Revision as of 01:07, 6 February 2015 (view source) Jan (Talk | contribs) m (→‎Basic settings) ← Older edit		Revision as of 01:23, 6 February 2015 (view source) Jan (Talk | contribs) m (→‎Beispiele) Newer edit →
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	<br>		<br>
−	=Beispiele=	+	=Examples=
−	==Bus ohne IR-Abstandsteuerung ==	+	==Bus with IR LEDs switch off at the bus stop ==
−	Mit Hallsensor und ohne IR-Strahler in der Bushaltestelle. Innenlicht (Licht 2) zum Halt<br>	+	With Hall sensor, without IR LEDs and interior light (Light 2) at the bus stop<br>
	<table>		<table>
	<tr><td>CV100</td><td>14</td></tr>		<tr><td>CV100</td><td>14</td></tr>
	<tr><td>CV111</td><td>123</td></tr>		<tr><td>CV111</td><td>123</td></tr>
	</table>		</table>
−	Hinweis: Ein zweiter "Bus" reagiert trotzdem auf das Abstandssignal!	+	Note: A second "bus" still responds to the distance signal!
	<br>		<br>
−	==Bus mit IR-Abstandsteuerung==	+	==Bus with IR LEDs switch on at the bus stop==
−	Mit Hallsensor und mit IR-Strahler für Halt auf der Straße. Innenlicht (Licht 2) zum Halt<br>	+	With Hall sensor, with IR LEDs and interior light (Light 2) at the bus stop<br>
	<table>		<table>
	<tr><td>CV100</td><td>15</td></tr>		<tr><td>CV100</td><td>15</td></tr>
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	</table>		</table>
	<br>		<br>
−	==Gl1-46-7-Antrieb 2.4V==	+	==Gl1-46-7-Engine 2.4V==
−	Betrieb mit 2,4 Volt und einer Diode 1N4001 in der Motorleitung<br>	+	Use  of 2,4 Volt with a diode 1N4001 in series with the motor<br>
	<table>		<table>
	<tr><td>CV2</td><td>15</td></tr>		<tr><td>CV2</td><td>15</td></tr>
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	</table>		</table>
−	==Gl1-46-7-Antrieb 1.2V==	+	==Gl1-46-7-Engine 1.2V==
−	Betrieb mit 1,2 Volt<br>	+	Use of 1,2 Volt<br>
	<table>		<table>
	<tr><td>CV2</td><td>25</td></tr>		<tr><td>CV2</td><td>25</td></tr>
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	</table>		</table>
−	==Lipo-Akku mit 1.2V Motor==	+	==Lipo-Akku with 1.2V Motor==
−	PKW (Faller®-Umbau) mit Lipoakku 3.6V ohne Dioden, mit permanentem Licht<br>	+	Car (Faller®) with Lipo battery 3.6V without diodes, with permanent Light<br>
	<table>		<table>
	<tr><td>CV2</td><td>15</td></tr>		<tr><td>CV2</td><td>15</td></tr>
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	</table>		</table>
−	==Akkutest einstellen==	+	==Activating the battery testn==
	<table>		<table>
−	<tr><td>CV27</td><td>0 oder 1 </td></tr>	+	<tr><td>CV27</td><td>0 or 1 </td></tr>
−	<tr><td>CV28</td><td>3,6 Volt mit einer Diode 130</td></tr>	+	<tr><td>CV28</td><td>3,6 Volt with a diode 130</td></tr>
	<tr><td>CV28</td><td>2,4 Volt 100</td></tr>		<tr><td>CV28</td><td>2,4 Volt 100</td></tr>
	<tr><td>CV28</td><td>1,2 Volt 50</td></tr>		<tr><td>CV28</td><td>1,2 Volt 50</td></tr>
−	<tr><td>CV19</td><td>0 Auto fährt mit Fahrstufe 28 weiter Blinkt mit Schweinwerfer und Bremslicht</td></tr>	+	<tr><td>CV19</td><td>0 Vehicle drives with speed step 28, blinks with headlights and brake lights</td></tr>
−	<tr><td>CV19</td><td>16 Auto steht und blinkt mit Schweinwerfer und Bremslicht</td></tr>	+	<tr><td>CV19</td><td>16 Vehicle stops and blinks with headlights and brake lights</td></tr>
	</table>		</table>
−	Die Werte sind am besten experimentel zu ermitteln.<br>	+	The values are best determined experimentally.<br>
−	Ist der Wert zu hoch, gehen das Bremslicht und die Scheinwerfer bereits bei Steigungen oder engen Kurven an.<br>	+	If the value is too high, the brake lights and the headlights go already on slopes or tight corners.<br>
−	Ist er zu niedrig gibt es keinen "Akkualarm".<br>	+	If it is too low, there is no "battery alarm".<br>
−	CV19=0 : Fahrzeug fährt mit permanenten Licht. Der Akku unterschreitet den Grenzwert.	+	CV19=0 : Vehicle is traveling at constant light. The battery is below the limit.
−	Licht geht aus. Da dadurch die Akkuspannung wieder ansteigt erfolgt keine weitere "Lichtumschaltungen". Das Fahrzeug fährt ohne Licht weiter.<br>	+	Light goes out. Since this increases the battery voltage again no further "light switches". The vehicle starts without further light.<br>
	<br>		<br>
−	CV19=1 : kann es passieren, das das Fahrzeug anhält und der Akku sich erholt.<br>	+	CV19=1 : it may happen that the vehicle stops and the battery recovers.<br>
−	Ist die Spannung wieder hoch genug, ruckt das Auto vor.<br>	+	If the voltage is again high enough, the car jerks ago.<br>
	<br>		<br>

---

Revision as of 01:23, 6 February 2015

Die wichtigsten Einstellung beim DC-Car

What are CVs for?

With CV settings you can change the behavior of vehicles as well as the functions.

• Speed / Speed curves
• Acceleration and braking
• Lights (permanent, switching options, etc.)
• Blinking rhythms (turn signals, blue lights, headlights)
• Functions: Fir brigade vehicle automatic, Bus automatic, Light sensor, [[[Reed switch]], etc.
• Feedback battery test, code messages (DC-Car-XT), etc.

The values can be changed using:

• A digital station (programming on main POM)
• a CV-Programmer

For some values, multiple functions can be selected.
The individual values are added together.
e.g. CV27 1 battery test switch off + 2 light sensor switched off: enter value = 3

Most updated CV-List DC07 and DC08

Most updated CV-List DC07 and DC08 as PDF

Archives:
Hier you will find old lists for previous decoder types like DC01, DC02, DC03, DC04.
[CV-Liste DC04] [wo-ist-was_2009]

Basic settings

Caveat: If you have changes to many settings and you do not know what to do, first, carried out a RESET though (CV59 = 3) are .>br>
With just a few CV changes the behavior of a DC-Car's is extremely variable.
For this purpose, either a Progset is required which connectes to a digital station, communication is done via IR sensors at the front or
a CV-Programmer which communicates through the Update connector with a PC using the free CV programmer software.

There are settings for:

• Operation e.g. Lights interconnect, servo operation
  
• Behavior, for example, Braking, accelerating, flashing light timing
  
• Technical Settings e.g. Battery test, trailer connected
  
• Technical settings e.g. Address, DC-Car-Booster, PC-Transmitter
  

The most important are listed her:

0 = Factory setting
1 = Disable battery test
2 = Disable light sensor
4 = -The blue light is replaced from F5 to F3
-Front flashers is replaced from F6 to F4
-F5 and F6 don't have a function anymore
8 = Disable Reed switch

When you disable diferent functions you have to add the separate values.
The result must be programmed in CV27.
Example: Set the value 3 in the CV27, if you want to turn off the battery test and the light sensor.</td></tr>

148 3,6 Volt LIPO
132 3,6 Volt NIC/NIHM (3 cells)
099 2,4 Volt NIC/ NIHM (2 cells)
049 1,2 Volt NIC/ NIHM (1 cell)

Addresses beneath 127 are simply set.
Addresses above 127 are set with 3 parameters.
Take care: just don't use 128 while these bits setting is sensitive for malfunction.
There is a program for calculating CV values.
00 = Short DCC Addresses are used
32 = Long DCC Addresses are used

0 wait for a drive command or
1 Accelerate from speed step 1 etc.</td></tr>

CV1	Technical Setting Address up to 127
CV2	Slowest speed for speed step 1
CV5	Fastest speed for speed step 28
CV19	Soft braking and accelerating (from May 2013 software)
CV20	Activate towing and IR feedback
CV21	Activating receiver for DC-Car-Booster or DC-Car-PC-Transmitter, Servo operation
CV24	Lights permanent switched on, Headlights, Blue lights
CV27	Technical Settings Reed switch, Battery test, Light sensor etc.
CV28	Define battery test voltage settings:
CV29	Usage of long or short address
CV48	Braking by preceding vehicle
CV53	Acceleration in the lower speed steps
CV54	Acceleration in the upper speed steps
CV60	Light outputs 2, 3, 4 for driving light
CV69	Start after power on
CV98	Timing +2 or -2 speed steps
CV100	Vehicle type
	0 = General 1 = Lorry short 2 = Lorry long 3 = Lorry with trailer 4 = Trailer 5 = 6 = Agriculture (Tractor etc.) 7 = 8 = Delivery van (Sprinter usw.) 9 = Car 10 = Emergency vehicle [Transmitter is switch off at the stop] 11 = Emergency vehicle [Transmitter is switch on at the stop] 12 = 13 = Garbage truck , Post etc. 14 = Bus [Transmitter is switch off at the stop] 15 = Bus [Transmitter is switch on at the stop]
CV111	Hall sensor activated 1 or 123 with Light 2 active at the stop

Mehrere Werte gemeinsam Nutzen

Gibt es für einen CV mehrere Werte werden diese addiert.
Bit-Werte zusammenrechnen bedeutet:
Wenn bei einer CV mehrere Einstellungen möglich sind, können die "Bits" addiert werden.
z.B. bei CV24 (oder CV59)

• Lichtsensor aus =1
• Akkutest aus = 2

Macht zusammen einen Wert 3 dazu noch

• Reedschalter ingnorieren = 8

ergibt zusammen 11 als Wert für diese CV

Bei dem CV-Programmer mit der Software werden hierzu einfach mehrere Felder markiert. Das Zusammenrechnen macht das Programm.
Gleichzeitig prüft es Bedingungen ab. Das kann zur Folge haben:

• ein Fahrzeugdecoder ist für diesen CV-Wert nicht geeignet -> Update erforderlich.
• die CV-Programmer Software ist nicht auf dem neuesten Stand und bietet diese Möglichkeit noch nicht. (Update erforderlich -> Die aktuelle CV-Liste ist der Software immer einige Wochen voraus.)

Examples

Bus with IR LEDs switch off at the bus stop

With Hall sensor, without IR LEDs and interior light (Light 2) at the bus stop

CV100	14
CV111	123

Note: A second "bus" still responds to the distance signal!

Bus with IR LEDs switch on at the bus stop

With Hall sensor, with IR LEDs and interior light (Light 2) at the bus stop

CV100	15
CV111	123

Gl1-46-7-Engine 2.4V

Use of 2,4 Volt with a diode 1N4001 in series with the motor

CV2	15
CV5	120
CV48	96
CV53	50
CV54	100

Gl1-46-7-Engine 1.2V

Use of 1,2 Volt

CV2	25
CV5	160
CV48	96
CV53	25
CV54	50

Lipo-Akku with 1.2V Motor

Car (Faller®) with Lipo battery 3.6V without diodes, with permanent Light

CV2	15
CV5	70
CV24	128
CV48	96
CV53	50
CV54	100

Activating the battery testn

CV27	0 or 1
CV28	3,6 Volt with a diode 130
CV28	2,4 Volt 100
CV28	1,2 Volt 50
CV19	0 Vehicle drives with speed step 28, blinks with headlights and brake lights
CV19	16 Vehicle stops and blinks with headlights and brake lights

The values are best determined experimentally.
If the value is too high, the brake lights and the headlights go already on slopes or tight corners.
If it is too low, there is no "battery alarm".

CV19=0 : Vehicle is traveling at constant light. The battery is below the limit. Light goes out. Since this increases the battery voltage again no further "light switches". The vehicle starts without further light.

CV19=1 : it may happen that the vehicle stops and the battery recovers.
If the voltage is again high enough, the car jerks ago.

weitere Themen

CV-Programmer
DC-Car-Booster
PC-Transmitter