 10 bar
Dimensions (B x W x H)
222 x 142 x 322 mm
Ø O.D. Barbed hose fittings
8 mm
Weight
4.7 kg
Protection rate
IP67
Battery
50 h (continuous operation)
Measuring range
4 ppb – 25 ppm (DO)
Measurement principle
Oxygen dependent
luminescence quenching
Response time t 98%
< 30 s at 25 °C,
from air to nitrogen
Accessories
• VisiFerm DO B Ref 243090
• ODO Cap P0 Ref 242427
• Hoses Ref 817134
drain
• Power supply Ref 817804
• Torx screwdriver Ref 817145
89
DURACAL pH BUFFERS
Buffer Solutions you can Trust
All calibration procedures assume that
the labeled values of the calibration
buffers are correct. But buffer values
can change over time and so can your
results. A complete range of patented
buffer solutions provides pH stability
up to 5 years, something never
achieved before. The pH buffers
9.21 and 10.01 are even stable
when exposed to air. High buffering
capacity provides rapid, stable
calibration. The growth of fungus and
micro-organisms is prevented.
Traceability
An important issue for the production of Certified Reference
Materials is to ensure traceability through an unbroken
chain of comparisons to reference material of the highest
metrological quality (Primary Reference Material) from NIST1
and PTB2. Unlike other manufacturers, where only topdown traceability is applied, Hamilton works with circular
or closed-loop traceability, providing unique reliability of
Hamilton DuraCal buffers.
Features
XX Convenient 250 mL or 500 mL bottle with built-in
calibration compartment
XX Economical, only about 15 mL of buffer is used per
calibration
XX Certified pH value from a DAkkS laboratory accredited
for pH measurement
XX First class certificate with traceability to international
standards
XX Certificates available at www.hamiltoncompany.com
XX Expiration date on the bottle
XX Immune to microbial growth
Top-down traceability: At Hamilton, the pH value of DuraCal
buffers is determined by comparison against two secondary
reference buffer solutions from accredited suppliers of
secondary reference materials. The solutions themselves are
compared against primary reference solutions from PTB or
NIST. The measurement uncertainties of every measurement
comparison are known and documented.
Bottom-up traceability: To ensure the highest possible accuracy
and full reliability of the pH value, a representative number
of samples from every single production lot is verified by an
external, independent and impartial DAkkS3 laboratory. The
DuraCal samples are compared against secondary reference
solutions from DAkkS and these are referenced themselves
to primary reference solutions from PTB or NIST. At this stage,
the traceability loop is closed. DAkkS provides Hamilton with
a calibration certificate for every DuraCal production batch.
Certified reference material: Due to the complete traceability
of the measurement procedure and the assignment of
uncertainties to the particular testing steps, the buffers
pH 4.01, 7.00, 9.21 and 10.01 are classified as “Certified
Reference Material” (CRM).
1) NIST: National Institute of Standards and Technology, Gaithersburg, MD, USA
2) PTB: Physikalisch Technische Bundesanstalt, Braunschweig, Germany
3) DAkkS: Deutsche Akkreditierungsstelle GmbH (D-K-15186-01-00), Zentrum for Messen und Kalibrieren GmbH, Wolfen, Germany
DURACAL pH BUFFERS
pH Buffers
Simple handling for
professional results
Step 1 Open bottle
pH Value
Accuracy
Stability*
Certified By
Packaging Unit Ref
1.09
1.68
2.00
3.06
4.01
4.01
4.01
4.01
4.01
4.01
5.00
6.00
7.00
7.00
7.00
7.00
7.00
7.00
8.00
9.21
9.21
9.21
9.21
9.21
10.01
10.01
10.01
10.01
10.01
11.00
12.00
4.01/7.00/9.21
4.01/7.00/10.01
±0.02
±0.02
±0.02
±0.02
±0.01/±0.02
±0.01/±0.02
±0.01/±0.02
±0.01/±0.02
±0.01/±0.02
±0.01/±0.02
±0.02
±0.02
±0.01/±0.02
±0.01/±0.02
±0.01/±0.02
±0.01/±0.02
±0.01/±0.02
±0.01/±0.02
±0.02
±0.02
±0.02
±0.02
±0.02
±0.02
±0.02
±0.02
±0.02
±0.02
±0.02
±0.02
±0.02
±0.01/±0.02
±0.01/±0.02
60
60
60
60
24/60
24/60
24/60
24/60
24/60
24/60
60
60
24 / 60
24 / 60
24 / 60
24 / 60
24 / 60 24 / 60
60
60
60
60
60
60
60
60
60
60
60
24
24
24/60
24/60
Hamilton
Hamilton
Hamilton
Hamilton
DAkkS
DAkkS
DAkkS
DAkkS
DAkkS
DAkkS
Hamilton
Hamilton
DAkkS
DAkkS
DAkkS
DAkkS
DAkkS
DAkkS
Hamilton
DAkkS
DAkkS
DAkkS
DAkkS
DAkkS
DAkkS
DAkkS
DAkkS
DAkkS
DAkkS
Hamilton
Hamilton
DAkkS
DAkkS
500 mL
500 mL
500 mL
500 mL
250 mL
500 mL
3 x 500 mL
5 L
10 L
1000 L
500 mL
500 mL
250 mL
500 mL
3 x 500 mL
5 L
10 L
1000 L
500 mL
250 mL
500 mL
3 x 500 mL
10 L
1000 L
250 mL
500 mL
3 x 500 mL
10 L
1000 L
500 mL
500 mL
500 mL, mixed
500 mL, mixed
238271
238272
238273
238274
238317
238217
238917
238332
238194
238895
238275
238276
238318
238218
238918
238333
238188
238896
238277
238319
238219
238919
238216
238897
238321
238223
238923
238187
238898
238278
238279
238922
238924
Accuracy
±5 mV
±5 mV
±5 mV
Stability*
24
24
24
Step 3 Calibrate
electrode
Step 4 Empty calibration
compartment
ORP Buffers
pH Value
271 mV
475 mV
475 mV
Step 2 Fill calibration
compartment
Certified By
None
None
None
Packaging Unit Ref
500 mL
238228
250 mL
238322
500 mL
238227
* In months
91
CONDUCTIVITY STANDARDS
Hamilton Conductivity Standards
Long-term stability and accuracy
For measurements in the low conductivity range stable and
reliable calibration standards have been completely lacking
up to now. Since a conductivity standard is not a buffer
solution, the lower the value of the conductivity standard, the
greater the effect of entry of CO2 or contamination. Hamilton
is the first manufacturer to offer patented conductivity
standards of 1.3 and 5 μS/cm with a certified accuracy
of ±1% and a lifetime of 1 and 3 years, respectively. The
procedure for determining conductivity was developed
in collaboration with DFM1. Many metrological institutes
choose Hamilton standards because of their unprecedented
stability and independent verification by PTB. During an
interlaboratory test among prestigious European metrological
institutes (PTB, DFM, DAkkS3) Hamilton standards were used
as measurement solutions.
Hamilton is Different
Hamilton offers conductivity standards whose
stability of ±1% is guaranteed over a lifetime of up
to 3 years. They can be used repeatedly under the
condition that the bottle is not left open for more
than 1 hour in total.
A representative number of bottles from every
batch are measured by DFM. Their value is
recorded on the calibration certificate and on
every bottle. DFM enjoys the highest prestige in
Europe in the area of electrolytic conductivity and
is equipped with an absolute measurement cell
that was developed in collaboration with NIST,
and is accredited by the Danish accreditation
agency DANAK to a conductivity of 0.9 μS/cm.
DFM and NIST4 have made comparisons of their
measurement uncertainty and have confirmed
in a series of scientific publications that the
measurement accuracy is in each case the
same. Because no primary stand­ards exist in the
low conductivity range, measurements depend on
absolute measurement cells which trace electrical
conductivity back to the SI units: meter and volt.
Testing of Hamilton stand­ards is thus carried out
on the most precise measurement apparatus in the
world, and certified accordingly.
1) DFM: Danish Institute of Fundamental
Metrology, Dänemark
2) PTB: Physikalisch-Technische Bundesanstalt,
Braunschweig
3) DAkkS: Deutsche Akkreditierungsstelle
4) NIST: National Institute of Standards and
Technology, Gaithersburg MD, USA
CONDUCTIVITY STANDARDS
Unique advantages:
XX
Remains stable for a minimum of 1 year for 1.3 µS/cm,
and up to 3 years for all other values
XX
Certificate with calibration document from DFM
(available at www.hamiltoncompany.com)
XX
Expiration date shown on every bottle
XX
Bottles are permitted to stay open for a total of 60 minutes
Stability of the Hamilton 5µS/cm Conductivity
Standard over 36 months
Conductivity (µS/cm)
Check measurement by PTB2
nominal value: 5µS/cm
actual value
tolerance: 5µS/cm ± 1%
Time in storage (months)
Value at 25°C
1.3 µS/cm
5 µS/cm
15 µS/cm
84 µS/cm
100 µS/cm
147 µS/cm
706 µS/cm
1413 µS/cm
1413 µS/cm
12880 µS/cm
100 mS/cm
Accuracy
±1%
±1%
±1%
±1%
±1%
±1%
±2%
±1%
±1%
±1%
±1%
Stability (in months)
12
36
36
18
36
18
36
36
18
18
36
Certificate From
DFM
DFM
DFM
DFM
DFM
DFM
Hamilton
DFM
DFM
DFM
Hamilton
Packaging Unit
Glass bottle
Glass bottle
Glass bottle
Calpack bottle
Glass bottle
Calpack bottle
Glass bottle
Glass bottle
Calpack bottle
Calpack bottle
Glass bottle
Volume
300 mL
300 mL
300 mL
500 mL
300 mL
500 mL
300 mL
300 mL
500 mL
500 mL
300 mL
Ref
238973
238926
238927
238984
238934
238985
238929
238928
238986
238988
238935
93
CONNECTING CABLES FOR SENSORS
Cables
For sensors with standard (S7) connector. Device side no connector (open end).
LengthDiameter
1 m
5 mm
5 m
5 mm
10 m
5 mm
Ref
355 072
355 066
355 080
For sensors with standard (S7) connector. Device side BNC connector.
LengthDiameter
1 m
3 mm
3 m
3 mm
5 m
3 mm
Ref
355 043
355 057
355 056
For sensors with standard (S7) connector. Device side DIN connector.
LengthDiameter
1 m
3 mm
3 m
3 mm
5 m
3 mm
Ref
355 045
355 059
355 058
For sensors with K8 connector. Device side no connector (free end).
LengthDiameter
1 m
5 mm
3 m
5 mm
5 m
5 mm
10 m
5 mm
Ref
355
355
355
355
153
154
155
156
For sensors with K8 connector. Device side DIN connector.
LengthDiameter
1 m
5 mm
2 m
5 mm
3 m
5 mm
Ref
355 157
355 158
355 159
CONNECTING CABLES FOR SENSORS
For sensors with VP 6 connector. VP 6 single coaxial cable. Device side no connector (open end).
LengthDiameter
1 m
7,5 mm
3 m
7,5 mm
5 m
7,5 mm
10 m
7,5 mm 20 m 7,5 mm
Ref
355
355
355
355
355
108
109
110
111
112
For sensors with VP 8 connector, e.g. VisiFerm DO, Arc Sensors. VP 8 double coaxial cable.
Device side no connector (open end).
LengthDiameter
1 m
7,5 mm
3 m
7,5 mm
5 m
7,5 mm
10 m
7,5 mm 15 m
7,5 mm
20 m 7,5 mm
Ref
355
355
355
355
355
355
217
218
219
220
221
222
For sensors with T82/D4 connector, e.g. OxyFerm. Device side no connector (open end).
LengthDiameter
1 m
5 mm
3 m
5 mm
5 m
5 mm
10 m
5 mm
Ref
355
355
355
355
087
088
089
311
Ref
355
355
355
355
160
161
162
163
For sensors with T82/D4 connector, e.g. OxyFerm. Device side Lemo connector.
LengthDiameter
1 m
5 mm
2 m
5 mm
3 m
5 mm
5 m
5 mm
Sensor Cable M12 (4-pole) for sensors with standard M12 connector. Device side open end.
LengthRef
3 m
355 283
5 m
355 284
10 m
355 285
95
ACCESSORIES
Oxygen Accessories
OxyGold Membrane Kit
The OxyGold Membrane Kit contains 3 membrane bodies
with the rounded design, pipette and a spare o-ring.
Electrolyte must be ordered separately to match the sensor
(see page 87).
Ref
237135
Polarization Module
OxyFerm Membrane Kit
The OxyFerm Membrane Kit contains 3 membrane bodies,
Oxylyte electrolyte, pipette, spare o-ring and a polishing strip.
Ref
237123
The Polarization Module is to prepare replacement sensors
so that they can be used immediately for measurements
without connection to a transmitter. It polarizes the oxygen
sensors and saves polarization time at the transmitter.
Polarization Module T
OxyFerm / OxyFerm FDA / OxyFerm XL
Ref 237370
Polarization Module G
OxyFerm VP / OxyGold G
Ref 237350
Polarization Module B
OxyGold B
Ref 237360
Replacement Cathode OxyFerm
Ref 237306
Replacement Cathode OxyGold G
Ref 237427
Replacement Cathode OxyGold B
Ref 237437
Membrane Kit FDA
The Membrane Kit FDA is the kit for the OxyFerm FDA
sensors and contains 3 FDA membrane bodies, Oxylyte
electrolyte, pipette, spare o-ring and a polishing strip. The
mambrane body of the FDA membrane has a special
rounded design to prevent accumulation of gas bubbles.
Ref
237140
Autoclavation Cap
Membrane Kit CIP
The Membrane Kit CIP contains 3 membrane bodies
that are especially designed to withstand CIP cleanings.
Oxylyte electrolyte, pipette, spare o-ring and a polishing strip.
Ref
237126
The Autoclavation Cap is used to protect the OxyFerm
T82 connector from moisture during autoclavation.
It is important to keep connections dry and clean to ensure
reliable measurements.
Autoclavation Cap OxyFerm
Ref 242000
ACCESSORIES
Electrolytes and Solutions
Electrolyte
Electrolytes for pH Sensors
Ref
3 M KCl
238036
100 mL
3 M KCl
500 mL
238936
Skylyte-CL
100 mL
242080
Protelyte
100 mL
238038
3 M KCl-LR
500 mL
238939
Skylyte
500 mL
238937
Electrolytes for Oxygen Sensors
Ref
OxyGold Oxylyte G
237139
50 mL
OxyGold Oxylyte B
50 mL
237138
OxyFerm Oxylyte
50 mL
237118
Oxylyte USD (Up-Side Down)
50 mL
237136
Storage Solution
In order to to achieve long sensor life and faster electrode
response times, it is recommended to store electrodes in our
storage solution. It is an acid-buffered solution that ensures
the regeneration of the electrode in addition to provide an
optimized storage.
Storage Solution
500 mL
Ref 238931
Cleaning Solution Set
Depending on the type of application, the pH glass or diaphragm
can get contaminated through various ingredients of the
measuring solution. This is indicated by a slow response of
the electrode, or even incorrect readings. To overcome these
problems, Hamilton has developed a cleaning solution set.
The intention is to have an overall cleaning of the pH glass as
well as the diaphragm. The set is comprised of Cleaning
Solution A, Cleaning solution B and a storage solution. To clean
the electrode put it into each solution for 15 – 30 minutes, and
your electrode will be ready for new measurements again.
Cleaning Solution Set
Ref 238290
97
ARC ACCESSORIES
Arc Accessories
Sensor Power Cable for control systems or transmitters with Lemo connector.
The code XX in the product number defines the type of electrical power connector:
LengthRef
2,5 m
355245-xx
01 – Power cord EU
02 – Power cord CH
03 – Power cord US
04 – Power cord UK
05 – Power cord AU/NZ
Sensor Power Cable for control systems or transmitters with 6-pole BINDER connector.
The code XX in the product number defines the type of electrical power connector:
LengthRef
4 m
355258-xx
01 – Power cord EU
02 – Power cord CH
03 – Power cord US
04 – Power cord UK
05 – Power cord AU/NZ
Sensor Power Cable for control systems or transmitters with BNC connector.
The code XX in the product number defines the type of electrical power connector:
LengthRef
1 m
355297-xx
3 m
355296-xx
01 – Power cord EU
02 – Power cord CH
03 – Power cord US
04 – Power cord UK
05 – Power cord AU/NZ
Sensor Power Cable for control systems or transmitters with AMP connector.
The code XX in the product number defines the type of electrical power connector:
LengthRef
1 m
355298-xx
Sensor Power Cable M12 – 4 Pole
01 – Power cord EU
02 – Power cord CH
03 – Power cord US
04 – Power cord UK
05 – Power cord AU/NZ
This cable includes a power adapter to supply the
VisiPro DO Ex sensor with operation power.
LengthRef
3 m
355288
ARC ACCESSORIES
Demo Cable VP 8 for demonstration of Arc sensors. With power supply. Device side open end.
The code XX in the product number
defines the type of electrical power
connector:
LengthRef
1 m
355194-xx
01 – Power cord EU
02 – Power cord CH
03 – Power cord US
04 – Power cord UK
05 – Power cord AU/NZ
Arc Wireless Converter Modbus
Designed for wireless communication between
HDM (Hamilton Device Manager) and Arc Sensors.
Ref
243498
Wireless Converter BT
Designed for wireless communication between
HDM (Hamilton Device Manager) and VisiPro DO Ex.
Ref
243499
Arc Wi Sensor Adapter
The Arc Wi sensor adapter is expanding the functionality
of Arc sensors by providing wireless communication for
local monitoring all analog and digital signals are bypassed
through the Arc Wi Sensor Adapter.
Ref
242170
Arc Wi 2G Adapter
The Arc Wi 2G adapter is expanding the functionality of
Arc sensors by providing wireless communication for local
monitoring in parallel to robust 4-20 mA signal, and simple
sensor connection to the PCS with additional internal
galvanic isolator for an
enhanced signal quality.
Ref
243030
99
ARC ACCESSORIES
Arc View H-Package
The H-Package consists of an
Arc View Handheld, the docking
station, a power supply and a
sensor cable.
Arc View Handheld
This device empowers the operator to monitor measurement
values, calibrate Arc sensors and configure various parameters
with a unified user interface for pH, DO, Conductivity and
ORP. The Arc View Handheld can communicate with up to
30 Arc sensors at a time over wireless channels parallel to
the process control system’s main interface.
Deutschmann Module
The Deutschmann Unigate® CL
Module converts the Modbus
protocol of the Arc and VisiFerm
DO sensors into the Profibus
DP protocol. All Arc parameters
DO, pH, ORP and conductivity
are supported. The conversion
script is pre-installed.
TypeRef
Arc View Handheld 242167
Arc View Handheld Dock 242168
Arc View H-Package
242180
Power Supply
242007
Memory Stick
396230
Accu Pack Arc View
242057
Arc ECS Adapter
01 – Power cord EU
02 – Power cord CH
03 – Power cord US
04 – Power cord UK
05 – Power cord AU/NZ
The code XX in the product
number defines the type of
electrical power connector:
TypeRef
TypeRef
Deutschmann Unigate CL Profibus Module
243555
Arc ECS Adapter pH/ORP BNC
243168-XX
Modbus – Profibus Programmer’s Manual
624719
Arc ECS Adapter pH/ORP open end 243169-XX
®
VisiFerm D4-Power Adapter
01 – Power cord EU
02 – Power cord CH
03 – Power cord US
04 – Power cord UK
05 – Power cord AU/NZ
Arc Sensor Cable with M8 4-pole socket. For
sensor connection to Arc View Handheld Dock.
The code XX in the product
number defines the type of
electrical power connector:
Ref
242413-XX
LengthRef
1 m
242176
HAMILTON CUSTOMIZED PRODUCTS
Hamilton Customized Products
Customized products for our customers’ special needs
The adaptation of standard products to customer’s special needs is the main
focus of our application engineering team. Customizing can include modifications
to length, insertion depth, process adaptation of the sensor or changing the
housing to a different material. Many more adaptions are possible.
Need a custom housing
or sensor? The Hamilton
Customized Product
Team is happy to help
design products for your
specific application. Give
us a call to learn more.
101
TRANSMITTER
Transmitter H100
The H100 is a transmitter for universal use in the
chemical industry, power stations, biotechnology,
food processing and pharmaceutical industries as
well as in water/wastewater treatment. Icons guide
the operator and show the sensor status.
Sensor failures are detected, shown on the display
and an alarm is set. Calibration can be done
manually or by selecting standard calibration
media. After each calibration the sensor data will
be shown and evaluated. The H100 is easy to
handle and can be mounted on the wall as well
as on a panel.
User friendly, robust and reliable
Easy to install, operate and calibrate
XX
Large terminal compartment and pre-assembled rear unit for easy installation.
XX
The large display and intuitive menu structure ensure straightforward navigation.
XX
Icons supply operating messages and signal unusual states.
XX
Simple calibration with automatic buffer recognition.
Robust design
XX
Optional protective hood for additional protection against weather exposure
and mechanical damage.
XX
Wall, post/pipe, or panel mounting possible with optional panel- or pipe-mount kit.
Reliable instrument for process applications
XX
The sensor status and potential defects are continuously monitored for real time
display of error or alarm.
XX
Asymmetry potential, slope and response time are evaluated during calibration through
the sensor lifetime for preventive maintenance indication.
XX
The integrated calibration timer automatically indicates when calibration is required.
TRANSMITTER
pH
Transmitter H100 pH
Ordering Information
Specifications
TypeRef
Measured variable
pH, mV and temperature
H100 pH
243080-01
Measuring range (pH / OPR)
-1500 – +1500 mV
Display range pH
-2.00 – 16.00
Measuring error
<0.02 pH, <1 mV
Temperature input
Pt 100, Pt 1000, NTC 30 kOhm
Temperature measuring range
-20.0 – +150 °C
Temperature resolution
0.1 °C
Calibration
144
1 point, 2 point and product calibration
Power supply
24 – 230 V AC/DC
Display
LC display, 7-segment with icons
Ambient temperature
-20 – 55 °C
Relative humidity
80 % at temperatures up to 55 °C
Ingress protection
IP 65, NEMA 4X
Alarm contact
Yes
• Pipe-mount kit Ref 243082
Hold mode
Yes
• Panel-mount kit Ref 243083
105
27
144
Accessories
15
• Protective hood Ref 243084
42
84
Mounting plan
32
105
105
144
144
all dimensions in mm
1
80
2
3
6,2
144
144
72
27
27
21
43
15
15
4
80
80
Front
,2
,2
2 Knockouts for cable glands or
11
22
Side
72
72
32
32
1 Cable gland (3x)
21
21
43
43
42
42
84
84
½” conduit (conduits not incl.)
3 Knockout for pipe mounting (4x)
Back
4 Knockout for wall mounting (2x)
103
33
TRANSMITTER
Cond
Transmitter H100 Cond
Ordering Information
Specifications
TypeRef
Measured variable
Conductivity, resistivity, concentration, salinity, temperature
Measuring range conductivity
0 – 999.9 mS/cm
Effective range conductivity
0.2 µS x c – 1000 mS x c
Measuring range resistivty
0.00 – 99.99 MΩ x cm
Measuring range concentration
0.00 – 9.99 % by wt
Measuring range salinity
0.0 – 45 ‰ (0 – 35 °C)
Measuring error
< 1 % meas. val. + 0.4 µS x c
Temperature input
Pt 100, Pt 1000, NTC 30 kOhm
Temperature measuring range
Pt 100/Pt 1000: -20.0 – +200 °C
NTC 30 kOhm: -20.0 – +150 °C
Temperature resolution
0.1 °C
Power supply
24 – 230 V AC/DC
Display
LC display, 7-segment with icons
Ambient temperature
-20 – 55 °C
Relative humidity
80 % at temperatures up to 55 °C
Ingress protection
IP 65, NEMA 4X
Alarm contact
Yes
• Pipe-mount kit Ref 243082
Hold mode
Yes
• Panel-mount kit Ref 243083
105
144
15
144
27
32
105
105
• Protective hood Ref 243084
21
43
all dimensions in mm
1
80
2
3
6,2
144
144
72
27
27
Accessories
42
84
Mounting plan
144
144
H100 Cond 243080-02
15
15
4
72
72
32
32
Front
80
80
1 Cable gland (3x)
21
21
43
43
42
42
84
84
2 Knockouts for cable glands or
11
22
Side
½” conduit (conduits not incl.)
3 Knockout for pipe mounting (4x)
Back
4 Knockout for wall mounting (2x)
TRANSMITTER
DO
Transmitter H100 DO
Ordering Information
Specifications
TypeRef
Measured variable
DO saturation, DO concentration
Measuring current
-2 – 1800 nA
O 2 resolution
0.05 nA
O 2 saturation
0 – 200 %
O 2 concentration
0.00 – 20.00 mg/l / 0.00 – 20.00 ppm
H100 DO
243080-03
Polarization voltage
0 – 1000 mV (User-defined)
Salinity correction
00.00 – 45.00 g/kg (User-defined)
Measuring error
< 0.5 % meas. val. + 0.5 %
Temperature input
NTC 20 kOhm, NTC 30 kOhm
Temperature measuring range
-20.0 – +150 °C
Temperature resolution
0.1 °C
Power supply
24 – 230 V AC/DC
Display
LC display, 7-segment with icons
Ambient temperature
-20 – 55 °C
Relative humidity
80 % at temperatures up to 55 °C
Ingress protection
IP 65, NEMA 4X
Alarm contact
Yes
• Pipe-mount kit Ref 243082
Hold mode
Yes
• Panel-mount kit Ref 243083
15
144
27
32
105
105
• Protective hood Ref 243084
21
43
all dimensions in mm
1
80
2
3
6,2
144
144
72
27
27
Accessories
42
84
Mounting plan
144
144
105
144
15
15
4
72
72
32
32
Front
80
80
1 Cable gland (3x)
21
21
43
43
42
42
84
84
2 Knockouts for cable glands or
11
22
Side
½” conduit (conduits not incl.)
3 Knockout for pipe mounting (4x)
Back
4 Knockout for wall mounting (2x)
105
TRANSMITTER
Transmitter H200X pH
Hamilton’s H200X Transmitter for pH measurement
combines ease of use and reliability in hazardous
areas. It has been designed for universal process
applications including use in pharmaceutical,
chemical and food & beverage industries as well
as water/wastewater treatment.
The self-explaining user interface ensures
comfortable and intuitive handling. Hamilton’s
H200X pH transmitter provides continuous
sensor monitoring and indicates when preventive
maintenance is required for maximum reliability.
Perfectly designed for hazardous areas
Easy to install, operate and calibrate
XX
Large terminal compartment and pre-assembled rear unit for easy installation.
XX
The large display and intuitive menu structure ensure straightforward navigation.
XX
Icons supply operating messages and signal unusual states.
XX
Simple calibration with automatic buffer recognition.
Robust design
XX
Wall, post/pipe, or panel mounting possible with optional panel or pipe mount kit.
XX
Application in hazardous locations (FM, CSA Class I Div. 2 / Zone 2)
XX
H200X pH may be installed in the following locations:
ATEX, Zone 1 with measurement in Zone 0
XX
Explosion protection
Reliable instrument for process applications
XX
Sensor status and potential defects are continuously monitored ; errors and alarms
are displayed in real time
XX
Asymmetry potential, slope and response time are evaluated during calibration
through the sensor lifetime for preventive maintenance indication.
XX
The integrated calibration timer automatically indicates when calibration is required.
XX
Remote-controlled via HART communication
TRANSMITTER
pH
Transmitter H200X pH
Ordering Information
Specifications
TypeRef
Measured variable
pH, mV and temperature
Measuring range (pH / OPR)
-1500 to +1500 mV
Display range pH
-2.00 – 16.00 pH, -1999 – +1999 mV (ORP)
Measuring error
<0.02 pH, <1 mV
Temperature input
Pt 100, Pt 1000, NTC 30 kOhm
Temperature measuring range
Pt 100, Pt1000: -20.0 – +200 °C
NTC 30 kOhm: -20.0 – +150 °C
Temperature resolution
0.1 °C
H200X pH
Calibration
1 point, 2 point and product calibration
Power supply
12 – 30 V
Display
LC display, 7-segment with icons
Ambient temperature
-20 – 55 °C
Relative humidity
10 – 80% not condensing
Ingress protection
IP 65, NEMA 4X
Hold mode
Yes
Explosion protection
ll 2(1)G Ex ib [ia Ga] llC T6 Gb
HART communication
Digital communication by FSK (Frequency Shift Keying)
modulation of loop current, reading of device identification, measured values, status, and messages, reading and
writing of parameters, start of product calibration, signaling
of configuration changes according to FDA 21 CFR Part 11
105
144
27
144
15
42
84
Mounting plan
32
105
105
144
144
Accessories
• Pipe-mount kit Ref 243082
• Panel-mount kit Ref 243083
• Protective hood Ref 243084
21
43
all dimensions in mm
1
80
2
3
6,2
144
144
72
27
27
243085-01
4
1 Cable gland (3x)
15
15
2 Knockouts for cable glands or
32
32
Front
80
80
21
21
43
43
42
42
84
84
½” conduit (conduits not incl.)
3 Knockout for pipe mounting (4x)
11
4 Knockout for wall mounting (2x)
22
Side
Back
2
2
107
HOUSINGS
Housings
Different processes have different requirements for sensors
to provide an accurate and reliable measurement. Being in
contact with the media is the most important one. In order
to meet the different requirements, Hamilton has developed
various kinds of housings and armatures: static, retractable,
pressurizable, pneumatic, manual, weld-in and hygienic
sockets.
No matter what type of housing is needed for a pipe or
a vessel, on the following pages the right one for each
application can be found.
109
HOUSINGS
FlexiFit
The FlexiFit housings are designed for 120 mm
sensors in different kinds of industries. A variety
of process connections ensure the usability
in the chemical industry as well as in hygienic
processes. All FlexiFit have EPDM o-rings and
the electropolished surface quality (Ra < 0.4 µm)
quality is shown on a certificate. They are suitable
for autoclavation, CIP and SIP procedures.
Benefits
XX Easy installation and handling
XX Various o-ring positions available
XX ATEX approved
XX Hygienic design
Ordering Information
Type
Process
ConnectionRef
FlexiFit Bio
G 1¼ 237331-OP
FlexiFit U Bio
G 1¼ 237380-OP
FlexiFit TC 150-33
TC 1.5”
237341
FlexiFit VV-0Varivent ®237344
USP
FlexiFit VV-15Varivent ®237345
Class VI
U = Unprotected
TC = Triclamp
HOUSINGS
Specifications
Wetted parts
Stainless Steel 1.4435
O-ring material
EPDM (FDA approved)
O-ring position
22 mm – 55 mm (G 1¼ )
Pressure range (relative to ambient)
0 – 6 bar
Temperature range
-10 – 140 °C
Sensor thread
PG 13.5
Sensor a-length
120 mm
Surface finish
R a < 0.4 µm (N5 electropolished)
ATEX approval
CE 0035 ll 1/2 G Ex ia llC T4/T5/T6
Dimensional drawing / FlexFit Bio
all dimensions in mm
Accessories
• Service Kit Flexifit Bio Ref 237366
• Service Kit FFPM Ref 237319
Safety Socket see page
132
111
HOUSINGS
RetractoFit
The RetractoFit is a retractable armature
designed for 225 mm sensors in industrial
applications. It allows the operator to mount
and dismount sensors while the process is
running. Safe sensor handling during process
is guaranteed because insertion into the vessel
without a sensor is impossible so is removal
while in the measuring position. It is easy to use
and maintain: only one press on the red button
is needed to move the sensor into or out of
the process. All o-rings can easily be replaced
by the operator without special tools. The
RetractoFit is available in different versions.
Benefits
XX Integral safety mechanism
XX Sensor can be withdrawn from the process for cleaning,
calibration or replacement
XX Easy maintenance
XX 3.1 material certificate included
Ordering Information
Type
Process
ConnectionRef
RetractoFit
G 1¼ 237240
RetractoFit PEEK 25
G 1¼ 237490
RetractoFit PEEK 38.5
G 1¼
237460
HOUSINGS
Specifications
Wetted parts
RetractoFit: Stainless Steel 1.4571
RetractoFit PEEK: PEEK (FDA approved)
O-ring material
FPM
O-ring position
RetractoFit: 22.5 mm
RetractoFit PEEK: 25 mm and 38.5 mm
Pressure range (relative to ambient)
0 – 6 bar
Temperature range
-10 – 130 °C
Sensor thread
PG 13.5
Sensor a-length
225 mm
Surface finish
RetractoFit: R a < 0.4 µm (N5 electropolished)
ATEX approval
RetractoFit: CE 0035 ll 1/2 G Ex ia llC T4/T5/T6
RetractoFit PEEK: CE 0035 ll 1/2 G Ex ia llB T4/T5/T6
Dimensional drawings / RetractoFit
all dimensions in mm
Maintenance position
Measuring position
Accessories
• Service Kit RetractoFit Ref 237239
• FFPM Kit RetractoFit Ref 237339
• Insertion tube short Ref 237255
Safety Socket see page
132
113
HOUSINGS
RetractoFit Bio
The RetractoFit Bio is a retractable housing
designed for 225 mm sensors in hygienic
applications in the biotechnology, food &
beverage and the pharmaceutical industry.
It allows the operator to mount and dismount
sensors while the process is running. Safe
sensor handling during the process is
guaranteed because insertion into a vessel
without sensor is impossible so is removal while
in the measuring position. It is easy to use and
maintain: only one press on the red button is
needed to move the sensor into or out of the
process. All o-rings can be easily be replaced
by the operator without special tools.
“Did you know… that the RetractoFit
Bio has a special rinsing chamber
with angled connections for cleaning
solutions and special inlet construction
guarantees an entire cleaning of the
chamber through a swirl effect
”
Benefits
XX Integral safety mechanism
XX Sensor can be withdrawn from the process for cleaning,
calibration or replacement
XX Special hygienic design of cleaning chamber
USP
Class VI
XX Easy maintenance
HOUSINGS
Specifications
Wetted parts
Stainless Steel 1.4435
O-ring material
EPDM (FDA approved)
O-ring position
22 mm and 55 mm
Pressure range (relative to ambient)
0 – 6 bar
Temperature range
-10 – 140 °C
Sensor thread
PG 13.5
Sensor a-length
225 mm
Surface finish
R a < 0.4 µm (N5 electropolished)
ATEX approval
CE 0035 ll 1/2 G Ex ia llC T4/T5/T6
Dimensional drawings / RetractoFit Bio 55
all dimensions in mm
Maintenance position
Measuring position
Ordering Information
Accessories
Type
Process
ConnectionRef
RetractoFit Bio 25
G 1¼ 237480
RetractoFit Bio 55
G 1¼ 237440
• FDA Service Kit Ref 237338
Safety Socket see page
132
115
HOUSINGS
Retractex B
The retractable pneumatic or manual housing
Retractex B was designed for sanitary
applications in biotechnology, food & beverage
and pharmaceutical industry. The compact
design with a stroke of only 36 mm keeps wear
on seals to a minimum and creates excellent
reliability – day and night, all year long. It can be
cleaned easily and thoroughly in place, including
the space between the socket and rinsing
chamber. The Retractex B with its patented
HyCIP cleaning principle offers the best available
cleaning efficiency for Ingold sockets (G 1¼”).
It is designed for 12 mm sensors and is equipped
with several safety features (e.g. no sensor – no
insertion, window to check seals for leakage
etc.) to provide operater safety. It is available with
various process connections that can be used
with all vessels used in these branches.
Safety Socket
How does the HyCIP process connection work?
In cleaning position, the sensor can be cleaned and sterilzed
together with all wetted seals. In the HyCIP connection the
cleaning solution is directed between armature and socket up
to the process seal so the most remote parts of the chamber
are rinsed. Thus HyCIP housings are unmatched for their
cleaning performance of the sensor and of all relevant seals.
Benefits
XX Extremely compact design
XX Integrated safety concept- no sensor – no insertion
XX Very low maintenance
USP
Class VI
XX Sterile safety and unique cleaning efficiency with HyCIP
HOUSINGS
Specifications
Wetted parts
Stainless Steel 1.4404
O-ring material
EPDM (FDA approved) or FPM
O-ring position
25 mm, 50 mm and 55 mm
Pressure range (relative to ambient)
0 – 16 bar (120 °C), 10 bar (140 °C)
Temperature range
0 – 140 °C
Sensor a-length
225 mm
Surface finish
R a < 0.8 µm (N6)
ATEX approval
Conform to DIN EN 13463-1
Ordering Information
Retractable Housing: Retractex B (hygienic)
243240
243275
Retractex B (pneumatic)
Retractex B M (manual)
Code
Material (wetted parts)
1
Stainless Steel 1.4404 (material certificate included)
0special
Code
Sealing Material (wetted sealings)
1
EPDM/FDA USP class VI (elastomer certificate included)
2FPM
0special
CodeSensor
1
225 mm PG 13.5 Gel-filled
0
special
Code
Process Connection
1
Ingold (G 1¼”) o-Ring Position 28 mm
2
Varivent N DN 40-125
3
TriClamp 1,5” (OD Ø 50,5 mm)
4
TriClamp 2” (OD Ø 64 mm)
5
NEUMO BioControl 50
6
DIN 11851 DN50
7
HyCIP for Ingold (G 1¼”) o-Ring Position 25 mm
8
HyCIP for Ingold (G 1¼”) o-Ring Position 50 mm
9
HyCIP for Ingold (G 1¼”) o-Ring Position 55 mm
0
special
Code
Cleaning Connection
1G 1 ⁄ 8” thread female
2
G 1¼” thread female
3
¼” NPT female
4
TriClamp ¾”
9
TriClamp ¾” Ø10.3 Sartorius
0
special
Code
Position switch
1
pneumatic / without for manual
0special
Ref< Order Code
117
HOUSINGS
Retractex C Steel
The retractable pneumatic or manual housing
Retractex C was designed for applications in the
chemical industry. The compact design with a
stroke of only 36 mm keeps wear on seals to a
minimum and creates to excellent reliability – day
and night, all year long. It can be cleaned easily
and thoroughly in place. It is designed for 12 mm
sensors and is equipped with several safety
features (e.g. no sensor – no insertion, window to
check seals for leakage etc.) to provide operator
safety. It is available with various process
connections that can be used with all vessels
used in this branch.
PTFE scraper
“Did you know… that the
pneumatic Retractex can be
connected to the RetractoControl
for even more comfortable
handling?
”
Cleaning of the Retractex C?
In cleaning position, the sensor can be cleaned while the
process is running. The advantage of the insertion tube
is the short way for insertion. A PTFE scraper with o-ring
guarantees that dirt stays outside of the armature and
does not harm the o-ring.
Benefits
XX Extremely compact design
XX Integrated safety concept- no sensor – no insertion
XX Very low maintenance
USP
Class VI
XX Easy installation of the pneumatic armature with color
coded connectors
HOUSINGS
Specifications
Wetted parts
Stainless Steel 1.4404 or 2.4602
O-ring material
EPDM (FDA approved) or FPM or FFPM
Pressure range (relative to ambient)
0 – 16 bar (120 °C), 10 bar (140 °C)
Temperature range
0 – 140 °C
Sensor a-length
225 mm
Surface finish
R a < 0.8 µm (N6)
ATEX approval
Conform to DIN EN 13463-1
Ordering Information
Retractex C Steel
243200
243255
Retractex C Steel (pneumatic)
Retractex C Steel M (manual)
Code
Material (wetted parts)
1
Stainless Steel 1.4404 (material certificate included)
2
Stainless Steel 2.4602 (material certificate included)
0special
Code
Sealing Material (wetted sealings)
1
EPDM / USP class VI (elastomer certificate included)
2FPM
3FFPM
0special
CodeSensor
1
225 mm PG 13.5 Gel-filled
0
special
Code
Process Connection
1
Flange DN32 PN16
2
Flange DN40 PN16
3
Flange DN50 PN16
4
Flange ANSI 1¼” 150lbs
5
Flange ANSI 1½” 150lbs
6
Flange ANSI 2” 150lbs
7
NPT M 1¼”
8
Tri Clamp 2”
0
special
Code
Cleaning Connection
1G 1 ⁄ 8” thread female
2
G ¼” thread female
3
¼” NPT female
0
special
Code
Position switch
1
pneumatic / without for manual
0special
Ref< Order Code
119
HOUSINGS
Retractex C
Plastic
The retractable pneumatic or manual housing
Retractex C was designed for applications in the
chemical industry. The compact design with a
stroke of only 36 mm keeps wear on seals to a
minimum and creates excellent reliability – day
and night, all year long. It can be cleaned easily
and thoroughly in place. It is designed for 12 mm
sensors and is equipped with several safety
features (e.g. no sensor – no insertion, window to
check seals for leakage etc.) to provide operator
safety. It is available with various process
connections that can be used with all vessels
used in this branch.
PTFE scraper
Cleaning of the Retractex C?
In cleaning position, the sensor can be cleaned while the
process is running. The advantage of the insertion tube
is the short way for insertion. A PTFE scraper with o-ring
guarantees that dirt stays outside of the armature and
does not harm the o-ring.
Benefits
XX Extremely compact design
XX Integrated safety concept- no sensor – no insertion
XX Very low maintenance
XX Easy installation of the pneumatic armature with color
coded connectors
USP
Class VI
XX Choice of 3 different plastics
HOUSINGS
Specifications
Wetted parts
PVDF or PEEK or PP
O-ring material
EPDM (FDA approved), FPM or FFPM
Pressure range (relative to ambient)
0 – 16 bar (120 °C), 10 bar (140 °C)
Temperature range
0 – 140 °C
Sensor a-length
225 mm
Surface finish
R a < 0.8 µm (N6)
ATEX approval
Conform to DIN EN 13463-1
Ordering Information
Retractable Housing: Retractex C Plastic
243220
243265
Retractex C Plastic (pneumatic)
Retractex C Plastic M (manual)
Code
Material (wetted parts)
1PP
2
PVDF / Stainless Steel 2.4602
3
PEEK (FDA approval certificate included)
0special
Code
Sealing Material (wetted sealings)
1
EPDM / FDA USP class VI (elastomer certificate included)
2FPM
3FFPM
0special
CodeSensor
1
225 mm PG 13.5 Gel-filled
0
special
Code
Process Connection
1
Flange DN50
2
Flange ANSI 2”
3
NPT M 1¼”
0
special
Code
Cleaning Connection
1G 1 ⁄ 8” thread female
2
G ¼” thread female
3
¼” NPT female
0
special
Code
Position switch
1
pneumatic / without for manual
0special
Ref< Order Code
121
HOUSINGS
Retractex C Steel LT
The retractable pneumatic or manual housing
Retractex C was designed for applications in
the chemical industry. The compact design
with a stroke of only 36 mm with an insertion
depth up to 207 mm keeps wear on seals to a
minimum and creates excellent reliability – day
and night, all year long. It can be cleaned easily
and thoroughly in place. It is designed for 12 mm
sensors and is equipped with several safety
features (e.g. no sensor – no insertion, window to
check seals for leakage etc.) to provide operator
safety. It is available with various process
connections that can be used with all vessels
used in this branch.
PTFE scraper
Cleaning of the Retractex C?
In cleaning position, the sensor can be cleaned while the
process is running. The advantage of the insertion tube
is the short way for insertion. A PTFE scraper with o-ring
guarantees that dirt stays outside of the armature and
does not harm the o-ring.
Benefits
XX Extremely compact design (only 36 mm trave of inertion
tube with an insertion depth of 207 mm)
XX Integrated safety concept- no sensor – no insertion
XX Very low maintenance
USP
Class VI
XX Easy installation of the pneumatic armature with color
coded connectors
HOUSINGS
Specifications
Wetted parts
Stainless steel 1.4404 or 2.4602
O-ring material
EPDM (FDA approved) or FPM or FFPM
Pressure range (relative to ambient)
0 – 16 bar (120 °C), 10 bar (140 °C)
Temperature range
0 – 140 °C
Sensor a-length
325 mm
Surface finish
R a < 0.8 µm (N6)
ATEX approval
Conform to DIN EN 13463-1
Ordering Information
Retractable Housing: Retractex C Steel LT
243210
243260
Retractex C Steel LT (pneumatic)
Retractex C Steel LT M (manual)
Code
Material (wetted parts)
1
Stainless Steel 1.4404 (material certificate included)
2
Stainless Steel 2.4602 (material certificate included)
0special
Code
Sealing Material (wetted sealings)
1
EPDM / FDA USP class VI (elastomer certificate included)
2FPM
3FFPM
0special
CodeSensor
1
325mm PG 13.5 Gel-filled
0
special
Code
Process Connection
1
Flange DN40
2
Flange DN50
3
Flange ANSI 1½”
4
Flange ANSI 2”
0
special
Code
Cleaning Connection
1G 1 ⁄ 8” thread female
2
G ¼” thread female
3
¼” NPT female
0
special
Code
Position switch
1
pneumatic / without for manual
0special
Ref< Order Code
123
HOUSINGS
Retractex C
Plastic LT
The retractable pneumatic or manual housing
Retractex C was designed for applications in the
chemical industry. The compact design with a
stroke of only 36 mm with an insertion depth up
to 207 mm keeps wear on seals to a minimum
and creates excellent reliability - day and night, all
year long. It can be cleaned easily and thoroughly
in place. It is designed for 12 mm sensors and
is equipped with several safety features (e.g. no
sensor – no insertion, window to check seals
for leakage etc.) to provide operator safety. It is
available with various process connections that
can be used with all vessels used in this branch.
PTFE scraper
Cleaning of the Retractex C?
In cleaning position, the sensor can be cleaned while the
process is running. The advantage of the insertion tube
is the short way for insertion. A PTFE scraper with o-ring
guarantees that dirt stays outside of the armature and
does not harm the o-ring.
Benefits
XX Extremely compact design (only 36 mm travel of
insertion tube with an insertion depth of 207 mm)
XX Integrated safety concept- no sensor – no insertion
XX Very low maintenance
USP
Class VI
XX Easy installation of the pneumatic armature with color
coded connectors
HOUSINGS
Specifications
Wetted parts
PVDF or PEEK
O-ring material
EPDM (FDA approved) or FPM or FFPM
Pressure range (relative to ambient)
0 – 16 bar (120 °C), 10 bar (140 °C)
Temperature range
0 – 140 °C
Sensor a-length
325 mm
Surface finish
R a < 0.8 µm (N6)
ATEX approval
Conform to DIN EN 13463-1
Ordering Information
Retractable Housing: Retractex C Plastic LT
243230
243270
Retractex C Plastic LT (pneumatic)
Retractex C Plastic LT M (manual)
Code
Material (wetted parts)
1
PVDF / Stainless Steel 2.4602
2
PEEK (FDA approval certificate included)
0special
Code
Sealing Material (wetted sealings)
1
EPDM / FDA USP class VI (elastomer certificate included)
2FPM
3FFPM
0special
CodeSensor
1
325mm PG 13.5 Gel-filled
0
special
Code
Process Connection
1
Flange DN50
2
Flange ANSI 2”
0
special
Code
Cleaning Connection
1G 1 ⁄ 8” thread female
2
G ¼” thread female
0
special
Code
Position switch
1
pneumatic / without for manual
0special
Ref< Order Code
125
HOUSINGS
MasterFit
The MasterFit is a housing for pressurizable
pH sensors like the ChemoTrode types. The
pressurization ensures a constant outflow of
electrolyte. This helps to prevent clogging of
the diaphragm and poisoning of the electrolyte.
The MasterFit can be used in a huge variety of
applications mainly in the chemical industry.
The pressure inside the MasterFit can
be controlled via a built-in manometer.
Furthermore the liquid level of the electrode
can be controlled through the coated glass
body of the armature at any time.
Benefits
XX Sealing feature prevents loss of pressure caused by soiling
XX Pressure reduction on disassembly
XX Various o-ring positions available
XX Easy maintenance
Ordering Information
USP
Class VI
Type
Process
ConnectionRef
MasterFit 120
G 1¼ 237200-OP
MasterFit 150
G 1¼ 237225-OP
MasterFit 200
G 1¼ 237235-OP
HOUSINGS
Specifications
Wetted parts
Stainless Steel 1.4435
O-ring material
EPDM (FDA approved)
O-ring position
22 mm – 55 mm
Pressure range (relative to ambient)
0 – 6 bar
Temperature range
-10 – 130 °C
Sensor a-length
120, 150, 200 mm
Surface finish
R a < 0.8 µm (N6)
ATEX approval
CE 0035 ll 1/2 G Ex ia llC T4/T5/T6
Dimensional drawings / MasterFit 120
all dimensions in mm
B
A
Type
A (armature insertion depth)
B (total length)
MasterFit 120
40 mm
475 mm
MasterFit 150
70 mm
505 mm
MasterFit 200
120 mm
555 mm
Accessories
• Pressure Adapter Ref 237252
• Flange Adapter for MasterFit* Ref 237810
• Service Kit for MasterFit Ref 237229
• FFPM Kit for MasterFit Ref 237319
Safety Socket see page
132
* The Flange Adapter is used with a MasterFit 120 and a sensor with a shaft length of 150 mm
127
HOUSINGS
RetractoMaster
The RetractoMaster is a retractable housing for
pressurizable sensors like the ChemoTrode. The
pressurization ensures a constant outflow of
electrolyte. This helps to prevent clogging of
the diaphragm and poisoning of the electrolyte.
It allows the operator to mount and dismount
the sensors while the process is running. The
pressure inside the RetrctoMaster can be
controlled via a built-in manometer. Only one
press on the red button is needed to move the
sensor into or out of the process. Safe sensor
handling during process is guaranteed because
insertion into a vessel without the sensor is
impossible so is removal while in measuring
position. O-rings can easily be replaced without
special tools. Furthermore the liquid level of the
electrode can be controlled through the coated
glass body of the armature at any time. The
RetractoMaster can be used in a huge variety of
applications mainly in the chemical industry.
Benefits
XX Sensor can be withdrawn from the process for cleaning,
calibration or replacement
XX Easy maintenance
XX Long life time of the sensor due to pressurization of
the sensor and the possibility to remove it while the
process is running.
XX 3.1 certificate included
Ordering Information
Type
Process
ConnectionRef
RetractoMaster
G 1¼ 237250
HOUSINGS
Specifications
Wetted parts
Stainless Steel 1.4571
O-ring material
FPM
O-ring position
22.5 mm
Pressure range (relative to ambient)
0 – 6 bar
Temperature range
-10 – 130 °C
Sensor a-length
250 mm
Surface finish
R a < 0.4 µm (N5)
ATEX approval
Conform to DIN EN 13463-1
Dimensional drawings
all dimensions in mm
Maintenance position
Measuring position
Accessories
• Pressure Adapter Ref 237252
Safety Socket see page
132
129
HOUSINGS
RetractoControl Plus
Dimensional drawings
all dimensions in mm
300
The RetractoControl is a control unit for a
pneumatical Retractex used to clean a sensor
automatically. The full power of the automatic
cleaning system can be achieved with an Arc
sensor because it can be built-in pre-calibrated.
Analog sensors in combination with a transmitter
can be used as well. The measurement and
cleaning cycles can be programmed very easily
according to the needs of the process. Thanks
to automatically controlled cleanings the life time
of the sensor can be extended and manpower
can be saved.
400
400
225
Connection Plan with Arc Sensor
RETRACTOCONTROL
plus
PCS
Arc Sensor
Cleaning
Solution I+II
Power
Drain Valve
Connection Plan with Analog Sensor
Benefits
XX Scheduled and unattended maintenance
RETRACTOCONTROL
plus
Power
XX Easy interaction with process control system
PCS
XX Menu based user interaction
XX Manpower can be saved
Cleaning
Solution I+II
Power
Drain Valve
HOUSINGS
Specifications
Ingress protection rating
IP 54
Power
24V DC 30 VA
Air pressure
4 – 6 bar
Ordering Information
Automatic Control Unit for Retractables
242216
RetractoControl Plus
CodeHousing
1
Plastic housing
2
Stainless Steel housing
3special
CodeCleaning
1
for one cleaning solution with drain port
2
for two cleaning solutions with drain port
3special
Code
Connecting hose
1without
2
3 m length
3
5 m length
4
10 m length
5
special
CodeFastener
1without
2
Fastening angle Retractex
3
special
242216< Order Code
Accessories
• Wall Mounting Set (for plastic housing) Ref 242214
• Wall Mounting Set (for stainless steel housing) Ref 242212
• Post Mounting Set (for plastic and stainless steel housing) Ref 242213
• Cleaning valve set PVDF/FPM with 2 membrane-valves for one cleaning solution and one drain;
connectors, PTFE-tubing and mounting brackets included Ref 242210
• Cleaning valve set PVDF/FPM with 3 membrane-valves for two cleaning solution and one drain;
connectors, PTFE-tubing and mounting brackets included Ref 242211
131
HOUSINGS
Safety Socket
The Safety Sockets are hygienic weld-in
sockets suitable for hygienic armatures like the
FlexiFit Bio. They are available for 3 different
o-ring positions to cover different standards.
Furthermore you can choose between two kinds
of stainless steel and two different angles.
The Safety Socket narrows at the o-ring
positions and it seals only if the o-ring of the
armature is exactly at the right place. If the
process is under pressure, a dripping process
medium can be a strong hint that the armature
should not be loosened entirely. Therefore the
Safety Socket is suited for a wide variety of
applications and installations.
USP
Class VI
Benefits
XX Safety design, leakage before total release of the armature
XX Hygienic surface finish
XX 3 different o-ring positions and two different stainless
steels available
O-ring sealing position
Tight thread,
no dripping
Safety Socket
loose on the thread,
only dripping
HOUSINGS
Specifications
Wetted parts
Stainless Steel 1.4435, 1.4404 or 1.4571
O-ring material for blind plug
EPDM (FDA approved)
Pressure range
(relative to ambient)
0 – 50 bar
Temperature range
-30 – 160 °C
Process connection
G 1¼
Surface finish
R a < 0.8 µm (N6)
ATEX approval
Conform to DIN EN 13463-1
Ordering Information
Dimensional drawings
Type
Steel
AngleOP
Safety Socket
1.4404
15
25242570
Safety Socket
1.4404
15
50242571
Safety Socket
1.4404
15
55242572
Safety Socket
1.4404
0
25 242573
Safety Socket
1.4404
0
50 242574
Safety Socket
1.4404
0
55242575
Safety Socket
1.4435
15
25 242576
Safety Socket
1.4435
15
50 242577
Safety Socket
1.4435
15
55242578
Safety Socket
1.4435
0
25 242579
Safety Socket
1.4435
0
50 242580
Safety Socket
1.4435
0
55242581
15
25 Weld in socket 1.4571
without safety feature
all dimensions in mm
Ref
237202
Accessories
• Blind plug 1.4404-25 Ref 242560
• Blind plug 1.4435-25 Ref 242565
• Blind plug 1.4404-50 Ref 242562
• Blind plug 1.4435-50 Ref 242567
• Blind plug 1.4404-55 Ref 242564
• Blind plug 1.4435-55 Ref 242569
• Blind Plug 1.4571-25 Ref 237230
133
HOUSINGS
Hygienic Socket
The Hygienic Socket with its space saving
design and simple sterilization is ideal to weld
in fermenters or small pipes. The advantages
are numerous for many other applications in
tanks or pipes for water treatment and in the
pharmaceutical and chemical industries.
Benefits
XX Hygienic design because complete sensor installation
with only one wetted o-ring
XX Space saving
XX Cost saving: Socket and Housing all in one
It is designed for 120 mm sensors and developed
for easy installation and maintenance, improve
the cleaning process and increase safety. Two
“Live Guard” openings provide an indication of
sealing failures. The sensor insertion depth can
be varied for DO sensors by using the Hamilton
DO Adapter.
XX Low maintenance and easy replacement of o-ring
Example for Installation
Insertion
depth
0 to 55 mm
USP
Class VI
TYPE EL - CLASS I
MARCH 2009
HOUSINGS
Specifications
Wetted parts
Stainless Steel 1.4435 or 1.4404 or 1.4571 or 2.4602
O-ring material
EPDM (FDA approved)
Pressure range (relative to ambient)
0 – 16 bar
Temperature range
-10 – 140 °C
Sensor thread
PG 13.5
Sensor a-length
120 mm
Surface finish
R a < 0.4 µm (N5 electropolished)
ATEX approval
Conform to DIN EN 13463-1
Dimensional drawings
Hygenic socket with
a pH sensor
all dimensions in mm
Hygenic socket with DO adapter
and oxygen sensor
Ordering Information
TypeRef
Hygienic Socket 1.4404242535
Hygienic Socket 1.4435242545
Hygienic Socket 1.4571242548
Hygienic Socket 2.4602242550
Accessories
• Hyienic Socket DO Adapter Ref 242538
• O-ring set FPM Ref 242596
• Replacment Kit Seal Pusher Ref 242532
• O-ring set Silicone Ref 242597
• O-ring set EPDM Ref 242595
• O-ring set FFPM Ref 242598
135
HOUSINGS
FlowCell
Hamilton Flow-Through Cells are designed
for measuring one or two parameters at a
time. Possible combinations are pH/DO and
pH/Conductivity. The measurement is done
in bypasses when inline measurement is
not possible due to small pipe dimensions.
Application fields are biotechnology, water
treatment and power plants, where reliable
measurements have to be carried out in
ion-weak media. There are two different
sizes of the flow cells available.
Dimensional drawings / 242585
all dimensions in mm
Benefits
XX Flexible design for one or two measuring points
XX PEEK insert of high chemical resistance
XX Low dead volume
XX Self draining
XX Internal aseptic clamp pipe connection
USP
Class VI
Specifications
Wetted parts
Stainless Steel 1.4435, PEEK
O-ring material for blind plug
EPDM (FDA approved)
Pressure range
(relative to ambient)
0 – 16 bar
Temperature range
-10 – 140 °C
Sensor thread
PG 13.5
Sensor a-length
120 mm
Process connection
TC 25, TC 50, Swagelok
ATEX approval
Conform to DIN EN 13463-1
HOUSINGS
Ordering Information
Flow Cell
242585
Code
Measuring position
1
only pH
2
only Conductivity or Oxygen
3
pH and Conductivity or Oxygen
4
Conductivity and Oxygen
0special
Code
Pipe Connection
1
¼” TC25
3
⁄ 8” TC25
2
3
½” TC25
4
Swagelok 6 mm
5
Swagelok 10 mm *)
6
Swagelok ¼”
7Swagelok 3 ⁄ 8” *)
8
Swagelok ½” *)
0special
Code
o-ring material
1EPDM
2
FFPM (two measuring positions)
3
FFPM (one measuring position)
0
special
242585 –< Order Code
Flow Cell
242590
Code
Measuring position
1
only pH
2
only Conductivity or Oxygen
3
pH and Conductivity or Oxygen
4
Conductivity and Oxygen
0special
Code
1
2
3
Pipe Connection
¾” TC50
1” TC50
1.5” TC50 *)
0special
Code
o-ring material
1EPDM
2
FFPM (two measuring positions)
3
FFPM (one measuring position)
0
special
242590 –< Order Code
Accessories
Mounting 2 Arc sensors
with Arc Wi Adapter
requires one
• Arc Wi Extension
Ref 238999-4884
• O-ring kit Flow
Cell TC25 Ref 237387
• O-ring kit Flow
Cell TC50 Ref 237390
*) not self draining
137
HOUSINGS
FlexiFlow SL 10
The FlexiFlow is a flow-through cell. It can be
used in all cases where pH or oxygen must be
reliably measured in ion-weak media including
coolant piping in power generating stations.
The sample is fed into the cell from the bottom
at a low flow speed, and out of the cell again
at the side. A groove cut into the FlexiFlow
allows it to easily be attached anywhere with
commercially available screws.
Benefits
XX Compact design
XX Easy to attach to a plate
XX For use in small pipes where sensors cannot be
inserted directly
USP
Class VI
XX Self draining
HOUSINGS
Specifications
Wetted parts
Stainless Steel 1.4435
O-ring material
EPDM (FDA approved)
Pressure range
(relative to ambient)
0 – 16 bar
Temperature range
-10 – 130 °C
Sensor thread
PG 13.5
Sensor a-length
120 mm
Process connection
Swagelok 10 mm
ATEX approval
Conform to DIN EN 13463-1
Dimensional drawings
all dimensions in mm
Ordering Information
TypeRef
FlexiFlow SL 10237340
139
SENSOR COMPARISON
Sensor Comparison
pH or ORP sensor
pH glass type
Nominal Recomm.
measurementmeasurementReference Reference
range
range
system
electrolyte
Diaphragm type
ChemoTrode
PHI
0 - 14
0 - 13
Everef-F
3M KCl-LR
HP ceramic
ChemoTrode Bridge
PHI
0 - 14
0 - 13
Everef-F
Skylyte
HP ceramic
FermoTrode
PHI
0 - 14
0 - 13
Everef-F
Skylyte
Coatramic
EasyControl
HF
0 - 14
0 - 13
Ag/AgCl
Viscous 3M KCl
Ceramic
EasyFerm Plus
PHI
0 - 14
2 - 12
Everef-F
Phermlyte
HP Coatramic
EasyFerm Bio
HB
0 - 14
2 - 13
Everef-F
Foodlyte
HP Coatramic
InchTrode N100F
HF
0 - 14
2 - 12
Everef-L
Polisolve
Single Pore ring
InchTrode N75F
HF
0 - 14
2 - 12
Everef-L
Polisolve
Single Pore ring
InchTrode N75FC10
HF
0 - 14
2 - 12
Everef-L
Polisolve
Single Pore ring
InchTrode N75P
PHI
0 - 14
2 - 12
Everef-L
Polisolve
Single Pore ring
InchTrode N75PC10
PHI
0 - 14
2 - 12
Everef-L
Polisolve
Single Pore ring
IonoTrode
F
0 - 14
0 - 13
Everef
3M KCl
Sleeve
LIQ-Glass PG
F
1 - 12
1 - 12
Everef
3M KCl-LR
Ceramic
MecoTrode
H
0 - 14
0 - 14
Everef
Viscous 3M KCl
HP ceramic
pHeasy
PHI
0 - 14
2 - 12
Everef-L
Polisolve
Single Pore
Polilyte Plus
H
0 - 14
2 - 12
Everef-L
Polisolve Plus
Single Pore
ClaryTrode
HF
0 - 14
2 - 12
Everef-L
Polisolve
Single Pore
Polyclave
PHI
0 - 14
2 - 12
Everef-L
Polisolve
Single Pore
Polilyte Plus XP
H
0 - 14
2 - 12
Everef-L
Polisolve Plus
Single Pore
Polilyte Pro
HF
0 - 14
2 - 12
Everef-B
Polisolve
Single Pore
Polyplast Pro
V
0 - 14
2 - 12
Ag/AgCl
Polisolve
Single Pore
Polilyte Plus H
H
0 - 14
2 - 12
Everef-L
Polisolve Plus
Single Pore
Polilyte Plus HB
HB
0 - 14
2 - 12
Everef-L
Polisolve Plus
Single Pore
Polilyte Plus HF
HF
0 - 14
2 - 12
Everef-L
Polisolve Plus
Single Pore
Polilyte Plus PHI
PHI
0 - 14
2 - 12
Everef-L
Polisolve Plus
Single Pore
ChemoTrode ORP
Platinum ring
± 2000 mV
± 2000 mV
Everef-F
3M KCl-LR
HP ceramic
EasyControl ORP
Platinum wire
± 2000 mV
± 2000 mV
Ag/AgCl
Gel
Ceramic
OxyTrode Pt
Platinum wire
± 2000 mV
± 2000 mV
Everef
Viscous 3M KCl
HP ceramic
Polilyte RX
Platinum wire
± 2000 mV
± 2000 mV
Everef-B
Polisolve
Single Pore
Polyplast Pro RX
Platinum wire
± 2000 mV
± 2000 mV
Ag/AgCl
Polisolve
Single Pore
EasyFerm Plus ORP
Platinum wire
± 2000 mV
± 2000 mV
Everef-F
Phermlyte
HP Coatramic
Polilyte Plus ORP
Platinum ring
± 2000 mV
± 2000 mV
Everef-L
Polisolve Plus
Single Pore
New Polilyte Plus family
ORP Sensors
SENSOR COMPARISON
Recomm. min.
conductivity
(µS/cm)
Nominal
temperature
range (°C)
Recomm. temperature
range (°C)
Nominal
pressure
max. (bar)
20
0 - 130
5 - 130
6
20
0 - 130
5 - 130
6
20
0 - 130
5 - 130
4
20
0 - 60
0 - 60
2
100
0 - 140
5 - 140
6
100
0 - 140
0 - 140
6
5
-10 - 130
5 - 100
6
5
-10 - 130
5 - 100
6
5
-10 - 130
5 - 100
6
5
0 - 130
5 - 100
6
5
0 - 130
5 - 100
6
0.2
-10 - 40
-10 - 40
0.5
2
-5 - 60
-5 - 60
2
50
0 - 130
0 - 130
6
5
0 - 130
5 - 130
100
5
0 - 130
0 - 130
6
5
-5 - 100
-5 - 100
6
5
0 - 130
5 - 130
6
5
0 - 130
0 - 130
16
5
-10 - 60
-5 - 60
6
50
-10 - 40
0 - 40
6
5
0 - 130
0 - 130
10
5
0 - 130
0 - 130
10
5
-10 - 100
-10 - 100
16
Predecessor: ClaryTrode
5
0 - 130
5 - 130
10
Predecessor: Polyclave
20
0 - 130
0 - 130
6
20
0 - 60
0 - 60
2
50
0 - 130
0 - 130
6
5
-10 - 60
-10 - 60
6
50
-10 - 40
-10 - 40
6
100
0 - 140
5 - 140
6
Arc: ± 1500 mV
5
0 - 130
0 - 130
10
Arc: ± 1500 mV
Comments
0 to 16 bar at 25 °C, 0 to 6 bar at 130 °C
0 to 50 bar (60 °C), 0 to 20 bar (100 °C), 0 to 16 bar (130 °C)
Predecessor: Polilyte Plus, Polilyte HT
141
INDEX
Alphabetical Index
2-pole conductivity sensor
3 M KCl
4-pole conductivity sensor
A
AMP plug
98
Arc
12, 13, 15, 18, 21, 22, 24, 26, 44, 46, 58, 62, 78, 80, 82, 84
Arc Accessories
98
Arc Sensor Cable M8
100
Arc View Controller
68, 70, 72
Arc View Dock
100
Arc View Handheld
100
Arc View H-Package
100
Arc Wireless Converter BT
99
Arc Wi 2G Adapter
99
Arc Wi Sensor Adapter
99
Arc Wireless Converter Modbus
99
Autoclavation Cap OxyFerm
96
B
57, 62, 64
87, 140
57, 59, 60
Beverly
3, 11, 88
BINDER plug
98
BioConnect (BC)
58
BioControl117
Blind plug
133
BNC plug
94, 98
CCables
94
Capacitance Simulator
69
Cell Density
67
ChemoTrode
14, 28, 126, 128, 140
ChemoTrode Bridge
28, 140
ChemoTrode ORP
48, 140
Clark cell
75
ClaryTrode
20, 140
Cleaning solution set
97
Cleaning valve set PVDF/FPM 2 valve
131
Cleaning valve set PVDF/FPM 3 valve
131
Conducell 2DC-PG
64
Conducell 4US
60
Conducell 4USF
58
Conducell 4UxF
58
Conducell PWSE
62
Conductivity57
Conductivity pathfinder
57
Conductivity Standards
10, 92, 93
Customized Products
101
DDencytee
Dencytee Pre-Amp
Deutschmann Module
DIN plug
84
DO67
DO Adapter
124, 125
DO pathfinder
67
DuraCal pH buffers
6, 80, 81
E
EasyControl
40, 140
EasyControl ORP
54, 140
EasyFerm Bio
24, 140
EasyFerm Plus
22, 140
EasyFerm Plus ORP
46, 140
Electrochemical oxygen sensor
80, 82, 84, 86
Electrolyte97
F
FDA Service Kit
115
FermoTrode
30, 140
FFPM Kit MasterFit
127
FFPM Kit RetractoFit
113
Fix Cable
35, 61, 65, 87
Flange Adapter MasterFit
127
FlexiFit110
FlexiFit Bio
110
FlexiFit T G 150-33
110
FlexiFit U Bio
110
FlexiFit VV-0
110
FlexiFit VV-15
110
FlexiFit TC 150-33
110
FlexiFlow SL 10
138, 139
Flow Cell
136, 137
Foodlyte
8, 24, 140
H
H100 Cond
104
H100 DO
105
H100 pH
103
H200X pH
8, 24, 140
Hamilton Customized Products
101
Housings109
HyCIP
116, 117
Hygienic Socket
134, 135
I
InchTrode
Incyte
Incyte Pre-Amp
Insertion tube short
IonoTrode
K
K8
L
Lemo plug
Liq-Glass PG
Liquid Earth
M MasterFit
MasterFit 120
MasterFit 150
MasterFit 200
MecoTrode
Membrane Kit CIP
Membrane Kit FDA
Memosens (MS)
O
ODO Cap H0
ODO Cap H1
34, 140
67, 68
68, 69
113
32, 140
23, 25, 94
95, 98
40
22
126, 127
126, 127
126, 127
126, 127
36, 140
96
96
19, 21, 23
7, 77, 79
7, 77, 79
INDEX
ODO Cap H2
7, 77, 79
ODO Cap P0
77, 79
ODO Cap P1
77, 79
Optical oxygen sensor
76, 78
O-ring Kit Flow Cell T25
137
O-ring Kit Flow Cell T50
137
O-ring set EPDM
135
O-ring set FFPM
135
O-ring set FPM
135
O-ring set Silicone
135
ORP43
ORP buffers
91
OxyFerm
95, 96
OxyFerm FDA
75, 80, 96
OxyFerm Membrane Kit
96
Oxygen Accessories
96
OxyGold B
75, 82, 96, 97
OxyGold G
75, 84, 96, 97
OxyGold Membrane Kit
96
Oxylyte97
Oxylyte B
97
Oxylyte G
97
Oxysens
75, 86
OxyTrode Pt
50, 140
P
Panel-mount Kit
103, 104, 105, 107
pH17
pH buffers
91
pH glasses
8
pH pathfinder
17
pHeasy
26, 140
Phermlyte
23, 47, 140
Pipe-mount Kit
103, 104, 105, 107
Polarization Module
96
Polarization Module B
96
Polarization Module G
96
Polarization Module T
96
Polilyte HT
20
Polilyte Plus
7, 9, 18, 20, 21, 140
Polilyte Plus Familiy
7, 20, 21, 140
Polilyte Plus ORP
44, 140
Polilyte Plus XP
18, 19, 140
Polilyte Pro
38, 140
Polilyte RX
52, 140
Polisolve
26, 34, 39, 53, 140
Polisolve Plus
9, 19, 20, 45, 140
Polyclave
20, 140
Polyplast Pro
38, 140
Polyplast Pro RX
52, 140
Post Mounting Set
131
Pressure Adapter
127, 129
Protective Hood
103, 104, 105, 107
Protelyte97
PTFE scraper
118, 120, 122, 124
R
Replacement Cathode OxyFerm
96
Replacement Cathode OxyGold B
96
Replacement Cathode OxyGold G
96
Replacement Kit Seal Pusher
135
Retractex 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 130
Retractex B
116, 117
Retractex B (pneumatic)
117
Retractex B M (manual)
117
Retractex C
118, 119, 120, 121, 122, 123, 124, 125
Retractex C Plastic
120, 121, 124, 125
Retractex C Plastic (pneumatic)
121
Retractex C Plastic LT (pneumatic)
125
Retractex C Plastic LT M (manual)
125
Retractex C Plastic M (manual)
121
Retractex C Steel
118, 119, 122, 123
Retractex C Steel (pneumatic)
119
Retractex C Steel LT
122, 123
Retractex C Steel LT (pneumatic)
123
Retractex C Steel LT M (manual)
123
Retractex C Steel M (manual)
119
RetractoControl Plus
130, 131
RetractoFit
112, 113
RetractoFit Bio
114, 115
RetractoFit Bio 25
114
RetractoFit Bio 55
114
RetractoFit PEEK 25
112
RetractoFit PEEK 38.5
112
RetractoMaster128
S
S7
29, 31, 33, 49, 94
S8
19, 21, 23, 25, 37, 39, 41, 45, 47, 51, 53, 55
Safety Socket
132, 133
Sensor Cable M12
98
Sensor power cable
98
Service Kit FFPM
111
Service Kit FlexiFit Bio
111
Service Kit MasterFit
127
Service Kit RetractoFit
113
Single Pore
9, 19, 21, 27, 35, 39, 45, 53, 140
Skylyte
29, 31, 97
Storage solution
97
System Installations
14, 15
T
T82/D4
Transmitter
Triclamp (TC)
V
Varivent (VV)
VisiFerm DO
VisiFerm DO B
VisiPro Do Ex
VP 6
VP 8
81, 95
102, 103, 104, 105, 106, 107
60, 62, 63, 110, 117, 136, 137
58, 110, 117
11, 75, 78, 95
75, 78, 88
4, 75, 76
19, 23, 25, 29, 35, 37, 39, 59, 81, 83, 85, 95
79, 85, 99
W Wall Mounting Set (plastic housing)
Wall Mounting Set (stainless steel housing)
Weld-in socket
131
131
132
143
Knick® is a registered trademark by KNICK Elektronische Messgeräte, Berlin (D).
Tuchenhagen Varivent® is a registered trademark of GEA Tuchenhagen GmbH.
Memosens® is a registered trademark of Endress + Hauser, Reinach (D).
BioConnect® is a registered trademark of NEUMO GmbH + Co. KG, Knittlingen (D).
Unigate® is a registered trademark of Deutschmann Automation GmbH & Co. KG, Bad Camberg (D).
All other trademarks are owned and/or registered by Hamilton Bonaduz AG.
© 2015 Hamilton Bonaduz AG. All rights reserved.
690127/08 —
2/2015
Rivenditore autorizzato :
Geass S.r.l. - Torino - Tel.: +39.011.22.91.578 - mail : info@geass.com - web site : www.geass.com
Hamilton Americas & Pacific Rim
Web: www.hamiltoncompany.com
800-648-5950
Europe: +41-58-610-10-10
Hamilton Company Inc.
4970 Energy Way
Reno, Nevada 89502 USA
Tel: +1-775-858-3000
Fax: +1-775-856-7259
sales@hamiltoncompany.com
Hamilton Europe, Asia & Africa
Hamilton Bonaduz AG
Via Crusch 8
CH-7402 Bonaduz, Switzerland
Tel: +41-58-610-10-10
Fax: +41-58-610-00-10
contact@hamilton.ch
USA:
To find a representative in your area, please visit www.hamiltoncompany.com.
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