MAX1402EVKIT Maxim Integrated Products, MAX1402EVKIT Datasheet - Page 24
MAX1402EVKIT
Manufacturer Part Number
MAX1402EVKIT
Description
EVAL KIT FOR MAX1402
Manufacturer
Maxim Integrated Products
Specifications of MAX1402EVKIT
Number Of Adc's
1
Number Of Bits
18
Sampling Rate (per Second)
480
Data Interface
Serial
Inputs Per Adc
6 Single Ended
Input Range
±VREF/2
Power (typ) @ Conditions
26.7mW @ 480SPS
Voltage Supply Source
Analog and Digital
Operating Temperature
0°C ~ 70°C
Utilized Ic / Part
MAX1402
Interface Type
SMA
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With/related Products
MAX1402
have low absolute temperature coefficients and tight
TC matching. Optimized for transducer excitation, the
current sources possess tight temperature tracking
allowing accurate compensation of errors due to IR
drops in long transducer cable runs. They may be
enabled or disabled using a single register control bit
(IOUT).
When used in unbuffered mode (BUFF = 0), the analog
inputs present a dynamic load to the driving circuitry.
The size of the sampling capacitor and the input sam-
pling frequency (Figure 5) determine the dynamic load
seen by the driving circuitry. The MAX1402 samples at a
constant rate for all gain settings. This provides a maxi-
mum time for the input to settle at a given data rate. The
dynamic load presented by the inputs varies with the
gain setting. For gains of +2V/V, +4V/V, and +8V/V, the
input sampling capacitor increases with the chosen
gain. Gains of +16V/V, +32V/V, +64V/V, and +128V/V
present the same input load as the x8 gain setting.
When designing with the MAX1402, as with any other
switched-capacitor ADC input, consider the advantages
and disadvantages of series input resistance. A series
resistor reduces the transient-current impulse to the
external driving amplifier. This improves the amplifier
phase margin and reduces the possibility of ringing.
+5V, 18-Bit, Low-Power, Multichannel,
Oversampling (Sigma-Delta) ADC
Table 13a. R
Mode—1x Modulator Sampling Frequency (MF1, MF0 = 00); X2CLK = 0; CLKIN = 2.4576MHz
24
Table 13b. R
Mode—2x Modulator Sampling Frequency (MF1, MF0 = 01); X2CLK = 0; CLKIN =
2.4576MHz
PGA GAIN
PGA GAIN
8, 16, 32,
8, 16, 32,
______________________________________________________________________________________
64, 128
64, 128
1
2
4
1
2
4
EXT
EXT
C
C
, C
Dynamic Input Impedance at the
EXT
EXT
, C
11.2
EXT
45
45
34
22
23
23
17
= 0pF
= 0pF
EXT
Channel Selection Network
Values for Less than 16-Bit Gain Error in Unbuffered (BUFF = 0)
Values for Less than 16-Bit Gain Error in Unbuffered (BUFF = 0)
C
C
EXT
EXT
9.9
9.9
8.5
6.7
20
20
17
13
= 50pF
= 50pF
EXTERNAL RESISTANCE R
EXTERNAL RESISTANCE R
C
C
EXT
EXT
9.7
6.5
6.5
5.8
4.9
= 100pF
13
13
12
= 100pF
The resistor spreads the transient-load current from the
sampler over time due to the RC time constant of the
circuit. However, an improperly chosen series resis-
tance can hinder performance in fast 16-bit converters.
The settling time of the RC network can limit the speed
at which the converter can operate properly, or reduce
the settling accuracy of the sampler. In practice, this
means ensuring that the RC time constant—resulting
from the product of the driving source impedance and
the capacitance presented by both the MAX1402’s
input and any external capacitances—is sufficiently
small to allow settling to the desired accuracy. Tables
13a–13d summarize the maximum allowable series
resistance vs. external capacitance for each MAX1402
gain setting in order to ensure 16-bit performance in
unbuffered mode.
Figure 5. Analog Input, Unbuffered Mode (BUFF = 0)
R
C
EXT
EXT
C
C
EXT
EXT
3.9
3.9
3.6
3.3
1.9
1.9
1.8
1.6
= 500pF
= 50pF
EXT
EXT
C
(kΩ)
(kΩ)
R
PIN
MUX
C
C
EXT
EXT
C
ST
0.93
= 1000pF
= 1000pF
2.2
2.2
2.0
1.9
1.1
1.1
1.0
R
SW
C
SAMPLE
C
C
EXT
EXT
0.58
0.58
0.53
0.49
0.29
0.29
0.27
0.24
= 5000pF
= 5000pF
C
C
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