Here’s an oddity from the 1980’s – a CRT-based portable TV, with a very strangely shaped tube. Sony produced many types of flat CRTs back in the 80’s, with the electron gun at 90° to the curved phosphor screen.
The front panel has the display window, along with the tuning & volume indicators. Unfortunately since analogue TV transmissions have long been switched off, this unit no longer picks up any transmissions off the air, but it can be modified to accept a composite video input.
The back panel has the battery compartment & the tilt stand.
The certification label reveals this unit was manufactured in May 1984, 32 years ago!
Rated at 6v, ~2.1W this device uses surprisingly little power for something CRT based.
The battery holder is a little unique, this plastic frame holds 4 AA cells, for a 6v pack.
The battery holder slots into the back of the TV, there’s also an extra contact that the service manual mentions is for charging, so I assume a rechargeable 6v battery pack was also available.
Removing a pair of pin-spanner type screws allows the front glass & screen printed CRT surround to be removed. Not much more under here other than the pair of screws that retain the CRT in the front frame.
Here’s the back cover removed, after unscrewing some very small screws. As per usual with Sony gear, the electronics is extremely compacted, using many flat flex cables between the various PCBs. The main PCB is visible at the back, this has all the deflection circuitry, RF tuner, Video IF, Audio IF, video amplifier & composite circuitry.
Lifting up the main board reveals more PCBs – the high voltage section for the CRT with the flyback transformer, focus & brightness controls is on the left. The loudspeaker PCB is below this. The CRT electron gun is tucked in behind the flyback transformer, it’s socket being connected to the rest of the circuitry with a flat flex cable.
Here’s the back of the CRT, the phosphor screen is on the other side of the curved glass back. These tubes must require some additional deflection complexity, as the geometry will change as the beam scans across the screen. There’s a dynamic focus circuit on the schematics, along with extensive keystone adjustments.
Here’s the tube entirely extracted from the chassis. The EHT connection to the final anode is on the side of the tube bell, the curved phosphor screen is clearly visible. The one thing I can’t find in this CRT is a getter spot, so Sony may have a way of getting a pure enough vacuum that one isn’t required.
I’d expect the vertical deflection waveforms to be vastly different on this kind of CRT, due to the strange screen setup. Not much of a beam movement is required to move the spot from the top to the bottom of the screen.
No doubt to keep the isolation gaps large, all the high voltages are kept on a separate small PCB with the flyback transformer. This board generates the voltages for the electron gun filament, focus grid & the bias to set the beam current (brightness) as well.
Here the deflection yoke has been removed from the CRT, showing the very odd shape better. These tubes are constructed of 3 pieces of glass, the bell with electron gun, back glass with phosphor screen & front viewing window glass. All these components are joined with glass frit.
The electron gun in the neck looks to be pretty much standard, with all the usual electrodes.
Here’s a view from the very top of the CRT, the curve in the screen is very obvious here. The electron beam emerges from the bell at the back.
Here’s the full schematic of the entire TV, I extracted this from a service manual I managed to find online.
More to come on hacking this unit to accept a standard composite video input, from something such as a Raspberry Pi!
I’ve hacked a couple of old 5″ tellies for use as monitors at work (thermal images are mono) and home (ZX81, Acorn Atom displays).
I try to hack Sony Watchmen, had some success with one, but hard to tell if failures were due to my mods or they were not working when I bought them (no UHF to test them). I might try fitting a Pi in the battery compartment, and get it running an Atom emulator.
Hi Keith,
The Watchman TVs should still produce something even with no UHF signal to test with, the older one I have just showed static, while the more modern one had autotuning built in so showed the UI for that on the display, telling me that it was working. It’s pretty easy to tap in to the circuitry to get a composite signal into them.
Cheers for reading!
How is the anode attached? Did you remove the cable from the crt without cutting it?
Hi Ryan,
The anode connection is the same as any other CRT, just on a smaller scale – a spring loaded contact fork latching into the anode button on the CRT. No cable cutting required.
Cheers for reading,
de 2E0GXE
Hi, loved the post! very helpfull indeed! I’m trying to find the dimensions on-line but I did not find someone with the device willing to measure it… rs Do you still have it? could you measure the device? thanks
Will you do the composite video mod soon?