MAX1034BEUG+ Maxim Integrated, MAX1034BEUG+ Datasheet - Page 24
MAX1034BEUG+
Manufacturer Part Number
MAX1034BEUG+
Description
Analog to Digital Converters - ADC 8-/4-Channel, Multirange Inputs,
Manufacturer
Maxim Integrated
Datasheet
1.MAX1034BEUG.pdf
(31 pages)
Specifications of MAX1034BEUG+
Rohs
yes
Number Of Channels
8/4
Architecture
SAR
Conversion Rate
115 kSPs
Resolution
14 bit
Input Type
Single-Ended/Differential
Snr
84.5 dB
Interface Type
3-Wire, QSPI, SPI
Operating Supply Voltage
2.7 V to 5.25 V
Maximum Operating Temperature
+ 85 C
Mounting Style
SMD/SMT
Package / Case
TSSOP-24
Maximum Power Dissipation
1111.1 mW
Minimum Operating Temperature
- 40 C
Number Of Converters
1
Voltage Reference
4.136 V
8-/4-Channel, ±V
Serial 14-Bit ADCs
For the external acquisition mode, CS must remain low
for the first 15 clock cycles and then rise on or after the
falling edge of the 16th clock cycle as shown in Figure 3.
For optimal performance, idle DIN and SCLK during the
conversion. With careful board layout, transitions at DIN
and SCLK during the conversion have a minimal impact
on the conversion result.
After the conversion is complete, SSTRB asserts high
and CS can be brought low to read the conversion
result. SSTRB returns low on the rising SCLK edge of
the subsequent start bit.
In internal clock mode, the internal clock controls both
acquisition and conversion of the analog signal. The inter-
nal clock starts approximately 100ns to 400ns after the
falling edge of the eighth SCLK and has a rate of about
4.5MHz. The analog input sampling instant occurs at the
falling edge of the 11th internal clock signal (Figure 4).
For the internal clock mode, CS must remain low for the
first seven SCLK cycles and then rise on or after the
falling edge of the eighth SCLK cycle. After the conver-
sion is complete, SSTRB asserts high and CS can be
brought low to read the conversion result. SSTRB returns
low on the rising SCLK edge of the subsequent start bit.
As shown in Table 8, set M[2:0] = 100 to reset the
MAX1034/MAX1035 to its default conditions. The
default conditions are full power operation with each
channel configured for ±V
conversions using external clock mode (mode 0).
Table 8. Mode-Control Bits M[2:0]
24
______________________________________________________________________________________
M2
0
0
0
0
1
1
1
1
M1
0
0
1
1
0
0
1
1
Internal Clock Mode (Mode 2)
REF
M0
0
1
0
1
0
1
0
1
, bipolar, single-ended
External Clock (DEFAULT)
External Acquisition
Internal Clock
Reserved
Reset
Reserved
Partial Power-Down
Full Power-Down
REF
Reset (Mode 4)
Multirange Inputs,
As shown in Table 8, when M[2:0] = 110, the device
enters partial power-down mode. In partial power-
down, all analog portions of the device are powered
down except for the reference voltage generator and
bias supplies.
To exit partial power-down, change the mode by issu-
ing one of the following mode-control bytes (see the
Mode Control section):
• External-Clock-Mode Control Byte
• External-Acquisition-Mode Control Byte
• Internal-Clock-Mode Control Byte
• Reset Byte
• Full Power-Down-Mode Control Byte
This prevents the MAX1034/MAX1035 from inadvertent-
ly exiting partial power-down mode because of a CS
glitch in a noisy digital environment.
When M[2:0] = 111, the device enters full power-down
mode and the total supply current falls to 1µA (typ). In
full power-down, all analog portions of the device are
powered down. When using the internal reference,
upon exiting full power-down mode, allow 10ms for the
internal reference voltage to stabilize prior to initiating a
conversion.
To exit full power-down, change the mode by issuing
one of the following mode-control bytes (see the Mode
Control section):
• External-Clock-Mode Control Byte
• External-Acquisition-Mode Control Byte
MODE
Partial Power-Down Mode (Mode 6)
Full Power-Down Mode (Mode 7)
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