LDT LS-DEC-DR-B Light Signal Decoder Instruction Manual
- October 30, 2023
- LDT
Table of Contents
- LS-DEC-DR-B Light Signal Decoder
- Introduction:
- Safety Instructions
- Product Information: Littfinski DatenTechnik (LDT) Light-Signal Decoder
- Product Usage Instructions: Littfinski DatenTechnik (LDT) Light-Signal
- Set-Up:
- Assembly list:
- Soldering instruction
- General installation information
- Final assembly
- Warranty
- References
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
LS-DEC-DR-B Light Signal Decoder
Introduction:
You have purchased the Light-Signal Decoder kit LS-DEC for your model railway supplied within the assortment of Littfinski DatenTechnik (LDT).
- The LS-DEC kit is a high quality product which is easy to assemble.
We are wishing you having a good time for assembling and application of this product.
General
Tools required for the assembly
Please assure that the following tools are available:
- a small side cutter
- a mini soldering iron with a small tip
- solder tin (if possible 0,5mm diameter)
Safety Instructions
- We designed our devices for indoor use only.
- All electrical and electronic components included in this kit shall be used on low voltage only by using a tested and approved voltage transducer (transformer). All components are sensitive to heat. During soldering the heat shall be applied for a very short period only.
- The soldering iron develops a heat up to 400°C. Please keep continual attention to this tool. Keep sufficient distance to combustible material. Use a heat resistant pad for this work.
- This kit consist of small parts which can possibly be swallowed from children. Children (especially under 3 years) shall not participate on the assembly without supervision.
Product Information: Littfinski DatenTechnik (LDT) Light-Signal Decoder
The Littfinski DatenTechnik (LDT) Light-Signal Decoder is a product designed for use with light signals that have LED lights. It is part of the Digital Professional Series and has a part number of 516011. This product is also known as LS-DEC-DR-B and has a red point or label DR.
Product Usage Instructions: Littfinski DatenTechnik (LDT) Light-Signal
Decoder
To use the Littfinski DatenTechnik (LDT) Light-Signal Decoder, follow the
assembly instructions provided in the user manual. This product comes as a
kit, so it will need to be assembled before use. Once assembled, connect the
light signal with LED lights to the decoder according to the instructions
provided.
Once connected, the Littfinski DatenTechnik (LDT) Light-Signal Decoder will
allow you to control the light signal using digital commands. Consult the user
manual for further instructions on how to operate the decoder and light
signal.
For digital control of:
- up to four signals.
- for LED light signals with common anodes or common cathodes.
Realistic operation of the signal aspects by implementing dimming function and
dark phase between the switching of the signal aspects.
This product is not a toy! Not suitable for children under 14 years of age!
The kit contains small parts, which should be kept away from children under 3!
Improper use will imply the danger of injury due to sharp edges and tips!
Please store this instruction carefully.
Set-Up:
For the board assembly please follow exact the sequence of the below assembly
list. Cross each line off as done after completing the insertion and the
soldering of the respective part.
For the diodes please keep special attention to the correct polarity (marked
line for the cathode).
With reason to different makes of electrolytic capacitors, you will find
different markings of the polarity. Some are marked with “+” and some are
marked with “-“. Each capacitor has to be assembled to the board that the
marking on the capacitor is in correspondence with the marking on the pc-
board.
Resistor networks are marked for assembly with a printed circle or a square at one end. Insert this component that way that the marking corresponds with the marking between the first and second bore on the pc board. Additionally has been the first bore marked at the pc-board with a “1”.
Integrated circuits (ICs) are either marked with a half-round notch on one end or a printed point for the correct mounting position. Push the IC
s into
the correct socket assuring that the notch or the printed point is
corresponding to the half-rounded marking on the pc-board.
Please attend to the sensitivity of the IC`s to electrostatic discharge which
will cause immediate damage of the IC. Before touching those components please
discharge yourself by contacting an earthed metal (for example an earthed
radiator) or work with an electrostatic safety pad.
Three 3-pole clamps and one 2-pole clamp each have to be connected to 2 clamp
blocks of 11 poles each before assembly.
Assembly list:
Pos. | Qty. | Component | Remarks | Ref. | Done |
---|---|---|---|---|---|
1 | 1 | Pc-board | |||
2 | 2 | Diode 1N4003 | attend to the polarity! | D1, D2 | |
3 | 1 | Diode 1N5819 | attend to the polarity! | D3 | |
4 | 5 | Networks 4*330Ohm | attend to the polarity! | R8..R12 | |
5 | 2 | Resistors 1,5kOhm | brown-green-black-brown | R1, R2 | |
6 | 3 | Resistors 18kOhm | brown-gray-black-red | R3, R4, R5 | |
7 | 1 | Resistor 220kOhm | red-red-black-orange | R6 | |
8 | 1 | Resistor 1MOhm | brown-black-black-yellow | R7 | |
9 | 3 | Capacitors 100nF | 100nF = 104 | C3, C4,C5 | |
10 | 1 | Pin plug bar | J1, J2,J3 | ||
11 | 1 | IC-socket 28poles | IC1 | ||
12 | 2 | IC-sockets 8poles | IC2, IC4 | ||
13 | 1 | IC-socket 6poles | IC3 | ||
14 | 1 | Resonator 16MHz | CR1 | ||
15 | 2 | Electrolytic cap. 220uF/35V | attend to the polarity! | C6, C7 | |
16 | 1 | Coil 330uH | gold-brown-red-red | L1 | |
17 | 1 | Push button | S1 | ||
18 | 4 | Clamps 2-poles | KL1..KL4 | ||
19 | 6 | Clamps 3-poles | build blocks before assy´! | KL5..KL10 | |
20 | 1 | IC: Z86E3016 | attend to the polarity! | IC1 | |
21 | 1 | IC: 24C01 | attend to the polarity! | IC2 | |
22 | 1 | IC: 4N25 or CNY17 | attend to the polarity! | IC3 | |
23 | 1 | IC: LM2574 | attend to the polarity! | IC4 | |
24 | final control |
Soldering instruction
Provided you have no special experience in soldering electronic components please read first this soldering instruction before starting the job. Soldering has to be trained!
- Never use additional fluxes for soldering electronic circuits which contain acids (e.g. zinc chloride or ammonium chloride). Those can destroy components and printed circuits when not washed off completely.
- As soldering material only lead-free soldering tin with a rosin core for fluxing should be used.
- Use a small soldering iron with max 30 Watt heating power. The solder tip shall be free from scale to assure an excellent heat transfer to the area to be soldered.
- The soldering shall be performed on a speedy way because a long heat transfer can destroy the components. Too much or too long heating can take off the copper pads and copper tracks from the board.
- For a good soldering, a well-tinned solder tip has to be brought in contact to the copper pad and the component wire at the same time. Simultaneously a little solder-tin shall be applied for heating up. As soon as the solder-tin starts melting the tin wire has to be taken away. Just wait until the tin has well wetted the pad and the wire and take the soldering iron away from the soldering area.
- Make sure not to move the just soldered component for about 5 seconds after removing the soldering iron. This should create a silver-shining faultless soldering joint.
- For a faultless soldering joint and well-done soldering is a clean non-oxidized soldering tip absolutely required. It is not possible to perform a sufficient soldering joint with a dirty soldering tip. Therefore please clean the soldering tip from excessive solder-tin and dirt by using a wet sponge or a silicone cleaning pad after each soldering process.
- After completion of the soldering, all connection wires have to be cut off directly above the soldering joint by using a side cutter.
- By soldering semiconductors (transistors, diodes), LED
s and IC
s is it very important never to exceed the soldering time of 5 seconds to prevent the destruction of the component. It is absolutely required to attend to the correct polarity of the component before starting the soldering process. - After the board assembly carefully control the pc-board about the correct insertion of the components and the correct polarity. Please check if no connections or copper tracks are accidentally short circuited by soldering tin. This can not only result to the malfunction of the module but also result to the destruction of expensive components.
- Please take into account that improper soldering joints, wrong connections, faulty operation or wrong board assembly is not a matter within our sphere of influence.
General installation information
The contact wires of resistors and diodes to be assembled in a lying position
shall be bent in accordance to the raster distance into a right angular
position and assembled into the specified bores (in accordance to the board
assembly plan or the assembly markings). To prevent that the components will
not fall out by turn-over the pc-board please bend the connection wires about
45° apart and solder them carefully to the copper pads on the rear side of the
board. Finally the excessive wires shall be cutted off with a small side
cutter.
The resistors in the supplied kits are metal-foil resistors. Those have a
tolerance of 1% and are marked with a brown “tolerance ring”. The tolerance
ring can be identified by the larger margin distance respectively the larger
distance to the other four marking rings. Normally there are five color rings
on the metal-foil resistors. To read the color code you have to locate the
resistor that way that the brown tolerance ring will be on the right side. The
color rings will be red now from left to right!
Please take care to assemble diodes with the correct polarity (position of the
cathode marking). Take care about a very short soldering time! The same will
apply to the transistors and the integrated circuits (IC`s). The flat side of
the transistors has to correspond with the marking on the pc-board.
The transistor legs should never be assembled in a crossed position. Further,
those components should have a distance of about 5mm to the board. Attend to
the short soldering time to prevent damage of the component by excessive heat.
Capacitors shall be assembled into the respective marked bores, the wires to
be bent a little apart and careful soldered to the copper pad. By the assembly
of electrolytic capacitors (electrolytic cap) it has to be attended to the
correct polarity (+,-)! Wrong-way soldered electrolytic capacitors can explode
during application! Therefore is it very important to check the correct
polarity two- or even better three times. In addition it has to be attended to
the correct capacitor values, e.g. n10 = 100pF (not 10nF!).
A careful and clean assembly will drastically reduce the possibility that
anything will not be incorrect function. Check every step and every soldering
joint two times before carrying on! Attend closely to the assembly list!
Perform the described step not different and do not skip any step! Mark each
step as done at the foreseen column after assembly and careful check.
Take your time. Private work is no piecework because the time for careful
assembly work is much less than an extensive fault diagnosis.
Final assembly
Sockets and integrated circuits (IC´s) of the kits will be supplied on a piece
of foam to assure safe transport.
This foam shall never be used below or between components as this foam is
electrical conductive.
In case the kit will be taken into operation the conductive foam can produce a
short circuitry and destroy the complete kit. Anyhow the function of the
module will not be as expected.
Warranty
As we have no influence to the proper and correct assembly we have to limit
our warranty to the complete supply and the faultless quality of the
components.
We guarantee the function of the components in accordance to the identified
values within a non-assembled condition of the parts and the compliance of the
technical data of the circuit by attending to the respective soldering
instruction and the specified start of operation of the module including
connection and operation.
Further demands are not accepted.
We are not taking over any warranty nor any liability for any harm or
sequential damage connected to this product.
We reserve our right for a repair, rework, supply of replacement or refund of
the purchase price.
The following criteria will result to a non-repair respectively to a lost of
right to claim under guarantee:
- if acid-containing soldering tin or fluxes with corrosive content and others have been used
- if the kit has been improper soldered or assembled
- by alterations or repair-trials on the device
- by own circuit amendments
- by construction of non-intended improper displacement of components, free wiring of components etc.
- application of other non-original kit-components
- by damaging of copper tracks or soldering copper pads on the board
- by the wrong assembly and the sub-sequential damages
- overloading the module
- by damages caused by the intervention of foreign persons
- by damages caused by disregarding the operation manual respectively the connection plan
- by connecting a wrong voltage respectively a wrong current
- by wrong polarity connection of the module
- by wrong operation or damages caused by negligent usage or abuse
- by defects caused by bridged or wrong fuses.
All such cases will result to a return of the kit to your expenses.
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