MAX1112C/D Maxim Integrated, MAX1112C/D Datasheet - Page 16
MAX1112C/D
Manufacturer Part Number
MAX1112C/D
Description
Analog to Digital Converters - ADC DICE SALES DICE
Manufacturer
Maxim Integrated
Datasheet
1.MAX1113CEE.pdf
(20 pages)
Specifications of MAX1112C/D
Number Of Channels
8/4
Architecture
SAR
Conversion Rate
50 KSPs
Resolution
8 bit
Input Type
Single-Ended/Differential
Interface Type
4-Wire (SPI, Microwire), QSPI
Operating Supply Voltage
4.5 V to 5.5 V
Maximum Power Dissipation
640 mW
Number Of Converters
1
Voltage Reference
Internal 4.096 V or External
When power is first applied, and if SHDN is not pulled
low, internal power-on reset circuitry activates the
MAX1112/MAX1113 in internal clock mode. SSTRB is
high on power-up and, if CS is low, the first logical 1 on
DIN is interpreted as a start bit. Until a conversion takes
place, DOUT shifts out zeros. No conversions should
be performed until the reference voltage has stabilized
(see the Wakeup Time specifications in the Timing
Characteristics).
When operating at speeds below the maximum sam-
pling rate, the MAX1112/MAX1113’s automatic power-
down mode can save considerable power by placing
the converters in a low-current shutdown state between
conversions. Figure 13 shows the average supply cur-
rent as a function of the sampling rate.
Select power-down with PD1 of the DIN control byte
with SHDN high or high impedance (Table 3). Pull
SHDN low at any time to shut down the converters com-
pletely. SHDN overrides PD1 of the control byte.
Figures 14a and 14b illustrate the various power-down
sequences in both external and internal clock modes.
Software power-down is activated using bit PD1 of the
control byte. When software power-down is asserted, the
ADCs continue to operate in the last specified clock
mode until the conversion is complete. The ADCs then
power down into a low quiescent-current state. In internal
clock mode, the interface remains active, and conversion
results can be clocked out after the MAX1112/
MAX1113 have entered a software power-down.
The first logical 1 on DIN is interpreted as a start bit,
which powers up the MAX1112/MAX1113. If the DIN byte
contains PD1 = 1, then the chip remains powered up. If
PD1 = 0, power-down resumes after one conversion.
+5V, Low-Power, Multi-Channel,
Serial 8-Bit ADCs
Table 5. Hard-Wired Power-Down and
Internal Reference State
16
__________Applications Information
High Impedance
______________________________________________________________________________________
STATE
SHDN
1
0
Power-Down
DEVICE
Enabled
Enabled
MODE
Software Power-Down
Power-On Reset
Power-Down
REFERENCE
INTERNAL
Disabled
Disabled
Enabled
Pulling SHDN low places the converters in hard-wired
power-down. Unlike software power-down, the conversion
is not completed; it stops coincidentally with SHDN being
brought low. SHDN also controls the state of the internal
reference (Table 5). Letting SHDN high impedance
enables the internal 4.096V voltage reference. When
returning to normal operation with SHDN high impedance,
there is a t
where C
Pulling SHDN high disables the internal reference, which
saves power when using an external reference.
An external reference between 1V and V
connected directly at the REFIN terminal. The DC input
impedance at REFIN is extremely high, consisting of
leakage current only (typically 10nA). During a conver-
sion, the reference must be able to deliver up to 20µA
average load current and have an output impedance of
1kΩ or less at the conversion clock frequency. If the
reference has higher output impedance or is noisy,
bypass it close to the REFIN pin with a 0.1µF capacitor.
If an external reference is used with the MAX1112/
MAX1113, connect SHDN to V
reference and decrease power consumption.
Figure 13. Average Supply Current vs. Sampling Rate
LOAD
1000
100
10
RC
is the capacitive loading on the SHDN pin.
0
delay of approximately 1MΩ x C
C
CODE = 10101010
LOAD
10
= 60pF
C
CODE = 10101010
LOAD
SAMPLING RATE (ksps)
= 30pF
20
V
C
DD
LOAD
Hard-Wired Power-Down
= V
DD
External Reference
AT DOUT + SSTRB
REFIN
30
C
CODE = 11111111
LOAD
to disable the internal
= 5V
= 30pF
40
DD
50
should be
LOAD
,
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