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| MAX1400_02 Datasheet, PDF (16/34 Pages) Maxim Integrated Products – +5V, 18-Bit, Low-Power, Multichannel, Oversampling (Sigma-Delta) ADC | |||
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+5V, 18-Bit, Low-Power, Multichannel,
Oversampling (Sigma-Delta) ADC
Table 4. SCAN Mode Scanning
Sequences (SCAN = 1)
DIFF M1 M0
SEQUENCE
0
0
0
AIN1âAIN6, AIN2âAIN6, AIN3âAIN6,
AIN4âAIN6, AIN5âAIN6
AIN1âAIN6, AIN2âAIN6, AIN3âAIN6,
0
0
1 AIN4âAIN6, AIN5âAIN6, CALOFF,
CALGAIN
AIN1âAIN6, AIN2âAIN6,
0
1
0 AIN3âAIN6, AIN4âAIN6,
AIN5âAIN6, CALOFF, CALGAIN
1
0
0 AIN1âAIN2, AIN3âAIN4, AIN5âAIN6
1
0
1
AIN1âAIN2, AIN3âAIN4,
AIN5âAIN6, CALOFF, CALGAIN
1
1
0
AIN1âAIN2, AIN3âAIN4,
AIN5âAIN6, CALOFF, CALGAIN
Note: All other combinations reserved.
Table 5. Available Input Channels
(SCAN = 0)
DIFF M1 M0
AVAILABLE CHANNELS
0
0
0
AIN1âAIN6, AIN2âAIN6,
AIN3âAIN6, AIN4âAIN6
0
0
1 CALOFF
0
1
0 CALGAIN
1
0
0 AIN1âAIN2, AIN3âAIN4, AIN5âAIN6
1
0
1 CALOFF
1
1
0 CALGAIN
Special Function Register (Write-Only)
MDOUT: (Default = 0) Modulator Out Bit. MDOUT = 0
enables data readout on the DOUT pin, the normal con-
dition for the serial interface. MDOUT = 1 changes the
function of the DOUT and INT pins, providing raw, sin-
gle-bit modulator output instead of the normal serial-
data interface output. This allows custom filtering
directly on the modulator output, without going through
the on-chip digital filter. The INT pin provides a clock to
indicate when the modulator data at DOUT should be
sampled (falling edge of INT). Note that in this mode,
the on-chip digital filter continues to operate normally.
When MDOUT is returned to 0, valid data may be
accessed through the normal serial-interface read
operation.
FULLPD: (Default = 0) Complete Power-Down Bit.
FULLPD = 1 forces the part into a complete power-
down condition, which includes the clock oscillator. The
serial interface continues to operate. The part requires a
hardware reset to recover correctly from this condition.
Note: Changing the reserved bits in the special-func-
tion register from the default status of all 0s will select
one of the reserved modes and the part will not operate
as expected. This register is a write-only register.
However, in the event that this register is mistakenly
read, clock 24 bits of data out of the part to restore it to
the normal interface-idle state.
Transfer-Function Registers
The three transfer-function registers control the method
used to map the input voltage to the output codes. All
of the registers have the same format. The mapping of
control registers to associated channels depends on
the mode of operation and is affected by the state of
M1, M0, DIFF, and SCAN (Tables 8, 9, and 10).
Special Function Register (Write-Only)
First Bit (MSB)
FUNCTION
RESERVED BITS
Name
0
0
MDOUT
0
Defaults
0
0
0
0
Transfer-Function Register
First Bit (MSB)
FUNCTION
Name
Defaults
PGA GAIN CONTROL
G2
G1
G0
U/B
0
0
0
0
RESERVED BITS
0
0
0
0
(LSB)
0
FULLPD
0
0
(LSB)
OFFSET CORRECTION
D3
D2
D1
D0
0
0
0
0
16 ______________________________________________________________________________________
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