Sure Cross

®

Performance Gateway Module with I/O

Datasheet

Sure Cross

®

Performance embeddable board modules were specifically designed for the needs of industrial users to provide connectivity where traditional wired connections are not possible or cost prohibitive. Wireless networks are formed around a Gateway, which acts as the wireless network master device, and one or more Nodes. Sure Cross Performance embeddable board modules communicate with all Sure Cross Performance radios.

• Wireless industrial I/O device with two PNP discrete inputs, two PNP discrete outputs, two 0–20 mA analog inputs, and two 0–20 mA analog outputs

• Selectable transmit power levels of 250 mW or 1 Watt for 900 MHz models and 65 mW for 2.4 GHz models

• 10 to 30 V dc power input

• DIP switches for user configuration

• Modbus serial interface

• Frequency Hopping Spread Spectrum (FHSS) technology and Time Division Multiple

Access (TDMA) control architecture ensure reliable data delivery within the unlicensed

Industrial, Scientific, and Medical (ISM) band

• Transceivers provide bidirectional communication between the Gateway and Node, including fully acknowledged data transmission

• Lost RF links are detected and relevant outputs set to user-defined conditions

For additional information, updated documentation, and accessories, refer to Banner Engineering's website,

www.bannerengineering.com/surecross

. Refer to document number

164886

, packed with your PB2 Gateway, for a quick start guide to forming PB2 to PB2 networks.

Antenna Connection Inputs and Outputs Models

DX80G2M6S-PB2

DX80G9M6S-PB2

DX80G2M6U-PB2

DX80G9M6U-PB2

Ext. Reverse Polarity SMA, 50 Ohms

U.FL-R-SMT.(01)

Frequency

2.4 GHz ISM Band

900 MHz ISM Band

2.4 GHz ISM Band

900 MHz ISM Band

Inputs: Two PNP discrete, two 0–20 mA analog

Outputs: Two PNP discrete, two 0–20 mA analog

Automatically maps I/O from a Node to the Gateway via DIP switches on the Gateway

WARNING: Not To Be Used for Personnel Protection

Never use this device as a sensing device for personnel protection. Doing so could lead to

serious injury or death. This device does not include the self-checking redundant circuitry necessary to allow its use in personnel safety applications. A sensor failure or malfunction can cause either an energized or de-energized sensor output condition.

CAUTION: Electrostatic Discharge (ESD)

ESD Sensitive Device. Use proper handling procedures to prevent ESD damage to these devices. The module does not contain any specific ESD protection beyond the structures contained in its integrated circuits. Proper handling procedures should include leaving devices in their anti-static packaging until ready for use; wearing anit-static wrist straps; and assembling units on a grounded, static-dissipative surface.

CAUTION: Never Operate 1 Watt Radios Without Antennas

To avoid damaging the radio circuitry, never power up Sure Cross

®

MultiHop (1 Watt) radios without an antenna.

Performance or Sure Cross

Original Document

163211 Rev. G

18 May 2016

163211

Sure Cross

®

Performance Gateway Module with I/O

Sure Cross

®

User Configuration Tool

The User Configuration Tool (UCT) offers an easy way to link I/O points in your wireless network, view I/O register values graphically, and set system communication parameters when a host system is not part of the wireless network.

The User Configuration Tool (UCT) software runs on any computer with the Windows

7, Windows 8, or Windows 10 operating system. Use a USB to RS-485 adapter cable to connect a standalone DX80 Gateway to the computer. For DXM Controllers with an internal DX80 radio, connect a computer to the DXM Controller using a USB or

Ethernet connection. Download the most recent revisions of the UCT software from

Banner Engineering's website:

http://www.bannerengineering.com/wireless

.

The USB to RS-485 adapter cable is not required for the DXM Controller. For standalone DX80 Gateway devices use:

• USB to RS-485 adapter cable model BWA-UCT-900 for 1 Watt radios

• USB to RS-485 adapter cable model BWA-HW-006 for all other radios

Using Performance and Non-Performance Radios in the Same Network

To comply with federal regulations, the 150 mW radios and 1 Watt radios communicate differently. To mix Performance radios with non-Performance radios:

• Operate Performance radios in 250 mW mode to communicate with non-Performance radios (DIP switch 1 ON)

• Set non-Performance radios to use Extended Address Mode to communicate with Performance radios (DIP switch 1

ON)

For more detailed instructions about setting up your wireless network, refer to the Quick Start Guide (p/n

128185

). For more information about using Performance and non-Performance radios within the same network, refer the technical note titled Mixing Performance Radios and 150 mW Radios in the Same Network listed on the Wireless Support - FAQs section of Banner's

Wireless website

.

Setting Up Your Wireless Network

To set up and install your wireless network, follow these steps.

Disconnect the power from your Sure Cross devices.

1. Configure the DIP switches of all devices.

2. If your device has I/O, connect the sensors to the Sure Cross devices. If your device does not have I/O, skip this step.

3. Refer to the wiring diagrams to apply power to all devices.

• For two LED models, the Gateway's LED 1 is solid green and the Node's LED 2 flashes red to indicate there is no radio link to the Gateway.

• For one LED models, the Gateway's LED is solid green and the Node's LED flashes red to indicate there is no radio link to the Gateway.

4. Form the wireless network by binding the Nodes to the Gateway. If the binding instructions are not included in the datasheet, refer to the product manual for binding instructions.

5. Observe the LED behavior to verify the devices are communicating with each other.

• For two LED models, the Gateway's LED 1 is solid green and the Node's LED 1 flashes green to indicate it is communicating with the Gateway.

• For one LED models, the Gateway's LED is solid green and the Node's LED flashes green to indicate it is communicating with the Gateway.

6. Conduct a site survey between the Gateway and Nodes. If the site survey instructions are not included in this datasheet, refer to the product manual for detailed site survey instructions.

7. Install your wireless sensor network components. If installation instructions are not included in this datasheet, refer to the product manual for detailed installation instructions.

For additional information, including installation and setup, weatherproofing, device menu maps, troubleshooting, and a list of accessories, refer to one of the following product manuals.

• Sure Cross

• Sure Cross

®

®

Quick Start Guide:

128185

Wireless I/O Network Instruction Manual:

132607

• Web Configurator Instruction Manual (used with "Pro" and DX83 models):

134421

• Host Controller Systems Instruction Manual:

132114

Configure the DIP Switches

Before making any changes to the DIP switch positions, disconnect the power. DIP switch changes will not be recognized if power isn't cycled to the device.

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For parameters not set via DIP switches, use the User Configuration Tool (UCT) to make configuration changes. For parameters set using the DIP switches, the DIP switch positions override any changes made using the User Configuration

Tool.

DIP Switch Settings

Transmit Power

The 900 MHz radios can be operated at 1 watt (30 dBm) or 250 mW (24 dBm). While the Performance radios operate in 1

Watt mode, they cannot communicate with the older 150 mW radios. To communicate with the older 150 mW radios, operate this radio in 250 mW mode. For 2.4 GHz models, this DIP switch is disabled. The transmit power for 2.4 GHz is fixed at about 65 mW EIRP (18 dBm), making the 2.4 GHz Performance models automatically compatible with older 2.4

GHz models.

DIP Switch 1

OFF *

ON

1 Watt (30 dBm, 900 MHz models only)

250 mW (24 dBm, 900 MHz models only), DX80 compatibility mode

Modbus/UCT Configured or DIP Switch Configured

In Modbus/UCT Configured mode, the device parameters are changed using the User Configuration Tool (UCT) or a Modbus command. All DIP switch positions are ignored. In DIP Switch Configured mode, use the DIP switches to configure the parameters listed in the table. By default, this Gateway uses Modbus commands or the User Configuration Tool to configure the device.

DIP Switch 2

OFF *

ON

Modbus or UCT configured (DIP switches 3-8 are ignored)

DIP switch configured

DIP Switch 3

DIP switch 3 must remain in the OFF position.

Link Loss Output State

The SureCross DX80 wireless devices use a deterministic radio link time-out method to address RF link interruption or failure. When a radio link fails, all pertinent wired outputs are sent to defined states until the link is recovered, ensuring that disruptions in the communications link result in predictable system behavior. Select the state the outputs are changed to during a link loss.

DIP Switches

4

OFF *

OFF

ON

ON

5

OFF *

ON

OFF

ON

Off (discrete) or 0 mA (analog)

On (discrete) or 20 mA (analog)

Hold last stable state

Reserved

* Default configuration

Analog Scale

Use the DIP switch to select which current scale to use for all the device's analog inputs and outputs: 0 to 20 mA or 4 to

20 mA. When using a 4-20 mA sensor with a 0-20 mA input, the sensor uses the 4-20 mA section of the total range. Using a 4-20 mA with a 0-20 mA input allows you to determine when you have an error condition with the sensor. A normal input reading between 4 and 20 mA indicates a functioning sensor whereas a value below 4 mA indicates an error condition, such as a broken wire or loose connection. This DIP switch is used only on the 0 to 20 mA models, not the 0 to

10V models.

DIP Switch 6

OFF *

ON

0–20 mA scale

4–20 mA scale

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Performance Gateway Module with I/O

* Default configuration

I/O Mapping

When using these DIP switches to set the I/O mapping, you must change the Node's rotary dials to 01 or 02, depending on which mapping sequence you are using. By default, the Nodes ship from the factory set to 11.

DIP Switches

7 = OFF 8 = OFF

No I/O mapping via the DIP switches. Use the User

Configuration Tool (UCT) to configure the I/O.

One PB2 Node to a PB2 Gateway

Gateway Node

DIP Switches

7 = OFF 8 = ON

Node 01 Discrete IN 1 → Gateway Discrete OUT 1

Node 01 Discrete IN 2 → Gateway Discrete OUT 2

Node 01 Analog IN 1 → Gateway Analog OUT 1

Node 01 Analog IN 2 → Gateway Analog OUT 2

Gateway Discrete IN 1 → Node 01 Discrete OUT 1

Gateway Discrete IN 2 → Node 01 Discrete OUT 2

Gateway Analog IN 1 → Node 01 Analog OUT 1

Gateway Analog IN 2 → Node 01 Analog OUT 2

Two PB2 Nodes to a PB2 Gateway

Node 1

Gateway Node 2

DIP Switches

7 = ON 8 = OFF

Node 01 Discrete IN 1 → Gateway Discrete OUT 1

Node 02 Discrete IN 1 → Gateway Discrete OUT 2

Node 01 Analog IN 1 → Gateway Analog OUT 1

Node 02 Analog IN 1 → Gateway Analog OUT 2

Gateway Discrete IN 1 → Node 01 Discrete OUT 1

Gateway Discrete IN 2 → Node 02 Discrete OUT 1

Gateway Analog IN 1 → Node 01 Analog OUT 1

Gateway Analog IN 2 → Node 02 Analog OUT 1

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Performance Gateway Module with I/O

Wire the Gateway's I/O and Apply Power

45.72

[1.8”]

30.48

[1.2”]

Binding button

11

12

13

8

7

9

10

14

1

2

3

4

5

6

8

1

DIP switches

Tens unit

LED

Ones unit

Rotary dials

Antenna connection

Hole for #6 screw (3)

4

5

6

7

Pin

1

2

3

Description

Analog IN 1 (0 to 20 mA)

Analog IN 2 (0 to 20 mA)

Discrete IN 1 (PNP)

Discrete IN 2 (PNP)

Ground 1

Discrete OUT 1 (PNP)

Discrete OUT 2 (PNP)

53.34

[2.1”]

60.96

[2.4”]

Label

AI1

AI2

DI1

DI2

GND

DO1

DO2

−

10-30V dc

+

+

RS-485 +

RS-485 −

Load

Load

−

AI1

AI2

DI1

DI2

GND

DO1

DO2

AO1

AO2

485+

485−

GND

PWR

GND

12

13

10

11

14

5

6

3

4

1

2

7

8

9

Figure 1. Input and Output Wiring

11

12

13

14

Pin

8

9

10

Description

Analog OUT 1 (0 to 20 mA)

Analog OUT 2 (0 to 20 mA)

RS-485 + Host communication connection

RS-485 – Host communication connection

Ground

10 to 30 V dc

Ground

Refer to the Class I Division 2/Zone 2 control drawings (p/n

143086

) for wiring specifications or limitations.

Bind Radios to Form Networks

Binding Nodes to a Gateway ensures the Nodes only exchange data with the Gateway they are bound to. For a more detailed definition of binding mode, refer to the Advanced Setup section of the SureCross Wireless I/O Networks instruction manual.

Apply power to the board module Gateway and all Nodes.

NOTE: If you are binding a Gateway board module to a Wireless Q45 Sensor, refer to the binding instructions in the Wireless Q45 Sensor's datasheet.

1. Enter binding mode on the Gateway by triple-clicking the binding button.

The green and red LED flashes. Any Node entering binding mode will bind to this Gateway.

Label

AO1

AO2

485+

485–

GND

PWR

GND

1 The three ground connections are tied together internally.

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2. Enter binding mode on the Node.

• If you have a two-button Node, triple-click button 2.

• If you have a one-button (board module) Node, triple-click the binding button.

Two-Button Node One-Button Board Node

The Node enters binding mode and locates the Gateway in binding mode.

• For two LED models, the red LEDs flash alternately. After binding is complete, both LEDs are both solid red for a few seconds.

• For one-LED models, the red and green LED flashes alternately while the Node searches for the Gateway. After binding is complete, the LED is red and green for four seconds (looks amber), then the red and green flash simultaneously (looks amber) four times.

• The Node automatically exits binding mode, cycles its power, then enters RUN mode.

3. Use the Node's rotary dials to assign a valid decimal Node Address (between 01 and 47). The left rotary dial represents the tens digit (0 through 4) and the right dial represents the ones digit (0 through 9) of the Node Address.

4. Repeat steps 2 and 3 for all Nodes that will communicate to this Gateway.

5. Exit binding mode on the Gateway by single-clicking the binding button.

LED Behavior for the Gateways

Verify all devices are communicating properly. The radios and antennas must be a minimum distance apart to function properly. Recommended minimum distances are:

900 MHz 150 mW radios: 6 feet

900 MHz 1 Watt radios: 15 feet

2.4 GHz 65 mW radios: 1 foot

LED (Bi-color)

Solid green

Green and red flashing alternately

Flashing red

Green and red flashing together, looks amber

Flashing red

Solid red

Green and red solid together, looks amber)

Gateway Status

Power ON

Binding mode

Device Error

Modbus Communication Active

Modbus Communication Error

Gateway is trying to conduct a Site Survey with a Node that doesn't exist

No radio communication detected

For Gateway and Ethernet Bridge systems, active Modbus communication refers to the communication between the

Gateway and the Ethernet Bridge. For Gateway-only systems, the Modbus communication LEDs refer to the communication between the Gateway and its host system (if applicable).

Conduct a Site Survey from a Gateway Board Model

Conducting a Site Survey, also known as an RSSI (Radio Signal Strength Indication), analyzes the radio communications link between the Gateway and any Node within the network by analyzing the radio signal strength of received data packets and reporting the number of missed packets that required a retry.

Perform a Site Survey before permanently installing the radio network to ensure reliable communication. Only the Gateway can initiate a Site Survey, and the Site Survey analyzes the radio communications link with one Node at a time. Follow these steps to conduct a Site Survey from the board module Gateway.

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Performance Gateway Module with I/O

1. To start the Site Survey, set the Gateway's rotary dials to the Node address you'd like to conduct a Site Survey with.

For example, to analyze the signal strength between this Gateway and Node 02, rotate the left rotary dial to 0 and the right rotary dial to 2.

The Site Survey automatically begins running. If there is a device at address 02, the LED flashes amber. If there is no device at address 02, the LED is solid red. The amber LED flashes at varying rates to indicate the signal strength.

2. To exit the Site Survey, set the Gateway's rotary dials to 00. Otherwise, after 15 minutes the Gateway automatically exits Site Survey mode.

The LED flashes green to indicate the Gateway is in standard operating mode.

The amber LED flashes at specific rates to indicate the Site Survey results. Each signal strength represents the majority of the data packets being received at that signal strength. For example, a strong signal strength indicates the majority of the data packets were received at a strong signal, but a few many have been received at a good or weak signal strength.

• Eight flashes per second: Very strong signal strength

• Four flashes per second: Strong signal strength

• Two flashes per second: Good signal strength

• One flash per second: Weak signal strength

• Solid amber LED: No radio communication detected

Installing the Board Modules

SureCross board modules must be mounted inside a panel or OEM enclosure.

Modbus Register Table

I/O

#

Modbus Holding Register

Gateway Any Node

3

4

5

1

2

7

8

9

10

11

12

13

15

16

3

4

5

1

2

7

8

9

10

11

12

13

15

16

1 + (Node# × 16)

2 + (Node# × 16)

3 + (Node# × 16)

4 + (Node# × 16)

...

7 + (Node# × 16)

8 + (Node# × 16)

9 + (Node# × 16)

10 + (Node# × 16)

11 + (Node# × 16)

12 + (Node# × 16)

...

15 + (Node# × 16)

16 + (Node# × 16)

I/O Type

Discrete IN 1

Discrete IN 2

Analog IN 1

Analog IN 2

Reserved

Device Message

Discrete OUT 1

Discrete OUT 2

Analog OUT 1

Analog OUT 2

Control Message

Reserved

Units

-

mA mA

-

mA mA

I/O Range

Min.

Value

0

0

0.0

0.0

Max.

Value

1

1

20.0

20.0

0

0

0.0

0.0

1

1

20.0

20.0

0

0

0

0

Holding Register

Representation

Min.

(Dec.)

0

0

0

0

Max.

(Dec.)

1

1

65535

65535

1

1

65535

65535

Discrete Bit-Packed Registers

Discrete bit-packed registers include the discrete status registers, discrete inputs, and discrete outputs.

Bit packing involves using a single register, or range of contiguous registers, to represent I/O values.

When networks use similar Nodes to gather data using the same I/O registers for each Node, discrete data from multiple

Nodes can be bit packed into a single register on the Gateway. The bit-packed data is arranged by I/O point starting at

Modbus register 6601. For example, Discrete IN 1 for all the Nodes in the network is stored in three contiguous 16-bit registers.

The most efficient way to read (or write) discrete data from a SureCross

®

DX80 Gateway is by using these bit-packed registers because users can read or write registers for all devices using one Modbus message. The following registers contain discrete bit-packed I/O values for the Gateway and all Nodes. Values are stored first for the Gateway, then for each Node in order of Node address.

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Bit-Packed Device Status Registers

Register Address

6601

6602

6603

15 14 13 12 11 10 9

Node 15 Node 14 Node 13 Node 12 Node 11 Node 10 Node 9

8

Bit Position

7 6

Node 8 Node 7 Node 6

5

Node 5

4

Node 4

3

Node 3

2

Node 2

1

Node 1

0

Gateway

Node 31 Node 30 Node 29 Node 28 Node 27 Node 26 Node 25 Node 24 Node 23 Node 22 Node 21 Node 20 Node 19 Node 18 Node 17 Node 16

Node 47 Node 46 Node 45 Node 44 Node 43 Node 42 Node 41 Node 40 Node 39 Node 38 Node 37 Node 36 Node 35 Node 34 Node 33 Node 32

Bit-Packed Discrete Input 1

Register Address

6611

6612

6613

15 14 13 12 11 10 9 8

Bit Position

7

Node 15 Node 14 Node 13 Node 12 Node 11 Node 10 Node 9 Node 8 Node 7

6 5 4

Node 6 Node 5 Node 4

3 2 1 0

Node 3 Node 2 Node 1 Gateway

Node 31 Node 30 Node 29 Node 28 Node 27 Node 26 Node 25 Node 24 Node 23 Node 22 Node 21 Node 20 Node 19 Node 18 Node 17 Node 16

Node 47 Node 46 Node 45 Node 44 Node 43 Node 42 Node 41 Node 40 Node 39 Node 38 Node 37 Node 36 Node 35 Node 34 Node 33 Node 32

Bit-Packed Discrete Output 1

Register Address

6691

6692

6693

Bit Position

15 14 13 12 11 10 9 8 7

Node 15 Node 14 Node 13 Node 12 Node 11 Node 10 Node 9 Node 8 Node 7

6 5 4

Node 6 Node 5 Node 4

3 2 1 0

Node 3 Node 2 Node 1 Gateway

Node 31 Node 30 Node 29 Node 28 Node 27 Node 26 Node 25 Node 24 Node 23 Node 22 Node 21 Node 20 Node 19 Node 18 Node 17 Node 16

Node 47 Node 46 Node 45 Node 44 Node 43 Node 42 Node 41 Node 40 Node 39 Node 38 Node 37 Node 36 Node 35 Node 34 Node 33 Node 32

Modbus Register

Address (Decimal)

Outputs

Description (Outputs) Modbus Register

Address (Decimal)

6601-6603

6611-6613

6621-6623

6631-6633

6641-6643

6651-6653

6661-6663

6671-6673

6681-6683

Inputs

Description (Inputs)

Status for all devices

Input 1 from all devices

Input 2 from all devices

Input 3 from all devices

Input 4 from all devices

Input 5 from all devices

Input 6 from all devices

Input 7 from all devices

Input 8 from all devices

6691–6693

6701–6703

6711–6713

6721–6723

6731–6733

6741–6743

6751–6753

Output 1 from all devices

Output 2 from all devices

Output 3 from all devices

Output 4 from all devices

Output 5 from all devices

Output 6 from all devices

Output 7 from all devices

Status registers (6601-6603) contain a bit-packed representation defining the devices that are operational in the wireless system.

Input registers from all devices use Modbus registers 6611 through 6683 to organize the least significant bit into a sequential array of registers. The first register contains the least significant bit from the input values for the Gateway through Node 15. The second register contains the input values for Node 16 through Node 31, and the third register contains the input values for Nodes 32 through 47.

For discrete inputs, only the least significant bit is used. For analog inputs, the least significant bit indicates if the analog value is above or below the selected threshold value (when using the threshold parameter). For example, a least significant bit of one (1) indicates the analog value is above the selected threshold value. A least significant bit of zero (0) indicates the analog value is below the threshold value.

Output registers from all devices use Modbus registers 6691 through 6753 to organize the least significant bit into a sequential array of registers. Output 8 (I/O point 16) cannot be written using the discrete format.

Analog 16-Bit Registers (Registers 6801 through 9098)

The most efficient way to read (or write) analog data from a Gateway is by using these 16-bit analog registers. Most networks consist of similar Nodes reporting data using the same I/O registers for each Node. For this reason, the analog data is arranged by I/O point using Modbus registers 6801 through 9098. For example, Input 1 for Gateway and all Nodes is stored in the first 48 contiguous blocks of 16-bit analog registers, beginning with register 6801.

In this format, users can read a 16-bit holding register for all devices or write to a register for all devices using one

Modbus message. Using these registers is the most efficient way to read all status registers, read all analog inputs, or write all analog outputs.

The following registers contain analog I/O values for the Gateway and all Nodes. Values are stored first for the Gateway, then for each Node in order of Node address.

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...

7851

7852

7853

...

...

6951

6952

6953

...

7101

7102

7103

Modbus Register Address

(Decimal)

6801

6802

6803

Inputs

Description (Inputs)

Input 1 for Gateway

Input 1 for Node 1

Input 1 for Node 2

...

Input 2 for Gateway

Input 2 for Node 1

Input 2 for Node 2

...

Input 3 for Gateway

Input 3 for Node 1

Input 3 for Node 2

...

Input 8 (Status Register) for Gateway

Input 8 (Status Register) for Node 1

Input 8 (Status Register) for Node 2

...

...

9051

9052

9053

...

...

8151

8152

8153

...

8301

8302

8303

Modbus Register

Address (Decimal)

8001

8002

8003

Outputs

Description (Outputs)

Output 1 for Gateway

Output 1 for Node 1

Output 1 for Node 2

...

Output 2 for Gateway

Output 2 for Node 1

Output 2 for Node 2

...

Output 3 for Gateway

Output 3 for Node 1

Output 3 for Node 2

...

Output 8 for Gateway

Output 8 for Node 1

Output 8 for Node 2

...

For example, 6801 contains the input 1 value for the Gateway, 6802 contains the input 1 value for Node 1, and 6848 contains the input 1 value for Node 47.

Specifications

Radio Range

900 MHz, 1 Watt: Up to 9.6 km (6 miles)2

2.4 GHz, 65 mW: Up to 3.2 km (2 miles)

Minimum Separation Distance

900 MHz, 1 Watt: 4.57 m (15 ft)

2.4 GHz, 65 mW: 0.3 m (1 ft)

Radio Transmit Power

900 MHz, 1 Watt: 30 dBm (1 W) conducted (up to 36 dBm EIRP)

2.4 GHz, 65 mW: 18 dBm (65 mW) conducted, less than or equal to 20 dBm (100 mW) EIRP

900 MHz Compliance (1 Watt)

FCC ID UE3RM1809: This device complies with FCC Part 15, Subpart C,

15.247

IC: 7044A-RM1809

2.4 GHz Compliance

FCC ID UE300DX80-2400 - This device complies with FCC Part 15,

Subpart C, 15.247

ETSI EN 300 328 V1.8.1 (2012-06)

IC: 7044A-DX8024

Spread Spectrum Technology

FHSS (Frequency Hopping Spread Spectrum)

Wiring Access

Terminal block

Supply Voltage

10 to 30 V dc (Outside the USA: 12 to 24 V dc, ±10%). 3

Current Draw (at 24 V dc)

900 MHz, 1 Watt: Approx. 30 mA

900 MHz, 250 mW: Approx. 25 mA

2.4 GHz, 65 mW: Approx. 20 mA

Interface

Indicators: One bi-color LED

Buttons: One

Antenna Connection

Ext. Reverse Polarity SMA, 50 Ohms: Max Tightening Torque: 0.45 N·m

(4 lbf·in)

U.FL-R-SMT.(01): Use cable BWA-HW-030 (U.FL to RP-SMA) or the equivalent

Link Timeout

Gateway: Configurable via User Configuration Tool (UCT) software

Node: Defined by Gateway

Communication Hardware (RS-485)

Interface: 2-wire half-duplex RS-485

Baud rates: 9.6k, 19.2k (default), or 38.4k

Data format: 8 data bits, no parity, 1 stop bit

Communication Protocol

Modbus RTU

2 Radio range is with the 2 dB antenna that ships with the product. High-gain antennas are available, but the range depends on the environment and line of sight. Always verify your wireless network's range by performing a Site Survey.

3 For European applications, power this device from a Limited Power Source as defined in EN 60950-1.

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Discrete Input

Two, PNP

Rating: 3 mA max current at 30 V dc

Sample Rate: 62.5 milliseconds

Report Rate: On change of state

ON Condition (PNP): Greater than 8 V

OFF Condition (PNP): Less than 5 V

Analog Inputs

Two, 0–20 mA

Rating: 24 mA

Impedance: Approximately 100 Ohms4

Sample Rate: 62.5 milliseconds

Report Rate: 1 second or On Change of State (1% change in value)

Accuracy: 0.1% of full scale +0.01% per °C

Resolution: 12-bit

Discrete Output

Two, PNP

Update Rate: 1 second

ON Condition (PNP): Supply minus 2 V

OFF Condition (PNP): Less than 2 V

Output State Following Timeout: De-energized (OFF)

Discrete Output Rating (PNP)

100 mA max current at 30 V dc

ON-State Saturation: Less than 3 V at 100 mA

OFF-state Leakage: Less than 10 μA

Analog Outputs

Two, 0–20 mA

Update Rate: 125 milliseconds

Accuracy: 0.1% of full scale +0.01% per °C

Resolution: 12-bit

Operating Conditions

–40 °C to +85 °C (–40 °F to +185 °F)5

95% maximum relative humidity (non-condensing)

Radiated Immunity

10 V/m (EN 61000-4-3)

Certifications

CSA: Class I Division 2 Groups ABCD, Class I Zone 2 AEx/Ex nA II T4

— Certificate: 1921239

ATEX: II 3 G Ex nA IIC T4 Gc (Group IIC Zone 2) — Certificate LCIE

10 ATEX 1012 X

Refer to the Class I Division 2/Zone 2 control drawings (p/n

143086

) for wiring specifications or limitations. All battery-powered devices must only use the lithium battery manufactured by Xeno, model

XL-205F.

MultiHop M-HBx and Performance PBx Models Mounted on the Base

94 mm

[3.70”]

4.5mm dia

[0.18”]

26.8 mm

[1.06”]

26.5 mm

[1.04”]

53 mm

[2.09”]

84 mm

[3.31”]

Figure 2. Most MultiHop M-HBx and Performance PBx models ship from the factory mounted on a plastic base.

10

4 To verify the analog input's impedance, use an Ohm meter to measure the resistance between the analog input terminal (AIx) and the ground (GND) terminal.

5 Operating the devices at the maximum operating conditions for extended periods can shorten the life of the device.

www.bannerengineering.com - Tel: +1-763-544-3164 P/N 163211 Rev. G

Accessories for the Board Models

BWA-HW-034

• DIN rail clip, black plastic

Sure Cross

®

Performance Gateway Module with I/O

BWA-HW-030

• u.FL to RP-SMA adapter cable

Warnings

Install and properly ground a qualified surge suppressor when installing a remote antenna system. Remote antenna configurations installed without surge suppressors invalidate the manufacturer's warranty. Keep the ground wire as short as possible and make all ground connections to a single-point ground system to ensure no ground loops are created. No surge suppressor can absorb all lightning strikes; do not touch the Sure Cross ® device or any equipment connected to the Sure Cross device during a thunderstorm.

Exporting Sure Cross

®

Radios. It is our intent to fully comply with all national and regional regulations regarding radio frequency emissions. Customers who want to

re-export this product to a country other than that to which it was sold must ensure the device is approved in the destination country. A list of approved countries appears in the Radio Certifications section of the product manual. The Sure Cross wireless products were certified for use in these countries using the antenna that ships with the product. When using other antennas, verify you are not exceeding the transmit power levels allowed by local governing agencies. Consult with Banner

Engineering Corp. if the destination country is not on this list.

Any misuse, abuse, or improper application or installation of this product or use of the product for personal protection applications when the product is identified as not intended for such purposes will void the product warranty. Any modifications to this product without prior express approval by Banner Engineering Corp will void the product warranties. All specifications published in this document are subject to change; Banner reserves the right to modify product specifications or update documentation at any time. For the most recent version of any documentation, refer to:

www.bannerengineering.com

. © Banner Engineering Corp. All rights reserved.

Banner Engineering Corp. Limited Warranty

Banner Engineering Corp. warrants its products to be free from defects in material and workmanship for one year following the date of shipment. Banner Engineering Corp.

will repair or replace, free of charge, any product of its manufacture which, at the time it is returned to the factory, is found to have been defective during the warranty period. This warranty does not cover damage or liability for misuse, abuse, or the improper application or installation of the Banner product.

THIS LIMITED WARRANTY IS EXCLUSIVE AND IN LIEU OF ALL OTHER WARRANTIES WHETHER EXPRESS OR IMPLIED (INCLUDING, WITHOUT LIMITATION,

ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE), AND WHETHER ARISING UNDER COURSE OF PERFORMANCE, COURSE

OF DEALING OR TRADE USAGE.

This Warranty is exclusive and limited to repair or, at the discretion of Banner Engineering Corp., replacement. IN NO EVENT SHALL BANNER ENGINEERING CORP. BE

LIABLE TO BUYER OR ANY OTHER PERSON OR ENTITY FOR ANY EXTRA COSTS, EXPENSES, LOSSES, LOSS OF PROFITS, OR ANY INCIDENTAL,

CONSEQUENTIAL OR SPECIAL DAMAGES RESULTING FROM ANY PRODUCT DEFECT OR FROM THE USE OR INABILITY TO USE THE PRODUCT, WHETHER

ARISING IN CONTRACT OR WARRANTY, STATUTE, TORT, STRICT LIABILITY, NEGLIGENCE, OR OTHERWISE.

Banner Engineering Corp. reserves the right to change, modify or improve the design of the product without assuming any obligations or liabilities relating to any product previously manufactured by Banner Engineering Corp.

www.bannerengineering.com - Tel: +1-763-544-3164