MAX11607EWC+T Maxim Integrated, MAX11607EWC+T Datasheet - Page 19

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MAX11607EWC+T

Manufacturer Part Number
MAX11607EWC+T
Description
Analog to Digital Converters - ADC 10-Bit 4Ch 94.4sps 3.6V Precision ADC
Manufacturer
Maxim Integrated
Datasheet

Specifications of MAX11607EWC+T

Rohs
yes
Number Of Channels
4/2
Architecture
SAR
Conversion Rate
94.4 Ksps
Resolution
10 bit
Input Type
Single-Ended/Differential
Snr
60 dB
Interface Type
I2C
Operating Supply Voltage
2.7 V to 3.6 V
Maximum Operating Temperature
+ 85 C
Mounting Style
SMD/SMT
Package / Case
WLP-12
Maximum Power Dissipation
1.288 W
Minimum Operating Temperature
- 40 C
Number Of Converters
1
Voltage Reference
2.048 V
Figure 13. Bipolar Transfer Function
external bypass capacitor and works best when left
unconnected (SEL1 = 0).
The external reference can range from 1V to V
maximum conversion accuracy, the reference must be
able to deliver up to 40µA and have an output imped-
ance of 500Ω or less. If the reference has a higher out-
put impedance or is noisy, bypass it to GND as close
as possible to AIN_/REF with a 0.1µF capacitor.
Output data coding for the MAX11606–MAX11611 is
binary in unipolar mode and two’s complement in bipo-
lar mode with 1LSB = (V
of bits (10). Code transitions occur halfway between
successive-integer LSB values. Figure 12 and Figure
13 show the input/output (I/O) transfer functions for
unipolar and bipolar operations, respectively.
Only use PC boards. Wire-wrap configurations are not
recommended since the layout should ensure proper
separation of analog and digital traces. Do not run ana-
log and digital lines parallel to each other, and do not
layout digital signal paths underneath the ADC pack-
age. Use separate analog and digital PCB ground sec-
tions with only one star point (Figure 14) connecting the
two ground systems (analog and digital). For lowest
noise operation, ensure the ground return to the star
ground’s power supply is low impedance and as short
*V
011 . . . 111
011 . . . 110
000 . . . 010
000 . . . 001
000 . . . 000
111 . . . 111
111 . . . 110
111 . . . 101
100 . . . 001
100 . . . 000
COM
≥ V
OUTPUT CODE
REF
Layout, Grounding, and Bypassing
/2
1 LSB =
ZS = 0
-FS =
*V
- FS
FS = V
IN
= (AIN+) - (AIN-)
______________________________________________________________________________________
-V
1024
REF
V
2
REF
2
REF
REF
INPUT VOLTAGE (LSB)
10-Bit ADCs in Ultra-Small Packages
/2N) where N is the number
Transfer Functions
0
External Reference
Low-Power, 4-/8-/12-Channel, I
MAX11606–
MAX11611
+FS - 1 LSB
DD
. For
as possible. Route digital signals far away from sensi-
tive analog and reference inputs.
High-frequency noise in the power supply (V
influence the proper operation of the ADC’s fast com-
parator. Bypass V
two parallel capacitors, 0.1µF and 4.7µF, located as
close as possible to the MAX11606–MAX11611 power-
supply pin. Minimize capacitor lead length for best sup-
ply noise rejection, and add an attenuation resistor (5Ω)
in series with the power supply, if it is extremely noisy.
Integral nonlinearity (INL) is the deviation of the values on
an actual transfer function from a straight line. This straight
line can be either a best straight-line fit or a line drawn
between the endpoints of the transfer function, once offset
and gain errors have been nullified. The MAX11606–
MAX11611’s INL is measured using the endpoint.
Differential nonlinearity (DNL) is the difference between
an actual step width and the ideal value of 1LSB. A
DNL error specification of less than 1LSB guarantees
no missing codes and a monotonic transfer function.
Aperture jitter (t
the time between the samples.
Figure 14. Power-Supply Grounding Connection
*OPTIONAL
R* = 5Ω
3V OR 5V
V
DD
AJ
DD
) is the sample-to-sample variation in
MAX11606–
MAX11611
to the star ground with a network of
0.1µF
4.7µF
SUPPLIES
Differential Nonlinearity
Integral Nonlinearity
GND
V
LOGIC
Aperture Jitter
Definitions
= 3V/5V
3V/5V
CIRCUITRY
DIGITAL
DD
DGND
GND
2
) could
C,
19

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