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Copyright 2014 INNCOM by Honeywell

INNCOM B578 Datasheet 

Overview 

INNCOM

’s multifunctional controller works in three configurations to facilitate different 

Integrated Room Automation System (IRAS) operations: 

  As the B578S Edge Router, it networks Ethernet to 

INNCOM’s Deep Mesh RF 

network. It provides backhaul networks with up to 200* rooms per PAN ID. It 
supports multiple IP protocols (UDP, ICMP). The expanded addressing facilitates 
transport reliability and multicasting. The Edge Router enhances security and 
offers RF-to-Ethernet protocol conversion, with the availability of a PoE power supply for Power over Ethernet 
applications.  

  As the B578N, the Edge Router interfaces with the Tridium Niagara JACE (Java Application Control Engine) 

controller to provide connectivity to numerous common network protocols such as LonWorks and BACNet, as 
well as proprietary networks. 

  As the PC-803, the device acts as a protocol converter, converting in-room RF traffic to Ethernet towards the 

server.  

Note:

 

The  device  will  generally  be  referred  to  as  the  “B578”  throughout  this 

document.  Statements  specific  to  a  particular  configuration  will  be  noted 
accordingly.

 

Features 

  Supports CBL32 control algorithms 

  RS485 System Interface dongle 

  10MBit Ethernet 

  Available in PoE and +12VDC powered models 

  128 bit AES encryption (Ethernet link and RF network) 

  Typical indoor RF range up to 100ft 

  Supports 2.4Ghz IEEE 802.15.4 compliant RF transceiver 

  Supports S5bus (through external adapter) 

  Compact physical dimension 

  DIN rail mounting option (Figure 1) 

  Wall or ceiling mount on standard 2-gang ring (Figure 2) 

  Supports up to 200 rooms depending on the guestroom application deployed and the selected RF environment 

at the site.  

  4 kBytes mailbox memory usable as a relay-buffer for battery operated devices (Edge Router) 

  IPv6 support (Edge Router) 

                                                      

*

 The 200 device limit is based on timing considerations used by the communication protocols of a Deep Mesh network. Local RF interference 

sources, conditions, and device placement can decrease this number. 

Figure 2 B578 Wall/Ceiling Mountable

 

Figure 1 B578 DIN

 

Summary of Contents for INNCOM B578

Page 1: ... in room RF traffic to Ethernet towards the server Note The device will generally be referred to as the B578 throughout this document Statements specific to a particular configuration will be noted accordingly Features Supports CBL32 control algorithms RS485 System Interface dongle 10MBit Ethernet Available in PoE and 12VDC powered models 128 bit AES encryption Ethernet link and RF network Typical...

Page 2: ... interference that may cause undesired operation 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 i...

Page 3: ...etwork The B578 can be attached to an X type DIN rail To attach the B578 to a DIN rail pull the tab Figure 3 down and attach the bottom of the housing to the DIN rail always mount the DIN rail with the tab at the bottom Once the unit is sitting flush on the rail release the tab To remove the B578 from the DIN rail pull the tab down and lift the bottom edge of the unit off the DIN rail first This e...

Page 4: ...e B578 as described above and remove the PCBA which is held in place by 4 tangs located at its perimeter Once the PCBA is removed locate the 4 countersink posts mount the bottom housing to the intended fixture using a self tapping screw mount the PCBA back on to the bottom housing make the necessary wire connections see Headers and Connectors below connect power to the DC jack plug in Ethernet con...

Page 5: ...shes fast to indicate a valid CIS connection Flashes slow to indicate 75 seconds have passed with no packets from the CIS network Blue Toggles when RF Rx tunnel packet is received Power Supplies The B578 provides power supply options for three specific applications For each configuration follow the current consumption ratings below to determine the device s power budget Mode Peak Current Consumpti...

Page 6: ... up the unit FCC Statement This device complies with part 15 of the FCC Rules Operation is subject to the following two conditions 1 this device may not cause harmful interference and 2 this device must accept any interference received including interference that may cause undesired operation IC Statement This Class B Digital Apparatus complies with Candian ICES 003 Cet apparel numerique de la cla...

Page 7: ...his character set defines the power supply options available for the B57x platform OP N Code Power Supply Type Part Number P00 No Power Supply POE Power over Ethernet 02 9499 P12 External inline power supply with AC cable 204 005 262 301 Configuration Option This character set defines the software configuration of B57x OP N Code Logic Board Type Part Number PC 803 4G Ethernet to RF protocol conver...

Page 8: ...8 Copyright 2014 INNCOM by Honeywell OP N Code Logic Board Type Part Number A0 DIN Rail Mounted Housings See Individual Components chapter B0 Surface Mounted Housings See Individual Components chapter ...

Page 9: ...d PCBA 02 9949 PC 803 B578S B578N PoE power supply PCBA 204 005 Meanwell GS15A 100 240VAC 12VDC 15W SMPS 262 301 AC Power Cable used with 204 005 53 8083 B57x DIN rail latch 53 9918 B57x DIN rail bottom housing 53 8292 B57x DIN rail top housing 253 532 B57x Surface mount bottom housing 253 533 B57x Surface mount top housing 04 8047 7B 7 black CAT5E patch cable 62 2035 3 pin cable 300mm 241 018 x 4...

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