Difference between revisions of "RTR-MB1"

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| BulbFuncts=Up to 8 (Selective)
 
| BulbFuncts=Up to 8 (Selective)
 
| LEDFuncts=Up to 8 (Selective)
 
| LEDFuncts=Up to 8 (Selective)
| Protcols=DCC, DC
+
| Protocols=DCC, DC
 
| VSupplies=DCC or DC 5V-24V
 
| VSupplies=DCC or DC 5V-24V
 
| ISupplies=<3A (Combined)
 
| ISupplies=<3A (Combined)
 
| IFuncts=<100mA (Each)
 
| IFuncts=<100mA (Each)
 
| KeepAlive=On-Board
 
| KeepAlive=On-Board
| Scale=HO-Scale
+
| ProductScale=HO-Scale
 +
| ProductDimensions=2.84” x 0.66” x 0.55”<br /> 72mm x 17mm x 13.9mm
 
| image=RTR-MB1 Rev5 Product Picture (Top).png}}
 
| image=RTR-MB1 Rev5 Product Picture (Top).png}}
  
 
==Technical Information==
 
==Technical Information==
The RTR-MB1 from TCS is an 8-function 21-pin decoder motherboard with integrated Keep Alive® on-board. The RTR-MB1 was designed specifically to fit Athearn Ready to Roll and “Blue Box” diesel locomotives in HO-scale. This motherboard features an on-board regulated 1.5V power supply for  incandescent “rice” bulbs, and can also be used with LEDs thanks to on-board resistors. Configuration is done via solder jumpers, which is ''required'' in order for the RTR-MB1 to function. See the Lighting Wiring Instructions section below for detailed instructions.  
+
The RTR-MB1 from TCS is an 8-function 21-pin decoder motherboard with integrated Keep Alive® on-board. The RTR-MB1 was designed specifically to fit Athearn Ready to Roll and “Blue Box” diesel locomotives in HO-scale. This motherboard features an on-board regulated 1.5V power supply for  incandescent “rice” bulbs, and can also be used with LEDs thanks to on-board resistors. Configuration is done via solder jumpers, which is ''required'' in order for the RTR-MB1 to function. See the [[RTR-MB1#Lighting Wiring Instructions|Lighting Wiring Instructions]] section below for detailed instructions.  
  
 
The RTR-MB1 has been designed to meet NMRA standards, and is compatible with any NMRA-compliant 21-pin decoder with up to 8 lighting outputs, such as TCS’ WOW121 or EU821 decoders (sold  separately).  
 
The RTR-MB1 has been designed to meet NMRA standards, and is compatible with any NMRA-compliant 21-pin decoder with up to 8 lighting outputs, such as TCS’ WOW121 or EU821 decoders (sold  separately).  
Line 36: Line 37:
 
==Wiring Diagram==
 
==Wiring Diagram==
 
Shown below is the latest wiring diagram for the RTR-MB1. This diagram depicts the "Revision 5" version of the RTR-MB1, which is the current production version.
 
Shown below is the latest wiring diagram for the RTR-MB1. This diagram depicts the "Revision 5" version of the RTR-MB1, which is the current production version.
[[File:RTR-MB1 Rev5 Wiring Diagram 2024 Rev1 (Web).png|alt=RTR-MB1 Rev5 (2024) Wiring Diagram|none|thumb|800x800px|''Click to Enlarge'']]
+
[[File:RTR-MB1 Rev5 Wiring Diagram 2024 Rev1 (Web).png|alt=RTR-MB1 Rev5 (2024) Wiring Diagram|none|thumb|800x800px|''Click to Enlarge'']]The wiring diagram above uses colors for inputs, outputs, and other functions as defined in the NMRA standards for [[Support - Lighting#Decoder Wiring Color Code|Color Coded Wires]].
<br />
+
 
 +
The function output pads for F1 through F6 have options for Bulbs or LED's. Pads outlined in Black are for LED's and must be used with the 12V supply. Pads outlined in Tan are for Bulbs and can be used with either 12V or 1.5V depending on the voltage rating of the bulb. Factory models from Athearn which this motherboard were designed for typically use 1.5V light bulbs.
 +
{| class="wikitable"
 +
|''NOTE: It is possible to use both incandescent bulbs and LEDs simultaneously. To do so please continue reading to the section below for [[RTR-MB1#Lighting Wiring Instructions|Lighting Wiring]]''
 +
|}
 +
The pads labeled "V+" on both ends of the board will ''both'' output whichever voltage is selected using the jumpers in the top right of the diagram. ONLY ONE jumper may be used at once or damage will occur to the on-board power supply.
  
 
==Lighting Wiring Instructions==
 
==Lighting Wiring Instructions==
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Perform these steps below to configure the motherboard for 1.5V lighting:
 
Perform these steps below to configure the motherboard for 1.5V lighting:
  
#Solder bridge “1.5V” to “V+” as shown below: [[File:RTR-MB1 V+ Configuration (1V5).png|frameless|500x500px]]
+
Step 1: Solder bridge “1.5V” to “V+” as shown below:<br />
#Connect one wire from each bulb to “V+” OR “1.5V”
+
[[File:RTR-MB1 V+ Configuration (1V5).png|frameless|500x500px]]<br />
#To use 1.5V bulbs for headlights, you must bridge the corresponding jumper(s) for F0F and F0R shown in the diagram below: [[File:RTR-MB1 Rev5 Configuration (1V5 & Both F0).png|frameless|500x500px]]
+
Step 2: Connect one wire from each bulb to “V+” OR “1.5V”<br />
#To finish wiring the headlights, connect the second wire to the F0F and F0R pads shown in the wiring diagram.
+
Step 3: To use 1.5V bulbs for headlights, you must bridge the corresponding jumper(s) for F0F and F0R shown in the diagram below:<br />
#To add more 1.5V bulbs, connect one wire to ''either'' "V+" pad or the "1.5V" pad, then connect the second wire from each bulb to the numbered pads directly next to the “BULBS” label.
+
[[File:RTR-MB1 Rev5 Configuration (1V5 & Both F0).png|frameless|500x500px]]<br />
 +
Step 4: To finish wiring the headlights, connect the second wire to the F0F and F0R pads shown in the wiring diagram.<br />
 +
Step 5 (Optional): To add more 1.5V bulbs, connect one wire to ''either'' "V+" pad or the "1.5V" pad, then connect the second wire from each bulb to the numbered pads directly next to the “BULBS” label.
  
 
{| class="wikitable"
 
{| class="wikitable"
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Perform these steps below to configure the motherboard for 1.5V lighting:
 
Perform these steps below to configure the motherboard for 1.5V lighting:
  
#Solder bridge “12V” to “V+” as shown below: [[File:RTR-MB1 V+ Configuration (12V).png|frameless|500x500px]]
+
Step 1: Solder bridge “12V” to “V+” as shown below:<br />
#Connect one wire from each bulb to “V+” OR “12V”
+
[[File:RTR-MB1 V+ Configuration (12V).png|frameless|500x500px]]<br />
#To use 12V bulbs for headlights, you must bridge the corresponding jumper(s) for F0F and F0R shown in the diagram below: [[File:RTR-MB1 Rev5 Configuration (12V & Both F0).png|frameless|500x500px]]
+
Step 2: Connect one wire from each bulb to “V+” OR “12V”<br />
#For Headlights: Connect the second wire to the F0F and F0R pads shown in the wiring diagram.
+
Step 3: To use 12V bulbs for headlights, you must bridge the corresponding jumper(s) for F0F and F0R shown in the diagram below:<br />
#To add more 12V bulbs, connect one wire to ''either'' "V+" pad or the "12V" pad, then connect the second wire from each bulb to the numbered pads directly next to the “BULBS” label.
+
[[File:RTR-MB1 Rev5 Configuration (12V & Both F0).png|frameless|500x500px]]<br />
 +
Step 4: For Headlights: Connect the second wire to the F0F and F0R pads shown in the wiring diagram.<br />
 +
Step 5 (Optional): To add more 12V bulbs, connect one wire to ''either'' "V+" pad or the "12V" pad, then connect the second wire from each bulb to the numbered pads directly next to the “BULBS” label.
  
 
{| class="wikitable"
 
{| class="wikitable"
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Perform these steps below to configure the motherboard for LED lighting:
 
Perform these steps below to configure the motherboard for LED lighting:
  
#Solder bridge “12V” to “V+” as shown below: [[File:RTR-MB1 V+ Configuration (12V).png|frameless|500x500px]] ''No additional jumper configuration is required when using LEDs for both headlights.''
+
Step 1: Solder bridge “12V” to “V+” as shown below:<br />
#Connect the Anode (+) wire from the headlight(s) to either “V+” pad OR the “12V” pad
+
[[File:RTR-MB1 V+ Configuration (12V).png|frameless|500x500px]]
#Connect the Cathode (-) wire to the F0F and F0R pads shown in the wiring diagram.
+
 
#To add more 12V bulbs, connect one wire to ''either'' "V+" pad or the "12V" pad, then connect the second wire from each bulb to the numbered pads directly next to the “BULBS” label.
+
''No additional jumper configuration is required when using LEDs for both headlights.''<br />
 +
Step 2: Connect the Anode (+) wire from the headlight(s) to either “V+” pad OR the “12V” pad<br />
 +
Step 3: Connect the Cathode (-) wire to the F0F and F0R pads shown in the wiring diagram.<br />
 +
Step 4 (Optional): To add more 12V bulbs, connect one wire to ''either'' "V+" pad or the "12V" pad, then connect the second wire from each bulb to the numbered pads directly next to the “BULBS” label.
  
 
{| class="wikitable"
 
{| class="wikitable"
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|}
 
|}
  
=== All Jumper Configurations ===
+
===All Jumper Configurations===
 
From the factory, none of the option jumpers will be selected. As such, there is no voltage present on the "V+" pads on the front and rear of the board. Additionally, the factory configuration sets up the F0F and F0R outputs for LED operation. Depending on how you intend to wire your locomotive, you must bridge the correct jumpers with solder. In total, there are four Jumpers available:
 
From the factory, none of the option jumpers will be selected. As such, there is no voltage present on the "V+" pads on the front and rear of the board. Additionally, the factory configuration sets up the F0F and F0R outputs for LED operation. Depending on how you intend to wire your locomotive, you must bridge the correct jumpers with solder. In total, there are four Jumpers available:
  
# Supply Selection - 1.5V
+
#Supply Selection - 1.5V
# Supply Selection - 12V
+
#Supply Selection - 12V
# F0F Bulb/LED Selection
+
#F0F Bulb/LED Selection
# F0R Bulb/LED Selection
+
#F0R Bulb/LED Selection
  
 
Leaving the F0F and F0R jumpers disconnected will set up the F0F and F0R pads for LED operation. bridging these jumpers will bypass the on-board resistors and allow you to use incandescent bulbs.  
 
Leaving the F0F and F0R jumpers disconnected will set up the F0F and F0R pads for LED operation. bridging these jumpers will bypass the on-board resistors and allow you to use incandescent bulbs.  
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!12V Selection for V+
 
!12V Selection for V+
 
|-
 
|-
|[[File:RTR-MB1_Rev5_Configuration_(1V5_&_Both_F0).png|alt=|none|thumb|500x500px|1.5V Lighting - 1.5V Bulb Headlights (FWD & REV)]]<br />
+
|[[File:RTR-MB1_Rev5_Configuration_(1V5_&_Both_F0).png|alt=|none|thumb|500x500px|1.5V Lighting - 1.5V Bulb Headlights (FWD & REV)This would be the correct configuration for a factory-new model from Athearn.]]
|[[File:RTR-MB1_Rev5_Configuration_(12V_&_Both_F0).png|alt=|none|thumb|500x500px|12V Lighting - 12V Bulb Headlights (FWD & REV)]]<br />
+
|[[File:RTR-MB1 Rev5 Configuration (12V Only).png|alt=RTR-MB1 Rev5 Configuration (12V Only)|none|thumb|500x500px|12V Lighting - LED Headlights (FWD & REV)This would be the correct configuration for a model being completely refitted with LEDs]]
 
|-
 
|-
 
|[[File:RTR-MB1 Rev5 Configuration (1V5 F0F).png|alt=|none|thumb|500x500px|1.5V Lighting - 1.5V Bulb Forward Headlight, LED Reverse Light]]
 
|[[File:RTR-MB1 Rev5 Configuration (1V5 F0F).png|alt=|none|thumb|500x500px|1.5V Lighting - 1.5V Bulb Forward Headlight, LED Reverse Light]]
|[[File:RTR-MB1 Rev5 Configuration (12V F0F).png|alt=RTR-MB1 Rev5 Configuration (12V F0F)|none|thumb|500x500px|12V Lighting - 12V Bulb Forward Headlight, LED Reverse Light]]<br />
+
|[[File:RTR-MB1 Rev5 Configuration (12V F0F).png|alt=RTR-MB1 Rev5 Configuration (12V F0F)|none|thumb|500x500px|12V Lighting - 12V Bulb Forward Headlight, LED Reverse Light]]
 
|-
 
|-
 
|[[File:RTR-MB1 Rev5 Configuration (1V5 F0R).png|alt=RTR-MB1 Rev5 Configuration (1V5 F0R)|none|thumb|500x500px|1.5V Lighting - LED Forward Headlight, 1.5V Bulb Reverse Light]]
 
|[[File:RTR-MB1 Rev5 Configuration (1V5 F0R).png|alt=RTR-MB1 Rev5 Configuration (1V5 F0R)|none|thumb|500x500px|1.5V Lighting - LED Forward Headlight, 1.5V Bulb Reverse Light]]
|[[File:RTR-MB1 Rev5 Configuration (12V F0R).png|alt=RTR-MB1 Rev5 Configuration (12V F0R)|none|thumb|500x500px|12V Lighting - LED Forward Headlight, 12V Bulb Reverse Light]]<br />
+
|[[File:RTR-MB1 Rev5 Configuration (12V F0R).png|alt=RTR-MB1 Rev5 Configuration (12V F0R)|none|thumb|500x500px|12V Lighting - LED Forward Headlight, 12V Bulb Reverse Light]]
 
|-
 
|-
 
|
 
|
|[[File:RTR-MB1 Rev5 Configuration (12V Only).png|alt=RTR-MB1 Rev5 Configuration (12V Only)|none|thumb|500x500px|12V Lighting - LED Headlights (FWD & REV)]]<br />
+
|[[File:RTR-MB1_Rev5_Configuration_(12V_&_Both_F0).png|alt=|none|thumb|500x500px|12V Lighting - 12V Bulb Headlights (FWD & REV)]]
 
|}
 
|}
 
Failing to select a supply voltage will result in an open circuit to "V+" and no lights wired to the "V+" pads will operate since no voltage is present.
 
Failing to select a supply voltage will result in an open circuit to "V+" and no lights wired to the "V+" pads will operate since no voltage is present.
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|+Invalid Configuration
 
|+Invalid Configuration
 
|[[File:RTR-MB1 Rev5 Configuration (None).png|alt=RTR-MB1 Rev5 Invalid Configuration|none|thumb|600x600px|Invalid Configuration (No V+ Voltage Selected)]]
 
|[[File:RTR-MB1 Rev5 Configuration (None).png|alt=RTR-MB1 Rev5 Invalid Configuration|none|thumb|600x600px|Invalid Configuration (No V+ Voltage Selected)]]
 
  
 
|}<br />
 
|}<br />
 
==Previous Revision Information==
 
==Previous Revision Information==
 
''None Available''
 
''None Available''
 +
[[Category:TCS Products]][[Category:TCS Motherboards]]

Latest revision as of 00:43, 31 August 2024

RTR-MB1
RTR-MB1 Rev5 Product Picture (Top).png
Device Information
ManufacturerTrain Control Systems
TypeMotherboard
SKU1615
Release Date03-July-2024 (Rev5)
Retail Price$59.95
Lighting Outputs8
Bulb OutputsUp to 8 (Selective)
LED OutputsUp to 8 (Selective)
ProtocolsDCC, DC
Power SupplyDCC or DC 5V-24V
Current Rating<3A (Combined)
Output Rating<100mA (Each)
Keep Alive®On-Board
ScaleHO-Scale
Dimensions (LxWxH)2.84” x 0.66” x 0.55”
72mm x 17mm x 13.9mm

Technical Information

The RTR-MB1 from TCS is an 8-function 21-pin decoder motherboard with integrated Keep Alive® on-board. The RTR-MB1 was designed specifically to fit Athearn Ready to Roll and “Blue Box” diesel locomotives in HO-scale. This motherboard features an on-board regulated 1.5V power supply for incandescent “rice” bulbs, and can also be used with LEDs thanks to on-board resistors. Configuration is done via solder jumpers, which is required in order for the RTR-MB1 to function. See the Lighting Wiring Instructions section below for detailed instructions.

The RTR-MB1 has been designed to meet NMRA standards, and is compatible with any NMRA-compliant 21-pin decoder with up to 8 lighting outputs, such as TCS’ WOW121 or EU821 decoders (sold separately).

All of TCS' motherboards, including this one, are available for purchase with "high pins" which are compatible with 21-pin decoders from other manufacturers. Since TCS designs decoders with a lower profile, they can be used with a "low profile" pin header. The TCS decoder and motherboard with low profile pins will often fit into installations which would otherwise be impossible due to height clearances.

Pin Headers
Low Profile (TCS Compatible) High Profile (Non-TCS Compatible)
RTR-MB1 Rev5 Product Picture (Low Pins).png RTR-MB1 Rev5 Product Picture (High Pins).png
Click to Enlarge Click to Enlarge

Wiring Diagram

Shown below is the latest wiring diagram for the RTR-MB1. This diagram depicts the "Revision 5" version of the RTR-MB1, which is the current production version.

RTR-MB1 Rev5 (2024) Wiring Diagram
Click to Enlarge

The wiring diagram above uses colors for inputs, outputs, and other functions as defined in the NMRA standards for Color Coded Wires.

The function output pads for F1 through F6 have options for Bulbs or LED's. Pads outlined in Black are for LED's and must be used with the 12V supply. Pads outlined in Tan are for Bulbs and can be used with either 12V or 1.5V depending on the voltage rating of the bulb. Factory models from Athearn which this motherboard were designed for typically use 1.5V light bulbs.

NOTE: It is possible to use both incandescent bulbs and LEDs simultaneously. To do so please continue reading to the section below for Lighting Wiring

The pads labeled "V+" on both ends of the board will both output whichever voltage is selected using the jumpers in the top right of the diagram. ONLY ONE jumper may be used at once or damage will occur to the on-board power supply.

Lighting Wiring Instructions

Information in this section pertains specifically to the revision of the RTR-MB1 released in 2024. The RTR-MB1 was redesigned in July of 2024 to have more feature options for lighting outputs. These options are now configurable through the use of "solder bridge" jumpers located on the top side of the motherboard.

Wiring Instructions for 1.5V Incandescent Bulbs

Perform these steps below to configure the motherboard for 1.5V lighting:

Step 1: Solder bridge “1.5V” to “V+” as shown below:
RTR-MB1 V+ Configuration (1V5).png
Step 2: Connect one wire from each bulb to “V+” OR “1.5V”
Step 3: To use 1.5V bulbs for headlights, you must bridge the corresponding jumper(s) for F0F and F0R shown in the diagram below:
RTR-MB1 Rev5 Configuration (1V5 & Both F0).png
Step 4: To finish wiring the headlights, connect the second wire to the F0F and F0R pads shown in the wiring diagram.
Step 5 (Optional): To add more 1.5V bulbs, connect one wire to either "V+" pad or the "1.5V" pad, then connect the second wire from each bulb to the numbered pads directly next to the “BULBS” label.

NOTE: It is possible to use both incandescent bulbs and LEDs simultaneously. To do so:
  1. Wire any incandescent bulbs to the "BULBS →" pads and the correct supply voltage pad (1.5V or 12V).
  2. Wire the LED Anode (+) to the "12V" pad, then wire the LED Cathode (-) to any of the numbered "LEDs →" pads

Wiring Instructions for 12V Incandescent Bulbs

Perform these steps below to configure the motherboard for 1.5V lighting:

Step 1: Solder bridge “12V” to “V+” as shown below:
RTR-MB1 V+ Configuration (12V).png
Step 2: Connect one wire from each bulb to “V+” OR “12V”
Step 3: To use 12V bulbs for headlights, you must bridge the corresponding jumper(s) for F0F and F0R shown in the diagram below:
RTR-MB1 Rev5 Configuration (12V & Both F0).png
Step 4: For Headlights: Connect the second wire to the F0F and F0R pads shown in the wiring diagram.
Step 5 (Optional): To add more 12V bulbs, connect one wire to either "V+" pad or the "12V" pad, then connect the second wire from each bulb to the numbered pads directly next to the “BULBS” label.

NOTE: It is possible to use both incandescent bulbs and LEDs simultaneously. To do so:
  1. Wire any incandescent bulbs to the "BULBS →" pads and the correct supply voltage pad (1.5V or 12V).
  2. Wire the LED Anode (+) to either "V+" pad or the "12V" pad, then wire the LED Cathode (-) to any of the numbered "LEDs →" pads

Wiring Instructions for LED Lights

Perform these steps below to configure the motherboard for LED lighting:

Step 1: Solder bridge “12V” to “V+” as shown below:
RTR-MB1 V+ Configuration (12V).png

No additional jumper configuration is required when using LEDs for both headlights.
Step 2: Connect the Anode (+) wire from the headlight(s) to either “V+” pad OR the “12V” pad
Step 3: Connect the Cathode (-) wire to the F0F and F0R pads shown in the wiring diagram.
Step 4 (Optional): To add more 12V bulbs, connect one wire to either "V+" pad or the "12V" pad, then connect the second wire from each bulb to the numbered pads directly next to the “BULBS” label.

NOTE: It is possible to use both incandescent bulbs and LEDs simultaneously. To do so:
  1. Wire any incandescent bulbs to the "BULBS →" pads and the correct supply voltage pad (1.5V or 12V)
  2. Wire the LED Anode (+) to either "V+" pad or the "12V" pad, then wire the LED Cathode (-) to any of the numbered "LEDs →" pads

All Jumper Configurations

From the factory, none of the option jumpers will be selected. As such, there is no voltage present on the "V+" pads on the front and rear of the board. Additionally, the factory configuration sets up the F0F and F0R outputs for LED operation. Depending on how you intend to wire your locomotive, you must bridge the correct jumpers with solder. In total, there are four Jumpers available:

  1. Supply Selection - 1.5V
  2. Supply Selection - 12V
  3. F0F Bulb/LED Selection
  4. F0R Bulb/LED Selection

Leaving the F0F and F0R jumpers disconnected will set up the F0F and F0R pads for LED operation. bridging these jumpers will bypass the on-board resistors and allow you to use incandescent bulbs.

Listed below are all of the valid configuration options for the RTR-MB1. Note that it is now possible to use both incandescent bulbs and LEDs simultaneously in the same installation. It is also no longer necessary to add external resistors to use LED headlights.

All Valid Jumper Configurations
1.5V Selection for V+ 12V Selection for V+
1.5V Lighting - 1.5V Bulb Headlights (FWD & REV)This would be the correct configuration for a factory-new model from Athearn.
RTR-MB1 Rev5 Configuration (12V Only)
12V Lighting - LED Headlights (FWD & REV)This would be the correct configuration for a model being completely refitted with LEDs
1.5V Lighting - 1.5V Bulb Forward Headlight, LED Reverse Light
RTR-MB1 Rev5 Configuration (12V F0F)
12V Lighting - 12V Bulb Forward Headlight, LED Reverse Light
RTR-MB1 Rev5 Configuration (1V5 F0R)
1.5V Lighting - LED Forward Headlight, 1.5V Bulb Reverse Light
RTR-MB1 Rev5 Configuration (12V F0R)
12V Lighting - LED Forward Headlight, 12V Bulb Reverse Light
12V Lighting - 12V Bulb Headlights (FWD & REV)

Failing to select a supply voltage will result in an open circuit to "V+" and no lights wired to the "V+" pads will operate since no voltage is present.

Invalid Configuration
RTR-MB1 Rev5 Invalid Configuration
Invalid Configuration (No V+ Voltage Selected)


Previous Revision Information

None Available