LX1974IBC MICROSEMI, LX1974IBC Datasheet - Page 5

LX1974IBC

Manufacturer Part Number

LX1974IBC

Description

Manufacturer

MICROSEMI

Datasheet

1.LX1974IBC.pdf (9 pages)

Specifications of LX1974IBC

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Rev. 1.0, 2006-05-09

define the light source. Lux is a unit for the measurement

of illuminance, which is the photometric flux density or

visible light flux density.

measurement of irradiance or the measurement of

electromagnetic radiation, flux both visible and invisible.

The first step in the conversion process is to convert

irradiance to illuminance, which essentially involves

running the irradiant flux through a photopic filter. In

normal ambient, a photopic curve is used and in dark

ambient, a scotopic curve (dark adapted eye) is used. If

the light is composed of only one wavelength, a

conversion chart will tell the conversion factor to convert

is used, the light spectrum of the irradiance must be

applied to the photopic filter to determine the resultant

illuminance.

normal light adapted human eye is 555nm, which

corresponds to yellowish-green light.

conversion factor is 683 Lux = 1W/m

Therefore 14.6

W/m2 to lux (lumens/m2). If more than one wavelength

IGHT UNITS

In converting from

The most sensitive wavelength for the

W/cm

11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570

= 100 lux at 555nm.

W/cm

to lux it is necessary to

Whereas

S I M P L I F I E D B L O C K D I A G R A M

Current

At 555nm, the

= 100

Amp

Figure 3 – Simplified Block Diagram

W/cm

A P P L I C A T I O N N O T E

Integrated Products Division

W/cm

Microsemi

is a

produce the same output current for the same number of lux,

regardless of the color of the light. However, because the

match is not perfect, there is still wavelength dependency

particularly at the ends of the visible spectrum.

520nm, however depending on the light source, what the

human eye perceives as ‘white’ light may actually be

composed of peak wavelengths of light other than 520nm.

For instance, a typical fluorescent lamp includes dominant

light not only near 550nm but also at 404 and 435nm.

Incandescent light sources such as standard tungsten lights

generate substantial IR radiation out beyond 2000nm.

(automatic test equipment) light source is configured with

white LED’s whose current is adjusted to output a calibrated

flux density at 550nm. This allows consistent and repeatable

testing of the sensor but corresponds to a light source unlike

that typically found in an office, home or sunlit environment.

In practice, the user needs to place the sensor in the target

environment and calibrate the sensors output current range to

match the application objective. This is easily accomplished

by adjusting the output resistor, which sets the sensor’s gain.

If the photo sensor had a truly photopic response, it would

In the case of the LX1974 the peak photo response is at

For ease of automatic testing of the LX1974 the ATE

Ambient Light Detector

RODUCTION

VDD

VSS

ATA

HEET

LX1974

Page 5

LX1974IBC MICROSEMI, LX1974IBC Datasheet - Page 5

LX1974IBC

Specifications of LX1974IBC

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