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ISL29013 Datasheet, PDF (8/14 Pages) Intersil Corporation – Light-to-Digital Output Sensor with High Sensitivity, Gain Selection, Interrupt Function and I2C Interface
ISL29013
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
n-bits resolution determine the integration time. tINT is a
function of the number of clock cycles and fOSC as shown in
Equation 9:
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
×
----------------R-----E----X---T-----------------
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
×
----------------R-----E----X---T-----------------
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 13. INTEGRATION TIMES FOR TYPICAL REXT VALUES
REXT
(kΩ)
RANGE1
RANGE2
n = 15-BIT n = 11-BIT
50
100
6.4
100**
200
13
200
400
26
500
1000
64
*Integration time in milliseconds
**Recommended REXT resistor value
RANGE3
RANGE4
n = 11-BIT
n=3
3.2
0.013
6.5
0.025
13
0.050
32
0.125
INTEGRATION TIME IN EXTERNAL TIMING MODE
This timing mode is programmed in the command register
00(hex) Bit 5. External Timing Mode is recommended when
integration time can be synchronized to an external signal
such as a PWM to eliminate noise.
To read the light count DATA output, the device needs three
sync_I2C commands to complete one measurement. The 1st
sync_I2C command starts the conversion of the diode array 1.
The 2nd sync_I2C completes the conversion of diode array 1
and starts the conversion of diode array 2. The 3rd sync_I2C
pules ends the conversion of diode array 2, outputs the light
count DATA, and starts over again to commence conversion
of diode array 1.
The integration time, tINT, is the sum of two identical time
intervals between the three sync pulses. tINT is determined
by Equation 12:
tINT
=
k----O----S----C--
fOSC
(EQ. 12)
where KOSC is the number of internal clock cycles obtained
from Timer data register and fOSC is the internal I2C
operating frequency
The internal oscillator, fOSC, operates identically in both the
internal and external timing modes, with the same
dependence on REXT. However, in External Timing Mode,
the number of clock cycles per integration is no longer fixed
at 2n. The number of clock cycles varies with the chosen
integration time, and is limited to 216 = 65,536. In order to
avoid erroneous lux readings the integration time must be
short enough not to allow an overflow in the counter register.
tINT
<
6----5---,--5---3----5-
fOSC
(EQ. 13)
fOSC = 327kHz*100kΩ/REXT. When Range/Gain is set to
Range1 or Range2.
fosc = 655kHz*100kΩ/REXT. When Range/Gain is set to
Range3 or Range4.
Noise Rejection
In general, integrating type ADC’s have excellent
noise-rejection characteristics for periodic noise sources
whose frequency is an integer multiple of the integration
time. For instance, a 60Hz AC unwanted signal’s sum from
0ms to k*16.66ms (k = 1,2...ki) is zero. Similarly, setting the
device’s integration time to be an integer multiple of the
periodic noise signal, greatly improves the light sensor
output signal in the presence of noise.
Flat Window Lens Design
A window lens will surely limit the viewing angle of the
ISL29013. The window lens should be placed directly on top
of the device. The thickness of the lens should be kept at
minimum to minimize loss of power due to reflection and
also to minimize loss of loss due to absorption of energy in
the plastic material. A thickness of t = 1mm is recommended
for a window lens design. The bigger the diameter of the
window lens the wider the viewing angle is of the ISL29013.
Table 14 shows the recommended dimensions of the optical
window to ensure both 35° and 45° viewing angle. These
dimensions are based on a window lens thickness of 1.0mm
and a refractive index of 1.59.
8
FN6485.0
February 13, 2008