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MAX1302 Datasheet, PDF (15/31 Pages) Maxim Integrated Products – 8-/4-Channel, VREF Multirange Inputs, Serial 16-Bit ADCs
8-/4-Channel, ±VREF Multirange Inputs,
Serial 16-Bit ADCs
CS
SCLK
SSTRB
BYTE 1
BYTE 2
BYTE 3
BYTE 4
DIN
S C2 C1 C0 0 0 0 0
ANALOG INPUT
TRACK AND HOLD*
HOLD
tACQ
TRACK
fSAMPLE ≈ fSCLK / 32
SAMPLING INSTANT
HOLD
HIGH
DOUT IMPEDANCE
HIGH
B15 B14 B13 B12 B11 B10 B9 B8 B7 B6 B5 B4 B3 B2 B1 B0 IMPEDANCE
*TRACK AND HOLD TIMING IS CONTROLLED BY SCLK.
Figure 2. External Clock-Mode Conversion (Mode 0)
As a result, the analog input impedance is relatively
constant over the input voltage as shown in Figure 5.
Single-ended conversions are internally referenced to
AGND1 (Tables 3 and 4). In differential mode, IN+ and
IN- are selected according to Tables 3 and 5. When con-
figuring differential channels, the differential pair follows
the analog configuration byte for the positive channel.
For example, to configure CH2 and CH3 for a ±VREF dif-
ferential conversion, set the CH2 analog configuration
byte for a differential conversion with the ±VREF range
(1010 1100). To initiate a conversion for the CH2 and
CH3 differential pair, issue the command 1010 0000.
Analog Input Bandwidth
The MAX1302/MAX1303 input-tracking circuitry has a
1.5MHz small-signal bandwidth. The 1.5MHz input band-
width makes it possible to digitize high-speed transient
events. Harmonic distortion increases when digitizing
signal frequencies above 15kHz as shown in the THD, -
SFDR vs. Analog Input Frequency plot in the Typical
Operating Characteristics.
Analog Input Range and Fault Tolerance
Figure 7 illustrates the software-selectable single-
ended analog input voltage range that produces a valid
digital output. Each analog input channel can be inde-
pendently programmed to one of seven single-ended
input ranges by setting the R[2:0] control bits with
DIF/SGL = 0.
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