8/9/2019 TI_89_cable_paralelo

1/9

Parallel Link Plans

Schematic Software You Will Need

Parts List Tools You Will Need Instructions

HintsSCHEMATIC

(The resistors are optional. In some cases they have been found to reduce thechances of transmission problems.)

SOFTWARE YOU WILL NEED

Use this DOS testing software to verify that your cable is functioning correctly.Link test software for the parallel link

Before deciding to buy or build a parallel link, it's a good idea to check out our chart

http://www.ticalc.org/archives/files/fileinfo/2/242.htmlhttp://www.ticalc.org/archives/files/fileinfo/2/242.htmlhttp://www.ticalc.org/archives/files/fileinfo/2/242.htmlhttp://www.ticalc.org/archives/files/fileinfo/2/242.htmlhttp://www.ticalc.org/archives/files/fileinfo/2/242.htmlhttp://www.ticalc.org/archives/files/fileinfo/2/242.htmlhttp://www.ticalc.org/archives/files/fileinfo/2/242.html

8/9/2019 TI_89_cable_paralelo

2/9

of linking software and make sure there's a program compatible with your operatingsystem and calculator.Linking Software

PARTS LIST A male 25-pin D type connector (to plug into the parallel port) to which you

can solder the wires.

A plastic cover to fit around the D connector. Two diodes, of type 1N4148 (small silicon switching diodes). The choice of

diode type is quite important to the success of your link.

Two 1K ohm resistors (optional). The precise value of resistors isn't toocritical - anything from about 500 ohm to say 2.2K ohm works as well. If you

do not include the resistors the link may not work on your computer. (Butthey can be left out if you can't be bothered.)

A piece (1 to 1.5m or so) of thin electrical three-core cable. If you can get acable which has two wires and a copper 'screen', which is a bare copper wire

wrapped around the other ones, then get some of this sort instead. Then youcan use the screen as the earth to improve grounding and prevent crosstalk

between the wires. Don't make your cable much longer than about 1.5m,

otherwise you will increase the chance of transmission problems. Either: a 2.5mm stereo jack to plug into the calculator; Or: a 2.5mm stereo socket instead (recommended to ensure a good

connection with the calculator's port). You then plug the calc-to-calc cableinto the socket and plug the other end into the calculator. This ensures aperfect connection and is a more robust solution than using a plug - plugging

and unplugging can damage fragile soldering;

Or: since some people have had difficulty obtaining 2.5mm sockets or plugs,your other option is to cut your calc-to-calc cable in half to use the 2.5mm

plug from one end. If you choose to do so, then you will find that the tip ofthe 2.5mm plug is the red wire, the middle ring on the plug is the white wire,

and the other (copper) wire is the ring nearest the base. See analternativeschematicillustrating these modifications. If you don't want to sacrifice your

calc-to-calc cable, you could attach a readily-available 3.5mm socket to one

cut half of the calc-to-calc cable and a 3.5mm plug to the other. Make sureboth the socket and plug are stereo. Your calc-to-calc cable will still work

(make sure you get the connections right - use a test meter) and you can useone half to connect to your computer link via another 3.5mm plug and socket.

TOOLS YOU WILL NEED

Soldering iron - it's also useful to get a clamp thing if you can find one to actas a second pair of hands. Test meter - to test all the connections. Also needed to work out which part of

the 2.5mm stereo jack connects to which connector on the back of it.

Multimeters can act as test meters. Wire strippers Pliers

http://www.ticalc.org/basics/linking/software.htmlhttp://www.ticalc.org/basics/linking/software.htmlhttp://www.ticalc.org/basics/linking/software.htmlhttp://www.ticalc.org/images/cables/parallel2.gifhttp://www.ticalc.org/images/cables/parallel2.gifhttp://www.ticalc.org/images/cables/parallel2.gifhttp://www.ticalc.org/images/cables/parallel2.gifhttp://www.ticalc.org/images/cables/parallel2.gifhttp://www.ticalc.org/images/cables/parallel2.gifhttp://www.ticalc.org/basics/linking/software.html

8/9/2019 TI_89_cable_paralelo

3/9

A screw driverINSTRUCTIONS

Print out the schematic: this will make it a lot easier to work with. There aretwo ends to the link - the calculator end and the computer end. You can makeeither end first it doesn't matter.

It's probably neatest to connect the diodes at the computer end (and that's

what I've used here), but wehave seen links with the diodes at the calculatorend. Basically, as long as you follow the schematic then you can do whatever

you want.

Calculator end

This is perhaps the most fiddly part of it. You have three options: either use a

plug, a socket, or half your calc-to-calc lead.

Calculator end - Using a plug

o If you use a plug then (depending on its design) you may need tocarefully file away some of the metal from around its base to let it fit

into the calc's port fully. See if the base of your plug gets obstructedby the circular lip around your calc's port.

o Take the plastic cover off your 2.5mm stereo jack. It will have threeconnectors on the back - two small ones and one large one that wraps

around everything. Thread the plastic cover onto the cable now,

otherwise if you have already done the other end you won't be able tothread it on to put the cover back.

The largest of the three connectors on the back of the plug is forearth. If your cable has a copper screen as one of the wires then use

this as the earth (pin 22). (If you have not done the computer end of

this cable yet then it doesn't matter which of the other two wires youconnect to which connector.)

o Strip some of your cable and then solder each wire to each connector,cutting the wires to the correct lengths first of course. Hook the wiresback after you have put them through the connector rings to ensure a

strong connection. This step is the fiddliest of all.o You will need to know which wire you have connected to each ring on

the plug. You can either find this out now or later. Use a test meterand make a note of which wire connects to what.

o Carefully screw the cover back on.Calculator end - Using a socket

o If you want to use a socket then when you use your link you will use

8/9/2019 TI_89_cable_paralelo

4/9

your calc-to-calc lead to go between the socket and the calculator. Themethod to follow is the same as above except that to work out whichconnector on the back of the socket connects to each ring on the plug

on the far end of the calc-to-calc lead, you need to plug one end of the

calc-to-calc lead into the socket and use the test meter on this

combination. The combination of calc-to-calc lead and socket functionsas a plug. Personally we think that using a socket is more reliable thanusing a plug.

Calculator end - Using half your calc-to-calc lead

o In much the same way as above, to check which wire connects to whatring on the plug, you can use a test meter. You will find that the tip ofthe 2.5mm plug is the red wire, the middle ring on the plug is the

white wire, and the other (copper) wire is the ring nearest the base.This alternativeschematicillustrates this. (It also shows the optional

connection of each of the pins between 25 and 18 together (see

below), but does not show the resistors.)

Computer end

o We will connect the diodes and resistors this end and get everythinginside the plastic housing. Investigate how your D connector attachesto the housing. It may be best to work with one half of the housing

attached to the D connector so you can get everything the rightlength. Up to you.

o You can optionally connect each of the pins between pin 25 and pin 18together. They are all earth. Apparently doing this may slightly reduce

the chance of transmission problems.

oSolder the diodes and resistors, if you're using them, neatly onto the25-pin D connector.

As you will need to connect two things to pins 12 and 13 (the diodeleg and the resistor leg) you may find it easier instead to solder the

diodes into the pins first, then solder the resistor legs to the legs of

the diodes. Up to you - it makes no difference electrically. If you dothis then hook the resistor legs round the diode legs to ensure strongconnections.

Obviously make sure you get the diodes the right way round and thatyou use the right pins, and make sure nothing touches that shouldn't.

We want everything to fit inside the plastic cover, so cut the legs ofthe resistors or diodes a bit if they are going to be too long.

The schematic above is from the point of view of looking into yourcomputer's port, or looking at the back of your 25 pin connector onto

which you solder the wires, with pin 1 at the top right. In other words,connect the wires etc as you see them in the schematic.

http://www.ticalc.org/images/cables/altschem.gifhttp://www.ticalc.org/images/cables/altschem.gifhttp://www.ticalc.org/images/cables/altschem.gifhttp://www.ticalc.org/images/cables/altschem.gif

8/9/2019 TI_89_cable_paralelo

5/9

o Carefully strip the three wires in the cable to the required lengths.Bear in mind that you will want to fit the cover over everything forneatness so don't strip them too far.

o Solder the correct wire to pin 22 (earth). Use the test meter to workout which wire you should solder. It will be the one you soldered

earlier to the large connector on the plug (i.e. base ring of the plug).Make sure you give this wire enough length to work with.

o Now for the other two wires - they attach to the ends of the resistors.Use the test meter and the schematic to work out which of theremaining two wires is which. Make sure you connect the correct wire

to the correct resistor. Hook the ends of the wires round the resisor

legs and use a good dollop of solder to make the connections strong.o Make sure no bare wires are touching. Put insulation in between the

diode/resistor legs or bare wires if you are worried. Check the

connections.o Attach the plastic housing and cable grip.o If you haven't yet done the other end of the cable now's your chance.

And that's it.

Testing your link

After double checking all your connections, you need to test out your linkusing the LinkTest software (see the readme file in the LinkTest zip file), and

hopefully it will work perfectly first time. If it doesn't work, see ourhints.

Good luck. See thelink software pagefor where to get suitable linksoftware.

HINTS

ConnectionsFirst things first: check and double check that you have got the connections

correct and that no wires are touching that shouldn't. Make sure you get thepin numbering correct and ensure that no pins have become soldered to each

other by mistake. Check the whole thing with a test meter to check for badconnections.

Use the right softwareThe home-made parallel and serial links require the appropriate software tomake them work. They do not work with Texas Instruments' link software.See theLinking Softwaresection.

Poor contact with calculator port if you use a plugSome 2.5mm plugs do not fit far enough into the calc's port to make contact

http://www.ticalc.org/basics/linking/software.htmlhttp://www.ticalc.org/basics/linking/software.htmlhttp://www.ticalc.org/basics/linking/software.htmlhttp://www.ticalc.org/basics/linking/software.htmlhttp://www.ticalc.org/basics/linking/software.htmlhttp://www.ticalc.org/basics/linking/software.htmlhttp://www.ticalc.org/basics/linking/software.htmlhttp://www.ticalc.org/basics/linking/software.html

8/9/2019 TI_89_cable_paralelo

6/9

properly because of the circular 'lip' around the port on the calculator's case.To get around this you can either file away some of the metal from aroundthe base of your plug, or you can carefully scrape away some of the plastic

around the calc's port to let the plug fit in further. One person's link didn'twork until he filed away a bit of the base of his plug.

Also, if you look at the plug itself on some calc-to-calc leads you will see thatit's smooth all the way along. The standard type of 2.5mm plug has a groove

near the tip. The grooved type should connect properly with the calc's port,however if you are having connection problems consider a socket instead (seebelow).

Use a 2.5mm socket insteadTo ensure perfect connection with the calc's port you could use a 2.5mm

socket and then use the lead supplied with your calculator to go between this

socket and the calculator. This is what we would recommend. Just make sure

you get a stereo 2.5mm socket.

Be carefulObviously treat your calculator's port (and your computer's port) withrespect. Check your calc's port works by transferring something to anothercalculator.

Does Linktest return the correct "should-be" values?No: If your link does not get the correct 'should be' values with linktest thenone (or both) of your diodes is either the wrong way round, connected to the

wrong pins or simply not working. Alternatively, two wires could be touching,or your parallel port may be incompatible (see below).

Yes: A common symptom of problems is that you get the correct 'should be'values with the Linktest program, but your link doesn't work when you wantto transfer something. The Linktest program basically only checks that the

diodes are the correct way round and functioning, no wires are touching thatshouldn't be and that your parallel port works. It does not check whether thelink is making proper with the calculator's port or identify other possible

problems. The real test of whether the link works is whether it can transferprograms to and from the calculator with no problems. If it can't then try thehints below. The hints below should comprehensively cover all potential

problems you may be faced with.

Parallel port incompatibilityUnfortunately some computers have a type of parallel port which isincompatible with the link.

Links which include the resistors should be less likely to suffer from this

8/9/2019 TI_89_cable_paralelo

7/9

problem. If you did not include the resistors when you built your link then youshould consider doing so. If you have tried the other hints below then also tryyour link without resistors.

This incompatibility problem is not necessarily related to the age or speed of

the computer, only to the type of parallel port in use. However, it has beenfound that this problem is not as common in older computers (486 or earlier),presumably because they tend not to have the incompatible type of parallelport.

Try changing the type of your enhanced parallel port in your bios from ECP or

EPP to something as ordinary and as standard as possible. In many cases thismay have no effect but it's worth trying.

You should also try reducing the speed of your computer by turning off its

turbo switch if it has one or by disabling its secondary cache in your bios. Or

(more practically) you could run a program in DOS such asMoSloto slow

your computer down.

If your link still doesn't work you should then try using your link on othercomputers. If your link works fine on some computers but not on yours then

you should get hold of a different i/o card and use that instead of yourparallel port.

If this is the case we would recommend trying an old i/o card from a 286/386- many people have old computers lying around and so they are reasonablyeasy to come by. Also, the incompatibility problem is less prevalent in old

computers. Depending on what link software you use you will probably need

to disable your existing parallel port or move it to LPT2 in your bios. Make

sure you get details of the dip switch settings that the card uses. If possible,test the link with the card before you install it on your computer. You coulduse a new parallel port card, but if at all possible you should test it before youpay for it.

The problem of parallel port incompatibility affects some people - a link worksfine on some computers but not on others. It would get the correct "should-

be" values, but nothing else would work. Try getting hold of an old 8 bit i/o

card, installing it and disabling the original parallel port in the bios. This hasbeen known to make the link work!

Type of diode usedThe type of diode you use is pretty important. You should use small siliconsignal switching diodes: other ones cannot switch at the required rate, and soyour link won't work. A suitable type of diodes is 1N4148.

Use LPT1 with Link85xpThe standard link software for the parallel link (Link85xp) does not work with

http://www.hpaa.com/moslo/moslotry.htmlhttp://www.hpaa.com/moslo/moslotry.htmlhttp://www.hpaa.com/moslo/moslotry.htmlhttp://www.hpaa.com/moslo/moslotry.html

8/9/2019 TI_89_cable_paralelo

8/9

IRQ's, but instead it uses the address of your parallel port. It takes theaddress of your parallel port from the bios of your computer. It will only useLPT 1, despite the options on the system setup screen, so if you want to use

LPT 2 with it then tough. If this is the case then either use LPT 1 or disable

your LPT1 in the bios and it should work. This is what we had to do after

installing a second parallel port on an old i/o card.

Another qwirk of Link85xp is that when transferring files to the calc you can

only transfer *.85g and *.85b files - so if for example you want to transfer*.85s files you'll have to rename their extensions to *.85g.

CrosstalkWith parallel links crosstalk between the wires in the cable can be a problem.To combat the problem you need to make sure your link is well earthed. If

the lead you are using has a copper 'screen' as one of its wires (bare copper

wrapped round the other wires) then you should use this as the earth. If your

cable does not have a copper screen then consider using one that does. Forthe parallel link, earth is pin 22. If you are using a 25 wire printer leadinstead of a three wire cable then you can improve earthing by soldering a

few of the spare wires to pin 22. You should also not make your link longerthan about a metre or so.

Try it in plain DOSSome people have experienced problems with their links under Windows 95.Although using Windows 95 should not affect the situation (and doesn't in

most cases), if your link doesn't work then it's worth trying it in plain DOSmode after a clean boot.

Connect pins 25 to 18 togetherAlthough optional, you can connect each of the pins between 25 and 18together (seealternative schematic). Apparently doing this can slightlyreduce the chance of transmission problems. Pins 25 to 18 are all earth.

Try another calculatorThe TI-85 and the other TI calcs use a simple resistor-capacitor arrangementto determine their speed. These components will not be precisely the same

value in all calcs so some calcs will be faster than others. You could find that

your link works with some calculators but not all. If so then you should trysome different diodes in your link or try to reduce crosstalk (see above).

It is also possible (though unlikely) that your calc's port is not functioning -you should check it works by transferring something to another calc with thecalc-to-calc lead.

http://www.ticalc.org/images/cables/altschem.gifhttp://www.ticalc.org/images/cables/altschem.gifhttp://www.ticalc.org/images/cables/altschem.gifhttp://www.ticalc.org/images/cables/altschem.gif

8/9/2019 TI_89_cable_paralelo

9/9

Link still not working?You should look at theParallel Link FAQat Andreas Westfeld's site for other

hints.

Copyright 1996-2010, the ticalc.org project. All rights reserved. |Contact Us|Disclaimer

http://www.inf.tu-dresden.de/~aw4/faq85.htmlhttp://www.inf.tu-dresden.de/~aw4/faq85.htmlhttp://www.inf.tu-dresden.de/~aw4/faq85.htmlhttp://www.ticalc.org/about/contact.htmlhttp://www.ticalc.org/about/contact.htmlhttp://www.ticalc.org/about/contact.htmlhttp://www.ticalc.org/about/disclaimer.htmlhttp://www.ticalc.org/about/disclaimer.htmlhttp://www.ticalc.org/about/disclaimer.htmlhttp://www.ticalc.org/about/disclaimer.htmlhttp://www.ticalc.org/about/contact.htmlhttp://www.inf.tu-dresden.de/~aw4/faq85.html