MAX11040KGUU+T Maxim Integrated, MAX11040KGUU+T Datasheet - Page 10
MAX11040KGUU+T
Manufacturer Part Number
MAX11040KGUU+T
Description
Analog to Digital Converters - ADC 24Bit 4Ch Simul-Samp Cascadable Sig Delt
Manufacturer
Maxim Integrated
Datasheet
1.MAX11060GUUT.pdf
(35 pages)
Specifications of MAX11040KGUU+T
Rohs
yes
Number Of Channels
4
Architecture
Sigma-Delta
Conversion Rate
64 KSPs
Resolution
24 bit
Input Type
Differential
Snr
106 dB, 117 dB
Interface Type
4-Wire (SPI, Microwire), QSPI
Operating Supply Voltage
2.7 V to 3.6 V, 3 V to 3.6 V
Maximum Operating Temperature
+ 105 C
Mounting Style
SMD/SMT
Maximum Power Dissipation
1096 mW
Minimum Operating Temperature
- 40 C
Number Of Converters
4
Voltage Reference
Internal 2.2 V
24-/16-Bit, 4-Channel, Simultaneous-Sampling,
Cascadable, Sigma-Delta ADCs
MAX11040K/MAX11060
10
11, 28
12, 27
PIN
13
14
15
16
17
18
19
20
21
CASCOUT
OVRFLW
CLKOUT
CASCIN
FAULT
NAME
DGND
DVDD
DOUT
SCLK
DIN
CS
Digital Ground
Positive Digital Supply Voltage. Bypass each DVDD to DGND with a 1μF capacitor in parallel with a
0.01μF capacitor as close as possible to the device.
Cascade Input. A logic-low on CASCIN while CS is a logic-low during the last cycle of a byte signals the
device to perform the requested data transfer during subsequent bytes using DIN and DOUT. Once the
requested transfer is completed, the part three-states DOUT and ignores DIN until a new command is
issued. CASCIN is clocked in at the rising edge of SCLK. Connect CASCIN to DGND when not daisy
chaining multiple devices. See the Multiple Device Connection section for connection recommendations.
Cascade Output. CASCOUT is driven low during the last cycle of the last byte of a data transfer to signal
the next device in the daisy-chain to begin transferring data on the next byte. CASCOUT changes after
the rising edge of SCLK. Leave CASCOUT unconnected when not daisy chaining multiple devices. See
the Multiple Device Connection section.
Active-Low Chip-Select Input. A falling edge on CS while CASCIN is a logic-low enables DIN and DOUT
for data transfer. A logic-high on CS prevents data from being clocked in on DIN and places DOUT in a
high-impedance state.
Serial-Clock Input. Clocks in data at DIN on the falling edge of SCLK and clocks out data at DOUT on the
rising edge of SCLK. SCLK must idle high (CPOL = 1).
Serial Data Input. Data at DIN is clocked in on the falling edge of SCLK.
Serial Data Output. The drive for DOUT is enabled by a falling edge on CS while CASCIN is low or by a
falling edge on CASCIN while CS is low. DOUT is disabled/three-stated when CS is high or after the
appropriate number of data bytes have been transferred in response to the requested command. Data is
clocked out at DOUT on the rising edge of SCLK.
Acti ve- Low O ver vol tag e Faul t Ind i cator Outp ut. F AU LT g oes l ow w hen any anal og i np ut g oes outsi d e the faul t
thr eshol d r ang e ( b etw een V
r esi stor , al l ow i ng w i r e- N OR functi onal i ty. S ee the Anal og Inp ut Over vol tag e and Faul t P r otecti on secti on.
Active-Low Channel Data Overflow Output. OVRFLW goes low when a conversion result goes outside the
voltage range bounded by the positive and negative full scale on one or more of the analog input
channels or when FAULT goes low. The OVRFLW output is open drain with a 30kΩ internal pullup resistor,
allowing wire-NOR functionality. See the Analog Input Overvoltage and Fault Protection section.
Buffered Clock Output. When the XTALEN bit in the configuration register is 1 and a crystal is installed
between XIN and XOUT, CLKOUT provides a buffered version of the internal oscillator’s clock. Setting the
XTALEN bit to 0 places CLKOUT in a high-impedance state.
P FT
and V
N FT
) . The F AU LT outp ut i s op en d r ai n w i th a 30kΩ i nter nal p ul l up
FUNCTION
Pin Description (continued)
Maxim Integrated
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