Difference between revisions of "Category:Function moduls, Function decoders"

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[[File:dc-car5.jpg|420px|thumb|right|Function modul]]
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[[File:FB Switch Bestueckung Digital.png|390px|thumb|right|Function modul]]
[[File:lichtanaus.png|430px|thumb|right|Light on / off]]
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[[File:lichtanaus.png|400px|thumb|right|Light on / off]]
 
==Function Modules==  
 
==Function Modules==  
 
===General===
 
===General===
A function module transmits commands to a DC-Car Decoder by means of a short ranche IR communication (10-20cm).<br>
+
A function module transmits commands to a DC-Car decoder by means of a short range IR communication (10-20cm).<br>
 
There are always 8 outputs available.<br>
 
There are always 8 outputs available.<br>
By using a dipswitch 10 different module types are available<br>
+
By using a dip switch 10 different module types are available<br>
 
Supply voltage can be 12V - 16V AC or 12 - 16V DC<br>
 
Supply voltage can be 12V - 16V AC or 12 - 16V DC<br>
 
The outputs offer a current of 1A<br>
 
The outputs offer a current of 1A<br>
Line 15: Line 15:
 
Stop module means all 8 outputs sending a stop signal
 
Stop module means all 8 outputs sending a stop signal
  
 +
<br>
 +
 +
<table>
 +
<tr valign="top">
 +
<td>
 
===Function Module A===
 
===Function Module A===
  
Line 27: Line 32:
 
7 = Speed at speed step 14<br>
 
7 = Speed at speed step 14<br>
 
8 = Speed at speed step 28<br>
 
8 = Speed at speed step 28<br>
 
+
</td>
 +
<td>&nbsp; &nbsp; &nbsp;</td>
 +
<td>
 
===Function Module B===
 
===Function Module B===
  
Line 40: Line 47:
 
7 = Front-flasher OFF<br>
 
7 = Front-flasher OFF<br>
 
8 = Speed at speed step 28<br>
 
8 = Speed at speed step 28<br>
 
+
</td>
 +
</tr>
 +
</table>
 +
<table>
 +
<tr valign="top">
 +
<td>
 
===Function Module C===
 
===Function Module C===
  
Line 54: Line 66:
 
7 = Speed at speed step 10<br>
 
7 = Speed at speed step 10<br>
 
8 = Speed at speed step 21<br>
 
8 = Speed at speed step 21<br>
 
+
</td>
 +
<td>&nbsp; &nbsp; &nbsp;</td>
 +
<td>
 
===Function Module D ===
 
===Function Module D ===
 
'''Automatic parking'''<br>
 
'''Automatic parking'''<br>
Line 69: Line 83:
 
7 = Drive / accelerate with direction indicators on the right<br>
 
7 = Drive / accelerate with direction indicators on the right<br>
 
8 = Driving / accelerating with hazard lights<br>
 
8 = Driving / accelerating with hazard lights<br>
 
+
</td>
 +
</tr>
 +
</table>
 +
<table>
 +
<tr valign="top">
 +
<td>
 
===Function Module E===
 
===Function Module E===
 
 
'''Bus automatic'''<br>
 
'''Bus automatic'''<br>
 
Dip switch 5 must be set ON<br>
 
Dip switch 5 must be set ON<br>
 
<br>
 
<br>
Commands E2 - E7 are only executed by vehicles that have been configured as vehicle types 13, 14 or 15 in CV100!<br>
+
Commands E2 - E7 are only executed by vehicles that have<br>
 +
been configured as vehicle types 13, 14 or 15 in CV100!<br>
 
1 = Speed at speed step 0 (Stop)<br>
 
1 = Speed at speed step 0 (Stop)<br>
 
2 = Bus stop, direction indicators OFF, interior lighting OFF<br>
 
2 = Bus stop, direction indicators OFF, interior lighting OFF<br>
Line 83: Line 102:
 
(Flashing time adjustable in CV106)<br>
 
(Flashing time adjustable in CV106)<br>
 
6 = Bus leaves with speed step as set in CV105 and direction indicators left<br>
 
6 = Bus leaves with speed step as set in CV105 and direction indicators left<br>
7 = Arrival at the bus stop with speed step as set in CV102 and direction indicators right (flashing time adjustable in CV101)<br>
+
7 = Arrival at the bus stop with speed step as set in CV102 and <br>
 +
direction indicators right (flashing time adjustable in CV101)<br>
 
8 = Speed at speed step 0 (Stop)<br>
 
8 = Speed at speed step 0 (Stop)<br>
 
+
<br>
 +
</td>
 +
<td>&nbsp; &nbsp; &nbsp;</td>
 +
<td>
 
===Function Module F===
 
===Function Module F===
  
Line 99: Line 122:
 
7 = Switch OFF rear IR LEDs<br>
 
7 = Switch OFF rear IR LEDs<br>
 
8 = Switch ON rear IR LEDs<br>
 
8 = Switch ON rear IR LEDs<br>
 
+
</td>
 +
</tr>
 +
</table>
 +
<table>
 +
<tr valign="top">
 +
<td>
 
===Function Module G===
 
===Function Module G===
  
'''Functions for emergency vehicles'''<br>
+
'''Emergency vehicles'''<br>
 
Dip switch 7 must be set ON<br>
 
Dip switch 7 must be set ON<br>
 
<br>
 
<br>
Line 113: Line 141:
 
7 = Speed in speed step 14<br>
 
7 = Speed in speed step 14<br>
 
8 = Speed in speed step 28<br>
 
8 = Speed in speed step 28<br>
 +
</td>
 +
<td>&nbsp; &nbsp; &nbsp;</td>
 +
<td>
  
 
===Function Module H===
 
===Function Module H===
Line 126: Line 157:
 
7 = Speed at speed step 14<br>
 
7 = Speed at speed step 14<br>
 
8 = Speed at speed step 28<br>
 
8 = Speed at speed step 28<br>
 +
</td>
 +
</tr>
 +
</table>
 +
<table>
 +
<tr valign="top">
 +
<td>
  
 
===Function Module I===
 
===Function Module I===
for Remote control<br>
+
'''Remote control'''<br>
 +
All switches must be set OFF<br>
 +
<br>
 +
1 = Time-controlled stop (programmed via CV108) direction indicator OFF <br>
 +
2 = Drive/accelerate after stop (time is out) with speed step from <br>
 +
CV110 (z.B. 1) direction indicator OFF <br>
 +
3 = Speed +2 (accelerate CV 98)<br>
 +
4 = All lights OFF <br>
 +
5 = Direction indicator left (with CV27=64 direction indicator <br>
 +
right + left (same time) = hazard lights possible)<br>
 +
6 = Direction indicator right (with CV27=64 direction <br>
 +
indicator right + left (same time) = hazard lights possible)<br>
 +
7 = Head light 1 (with CV60 light 1, 2, 3 and 4 at the same time possible)<br>
 +
8 = Beacon lights and front flashers with siren <br>
 +
(alternative: switch to continuous light for another two lights)<br>
 +
</td>
 +
<td>&nbsp; &nbsp; &nbsp;</td>
 +
<td>
  
===Function Module J===
+
===Function Module J 1+2===
The New Functions with MF3, MF4 and MF5 Ports<br>
+
''' MF3, MF4 and MF5 functions'''(from 8.2016)<br>
(8.2016)<br>
+
Dip switch 1 + 2 must be set ON<br>
 +
<br>
 +
1 = Multi-function output (MF3) ON<br>
 +
2 = Multi-function output (MF3) OFF<br>
 +
3 = Multi-function output (MF4) ON<br>
 +
4 = Multi-function output (MF4) OFF<br>
 +
5 = Multi-function output (MF5) ON<br>
 +
6 = Multi-function output (MF5) OFF<br>
 +
7 = Speed at speed step 0 (Stop)<br>
 +
8 = Speed at speed step 0 (Stop)<br>
  
  
'''standard collection'''<br>
+
</td>
 +
</tr>
 +
</table>
 +
<table>
 +
<tr valign="top">
 +
<td>
 +
===Function Module K 1+3===
 +
</td>
 +
<td>&nbsp; &nbsp; &nbsp;</td>
 +
<td>
 +
===Function Module L 1+4===
 +
</td>
 +
</tr>
 +
</table>
 +
<table>
 +
<tr valign="top">
 +
<td>
 +
===Function Module M 1+5===
 +
</td>
 +
<td>&nbsp; &nbsp; &nbsp;</td>
 +
<td>
 +
===Function Module N 1+6===
 +
</td>
 +
</tr>
 +
</table>
 +
<table>
 +
<tr valign="top">
 +
<td>
 +
===Function Module O 1+7===
 +
</td>
 +
<td>&nbsp; &nbsp; &nbsp;</td>
 +
<td>
 +
===Function Module P 1+8===
 +
</td>
 +
</tr>
 +
</table>
 +
<table>
 +
<tr valign="top">
 +
<td>
 +
===Function Module Q 2+3===
 +
</td>
 +
<td>&nbsp; &nbsp; &nbsp;</td>
 +
<td>
 +
===Function Module R 2+4===
 +
</td>
 +
</tr>
 +
</table>
 +
<table>
 +
<tr valign="top">
 +
<td>
 +
===Function Module S 2+5===
 +
</td>
 +
<td>&nbsp; &nbsp; &nbsp;</td>
 +
<td>
 +
===Function Module T 2+6===
 +
</td>
 +
</tr>
 +
</table>
 +
<table>
 +
<tr valign="top">
 +
<td>
 +
===Function Module U 2+7===
 +
</td>
 +
<td>&nbsp; &nbsp; &nbsp;</td>
 +
<td>
 +
===Function Module V 2+8===
 +
</td>
 +
</tr>
 +
</table>
  
  
===Remote control mode I (all off)===
 
All links (jumpers) or switches OFF
 
Now at the outputs the commands of a mobile transmitter are available<br>
 
  
'''Collection as mobile transmitter:'''
 
'' the chip has been collected with the functions of the different modules. The letter marks the module, the number its output connector.''<br>
 
D1 time-controlled stop (programmed via CV108) blinker OFF <br>
 
D5 run-up after stop (time is out) with drive position from CV110 (z.B. 1) blinker OFF <br>
 
C5 speed +2 (accelerate CV 98)<br>
 
H2 all lights OFF <br>
 
A4 blinker left (with CV27=64 blinker right + left (same time) = anti-collision-lights possible)<br>
 
A5 blinker right (with CV27=64 blinker right + left (same time) = anti-collision-lights possible)<br>
 
A2 running light 1 (with CV60 light 1, 2, 3 and 4 at the same time possible)<br>
 
H6 flashing blue-lights and front-flashers with siren (alternative: switch to continuous light for another two lights)<br>
 
 
 
===Function Module J (Dipswitch 1+2)===
 
up 1.Sep.2016
 
'''Additional lights'''<br>
 
Dipswitch 1+2 must be set ON<br>
 
 
1 = (MF3) ON<br>
 
2 = (MF3) OFF<br>
 
3 = (MF4) ON<br>
 
4 = (MF4) OFF<br>
 
5 = (MF5) ON<br>
 
6 = (MF5) OFF<br>
 
7 = Speed at speed step 0<br>
 
8 = Speed at speed step 0<br>
 
 
 
 
==Function Module SW==
 
This module combines the functions of all modules in one.<br>
 
All links (jumpers) or switches 1 - 8 OFF: all outputs transmit drive position 0 (8 times stop module)<br>
 
All links (jumpers) or switches 1 - 8 ON: 8 mobile transmitter commands<br>
 
<br>
 
'''Link(jumper) or switch "ON": ''' <br>
 
0 = stop no link<br>
 
1 = FB-A      link 19-9<br>
 
2 = FB-B link 19-8<br>
 
3 = FB-C link 19-7<br>
 
4 = FB-D link 19-6<br>
 
5 = FB-E link 19-5<br>
 
6 = FB-F link 19-4<br>
 
7 = FB-G link 19-3<br>
 
8 = FB-H link 19-2<br>
 
all = mobile transmitter mode<br>
 
1 and 2        link 19-9 and 19-8
 
 
 
<br>
 
 
==IR-LED on/in the street ==
 
==IR-LED on/in the street ==
  
Line 205: Line 285:
  
 
The LEDs are connected to the same connector, each ussing its own series resistor.
 
The LEDs are connected to the same connector, each ussing its own series resistor.
 
==Mobile Transmitter SW==
 
 
Using a more complex circuit, more commands of the SW function module are usable.
 
 
[http://www.ciservice-ilchmann.de/forum_modellbahn/viewtopic.php?t=521&highlight= Sample]
 
 
For complexity and error rate are to high for self-construction, our mobile transmitters are produced in series<br>
 
 
<br>
 
<br>
Actually tthe first upgrades are available:<br>
 
* charge connector is designed for 11 - 13V<br>
 
on the other hand the charge connector delivers low voltage/current so it can be used for testing LED<br>
 
  
* this connector can be extended for use as a continuity tester<br>
+
==Remote control==
LED test function is still available using this feature but another LED shows continuity<br>
+
  
* solder a phototransistor to a plug and plug this into the jack
+
Instead of function module I:<br>
when the phototransistor is lighted, the LED of the continuity tester will glow<br>
+
To make it easy for you we produce a battery powered remote control: MF plus.<br>
So you can check the IR-signals of the DC-Car System anytime<br>
+
The Plus version has build in test functions which can be used with the optional test set. These test functions have proved to be very usefull when building vehicles.<br>
 +
You can test polarity and working of LEDs as well measuring short circuits.<br>
 +
With the foto transistor (include in the set) your able to check the working of the IR LEDs at the back of the vehicles as well IR signals along the road.<br>
 +
And with the remote control it self your able to test the fototransistors at the front and the correct operation of the decoder and vehicle.<br>
  
*possible extensions<br>
+
==Function decoder==
with a built-in DC06 decoder, all signals could be shown by indicator lamps/LED<br>
+
[[File:FB Switch Bestueckung Digital.png|390px|thumb|right|Function decoder]]<br>
this wouuld enable you to check if in fact, a mixed signal is transmitted or a single signal only<br>
+
'''Using the function module in DCC mode with a digital center '''<br>
this would make the mobile transmitter to a unversal tool for the DC-Car System<br>
+
  
==Function Decoder==
+
A function module can be extended with a digital input. After extension the function module becomes a function decoder.<br>
'''Using the function module in DCC mode with a digital central '''
+
This enables switching the 8 outputs from a digital center using the addresses 1-8, (9-15), etc.<br>
A function module can be extended with a digital input<br>
+
Note: All LEDs on each output are switched ON or OFF together!
After extension with a digital input the finction module becomes a function decoder<br>
+
Especially in combination with other functions, like switching the light output makes sense.<br>
This enables switching the 8 outputs from a digital central using the addresses 1-8 (9-15)<br>
+
The decoder can be used in the same way as the module, but offers the possibility to switch the 8 outputs separately by means of 8 digital addresses.<br>
 
+
Gerade in der Kombination mit anderen Funktionen macht das Schalten des Lichtausgang Sinn.<br>
+
 
+
The decoder can be usd the same way as the module but offers switching by using 8 sequenced adresses<br>
+
  
 
<br>
 
<br>
Line 244: Line 310:
 
- central switching of light for day-/night mode<br>
 
- central switching of light for day-/night mode<br>
 
<br>  
 
<br>  
Blinkers are controlled by feedback sensors of junctions, lights are controlled by a digrital address<br>
+
Direction indicators are controlled by feedback sensors of junctions, lights are controlled by a digital addresses<br>
 +
<br>
 +
Day/night control with a function decoder other functions still can be controlled by switches<br>
 +
<br>
 +
<br>
 +
<br>
 +
<br>
 +
<br>
 
<br>
 
<br>
day/night control with a function decoder<br>
 
Tag / Nachtsteuerung mit einem Funktionsdecoder.<br>
 
other functions still can be controlled by switches<br>
 
  
[[Category:Function moduls, Function decoders]]
 
 
[[Category:Software]]  
 
[[Category:Software]]  
 
[[Category:Instructions]]
 
[[Category:Instructions]]

Latest revision as of 01:56, 22 August 2020

Function modul
Light on / off

Function Modules

General

A function module transmits commands to a DC-Car decoder by means of a short range IR communication (10-20cm).
There are always 8 outputs available.
By using a dip switch 10 different module types are available
Supply voltage can be 12V - 16V AC or 12 - 16V DC
The outputs offer a current of 1A

By using a diode-circuit with 1N400x diodes it is possible to transmit multiple commands on one IR LED.

Stop module (All switches ON)

All switches ON Stop module means all 8 outputs sending a stop signal


Function Module A

Basic Commands
Dipswitch 1 must be set ON
1 = Speed at speed step 0 (stop)
2 = headlights 1 ON
3 = headlights 1 OFF
4 = Left indicator ON
5 = Right indicator ON
6 = Indicators OFF
7 = Speed at speed step 14
8 = Speed at speed step 28

      

Function Module B

Flashing Blue light vehicles
Dipswitch 2 must be set ON
1 = Speed at speed step 0 (stop)
2 = Hazard lights on
3 = Hazard kights OFF
4 = Flashing blue-light ON
5 = Flashing blue-light OFF
6 = Front-flasher ON
7 = Front-flasher OFF
8 = Speed at speed step 28

Function Module C

Additional lights and speed
Dipswitch 3 must be set ON

1 = Light 2 ON
2 = Light 2 OFF
3 = Light 3 ON
4 = Light 3 OFF
5 = Speed + 2 steps (accelerate)
6 = Speed - 2 steps (slowdown)
7 = Speed at speed step 10
8 = Speed at speed step 21

      

Function Module D

Automatic parking
Dip switch 4 must be set ON

(Stop time adjustable with CV108)
1 = Stop without direction indicators
2 = Stop with direction indicators on the left
3 = Stop with direction indicators on the right
4 = Stop with hazard lights
Drive off with driving position as specified in CV110 (flashing time adjustable with CV109)
5 = Driving / accelerating without direction indicators
6 = Drive / accelerate with direction indicators on the left
7 = Drive / accelerate with direction indicators on the right
8 = Driving / accelerating with hazard lights

Function Module E

Bus automatic
Dip switch 5 must be set ON

Commands E2 - E7 are only executed by vehicles that have
been configured as vehicle types 13, 14 or 15 in CV100!
1 = Speed at speed step 0 (Stop)
2 = Bus stop, direction indicators OFF, interior lighting OFF
3 = Bus stop, direction indicators OFF, interior lighting ON
4 = Bus stop, direction indicators right, interior lighting ON
5 = Bus stop, alarm light ON, interior lighting ON
(Flashing time adjustable in CV106)
6 = Bus leaves with speed step as set in CV105 and direction indicators left
7 = Arrival at the bus stop with speed step as set in CV102 and
direction indicators right (flashing time adjustable in CV101)
8 = Speed at speed step 0 (Stop)

      

Function Module F

Technic
Dip switch 6 on ON

1 = Switch OFF sensors front (FTR)
2 = Switch ON sensors front (FTR)
3 = Switch OFF reed contact
4 = Switch ON reed contact
5 = Switch OFF the light sensor
6 = Switch ON the light sensor
7 = Switch OFF rear IR LEDs
8 = Switch ON rear IR LEDs

Function Module G

Emergency vehicles
Dip switch 7 must be set ON

1 = Speed at speed step 0 (Stop)
2 = Rotating beacons and front flashers ON
3 = Rotating beacons and front flashers OFF
4 = Direction indicators left ON
5 = Direction indicators right ON
6 = Direction indicators OFF
7 = Speed in speed step 14
8 = Speed in speed step 28

      

Function Module H

Standard mix
Dipswitch 8 must be set ON

1 = Speed at speed step 0 (Stop)
2 = Light 1, direction indicators, flashing lights and front flasher OFF
3 = Light 1 ON
4 = Direction indicators left ON
5 = Direction indicators right ON
6 = Rotating beacons and front flashers ON
7 = Speed at speed step 14
8 = Speed at speed step 28

Function Module I

Remote control
All switches must be set OFF

1 = Time-controlled stop (programmed via CV108) direction indicator OFF
2 = Drive/accelerate after stop (time is out) with speed step from
CV110 (z.B. 1) direction indicator OFF
3 = Speed +2 (accelerate CV 98)
4 = All lights OFF
5 = Direction indicator left (with CV27=64 direction indicator
right + left (same time) = hazard lights possible)
6 = Direction indicator right (with CV27=64 direction
indicator right + left (same time) = hazard lights possible)
7 = Head light 1 (with CV60 light 1, 2, 3 and 4 at the same time possible)
8 = Beacon lights and front flashers with siren
(alternative: switch to continuous light for another two lights)

      

Function Module J 1+2

MF3, MF4 and MF5 functions(from 8.2016)
Dip switch 1 + 2 must be set ON

1 = Multi-function output (MF3) ON
2 = Multi-function output (MF3) OFF
3 = Multi-function output (MF4) ON
4 = Multi-function output (MF4) OFF
5 = Multi-function output (MF5) ON
6 = Multi-function output (MF5) OFF
7 = Speed at speed step 0 (Stop)
8 = Speed at speed step 0 (Stop)

Function Module K 1+3

      

Function Module L 1+4

Function Module M 1+5

      

Function Module N 1+6

Function Module O 1+7

      

Function Module P 1+8

Function Module Q 2+3

      

Function Module R 2+4

Function Module S 2+5

      

Function Module T 2+6

Function Module U 2+7

      

Function Module V 2+8


IR-LED on/in the street

Mounting of the IR-LED on the site:

The IR-LED is placed in or nearby the street in such a way that the cars can "see" the IR-light, emitted by the LED and execute the transmitted function at the intended place.
The IR-LED must be adjusted in a way, that the approaching vehicles can "see" it. On a straight line the vehicles detect the desired function in a distance of approx. 5 - 15cm from the LED
Sometimes a IR-LED influences the traffic on a parallel line too. In this case you can either increase the series resistor to decrease the range of the IR-signal or mount the LED into the street in a way that its IR beam lights vertical only. If you do the second, please use LED with a wider angle of reflection. Distance of the LEDs shoul be 5 - 10cm, but it is highly recommended to test it in every single case!

When the car passes the first LED it will start slowing down - an when it reaches the second LED in most cases it is that slow,
that it can come to a stop right there.
Using cars with a significiant lag it can be neccessary to use more LEDs

The LEDs are connected to the same connector, each ussing its own series resistor.

Remote control

Instead of function module I:
To make it easy for you we produce a battery powered remote control: MF plus.
The Plus version has build in test functions which can be used with the optional test set. These test functions have proved to be very usefull when building vehicles.
You can test polarity and working of LEDs as well measuring short circuits.
With the foto transistor (include in the set) your able to check the working of the IR LEDs at the back of the vehicles as well IR signals along the road.
And with the remote control it self your able to test the fototransistors at the front and the correct operation of the decoder and vehicle.

Function decoder

Function decoder

Using the function module in DCC mode with a digital center

A function module can be extended with a digital input. After extension the function module becomes a function decoder.
This enables switching the 8 outputs from a digital center using the addresses 1-8, (9-15), etc.
Note: All LEDs on each output are switched ON or OFF together! Especially in combination with other functions, like switching the light output makes sense.
The decoder can be used in the same way as the module, but offers the possibility to switch the 8 outputs separately by means of 8 digital addresses.


- central switching of "stop" for emergency OFF
- central switching of light for day-/night mode

Direction indicators are controlled by feedback sensors of junctions, lights are controlled by a digital addresses

Day/night control with a function decoder other functions still can be controlled by switches






Subcategories

This category has the following 4 subcategories, out of 4 total.

D

F

R

S

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