MONOFLEX-C112

2019 UPDATE: C112 to be discontinued. Available in the options listed below, while stocks last. Please use C140 as the future alternative. 

A flexible linear LED tape manufactured using a durable copper PCB with on-board constant current integrated circuit (IC) ensuring precise current control, whilst Schottky diodes protect against reverse polarity.

High quality LEDs from Osram and Lumileds ensure high performance, whilst single bin selection and 3-step MacAdam colour consistency deliver imperceptible colour and brightness variation.

A thermally conductive adhesive tape guarantees perfect heat transfer to the profile. Designed for professional interior lighting applications where stable, consistent and reliable performance is required.

Features

//  Osram & Lumileds LEDs

//  24vdc input voltage (SELV)

//  112 LEDs/m - 62.5mm cutting steps

//  9.6w/m / 19.2w/m 

//  Up to 2382 lumens/m

//  3 Step MacAdam LEDs

//  CRI ≥Ra80 (Osram) or ≥Ra90 (Lumileds)

//  8mm wide copper PCB with constant current IC

//  Schottky diodes for reverse polarity protection

//  Thermal conductive adhesive tape for better heat conduction

Drawing

Technical

Product no. CCT CRI lm LED/m Watts/m Voltage Cutting step Max. length Beam angle PCB Width LED brand
C112/9-O2-827 2700K ≥Ra80 1191lm 112 9.6w 24vdc 62.5mm 6m 120° 8mm Osram
C112/9-O2-830 3000K ≥Ra80 1291lm 112 9.6w 24vdc 62.5mm 6m 120° 8mm Osram
C112/9-L2-930 3000K ≥Ra90 926lm 112 9.6w 24vdc 62.5mm 6m 120° 8mm Lumileds
C112/9-O2-840 4000K ≥Ra80 1401lm 112 9.6w 24vdc 62.5mm 6m 120° 8mm Osram
C112/19-O2-827 2700K ≥Ra80 2198lm 112 19.2w 24vdc 62.5mm 3m 120° 8mm Osram
C112/19-O2-830 3000K ≥Ra80 2382lm 112 19.2w 24vdc 62.5mm 3m 120° 8mm Osram
C112/19-L2-930 3000K ≥Ra90 1712lm 112 19.2w 24vdc 62.5mm 3m 120° 8mm Lumileds

Disclaimer:

Technical data is subject to change without prior notice. The data provide represent typical values. Due to tolerances in the production of components and binning of LEDs, values for lumen output (Lm), colour temperature (CCT) and power (W/m) can vary by up to 10%. Electrical and thermal variation also influences the performance characteristics of LEDs.