Royce Thompson Electric Oasis 1000 Lighting Controller Sensor Switch, Filtered Silicon Photodiode, Wall Mount, 220 to

RS Stock No.: 571-439Brand: Royce Thompson ElectricManufacturers Part No.: OASIS 1000 KIT DRG 114
brand-logo
View all in Lighting Controllers

Technical documents

Specifications

Controller Type

Sensor Switch

Sensor Type

Filtered Silicon Photodiode

Voltage Rating

220 to 270 V

Mount Type

Wall

Range

Oasis

Diameter

85.5mm

Width

72 mm

Height

62mm

Wattage

250 mW

Series

Oasis 1000

Standards Met

CE

Country of Origin

United Kingdom

Product details

Electronic Control Kit (Silicon Photodiode)

Solid-state electronic lighting controller utilising an optically-filtered silicon photodiode sensor for high accuracy and repeatability

Fitted with a conical, UV stable, impact resistant, translucent cover
Silicon photodiode light sensor
Low power consumption, day or night
Omni-directional

Supplied with

NEMA rotaloc socket, wall mounting bracket, gaskets and fixings

Daylight Lighting Controllers

These controllers automatically turn lights 'ON' and 'OFF' in response to changes in ambient light levels, primarily the transition from day to night and vice-versa. The more advanced types (see note below) have inbuilt logic to minimise false triggering, whereas the remainder have inbuilt time delays or higher 'OFF' thresholds, to prevent on/off cycling. As a general rule, these controllers should be sited such that they are not illuminated, by the light they are controlling. Nominal supply voltage is 230Vac.,Note regarding energy-saving negative-hysteresis controllers,Where figures for the 'OFF' threshold are lower than for the 'ON' threshold, the sensor is designed such that four thresholds are actually monitored. These are: dusk, the middle of the night, dawn and the middle of the day. Monitoring at times other than dusk and dawn enables the sensor to determine what it should be looking for next, minimising false triggering and improving overall controller operation.

Stock information temporarily unavailable.

Please check again later.

Stock information temporarily unavailable.

€ 84.76

Each (ex VAT)

Royce Thompson Electric Oasis 1000 Lighting Controller Sensor Switch, Filtered Silicon Photodiode, Wall Mount, 220 to

€ 84.76

Each (ex VAT)

Royce Thompson Electric Oasis 1000 Lighting Controller Sensor Switch, Filtered Silicon Photodiode, Wall Mount, 220 to
Stock information temporarily unavailable.

Technical documents

Specifications

Controller Type

Sensor Switch

Sensor Type

Filtered Silicon Photodiode

Voltage Rating

220 to 270 V

Mount Type

Wall

Range

Oasis

Diameter

85.5mm

Width

72 mm

Height

62mm

Wattage

250 mW

Series

Oasis 1000

Standards Met

CE

Country of Origin

United Kingdom

Product details

Electronic Control Kit (Silicon Photodiode)

Solid-state electronic lighting controller utilising an optically-filtered silicon photodiode sensor for high accuracy and repeatability

Fitted with a conical, UV stable, impact resistant, translucent cover
Silicon photodiode light sensor
Low power consumption, day or night
Omni-directional

Supplied with

NEMA rotaloc socket, wall mounting bracket, gaskets and fixings

Daylight Lighting Controllers

These controllers automatically turn lights 'ON' and 'OFF' in response to changes in ambient light levels, primarily the transition from day to night and vice-versa. The more advanced types (see note below) have inbuilt logic to minimise false triggering, whereas the remainder have inbuilt time delays or higher 'OFF' thresholds, to prevent on/off cycling. As a general rule, these controllers should be sited such that they are not illuminated, by the light they are controlling. Nominal supply voltage is 230Vac.,Note regarding energy-saving negative-hysteresis controllers,Where figures for the 'OFF' threshold are lower than for the 'ON' threshold, the sensor is designed such that four thresholds are actually monitored. These are: dusk, the middle of the night, dawn and the middle of the day. Monitoring at times other than dusk and dawn enables the sensor to determine what it should be looking for next, minimising false triggering and improving overall controller operation.