Cameo
FLAT PAR 1 TW IR WH
7 x 4 W High-Power FLAT Tunable White LED PAR Light in white housing with IR remote control option
- High-power 7 x 4 W Tunable White LED Flat PAR
- White colour temperature variable from 3,400 - 7,000 K
- Lens optimized for uniform light intensity
- Dimming with 4 selectable curves and halogen lamp-like or LED response
- 20 Hz high-speed strobe
- 4 DMX, automatic and sound control modes plus optional IR remote
- DMX and IEC power in and out for daisy chaining up to 10 units
- 4-button LED display for intuitive...
- High-power 7 x 4 W Tunable White LED Flat PAR
- White colour temperature variable from 3,400 - 7,000 K
- Lens optimized for uniform light intensity
- Dimming with 4 selectable curves and halogen lamp-like or LED response
- 20 Hz high-speed strobe
- 4 DMX, automatic and sound control modes plus optional IR remote
- DMX and IEC power in and out for daisy chaining up to 10 units
- 4-button LED display for intuitive configuration
- Flat, compact ABS housing
- Low power consumption
- Twin brackets included
RRP 2.334,04 ZAR / piece
Specifications
Cold white
According to the colour temperature scale in Kelvin (K), “cold white” is a very bright, clear light in the colour temperature range between 5,000 and 10,000 K; it is slightly artificial in character and goes well with rich primary colours.
DMX512
Communication standard DMX512 was developed specially for lighting systems in 1986. Up to 32 DMX devices can be daisy-chained and controlled via a control source (e.g. a light mixer).
Environment-friendly
The high energy efficiency, the long service life of the LED lamps and the low level of heat dissipation make this device particularly environment-friendly.
Infrared remote control
The device is fitted with an infrared sensor and can be controlled wirelessly using the IR remote control unit included.
LED technology
LEDs are ideal for use in lighting systems: They are bright and have a low level of heat dissipation, a long operating life and low energy consumption. Moreover, LED systems often weigh less than conventional lighting systems.
Master & slave
Master/slave operation allows identical DMX devices to be controlled by a DMX device of the same model and software standard. All the devices are connected by DMX cables in series. The master device is then set to run in standalone mode and the slave devices are set to run in slave mode.
Standalone mode
In standalone mode, the device functions are controlled via integrated programmes, so no light mixer or “master” controller is required.
Strobe
Strobes emit fast flash sequences, which makes movements appear “frozen” and creates a kind of slow-motion effect.
Warm white
According to the colour temperature scale in Kelvin (K), warm white is a soft, lightly yellowish light with a natural character that is pleasant to the human eye.
Description
Equipped with seven 4 watt tunable white LEDs, the Cameo Flat 1 TW allows you to vary the white temperature from 3,400 to 7,000 K. This permits perfect adjustment from warm and subdued to cool and ultra bright tones to cover all scenarios that require white light. With high-efficiency convection cooling, the shallow-depth, 25° beam spread PAR light’s operation is absolutely noiseless making it an ideal choice for illumination tasks in shops, restaurants, bars and discotheques. Sporting a high 3,000 Hz refresh rate for flicker free performance, it is also perfect for motion picture and TV applications.
The Flat 1 TW provides 4 modes of DMX control, sound activation or automatic operation plus master, slave and standalone capability. It features a 4-button display for easy configuration, a high-speed strobe and dimming with a selection of 4 curves and halogen lamp-like or standard LED response. A convenient infrared remote control is available as accessory.
The compact ABS housing comes with adjustable twin brackets and sports 3-pin DMX plus IEC power inputs and outputs for daisy-chaining a maximum of 10 units. The Flat 1 TW is also available in black (item no. CLPFLAT1TW) or white versions (item no. CLPFLAT1TWWH).