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Operation of electronics with HART communicationFunction diagram of electronics The bridge output voltage created by the sensor (1, Figure "Function diagram of electronics") is amplified by the measuring amplifier (2) and digitized in the analog-to-digital converter (3). The digital information is evaluated in a microcontroller, corrected for linearity and temperature response, and converted in a digital-to-analog converter (5) into an output current of 4 to 20 mA. The diode circuit (10) protects against incorrect polarity. The data specific to the measuring cell, the electronics data, and the parameter data are stored in the two non-volatile memories (6). One memory is coupled to the measuring cell, the other to the electronics. As the result of this modular design, the electronics and the measuring cell can be replaced separately from each other. Using the 3 input buttons (8) you can parameterize the pressure transmitter directly at the measuring point. The input buttons can also be used to control the view of the measurement results, the error messages and the operating modes on the display (9). The HART modem (7) permits parameterization using a protocol according to the HART specification. The pressure transmitters with spans ≤ 63 bar measure the input pressure compared to atmosphere, transmitters with spans ≥ 160 bar compared to vacuum. Operation of electronics with PROFIBUS PA communicationFunction diagram of electronics The bridge output voltage created by the sensor (1, Figure "Function diagram of electronics") is amplified by the measuring amplifier (2) and digitized in the analog-to-digital converter (3). The digital information is evaluated in the microcontroller, correct for linearity and temperature response, and made available on the PROFIBUS PA via an electrically isolated PA interface (7). The data specific to the measuring cell, the electronics data, and the parameter data are stored in the two non-volatile memories (6). One memory is coupled to the measuring cell, the other to the electronics. As the result of this modular design, the electronics and the measuring cell can be replaced separately from each other. Using the three input buttons (8) you can parameterize the pressure transmitter directly at the measuring point. The input buttons can also be used to control the view of the measurement results, the error messages and the operating modes on the display (9). The results with status values and diagnostic values are transferred by cyclic data transmission on the PROFIBUS PA. Parameterization data and error messages are transferred by acyclic data transmission. Special software such as SIMATIC PDM is required for this. Operation of electronics with FOUNDATION Fieldbus communicationFunction diagram of electronics The bridge output voltage created by the sensor (1, Figure "Function diagram of electronics") is amplified by the measuring amplifier (2) and digitized in the analog-to-digital converter (3). The digital information is evaluated in the microcontroller, corrected for linearity and temperature response and made available on the FOUNDATION Fieldbus via an electrically isolated FOUNDATION Fieldbus interface (7). The data specific to the measuring cell, the electronics data, and the parameter data are stored in the two non-volatile memories (6). One memory is coupled to the measuring cell, the other to the electronics. As the result of this modular design, the electronics and the measuring cell can be replaced separately from each other. Using the three input buttons (8) you can parameterize the pressure transmitter directly at the measuring point. The input buttons can also be used to control the view of the measurement results, the error messages and the operating modes on the display (9). The results with status values and diagnostic values are transferred by cyclic data transmission on the FOUNDATION Fieldbus. Parameterization data and error messages are transferred by acyclic data transmission. Special software such as National Instruments Configurator is required for this. Mode of operation of the measuring cellsMeasuring cell for gauge pressure Measuring cell for gauge pressure, function diagram The pressure pe is applied through the process connection (2, "Measuring cell for gauge pressure, function diagram") to the measuring cell (1). This pressure is subsequently transmitted further through the seal diaphragm (3) and the fill fluid (4) to the silicon pressure sensor (5) whose measuring diaphragm is then flexed. This changes the resistance of the four piezo-resistors fitted in the diaphragm in a bridge circuit. This change in resistance results in a bridge output voltage proportional to the absolute pressure. Measuring cell for differential pressure and flow rate Measuring cell for differential pressure and flow, function diagram The differential pressure is transmitted through the seal diaphragms (1, Figure "Measuring cell for differential pressure and flow, function diagram") and the fill fluid (7) to the silicon pressure sensor (4). The measuring diaphragm is flexed by the applied differential pressure. This changes the resistance of the four piezo-resistors fitted in the diaphragm in a bridge circuit. This change in resistance results in a bridge output voltage proportional to the differential pressure. An overload diaphragm is installed to provide protection from overloads. If the measuring limits are exceeded, the overload diaphragm (3) is flexed until the seal diaphragm rests on the body of the measuring cell (6), thus protecting the silicon pressure sensor from overloads. Parameterization of P410Depending on the version, there are a range of options for parameterizing the pressure transmitter and for setting or scanning the parameters. Parameterization using the input buttons (local operation) With the input buttons you can easily set the most important parameters without any additional equipment. Parameterization using HART Parameterization using HART is performed with a HART Communicator or a PC. Communication between a HART Communicator and a pressure transmitter When parameterizing with the HART Communicator, the connection is made directly to the 2-wire cable. HART communication between a PC communicator and a pressure transmitter When parameterizing with a PC, the connection is made through a HART modem. The signals needed for communication in conformity with the HART 5.x or 6.x protocols are superimposed on the output current using FSK (Frequency Shift Keying). Adjustable P410 parameters with HART Parameter | Input buttons (DS III with HART) | HART communication |
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Start of scale | x | x | Full scale value | x | x | Electrical damping | x | x | Blind adjustment of the start of scale value | x | x | Blind adjustment of the full scale value | x | x | Zero-point adjustment | x | x | Current simulator | x | x | Fault current | x | x | Keyboard lock and write protection | x | x 1) | Type of unit, unit | x | x | Characteristic (linear / square-rooted) | x 2) | x 2) | Input of characteristic | | x | Freely-programmable LCD | | x | Diagnostic functions | | x |
1) Cancel apart from write protection 2) Only differential pressure Diagnostic functions for P410 with HART - Zero correction display
- Event counter
- Limiter
- Saturation alarm
- Min/max pointer
- Simulation functions
- Maintenance timer
Available physical units of display for DS III with HART Physical variable | Physical units | Pressure (setting can also be made in the factory) | Pa, MPa, kPa, bar, mbar, torr, atm, psi, g/cm2, kg/cm2, inH2O, inH2O (4 °C), mmH2O, ftH2O (20 °C), inHg, mmHg | Level (height data) | m, cm, mm, ft, in | Volume | m3, dm3, hl, yd3, ft3, in3, US gallon, lmp. gallon, bushel, barrel, barrel liquid | Weight | g, kg, t, lb, Ston, Lton, oz | Volume flow | m3/d, m3/h, m3/s, l/min, l/s, ft3/d, ft3/min, ft3/s, US gallon/min, US gallon/s | Mass flow | t/d, t/h, t/min, kg/d, kg/h, kg/min, kg/s, g/d, g/h, g/min, g/s, lb/d, lb/h, lb/min, lb/s, LTon/d, LTon/h, STon/d, STon/h, STon/min | Temperature | K, °C, °F, °R | Other | %, mA |
Parameterization through PROFIBUS PA interface Fully digital communication through PROFIBUS PA, profile 3.0, is particularly user-friendly. Via PROFIBUS, the P410 with PROFIBUS PA is connected to a process control system such as SIMATIC PSC 7. Communication is possible even in a hazardous area. For parameter assignment via PROFIBUS, you need suitable software, e.g. SIMATIC PDM (Process Device Manager) Parameterization through FOUNDATION Fieldbus interface Fully digital communication through FOUNDATION Fieldbus is particularly user-friendly. Through the FOUNDATION Fieldbus the P410 with FOUNDATION Fieldbus is connected to a process control system. Communication is possible even in a hazardous area. For parameterization through the FOUNDATION Fieldbus you need suitable software, e. g. National Instruments Configurator. Adjustable parameters for P410 with PROFIBUS PA and FOUNDATION Fieldbus Adjustable parameters | Input buttons | PROFIBUS PA and FOUNDATION Fieldbus interface |
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Electrical damping | x | x | Zero-point adjustment (correction of position) | x | x | Buttons and/or function disabling | x | x | Source of measured-value display | x | x | Physical units available for the display | x | x | Position of decimal point | x | x | Bus address | x | x | Adjustment of characteristic | x | x | Input of characteristic | | x | Freely-programmable LCD | | x | Diagnostic functions | | x |
Diagnostic functions for P410 with PROFIBUS PA and FOUNDATION Fieldbus - Event counter
- Min/max pointer
- Maintenance timer
- Simulation functions
- Display of zero-point correction
- Limiter
- Saturation alarm
Physical units available for the display Physical variable | Physical units | Pressure (setting can also be made in the factory) | MPa, kPa, Pa, bar, mbar, torr, atm, psi, g/cm2, kg/cm2, mmH2O, mmH2O (4 °C), inH2O, inH2O (4 °C), ftH2O (20 °C), mmHg, inHg | Level (height data) | m, cm, mm, ft, in, yd | Volume | m3, dm3, hl, yd3, ft3, in3, US gallon, lmp. gallon, bushel, barrel, barrel liquid | Volume flow | m3/s, m3/min, m3/h, m3/d, l/s, l/min, l/h, l/ d, Ml/d, ft3/s, ft3/min, ft3/h, ft3/d, US gallon/s, US gallon/min, US gallon/h, US gallon/d, bbl/s, bbl/min, bbl/h, bbl/d | Mass flow | g/s, g/min, g/h, g/d, kg/s, kg/min, kg/h, kg/d, t/s, t/min, t/h, /t/d, lb/s, lb/min, lb/h, lb/d, STon/s, STon/min, STon/h, STon/d, LTon/s, LTon/min, LTon/h, LTon/d | Total mass flow | t, kg, g, lb, oz, LTon, STon | Temperature | K, °C, °F, °R | Other | % |
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Арматура DENDOR
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Датчики и измерители
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Регуляторы и регистраторы
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Пневматическое оборудование
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Краны и Клапаны
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Измерительные приборы
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Системы беспроводного управления «умный дом»
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Бесконтактные выключатели Конечные выключатели Оптические датчики Энкодеры
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SKW-FS - Установка умягчения
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SKW-FK - Установка обезжелезивания
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