Printed in USA Jan 2018 P/N b_4466834 Rev. A
DXM Controller Selection Guide
Product Overview
The Banner Sure Cross® DXM Wireless Controller product series provide simple communications gateway options that can be used to
interface with local I/O, interface with Sure Cross Wireless I/O, transmit data wirelessly between traditional controllers, and/or facilitate Industrial
Internet of Things (IIoT) through the Cloud.
Banner Wireless Value
• Low cost method for retrofits or IIoT connectivity (ability to monitor/control via the Cloud)
• High feature content allows flexibility to choose the features you need
• Small DIN-rail footprint eases panel constraints
• Standard protocol options simplify integration
• Simple menu-driven LCD display
Standard Features DXM100-Bx DXM150-B2 DXM150-B1
Performance or MultiHop Radio option
900 MHz or 2.4 GHz ISM Radio option
Cellular communications option
LCD User Interface & 4 LEDs
8GB Removable Micro SD Card
IP20 Sealing
Battery backup option
Solar power option
Modbus/TCP and Ethernet/IP
Modbus RTU RS-485
RS-232
CANBus
USB and Ethernet Configuration
Logic Controller (Action rule or ScriptBasic programmable)
Slave Option (IO Board and Radio Only)
Sinking (NPN)/Sourcing (PNP) Outputs 8
Sinking (NMOS) Outputs (up to 30 V dc at <1 A max) 4 4
Analog Outputs (0–20 mA or 0–10 V dc, 12-bit resolution) 2 2 2
Relay Outputs (SPDT Form C - 250 V ac 16 A) 2
Universal Inputs (NPN, PNP, 0–20mA, 0–10 V, 10K Thermistor, Potentiometer,
NPN Raw Fast)
4 8 8
Optically Isolated Discrete Inputs (30 V ac or V dc up to 2.5 kV isolation) 2 2
Courtesy Power Out 1 (5 V, 500 mA max) 4 (2.7 V up to device
power)
2 (2.7 V up to device
power)
Switched Power Out 2 (5 V, 400 mA max
or 16 V, 125 mA max)
Banner Engineering Corp., 9714 Tenth Ave. No., Minneapolis, MN USA 55441 • Phone: 763.544.3164 • www.bannerengineering.com • Email: sensors@bannerengineering.com
DXM Controller Selection Guide
P/N b_4466834 Rev. A
© Banner Engineering Corp. All rights reserved
B1 = Modbus controller for data aggregation of sensors and wireless networks
Power: 12−30 V dc/Solar/Battery
Comms: RS-485, CAN, RS-232 w/flow or secondary RS-485
Inputs: (4) universal IN
Outputs: (4) NMOS OUT, (2) analog OUT (0–10 V or 4–20 mA)
Power Out: (2) Selectable 5 V or 16 V switched power, (1) 5 V courtesy power
B2 = Smart valve control and/or SDI-12 data collection
Power: 12−30 V dc/Solar/Battery
Comms: RS-485, (1) SDI-12 sensor interface
Inputs: (4) universal IN
Outputs: (4) NMOS OUT, (2) 0–10 V analog, (2) DC Latching
Power Out: (2) Adjustable 5 V to 24 V switched power, (1) SDI-12 switched power,
(1) 5 V courtesy power
S1 = Modbus slave I/O device for MultiHop wireless networks or wired networks
Power: 12−30 V dc/Solar/Battery
Comms: RS-485
Inputs: (4) Universal IN
Outputs: (4) NMOS OUT, (2) Analog OUT (0–10 V or 4–20 mA)
Power Out: (2) Selectable 5 V or 16 V switched power, (1) 5 V courtesy power
S2 = Modbus slave device for valve control, SDI-12 data collection for MultiHop
wireless networks or wired networks
Power: 12−30 V dc/Solar/Battery
Comms: RS-485, (1) SDI-12 sensor interface
Inputs: (4) universal IN
Outputs: (4) NMOS OUT, (2) 0–10 V analog, (2) DC Latching
Power Out: (2) Adjustable 5 V to 24 V switched power, (1) SDI-12 switched power,
(1) 5 V courtesy power
Blank = None
R1 = 900 MHz, 1 W PE5 Performance Radio (North America)
R2 = 900 MHz, 1 W HE5 MultiHop Data Radio (North America)
R3 = 2.4 GHz, 65 mW PE5 Performance Radio (Worldwide)
R4 = 2.4 GHz, 65 mW HE5 MultiHop Data Radio (Worldwide)
R5 = 900 MHz, 65 mW HE5L MultiHop Data Radio (Used for M-GAGE networks)
R8 = 900 MHz, Performance Radios approved for Australia/New Zealand
R9 = 900 MHz, MultiHop Radio approved for Australia/New Zealand
DXM100-
B1
R1
S1 and S2 are slave devices that only work with MultiHop radios
R2, R4, R5, R9
DXM150-
B1
R1
Blank = None
R1 = 900 MHz, 1 W PE5 Performance Radio (North America)
R2 = 900 MHz, 1 W HE5 MultiHop Data Radio (North America)
R3 = 2.4 GHz, 65 mW PE5 Performance Radio (Worldwide)
R4 = 2.4 GHz, 65 mW HE5 MultiHop Data Radio (Worldwide)
R5 = 900 MHz, 65 mW HE5L MultiHop Data Radio (Used for M-GAGE networks)
R8 = 900 MHz, Performance Radios approved for Australia/New Zealand
R9 = 900 MHz, MultiHop Radio approved for Australia/New Zealand
B1 = Modbus controller designed for applications with high I/O count, isolated
inputs or integrated relays
Power: 12−30 V dc/Solar/Battery
Comms: RS-485 and RS-232/CAN or secondary RS-485
Inputs: (2) Isolated discrete, (8) Universal
Outputs: (2) Relay, (4) NMOS, (2) Analog
Power Out: (2) Jumper selectable between 2.7 V or battery, 4.2 V or incoming power
B2 = Modbus controller for high I/O count applications
Power: 12–30 V dc/Solar/Battery
Comms: RS-485 and RS-232 w/flow control or secondary RS-485
Inputs: (2) Isolated discrete, (8) Universal
Outputs: (8) PNP/NPN Selectable, (2) Analog
Power Out: (2) Courtesy or power out; (2) Jumper selectable between 2.7 V or battery,
4.2 V or incoming power
S1 = Modbus slave I/O device for MultiHop wireless networks or wired networks
Power: 12–30 V dc/Solar/Battery
Comms: RS-485
Inputs: (2) Isolated discrete, 8 Universal
Outputs: (2) Relay, (4) NMOS Discrete, (2) Analog
Power Out: (2) Jumper selectable between 2.7 V or battery, 4.2 V or incoming power
S2 = Modbus slave I/O device for MultiHop wireless networks or wired networks
Power: 12–30 V dc/Solar/Battery
Comms: RS-485
Inputs: (2) Isolated discrete, (8) Universal
Outputs: (8) PNP/NPN Selectable, (2) Analog
Power Out: (2) Courtesy or power out; (2) Jumper selectable between 2.7 V or battery,
4.2 V or incoming power
S1 and S2 are slave devices that only work with MultiHop radios
R2, R4, R5, R9
Cellular Communication — Controllers accept Banner GSM and
LTE modems only. Cellular modems are ordered separately as
accessories under the following part numbers:
• GSM/3G (HSPA) – SXI-GSM-001
• LTE – Verizon – SXI-LTE-001
Cellular Communication — Controllers accept Banner GSM and
LTE modems only. Cellular modems are ordered separately as
accessories under the following part numbers:
• GSM/3G (HSPA) – SXI-GSM-001
• LTE – Verizon – SXI-LTE-001