home
***
CD-ROM
|
disk
|
FTP
|
other
***
search
/
TAP YIPL
/
TAP_and_YIPL_Collection_CD.iso
/
PHREAK
/
BOXES
/
REDIALER.TXT
< prev
next >
Wrap
Text File
|
1997-11-28
|
20KB
|
416 lines
CONVERTING A TONE DIALER INTO A RED BOX
Using a Radio Shack Tone Dialer is by far the most popular method of
building a red box in the 90's. There are several different variations of
the tone dialer red box, all of which will be explained below.
Many people ask me what the legitimate use of a tone dialer is. Tone
dialers are used to access touch tone voicemails and voice menus when
you're calling from a rotary dial phone. Even though rotary dial phones are
very close to obsolete now, tone dialers still come in handy to store
commonly dialed phone numbers in. They can also be useful to a phreak when
a phone disables it's keypad or has a lock on it to prevent long distance
dialing.
The biggest problem I've run into while explaining this method is the
different variations of tone dialers themselves. See, Radio Shack knows
that certain people buy these tone dialers for the sole purpose of screwing
the phone company. They've come out with two new models of the "33
Memory Pocket Tone Dialer" in just the last decade.
The first upgrade was a definate improvement for the underground. The
circuit board remained the same but the outer casing was sleeker looking, a
bit smaller, more water proof and made it easier to install the over-sized
red box crystal.
But in the last year or so (1996-1997), they'd upgraded once again, this
time to stop us evil phreaks from modifying it for illegal use. Personally,
I've never encountered one of these new models so I can't really tell too
much about it except for what I've heard. Supposedly, the crystal still
exists but they've disguised it as a capacitor. I've heard a dozen
different stories about the placement of this new capacitor so I can only
say that most people have told me it's in the same place as the old crystal
always was and it has Z3.58M written on it. The picture here attempts to
show you a real picture of the circuit board and the new crystal, although
it's hard to see.
Below is a list of the different kinds of tone dialers available from Radio
Shack. If you have further questions about the different models, Radio
Shack can be contacted by dialing 1-800-THE-SHACK.
43-145
This is a cheap tone dialer with no memory presets on it. These dialers
cost $16.99 and can be modified, but without the memory presets you won't
be able to make quarter tones, just nickels which can be a little
time-consuming. But if you want to save a lousy 10 bucks, this is the way
to go.
43-141
This is the original 33 memory pocket tone dialer. This model was brown and
very ugly-70's looking compared to the newer models. This one will work for
red boxing just as good as the new ones. Radio Shack stopped making this
model in 1994.
43-146
This is the current 33 memory tone dialer which sells for $24.99. Both the
newest "hack-proof" model and the 1995- model share the same catalog
number, contrary to popular belief. The crystal in this model has been
disguised to trick people into thinking that you can no longer use it for
illegal purposes.
MODIFYING A TONE DIALER
These is the original plans for building a red box as described in 2600
magazine by Noah Clayton. This section is taken from PLA's issue 02.
You will need:
Radio Shack pocket tone dialer model #43-141 or #43-146 ($24.99 each)
Three AAA batteries
Soldering Iron
Small regular and phillips screwdriver
Wire clippers
A 6.5536 MHz crystal
Place the dialer on the table keypad side down and speaker side up. Remove
the battery cover and all the batteries. Use the phillips screwdriver to
remove all four screws on the back of the dialer. If you've got the new
model, there will be six screws. Now slide the flathead screwdriver along
the side to separate the two halves of the dialer. Slide the speaker half
underneath the keypad so you don't break off the speaker wires.
On the left hand side down near the battery compartment, you'll see a
silver cylinder looking component. This is the crystal you want to remove.
Pull it up with your fingers and break away all the glue that's holding it
down. Use your soldering iron and un-solder it from the circuit board. You
can throw this crystal away as it has no real use in life.
Now the hard part. The new crystal you're putting in is twice as big as the
old one so it's kinda hard to get it in there. There's a few capacitors
that you can bend over to make some more room. You'll also have to bend the
leads to your new crystal inward a little. Solder the new crystal in place
of the old one and you're all set. Snap the two casing halves back together
being careful not to pinch any wires. Put the screws back in and insert
your three AAA batteries. The diagram on the left, shows you what the
circuit board looks like. Click on it to see a bigger picture.
A good idea is to wrap the crystal with scotch tape or electrical tape.
This will prevent contact with other components since the crystal is so
big. You could also simply put a piece of paper under the crystal. Before
you put the screws back in, you might want to put the batteries in and make
sure that when you press buttons, the red box is making noise. If it isn't
adjust the crystal slightly and try again.
One additional thing you can do it totally remove the LED light. The only
thing this light is good for is running down your batteries really quick.
If you use the unit without the light connected, you NEVER have to turn the
unit's power off and the batteries will last for a few years before you
need to replace them. When doing this, I also solder the power switch into
the "on" position and remove the switch itself. But only attempt all this
if you're comfortable with your soldering skills.
PROGRAMMING YOUR RED BOX
Now that your dialer is put back together and the batteries are in, test it
out by hitting a few keys. You should hear high-pitched touch tones. The
"star" key on the dialer is your coin key. By hitting this key quickly one
time, you create a nickel tone. Two times makes a dime tone and five times
equals a quarter tone. Nobody can hit the button fast enough to make a
quarter tone so you have to program 5 hits into one of the memory
locations.
You'll be using the three priority buttons on the top of your unit. P1 will
be your quarter, P2 your dime and P3 will be the nickel. So here's how to
do it:
(1) Switch the unit on. The red light in the corner should come on unless
you've disconnected it.
(2) Slide the DIAL/STORE switch to the STORE mode.
(3) Press MEMORY, *, *, *, *, *, MEMORY, P1. That programs your quarter.
(4) Press MEMORY, *, *, MEMORY, P2. That programs your dime.
(5) Press MEMORY, *, MEMORY, P3. And that's the nickel.
(6) Slide the DIAL/STORE switch back into the DIAL mode and you're ready to
go.
Try pushing the priority buttons now. Each one will emit a different
high-pitched chirping noise. This is what the phone hears when you deposit
money into a pay phone. If you've ever red boxed with a taperecorder or
heard the actual pay phone tones before, you'll notice that these tones are
slightly slower than the real ones. Don't worry, the pay phone can't ever
tell the difference and it's rare to find a live operator who can.
If you want to program in $1.00, it's best to use this programming string:
MEMORY, *, *, *, *, *, 0, *, *, *, *, *, 0, *, *, *, *, *, 0, *, *, *, *,
*, MEMORY, P3.
This will make $1.00 go in a lot faster than if you'd used the PAUSE
feature because "0" is being used as a substitute for PAUSE. (The phone
just ignores the 0.) Don't use this string on a live operator, though!
Thanks to Even in California for giving me that idea. Using the P3 location
will replace your nickel tone.
TROUBLESHOOTING
One of the most common problems I've had with my red boxes over the years,
is that the tones will stop working in the middle of trying to put in your
money or they'll break up, giving you a live operator. This could be
because you did a bad job soldering the new crystal in. More commonly, the
contacts on the power (or the DIAL/STORE switch) have bent the wrong way,
causing them not to touch the circuit board anymore.
To fix that, open the unit and bend the contact in the switches out a
little. Not too much or they'll break when you use the switch. If you've
removed the light in your unit, there's really no reason to ever turn it
off so you could glue the power switch into the "ON" position or remove the
power switch and solder the appropriate contacts into the "on" position.
MAKING A RED BOX/TONE DIALER COMBO
If you're the type of person who just has to have a tone dialer AND a red
box then you can have both without having to carry around two seperate
units.
1. Buy a small two-position switch like Radio Shack's model #275-407.
2. On one end solder the old crystal, on the other end solder your 6.5536
crystal and in the middle solder two small wires, each about 4" long.
3. Solder the other ends of the two wires to where the old crystal used to
be.
Pretty easy, aye? You can put the two wires through one of the vent holes
in the back of the unit. On my red box, I took the plastic piece off the
back of the battery cover (You know, where you're supposed to write the
memory numbers?) and electrical taped the switch down. It actually doesn't
stick out hardly at all and looks fairly professional.
Now you can switch between red box and tone dialer. You can store your
stolen calling card numbers in the other memory locations or use the touch
tones to get free calls on those damn privately owned pay phones.
THE STEALTH-COMBO BOX
The following article was written by DeadKat of CoTNo and is, in my
opinion, the best ever variation of the original tone dialer design. You
can pick up this article and other issues of CoTNo on the FTP.FC.NET site.
Highly recommended.
Ever since the original Rat Shack Red Box mod was printed in 2600 Magazine,
there has been an explosion in red box use. Red boxing is still one of the
primary topics of discussion on alt.2600 years later. The Radio Shack Tone
Dialer mod was one of the first boxes I ever built and has proven to be the
most useful of all the boxes I've experimented with.
For years, though, I've played with the original design in order to improve
it. My favorate variation of the original plans is what I call the
Stealth-Combo box. It is based on the original design, but makes use of
mercury switches to allow the use of both DTMF's and ACTS tones. In other
words it combines the functions of the red and white boxes.
The reason its called 'stealth' is the fact that when the dialer is held in
its normal position, it will produce touchtones as if it were un-modded.
When held 'upside-down' it is capable of producing tones similar to the
Bell ACTS tones that emulate a quarter being dropped into a payphone. This
design not only gives you both features, but leaves the box looking and
seemingly acting 'normal'.
Following are the complete steps to building the Stealth-Combo box that I
demonstrated at the Denver 2600 meetings. These instructions assume that
you have some experience working with electronics. If you don't, practice a
bit before you go cutting up your $30 tone dialer.
Parts List
One (1) Radio Shack 33-Memory Tone
Dialer (Cat. No. 43-146)
Two (2) Radio Shack Experimenter's
Mercury Bulb Switches (Cat. No. 275-040)
One (1) 6.50 Mhz Sub-Miniature
Crystal (Don't use 6.5536, its too big)
Three (3) AAA batteries
Solder
Stranded insulated wire no larger than 22 gauge
Electrical Tape
Recommended Tools
Soldering Gun of 20 watts or less
Small Philips Scewdrivers
Needle Nose Pliers
Wire Strippers
Wire Cutters
Exacto Knife
Epoxy or super glue
Steps
1. Remove the 6 screws securing the back of the Tone
Dialer to the front. Four of the screws are underneath
the battery cover.
2. Gently pry off the back being careful not to break
the four wires that connect the speaker to the circuit
board. Lay the back cover to the side of the dialer. You
should now be looking onto the back of the dialer's
circuit board.
3. Locate the original crystal (silver cylinder) on left
side of the circuit board. Carefully cut the crystal off
the circuit board as close to board as possible. Use
needle nose pliers to pull the crystal loose as it is
held in place with rubber cement. Be careful not to
crush the crystal!
4. Measure out 2 pieces of wire that are long enough to
go from the original crystal solder points, around the
edge of the dialer, to a point on the lower right side
of the circuit board. Solder one end of the wire to the
lower original crystal solder point and the other end to
a lead on the original crystal (keep the leads on the
crystals as short as possible). Solder the other wire to
the other lead on the crystal but _not_ to the circuit
board. Leave it hanging for now. Use tape to insulate
the crystal's leads.
5. Route the wires around the edge of the circuit board
on the _underside_ of the circuit board. You may have to
remove the circuit board to route this sucessfully. The
circuit board is held in place by 6 philips screws down
the middle of the board. Glue or tape the crystal into
place on the lower right side of the circuit board on
the underneath side (the keypad side). This will leave
us more room on the circuit board for the switches.
6. Locate four green capacitors on left edge of the
circuit board. Cut off the second one from the bottom as
close to the circuit board as possible. Important! Make
note of which lead on the capacitor went to which solder
point. Unlike crystals, capacitors are directional and
if you reverse the current, it will fry.
7. Glue or tape the capacitor to the empty spot on the
upper right side of the circuit board next to the LED.
8. Solder wires from the leads on the capacitor to the
original solder points of the capacitor. Run the wires
along the edge of the circuit board and insulate the
capcitor's leads with tape. You have now moved the
capacitor and made room for the first switch.
9. Glue or tape the first switch on the left side of the
circuit board where the capacitor used to be. Carefully
push the upper two green capacitors to the right to help
make room for the first switch. Orientate the switch's
leads down.
10. Solder the free end of the wire that runs to the
original crystal to one of the leads on the mercury
switch. Solder a wire from the other lead of the mercury
switch to the upper solder point of the original
crystal. The circuit should now go from the upper solder
point through the switch to the original crystal and
back to the lower solder point.
11. Test your work by putting the batteries in the
dialer holding the slide switch which turns on the
dialer in the on posistion. The LED <em>should</em> come
on. If it doesn't, check your work. Make sure that the
circuit is complete and the leads aren't grounding on
anything. Hold the dialer in an upright position while
holding the switch on and press some buttons. You should
hear touchtones. If not, make sure you haven't broken
any of the wires to the speakers.
12. Locate the yellow capacitor on the lower right side
of the circuit board. Gently pry the capacitor loose
with needle nose pliers and flip the capacitor over.
Insulate the leads of the capacitor with tape so that it
doesn't come in contact with the resistors which it is
now partially laying on. This will leave a nice open
spot on the circuit board for the rest of our mods.
13. Look at the back cover of the dialer. You will
notice that on the lower left side of the back cover is
some space about the size of a crystal. How convenient!
Remove the small screen on the lower left side that
covers a small opening in the cover.
14. Glue the new crystal into the spot where the screen
was with the leads facing out. The crystal will stick
out the hole a little bit, but that won't hurt anything.
15. Glue or tape the mercury switch in the space to the
right of it with the leads oriented up.
16. Solder wire from the new crystal to one of the leads
of the mercury switch. Solder a wire from the other lead
of the new crystal to the lower solder point of the
original crystal. Make the wire to the solder point as
short as possible with the case open. Insulate the leads
with tape.
17. Solder a wire from the remaining lead on the second
mercury switch to the upper solder point of the original
crystal.
18. Test your dialer once more. This time hold the
switch in the on position while the dialer is upside
down and press the keys. You should here the touch-tones
in a much higher key now.
19. If everything has tested out, then close up the box.
This is probably the most difficult step of all. You
must have the mercury switches located just right, or it
won't close. Also you must place the wires which run
from the back cover away from the the components in
order to optimize space. Carefully close the box, but be
warned, it takes quite a bit of pressure to get the box
closed. You may want to have a friend help you hold it
closed while you screw the screws back in. You may break
a switch or two before you get it right. Be very careful
with any spilled mercury since as Karb0n once told me,
"Dude! That shit will make you go insane!" You must get
the case closed all the way, or the on switch will not
make contact. This step can be very frustrating, but
once you get it closed _and_ working, don't ever open it
again!
(C)opywrong 1994, DeadKat Inc.
All wrongs denied.
FINDING A 6.5xxx crystal
Any 6.5 crystal will work in a tone dialer, whether it
be 6.5 or 6.5536 or whatever. Here are a few places to
order crystals from:
Radio Shack. They will insist that they don't carry them
but you have to tell them they need to special order it
from their catalog. Make the guy search for it until he
finds it. The crystal costs around $7 and takes about
two weeks to arrive either at the store or in your
mailbox.
Mouser Electronics. Their number is 1-800-346-6873 and
they cost about $2.00 apiece. Ask for stock #332-1066
which is a 6.5536MHz crystal.
UPDATE: I got some e-mail from Chazer who says that the
#332-1066 has been discontinued and replaced with stock
#520-HCA655-12 so try asking for that if the other one
appears unavailable.