METER BARO Module
BARO INTEGRATOR GUIDE
DESCRIPCIÓ DEL SENSOR
The BARO Module is a precise barometer to compensate for matric potential measurements of TEROS 31 and TEROS 32 tensiometers. The BARO Module can be used as a standalone sensor to compensate one or more tensiometers at a measuring site, or as a digital/analog converter to compensate a connected TEROS 31 or TEROS 32 value and convert the SDI-12 signal into an analog voltage output (only 8-pin version). The BARO Module and TEROS 32 combination can be used as a T8 tensiometer replacement. For a more detailed description of how this sensor makes measurements, refer to the BARO Module User Manual.
APLICACIONS
- Barometric pressure measurement
- Barometric compensation of matric potential measurements
- Digital/analog converter for directly connected TEROS 31 and TEROS 32 tensiometers
- Appropriate for non-METER data loggers to connect TEROS 31 and TEROS 32
ADVANTAGES
- El sensor digital comunica múltiples mesures mitjançant una interfície sèrie
- Vol de baixa entradatage requisits
- El disseny de baix consum admet registradors de dades que funcionen amb bateria
- SDI-12, Modbus RTU or tensio LINK serial communications protocol supported
- Analog output supported (only 8-pin version)
ESPECIFICACIÓ
| ESPECIFICACIONS DE MESURA | |
| Pressió baromètrica | |
| Interval | + 65 kPa to +105 kPa |
| Resolució | ± 0.0012 kPa |
| Precisió | ± 0.05kPa |
| Temperatura | |
| Interval | -30 a + 60 °C |
| Resolució | ± 0.01 °C |
| Precisió | ± 0.5 °C |
| ESPECIFICACIONS DE COMUNICACIÓ | |
| Sortida | |
| Analog Output (8-pin connector only)0 to 2,000 mV (default)0 to 1,000 mV (configurable with tensio VIEW) | |
| Digital OutputSDI-12 communications protocol tensio LINK communication protocol Modbus RTU communication protocol | |
| Compatibilitat del registrador de dades | |
| Analog Output Any data acquisition system capable of switched 3.6- to 28-VDC excitation and single-ended or differential voltage measurement at a greater than or equal to 12-bit resolution. | |
| Digital Output Any data acquisition system capable of 3.6- to 28-VDC excitation and RS-485 Modbus or SDI-12 communication. | |
| ESPECIFICACIONS FÍSIQUES | |
| Dimensions | |
| Longitud | 80 mm (3.15 polzades) |
| Amplada | 29 mm (1.14 polzades) |
| Alçada | 30 mm (1.18 polzades) |
| Longitud del cable | |
| 1.5 m (standard)NOTE: Contact Customer Support if a nonstandard cable length is needed. | |
| Tipus de connectors | |
| 4-pin and 8-pin M12 plug connector or stripped and tinned wires | |
| CONFORMITAT | |
| EM ISO/IEC 17050:2010 (marcat CE) | |
CIRCUIT EQUIVALENT I TIPUS DE CONNEXIONS
Refer to Figure 2 to connect the BARO Module to a data logger. Figure 2 provides a low-impedance variant of the recommended SDI-12 specification.
BARO MODULE INTEGRATOR GUIDE 
PRECAUCIONS
Els sensors METER estan construïts amb els estàndards més alts, però un mal ús, una protecció inadequada o una instal·lació incorrecta poden danyar el sensor i possiblement anul·lar la garantia. Abans d'integrar sensors a una xarxa de sensors, seguiu les instruccions d'instal·lació recomanades i implementeu mesures de seguretat per protegir el sensor d'interferències perjudicials.
COMUNICACIONS DEL SENSOR
METER digital sensors feature a serial interface with shared receive and transmit signals for communicating sensor measurements on the data wire. The sensor supports SDI-12, tensio LINK, and Modbus over RS-485 two-wire. The sensor automatically detects the interface and protocol which is being used. Each protocol has implementation advantages and challenges. Please contact METER Customer Support if the protocol choice for the desired application is not obvious.
- SDI-12 INTRODUCCIÓ
SDI-12 és un protocol basat en estàndards per connectar sensors amb registradors de dades i equips d'adquisició de dades. Diversos sensors amb adreces úniques poden compartir un bus comú de 3 fils (alimentació, terra i dades). La comunicació bidireccional entre el sensor i el registrador és possible compartint la línia de dades per a la transmissió i la recepció tal com defineix l'estàndard. Les mesures del sensor es desencadenen mitjançant una comanda de protocol. El protocol SDI-12 requereix una adreça de sensor alfanumèrica única per a cada sensor del bus perquè un registrador de dades pugui enviar ordres i rebre lectures de sensors específics.
Baixeu l'especificació SDI-12 v1.3 per obtenir més informació sobre el protocol SDI-12. - RS-485 INTRODUCTION
RS-485 is a robust physical bus connection to connect multiple devices to one bus. It is capable of using very long cable distances under harsh environments. Instead of SDI-12, RS-485 uses two dedicated wires for the data signal. This allows the use of longer cables and is more insensitive to interference from outside sources, since the signal is related to the different wires, and supply currents do not influence the data signal. See Wikipedia for more details on RS-485. - TENSIOLINK RS-485 INTRODUCTION
tensioLINK is a fast, reliable, proprietary serial communications protocol that communicates over the RS-485 interface. This protocol is used to read out data and configure features of the device. METER provides a tensioLINK PC USB converter and software to communicate directly with the sensor, read out data, and update the firmware. Please contact Customer Support for more information about tensioLINK. - INTRODUCCIÓ AL MODBUS RTU RS-485
Modbus RTU is a common serial communications protocol used by Programmable Logic Controllers (PLCs) or data loggers to communicate with all kinds of digital devices. The communication works over the physical RS-485 connection. The combination of RS-485 for the physical connection and Modbus as serial communications protocol allows fast and reliable data transfer for a high number of sensors connected to one serial bus wire. Use the following links for more Modbus information: Wikipedia and modbus.org. - INTERFACCIÓ DEL SENSOR A UN ORDINADOR
Els senyals i protocols sèrie compatibles amb el sensor requereixen algun tipus de maquinari d'interfície per ser compatible amb el port sèrie que es troba a la majoria d'ordinadors (o adaptadors USB-sèrie). Hi ha diversos
SDI-12 interface adapters available in the marketplace; however, METER has not tested any of these interfaces and cannot make a recommendation as to which adapters work with METER sensors. METER data loggers and the ZSC handheld device can operate as a computer-to-sensor interface for making on-demand sensor measurements.
The BARO Module can also be configured and measured via tensioLINK using METER software tensioVIEW, available to download at meter.ly/software. To connect a BARO Module to a computer a tensioLINK USB converter and a suitable adapter cable is necessary. - IMPLANTACIÓ DEL METTRE SDI-12
If a BARO Module is connected between a TEROS 31 or 32 tensiometer, both the barometric air pressure and the absolute pressure of the TEROS tensiometer can be read out via Modbus. The compensated matrix potential can be read out via Modbus as well.
METER sensors use a low-impedance variant of the SDI-12 standard sensor circuit (Figure 2). During the power-up time, sensors output some sensor diagnostic information and should not be communicated with until the power-up time has passed. After the power up time, the sensors are fully compatible with all commands listed in the SDI-12 Specification v1.3 except for the continuous measurement commands ( aR0 – aR9 and aRC0 – aRC9 ). M , R , and C command implementations are found on pages 8–9. Out of the factory, all METER sensors start with SDI-12 address 0 . - CONSIDERACIONS DEL BUS DEL SENSOR
SDI-12 sensor buses require regular checking, sensor upkeep, and sensor troubleshooting. If one sensor goes down, that may take down the whole bus even if the remaining sensors are functioning normally. Power cycling the SDI-12 bus when a sensor is failing is acceptable. METER SDI-12 sensors can be power-cycled and read on the desired measurement interval or powered continuously and commands sent when a measurement is desired based on specified communication timing. Many factors influence the effectiveness of the bus configuration. Visit metergroup.com per a articles i seminaris virtuals que continguin més informació.
CONFIGURACIÓ SDI-12
Table 1 lists the SDI-12 communication configuration.
| Taula 1 Configuració de comunicació SDI-12 | |
| Velocitat de transmissió | 1,200 |
| Bits d'inici | 1 |
| Bits de dades | 7 (primer LSB) |
| Bits de paritat | 1 (parell) |
| Stop Bits | 1 |
| Lògica | Invertit (actiu baix) |
SDI-12 TEMPORITZACIÓ
All SDI-12 commands and responses must adhere to the format in Figure 9 on the data line. Both the command and response are preceded by an address and terminated by a carriage return and line feed combination ( <CR><LF> ) and follow the timing shown in Figure 10.
COMANDS COMUNS SDI-12
Aquesta secció inclou taules d'ordres SDI-12 habituals que s'utilitzen sovint en un sistema SDI-12 i les respostes corresponents dels sensors METER.
COMANDAMENT D'IDENTIFICACIÓ (aI!)
L'ordre d'identificació es pot utilitzar per obtenir una varietat d'informació detallada sobre el sensor connectat. Un exampEl fitxer de l'ordre i la resposta es mostra a l'Example 1, on l'ordre està en negreta i la resposta segueix l'ordre.
Example 1 1I!113METER␣ ␣ ␣BARO␣
|
Paràmetre |
Personatge fix Longitud | Descripció |
| 1 jo! | 3 | Data logger command.Request to the sensor for information from sensor address 1 . |
| 1 | 1 | Sensor address.Prepended on all responses, this indicates which sensor on the bus is returning the following information. |
| 13 | 2 | Indica que el sensor objectiu és compatible amb l'especificació SDI-12 v1.3. |
| METER ␣ ␣ ␣ | 8 | Vendor identification string.( METER and three spaces ␣ ␣ ␣ for all METER sensors) |
| BARO␣ | 6 | Sensor model string.This string is specific to the sensor type. For the BARO, the string is BARO . |
| 100 | 3 | Sensor version.This number divided by 100 is the METER sensor version (e.g., 100 is version 1.00). |
| BARO-00001 | ≤13,variable | Número de sèrie del sensor. Aquest és un camp de longitud variable. Es pot ometre per als sensors més antics. |
COMANDA DE CANVI D'ADREÇA (aAB!)
The Change Address command is used to change the sensor address to a new address. All other commands support the wildcard character as the target sensor address except for this command. All METER sensors have a default address of 0 (zero) out of the factory. Supported addresses are alphanumeric (i.e., A – Z , and 0 – 9 ). An exampLa sortida d'un sensor METER es mostra a l'Example 2, on l'ordre està en negreta i la resposta segueix l'ordre.
Exampel 2 1A0!0
|
Paràmetre |
Personatge fix Longitud | Descripció |
| 1A0! | 4 | Data logger command. Request to the sensor to change its address from 1 to a new address of 0 . |
| 0 | 1 | New sensor address. For all subsequent commands, this new address will be used by the target sensor. |
IMPLEMENTACIÓ DEL COMANDAMENT
Les taules següents mostren les ordres de mesura (M), contínua (R) i simultània (C) pertinents i les ordres de dades (D) posteriors, quan sigui necessari.
IMPLEMENTACIÓ D'ORDANCES DE MESURA
Measurement ( M ) commands are sent to a single sensor on the SDI-12 bus and require that subsequent Data ( D ) commands are sent to that sensor to retrieve the sensor output data before initiating communication with another sensor on the bus. Please refer to Table 2 and for an explanation of the command sequence and to Table 5 for an explanation of response parameters.
Taula a les 2 del matí! seqüència d'ordres
| Comandament | Resposta |
| Aquesta ordre informa dels valors mitjans, acumulats o màxims. | |
| aM! | attn |
| aD0! | a± ± + |
| Comentaris | When a slave TEROS tensiometer is connected, <Press> hold the barometric compensated tensiometer output. If the BARO module is used in standalone <Press> returns the current barometric pressure. |
| NOTE: The measurement and corresponding data commands are intended to be used back to back. After a measurement command is processed by the sensor, a service request a <CR><LF> is sent from the sensor signaling the measurement is ready. Either wait until seconds have passed or wait until the service request is received before sending the data commands. See the SDI-12 Specifications v1.3 | |
NOTE: The measurement and corresponding data commands are intended to be used back to back. After a measurement command is processed by the sensor, a service request a <CR><LF> is sent from the sensor signaling the measurement is ready. Either wait until ttt seconds have passed or wait until the service request is received before sending the data commands. See the SDI-12 Specifications v1.3 document for more information.
IMPLEMENTACIÓ CONCURRENT D'ORDANCES DE MESURA
Concurrent Measurement ( C ) commands are typically used with sensors connected to a bus. C commands for this sensor deviate from the standard C command implementation. First, send the C command, wait the specified amount of time detailed in the C command response, and then use D commands to read its response prior to communicating with another sensor.
Please refer to Table 3 for an explanation of the command sequence and to Table 5 for an explanation of response parameters.
| Table 3 aC! measurement command sequence | |
| Comandament | Resposta |
| Aquesta comanda informa de valors instantanis. | |
| AC! | attnn |
| aD0! | a± ± + |
| NOTE: The measurement and corresponding data commands are intended to be used back to back. After a measurement commanc is pro- cessed by the sensor, a service request a<CR><LF> is sent from the sensor signaling the measurement is ready. Either wait until ttt sec- onds have passed or wait until the service request is received before sending the data commands. Please see the SDI-12 Specifications v1.3 document for more information. | |
NOTE: The measurement and corresponding data commands are intended to be used back to back. After a measurement commanc is pro-cessed by the sensor, a service request a<CR><LF> is sent from the sensor signaling the measurement is ready. Either wait until ttt sec-onds have passed or wait until the service request is received before sending the data commands. Please see the SDI-12 Specifications v1.3 document for more information.
IMPLEMENTACIÓ DE COMANDS DE MESURA CONTINUA
Continuous Measurement ( R ) commands trigger a sensor measurement and return the data automatically after the readings are completed without needing to send a D command. aR0! returns more characters in its response than the 75-character limitation called out in the SDI-12 Specification v1.3. It is recommended to use a buffer that can store at least 116 characters.
Please refer to Table 4 for an explanation of the command sequence and see Table 5 for an explanation of response parameters.
| Table 4 aR0! measurement command sequence | |
| Comandament | Resposta |
| Aquesta ordre informa dels valors mitjans, acumulats o màxims. | |
| aR0! | a± ± + |
| NOTE: This command does not adhere to the SDI-12 response timing. See METER SDI-12 Implementation for more information. | |
NOTE: This command does not adhere to the SDI-12 response timing. See METER SDI-12 Implementation for more information.
PARÀMETRES
Table 5 lists the parameters, unit measurement, and a description of the parameters returned in command responses for the BARO Module.
| Taula 5 Descripcions dels paràmetres | ||
| Paràmetre | Unitat | Descripció |
| ± | — | Signe positiu o negatiu que denota el signe del valor següent |
| a | — | Adreça SDI-12 |
| n | — | Nombre de mesures (amplada fixa d'1) |
| nn | — | Nombre de mesures amb zero inicial si cal (amplada fixa de 2) |
| ttt | s | Temps màxim que trigarà a mesurar (amplada fixa de 3) |
| — | Caràcter de pestanya | |
| — | Caràcter de retorn de carro | |
| — | Caràcter d'avanç de línia | |
| — | ASCII character denoting the sensor type For BARO Module, the character is ; | |
| — | Suma de comprovació en sèrie de METRES | |
| — | METER CRC de 6 bits |
IMPLEMENTACIÓ SÈRIE MODBUS RTU DEL COMPTADOR
Modbus over Serial Line is specified in two versions – ASCII and RTU. BARO Modules communicate using RTU mode exclusively. The following explanation is always related to RTU. Table 6 lists the Modbus RTU communication and configuration.
| Taula 6 Modbus communication characters | |
| Taxa de transmissions (bps) | 9,600 bps |
| Bits d'inici | 1 |
| Bits de dades | 8 (primer LSB) |
| Bits de paritat | 0 (cap) |
| Stop Bits | 1 |
| Lògica | Estàndard (actiu alt) |
Figure 11 shows a message in RTU format. The size of the data determines the length of the message. The format of each byte in the message has 10 bits, including Start and Stop Bit. Each byte is sent from left to right: Least Significant Bit (LSB) to Most Significant Bit (MBS). If no parity is implemented, an additional stop bit is transmitted to fill out the character frame to a full 11-bit asynchronous character.
The Modbus application layer implements a set of standard Function codes divided into three categories: Public, User-defined, and Reserved. Well-defined public function codes for BARO Modules are documented in the Modbus Organization, Inc. (modbus.org) community.
For a reliable interaction between the BARO Module and a Modbus Master, a minimum 50ms delay is required between every Modbus command sent on the RS-485 bus. An additional timeout is needed for every Modbus query; this timeout is device-specific and depends on the quantity of the polled registers. Generally, 100ms will work fine for most of the BARO Module.
FUNCIONS MODBUS COMPATIBLES
Table 7 Function Definitions
| Funció Codi | Acció | Descripció |
| 01 | Read coil/port status | Reads the on/off status of discrete output(s) in the ModBusSlave |
| 02 | Llegir l'estat d'entrada | Reads the on/off status of discrete input(s) in the ModBusSlave |
| 03 | Llegir els registres de retenció | Reads the binary contents of holding register(s) in the ModBusSlave |
| 04 | Llegir registres d'entrada | Reads the binary contents of input register(s) in the ModBusSlave |
| 05 | Force single coil/port | Forces a single coil/port in the ModBusSlave to either on or off |
| 06 | Escriu un registre únic | Writes a value into a holding register in the ModBusSlave |
| 15 | Force multiple coils/ports | Forces multiple coils/ports in the ModBusSlave to either on or off |
| 16 | Escriu diversos registres | Writes values into a series of holding registers in the ModBusSlave |
DATA REPRESENTATION AND REGISTER TABLES
Data values (setpoint values, parameters, sensor-specific measurement values, etc.) sent to and from the BARO Module use 16-bit and 32-bit holding (or input) registers with a 4-digit address notation. The address spaces are virtually distributed in different blocks for each data type. This is an approach to the Modbus Enron implementation. Table 8 shows the four main tables used by the BARO Module with their respective access rights. Table 9 describes the sub-blocks for each different data type representation.
Please note that some Modbus dataloggers use addressing with a +1 offset. This sometimes causes confusion and is based on a Modbus specification void. If there are problems in implementing your Modbus program on the datalogger always try testing different register offsets and data types. Using a known value, like temperature, where it’s known what value to expect is a good practice to start testing.
| Table 8 Modbus Primary Tables | |||
| Número de registre | Tipus de taula | Accés | Descripció |
| 1xxx | Bobines de sortida discreta | Llegir/Escriure | on/off status or setup flags for the sensor |
| 2xxx | Contactes d'entrada discreta | Llegeix | sensor status flags |
| 3xxx | Registres d'entrada analògica | Llegeix | numerical input variables from the sensor (actual sensor measurements) |
| 4xxx | Analog Output Holding Registers | Llegir/Escriure | numerical output variables for the sensor (parameters, setpoint values, calibrations etc.) |
Per example, register 3001 is the first analog input register (first data address for the input registers). The numeric value stored here would be a 16-bit unsigned integer-type variable that represents the first sensor measurement parameter (pressure value). The same measurement parameter (pressure value) could be read at register 3201, but this time as a 32-bit floating-point value with a Big-Endian format. If the Modbus Master (Datalogger or a PLC) supports only 32-bit float-values with a Little-Endian format, then one could read the same measurement parameter (same pressure value) at register 3301. The Virtual Sub-Blocks are meant to simplify the user’s effort in programming the Modbus query of the sensors.
| Taula 9 Modbus Virtual Sub-Blocks | |||
| Número de registre | Accés | Mida | Sub-Table Dades Tipus |
| X001-X099 | Llegir/Escriure | 16 bits | nombre enter amb signe |
| X101-X199 | Llegir/Escriure | 16 bits | nombre enter sense signe |
| X201-X299 | Llegir/Escriure | 32 bits | float Big-Endian format |
| X301-X399 | Llegir/Escriure | 32 bits | float Little-Endian format |
MAPA DE REGISTRE
| Taula 10 Tenir Registres | |
| 41000 (41001*) | Adreça d’esclau Modbus |
| Descripció detallada | Read or update the sensor’s modbus address |
| Tipus de dades | Enter sense signar |
| Interval permès | 1 – 247 |
| Unitat | – |
| Comentaris | Updated slave address will be stored in the sensor’s nonvolatile memory |
| Taula 11 BARO Module Input Registers | |
| 32000 (32001*) | Soil Water Potential |
| Descripció detallada | Compensated tension value from tensiometer |
| Tipus de dades | 32 bit floating Big-Endian |
| Interval permès | -200 a +200 |
| Unitat | KPa |
| Comentaris | Tensiometer needs to be connected as slave |
| 32001 (32002*) | Temperatura del sòl |
| Descripció detallada | High accuracy on board temperature measurement |
| Tipus de dades | 32 bit floating Big-Endian |
| Interval permès | -30 a +60 |
| Unitat | degC |
| Comentaris | Tensiometer needs to be connected as slave |
| 32002 (32003*) | Vol. de subministrament de sensorstage |
| Descripció detallada | On board supply voltagmesura |
| Tipus de dades | 32 bit floating Big-Endian |
| Interval permès | -10 a +60 |
| Unitat | volts |
| Comentaris | – |
| 32003 (32004*) | BARO Estat |
| Descripció detallada | Binary status |
| Tipus de dades | 32 bit floating Big-Endian |
| Interval permès | 0/1 |
| Unitat | – |
| Comentaris | – |
| 32004 (32005*) | BARO Reference Pressure |
| Descripció detallada | On board high accuracy barometric pressure measurement |
| Tipus de dades | 32 bit floating Big-Endian |
| Interval permès | +70 a +120 |
| Unitat | KPa |
| Comentaris | – |
| Table 11 Baro Module Input Registers (continued) | |
| 32005 (32006*) | Tensiòmetre Pressió |
| Descripció detallada | Absolute pressure value from tensiometer |
| Tipus de dades | 32 bit floating Big-Endian |
| Interval permès | -200 a +200 |
| Unitat | KPa |
| Comentaris | Tensiometer needs to be connected as slave |
| 32006 (32007*) | BARO Temperatura |
| Descripció detallada | On board temperature measurement |
| Tipus de dades | 32 bit floating Big-Endian |
| Interval permès | -30 a +60 |
| Unitat | degC |
| Comentaris | – |
*Some devices report Modbus register addresses with an offset of +1. This is true for Campbell Scientific Loggers and Dataker loggers. In order to read the desired register use the number in the parenthesis.
EXAMPUTILITZANT UN REGISTRADOR DE DADES CR6 I UN MODBUS RTU
El Campbell Scientific, Inc. CR6 Measurement and Control Datalogger supports Modbus master and Modbus slave communication to integrate Modbus SCADA networks. The Modbus communications protocol facilitates the exchange of information and data between a computer/HMI software, instruments (RTUs), and Modbus-compatible sensors. The CR6 datalogger communicates exclusively in RTU mode. In a Modbus network, each slave device has a unique address. Therefore, sensor devices must be configured correctly before connecting to a Modbus Network. Addresses range from 1 to 247. Address 0 is reserved for universal broadcasts.
PROGRAMACIÓ D'UN REGISTRADOR DE DADES CR6
The Programs running on the CR6 (and CR1000) Loggers are written in CRBasic, a language developed by Campbell Scientific. It is a high-level language designed to provide an easy yet extremely flexible and powerful method of instructing the data logger how and when to take measurements, process data, and communicate. Programs can be created using either the ShortCut Software or edited using the CRBasic Editor, both of which are available for downloading as stand-alone applications on the official Campcampana científica weblloc (www.campbellsci.com). ShortCut Software (https://www.campbellsci.com/shortcut) CRBasic Editor (https://www.campbellsci.com/crbasiceditor)
Un programa CRBasic típic per a una aplicació Modbus consta del següent:
- Declaracions de variables i constants (públiques o privades)
- Declaracions d'unitats
- Paràmetres de configuració
- Declaracions de taules de dades
- Logger Initializations
- Scan (Main Loop) with all the sensors to be quired
- Function call to the Data Tables
CR6 LOGGER RS-485 CONNECTION INTERFACE
The universal (U) terminal of the CR6 offers 12 Channels that connect to nearly any sensor type. It gives the CR6 the ability to match more applications and eliminates the use of many external peripherals.
The Modbus CR6 connection shown in Figure 12 uses the RS-485 (A/B) interface mounted on terminals (C1-C2) and (C3-C4). These interfaces can operate in Half-Duplex and Full-Duplex. The serial interface of the BARO Module used for this example is connected to (C1-C2) terminals.
BARO Module to CR6 Datalogger Wiring Diagram
After assigning the BARO Module a unique Modbus Slave Address, it can be wired to the CR6 logger according to Figure 12. Make sure to connect the white and black wires according to their signals, respectively, to the C1 and C2 ports—the brown wire to 12V (V+) and the blue to G (GND). To control the power supply through your program, connect the brown wire directly to one of the SW12 terminals (switched 12V outputs).
EXAMPLE PROGRAMES
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Descripció del problema
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HISTÒRIA DE REVISIÓ
La taula següent enumera les revisions dels documents.
| Revisió | Data | Firmware compatible | Descripció |
| 00 | 6.2025 | 1.10 | Alliberament inicial |
Preguntes freqüents
What should I do if I need a nonstandard cable length?
Contact Customer Support for assistance with nonstandard cable lengths.
How do I know which communication protocol to use for my application?
Evaluate the advantages and challenges of each protocol based on your application needs. If unsure, contact METER Customer Support for guidance.
Documents/Recursos
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METER BARO Module [pdfGuia de l'usuari TEROS 31, TEROS 32, BARO Module, BARO Module, Module |