finder AFX00007 Arduino Configurable Analog Owner's Manual

Inngangskonfigurasjon
The Analog Expansion input channels support various modes including Voltage Input Mode, Current Input Mode, and RTD Input Mode.

Voltage Input Mode
Configure the input channels for digital sensors or 0-10 V analog sensors.

Digital Input Voltage: 0-24 V
Configurable Threshold: Yes (for supporting 0-10 V logic level)

Analog inngang voltage: 0-10 V
Analog Input LSB Value: 152.59 uV

Nøyaktighet: +/- 1 %
Repeterbarhet: +/- 1 %

Input Impedance: Min 175 k (when internal 200 k resistor is enabled)

Gjeldende inngangsmodus
Configure the input channels for current loop instrumentation using the 0/4-20 mA standard.

Analog Input Current: 0-25 mA
Analog Input LSB Value: 381.5 nA

Short Circuit Current Limit: Min 25 mA, Max 35 mA (externally powered)
Programmable Current Limit: 0.5 mA to 24.5 mA (loop powered)

Nøyaktighet: +/- 1 %
Repeterbarhet: +/- 1 %

RTD Input Mode
Use the input channels for temperature metering with PT100 RTDs.

Input Range: 0-1 M

Bias voltage: 2.5 V

Ofte stilte spørsmål (FAQ)

Q: How many channels are available for inputs?
A: There are a total of 8 channels available for inputs, which can be configured based on the specific mode required.
Q: What certifications does the product have
A: The product is certified by FCC, CE, UKCA, cULus, and ENEC.

Arduino Opta® Analog Expansion

Produktreferansehåndbok
SKU: AFX00007

Beskrivelse

Arduino Opta® Analog Expansions are designed to multiply your Opta® micro PLC capabilities with the addition of 8 channels that can be programmed as inputs or outputs for connecting your analog voltage, current, resistive temperature sensors or actuators in addition to 4x dedicated PWM outputs. Designed in partnership with leading relay manufacturer Finder®, it allows professionals to scale up industrial and building automation projects while taking advantage of the Arduino ecosystem.

Målområder:
Industrial IoT, Building automation, Electrical loads management, Industrial automation

Søknad Eksamples

The Arduino Opta® Analog Expansion is designed for industrial standard machinery control alongside the Opta® micro PLC. It is readily integrated into the Arduino hardware and software ecosystem.

Automated Production Line: Arduino Opta® can manage the overall ﬂow of goods in manufacturing. For example, by integrating a load cell or a vision system, it can ensure each phase of a packing process is performed correctly, automatically discard faulty parts, ensure the appropriate amount of goods is present within each box and interact with production line printers, also adding timestamp information synchronized via Network Time Protocol (NTP).
Real-time Monitoring in Manufacturing: Production data can be visualized locally via an HMI or even by connecting to the Arduino Opta® via Bluetooth® Low Energy. The simplicity of Arduino Cloud allows to remotely display custom dashboards; this product is also compatible with other major Cloud providers.
Automated Anomaly Detection: Its computing power allows the Arduino Opta® to deploy Machine Learning algorithms that are capable to learn when a process is drifting from its usual behavior on the production line and activating/deactivating processes to prevent equipment damage.

Funksjoner

Generelle spesifikasjoner overview

Kjennetegn	Detaljer
Forsyning Voltage	12…24 V
Beskyttelse mot omvendt polaritet	Ja
ESP protection	Ja
Forbigående overvoltage beskyttelse	Yes (up to 40 V)
Maximum Supported Expansion Modules	Opp til 5
Kanaler	8x: I1, I2, I3, I4, O1, I5, I6, O2
Channels functionalities	I1 and I2: Programmable inputs (Voltage, Current, RTD2 wires, RTD3 wires), Programmable outputs (Voltage and current) – I3, I4, O1, I5, I6, O2: Programmable inputs (Voltage, Current, RTD2 wires), Programmable outputs (Voltage og gjeldende)
Grad av beskyttelse	IP20
Sertifiseringer	FCC, CE, UKCA, cULus, ENEC

Note: Check the inputs and outputs detailed sections below for more information about the Analog Expansion channels use.

Innganger

Kjennetegn	Detaljer
Antall kanaler	8x
Channels programmable as inputs	I1, I2, I3, I4, O1, I5, I6, O2
Type of inputs accepted	Digital Voltage and Analog (Voltage, Current and RTD)
Inputs overvoltage beskyttelse	Ja
Antipolarity protection	Ingen
Analog Input resolution	16 bit
Støyavvisning	Optional noise rejection between 50 Hz and 60 Hz

Voltage Input Mode
The Analog Expansion input channels can be conﬁgured for digital sensors or 0-10 V analog sensors.

Kjennetegn	Detaljer
Digital inngang voltage	0…24 V
Conﬁgurable threshold	Yes (for supporting 0…10 V logic level)
Analog inngang voltage	0…10 V
Analog input LSB value	152.59 uV
Nøyaktighet	+/- 1 %
Repeterbarhet	+/- 1 %
Inngangsimpedans	Min: 175 kΩ (when internal 200 kΩ resistor is enabled)

Gjeldende inngangsmodus
The Analog Expansion input channels can be conﬁgured for current loop instrumentation using the 0/4-20 mA standard.

Kjennetegn	Detaljer
Analog inngangsstrøm	0…25 mA
Analog input LSB value	381.5 nA
Kortslutningsstrømgrense	Min: 25 mA, Max 35 mA (externally powered).
Programmable current limit	0.5 mA to 24.5 mA (loop powered)
Nøyaktighet	+/- 1 %
Repeterbarhet	+/- 1 %

RTD Input Mode
The Analog Expansion input channels can be used for temperature metering with PT100 RTDs.

Kjennetegn	Detaljer
Inngangsområde	0…1 MΩ
Bias voltage	2.5 V

2 wires RTDs can be connected to any of the eight channels.

3 Wires RTD Connection
RTD with 3 wires has generally two wires with the same color.

Connect the two wires with the same color to the – and the ICx screw terminals respectively.

Connect the wire with a diﬀerent color to the + screw terminal.

3 wires RTD can only be measured by channels I1 and I2.

Utganger

Kjennetegn	Detaljer
Antall kanaler	8x, (2x used simultaneously recommended)
Channels programmable as outputs	I1, I2, I3, I4, O1, I5, I6, O2
Type of outputs supported	Analog voltage og nåværende
DAC-oppløsning	13 bit
Charge pump for zero voltage utgang	Ja

All eight analog channels can be used as outputs but due to power dissipation limitations, it is recommended to have up to 2 channels set at output at the same time.
At 25°C of ambient temperature, all the 8 channels set as outputs have been tested at the same time while outputting more than 24 mA at 10 V each (>0.24W per channel).

Voltage Utgangsmodus
This output mode lets you control voltage-driven actuators.

Kjennetegn	Detaljer
Analog utgang voltage	0…11 V
Resistive load range	500 Ω…100 kΩ
Maksimal kapasitiv belastning	2 μF
Short-circuit current per channel (sourcing)	Min: 25 mA, Typ: 29 mA, Max: 32 mA (lower limit bit = 0 (default)), Min: 5.5 mA, Typ: 7 mA, Max: 9 mA (lower limit bit = 1)
Short-circuit current per channel (sinking)	Min: 3.0 mA, Typ: 3.8 mA, Max: 4.5 mA
Nøyaktighet	+/- 1 %
Repeterbarhet	+/- 1 %

Current Output Mode
This output mode lets you control current-driven actuators.

Kjennetegn	Detaljer
Analog utgangsstrøm	0…25 mA
Maksimal utgang voltage when sourcing 25 mA	11.9 V ± 20 %
Åpen krets voltage	16.9 V ± 20 %
Utgangsimpedans	Min: 1.5 MΩ, Typ: 4 MΩ
Nøyaktighet	1% in 0-10 mA range, 2% in 10-24 mA range
Repeterbarhet	1% in 0-10 mA range, 2% in 10-24 mA range

PWM Output Channels
The Analog Expansion has four PWM output channels (P1…P4). They are software conﬁgurable and for them to work you must provide the VPWM pin with the desired voltage.

VPWM Voltage	Detaljer
Kilde voltage støttet	8 ... 24 VDC
Periode	Programmerbar
Driftssyklus	Programmable (0-100%)

Status-lysdioder
The Analog Expansion features eight user-programmable LEDs ideal for status reporting in the front panel.

Beskrivelse	Verdi
Antall lysdioder	8x

Vurderinger

Anbefalte driftsforhold

Beskrivelse	Verdi
Temperaturområde	-20 ... 50 ° C
Protection degree rating	IP20
Forurensningsgrad	2 conforming to IEC 61010

Power Specification (Ambient Temperature)

Eiendom	Min	Typ	Maks	Enhet
Tilførsel voltage	12	–	24	V
Tillatt rekkevidde	9.6	–	28.8	V
Power consumption (12V)	1.5	–	–	W
Power consumption (24V)	1.8	–	–	W

Ytterligere merknader
All screw terminals marked with “-” (minus sign) are shorted together. There is no galvanic isolation between the board and its DC power supply.

Funksjonell overview

Produkt View

Punkt	Trekk
3a	Power Supply Terminals 12…24 VDC
3b	P1…P4 PWM Outputs
3c	Strømstatus-LED
3d	Analog Input/Output Terminals I1…I2 (Voltage, Current, RTD 2 wires and RTD 3 wires)
3e	Status LEDs 1…8
3f	Port for kommunikasjon og tilkobling av hjelpemoduler
3g	Analog Input/Output Terminals I3…I6 (Voltage, Current, RTD 2 wires)
3h	Analog Input/Output Terminals O1…O2 (Voltage, Current, RTD 2 wires)

Blokkdiagram
The following diagram explains the relation between the main components of the Opta® Analog Expansion:

Inn-/utgangskanaler
The Arduino Opta® Analog Expansion features 8 channels that can be conﬁgured as inputs or outputs. When the channels are conﬁgured as inputs they can be used as digital ones with a 0-24/0-10 V range, or analog being able to measure voltage from 0 to 10 V, measure current from 0 to 25 mA or temperature leveraging the RTD mode.
The channels I1 and I2 can be used for connecting 3-Wires RTDs. Every channel can be used also as an output, be aware that using more than two channels as an output simultaneously may overheat the device. This will depend on the ambient temperature and channel load.
We have tested setting all eight channels as outputs at 25 °C outputting more than 24 mA at 10 V each during a limited timeframe.

Advarsel: In case the user needs a conﬁguration with a deviation from the suggested one, will need to validate the system performance and stability before a deployment into a production environment.

The PWM outputs are software conﬁgurable and for them to work you must provide the VPWM pin with the desired voltage between 8 and 24 VDC, you can set the period and duty-cycle by software.4.4 Expansion Port
The expansion port can be used to daisy-chain several Opta® Expansions and additional modules. To access it, it needs to be freed from its breakable plastic cover, and the connection plug needs to be added between each device.
It supports up to 5 expansion modules. To avoid potential communication issues, ensure the total number of connected modules does not exceed 5.
If any issues occur with module detection or data exchange, double-check the connections and ensure the Aux connector and clips are securely installed within the expansion port. If problems persist, inspect for any loose or improperly connected cables.

Drift av enheten

Komme i gang – IDE
If you want to program your Arduino Opta® Analog Expansion while oﬄine you need to install the Arduino® Desktop IDE [1] and the Arduino_Opta_Blueprint using the Library Manager. To connect the Arduino Opta® to your computer, you will need a USB-C® cable.

Komme i gang – Arduino Cloud Editor
All Arduino® devices work out-of-the-box on the Arduino® Cloud Editor [2] by just installing a simple plugin.
The Arduino® Cloud Editor is hosted online, therefore it will always be up-to-date with the latest features and support for all boards and devices. Follow [3] to start coding on the browser and upload your sketches onto your device.

Getting Started – Arduino PLC IDE
Arduino Opta® Analog Expansion can be also programmed using the industrial-standard IEC 61131-3 programming languages. Download the Arduino® PLC IDE [4] software, attach the Opta® Expansion through the Aux Connector and connect your Arduino Opta® to your computer using a simple USB-C® cable to start creating your own PLC industrial solutions. The PLC IDE will recognize the expansion and will expose the new available I/Os in the resources tree.

Komme i gang – Arduino Cloud
All Arduino® IoT enabled products are supported on Arduino Cloud which allows you to log, graph and analyze sensor data, trigger events, and automate your home or business.

Sample Skisser
Sample sketches for Arduino Opta® Analog Expansions can be found in the Arduino_Opta_Blueprint library “Examples” in the Arduino® IDE or the “Arduino Opta® Documentation” section of Arduino® [5].

Nettressurser
Now that you have gone through the basics of what you can do with the device, you can explore the endless possibilities it provides by checking exciting projects on ProjectHub [6], the Arduino® Library Reference [7] and the online store [8] where you will be able to complement your Arduino Opta® product with additional extensions, sensors and actuators.

Mekanisk informasjon

Produktdimensjoner

Note: Terminals can be used with both solid and stranded core wire (min: 0.5 mm2 / 20 AWG).

Sertifiseringer

Sammendrag av sertifiseringer

Cert	Arduino Opta® Analog Expansion (AFX00007
CE (EU)	EN IEC 61326-1:2021, EN IEC 61010 (LVD)
CB (EU)	Ja
WEEE (EU)	Ja
REACH (EU)	Ja
UKCA (Storbritannia)	EN IEC 61326-1:2021
FCC (USA)	Ja
cULus	UL 61010-2-201

Samsvarserklæring CE DoC (EU)
Vi erklærer under vårt eneansvar at produktene ovenfor er i samsvar med de grunnleggende kravene i følgende EU-direktiver og derfor kvalifiserer for fri bevegelse innenfor markeder som omfatter EU (EU) og Det europeiske økonomiske samarbeidsområdet (EØS).

Erklæring om samsvar med EU RoHS & REACH 211 01
Arduino-kort er i samsvar med RoHS 2-direktivet 2011/65/EU fra Europaparlamentet og RoHS 3-direktivet 2015/863/EU fra rådet av 4. juni 2015 om begrensning av bruken av visse farlige stoffer i elektrisk og elektronisk utstyr.

Stoff	Maksimal grense (ppm)
Bly (Pb)	1000
Kadmium (Cd)	100
Kvikksølv (Hg)	1000
Seksverdig krom (Cr6+)	1000
Polybromerte bifenyler (PBB)	1000
Polybromerte difenyletere (PBDE)	1000
Bis(2-etylheksyl)ftalat (DEHP)	1000
Benzylbutylftalat (BBP)	1000
Dibutylftalat (DBP)	1000
Diisobutylftalat (DIBP)	1000

Unntak: Det kreves ikke unntak.
Arduino Boards er fullt kompatible med de relaterte kravene i EU-forordning (EC) 1907/2006 om registrering, evaluering, autorisasjon og restriksjon av kjemikalier (REACH). Vi erklærer ingen av SVHC-ene (https://echa.europa.eu/web/guest/candidate-list-table), kandidatlisten over svært bekymringsfulle stoffer for godkjenning som for tiden er utgitt av ECHA, finnes i alle produkter (og også pakker) i mengder som til sammen er lik eller over 0.1 %. Så vidt vi vet, erklærer vi også at produktene våre ikke inneholder noen av stoffene som er oppført på "autorisasjonslisten" (vedlegg XIV til REACH-forskriften) og svært bekymringsfulle stoffer (SVHC) i noen betydelige mengder som spesifisert av vedlegg XVII til kandidatlisten publisert av ECHA (European Chemical Agency) 1907/2006/EC.

Konfliktmineralerklæring
Som en global leverandør av elektroniske og elektriske komponenter er Arduino klar over våre forpliktelser med hensyn til lover og forskrifter angående konfliktmineraler, spesifikt Dodd-Frank Wall Street Reform and Consumer Protection Act, seksjon 1502. Arduino har ikke direkte kilde- eller prosesskonﬂikt. mineraler som tinn, tantal, wolfram eller gull. Konﬂiktmineraler finnes i våre produkter i form av loddemetall, eller som en komponent i metallegeringer. Som en del av vår rimelige due diligence har Arduino kontaktet komponentleverandører i forsyningskjeden vår for å bekrefte at de fortsatt overholder regelverket. Basert på informasjonen vi har mottatt så langt erklærer vi at produktene våre inneholder konfliktmineraler hentet fra konfliktfrie områder.

FCC Advarsel

Eventuelle endringer eller modifikasjoner som ikke er uttrykkelig godkjent av parten som er ansvarlig for samsvar, kan ugyldiggjøre brukerens rett til å bruke utstyret.
Denne enheten er i samsvar med del 15 av FCC-reglene. Driften er underlagt følgende to betingelser:

Denne enheten kan ikke forårsake skadelig interferens

denne enheten må akseptere all interferens som mottas, inkludert interferens som kan forårsake uønsket drift.

Note: Dette utstyret er testet og funnet å være i samsvar med grensene for en digital enhet i klasse A, i henhold til del 15 av FCC-reglene. Disse grensene er utformet for å gi rimelig beskyttelse mot skadelig interferens når utstyret brukes i et kommersielt miljø. Dette utstyret genererer, bruker og kan utstråle radiofrekvensenergi, og hvis det ikke er installert og brukt i samsvar med bruksanvisningen, kan det forårsake skadelig interferens på radiokommunikasjon. Bruk av dette utstyret i et boligområde vil sannsynligvis forårsake skadelig interferens, i så fall vil brukeren bli pålagt å korrigere forstyrrelsen for egen regning.

Bedriftsinformasjon

Firmanavn	Arduino Srl
Firmaadresse	Via Andrea Appiani, 25 – 20900 MONZA （ Italy )

Referansedokumentasjon

Ref	Link
Arduino IDE (skrivebord)	https://www.arduino.cc/en/Main/Software
Arduino IDE (sky)	https://create.arduino.cc/editor
Arduino Cloud – Komme i gang	https://docs.arduino.cc/arduino-cloud/getting-started/iot-cloud-getting-started
Arduino PLC IDE	https://www.arduino.cc/en/Main/Software
Arduino Opta® Documentation	https://docs.arduino.cc/hardware/opta
Prosjekthub	https://create.arduino.cc/projecthub?by=part&part_id=11332&sort=trending
Bibliotekreferanse	https://www.arduino.cc/reference/en/
Nettbutikk	https://store.arduino.cc/

Revisjonshistorie

Dato	Revisjon	Endringer
24	4	Expansion port updates
03	3	Cloud Editor oppdatert fra Web Redaktør
05	2	Block Diagram updated
25	1	Første utgivelse

Dokumenter / Ressurser

finder AFX00007 Arduino Configurable Analog [pdf] Brukerhåndbok
AFX00007 Arduino Configurable Analog, AFX00007, Arduino Configurable Analog, Configurable Analog, Analog

Referanser

Brukerhåndbok

finder AFX00007 Arduino Configurable Analog

Produktinformasjon

Produktbruksinstruksjoner