InOne Design Input Requirments

This is the the level of details needed to make a design, power calculation and a quote for InOne

InOne Design Input Guidelines  

Document Objective 

This document is intended for Hexatronic InOne partners and their customers to provide a guideline on the information needed to design an InOne solution. The accuracy of the design is a factor of the accuracy of the information provided.  

Document target  

The user of the document is a Hexatronic InOne Distributor, System Integrator, or end user. The Person following this document should be familiar with the InOne system or trained on it.  

Glossary  

InOne : if the product name of the Hexatronic Powered Fiber System including all its components  

HDN : Hybrid Distribution Node. Typically located close to the source of the 230 V AC source. Multiple HDN can be in one location or multiple locations. Customer should provide at least one location for the HDN preferably in the proximity of the HANs. In very large networks more the one location might be needed.  

HAN: Hybrid Access Node : Typically located next to the devices (like CCTV cameras). Customer should decide on HAN locations in the proximity of the devices. If PoE is used the maximum cable route length should not exceed 100m.  A good practice is not to exceed 80m for low power and 60m for higher power devices. In call cases the devices and switch vendor recommendations and the CAT6 or similar cable specifications should be all considered by the customer. 

“Segment”: One HDN with one or more HANs regardless of network topology. There can be any number of segments in a total solution.  

Support 

For further details or to get an update or provide feedback contact us at inone@hexatronic.com 

 

 

 

Design Information Requirements  

1. Network layout  

1. Devices and loads table 

1. Design considerations and comments 

Confidentiality  

Please do not provide any confidential information.  The information required to do the design do not require that you disclose any confidential information.  

Network Layout 

Preferably provide a google earth layout where the required information from the list below is marked (pinned). If the end customer prefers not to disclose the location of the site, then the same information is needed graphically without site information underlay. (See examples in the two figures below) 

The two fictive example drawings along with the example table below shows the mandatory level of information needed for Hexatronic to provide a design.   

1. Use one drawing for each “segment” 

1. Assign an ID number for each HAN location. Use either serial numbering or any unique ID of your choice.  

1. Mark the route of Duct/Cable.  if different options are allowed, please indicate secondary options with dashed line. Straight lines are ok, no need to draw the actual route unless it affects the design.  

1. Mark the distance in meters for all routes. Use the actual route length not the aerial distance. Add to that any extra lengths on each end depending on pole heights and a safety margin of your choice.  

1. Indicate the locations of the 230V AC source that can be used (red triangle) 

1. Indicate the location of the HDN installation if different than the AC source in fig. 1 (Orange circle)  

 

Device Power loads Table (repeat for each HAN) 

 

Table 1 

HAN ID*	5	Switch Model	Korinex 5208U	No of Ports	4
Port # *	Power typical **	Power Max **	Design Power*, **	Device Type	Vendor	Model
1	20w	30w	25w	Bullet Cam	Axis	xxxxx
2	42w	65w	48w	PTZ Cam	Axis	xxxxx
3	...
4	...

 *Mandatory information needed  

Non mandatory information is good for the design  

** Power consumption values (see description below) 

Device Vendors usually provides two values for power consumption, Typical and Maximum. It will be safe to design based on the maximum power consumption but that might cause over design and limit the distances.  

For example, if the network has large number of PTZ cameras the likelihood of all cameras consuming the maximum power simultaneously is very slim.  Therefore, Hexatronic will design the InOne solution based on the “Design Power” value which is a value set by the partner based on their design and anticipated power consumption.  

 

Design Considerations  

1. The InOne can be implemented in the following network topologies 

1. Point to points 

1. Star  

1. Daisy chain (bus) 

1. Fanout (Tree) 

1. Ring (special considerations to carry load on both sides of the ring) 

1. If future expansion is planned provide the information using the same methodology above  

1. Redundancy options  

1. Ring topology for redundancy against cable cuts  

1. Duplicated PSU for redundant power hardware 

1. UPS at HDN for redundancy against power failure  

 

 

 

Other Recommendations  

 

Industrial Switch Selection for use with InOne HAN 

When selecting Industrial Switches or Media Convertors please consider the following  

1. Number of Ports 

1. PoE level per port  

1. Form Factor to fit in Selected InOne HAN Guidelines in below slide  

1. Switch input voltage either 48V DC or 53 V DC 

1. Switch must have the feature to limit total power consumption for all ports with the HAN available Power depending on module. 

1. Total power available from the HAN 

1. HAN 150w 

1. Future HAN Models 240W or 480W (Q1 2022) 

PoE compatibility  

PoE is a general term for “Power over Ethernet” known standards are 

Table 2 

 

Disclaimer Regarding PoE 

1. Hexatronic takes no responsibility regarding PoE compatibility between the switch and the device.  

1. Hexatronic provides design advice based on provided power loads and distances.  

1. Customers are encouraged to test all device types with selected switches prior to ordering to insure compatibility.  

 

Fitting industrial Switches in the InOne HAN E10 

 

The InOne HAN can fit wide variety of Industrial switches, Media Convertor, or other devices. Two factors must be considered power and form factor as follows 

! For fitting verification send the switch model and 3D step file to inone@hexatronic.com  

1. Switch input Power  

1. Input voltage = 48 Volts or 53 Volts DC 

1. Power up to 150W, 240W or 480W 

1. Switch must be able to limit max power budget by settings to eliminate the risk of drawing more power than the HAN can provide. 

1. 2- Switch Form Factor  

1. Din Rail mount. Consider orientation of the switch  

1. Consider cable arrangement and ports orientation 

1. Use reccomended pig-tails only 

1. Internal Dimensions for Switch 

1. Width (W) 

1. Total internal width 242mm 

1. Din Rail to edge 220mm (usable width) 

1. Hight (H)  

1. Older models 190mm 

1. Newer models 205mm 

1. From top edge to middle of Din Rail 107mm 

1. Depth (D) Standard 100mm 

 

 

 

 

 

 

 

 

 

 

 

Fitting industrial Switches in the InOne HAN E10s 

 

The InOne HAN can fit wide variety of Industrial switches, Media Convertor, or other devices. Two factors must be considered power and form factor as follows 

! For fitting verification send the switch model and 3D step file to inone@hexatronic.com  

1. Switch input Power  

1. Input voltage = 48 Volts or 53 Volts DC 

1. Power up to 150W, 240W or 480W 

1. Switch must be able to limit max power budget by settings to eliminate the risk of drawing more power than the HAN can provide. 

1. 2- Switch Form Factor  

1. Din Rail mount. Consider orientation of the switch  

1. Consider cable arrangement and ports orientation 

1. Use reccomended pig-tails only 

1. Internal Dimensions for Switch 

1. Width (W) 

1. Total internal width 242mm 

1. Din Rail to edge 220mm (usable width) 

1. Hight (H)  

1. Older models 190mm 

1. Newer models 205mm 

1. From top edge to middle of Din Rail 107mm 

1. Depth (D) Standard 100mm