Wiren Board 4:Аппаратная часть/en: различия между версиями
(не показаны 82 промежуточные версии 4 участников) | |||
Строка 11: | Строка 11: | ||
{| border="1" width="45%" class="wikitable" style="text-align:center" | {| border="1" width="45%" class="wikitable" style="text-align:center" | ||
!colspan="2" | ''' | !colspan="2" | '''Software''' | ||
|- | |- | ||
| Operating System || Debian Linux 7.0. Mainline kernel 3.19. | | Operating System || Debian Linux 7.0. Mainline kernel 3.19. | ||
Строка 30: | Строка 30: | ||
|| [[Special:MyLanguage/GSM/GPRS|GSM/GPRS]] || 900/1800 МГц. GPRS multi-slot class 10/8 max. 85.6 kbps (downlink). microSIM card, packaged | || [[Special:MyLanguage/GSM/GPRS|GSM/GPRS]] || 900/1800 МГц. GPRS multi-slot class 10/8 max. 85.6 kbps (downlink). microSIM card, packaged | ||
|- | |- | ||
|| Radio module 433 MHz || RFM69H module. To communicate with [[Special:MyLanguage/Поддерживаемые устройства |Noolite]] devices, [[Special:MyLanguage/Поддерживаемые устройства |Oregon]] | || Radio module 433 MHz || RFM69H module. To communicate with [[Special:MyLanguage/Поддерживаемые устройства |Noolite]] devices, [[Special:MyLanguage/Поддерживаемые устройства |Oregon]] sensors | ||
|- | |- | ||
|| Radio module 2.4 GHz || [[Special:MyLanguage/NRF24L01|NRF24L01]]To communicate with similar NRF24 modules ''(optional)'' | || Radio module 2.4 GHz || [[Special:MyLanguage/NRF24L01|NRF24L01]]To communicate with similar NRF24 modules ''(optional)'' | ||
Строка 40: | Строка 40: | ||
| Ethernet || 10/100 Mbit/s, RJ-45 connector | | Ethernet || 10/100 Mbit/s, RJ-45 connector | ||
|- | |- | ||
|| USB 2.0 Host || 2 connectors (one connector is located inside the | || USB 2.0 Host || 2 connectors (one connector is located inside the case) | ||
|- | |- | ||
|| [[Special:MyLanguage/Аудиовыход|Audiooutput]] || 3.5 mm connector, stereo | || [[Special:MyLanguage/Аудиовыход|Audiooutput]] || 3.5 mm connector, stereo | ||
Строка 52: | Строка 52: | ||
!colspan="2"| '''Connection of sensors''' | !colspan="2"| '''Connection of sensors''' | ||
|- | |- | ||
| 5x[[Special:MyLanguage/ADC | | | 5x[[Special:MyLanguage/ADC|ADC]] || 2x up to 24V , 3x - up to 5V | ||
|- | |- | ||
||2x[[Special:MyLanguage/Входы для резистивных датчиков|Inputs for resistive sensors]] | ||2x[[Special:MyLanguage/Входы для резистивных датчиков|Inputs for resistive sensors]] | ||
Строка 63: | Строка 63: | ||
|- | |- | ||
!colspan="2"| ''' | !colspan="2"| '''Outputs''' | ||
|- | |- | ||
| 9x[[Special:MyLanguage/Управление низковольтной нагрузкой|" | | 9x[[Special:MyLanguage/Управление низковольтной нагрузкой|"Open collector"]] || 24V/2A, control of contactors, LED strip lights, etc. | ||
|- | |- | ||
|| 2xРеле || | || 2xРеле || Up to 250V/3A, normally open contacts | ||
|- | |- | ||
!colspan="2"| ''' | |||
!colspan="2"| '''Other''' | |||
|- | |- | ||
| 8x[[Special:MyLanguage/GPIO|GPIO]] || | | 8x[[Special:MyLanguage/GPIO|GPIO]] || are multiplexed with other inputs/outputs | ||
|- | |- | ||
||1x[[Special:MyLanguage/Buzzer| | ||1x[[Special:MyLanguage/Buzzer|Speaker]]|| "buzzer" | ||
|- | |- | ||
|| | || Real-time clock RTC || [[Special:MyLanguage/RTC|RTC]] Clock battery | ||
|- | |- | ||
|| | || Watchdog timer || Separate hardware watchdog to perform full reset of the device | ||
|- | |- | ||
|| | || 1x Connector for extension module || Supported extension modules:<br /> * RS-232 extension module | ||
|- | |- | ||
!colspan="2"| ''' | !colspan="2"| '''Power supply''' | ||
|- | |- | ||
|| | || Operating voltage || 9-24 V | ||
|- | |- | ||
|| | || Power consumption || <3 W (maximum 12 W) | ||
|- | |- | ||
| | | Redundant battery || Operation Li-ion batteries are supported | ||
|- | |- | ||
|| | ||Passive Power over Ethernet|| [[Special:MyLanguage/Power over Ethernet | Passsive Power over Ethernet]] | ||
|- | |- | ||
|| | || Overall dimensions || board - 103x87x20 mm, housing for DIN rail installation 6U | ||
|- | |- | ||
|| | ||Operation || Operating temperature - 0..70C (-40..85C by request) Conformal coating of pcb for moister protection | ||
|- | |- | ||
|} | {|} | ||
Строка 103: | Строка 104: | ||
[[File:Схемки защиты WB4-2.png|thumb|400px|Input and output protection scheme]] | [[File:Схемки защиты WB4-2.png|thumb|400px|Input and output protection scheme]] | ||
Some terminal blocks can be used to perform | Some terminal blocks can be used to perform more than one function. See the detailed description in the [[Special:MyLanguage/Мультиплексирование портов| Port multiplexing]] article. | ||
{| border="1" width="45%" class="wikitable" style="text-align:center" | {| border="1" width="45%" class="wikitable" style="text-align:center" | ||
| | | | ||
''' | '''legend''' | ||
|| '''Max. V, I''' | || '''Max. V, I''' | ||
| width="10%" | ''' | | width="10%" | '''state''' '''default''' | ||
| width="60%"|''' | | width="60%"|'''Functions''' | ||
|- | |- | ||
! colspan="8"| | ! colspan="8"| Upper row, right block | ||
|- | |- | ||
| '''Vin''' || 24V || || | | '''Vin''' || 24V || ||Input voltage | ||
|- | |- | ||
| '''GND''' || || || | | '''GND''' || || || | ||
|- | |- | ||
| '''O1''' || rowspan="3"| || rowspan="3"| || rowspan="3" | | | '''O1''' || rowspan="3"| || rowspan="3"| || rowspan="3" |Inputs/outputs of extension module | ||
|- | |- | ||
| '''O2''' | | '''O2''' | ||
Строка 124: | Строка 125: | ||
| '''O3''' | | '''O3''' | ||
|- | |- | ||
| '''A''' || 30 V || 0V ||rowspan="2" | | | '''A''' || 30 V || 0V ||rowspan="2" |Non-isolated port [[Special:MyLanguage/RS-485|RS-485]] | ||
|- | |- | ||
| '''B''' || 30 V || +5V | | '''B''' || 30 V || +5V | ||
|- | |- | ||
| '''(9-24)V_OUT''' || 24V || || | | '''(9-24)V_OUT''' || 24V || ||Input voltage (output) to power devices on RS-485 bus | ||
|- | |- | ||
| '''GND''' ||| || || | | '''GND''' ||| || || | ||
|- | |- | ||
| '''A-iso''' || 30 V || 0V || rowspan="2" | | | '''A-iso''' || 30 V || 0V || rowspan="2" |Optically isolated RS-485 [[Special:MyLanguage/RS-485|RS-485]] | ||
|- | |- | ||
| '''B-iso''' || 30 V || +5V | | '''B-iso''' || 30 V || +5V | ||
|- | |- | ||
| '''GND-iso''' || || || | | '''GND-iso''' || || || Ground of optically isolated RS-485 | ||
|- | |-} | ||
! colspan="8"| | ! colspan="8"| Lower row, left block | ||
|- | |- | ||
| '''5V out''' || 5V, 0.5A || 5V || | | '''5V out''' || 5V, 0.5A || 5V || output 5V (for 1-Wire sensors) | ||
|- | |- | ||
| '''W1''' || rowspan="2"| 30V || rowspan="2"| 3.3V || rowspan="2" |[[Special:MyLanguage/1-Wire|1-Wire]], GPIO | | '''W1''' || rowspan="2"| 30V || rowspan="2"| 3.3V || rowspan="2" |[[Special:MyLanguage/1-Wire|1-Wire]], GPIO | ||
Строка 147: | Строка 148: | ||
| '''W2''' | | '''W2''' | ||
|- | |- | ||
| '''R1''' || rowspan="2"| 5V || rowspan="2"|High Z || rowspan="2" | | | '''R1''' || rowspan="2"| 5V || rowspan="2"|High Z || rowspan="2" |Resistive sensors,[[Special:MyLanguage/ADC|ADC]], digital inputs (GPIO) without retightening | ||
|- | |- | ||
| '''R2''' | | '''R2''' | ||
|- | |- | ||
| '''A1''' || rowspan="3"| Vin , 2A || rowspan="3"| High Z || rowspan="3" |[[Special:MyLanguage/Управление низковольтной нагрузкой| | | '''A1''' || rowspan="3"| Vin , 2A || rowspan="3"| High Z || rowspan="3" |[[Special:MyLanguage/Управление низковольтной нагрузкой|"Open collector" outputs]], [[Special:MyLanguage/ADC|ADC]] | ||
|- | |- | ||
| '''A2''' | | '''A2''' | ||
Строка 157: | Строка 158: | ||
| '''A3''' | | '''A3''' | ||
|- | |- | ||
| '''A4''' || rowspan="2"| Vin , 2A || rowspan="2"| High Z || rowspan="2" | [[Special:MyLanguage/Управление низковольтной нагрузкой| | | '''A4''' || rowspan="2"| Vin , 2A || rowspan="2"| High Z || rowspan="2" | [[Special:MyLanguage/Управление низковольтной нагрузкой|"Open collector" outputs]], [[Special:MyLanguage/ADC|ADC]] , digital inputs DI | ||
|- | |- | ||
| '''A5''' | | '''A5''' | ||
Строка 164: | Строка 165: | ||
|- | |- | ||
! colspan="8"| | ! colspan="8"| Lower row, right block | ||
|- | |- | ||
| '''GND''' || rowspan="2"| || rowspan="2"| ||rowspan="2"| | | '''GND''' || rowspan="2"| || rowspan="2"| ||rowspan="2"| | ||
Строка 170: | Строка 171: | ||
| '''GND''' | | '''GND''' | ||
|- | |- | ||
| '''D1''' || rowspan="4"| Vin , 2A || rowspan="4"| +5V || rowspan="4" | [[Special:MyLanguage/Управление низковольтной нагрузкой| | | '''D1''' || rowspan="4"| Vin , 2A || rowspan="4"| +5V || rowspan="4" | [[Special:MyLanguage/Управление низковольтной нагрузкой|"Open collector"]] outputs, [[Special:MyLanguage/"Сухой контакт" | "dry contact"]] inputs | ||
|- | |- | ||
| '''D2''' | | '''D2''' | ||
Строка 179: | Строка 180: | ||
|- | |- | ||
| '''Relay1''' || rowspan="2"| 250, 2A || rowspan="2"| is open ||first relay | |||
|- | |- | ||
| '''Relay2''' || second relay | | '''Relay2''' || second relay | ||
|- |} | |- | ||
{|} | |||
== Input protection == | |||
As compared to previous versions, input protection and general noise immunity are significantly improved. | |||
#All inputs are protected from applying the power supply voltage (up to 24 V) and transient noise. | |||
#Wiren Board 4 is protected against reverse polarity. | |||
#Wiren Board 4 features one optically isolated RS-485 interfaces. | |||
#Low-side FET switches on Ax and Dx inputs are protected from negative voltage spikes from inductive loads. | |||
# Relays have sparking suppression circuits | |||
== Multifunctional inputs/outputs Ax and Dx == | |||
[[File:Ax.png|thumb|400px| Equivalent circuit of A1-A3 channels]] | |||
[[File:А5.png|thumb|400px|Equivalent circuit of A4-A5 channels]] | |||
[[File:Dx.png|thumb|400px|Equivalent circuit of Dx channels]] | |||
Multifunctional channels consist of input and output stages are connected in parallel, as well as protective diodes (connected to one terminal of the channel). | |||
Output stage consists of the Tx switch. | |||
The Tx switch can connect the corresponding output with ground. | |||
The state of the switch is controlled by logic circuits inside the controller. The switch may be one of 2 states: | |||
*Active (closed); channel output is connected to ground (0V) | |||
*Inactive (open), high impedance. | |||
Such outputs are called “open collectors”. | |||
Input stage of Ax channel consists of an analogue-to-digital converter ADCx and an input resistor Rx. | |||
The ADC has a high impedance, so it doesn't affect the channel operation even if the channel works as output. | |||
In input mode the Tx switch is inactive (open) and, thus, does not affect voltage measuring at the channel terminals. Input resistance of the channel in input mode is determined by the Rx resistance. | |||
If the channel terminal is left floating, the input voltage measured by ADCs is pulled down to zero by the Rx resistance. | |||
А4 and А5 support binary input function DI: more than 3V at the terminal is considered as triggering of the input. | А4 and А5 support binary input function DI: more than 3V at the terminal is considered as triggering of the input. | ||
Строка 226: | Строка 235: | ||
== Resistive Inputs == | == Resistive Inputs == | ||
Each terminal is connected to internal adjustable current source. The controller measures current flowing through the sensor and simultaneously measures the terminal voltage to calculate the resistance value. If necessary and if the corresponding program is available, resistive inputs may be used as additional analogue/binary ones. | |||
Строка 246: | Строка 250: | ||
== Power Supply == | |||
[[File:Питание версии4.png|thumb|300px|Блок-схема питания WB 4]] | [[File:Питание версии4.png|thumb|300px|Блок-схема питания WB 4]] | ||
Строка 253: | Строка 257: | ||
=== | === External power source === | ||
Allowed voltage range is 7-24 V. | |||
Average power consumption of the board is 1.5-2 W, but the GSM module may temporally consume up to 8 W. Therefore, it is recommended to use at least 10 W power sources. | |||
A standard connector jack 5.5x2.1 mm is provided for connection to the power source. Input power can also be connected to Vin and GND terminals. | |||
Строка 265: | Строка 269: | ||
=== Power over Ethernet === | === Power over Ethernet === | ||
It is possible to power the device via an Ethernet cable. Ref.[[Special:MyLanguage/Power over Ethernet|Power over Ethernet]]. | |||
=== | === Battery === | ||
Wiren Board | It is possible to connect Wiren Board to a Li-Ion (Li-Pol) battery with maximal voltage of 4.2 V. When the device is connected to a power source, the battery is charged with up to 0.5 A current. | ||
The battery is provided from charging at negative temperature. However, it is not protected from overcharge, and thus it is strongly recommended to use batteries with internal protection boards. | |||
''' | '''It is necessary to meet the battery polarity!''' | ||
== | == Working with WAGO 250 terminal blocks== | ||
[[File:Wago.jpeg|thumb|300px| | [[File:Wago.jpeg|thumb|300px|Working with WAGO 250 terminals]] | ||
Self-tightened clips of WAGO 250 Series are used as interface terminals of the controller. | |||
When a stripped single-core wire is inserted into a clip, it is automatically caught by a spring latch. | |||
In order to insert multi-core wires, it is necessary to press the clip button to compress the spring. | |||
The button is provided with a slot suitable for a flat screw-drive. In order to remove the wire, it is necessary to press the clip button to compress the spring, and then pull the wire out of the clip. | |||
== | == Wi-Fi, GSM, 433MHz antennas == | ||
Wi-Fi antenna is located inside the casing. | |||
GSM and 433 MHz radio antennas are connected to SMA connectors on the casing. | |||
If GSM signal is weak, it is recommended to use an external antenna and to locate it far from the controller. | |||
== | == Peripheral devices connection diagrams == | ||
[[File:Relay.png|thumb|300px| | [[File:Relay.png|thumb|300px|Example of relay connection]] | ||
[[File:Button.png|thumb|400px| | [[File:Button.png|thumb|400px|Example of button connection]] | ||
=== | === Low voltage load control === | ||
12/24V relays, LEDs, fans, indicator lamps, etc. | |||
Power supply voltage of the controller must not be lower than voltage of the connected load. | |||
Connect "+" of the load to "+" of the power source, and "-" to Ax or Dx terminals. | |||
If several channels are used, and their total current exceeds 5 A, connect several GND terminals to "-" of the power source. | |||
Voltage spikes occur when the device controls an inductive load (relay). In order to protect the controller from overload, it is equipped with built-in protective diodes. No external protective elements are necessary. | |||
=== | === Electric contactors with control voltage of 220 V === | ||
Connect the control coil of the contactor via WB relay (ref. fig.). The WB relay is equipped with a damping RC-circuit and a TVS. No external components are necessary. | |||
=== | === Analogue voltage output sensors === | ||
Connect the device ground to the GND terminal or a common grounding bus. Connect the sensor output to Ax or Rx terminal. Ах/Rx channels feature different ranges of measured voltages. Select the optimal channel for your sensor. | |||
=== | === Analogue current output sensors === | ||
WB is not equipped with special current inputs, but it is possible to convert current to voltage by means of 100-300 Ohm resister and use the connection diagram described above. | |||
=== | === Resistive output sensors === | ||
Inputs R1 and R2 are intended for measuring of resistance in a range of 1-100 kOhm. The measured resistor must be connected to GND and Rx terminals. | |||
=== | === Pulse output sensors, counters and buttons === | ||
These devices from output signals by closing two wires they are connected to. | |||
Connect one wire to the GND terminal or a common grounding bus. | |||
Connect the other wire to the Dx terminal. | |||
Some counters are equipped with an optron based pulse output. | |||
In such cases it is necessary to take polarity of the wires into account. | |||
The negative wire must be connected to GND, while the positive one must be connected to Dx. | |||
=== | === “Open collector” output devices === | ||
Both device and controller must be connected to the common grounding bus. Connect the "open collector" output to the Dx terminal. | |||
Строка 391: | Строка 384: | ||
=== | === RS-485 network connection === | ||
See [[Special:MyLanguage/RS-485|RS-485]]. | See [[Special:MyLanguage/RS-485|RS-485]]. | ||
Строка 404: | Строка 397: | ||
=== Example of device connection === | === Example of device connection === | ||
Schematic test stand - [[Файл:Стенд-hi.jpg|thumb|500px|Schematic test stand]] | |||
== | == Schematics and Drawing == | ||
Wiren Board 4 principle diagram - [[Файл:WB 4.3.pdf|Файл:WB 4.3.pdf]], scheme - [[Файл:WB 4.2 чертеж.pdf|Файл:WB 4.2 чертеж.pdf]] | Wiren Board 4 principle diagram - [[Файл:WB 4.3.pdf|Файл:WB 4.3.pdf]], scheme - [[Файл:WB 4.2 чертеж.pdf|Файл:WB 4.2 чертеж.pdf]] |
Текущая версия на 15:46, 7 июня 2019
Technical specifications
Software | |
---|---|
Operating System | Debian Linux 7.0. Mainline kernel 3.19. |
Controller | |
CPU | Freescale i.MX233 454 MHz |
RAM | DDR SDRAM 64 MB |
ROM | MicroSD card 32 GB max |
Wireless Interfaces | |
Wi-Fi | 802.11 b/g/n 2.4 ГГц |
GSM/GPRS | 900/1800 МГц. GPRS multi-slot class 10/8 max. 85.6 kbps (downlink). microSIM card, packaged |
Radio module 433 MHz | RFM69H module. To communicate with Noolite devices, Oregon sensors |
Radio module 2.4 GHz | NRF24L01To communicate with similar NRF24 modules (optional) |
Wired interfaces | |
Ethernet | 10/100 Mbit/s, RJ-45 connector |
USB 2.0 Host | 2 connectors (one connector is located inside the case) |
Audiooutput | 3.5 mm connector, stereo |
2xRS-485 (one of the ports is insulated) | Software support of Modbus RTU, ADICON/A-BUS/Uniel, and Smartbus G4 protocols |
Debug console | Debug UART To be connected via USB-UART adapter |
2x 1-Wire | Connection of temperature and moister sensors |
Connection of sensors | |
5xADC | 2x up to 24V , 3x - up to 5V |
2xInputs for resistive sensors | Connection of 10 kOhm thermistors. The controller can be used as ADC up to 3.3V |
4x"Dry contact" | Connection of pushbuttons, gerkons, counters with pulse outputs |
2x DI (digital input) | |
Outputs | |
9x"Open collector" | 24V/2A, control of contactors, LED strip lights, etc. |
2xРеле | Up to 250V/3A, normally open contacts |
Other | |
8xGPIO | are multiplexed with other inputs/outputs |
1xSpeaker | "buzzer" |
Real-time clock RTC | RTC Clock battery |
Watchdog timer | Separate hardware watchdog to perform full reset of the device |
1x Connector for extension module | Supported extension modules: * RS-232 extension module |
Power supply | |
Operating voltage | 9-24 V |
Power consumption | <3 W (maximum 12 W) |
Redundant battery | Operation Li-ion batteries are supported |
Passive Power over Ethernet | Passsive Power over Ethernet |
Overall dimensions | board - 103x87x20 mm, housing for DIN rail installation 6U |
Operation | Operating temperature - 0..70C (-40..85C by request) Conformal coating of pcb for moister protection |
Terminal blocks
Some terminal blocks can be used to perform more than one function. See the detailed description in the Port multiplexing article.
legend |
Max. V, I | state default | Functions | ||||
Upper row, right block | |||||||
---|---|---|---|---|---|---|---|
Vin | 24V | Input voltage | |||||
GND | |||||||
O1 | Inputs/outputs of extension module | ||||||
O2 | |||||||
O3 | |||||||
A | 30 V | 0V | Non-isolated port RS-485 | ||||
B | 30 V | +5V | |||||
(9-24)V_OUT | 24V | Input voltage (output) to power devices on RS-485 bus | |||||
GND | |||||||
A-iso | 30 V | 0V | Optically isolated RS-485 RS-485 | ||||
B-iso | 30 V | +5V | |||||
GND-iso | Ground of optically isolated RS-485 | ||||||
Lower row, left block | |||||||
5V out | 5V, 0.5A | 5V | output 5V (for 1-Wire sensors) | ||||
W1 | 30V | 3.3V | 1-Wire, GPIO | ||||
W2 | |||||||
R1 | 5V | High Z | Resistive sensors,ADC, digital inputs (GPIO) without retightening | ||||
R2 | |||||||
A1 | Vin , 2A | High Z | "Open collector" outputs, ADC | ||||
A2 | |||||||
A3 | |||||||
A4 | Vin , 2A | High Z | "Open collector" outputs, ADC , digital inputs DI | ||||
A5 | |||||||
GND | |||||||
Lower row, right block | |||||||
GND | |||||||
GND | |||||||
D1 | Vin , 2A | +5V | "Open collector" outputs, "dry contact" inputs | ||||
D2 | |||||||
D3 | |||||||
D4 | |||||||
Relay1 | 250, 2A | is open | first relay | ||||
Relay2 | second relay |
Input protection
As compared to previous versions, input protection and general noise immunity are significantly improved.
- All inputs are protected from applying the power supply voltage (up to 24 V) and transient noise.
- Wiren Board 4 is protected against reverse polarity.
- Wiren Board 4 features one optically isolated RS-485 interfaces.
- Low-side FET switches on Ax and Dx inputs are protected from negative voltage spikes from inductive loads.
- Relays have sparking suppression circuits
Multifunctional inputs/outputs Ax and Dx
Multifunctional channels consist of input and output stages are connected in parallel, as well as protective diodes (connected to one terminal of the channel).
Output stage consists of the Tx switch. The Tx switch can connect the corresponding output with ground.
The state of the switch is controlled by logic circuits inside the controller. The switch may be one of 2 states:
- Active (closed); channel output is connected to ground (0V)
- Inactive (open), high impedance.
Such outputs are called “open collectors”.
Input stage of Ax channel consists of an analogue-to-digital converter ADCx and an input resistor Rx.
The ADC has a high impedance, so it doesn't affect the channel operation even if the channel works as output.
In input mode the Tx switch is inactive (open) and, thus, does not affect voltage measuring at the channel terminals. Input resistance of the channel in input mode is determined by the Rx resistance.
If the channel terminal is left floating, the input voltage measured by ADCs is pulled down to zero by the Rx resistance.
А4 and А5 support binary input function DI: more than 3V at the terminal is considered as triggering of the input.
Input stage of Dx channels consists of a circuit for connection of dry contacts. This stage continuously provides 5V voltage at the terminal. In input mode the Tx key is inactive (open). When the terminal is grounded, small current (2 mA) flows via the channel. Controller considers that as triggering of the input. Closing of the Tx key is considered as triggering of the input. In output mode the output stage does not affect the channel operation, provided that a more than 5 V load is connected to the channel.
Resistive Inputs
Each terminal is connected to internal adjustable current source. The controller measures current flowing through the sensor and simultaneously measures the terminal voltage to calculate the resistance value. If necessary and if the corresponding program is available, resistive inputs may be used as additional analogue/binary ones.
Extension modules
Ref. the corresponding articles to describe connection and software operation:
- Wiren Board 4: RS-232 extension module
- Wiren Board 4: CAN extension module
- Wiren Board 4: UART-CAN extension module
Power Supply
External power source
Allowed voltage range is 7-24 V. Average power consumption of the board is 1.5-2 W, but the GSM module may temporally consume up to 8 W. Therefore, it is recommended to use at least 10 W power sources.
A standard connector jack 5.5x2.1 mm is provided for connection to the power source. Input power can also be connected to Vin and GND terminals.
Power over Ethernet
It is possible to power the device via an Ethernet cable. Ref.Power over Ethernet.
Battery
It is possible to connect Wiren Board to a Li-Ion (Li-Pol) battery with maximal voltage of 4.2 V. When the device is connected to a power source, the battery is charged with up to 0.5 A current.
The battery is provided from charging at negative temperature. However, it is not protected from overcharge, and thus it is strongly recommended to use batteries with internal protection boards.
It is necessary to meet the battery polarity!
Working with WAGO 250 terminal blocks
Self-tightened clips of WAGO 250 Series are used as interface terminals of the controller. When a stripped single-core wire is inserted into a clip, it is automatically caught by a spring latch. In order to insert multi-core wires, it is necessary to press the clip button to compress the spring. The button is provided with a slot suitable for a flat screw-drive. In order to remove the wire, it is necessary to press the clip button to compress the spring, and then pull the wire out of the clip.
Wi-Fi, GSM, 433MHz antennas
Wi-Fi antenna is located inside the casing.
GSM and 433 MHz radio antennas are connected to SMA connectors on the casing.
If GSM signal is weak, it is recommended to use an external antenna and to locate it far from the controller.
Peripheral devices connection diagrams
Low voltage load control
12/24V relays, LEDs, fans, indicator lamps, etc.
Power supply voltage of the controller must not be lower than voltage of the connected load. Connect "+" of the load to "+" of the power source, and "-" to Ax or Dx terminals. If several channels are used, and their total current exceeds 5 A, connect several GND terminals to "-" of the power source. Voltage spikes occur when the device controls an inductive load (relay). In order to protect the controller from overload, it is equipped with built-in protective diodes. No external protective elements are necessary.
Electric contactors with control voltage of 220 V
Connect the control coil of the contactor via WB relay (ref. fig.). The WB relay is equipped with a damping RC-circuit and a TVS. No external components are necessary.
Analogue voltage output sensors
Connect the device ground to the GND terminal or a common grounding bus. Connect the sensor output to Ax or Rx terminal. Ах/Rx channels feature different ranges of measured voltages. Select the optimal channel for your sensor.
Analogue current output sensors
WB is not equipped with special current inputs, but it is possible to convert current to voltage by means of 100-300 Ohm resister and use the connection diagram described above.
Resistive output sensors
Inputs R1 and R2 are intended for measuring of resistance in a range of 1-100 kOhm. The measured resistor must be connected to GND and Rx terminals.
Pulse output sensors, counters and buttons
These devices from output signals by closing two wires they are connected to. Connect one wire to the GND terminal or a common grounding bus. Connect the other wire to the Dx terminal. Some counters are equipped with an optron based pulse output. In such cases it is necessary to take polarity of the wires into account. The negative wire must be connected to GND, while the positive one must be connected to Dx.
“Open collector” output devices
Both device and controller must be connected to the common grounding bus. Connect the "open collector" output to the Dx terminal.
Network connection of 1-Wire
Connect the device ground to the GND terminal or a common grounding bus. Connect the data line to one of 1-Wire terminals. Connect the power line to 5V terminal (internal power source). It is allowed to use external power sources of 1-Wire bus.
If a passive power source is used, the power terminals of all sensors must be connected to the grounding bus. In such cases the bus will consist of two wires connected to 1-Wire and GND, respectively.
RS-485 network connection
See RS-485.
Wiren Board 4 controllers are equipped with two RS-485 ports. One of them is galvanic insulated, the other one is not. If the RS-485 network is quite large, it is better use the insulated port for connection. Lines A and B are connected to A and B terminals, respectively. The signal ground (if any) must be connected to the GNDiso terminal.
A and B lines are often accompanied by another pair of wires used to power devices connected to the bus. In such cases it is necessary to use GND and Vout terminals. Current in power wires must not exceed 1 A.
Example of device connection
Schematic test stand -Schematics and Drawing
Wiren Board 4 principle diagram - Файл:WB 4.3.pdf, scheme - Файл:WB 4.2 чертеж.pdf