Littfinski DatenTechnik DB-4 Digital Booster User Manual
- June 9, 2024
- Littfinski DatenTechnik
Table of Contents
- Littfinski DatenTechnik DB-4 Digital Booster
- Preface / Safety Instruction:
- DB-4 connection to an Own Track Section:
- Booster in Operation:
- Adjusting Operation Modes with Jumper:
- Addresses for Watch Dog- and On-/Off switch function:
- Watch Dog: Communication with the Model Railway Software:
- DB-4 switching On and Off via Accessory Address
- DB-4 switching On and Off via external push button
- Feedback Report for Booster-Management
- Assembly Plan of the Basic PC-board:
- References
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
Littfinski DatenTechnik DB-4 Digital Booster
The Digital Booster DB-4 provides a maximum digital current of 2.5 or 4.5 Ampere and amplifies the digital formats of Märklin-Motorola, mfx®, M4 and DCC. The DB-4 can operate with several digital command stations by using the 5-poles booster bus, the CDE booster bus or the Roco-booster bus. The Digital Booster DB-4 receives the power supply not from a classical model railway transformer but from the switched mode mains power supply DB-4 Power Supply. On this unit is the stabilized digital track voltage adjustable between 15 and 24 Volt, suitable for all track gauges. This product is not a toy! Not suitable for children under 14 years. Improper use will imply danger or injuries due to sharp edges and tips! Please store this instruction carefully.
Preface / Safety Instruction:
You have purchased the DigitalBooster DB-4 within the assortment of Littfinski
DatenTechnik (LDT) for your model railway layout. We are wishing you having a
good time using this product!
The finished module in a case comes with 24 month warranty.
- Please read the following instructions carefully. Warranty will expire due to damages caused by disregarding the operation instructions. LDT will not be liable for any consequential damages caused by improper use or installation.
- You can download this manual from our Web-Site (www.ldt-infocenter.com) at the section “Downloads” as PDF-file with colored pictures. You can open the file with the Acrobat Reader and you can make a print-out.
- Many illustrations at this manual are identified with a file name (e.g. page_937). You can find those files on our Web-Site at the section “Sample Connections” of the DigitalBooster DB-4. You can download the files as PDF-File and make a colored print at the DIN A4 format.
- Attention: Before starting the installation switch off the drive voltage by disconnecting all model railway transformer from mains and/or switch off the complete mains supply to the layout.
DigitalBooster DB-4 communication with the DiCoStation
DB-4 connection to the Digital-Command-Station or to other Booster:
The galvanic separated booster bus connections enables the application of the DigitalBooster DB-4 in connection with several command stations by using the 5-poles Boosterbus, the CDE-Boosterbus or the Roco-Boosterbus. The DB-4 is no Booster-Adapter. A change of the bus-system is impossible. The booster-bus used for the connection of the first DB-4 to the digital command station has to be used furthermore. The below table indicates the possible connections to the available command station.
| 5-poles Boosterbus| CDE- Boosterbus| Roco- Boosterbus
---|---|---|---
Control Unit| X| |
Central Station 1| X| X|
Central Station 2| X| |
Central Station 3 and 3 plus| | X|
Mobile Station 2 with Track Box| | X|
ECoS 1 (50 000)| X| X|
ECoS 2 (50 200)| X| X|
Intellibox 1| X| X|
IB-Basic| | X|
IB-COM| | X|
Intellibox 2| X| X|
Easy Control / Red Box| X| X|
DiCoStation| X| |
Key Commander| X| |
TWIN-CENTER| X| X|
Roco 10761 (multi MAUS)| | | X
Roco 10764 (multi MAUS)| | | X
Fleischmann 680801 (multi MAUS)| | | X
Roco / Fleischmann
multiZENTRALEpro
| | | X
Roco / Fleischmann z21 and Z21| | | X
Digikeijs Digicentral DR5000| | | X
PIKO Smart Control| | X|
Lenz Digital plus LZ100| | X|
Lenz Digital plus LZV200| | X|
Viessmann Commander| X| X|
DB-4 connection via the 5-poles Boosterbus:
The DigitalBooster DB-4 can be connected by use of the 5-poles booster bus
cable (order code: Kabel Booster 1m, Part-No.: 000123), to one of the command
stations as per above table or to other boosters (e.g. DB-4, DB-2, 6015, 6017,
Power 2, Power 3). The first booster shall be always connected to the command
station by use of a 5-poles booster bus cable. The second booster shall be
connected to the first one and so on.
Please connect a plug of the 5-poles booster bus cable onto the command
station or to the previous booster. The connection of the plug is correct at
the Control Unit, Intellibox, TWIN-CENTER, Märklin Booster 6017, Power 2 and
Power 3 if the direction of the cable shows to the bottom. For the Märklin
Booster 6015 is the correct position of the Boosterbus-Cable showing to the
top. The second plug of the booster bus cable has to be connected at the
DigitalBooster DB-4 to the pin bar ST1 with the marking “IN”. Please attend
that the white single wire of the 5-poles cable corresponds to the white
marking at the pin bar ST1. The plug position of the 5-poles booster bus cable
is correct on the DigitalBooster DB-4 if the twisted cable has a direction
away from the booster. If a following booster shall be connected with a
5-poles booster bus cable to the DigitalBooster DB-4 this has to be done via
the pin bar ST2 (“OUT”).
DigitalBooster DB-4 connection to the command station and between each other via the 5-poles booster bus.
DB-4 connection via the CDE-Boosterbus:
If your Command Station contains a CDE-Boosterbus the connection to the
Digital Boosters DB-4 can be realized with three cables. Connect the
connection wires C, D and E of the Command Station with the clamps C, D and E
of the following DigitalBooster DB-4.
Connecting the DigitalBooster DB-4 with the Command Station via
CDE-Boosterbus and between each other The DB-4 can get as well the supply
directly from the digital output of a digital command station with integrated
Booster via the connection C and D in case there is no common booster bus
available.
Connection of the DigitalBooster DB-4 via the connection C and
D with the Mobile Station 2 and the track-box.
DB-4 connection via the Roco-Boosterbus:
With the Roco Boosterbus-Cable (Order Code: Kabel Roco 1m, Part-No.: 000136),
is it possible to connect the DigitalBooster DB-4 with the multiMAUS,
multiZENTRALEpro, z21 and Z21 or Digikeijs DR5000 command stations according
to the table or to connect the DB-4 to a Roco Booster. The first booster has
to be connected always to the command station by using a Roco Boosterbus-
Cable. The second booster has to be connected to the first one etc.
Connect the DigitalBooster DB-4 via the Roco-Boosterbus to the
digital command station and between each other
DB-4 connection to the Switched Mode Mains Power Supply DB-4- Power Supply:
The DigitalBooster DB-4 shall not get the power supply over the socket BU1 from a classical model railway transformer but from the Switched Mode Mains Power Supply DB-4-PowerSupply.
- The DigitalBooster DB-4 has been matched to the Switched Mode Mains Power Supply DB-4-PowerSupply and should be operated only together with this particular unit.
At first adjust the voltage selection switch of the DB-4-PowerSupply to a
voltage between 15 and 24 Volt. This voltage is corresponding to the digital
voltage of the DigitalBooster DB-4 for the supply to the rails.
If there are several output plugs supplied with the Switched Mode Mains Power
Supply DB-4-PowerSupply please select the plug 5.5X2.1. This plug has an
outside diameter of 5.5mm and a bore diameter of 2.1mm. The outside pole is
negative and the inner pole is positive. Please attend as well to the
instruction supplied together with the DB-4-PowerSupply.
DB-4 connection to an Own Track Section:
The DigitalBooster DB-4 is a power amplifier for your digital model railway layout. The digital current of the DigitalBooster DB-4 is available at the clamp KL1 next to the two light emitting diodes. The DB-4 supplies digital current to the own track section via this clamp. This section has to be electrical separated from the adjoining track sections because those receive their supply from the digital command station with integrated booster or from further booster.
3-Conductor Track System:
If the manufacturer of your digital command station permits a common layout
ground (“brown”) the center conductor of the 3-conductor track has to be
isolated at the cross over joints from one to the next booster electrical
circuit. The isolated center conductor gets the supply from the connection
“red” of the clamp KL1 of the DigitalBooster DB-4.
Booster separation by common layout ground with isolated center
conductor
If the manufacturer of the digital command station does not permit a common
layout ground (“brown”) it is required additionally to isolate the rails at
the cross over joints.
If the manufacturer of the digital command station stipulates mandatory the
installation of a rocker switch at the cross sections of the center conductor
this switch has to be installed. Alternative is it possible to use our Booster
Keep Separate Module BTM-SG for the cross over joints. This module separates
electrically definite the booster sections without rocker switch and provides
the possibility to drive at slow speed at the cross over sections.
Definite electrical separation of booster sections by
implementing the Booster Keep Separate Module BTM-SG.
2-Conductor Track System:
If the manufacturer of your digital command station permits a common layout
ground (“brown” or “J”) one rail of the 2-conductor track has to be isolated
at the cross over joints from one to the next booster electrical circuit. If
the manufacturer of your digital command station does not permit a common
layout ground („brown“) both rails have to be isolated at the cross over
joints.
Booster separation without common layout ground (both rails
isolated)
Alternative is it possible to use our Booster Keep Separate Module BTM-SG for
the cross over joints. This module separates electrically definite the booster
sections.
Definite electrical separation of booster sections by
implementing the Booster Keep Separate Module BTM-SG.
Booster in Operation:
All jumpers of the DB-4 are set ex-factory. The DigitalBooster DB-4 can be
used immediately at the supplied condition. The factory setting is recommended
for the first implementation of the unit. For selecting different operation
modes after the first implementation please attend to the chapter “Adjusting
Operation Modes with Jumpers”.
After switching-on the model railway layout at first the red LED of the
DigitalBooster DB-4 will glow. If the red and the green LED will alternate
flash the supply voltage has not been set correctly at the range of 15 to 24
Volt. Please check and correct the voltage setting at the DB-4-PowerSupply. If
the red LED of the DigitalBooster DB-4 will glow constantly after switching-on
the layout the DB-4 is in operation mode and can be switched-on with the key
“Go” of the digital command station. After switching-on the green LED of the
DB-4 will glow and the unit will supply digital current to the connected track
section. The DigitalBooster DB-4 will be automatically switched-off if a short
circuit will occur at the track. The green LED switches off and the red LED
will glow constant. The DB-4 will report the short circuit via the employed
booster bus to the digital command station. Those will switch to “Stop”. After
removing the short circuit you can switch-on again the digital current to the
track with the key “Go”. If the current exceeds 2.5 Ampere within the track
section the DigitalBooster DB-4 will switch-off as well and is reporting this
overload to the digital command station which will switch to “Stop”.
Adjusting Operation Modes with Jumper:
The various operation modes and functions of the DigitalBooster DB-4 can be adjusted with the jumpers J1 to J5.
Select the Maximum Digital Current to 2.5 or 4.5 Ampere:
The Jumper J5 has been set ex-factory. The DigitalBooster DB-4 supplies with this setting a maximum output current of 2.5 Ampere to the track. This limitation is suitable for the gauge N to prevent the excessive overload to tracks, vehicle wheels and current transmittal in case of a short circuit. If you use a larger and therefore mechanically and electrically more rugged gauge you can remove the jumper J5. The DigitalBooster DB-4 will now supply a maximum digital current of 4.5 Ampere to the connected track.
Select the Data Format for Watch Dog- and On-/Off switch function:
The jumper J4 has been set ex-factory. With this setting can be the Watch Dog- and On-/Off switch function controlled by your model railway software respectively via your digital command station by using the Märklin-Motorola- Data Format. If you want to use the DCC-Data Format for the WatchDog- and the On-/Off switch function please remove the jumper J4.
RailCom®*-cutout Creation or Suppression:
The RailCom®-cutout will be created if the jumper J3 has been set. If the Jumper J3 has been removed there will be no RailCom®-cutout created. The selection with jumper J3 if the DigitalBooster DB-4 shall create or suppress a RailCom®*-cutout is only possible if the data format for the WatchDog- and On-/Off switch function has been set to DCC (Jumper J4 removed).
Short Circuit Report to the Command Station (Short Report):
If the Jumper J1 “Short Report” has been set the DigitalBooster DB-4 will
report a short circuit within the connected track section via the used booster
bus to the digital command station. In this case the digital command station
will switch-off all boosters. If your model railway software includes a so
called Booster-Management this gadget can prevent that the digital command
station will switch-off the complete layout if a short circuit occurs within a
booster section. The trains will therefore stop only inside the booster
section where the short circuit has been occurred. All other booster sections
will remain in function. To initiate that the DigitalBooster DB-4 shall not
report a short circuit to the digital command station please remove the jumper
J1.
With the output “Feedback“ of the Digital Boosters DB-4 is it possible to
inform your model railway software if the tracks receive presently digital
current from the DB-4 or if the tracks are switched voltage-free caused by a
short-circuit.
Automatic Switch-On (Auto Go):
With the jumper J2 “Auto Go” is it possible to adjust the DigitalBooster DB-4 that the unit perform a continuous check every 5 seconds if the short-circuit is still present. The DigitalBooster DB-4 will supply current to the connected track section automatically if the short-circuit has been eliminated. The jumper J2 has be set for this function. The automatic switch-on function is not activated if the jumper J2 has been removed. For activating the automatic switch-on function “Auto Go” has the jumper J1 “Short Report” to be removed and therefore is the DigitalBooster DB-4 not reporting recognized short circuits to the digital command station.
Addresses for Watch Dog- and On-/Off switch function:
The Watch Dog- and the On-/Off switch function of the DigitalBooster DB-4 will
be controlled via accessory addresses (turnout addresses) which are used as
well for the switching of turnouts or signals. Accessory addresses are
combined at groups of four. The addresses 1 to 4 are forming the first group
the addresses 5 to 8 the second group etc. The highest valid four-fold address
group for the programming of the DigitalBooster DB-4 is for Märklin-Motorola
data format the group 313 to 316 and for the DCC-data format the group 1021 to
1024. From our Web-Site you can download at the section “Downloads” the file
“Four-Fold-Address Blocks” for listing all valid four-fold address groups. The
Watch Dog- and the On-/Off switch-function can be assigned to an own or as
well to a common four-fold address group. Separated address sections for the
Watch Dog- and for the On-/Off switch-function are recommended if you use
several DigitalBooster DB-4. Then is it possible to release the WatchDog-
Function of all boosters via one common address. For the On-/Off switch
function is it possible to assign for this case for each DigitalBooster DB-4
an individual address over an own four-fold address group. The address for the
Watch Dog-Function is always the first address (basic address) of a four-fold
group. The address for the On-/Off switch-function is always the third address
(basic address + 2) of the programmed four-fold group.
The following programming samples are indicating how to employ four-fold
address groups with 8 keys of a switch board. The address has been indicated
between the respective pair of keys.
The two keys red and green for each address are the two possible switch
directions of this address with reference to the turnout direction round and
straight. If you use a remote control LH100 of company Lenz Elektronik there
will be red the minus- and green the plus key.
Common Address Section:
If there will be a common four-fold address block programmed for the WatchDog-
and the On-/Off switch function the DigitalBooster DB-4 will occupy 4
accessory- or turnout addresses.
With the above table has been the DigitalBooster DB-4
programmed for the Watch Dog- and the On-/Off switch function for a common
address section of 1 to 4. With the basic address 1 of the four-fold address
block will be the Watch Dog-Function controlled. With the basic address + 2
and the address 3 as per sample will be the On-/Off switch function
controlled. The addresses 2 and 4 will not be used.
Own Address Sections:
If there will be own four-fold address groups programmed for the Watch Dog-
and On-/Off switch function there will be 8 accessory- or turnout addresses
assigned by the DigitalBooster DB-4. At the following sample the On-/Off
switch function assign the four-fold address block 1 to 4 and the Watch Dog-
Function the addresses 5 to 8. The On-/Off switch function will be controlled
by the address 3 and the Watch Dog-Function with the address 5.
Address Section Programming:
-
Switch-on your digital layout incl. DigitalBooster DB-4 (the green LED of the DB-4 will glow). Depress 1x short the key S1 next to the jumpers of the DB-4. Now the green LED flashes. This indicates that the DB-4 is in the programming mode for the address-section of the On-/Off switch-function. During the programming process is the track section which is connected to the DB-4 switched voltage free.
-
Switch now one turnout from the group of four which has been selected for the address section of the On-/Off switch function via the keyboard of the digital command station or the remote control. For programming the address section you can send as well a turnout signal via your model railway software. The transmitted data format (DCC or Märklin-Motorola) has to match the data format you have selected with the jumper J4.
Remarks: It does not matter which of the four addresses from a group you will use for programming.
If the DigitalBooster DB-4 understands the address the DB-4 will confirm the assignment by flashing the green LED a little faster. Following the green LED will flash slower again. The programming for the on-/off switch function is now completed but can repeated at any time. -
Depress now again the key S1 to come into the programming mode for the address section of the Watch Dog-Function. The red LED flashes.
-
Switch now one turnout from the group of four which has been selected for the address section of the Watch Dog-Function via the keyboard of the digital command station or the remote control. For programming the address section you can send as well a turnout signal via your model railway software. Remarks: It is possible to select for the Watch Dog-Function the same address section as you used already for programming the On-/Off switch function. But you can select as well an own four-fold address block for the Watch Dog-Function.
If the DigitalBooster DB-4 understands the address the DB-4 will confirm the assignment by flashing the red LED a little faster. Following the red LED will flash slower again. The programming for the On-/Off switch function is now completed but can be repeated at any time. Leave now the programming mode of the DB-4 by depressing again the programming key S1. The programmed addresses are now permanently stored but can be changed at any time by repeating the programming process. Now the green LED will glow and the track section which is connected to the DB-4 will get supply of digital voltage.
Watch Dog: Communication with the Model Railway Software:
If your model railway software supports the Watch Dog-Function of the DB-4 respectively our Watch Dog-Decoder WD-DEC please register in your model railway software your selected address for the Watch Dog-Function. It is always the first address (basic address) of the selected group of four.
Function:
After switching-on the DigitalBooster DB-4 is the Watch Dog-Function not
activated to enable the operation of the model railway layout eventually
without PC-control via the digital command station. The model railway software
can activate the Watch Dog-Function with the command basic address “straight”
and has to confirm always within 5 seconds with a new command basic address
“straight”. If there is no confirmation within 5 seconds the model railway
software has lost control over the model railway layout. The Digital Booster
DB-4 will switch the track voltage free and all trains will stop immediately.
The red LED of the DB-4 will flash and indicates therefore the switch-off
situation.
After a new start of the digital command station, PC and model railway
software the DigitalBooster DB-4 will react immediately to the received
commands and will supply again digital current to the tracks. If the model
railway software will be finalized the software will deactivate at first the
Watch Dog-Function with the command basic address “round” and the layout can
now operate without PC via the digital command station.
DB-4 switching On and Off via Accessory Address
The DigitalBooster DB-4 can be switched On and Off via an accessory address (turnout command). Address programming explained in chapter 6. The DigitalBooster DB-4 can be switched Off via the basic address + 2 “round” of the address block programmed for the On/Off-switch function. The DigitalBooster DB-4 can be switched On via the basic address + 2 “straight”. The On-/Off switch function via Accessory- or Turnout Address has no function if the Jumper J1 “Short Report” has been set.
Jumper J1 “Short Report”
| via command station| via accessory address
---|---|---
Stop| Go| Stop| Go
set| X| X| –| –
removed| X| X| X| X
- “X” indicates switching possible
- “-“ indicates switching not possible
DB-4 switching On and Off via external push button
The DigitalBooster DB-4 can be switched on and off with the external Stop/Go
Keys. These keys can be installed at the layout rim and used as emergency
switch-off keys.
The external Stop/Go keys are only emergency shut-down keys if the jumper J1
“Short Report” has been set. In this function can be all boosters (as well as
eventually integrated booster of the digital command station) all together
switched-off. The switching-on of all boosters can be done only with the Go-
Key of the digital command station. If the jumper J1 “Short Report” has been
removed is it possible to switch the DigitalBooster DB-4 which is connected to
the external Stop/Go keys individually On and Off.
External Stop/Go-Key connection
Jumper J1 “Short Report” set
| via command station| via ext. Stop/Go-Key
---|---|---
Stop
X| Go
X| Stop
X|
Go
–
removed| X| X| X| X
- “X” indicates switching possible
- “-“ indicates switching not possible
Feedback Report for Booster-Management
The DigitalBooster DB-4 contains a Feedback Output for the information to the model railway software if the tracks receive digital current from the DB-4 or if this has been temporarily interrupted caused e.g. by a short circuit or by an emergency shutdown.
Assembly Plan of the Basic PC-board:
Made in Europe by
Littfinski DatenTechnik (LDT)
Bühler electronic GmbH
Ulmenstraße 43
15370 Fredersdorf / Germany
Phone: +49 (0) 33439 / 867-0
Internet: www.ldt-infocenter.com
Subject to technical changes and errors. Ó 02/2022 by LDT
Märklin and Motorola are registered trademarks.
- RailCom® is a registered trademark from the company Lenz Elektronik, Giessen, Germany.