milo@ndmath.UUCP (Greg Corson) (05/09/89)
I was thinking about a problem someone MUST have solved by now....if you have a solution to this, let me know. If you want to install thinwire Ethernet to a series of single-person offices it seems to present a problem. As I recall, you can't have a drop-cable going from the T connector to the thinwire interface card. This seems to prevent you from having a simple wall jack that you can plug into to get ethernet service (unless you imbed transcevers in the wall...which is an extra cost considering a lot of computers already have them built-in) So, how can you wire 10-20 offices so they can all easily tap into the thinwire? The installation has to be neet...no big loops of cable hanging down from the ceeling...etc. All the offices would have to be on the same segment of thinwire...sending a seperate thinwire cable to each one isn't practical because there are TO MANY offices. I suppose you could put in a wallplate with two BNC connectors and install a short jumper when the outlet isn't in use. When you connected a computer you would run cable from one connector, to the T on the back of the computer and back to the other connector on the wall plate. I'm sure there must be a better way than this though. Anybody got any good ideas? Greg Corson 19141 Summers Drive South Bend, IN 46637 (219) 277-5306 {pur-ee,rutgers,uunet}!iuvax!ndmath!milo
jjb@wsu-cs.uucp (J. Brewster) (05/10/89)
In article <1381@ndmath.UUCP> milo@ndmath.UUCP (Greg Corson) writes:
@>I was thinking about a problem someone MUST have solved by now....if you
@>have a solution to this, let me know.
@>[...]
@>So, how can you wire 10-20 offices so they can all easily tap into the
@>thinwire? The installation has to be neet...no big loops of cable hanging
@>down from the ceeling...etc. All the offices would have to be on the same
@>segment of thinwire...sending a seperate thinwire cable to each one isn't
@>practical because there are TO MANY offices.
@>
Well, one approach you could consider is a multiport repeater.
I don't have any experience with the thin ethernet version, so I can't
tell you whether or not you have to terminate the ports when not in use.
The DEC version is called a DEMPR (sp?) and allows a star topology from
the device.
--
J. Brewster | "In this country, everything loose
jjb@cs.wayne.edu | rolls to the West Coast."
...!mailrus!wsu-cs!jjb | --Thomas A. Vanderslice, CEO of Apollo
kwe@bu-cs.BU.EDU (kwe@bu-it.bu.edu (Kent W. England)) (05/10/89)
In article <1381@ndmath.UUCP> milo@ndmath.UUCP (Greg Corson) writes: > >So, how can you wire 10-20 offices so they can all easily tap into the >thinwire? The installation has to be neet...no big loops of cable hanging >down from the ceeling...etc. All the offices would have to be on the same >segment of thinwire...sending a seperate thinwire cable to each one isn't >practical because there are TO MANY offices. > >I suppose you could put in a wallplate with two BNC connectors and install >a short jumper when the outlet isn't in use. When you connected a computer >you would run cable from one connector, to the T on the back of the computer >and back to the other connector on the wall plate. I'm sure there must be >a better way than this though. Anybody got any good ideas? > Are you sure you don't work for AMP? This question sounds like the perfect set-up for telling you about AMP's new Thinnet Tap System. Some of you may have heard of it, but if not... AMP has designed a new cabling gizmo to alleviate some of the problems of daisy-chaining thinnet thru walls among strings of offices and labs. There is a wallplate with a single connector that brings a dual coax out of the wall and terminates on a BNC. This is just like using two BNCs on the wall with two patch cords and a T, with an important exception- the AMP wallplate connector has shorting bars to restore the net when you unplug the dual-coax patch cord. Unplugging the workstation from the BNC should not present a problem, so there you have it: all thinnet daisychaining problems solved. Well, not quite, in my opinion. I feel obliged to tell you that if you go daisy chaining to the max you will live to regret it. But, perhaps, a moderate degree of daisy chaining could be tolerated if this AMP gizmo really works as advertised. I am a little nervous about the shorting bars and the connector itself. So, don't say I didn't warn you and don't make the mistake of thinking that I am saying that daisy chaining is OK. I am not. But this is interesting enough that I would like to try a few out and see how practical they are. Does anyone else have an opinion yet on this approach?
haas@wasatch.utah.edu (Walt Haas) (05/10/89)
In article <1381@ndmath.UUCP>, milo@ndmath.UUCP (Greg Corson) writes: > ...how can you wire 10-20 offices so they can all easily tap into the > thinwire? The installation has to be neet...no big loops of cable hanging You can do this by installing the AMP Thinnet tap system. Or, you can bag thinnet and wait for the 10BASET standard to become final. Cheers -- Walt Haas haas@cs.utah.edu utah-cs!haas
brian@apt.UUCP (Brian Litzinger) (05/10/89)
From article <1381@ndmath.UUCP>, by milo@ndmath.UUCP (Greg Corson): > If you want to install thinwire Ethernet to a series of single-person offices > it seems to present a problem. As I recall, you can't have a drop-cable > going from the T connector to the thinwire interface card. This seems to > prevent you from having a simple wall jack that you can plug into to get > ethernet service (unless you imbed transcevers in the wall...which is an > extra cost considering a lot of computers already have them built-in) A number of coax cable and connector manufacturers have a product called triax, single shield, two wire coax. I've seen it at the local electronics/hardware store in my area. There are also connectors to convert triax to dual BNC. Thus, you can run your network to triax connectors on your wall plates, run triax to the computer in your office, and convert to BNC at the computer. The one draw back to this solution is that you have to plug a shorted triax connector on the wall tap when it is not in use. All in all though, seems like a fairly inexpensive solution, at least until you find out how much triax costs. 8-) <> Brian Litzinger @ APT Technology Inc., San Jose, CA <> UUCP: {apple,sun,pyramid}!daver!apt!brian brian@apt.UUCP <> VOICE: 408 370 9077 FAX: 408 370 9291
tsmith@usna.MIL (Tim G. Smith ) (05/10/89)
In article <1381@ndmath.UUCP> milo@ndmath.UUCP (Greg Corson) writes: >So, how can you wire 10-20 offices so they can all easily tap into the >thinwire? The installation has to be neet...no big loops of cable hanging >down from the ceeling...etc. All the offices would have to be on the same >segment of thinwire...sending a seperate thinwire cable to each one isn't >practical because there are TO MANY offices. I know you don't want to hear this BUT..... The cost and praticality all depends on your viewpoint. The major cost of running a single thin wire to each office always seems to be the multi-port repeaters (I call them MPRs but I am told many folks call them DEMPRs). MPRs are not cheap- BUT running around finding out who is screwing up the network whenever some clown unplugs his pc the wrong way also costs a lot in terms of wasted resources and pissed of network managers. Another thing to consider is whether offices ever change hands and if so will it affect your subnets. [Office wars for the "best" offices can wreak havoc with subnetting if office "moves" from one subnet to another] If every office is "home runned" then moving an office from one subnet to another is easy- if the offices are daisy chained then you have to go run new wires. Cabletron has a box called an MMAC that significantly reduces the cost per port of using MPRs to star wire. >I suppose you could put in a wallplate with two BNC connectors and install >a short jumper when the outlet isn't in use. When you connected a computer >you would run cable from one connector, to the T on the back of the computer >and back to the other connector on the wall plate. I'm sure there must be >a better way than this though. Anybody got any good ideas? Maybe the AMP wall outlets that some other folks mentioned will do the trick for you if you absolutely, positively can't star wire. good luck, Tim Smith (formerly of the US Naval Academy- and still reading news there) US mail:US Army, BRL E-mail: SLCBR-SE internet:tsmith@brl.mil Aberdeen Proving Grounds, MD 21005-5066 uucp :...!uunet!brl!tsmith MaBell :(301)278-6678 (or 6808) Autovon: 298-6678
cfreese@super.ORG (Craig F. Reese) (05/12/89)
>>So, how can you wire 10-20 offices so they can all easily tap into the >>thinwire? The installation has to be neet...no big loops of cable hanging >>down from the ceeling...etc. All the offices would have to be on the same >>segment of thinwire...sending a seperate thinwire cable to each one isn't >>practical because there are TO MANY offices. > >I know you don't want to hear this BUT..... > >The cost and praticality all depends on your viewpoint. The major cost >of running a single thin wire to each office always seems to be the >multi-port repeaters (I call them MPRs but I am told many folks call >them DEMPRs). MPRs are not cheap- BUT running around finding out who >is screwing up the network whenever some clown unplugs his pc the >wrong way also costs a lot in terms of wasted resources and pissed of >network managers. > I whole heartedly agree. We just wired our new facility. Our approach was to put 2 BNC connectors/room. Each of these ports runs to a wing computer room which contains a 19" rack. In each rack there is a BNC patch panel which presents the end of the station (office) wiring, and the ports to the group of MR-9000s (Cabletron's MR) in the rack. The MRs are connected into building wide backbones. I believe the following issues guided our decision: 1) the extra cable, connectors, and wallplate cost was minor 2) all configuration (& thus control) exists in the racks (lockable I might add). We wired ~120 offices, and having that much "distributed" configuration would be hard to manage 3) each machine is isolated from the others by the repeater (i.e. people can rearrange their offices without "killing" others) 4) with the terrible lack of network management tools, having the machines 1 per link allow us to visually watch the network. (the cabletron boxes have a few lights for each MR port. This makes it easy to locate chattering PCs, and disconnected links) 5) since we have two wallplates, we can run a star-loop if we want to. 6) If we want to run more than one machine per office we can 7) we can easily and quickly load balance across the multiple thicknet backbones that the MR connect to by simply changing the patch panel. The hardware costs for the network is higher due to the extra MRs, but it has proved welcome in the past few weeks since we moved in and set up shop... craig (maybe this networking wasn't a waste of time afterall) reese. *** The opinions expressed are my own and do not necessarily represent *** those of any other land dwelling mammals.... ----------------- Craig F. Reese Email: cfreese@super.org Institute for Defense Analyses/ Supercomputing Research Center 17100 Science Dr. Bowie, MD 20715-4300
butzer@rugby.cis.ohio-state.edu (Dan Butzer) (05/12/89)
In article <9121@super.ORG> cfreese@super.org (Craig F. Reese) writes: >So, how can you wire 10-20 offices so they can all easily tap into the >thinwire? The installation has to be neet...no big loops of cable hanging >down from the ceeling...etc. We use thin Ethernet to connect about 275 workstations to their respective file servers (about 15 nodes per Ethernet). We've had few problems daisy chaining workstations. This includes installations within individual offices, and in the student labs. In the offices, we use plastic over the wall conduit to hide the coax, and in the labs, we encase it in Panduit. In an office, the incoming and outgoing coax ends just below the end of the conduit (and has BNC connectors). When you install a computer, you'll need to add extensions. When an office does not need a workstation, then you use a barrel connector to patch the incoming, and outgoing coax together. Depending on the nature of your users, this may not work. If your users like to connect and disconnect cables at will, and get into their hardware, you might appreciate the isolation that the multiport repeaters provide. (We also prefer Cabletron MR9000c's). If you do decide to daisy chain thin wire, you might want to consider investing in a GOOD time domain reflectometer. When you do have a problem, you will want to find it very fast because it will take several people down. Also, you'll want to be extremely picky about the quality of the cables you use. Dont even consider solderless connectors, or any cable other than RG58 A/U. (NOT RG58 /U !!!) -=- ______________________________________________________________________________ Dan Butzer - The Ohio State University, Dept of Computer & Information Science Net: butzer@cis.ohio-state.edu Voice: (614)292-7350 Snail: 2036 Neil Ave Mall, Room 245, Columbus, Ohio, 43210
hubey@pilot.njin.net (Hubey) (05/13/89)
In article <179@usna.MIL> tsmith@usna.MIL (Tim G. Smith ) writes: > In article <1381@ndmath.UUCP> milo@ndmath.UUCP (Greg Corson) writes: > >So, how can you wire 10-20 offices so they can all easily tap into the > >thinwire? The installation has to be neet...no big loops of cable hanging > > The cost and praticality all depends on your viewpoint. The major cost > of running a single thin wire to each office always seems to be the > multi-port repeaters (I call them MPRs but I am told many folks call > them DEMPRs). MPRs are not cheap- How expensive is NOT CHEAP?? How many ports ?? Can you please provide adress or tel # ?? We are/might be doing things along similar lines and we need some idea as to cost etc. > Cabletron has a box called an MMAC that significantly reduces the cost > per port of using MPRs to star wire. CAn you please provide more data ?? on Cabletron MMAC etc. Thank you. > >I suppose you could put in a wallplate with two BNC connectors and install > >a short jumper when the outlet isn't in use. When you connected a computer > >you would run cable from one connector, to the T on the back of the computer > >and back to the other connector on the wall plate. I'm sure there must be > >a better way than this though. Anybody got any good ideas? > Maybe the AMP wall outlets that some other folks mentioned will do the > trick for you if you absolutely, positively can't star wire. Are there any gadgets that will automatically provide the terminator impedance when a workstation is disconnected ?? > good luck, > Tim Smith (formerly of the US Naval Academy- > and still reading news there) > US mail:US Army, BRL E-mail: > SLCBR-SE internet:tsmith@brl.mil > Aberdeen Proving Grounds, MD 21005-5066 uucp :...!uunet!brl!tsmith > MaBell :(301)278-6678 (or 6808) > Autovon: 298-6678 > Mark -- hubey@OSultrix.montclair.edu hubey@pilot.njin.net hubey@apollo.montclair.edu VOICE: 201-893-5269
jeff@nsipo.arc.nasa.gov (Jeff Burgan) (05/18/89)
>Well, one approach you could consider is a multiport repeater. >I don't have any experience with the thin ethernet version, so I can't >tell you whether or not you have to terminate the ports when not in use. >The DEC version is called a DEMPR (sp?) and allows a star topology from >the device. > >-- You don't have to terminate the unused ports on a DEMPR. DEC also has a box called a DESPR (i.e. single port as apposed to multiport repeater) On one segment from a port on a DESPR or DEMPR, you are allowed 29 stations and the cable length can not exceed 185 meters. Jeff
howell@ecsvax.UUCP (Doc A. Howell) (05/18/89)
Dec has a product that may be the answer to drop cables drom a thinwire wallplate. It is called, Thin Wire Ethernet Daisy-Chain connector. Catchy huh? Supposedly, this device/wallplate/concept allows up to 8 wallplates to be daisy chained on a single thinwire segment from which a single BNC cable may be run between the workstation and the wallplate. The Tee is behind the wallplate thus allowing the single coax. This drop cable can be up to 2.5 meters (8.2 feet) from the wallplate. All of this information is rather poorly described in the DECconnect System Planning and Configuration Guide. Way back several months ago, this same question of drop cables arose. Several people said they were running short drop cables from the wallplate with the Tee behind the wallplate. IT IS AGAINST THE SPECS OF ETHERNET TO DO THIS. They said it worked. I don't know but it is realistic to expect that you can get away with certain violations as long as you compensate by enforcing stricter limitations in other areas such as Max distance, and MAx stations per segment (note the 8 above). I will probably try this sometime in the future, I may be forced to. DEMPR's are not cheap, neither are MMACs, Multiconnects, or any of the other similar devices that break thinwire off of an ethernet. I am sure DEC's wallplate isn't cheap either. Will those people that claimed to be doing this several months ago like to follow up on the subject again? Has anyone tried DEC's new product?
tony@cc.brunel.ac.uk (Tony Begg) (05/22/89)
I looked for a solution that would not involve extra cable length for unoccupied offices, and use existing BNC metalware in a cost-effective way. There just didn't seem to be any appropriate wallplates. Maybe this AMP LAN-LINE thing is what I've been looking for but it sounds a bit complex. In the absence of any neat solution, I have been installing thin ethernet with a barrel connector in each office, which is broken to connect to equipment, a second barrel connector used, with standard made up BNC cables and a T piece at the back of the workstation or whatever. All that is wrong with this approach (if you ignore breaking the network to add equipment which a lot of other solutions share) is it is not particularly neat or mechanically sound. I believe it could be made so with a two part injection moulded wall plate, in the shape of a truncated equilateral triangle (ie sort of hexagonal). One part screws to the wall and the other part is a cover which is removed to add or remove equipment. The BNC plugs with their barrel connector locate in channels along the sides of the triangle. An "empty" office has the single plug-barrel-plug located along the base of the triangle. To connect equipment, the barrel is broken, a second barrel added to the free plug, and these connected to the two device cables, then the two plug-barrel-plug assemblies located along the other two sides of the triangle, so the twin cable to the device exits from the "top" of the triangle. Location would be in tubular channels in the part of the wall plate screwed to the wall, with longitudinal restraint by protrusions into the channels that fit the bit of the BNC plugs with a smaller diameter (where you can see the slot for the bayonet pin). I noticed that the length of the various barrel connections was about constant whereas the diameter of the centre of the barrels varied between manufacturers, so that this method of restraint is more metalware independent than a protrusion between the two plugs. The triangle would need to be about 5.75 ins along a side, and truncated to give a hexagon with three opposite sides about 3.25 ins (along which the channels for plug-barrel-plug run) and the other three sides 1.25 ins (where cables enter and leave). The wall plate is 3 fold symmetric. I am trying to convince our Materials Tech department to make the injection moulding (or a cheaper vacuum formed version). Of course for the rectilinear minded as long as the channels in the wall plate formed a triangle, the wall plate could be about 4 ins square.