
Part Name  Description  Manufacturer 
ISL29010IROZT7  LighttoDigital Output Sensor with High Sensitivity, Gain Selection, and I2C Interface  Intersil 
ISL29010IROZT7 Datasheet PDF : 14 Pages

ISL29010
Number of Clock Cycles, nbit ADC
The number of clock cycles determines “n” in the nbit ADC; 2n
clock cycles is a nbit ADC. n is programmable in the command
register in the width function. Depending on the application, a
good balance of speed and resolution has to be considered
when deciding for n. For fast and quick measurement, choose
the smallest n = 3. For maximum resolution without regard of
time, choose n = 15. Table 10 compares the tradeoff between
integration time and resolution. See Equations 10 and 11 for the
relation between integration time and n. See Equation 3 for the
relation of n and resolution.
TABLE 10. RESOLUTION AND INTEGRATION TIME
SELECTION
RANGE1
fOSC = 327kHz
RANGE4
fOSC = 655kHz
tINT RESOLUTION tINT RESOLUTION
n
(ms) LUX/COUNT (ms) (LUX/COUNT)
15
200
0.06
100
2
11
12.8
1.0
6.4
62.5
7
0.8
15.6
0.4
1,000
3
0.05
250
0.025
16,000
REXT = 100kΩ
External Scaling Resistor REXT and fosc
The ISL29010 uses an external resistor REXT to fix its
internal oscillator frequency, fOSC. Consequently, REXT
determines the fOSC, integration time and the FSR of the
device. fOSC, a dual speed mode oscillator, is inversely
proportional to REXT. For user simplicity, the proportionality
constant is referenced to fixed constants 100kΩ and
655kHz:
fOSC1
=
1
2
×
100kΩ
REXT
×
655 k H z
(EQ. 6)
fOSC2
=
100kΩ
REXT
×
655
k
Hz
(EQ. 7)
fOSC1 is oscillator frequency when Range1 or Range2 are
set. This is nominally 327kHz when REXT is 100kΩ.
fOSC2 is the oscillator frequency when Range3 or Range4
are set. This is nominally 655kHz when REXT is 100kΩ.
When the Range/Gain bits are set to Range1 or Range2,
fOSC runs at half speed compared to when Range/Gain bits
are set to Range3 and Range4.
fOSC1
=
1
2
(
fO
S
C
2
)
(EQ. 8)
The automatic fOSC adjustment feature allows significant
improvement of signaltonoise ratio when detecting very low
lux signals.
Integration Time or Conversion Time
Integration time is the period during which the device’s
analogtodigital ADC converter samples the photodiode
current signal for a lux measurement. Integration time, in
other words, is the time to complete the conversion of analog
photodiode current into a digital signal (number of counts).
Integration time affects the measurement resolution. For
better resolution, use a longer integration time. For short and
fast conversions use a shorter integration time.
The ISL29010 offers user flexibility in the integration time to
balance resolution, speed and noise rejection. Integration time
can be set internally or externally and can be programmed in
the command register 00(hex) Bit 5.
INTEGRATION TIME IN INTERNAL TIMING MODE
This timing mode is programmed in the command register
00(hex) Bit 5. Most applications will be using this timing
mode. When using the Internal Timing Mode, fOSC and
nbits resolution determine the integration time. tINT is a
function of the number of clock cycles and fOSC.
tINT
=
2m × 1
fosc
for Internal Timing Mode only
(EQ. 9)
m = 4, 8, 12, and16. n is the number of bits of resolution.
2m therefore is the number of clock cycles. n can be
programmed at the command register 00(hex) Bits 1 and 0.
Since fOSC is dual speed depending on the Gain/Range bit,
tINT is dual time. The integration time as a function of REXT
is shown in Equation 10:
tINT1
=
2m
×
REXT
327kHz × 100kΩ
(EQ. 10)
tINT1 is the integration time when the device is configured
for Internal Timing Mode and Gain/Range is set to Range1
or Range2.
tINT2
=
2m
×
REXT
655kHz × 100kΩ
(EQ. 11)
tINT2 is the integration time when the device is configured
for Internal Timing Mode and Gain/Range is set to Range3
or Range4.
TABLE 11. INTEGRATION TIMES FOR TYPICAL REXT VALUES
REXT
(kΩ)
RANGE1
RANGE2
n = 15BIT n = 11BIT
RANGE3
RANGE4
n = 11BIT
n=3
50
100
6.4
3.2
0.013
100**
200
13
6.5
0.025
200
400
26
13
0.050
500
1000
64
32
0.125
*Integration time in milliseconds
**Recommended REXT resistor value
7
FN6414.0
February 13, 2008

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