The EBU colour bars are a television test card used to check if a video signal has been altered by recording or transmission, and what adjustments must be made to bring it back to specification. It is also used for setting a television monitor or receiver to reproduce chrominance and luminance information correctly. The EBU bars are most commonly shown arranged side-by-side in a vertical manner (as in the images in this article), though some broadcasters – such as TVP[1] in Poland, and Gabon Télévision[2] in Gabon – were known to have aired a horizontal version of the EBU bars.

EBU/IBA 100/0/75/0 Colour Bars Displayed colours are only approximate due to different transfer and colour spaces used on web pages (sRGB) and video (BT.601 or BT.709)
EBU Colour Bars as displayed on a Tektronix waveform monitor and vectorscope
EBU Colour Bars transmitted from a digital point-to-point satellite link (DVB-S) operated by Globecast

It is similar to the SMPTE color bars, although that pattern is typically associated with the NTSC analogue colour TV system. Many test cards, such as Philips PM5544 or Telefunken FuBK, feature elements equivalent to the EBU colour bars.

75% Colour Bars

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EBU 75/0/75/0 Colour Bars pattern Displayed colours are only approximate due to different transfer and colour spaces used on web pages (sRGB) and video (BT.601 or BT.709)

The 75% Colour Bars or EBU/IBA 100/0/75/0 Colour Bars pattern[3][4][5] is very similar to the SMPTE colour bars pattern, although it only features seven colour bars, and the white bar is at 100% intensity.

There is a variant where the white bar is also at 75% intensity (EBU 75/0/75/0). This pattern is generated by certain types of test equipment – including the Philips PM5519.[6]

The signal values of these bars for the PAL analogue system are:[7]

Luminance Chroma amplitude Chroma Φ
White 100/0/75/0 1.00
White 75/0/75/0 0.75
Yellow 0.67 0.33 167º
Cyan 0.53 0.47 283º
Green 0.44 0.44 241º
Magenta 0.31 0.44 61º
Red 0.23 0.47 103º
Blue 0.08 0.33 347º
Black 0

Displayed colours are converted from the original PAL BT.601 colour space to sRGB – the colour space used on web pages. They are only approximate, giving a notion of how the bars would look on a calibrated PAL display.

100% Colour Bars

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EBU 100/0/100/0 Colour Bars Displayed colours are only approximate due to different transfer and colour spaces used on web pages (sRGB) and video (BT.601 or BT.709)

An alternate form of colour bars is the 100% Colour Bars or EBU 100/0/100/0 Colour Bars pattern (specified in ITU-R Rec. BT.1729[8]), also known as the RGB pattern or full field bars, which consists of eight vertical bars of 100% intensity, and does not include the castellation or luminance patterns. Like the SMPTE colour bars pattern, the colour order is white, yellow, cyan, green, magenta, red, and blue – but with an additional column of saturated black. This pattern is used to check peak colour levels, and colour saturation, as well as colour alignment. The 100% pattern is not as common as the SMPTE bars, or the above-mentioned EBU 75% pattern, but many pieces of test equipment can be selected to generate either one. Many professional cameras can be set to generate a 100% pattern for calibration of broadcast or recording equipment, especially in a multi-camera installation where all camera signals must match.

Standard Definition

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EBU colour bar values for standard-definition television systems following BT.601, as specified in ITU-R Rec. BT.1729:[9]

10-bit digital YCbCr values for 100/0/100/0 bars on SD systems
Y Cb Cr
White 940 512 512
Yellow 840 64 585
Cyan 678 663 64
Green 578 215 137
Magenta 426 809 887
Red 326 361 960
Blue 164 960 439
Black 64 512 512

Displayed colours are converted from the original PAL BT.601 colour space to sRGB – the colour space used on web pages. They are only approximate, but represent what is seen on a properly calibrated display using the original colour space.

Calculation of   (luminance) and   (colour difference) signals from  ,   and   components according to BT.601 is as follows:[10]

 

High Definition

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EBU colour bar values for high definition TV systems following BT.709, as specified in ITU-R Rec. BT.1729:[9]

10-bit digital YCbCr values for 100/0/100/0 bars on HD systems
Y Cb Cr
White 940 512 512
Yellow 877 64 553
Cyan 754 615 64
Green 691 167 105
Magenta 313 857 919
Red 250 409 960
Blue 127 960 471
Black 64 512 512

Calculation of   (luminance) and   (colour difference) signals from  ,   and   components according to BT.709 is as follows:[10]

 

HDR UHDTV

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In 2020 the EBU published a newer colour bar pattern named Colour Bars for Use in the Production of Hybrid Log Gamma (HDR) UHDTV, designed for HDR broadcasts, taking into account the extended colour gamut of these systems.[11] It includes 100% and 75% ITU-R BT.2100 HLG colour bars, and colour bars which can be converted to ITU-R BT.709 75% bars when scene-light and display-light mathematical transforms defined in ITU-R BT.2408 are used.[11]

This pattern allows testing of UHDTV to HDTV conversion, measuring luminance response, saturation and hue shifts, and checking near‑black performance. It can also be used to check for correct hardware settings, transmission chain errors, and proper colour space transforms from ITU‑R BT.2100 HLG to ITU‑R BT.709.[11] Versions of the pattern are freely available as a still image[12] or video file.[13]

The pattern is similar to the ITU-R recommendation BT.2111 that also covers the PQ transfer function.[14] Another similar pattern named Colour Bar Test Pattern for Hybrid Log-Gamma (HLG) High Dynamic Range Television (HDR-TV) System was developed by ARIB in 2018 (ARIB STD-B72), based on the SMPTE color bars commonly used in Japan and United States.[15]

See also

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References

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  1. ^ "Europesche-testbeelden, Radio Bulletin 1972". fmtvdx.eu.
  2. ^ "TV-DX RTG C2 Gabon Television 05.12.1993" – via www.youtube.com.
  3. ^ "Channel 6 Television Denmark – Test patterns (English)". Channel6.dk. 14 December 2016. Retrieved 17 February 2022.
  4. ^ "Photographic image of colour bars" (JPG). Channel6.dk. Retrieved 23 February 2022.
  5. ^ "RECOMMENDATION ITU-R BT.471-1* – Nomenclature and description of colour bar signals" (PDF). Itu.int. Retrieved 17 February 2022.
  6. ^ "Philips PM 5519 datasheet" (PDF). testequipmenthq.com.
  7. ^ "Philips PM 5519 datasheet, p.3" (PDF). testequipmenthq.com.
  8. ^ "BT.1729 : Common 16:9 or 4:3 aspect ratio digital television reference test pattern". Itu.int. Retrieved 14 February 2022.
  9. ^ a b "BT.1729: Common 16:9 or 4:3 aspect ratio digital television reference test pattern". www.itu.int. p. 18. Retrieved 12 April 2022.
  10. ^ a b "BT.1729: Common 16:9 or 4:3 aspect ratio digital television reference test pattern". www.itu.int. p. 10. Retrieved 12 April 2022.
  11. ^ a b c EBU Tech 3373 – COLOUR BARS FOR USE IN THE PRODUCTION OF HYBRID-LOG GAMMA (HDR) UHDTV (PDF). EBU. 2020.
  12. ^ (U)HDTV HDR BT.2100 HLG Colour Bars (TIFF). 17 April 2020 – via tech.ebu.ch.
  13. ^ (U)HDTV HDR BT.2100 HLG Colour Bars (QT v210). 3 July 2020 – via tech.ebu.ch.
  14. ^ Recommendation ITU-R BT.2111-2 (PDF). ITU-R. 2020.
  15. ^ "About obtaining ARIB Standards (STD-B72)|Association of Radio Industries and Businesses". www.arib.or.jp. Retrieved 24 January 2024.
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