APDS-9007-020 Avago Technologies US Inc., APDS-9007-020 Datasheet - Page 13

APDS-9007-020

Manufacturer Part Number

APDS-9007-020

Description

AMBIENT LIGHT SENSOR 6CHIPLED

Manufacturer

Avago Technologies US Inc.

Type

Ambient Light Sensor with Logarithmic Current Outputr

Datasheet

1.APDS-9007-020.pdf (14 pages)

Specifications of APDS-9007-020

Peak Wavelength

560 nm

Maximum Light Current

39 uA

Maximum Rise Time

0.2 ms

Maximum Fall Time

0.2 ms

Package / Case

Chip LED-6

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Product

Ambient Light Sensor

Sensor Output

Current

Supply Voltage Range Dc

2V To 3.6V

Active Area

0.1540mm

External Depth

2.0mm

External Width

2.4mm

Leaded Process Compatible

Yes

Length/height, External

0.8mm

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

516-1719-2

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

APDS-9007-020

Manufacturer:

HOLTEK

Quantity:

12 000

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Download datasheet (709Kb)

Appendix C: General Application Guide for APDS-9007

The APDS-9007 is an analog current output ambient light

photo sensor whose spectral response is close to the CIE

standard photopic observer. APDS-9007 consists of a pho-

todiode and an IC that performs amplification of the pho-

todiode output signal and conversion to a logarithmic

output current. APDS-9007 is able to produce a high gain

photo current that can be converted to an output voltage

via a standard value external load resistor. APDS-9007 is

then easily integrated into micro-controller that has an

available A/D as shown in Figure C1 below.

The magnitude of the output voltage, Vout is directly pro-

portional to the photo current which is generated by the

brightness of the light source shone on the photo sensor

and the value of the load resistor used, RL. Increasing the

brightness of the light source and/or the value of the load

resistor will increase the magnitude of the output voltage.

The unit used to measure light in terms of what our eyes

perceive is “LUX”. It indicates the intensity to which a

surface is lit or the brightness of the light. Light sources

with the same LUX level appear at the same brightness to

the human eyes. The equipment for “LUX” measurement is

a lux meter.

Selection of the load resistor RL will determine the

amount of current-to-voltage conversion in the circuit.

APDS-9007 allows a maximum saturation output voltage

of (Vcc – 0.5V).

Artificial light sources such as fluorescent lamps or in-

candescent lamps produced ac noise with a frequency

of 50/60Hz and 100Hz respectively. A capacitor of 10uF,

which acts as a low-pass filter, is recommended to be

added in parallel with the load resistor to filter out these

interferences.

Figure C1. Configuration of APDS-9007

Light

Source

(Active High)

ShutDown

Pin 6:

APDS9007

Pin 4: VDD

GND

Pin 1:

GND

Pin 3 : OUT

Micro-

Controller

A/D

An analog logarithmic current output is able to represent

the wide dynamic range of ambient light brightness

level from near darkness environment to bright outdoor

conditions correctly and accurately. For a logarithmic

output, constant relative changes in the input values are

converted to constant absolute changes in the output

values.

A logarithmic current output is advantageous because

when measuring low brightness levels, small changes in

those levels need to be detected. For example, a change

from 100lux to 200lux needs to be detected. On the other

hand, when measuring high brightness levels, only rela-

tively large changes need to be detected. For example, a

change from 10000lux to 10200lux can be negligible and

a change from 10klux to 20klux needs to be detected

instead.

Hence APDS-9007, with a logarithmic current output, is

able to provide a good relative resolution over the entire

ambient light brightness range. It is able to measure small

current steps at low brightness levels and yet, at high

brightness levels, it is not required to measure the current

at such fine absolute resolutions.

This is illustrated in Figure C2 below. A change from 10lux

to 100lux and a change from 1klux to 10klux will both

give a same relative change which is 10. This is equivalent

to a constant absolute change in output current which is

10uA for both changes. Hence a change from 10lux to

100lux will result in a change of 10uA. Similarly, a change

from 1klux to 10klux will also result in a change of 10uA.

APDS-9007 can be directly connected to the A/D of the

micro-controller via one external load resistor which will

give the same accuracy or resolution over a wide dynamic

range.

Figure C2. Feature of Logarithmic Output

Ev1 = 10lux

"Ev = Ev2/Ev1 = 10

Ev2 = 100lux

Lux

100

Ev1 = 1klux

"Ev = Ev2/Ev1 = 10

1000

Ev2 = 10klux

10000

I2 = 40uA

I1 = 30uA

I2 = 20uA

I1 = 10uA

"I = I2 - I1

APDS-9007-020 Avago Technologies US Inc., APDS-9007-020 Datasheet - Page 13

APDS-9007-020

Specifications of APDS-9007-020

Available stocks

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