CRT:RGB Video Modifications

Methods
There are five main methods to add RGB to a set.

Method 1: OSD Switching
This method is probably the most common RGB mod. It is only possible on sets where the Jungle IC has analog RGB inputs for the on-screen display (OSD). Basically, you inject your RGB signals into these pins and wire a physical switch to the blanking pin so that the entire screen is displayed instead of the OSD menu. The switch allows you to "turn off" the mod, so that the OSD menu can still be used.


 * Info from mikejmoffitt on the shmups forum.

Method 2: OSD Mux
This method requires a custom circuit that multiplexes (muxes) your RGB signal and the OSD signal together so that both can be used at the same time without having to install a physical switch. It is only possible on sets where the Jungle IC has analog RGB inputs for the on-screen display (OSD). Detailed guide premade mux board

Method 3: Picture-in-Picture (PIP)
In this method, you inject your RGB signals into the PIP pins so it displays your image instead of the PIP and then wire a physical switch to the blanking pins so that the PIP image fills the entire screen. The switch allows you to "turn off" the mod, so that the PIP feature can still be used if you wanted.


 * Some displays may have a setting to make the PIP full screen and therefore not require a physical switch.

Method 4: Unused RGB Input Switching
This method involves using unused RGB input pins on your Jungle IC and a switch wired to a select pin to use them. It is only possible on sets where the Jungle IC has unused analog RGB inputs and a select pin. While some sets this is directly possible, some (if not all) Sony and JVC sets disable the unused signals digitally by setting the `RGB SEL` register in the Jungle IC which disable the ability to select the unused lines. This can be defeated by intercepting the commands with a microprocessor , but it is a complex modification and may be different for each set.

Method 5: Neckboard Injection
This method is the most primitive and should be a last resort. It involves directly wiring your RGB signals to the neckboard of the CRT. This bypasses all safety circuits and adjustments. In the event that something goes wrong, it has the potential of killing whatever device you have hooked up to it. A safety circuit could be designed to mitigate these risks.

Apex

 * Apex AT2408S

Disney

 * Disney Princess DT1350-P
 * Disney M70

JVC

 * JVC H-1950CG and discussion -
 * JVC iArt AV-14F704
 * JVC AV-27020 - Doesn’t seem to need resistors or caps on the RGB lines at all.
 * JVC AV-32D501 - Modder recommends using LT1675 RGB mux IC to restore OSD. Models AV-27D200, AV-27D201, AV-27D500, AV-27D501 seem very similar.
 * JVC AV-36850
 * JVC C-13810 should also work for: JVC C-13810, JVC AV-13810, and JVC AV-20810
 * JVC 32&quot; D-series and discussion
 * JVC TM-1700PN - This one uses SCART, but the back panel can probably be more easily modified for BNCs. Note the chassis is steel, so you will need a proper drill.

Panasonic

 * Panasonic CT-32G13W - Possible glitches? Not confirmed if console or not.

RCA

 * RCA F32685 - Needs resistors (e.g. 1k trimmer pots) on color lines.

Samsung

 * Samsung CB-564BV “Vision Plus” - Needs amp on color lines.
 * Samsung TXD1973
 * Samsung TXH1973 Similar mods: Samsung TXH1370, Samsung TXH1372, Samsung TXH1373, Samsung TXH1386, Samsung TXH1970, Samsung TXH1972, Samsung TXH1973, and Samsung TXH1986

Sharp

 * Sharp 36J-S400 Should also work for Sharp 19L-M100, Sharp 32J-S400, and Sharp 36J-S400
 * Sharp CJ13M10 Should also work for Sharp CL13M10, Sharp 20KS100

Sony

 * (BA-5D Chassis) another guide TV models: KV-27FS100, KV-27FS210, KV-27FV300, KV-27FV310, KV-29FA210, KV-29FS100, KV-29FS100, KV-29FV300, KV-29FV300, KV-29FV310, KV-32FS100, KV-32FS200, KV-32FS210, KV-32FV300, KV-32FV310, KV-34FS100, KV-34FS100, KV-34FV250, KV-34FV310, KV-36FS100, KV-36FS200, KV-36FS210, KV-36FV300, KV-36FV310, KV-38FS200, KV-38FV250, and KV-38FV310
 * KV-20FV12 BA-5 Chassis Similar TVs: KV-20FS12, KV-20FV12, KV-21FE12, KV-21FM12, KV-27FS13, KV-27FS17, KV-27FV17, KV-29FV17, KV-32FS13, KV-32FS17, and KV-34FS17
 * Sony KV-27S42 and another example - Use S-video’s Luma sync.
 * Sony KV-27FS100 (2003) - Use CSYNC instead of over composite to help eliminate interference.
 * Sony KV-27FS120 - PCB design in comments.
 * Sony PVM 14N5U - Discussion, needs research. Post results.
 * Sony KV-247V26 - Plus follow up Q&A video.
 * KX-1901A Sony Profeel Series Models: Sony KX-1901A, Sony KX-2501A, Sony KV-1311CR, Sony KV-20XBR, Sony KV-25XBR, Sony KV-25DXR, Sony KX-1211HG

Sylvania

 * Sylvania 6413CTB

Toshiba

 * Toshiba 13A21 Should also work for: Toshiba 13A21 and Toshiba 13A22
 * Toshiba 14AF43 Also works for : Toshiba 14AF44, Toshiba 14AF45, Toshiba 14AF46
 * Toshiba 20AF41C - Recommended to replace 0.1 µF RGB decoupling caps with higher rating.
 * 20AF43 Also works for: Toshiba 20AF44, Toshiba 20AF45, Toshiba 20AF46
 * Toshiba 27A30
 * Toshiba 27AF43 Also works for: Toshiba 27AF43, Toshiba 27AF44, Toshiba 27AF45, Toshiba 27AF46, Toshiba 27AFX54 (Cinema Series)
 * Toshiba CF27F50 Also works for: Toshiba CF27F50, Toshiba CL29F50