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ISL29003IROZ-T7 View Datasheet(PDF) - Intersil

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ISL29003IROZ-T7 Datasheet PDF : 15 Pages
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ISL29003
TABLE 2. WRITE ONLY REGISTERS
REGISTER
ADDRESS
NAME
FUNCTIONS/
DESCRIPTION
b1xxx_xxxx
sync_iic
Writing a logic 1 to this address bit
ends the current ADC-integration
and starts another. Used only with
External Timing Mode.
bx1xx_xxxx
clar_int
Writing a logic 1 to this address bit
clears the interrupt.
Command Register 00(hex)
The Read/Write command register has five functions:
1. Enable; Bit 7. This function either resets the ADC or
enables the ADC in normal operation. A logic 0 disables
ADC to reset-mode. A logic 1 enables adc to normal
operation.
TABLE 3. ENABLE
BIT 7
OPERATION
0
Disable ADC-Core to Reset-Mode (default)
1
Enable ADC-Core to Normal Operation
2. ADCPD; Bit 6. This function puts the device in a
power-down mode. A logic 0 puts the device in normal
operation. A logic 1 powers down the device.
TABLE 4. ADCPD
BIT 6
OPERATION
0
Normal Operation (default)
1
Power-Down
For proper shut down operation, it is recommended to
disable ADC first then disable the chip. Specifically, the user
should first send I2C command with Bit 7 = 0 and then send
I2C command with Bit 6 = 1.
3. Timing Mode; Bit 5. This function determines whether the
integration time is done internally or externally. In Internal
Timing Mode, integration time is determined by an
internal dual speed oscillator (fOSC), and the n-bit (n = 4,
8, 12,16) counter inside the ADC. In External Timing
Mode, integration time is determined by the time between
two consecutive external-sync sync_iic pulse commands.
TABLE 5. TIMING MODE
BIT 5
OPERATION
0
Internal Timing Mode. Integration time is internally
timed determined by fOSC, REXT, and number of
clock cycles.
1
External Timing Mode. Integration time is externally
timed by the I2C host.
4. Photodiode Select Mode; Bits 3 and 2. This function
controls the mux attached to the two photodiodes. At
Mode1, the mux directs the current of Diode1 to the ADC.
At Mode2, the mux directs the current of Diode2 only to
the ADC. Mode3 is a sequential Mode1 and Mode2 with
an internal subtract function (Diode1 - Diode2).
TABLE 6. PHOTODIODE SELECT MODE; BITS 2 AND 3
BITS 3:2
MODE
0:0
MODE1. ADC integrates or converts Diode1 only.
Current is converted to an n-bit unsigned data.*
0:1
MODE2. ADC integrates or coverts Diode2 only.
Current is converted to an n-bit unsigned data.*
1:0
MODE3. A sequential MODE1 then MODE2
operation. The difference current is an (n-1) signed
data.*
1:1
No Operation.
*n = 4, 8, 12,16 depending on the number of clock cycles
function.
5. Width; Bits 1 and 0. This function determines the number
of clock cycles per conversion. 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 the device’s analog-to-digital (A/D) converter
samples the photodiode current signal for a lux
measurement.
BITS 1:0
0:0
0:1
1:0
1:1
TABLE 7. WIDTH
NUMBER OF CLOCK CYCLES
216 = 65,536
212 = 4,096
28 = 256
24 = 16
Control Register 01(hex)
The Read/Write control register has three functions:
1. Interrupt flag; Bit 5. This is the status bit of the interrupt.
The bit is set to logic high when the interrupt thresholds
have been triggered, and logic low when not yet
triggered. Writing a logic low clears/resets the status bit.
BIT 5
0
1
TABLE 8. INTERRUPT FLAG
OPERATION
Interrupt is cleared or not triggered yet
Interrupt is triggered
2. Range/Gain; Bits 3 and 2. The Full Scale Range can be
adjusted
adjusted
by
via
aI2nCexutseirnngatlhreesGisatoinr/RRaEnXgTeafnudn/cotrioitnc. an
be
Gain/Range has four possible values, Range(k) where k
is 1 through 4. Table 9 lists the possible values of
Range(k) and the resulting FSR for some typical value
REXT resistors.
6
FN7464.5
August 8, 2008
 

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