ISL29043IROMZ-EVALZ INTERSIL [Intersil Corporation], ISL29043IROMZ-EVALZ Datasheet - Page 10

ISL29043IROMZ-EVALZ

Manufacturer Part Number

ISL29043IROMZ-EVALZ

Description

Low Power Ambient Light and Proximity Sensor with Internal IR-LED and Digital Output

Manufacturer

INTERSIL [Intersil Corporation]

Datasheet

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Ambient Light and IR Sensing

The ISL29043 is set for ambient light sensing when Register bit

ALSIR_MODE = 0 and ALS_EN = 1. The light-wavelength response of

the ALS appears as shown in Figure 11. ALS measuring mode (as

opposed to IR measuring mode) is set by default.

When the part is programmed for infrared (IR) sensing

(ALSIR_MODE = 1; ALS_EN = 1), infrared light is converted into a

current and digitized by the same ALS ADC. The result of an IR

conversion is strongly related to the amount of IR energy incident

on our sensor, but is unitless and is referred to in digital counts.

Proximity Sensing

When proximity sensing is enabled (PROX_EN = 1), the internal

IR LED is driven for 0.1ms by the built-in IR LED driver through

the IRDR pin. The amplitude of the IR LED current depends on

fixed 110mA current pulse. If this bit is high, the load on IRDR

will see a fixed 220mA current pulse, as seen in Figure 6.

When the IR from the LED reaches an object and gets reflected

back into the ISL29043, the reflected IR light is converted into

current as per the IR spectral response shown in Figure 11. One

entire proximity measurement takes 0.54ms for one conversion

(which includes 0.1ms spent driving the LED), and the period

between proximity measurements is decided by PROX_SLP

(sleep time) in Register 1 Bits 6:4.

Average LED driving current consumption is given by Equation 1.

A typical IRDR scheme is 220mA amplitude pulses every 800ms,

which yields 28μA DC.

Total Current Consumption

Total current consumption is the sum of I

pin sinks current (as shown in Figure 6) and the average IRDR

current can be calculated using Equation 1. I

voltage and the mode-of-operation, as seen in Figure 15.

Interrupt Function

The ISL29043 has an intelligent interrupt scheme designed to

shift some logic processing away from intensive microcontroller

independent light sensor, which can instruct a system to “wake

up” or “go to sleep”.

lRDR AVE

C polling routines (which consume power) and towards a more

;

LED+

FIGURE 6. CURRENT DRIVE MODE OPTIONS

------------------------------------------------------- -

lRDR PEAK

(PROX_DR = 1)

(PROX_DR = 0)

;

220mA

110mA

INTERNAL IR-LED

SLEEP

(IRDR IS HI-Z WHEN

NOT DRIVING)

100μs

LED-

IRDR

and I

PCB TRACE

depends on

IRDR

. The IRDR

ISL29043

(EQ. 1)

An ALS interrupt event (ALS_FLAG) is governed by Registers 5

through 7. The user writes a high and low threshold value to these

registers and the ISL29043 will issue an ALS interrupt flag if the

actual count stored in Registers 0x9 and 0xA are outside the user’s

programmed window. The user must write 0 to clear the ALS_FLAG.

A proximity interrupt event (PROX_FLAG) is governed by the high

and low thresholds in registers 3 and 4 (PROX_LT and PROX_HT).

PROX_FLAG is set when the measured proximity data is more

than the higher threshold X-times-in-a-row (X is set by user; see

next paragraph). The proximity interrupt flag is cleared when the

prox data is lower than the low proximity threshold

X-times-in-a-row, or when the user writes “0” to PROX_FLAG.

Interrupt persistency is another useful option available for both

ALS and proximity measurements. Persistency requires X-in-a-

row interrupt flags before the INT pin is driven low. Both ALS and

Prox have their own independent interrupt persistency options.

See ALS_PRST and PROX_PRST bits in Register 2.

The final interrupt option is the ability to AND or OR the two

interrupt flags using Register 2 Bit 0 (INT_CTRL). If the user

wants both ALS/Prox interrupts to happen at the same time

before changing the state of the interrupt pin, set this bit high. If

the user wants the interrupt pin to change state when either the

ALS or the Proximity interrupt flag goes high, leave this bit to its

default of 0.

ALS Range 1 Considerations

When measuring ALS counts higher than 1800 on range 1

(ALSIR_MODE = 0, ALS_RANGE = 0, ALS_DATA > 1800), switch

to range 2 (change the ALS_RANGE bit from “0” to “1”) and

re-measure ALS counts. This recommendation pertains only to

applications where the light incident upon the sensor is IR-heavy

and is distorted by tinted glass that increases the ratio of infrared

to visible light. For more information, please contact the factory.

Considerations

Upon power-up, please ensure a V

After power-up, or if the user’s power supply temporarily deviates

from our specification (2.25V to 3.63V), Intersil recommends the

user write the following: write 0x00 to register 0x01, write 0x29 to

0x0F. The user should then wait ~1ms or more and then rewrite all

registers to the desired values. If the user prefers a hardware reset

method instead of writing to test registers: set V

or more, power back up at the required slew rate, and write registers

to the desired values.

Power-Down

To put the ISL29043 into a power-down state, the user can set both

PROX_EN and ALS_EN bits to 0 in Register 1. Or more simply, set all

of Register 1 to 0x00.

Calculating Lux

The ISL29043’s ADC output codes are directly proportional to lux

when in ALS mode (see ALSIR_MODE bit).

calc

Power-up and Power Supply

RANGE

OUT

ADC

slew rate of 0.5V/ms or greater.

= 0V for 1 second

February 9, 2012

FN7935.0

(EQ. 2)

ISL29043IROMZ-EVALZ INTERSIL [Intersil Corporation], ISL29043IROMZ-EVALZ Datasheet - Page 10

ISL29043IROMZ-EVALZ

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