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Motor comtrol

R

Robert Tracey

Jan 1, 1970
0
Hi

I am a supply teacher with a limited knowledge of electronics and have been
given a class at short notice. I have a student who wants to control a
simple 9v dc motor to make it rotate clockwise for a certain time then
anticlock for another period of time, maybe just a few seconds in each
direction. anyone have any ideas that is as simple as possible please.

thanks

Robert
 
J

John Popelish

Jan 1, 1970
0
Robert said:
Hi

I am a supply teacher with a limited knowledge of electronics and have been
given a class at short notice. I have a student who wants to control a
simple 9v dc motor to make it rotate clockwise for a certain time then
anticlock for another period of time, maybe just a few seconds in each
direction. anyone have any ideas that is as simple as possible please.

thanks

Robert

A double pole, double throw relay or switch is the simplest way to do
this.
 
B

Bob Monsen

Jan 1, 1970
0
Hi

I am a supply teacher with a limited knowledge of electronics and have
been given a class at short notice. I have a student who wants to
control a simple 9v dc motor to make it rotate clockwise for a certain
time then anticlock for another period of time, maybe just a few
seconds in each direction. anyone have any ideas that is as simple as
possible please.

thanks

Robert

It is probably just a matter of switching the leads. JP suggested a "DPDT"
switch or relay. You may not know what they are, so here is a little
tutorial on switches:

A switch has 'throws' and 'poles'. Think of those big switches you see in
the movies that they use to fire up the electric chair. That is a single
pole single throw switch. When it is up, there is no connection through
the switch. When it is down, there is a connection.

The 'pole' is the part that is always connected to the incoming line. The
'throw' is the part that is either connected or not depending on if the
switch is up or down.

If there were a connection at the top as well, so you could use it to
electrocute two people, but at different times, that would be a single
pole double throw switch, or SPDT switch.

If you were living in Texas, and needed to execute lots of people, you
could install a DPDT, or double pole double throw switch. This means there
are basically two electrically separate SPDT switches which are closed by
the same mechanical action. This actually goes on, and you can get 3pdt,
4pdt, etc, switches. You can also get what are called rotary switches,
which have more than two throws. They can also have multiple poles, and
again meaning they are stacked on top of one another and activated by the
same rotary motion, so the general naming is NpMt, where N is the number
of poles, and M is the number of throws. I guess they could use one of
these for executions in China.

Now, back to your question. You can usually reverse the direction of a DC
motor by switching the polarity. Lets call the terminals of the motor A
and B. So, with a battery, simply swapping both of the terminals makes the
motor run the other way. Now, if you hook up the terminals of the battery
to the poles of a DPDT switch, and hook up the throws to either sides of
the DC motor, so when the switch is one way, A is connected to + and B is
connected to -, and when the switch is the other way, A is connected to -
and B is connected to +, then your student will be able to run the motor
forwards and backwards by flipping the switch. Yu can get toggle switches
that are DPDT at the hardware store or electronics store.

You can also get relays that are DPDT, so when you energize the coil by
putting current through it, the throws go one way, but when you stop
putting current through the coil, the throws go the other way. However,
there are a few gotchas on using relays, so post again if you intend to do
this, and somebody can help out.
 
T

Terry Pinnell

Jan 1, 1970
0
Robert Tracey said:
Hi

I am a supply teacher with a limited knowledge of electronics and have been
given a class at short notice. I have a student who wants to control a
simple 9v dc motor to make it rotate clockwise for a certain time then
anticlock for another period of time, maybe just a few seconds in each
direction. anyone have any ideas that is as simple as possible please.

thanks

Robert


There are no doubt more elegant methods, but this should do it:
http://www.terrypin.dial.pipex.com/Images/MotorReversal.gif

It will give about 3 seconds in each direction with the component
values shown. Make R2 a variable pot or preset if you want to control
the cycle time. And alter the relative values of R1 and R2 to make
forward and reverse times different. Changing the timing capacitor
will also change the cycle time proportionally.

Also posted in alt.binaries.schematics.electronic with image attached,
under 'Motor control' (not comtrol >g>).
 
T

Terry Pinnell

Jan 1, 1970
0
Terry Pinnell said:
There are no doubt more elegant methods, but this should do it:
http://www.terrypin.dial.pipex.com/Images/MotorReversal.gif

It will give about 3 seconds in each direction with the component
values shown. Make R2 a variable pot or preset if you want to control
the cycle time. And alter the relative values of R1 and R2 to make
forward and reverse times different. Changing the timing capacitor
will also change the cycle time proportionally.

Also posted in alt.binaries.schematics.electronic with image attached,
under 'Motor control' (not comtrol >g>).

Another idea, to further simplify the sound section. Assuming you
*can* find a suitable 'sound effects greeting card', you could use
*that* as the contact separator. Paint it matt black inside and out.
Protect from rain appropriately. Insert a small piece of sponge or
other springy stuff inside. Carefully attach the card to the nylon
line. So when the snagged line pulls the card from between the metal
contacts, that now not only closes the NO switch in the circuit but
also opens the card sufficiently for its built-in sound to be
triggered. Its resting position would ideally be close to the 'eyes'
and whatever mask you build around them, but if it's dark and spooky
enough I doubt if anyone will notice a small discrepancy <g>.

Note that the 555 can source (or sink) 200 mA, so no transistor driver
should be necessary for typical relays.

Have fun!
 
S

steamer

Jan 1, 1970
0
--Get on over to parallax.com; i.e. Basic Stamp 101. Some may
say it's primitive, but it's the best documented intro to control of
electronics I've found..
 
J

Jamie

Jan 1, 1970
0
Robert said:
Hi

I am a supply teacher with a limited knowledge of electronics and have been
given a class at short notice. I have a student who wants to control a
simple 9v dc motor to make it rotate clockwise for a certain time then
anticlock for another period of time, maybe just a few seconds in each
direction. anyone have any ideas that is as simple as possible please.

thanks

Robert
find your self a LM555 timer pulse generator print.
use this timer output to drive a transistor like a
2n2222 type that will drive a simple double pole ,
double throw relay..
simply have the relay reverse the polarity when
it gets switched on from the 555 pulser..
http://cache.national.com/ds/LM/LM555.pdf
look there for the specs' and a simple Astable
operation or the 50% duty cycle osc..
just use the math below in the spec's to give the
time window needed.
P.S.
remember to use a transistor on Pin 5 from the timer
to drive the relay, most relays
 
R

Robert Tracey

Jan 1, 1970
0
Terry Pinnell said:
There are no doubt more elegant methods, but this should do it:
http://www.terrypin.dial.pipex.com/Images/MotorReversal.gif

It will give about 3 seconds in each direction with the component
values shown. Make R2 a variable pot or preset if you want to control
the cycle time. And alter the relative values of R1 and R2 to make
forward and reverse times different. Changing the timing capacitor
will also change the cycle time proportionally.

Also posted in alt.binaries.schematics.electronic with image attached,
under 'Motor control' (not comtrol >g>).

Thanks for the circuit Terry. I tried to recreate it in Crocodile Clips and
the 555 keeps blowing. I am sure the circuit is put together correctly and
I cannot see what I am doing wrong. Has this circuit been proven to work?

Regards

Robert
 
B

Bob Monsen

Jan 1, 1970
0
Thanks for the circuit Terry. I tried to recreate it in Crocodile Clips
and the 555 keeps blowing. I am sure the circuit is put together
correctly and I cannot see what I am doing wrong. Has this circuit been
proven to work?

The circuit should work, but there are a couple of issues.

First, make sure the diode points UP, from ground to the node joining the
555 output pin and the relay. It is drawn properly in the current
schematic, but it is an easy thing to screw up. The line should be on the
side of the GND. Also, make sure the power isn't reversed or something
like that. Also very easy to do, and it'll kill a 555 fairly quickly.
Ensure the connections are just like what are drawn.

Secondly, if your relay has low coil resistance, the 555 may hurt itself
trying to power it. You can help it out by using an NPN or N-MOSFET
transistor... Just use a 1k resistor from 555 output to the base of an NPN
like a 2N2222, attach its emitter to ground, and its collector to one
terminal of the coil. Attach the other terminal of the coil to 9V. Also,
keep that diode across the coil. Now, when the 555 pulls up the output,
it'll turn on the NPN, which will power the coil. When it drops output,
it'll turn off the NPN, turning off the coil.

Now, one odd thing about this circuit is that if the motor is running one
way at full steam, and you suddenly reverse the terminals, the inductance
and possibly momentum of the motor will try to force current from ground
to the 9V terminal. If the voltage source is fairly high impedance, what
will happen is that a bit of current may flow backwards through whatever
else is attached between the 9V and gnd; in this case, probably the 555.
However, if you put yet another diode pointing from ground to 9V across
the supply on the contact side (basically across the poles of the relay),
then that diode may now be the preferable path if this happens, thus
saving the 555. Another way to avoid this is to simply use a separate
battery for the motor, as Terry suggests in his schematic.

---
Regards,
Bob Monsen

Mathematics takes us still further from what is human, into the region of
absolute necessity, to which not only the actual world, but every possible
world, must conform.
- Bertrand Russell
 
B

Bob Monsen

Jan 1, 1970
0
On Wed, 12 Oct 2005 12:33:36 -0700, Bob Monsen wrote:

The line should be on the side of the GND.

No, No, No. The line is on the cathode, just like the schematic diagram.
Current flows towards the lead nearest the line.

The line lead should be connected to the 'output' side, pointing UP in
terry's schematic, the anode (without the line) should be connected to
ground.

(painfully pulls head out posterior with a minor 'popping' sound)

---
Regards,
Bob Monsen

Even the greatest of creations start from small seeds.
- Unknown
 
T

Terry Pinnell

Jan 1, 1970
0
Robert Tracey said:
Thanks for the circuit Terry. I tried to recreate it in Crocodile Clips and
the 555 keeps blowing. I am sure the circuit is put together correctly and
I cannot see what I am doing wrong. Has this circuit been proven to work?

Yep. Most likely explanation is as Bob suggested: diode the wrong way
round. And/or wrong relay connections used (maybe a NC pair!). Try
with no diode and no relay, just a DMM on the 555 output, or an LED
with 1k resistor in series, to see that astable is OK.

If the astable itself (a bog standard circuit) is not working, post a
picture as actually built - if possible a clear photo.

For the motor circuit, I'd definitely use a separate supply until it's
working OK. Then see what the effect is of sharing a single supply.
 
E

ehsjr

Jan 1, 1970
0
Robert said:
Hi

I am a supply teacher with a limited knowledge of electronics and have been
given a class at short notice. I have a student who wants to control a
simple 9v dc motor to make it rotate clockwise for a certain time then
anticlock for another period of time, maybe just a few seconds in each
direction. anyone have any ideas that is as simple as possible please.

thanks

Robert

The diagram below shows the wiring to a DPDT switch.

+-------> To
| +-----> Motor
| |
+12 -------+ | | +-----+
| | | | |
--|---|-|--|-- |
| O O | O | |
| | | | |
| +--------+ | |
| | | | |
| O O-+ O | |
--|----------- |
| |
Gnd--------+--------------+


To "automate" the forward/reverse of the motor
(I'm assuming the student just wants to demonstrate
the operation), he can drive a relatively large
circle - say 10 inch diameter. A bolt ( B ) screwed into
the circle near the edge can operate the toggle
switch, which will reverese the direction each time
it is operated:

* * ||
* * < Circle > || -------
* * ||- Motor |
* o * || -------
* * ||
* /B Nut>[]==[]==|=[]<Bolt
* */ || |
-------- ---
| Switch | | | < switch
-------- ---
Front View Edge View

The challenge for the student with this method is more
mechanical than electrical. As shown, the circle is
directly driven by the motor, but he may want to use
belt or worm drive - I dunno what his goals are.
The "certain time" mentioned in your post would require
converting rpm to time and would depend on dimensions
and ratios if speed conversion via gears or drums
is used.

With Terry's (very nice) circuit, the learning is more
electrical than mechanical.
Ed
 
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