English
Language : 

ISL29033 Datasheet, PDF (9/15 Pages) Intersil Corporation – Simple output code directly proportional to lux
ISL29033
BIT 1:0
00
01
10
11
TABLE 4. INTERRUPT PERSIST
NUMBER OF INTEGRATION CYCLES
1
4
8
16
Command Register II 01 (Hex)
The second command register has the following functions:
1. Resolution: Bits 3 and 2. Bits 3 and 2 determine the ADC
resolution and the number of clock cycles per conversion
(Table 5). Changing the number of clock cycles does more than
just change the resolution of the device; it also changes the
integration time, which is the period during which the
Analog-to-Digital (A/D) converter samples the photodiode
current signal for a measurement.
2. Range: Bits 1 and 0. The Full Scale Range (FSR) can be
adjusted through the I2C by using Bits 1 and 0. Table 6 lists
the possible values of FSR for the 499kΩ REXT resistor.
TABLE 5. ADC RESOLUTION DATA WIDTH
BITS 3:2
00
01
10
11
NUMBER OF CLOCK CYCLES
216 = 65,536
212 = 4,096
28 = 256
24 = 16
n-BIT ADC
16
12
8
4
BITS 1:0
00
01
10
11
TABLE 6. RANGE/FSR LUX
k
RANGE(k)
FSR (lux) AT ALS SENSING
1
Range1
125
2
Range2
500
3
Range3
2,000
4
Range4
8,000
Data Registers (02 Hex and 03 Hex)
The device has two 8-bit read-only registers to hold the data from
LSB to MSB for the ADC (Table 7). The Most Significant Bit (MSB)
is accessed at 03 hex and the Least Significant Bit (LSB) is
accessed at 02 hex. For 16-bit resolution, the data is from D0 to
D15; for 12-bit resolution, the data is from D0 to D11; for 8-bit
resolution, the data is from D0 to D7. The registers are refreshed
after every conversion cycle.
TABLE 7. DATA REGISTERS
ADDRESS
(HEX)
CONTENTS
02
D0 is LSB for 4-, 8-, 12- or 16-bit resolution; D3 is MSB for
4-bit resolution; D7 is MSB for 8-bit resolution
03
D15 is MSB for 16-bit resolution; D11 is MSB for 12-bit
resolution
Interrupt Registers (04, 05, 06, and 07 Hex)
Registers 04 and 05 hex set the Low (LO) threshold for the
interrupt pin and the interrupt flag. Register 04 hex is the LSB
and Register 05 hex is the MSB. By default, the interrupt
threshold LO is 00 hex for both LSB and MSB.
Registers 06 and 07 hex set the High (HI) threshold for the
interrupt pin and the interrupt flag. Register 06 hex is the LSB
and Register 07 hex is the MSB. By default, the interrupt
threshold HI is FF hex for both LSB and MSB.
Calculating Lux
The ISL29033 ADC output codes, DATA, are directly proportional
to lux in ambient light sensing, as shown in Equation 1.
Ecal =   DATA
(EQ. 1)
In this equation, Ecal is the calculated lux reading. The constant,
α, is determined by the full scale range and the ADC maximum
output counts. The constant is independent of the light sources
(fluorescent, incandescent, and sunlight) because the light
source IR component is removed during the light signal process.
The constant can also be viewed as the sensitivity (the smallest
lux measurement the device can measure), as shown in
Equation 2.
 = C-R----o-a---u-n---ng----te--m----ak----x-
(EQ. 2)
In this equation, Range(k) is as defined in Table 6. Countmax is
the maximum output counts from the ADC.
The transfer function used for n-bits ADC is as shown in
Equation 3:
Ecal = R-----a----n--2--g--n--e------k----  DATA
(EQ. 3)
In this equation, n = 4, 8, 12 or 16 and is the number of ADC bits
programmed in the command register. The number 2n
represents the maximum number of counts possible from the
ADC output. Data is the ADC output stored in data
Registers 02 hex and 03 hex.
Integration and Conversion Time
ADC resolution and fOSC determine the integration time, tint, as
shown in Equation 4.
tint = 2n  -f-O----1-S----C-- = 2n  6----5---5----k---H--R---z--E---X----T-4---9---9----k------
(EQ. 4)
In this equation, n is the number of bits of resolution and n = 4, 8,
12 or 16. Therefore, 2n is the number of clock cycles. The value
of n can be programmed at the command register, Register 01
hex, Bits 3 and 2 see (Table 8).
REXT
(kΩ)
499
1000
TABLE 8. INTEGRATION TIME OF n-BIT ADC
n = 16-BIT
(ms)
n = 12-BIT
(ms)
n = 8-BIT
(µs)
n = 4-BIT
(µs)
100
6.25
391
24
200
12.5
782
48
Submit Document Feedback
9
FN7656.5
September 28, 2016