Functional devices Rib ribtw2401b-wiui-n4 User manual

Functional Devices, Inc. • p: 800.888.5538 • f: 765.883.7505 • www.functionaldevices.com • [email protected]om

082014

# Relays & Contact Type:

Expected Relay Life:

Operating Temperature:

Operate Time:

Green LED:

Yellow LED:

Pink LED:

Red LED:

Dimensions:

Wires:

Approvals:

Housing Rating:

Gold Flash:

Relay Override Switch:

Wi:

One (1) SPDT Continuous Duty Coil

10 million cycles minimum mechanical

-30 to 140° F

18mS

Device Status

Wi Ad-Hoc Status

Wi Infrastructure Status

Digital Input Status

Relay Status

4.28˝ x 7.00˝ x 2.00˝ with .75˝ NPT Nipple

16˝, 600V Rated

UL Listed, UL916, C-UL

FCC, CE, RoHS, Wi Certied ASD Device

UL Accepted for Use in Plenum, NEMA 4X

DIP Switch Control

IEEE 802.11 b/g/n Compatible, (G)

54 Mbps Data Rate

-91 dBm Min. Sensitivity

+102 Bm Max Output Power

Currently Unsecured Connection

(WPA-PSK or WPA-2-PSK Available)

Supports PING and ARP

DSSS Modulation

RIBTW2401B-WIUI-N4

Wi IEEE 802.11 Network Enclosed I/O Device: One Discrete Output (20 Amp Relay SPDT +

Override), One Discrete Input (Dry Contact, Class 2); Two Universal Inputs; 24 Vac/dc, 120 Vac Power

Code Version 3.3.9

Power Input:

24 Vac = Terminal Strip (20 Vac min. ; 28 Vac max.)

24 Vdc = Terminal Strip (24 Vdc min. ; 28 Vdc max.)

120 Vac = Wht/Blk Wire

Neutral = Wht/Yel Wire

Device Settings by Network:

• Power up default relay state

• Host name and location labels

• Relay bound to digital input

• Current threshold for go/no-go status

• Load voltage entry for power conversion

Device Settings:

•Local Override

•Reset to Network Defaults Pushbutton

Specications

Network Compatible Relay

Power Input Ratings:

158 mA Max @ 24 Vac

110 mA Max @ 24 Vdc

55 mA Max @ 120 Vac

Available TCP/IP Settings:

• IP Address (Static)

• Port Number

•Subnet Mask

•Gateway

• Ad-Hoc mode

• Infrastructure mode

• Scan for wireless networks

Contact Ratings:

20 Amp Resistive @ 277 Vac

5 Amp Resistive @ 480 Vac

20 Amp Ballast @ 277 Vac

16 Amp Electronic Ballast @ 277 Vac (N/O)

10 Amp Tungsten @ 120 Vac (N/O)

1110 VA Pilot Duty @ 277 Vac

770 VA Pilot Duty @ 120 Vac

1 HP @ 120 Vac

2 HP @ 277 Vac

•Setup Instructions available

on website.

http://www.functionaldevices.com/pdf/

bulletins/B1783_393223.pdf

Or scan QR code with your smart phone.

Made in USA

Meets

“Buy American”

of ARRA 2009

COM

N/C

N/O

Pink LED = DI Status

Green LED = Device Status

Red LED = Relay Status

Yellow LED = Infrastructure Status

Green LED = Ad-Hoc Status

+ 5V UI1 COM

Universal Input 1

+ 5V UI2 COM

Universal Input 2

Relay

Operation

AUTO

OFF

SW 1

SW 2

COM

General

Purpose

Dry Contact

Input

Relay Contacts

RESET to Factory

Defaults Pushbutton

UI1

420

UI2

420

COM

24Vac

24Vdc

24V Optional

Power Input

Term A: (Not used)

Term B: 120 Vac

Term C: Neut

120 Vac Optional

Power Input

Shown

With

Cover

CAUTION: Remove all connections to UI 1 and UI 2 when setting input.

Universal Input: Congurable by internal device web page, accessible in either Ad-Hoc or Infrastructure.

• Analog value returned, user congurable min. and max. scale, and label, 0-5 Vdc, 0-10 Vdc, or 4-20 mA*

• Direct temperature reading from Type T2 Thermistor.

• Digital Input, connect between +5 Vdc and UI input.

* 4-20 mA, when used, requires jumper to be installed on UI set for 4-20 mA input. Jumper MUST be

removed when UI input used as anything other than 4-20 mA.

Wi-Fi RIB™

Note: Ad-Hoc Mode must be used for set-up and may be used for permanent use.

1. Make note of current computer IP settings and restore settings when nished. If you are unsure of settings, contact your network administrator.

2. Change TCP/IP settings of the computer to connect to the Wi-Fi RIB™ as follows:

IP Address: 192.168.100.2 Subnet mask: 255.255.255.224 Default Gateway: 192.168.100.1

3. Connect and apply power to the Wi-Fi RIB™ (24Vac or 24Vdc recommended for setup to avoid Line Voltage wiring; all settings will be maintained when

power is removed). The green Device Status LED will ash at a rate of once per second and the green Ad-Hoc Status LED will stay lit while in Ad-Hoc Mode,

yellow Infrastructure Status LED will remain o while in Ad-Hoc Mode (see Device LEDs for other LED indications).

4. View wireless connections on the computer. Look for the network called “Wi-Fi RIB™” and connect. This establishes a connection between the Wi-Fi RIB™

and the computer in an Ad-Hoc network.

5. In any Internet web browser such as Safari®, Firefox®, or Internet Explorer®, type in the default factory address of 192.168.100.10 and press enter.

Wi-Fi RIB™– Getting Started

In the web browser window, you should see the Wi-Fi RIB™ main web page. You will be able to control the relay and read status. To change the state of the

relay, click the “on” or “o” button and click “Set Relay”. At the bottom of the page you can see: status of relay, last command, universal inputs 1 and 2 and

their associated digital inputs, DI 1 and DI 2 (webpage allows one or both universal inputs to be congured as digital inputs and are usable as such, in ad-

ditional to the general purpose digital input.)

Main Page – (Click “Main” link at top of page to return to this page)

Note: Settings can be viewed on Main Page status or in the xml status read outside the web page.

1. Change the RIB default IP address, port number, subnet mask, or gateway if desired – click save after each setting.

Note: The Wi-Fi RIB™ ships from the factory with a default IP address of 192.168.100.10, default gateway of 192.168.100.1, and default subnet mask of

255.255.255.224, and has a unique MAC address for use on the internet or on an internal intranet or network. If at anytime an incorrect address is used or

address is forgotten, the Wi-Fi RIB™ may be returned to factory defaults by pressing the RESET pushbutton on the Wi-Fi RIB™ until the Device Status LED

ashes rapidly (approx. 5 seconds).

2. Set “Device Name” and click save. Set “Device Location” and click save. (Up to 16 characters.)

3. “Default Relay Setting” determines the state to which the relay will default upon return from deliberate power-cycle or due to power loss. Make selection

for relay to come on, stay o, or return to last commanded state. After power-up, the relay will follow commanded states if communications are restored.

4. “General Purpose Digital Input/Relay Binding” allows the relay to be controlled from the Dry Contact GP Digital Input if desired. If bound, the relay will

follow the state of the Digital Input (typical application: motion-detector closes dry contact input, relay turns on light). If unbound, the Digital Input may

be used as a general-purpose status input or otherwise (independent of relay).

5. “Universal Input 1 Setup” and “Universal Input 2 Setup” are used to setup input to analog 0-5 V, 0-10 V, or 4-20 mA; or Thermistor input in Degrees F or C.

Analog inputs use min. and max. of scale and units set by user. Min. and max. are not used when T2 Thermistor selected.

Setup Page – Network and operational settings (Click “Setup” link at top of page.)

Functional Devices, Inc. • p: 800.888.5538 • f: 765.883.7505 • www.functionaldevices.com • [email protected]om

The relay may be controlled over the Wi network by the web page or HTTP commands, by the general purpose Digital Input (if binding is set to Bound

on the setup page), or manually by the override DIP switches on the Wi-Fi RIB™. The Digital Input (if binding activated) takes precedence over Wi network

commands, the DIP switches take precedence over both the Digital Input (if binding activated) and the Wi network commands.

Sources of Relay Control and Order of Precedence

• Green Device Status LED: Flashes at rate of once per second (LED will be on 1/2 second and o 1/2 second). Hesitation in LED may be seen when the

Wi-Fi RIB™ is answering HTTP commands.

• Green Ad-Hoc Status LED: On solid while in Ad-Hoc mode. LED will be o when in Infrastructure Mode.

• Yellow Infrastructure Status LED: Flashes at rate of once per second (LED will be on 1/2 second and o 1/2 second) when Wi-Fi RIB™ is searching for

router either during original connection, after power cycle of router or Wi-Fi RIB™, or network activity intended to disconnect Wi-Fi RIB™. LED will be o

when in Ad-Hoc Mode.

• Pink Digital Input Status LED: On if Digital Input is closed, o if open.

• Red Relay Status LED: On if relay is activated (N/O closed, N/C open), o if deactivated (N/O open, N/C closed).

Device LEDs – A description of all LED indications

Note 1: If a mistake is made setting up the Wi-Fi RIB™, it may be necessary to manually return to Ad-Hoc Mode. Pressing the RESET pushbutton (about 5

seconds) on the Wi-Fi RIB™ will return it to factory default settings, including returning it to Ad-Hoc Mode.

Note 2: You may scan for the desired router if in range, or enter the name and security type of the router – the Wi-Fi RIB™ will retain the router information if

power is removed from the Wi-Fi RIB™ and will nd the router once power is restored to the Wi-Fi RIB™ if the router is in range.

1. To scan for routers in range, click “Scan For Wireless Networks” to nd search list of Wi routers of desired infrastructure network and select router.

2. To enter the name and security type of the router, click “Other Network...”. The green Ad-Hoc Status LED will extinguish and the yellow Infrastructure

Status LED will begin ashing at a rate of once per second until the Wi-Fi RIB™ establishes connection to router and then stay on (see Device LEDs for other

LED indications).

The Wi-Fi RIB™ will be entered into the infrastructure network on the router. You must now go back to view wireless networks on the computer to connect

to the same network to nd the Wi-Fi RIB™.

Web Page – To enter the Wi-Fi RIB™ into Infrastructure Mode or to return to Ad-Hoc Mode. (Click “Wi” link on top of page)

Functional Devices, Inc. • p: 800.888.5538 • f: 765.883.7505 • www.functionaldevices.com • [email protected]om

Wi-Fi RIB™– Control and Status by HTTP Commands and XML

HTTP Get commands to control relay and get status bypassing Wi-Fi RIB™ webpage. Status returned in XML format.

To turn relay on and o:

http://192.168.100.10/index.htm?relay=on

http://192.168.100.10/index.htm?relay=o

To congure relay power up state:

http://192.168.100.10/cong.htm?pwr=on

http://192.168.100.10/cong.htm?pwr=o

http://192.168.100.10/cong.htm?pwr=last

To congure whether relay is bound or unbound to digital input:

http://192.168.100.10/cong.htm?dry=on

http://192.168.100.10/cong.htm?dry=o

To set name and location:

http://192.168.100.10/cong.htm?host=user dened text* (16 characters max)

http://192.168.100.10/cong.htm?loc=user dened text* (16 characters max)

* Follow standard URL encoding. Avoid non-alphanumeric characters as they may be interpreted as Escape Codes and may cause errors.

To reset device:

http://192.168.100.10/reset.htm

To congure Universal Inputs 1 and 2:

The universal inputs can be set up via 4 dierent methods; manually through the web page via a PC/Smart Phone, sending HTTP GET commands to the

device over the network from a controller, or thru a web browser, or by clicking on predened setup links, similar to bookmarks in a web browser, or click-

able links within a Word document.

There are 5 dierent modes that the universal inputs support.

1. di05 – 0-5Vdc input mode with OPEN or CLOSED feedback. If input is less than or equal to 0.5 Volts, the digital input status will show “OPEN”. When the

input voltage is greater than or equal to 4.5 volts, the digital input status will show “CLOSED”. When the input voltage is in between, the digital input status

will show “NULL”.

2. 010 – 0-10Vdc input mode.

3. 420 – 4-20mA input mode – with additional hardware jumper installed.

4. therf – Type 2 thermistor input mode with results in Fahrenheit.

5. therc – Type 2 thermistor input mode with results in Celsius.

The 0-5Vdc, 0-10Vdc, and the 4-20mA inputs all support using minimum and maximum scaling (oating point values), and provide a measurement units

entry eld. i.e. If input is set to 0-5Vdc input, with a minimum scale value of 0.00, and a maximum scale value of 100, with units set to Volts. A 2.5 Volt input

would produce a 50% result. If scales were changed to min of 0, and a max of 5, then a 2.5Vdc input would produce a 2.5Vdc one for one result.

Example usage for setup for UI1 and UI2, via controller, or web browser.

http://192.168.100.10/ui1=di05&min1=0.00&max1=100.00&unt1=Vdc

http://192.168.100.10/ui1=therf

http://192.168.100.10/ui2=010&min2=0.00&max2=10.00&unt2=Vdc

http://192.168.100.10/ui2=therc

ui1 = Universal Input Mode 1. Set to any of 5 listed modes above

ui2 = Universal Input Mode 2. Set to any of 5 listed modes above

min1 = minimum scale for use with UI1 in oating point format

max1 = maximum scale for use with UI1 in oating point format

min2 = minimum scale for use with UI2 in oating point format

max2 = maximum scale for use with UI2 in oating point format

unt1 = Units used for UI1 – up to 9 characters of text

unt2 = Units used for UI2 – up to 9 characters of text

Functional Devices, Inc. • p: 800.888.5538 • f: 765.883.7505 • www.functionaldevices.com • [email protected]om

<bss>

</bss>

<ssid>WiﬁRIBsBldg2</ssid> (SSID name assigned to router)

</response>

This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are

designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate

radio frequency energy, and if not installed and used in accordance with the instructions, may cause harmful interference to radio communications.

However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or

television reception, which can be determined by turning the equipment o and on, the user is encouraged to try to correct the interference by one or

more of the following measures:

• Reorient or relocate the receiving antenna.

• Increase the separation between the equipment and receiver.

• Connect the equipment into an outlet on a circuit dierent from that to which the receiver is connected.

• Consult the dealer or an experienced radio/TV technician for help.

Other relay states: OFF, OVERRIDDEN ON, ON, BOUND ON, BOUND OFF

Other network command: ON

Other digital in state: OPEN

Other Universal Input 1 settings: 0-10V, 4-20mA, T2 ermistor F, T2 ermistor C

Universal Input 1 analog value (scaled by customer) followed by label (entered by customer)

Universal Input 1 DI status (analog range 0-5V must be selected and scale set to 0-5)

Other Universal Input 2 settings: 0-10V, 4-20mA, T2 ermistor F, T2 ermistor C

Universal Input 2 analog value (scaled by customer) followed by label (entered by customer)

Universal Input 2 DI status (analog range 0-5V must be selected and scale set to 0-5)

Other default power on states: ON, LASTSTATE

Other binding state: BOUND

User deﬁned label

Factory ﬁrmware version

<relayState>OVERRIDDEN OFF</relayState>

<digtalInputState>CLOSED</digtalInputState>

<ui1Value>49.85 Percent</ui1Value>

<di1Value>Closed</di1Value>

<ui2Value>49.85 Percent</ui2Value>

<di2Value>Closed</di2Value>

<bindingState>UNBOUND</bindingState>

<deviceHostName>Device Name</deviceHostName>

<deviceLocation>Device Location</deviceLocation>

This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are

designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate

radio frequency energy, and if not installed and used in accordance with the instructions, may cause harmful interference to radio communications.

However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or

television reception, which can be determined by turning the equipment o and on, the user is encouraged to try to correct the interference by one or

more of the following measures:

• Reorient or relocate the receiving antenna.

• Increase the separation between the equipment and receiver.

• Connect the equipment into an outlet on a circuit dierent from that to which the receiver is connected.

• Consult the dealer or an experienced radio/TV technician for help.

To read status information:

http://192.168.100.10/status.xml

Response will be in the following format:

<?xml version=”1.0” encoding=”utf-8”?>

Functional Devices, Inc. • p: 800.888.5538 • f: 765.883.7505 • www.functionaldevices.com • [email protected]om

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