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Tophit CPS471 and CPS471D

Tophit CPS471 and CPS471D
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i—i d~i rm f*i Level Pressure Flow Temperature Liquid Registration Systems Services Solutions Analysis Components Technical Information Tophit CPS471 and CPS471D Sterilizable and autoclavable ISFET sensor for the pH measurement Analog or digital sensors with Memosens technology Application • Hygienic and sterile applications • Food industry and pharmaceutical industry • Biotechnology With ATEX, FM and CSA approval for application in hazardous areas Your benefits • Resistant to breaking - Sensor body made completely of PEEK - Direct installation into the process, reduces effort and costs for sampling and laboratory analysis • Certified biocompatibility • Double-chamber reference system: - poisoning resistant - polyacrylamide free gel • Application possible at low temperatures - Short response time - Constantly high accuracy • Sterilizable and autoclavable • Longer calibration intervals than glass electrodes - Lower hysteresis with alternating temperatures - Low measuring error after high-temperature loading - Almost no acid and alkaline errors • With built-in temperature sensor for effective temperature compensation • Ideal for CIP processes when combined with an automatic retractable assembly Further benefits offered by Memosens technology • Maximum process safety through contactless inductive signal transmission • Data safety through digital data transmission • Easy handling thanks to storage of sensor-specific data in the sensor • Predictive maintenance possible thanks to registration of sensor load data in the sensor TI283C/24/EN/05.10 Endress+Hauser 1 -d 1 People for Process Autom

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Function and system design Measuring principle Ion-selective, or more generally ion-sensitive field effect transistors (ISFET) were developed in the 1970s as an alternative to the glass electrode for pH measurement. Basics Ion-selective field effect transistors use an MOS 1) transistor arrangement (see Fig 1) where the metallic gate (pos. 1) is not a control electrode. Instead, the medium (see Fig 2, pos. 3) in the ISFET is in direct contact with the gate isolator layer (pos. 2).Two strongly N-conducting areas are diffused in P-conducting substrate (see Fig 2, pos. 5) of the semiconductor...

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Important characteristics of Tophit CPS471 • Resistance to breaking This is the most obvious feature of the sensor. The complete sensor technology is embedded in a PEEK shaft. Only the highly resistant isolator layer and the reference have direct contact with the medium. • Acid or alkaline errors A further, important benefit compared with the glass electrode is the considerably reduced number of acid or alkaline errors in extreme pH ranges. In contrast to glass electrodes, practically no foreign ions can build up at the ISFET gate. The measuring error of < 0.01 pH (between pH 1 and 13) at...

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• Isothermic curves – The Nernst equation defines the dependence of the measuring voltage on the hydrogen ion content (pH value) and the temperature. It is the basis of pH measuring technology and for ISFET sensors too. A temperature-dependent value for the potential change per pH value can be worked out from this equation (isothermic curve, potential change per pH value at a defined temperature). – The isothermic curves of the ISFET sensor are very close to the theoretical values (see Fig 4). This is further proof for the high pH measurement precision of the sensor. Isothermic curves...

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Maximum process safety The inductive and non-contacting measured value transmission of Memosens guarantees maximum process safety and offers the following benefits: • All problems caused by moisture are eliminated. – The plug-in connection is free from corrosion. – Measured value distortion from moisture is not possible. – The plug-in system can even be connected under water. • The transmitter is galvanically decoupled from the medium. The result: No more need to ask about "symmetrically high-impedance" or "unsymmetrical" (for pH/ORP measurement) or an impedance converter. • EMC safety is...

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Measuring system The complete measuring system comprises at least: • ISFET sensor Tophit • Measuring cable CPK12 (analog, with TOP68 connection) or CYK10 (digital, with Memosens) • Transmitter, e.g. Liquiline CM4x, Liquisys CPM223 (for panel mounting) or Liquisys CPM253 (field instrument) or Mycom CPM153. • Assembly – Immersion assembly, e.g. Dipfit CPA111 – Flow assembly, e.g. Flowfit CPA250 – Retractable assembly, e.g. Cleanfit CPA471 (CPA450 only with CPS471D, CPS491D or special versions CPS471-ESA and CPS491-ESA, --> Ordering information) – Fixed installation assembly, e.g. Unifit...

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Chemistry and process (Ex applications) Atex zone zone 0/1 Measuring system with fully automatic measuring, cleaning and calibration system Topcal Tophit Cleanfit CPA475 Mycom CPM153 Power supply Control unit CPG310 Cleaner, buffer solutions Steam, water, cleaner Rinse block Power cable Compressed air Liquids / cleaner Process sterilizibility is no problem due to the wide range of applications for the ISFET pH sensor, not only relating to temperature but also to pH. There is only a small range of high pH values connected with high temperatures where the sensor is not constantly stable (see...

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Water and wastewater 1 Tophit 2 Immersion assembly Dipfit CPA111 2 Installation assembly Unifit CPA442 3 Special measuring cable CPK12 or CYK10

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Input Measured values Measuring range 0 to 14 pH –15 to 135 °C (5 to 275 °F) Caution! Note the process operating conditions. Power supply Electrical connection CPS471 The sensor is connected to the measuring transmitter using the special measuring cable CPK12. Source Coaxial shield Reference Drain Coaxial cable Special measuring cable CPK12 Note! • The cable cors Yellow and White are connected on the sensor side. • Make sure you comply with the instructions for connecting the sensor (wiring diagram) in the Operating Instructions of the transmitter. The transmitter has to be appropriate for...

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