Video Signals and terminators
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signals
- CVBS (Composite Video Broadcast Signal) including NTSC, PAL, SECAM) - when you see CVBS on a device, most likely it will automatically detect and switch between NTSC and PAL signals
- different ways of transmitting & terminators used
- broadcast at radio frequencies VHF (very high frequency) and UHF (ultra high frequency)
- from antenna to F-type connector
- rate was 59.94 for each Field
- fields vs frames. 1 frame contains 2 interlaced fields (every other scanline). technically speaking, the Frame rate of CVBS was 29.97 while field rate was 59.94
- amplitude of .75 volts, with an offset of like .1 volts at the bottom for black level. (IRE ?) i think main difference between japanese and standard NTSC was in here somewhere
- modern analog modular video synthesis works at 1 volts unipolar vs +-5 volts bipolar eurorack standard
- for NTSC a resolution of 720 x 525 pixels, which was nearly always cropped in both x and y. actual amounts cropped were not terribly standardized,(tho y direction was pretty close to 480) usually only a broadcast monitor had the means to display an entirely uncropped signal **fact check on this
- the signal itself was analog on each horizontal line, why does it make sense to talk about discrete Pixels here?
- while an analog signal is theoretically continuous at all points (quantum mechanics aside), practically speaking there are fundamental limits to how much information can be encoded in any actual signal based on rate (how fast) and depth (how tall). this is called nyquist limit. fill in the horizontal rate by the voltage amplitude and you get 720 pixels
- A visually appealing metaphor is with vinyl records. The different speeds of vinyl playback (33/3, 45, 78) and different depths of vinyl records themselves (usually referred to by the weight by grams) allowed for highly varying qualities of sound. a flexidisc at 33rpm vs 180gram at 45 rpm would represent a vast change in tonal quality.
- in digital realms the sample rate (for a cd 44.1k) and bit depth (24 bits) are relevant measurements
- while an analog signal is theoretically continuous at all points (quantum mechanics aside), practically speaking there are fundamental limits to how much information can be encoded in any actual signal based on rate (how fast) and depth (how tall). this is called nyquist limit. fill in the horizontal rate by the voltage amplitude and you get 720 pixels
- non square pixels: pixel aspect ratio
- pixel aspect ratio along with interlacing
- the signal itself was analog on each horizontal line, why does it make sense to talk about discrete Pixels here?
- signal itself contains H & V sync, color burst, Luminance, and chrominance. chrominance is subdivided into Pb and Pr
- The signal is in the YIQ color space. often times in non professional engineering settings referred to as YUV. YIQ and YUV are color spaces which have linear transformations from one to another and (in practice but not necessarily) linear but not isomorphic transformations into/from RGB (information is lost from RGB into YIQ which is measured by the term Color Subsampling)
- YIQ is a form of compression compared to RGB. More information is devoted to representing Luminance information (Y) than chrominance information. There is some philosophical justification given in that humans tend to prioritize brightness in image perception and use saturation and hue as secondary. However there is not more brightness information present in a YIQ/YUV signal, it is the same amount as in the transformed RGB signal so this is somewhat silly. The actual reason fousing YIQ encoding is that 1. it already existed and 2. it was necessary to maintain backwards compatibility for black and white televisions.
- To visualize the color space we need to first imagine an RGB cube. Imagine that the XYZ axes are each Red Green and Blue with 0 on each axis being black and 1 on each axis being full saturated RGB respectively. You'd notice immediately, that the corner of the cube opposite Black (0,0,0) is White (1,1,1) If we were able to slice down the middle of the cube along that diagonal we would find that there is a line of completely unsaturated gradient from black to white there. We then want to tilt that cube up so that the line from black to white sits perfectly on the Y axis (hence Y= luminance). To properly preserve the scale of how chroma is subsampled we would also want to squeeze the sides of the cube in to reflect that less information is devoted to hue and saturation in this representation.
- "pb is the blue - Luminance. pr is the red - Luminance" This looks better when you can draw the YIQ cube
- there is some fairly sexy and somewhat basic trigonometry that is used to encode/decode pb pr into chrominance into luminance
- P means phase shift/phase burst is used to decode hue information
- S-video seperates luminance and chrominance. Y pin carries H and V sync and Luminance, C pin contains color burst and chrominance. chrominance must still be seperated into Pb and Pr
- VGA is RGB HsyncVsync. can be many resolutions, most all of which where 4:3. Could also support many different refresh rates, higher than NTSC 59.97hz. XGA was an extension of VGA into more HD worlds with max of 1600x1200 (double check??) is all the way up to WHUXGA now (wide hex ultra extended graphics array) but who the heck uses it??
- DV digital video - pretty much the most barebones digital representation of analog video. oftentimes visibly much worse quality than the analog. usually recorded directly to magnetic tape, ala DAT and old school computer biz. HDV could do 720 and 1080. the tapes were usually useless after 2-4 uses.
- sGRB was a broadcast signal used in some situations aka sync on green
- YPbPr aka component aka betamax. could also support HD 16:9 resolutions and progressive scan signals at 29.97 and 59.94 including 720i/p and 1080i/p. could it do true 30 and 60? got to ask rob schafer lol.
- YCbCr is digital used in SDI, DVI, and HDMI
- SDI (the new and current broadcast standard) very similar to the CVBS signal but oversampled, ie instead of having a digital queue of (Cb Y Cr) ( Cb Y Cr) where adjecent pixels are enclosed in parenthesis, for sd resolutions sdi will have (Cb Y Cr) Y' ( Cb Y Cr) where Y' is an oversample in between sequential Y samples.
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cables
- people in non pro settings tend to call cables by their terminators. however, the cables (for analog) are all coaxial with 75 ohms resistance. VGA, DVI, HDMI, SCART cables are actually many little cables all in the same shielding. many of the digital cables are same construction and resistance up until you get into 4k and past territories
- CVBS (Composite Video Broadcast Signal) including NTSC, PAL, SECAM) - when you see CVBS on a device, most likely it will automatically detect and switch between NTSC and PAL signals
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terminators (images are necessary here, possibly a table)
- skinnier threaded nut with a little needle inside : f type. used for a video signal at VHF/UHF frequencies, ie directly from an antennae
- yellow rca - CVBS
- bnc -CVBS or SDI or used with a d-sub 15 breakout ANY signal!
- 4 pin mini Din: s video- y/c
- component- a Green, Blue and Red cable YPbPr
- d-sub 15 - VGA & XGA but also any and every of the above when paired up with
- d-sub 15 to bnc breakout. for video you usually see a maximum of 5 bnc breakouts (for a RGB H and V sync outputs). often see these in use on Test Pattern Generators, older computer monitors, and twilight era analog video mixers capable of switching between numerous analog video signals i/o
- SCART in europe - could do signal i/o, audio, various controls and various video signals
- firewire 400, 800, and up into thunderbolts: DV. probably only 800 and up hdv
- DVI (digital video interface): the world of DVI was meant to be a bridge from analog into digital video. Different letters suffixes (dvi-a, dvi-d) reflected slightly different arrangments of pin outs on the terminators that could transmit analog or digital video at various resolutions, rates, and color spaces. The many tiny pins and subtley different terminators resulted in an obnoxious amount of pins getting bent out of place when attempting to put them where they didn't belong. disliked heavily by nearly anyone who had to use them regularly.
- HDMI- carried the same VIDEO signals as DVI but with ability to handle audio, handshaking (a back and forth signal to find the best compromise for desired video color encoding, resolution, and rate) and EDID (copy protection in a futile attempt to dissuade piraters). the lack of any kind of lock system, low lifespan, and infinite handshake loops when connections got loose of most terminators made many people nostalgic for dvi, which is saying something.
- mini BNC used in hd SDI.
hey ehye hey sync this
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misc terms
- broadcast : usually in reference to broadcast standards. the main television stations transmitted over VHF radio frequencies for public consumption (abc, cbs, nbc, and pbs with fox and others coming later). typically broadcast standards are contrasted with public access (transmitted over UHF with less range), cable (transmitted over physical cables), and consumer standards. Means both higher quality and also the occult accumulation of quirks and intricacies that invariably accompany any massive set of standards that require infinite backwards compatibility
- also contrasted with video standards for areas in which there was no need for broadcasting, ie medical, military, engineering & science, etc. most of the gear in these worlds from 80s-early 00s would be as likely to be VGA based as CVBS.
- video: shortened from video tape. used in contrast with Television (typically broadcasted live) and Film (entirely different method, quality, philosophy of recording sequential images) in 70s and 80s until becoming somewhat inchoate in late 90s onwards as Broadcast stations increasingly shot & transferred archives to/on video tape and the home video market exploded. in the 00s (SOV) Shot On Video as a qualifier for a move shifted from "peice of shit" to "experimental art " (lynch, von trier, et al) read radical software to explore the emotional & social connations of video and television in a more immediate context.
- in modern usage, video seems to reflect the more rough and ready DIY aspects of recording
- broadcast : usually in reference to broadcast standards. the main television stations transmitted over VHF radio frequencies for public consumption (abc, cbs, nbc, and pbs with fox and others coming later). typically broadcast standards are contrasted with public access (transmitted over UHF with less range), cable (transmitted over physical cables), and consumer standards. Means both higher quality and also the occult accumulation of quirks and intricacies that invariably accompany any massive set of standards that require infinite backwards compatibility