Canon Europe today announces the introduction of a new series of RF mount Cinema Prime lenses, building upon the existing portfolio of EF mount CN-E Primes and PL mount Sumire Primes. The seven new lenses, Canon’s first cinema lenses equipped with its RF mount, combine high optical performance and cinema-style operability to meet the needs of professional video production such as drama, documentaries, music videos and other large productions.
Canon launches RF mount Cinema Prime lenses with series of seven models for Cinema EOS System
• CN-R14mm T3.1 L F
• CN-R20mm T1.5 L F
• CN-R24mm T1.5 L F
• CN-R35mm T1.5 L F
• CN-R50mm T1.3 L F
• CN-R85mm T1.3 L F
• CN-R135mm T2.2 L F
The native RF mount offers high speed communication between the lens and camera body, with the enhanced design allowing for a more stable and comfortable experience when operating. The lenses are compatible with the EOS C70 (released in November 2020) and EOS R5 C1 (released in March 2022) RF Cinema cameras. Fully compatible with the transmission protocol of the RF mount, and as with EF mount Prime series lenses, operators can control magnification, chromatic aberration correction, peripheral light correction, and a dual pixel focus guide via camera body operations. In addition to these functions, the new lenses feature distortion aberration correction. These features support efficient video production not only during on-location recording but also post-shoot editing.
The new lenses achieve exceptional optical performance, excellent colour reproduction and are suitable for use with 4K and 8K cameras – optimally positioning large-diameter aspherical lens elements and lens elements with anomalous dispersion glass. Their compatibility with the full-frame large-format sensor, bright T-stop values2, and the use of 11 aperture blades allow for a shallow depth of field for subjects, natural round blurring, and soft image expressions. In addition, since the colour balance is unified throughout the series, adjusting colour tones when changing lenses while shooting the same scene can be done with greater ease.
With an appropriate sense of torque of the operation ring, the new lenses allow for precise and smooth adjustments that are required for cinema shooting. In addition, due to the unified design across the series, including the gear position of the operation ring, the diameter of the lens and the rotation angle (operation angle), the lens can be exchanged smoothly without the need to adjust the mounting position of the matte box or external follow focus accessories for each model. A new knurled surface near the mount provides a comfortable fit in the user’s hand, allowing the lens to be held securely without gripping the operation ring when attaching and detaching different lenses.
Key features of the RF mount Cinema Prime lenses:
• Genuine RF mount for stable operation without a converter
• High speed lens communication offering advanced metadata support from the lens to camera
• Geared rings offer greater control via hand operation and third party follow focus accessories
• High optical performance and high image quality for 4K, 8K and HDR productions
• T-stops up to T1.3 with broad focal lengths covering ultra-wide to telephoto
• Minimal focus breathing
• 11-blade iris for cinematic bokeh and softly diffused highlights
The new set of RF mount Cinema Prime lenses will be showcased at IBC 2023 on 15th - 18th September 2023 at the RAI, Amsterdam, for visitors to explore and experience.
Sales start of the lenses will be confirmed later. The Recommended prices (including VAT):
• Canon CN-R14MM T3.1 L F, 5049 euro
• Canon CN-R20MM T1.5 L F, 4699 euro
• Canon CN-R24MM T1.5 L F, 4699 euro
• Canon CN-R35MM T1.5 L F, 4259 euro
• Canon CN-R50MM T1.3 L F, 4259 euro
• Canon CN-R85MM T1.3 L F, 4259 euro
• Canon CN-R135MM T2.2 L F, 4809 euro
Additional information, Product Intelligence Professional Olli Turtiainen, olli.turtiainen@canon.fi, tel. +358 40 7716226.
- Performance guaranteed in VIDEO mode, when used with EOS R5 C
- The brightness of a cinema lens is generally expressed as a T value, which is obtained by additionally reflecting the transmittance of the glass to the F value