MAX1282EVC16 Maxim Integrated Products, MAX1282EVC16 Datasheet - Page 11
MAX1282EVC16
Manufacturer Part Number
MAX1282EVC16
Description
EVAL KIT FOR MAX1282
Manufacturer
Maxim Integrated Products
Specifications of MAX1282EVC16
Number Of Adc's
1
Number Of Bits
12
Sampling Rate (per Second)
400k
Data Interface
Serial
Inputs Per Adc
4 Single Ended
Input Range
±VREF/2
Power (typ) @ Conditions
13.75mW @ 400kSPS
Voltage Supply Source
Single Supply
Operating Temperature
0°C ~ 70°C
Utilized Ic / Part
MAX1282
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
The MAX1282/MAX1283 ADCs use a successive-
approximation conversion technique and input T/H cir-
cuitry to convert an analog signal to a 12-bit digital out-
put. A flexible serial interface provides easy interface to
microprocessors (µPs). Figure 3 shows a functional dia-
gram of the MAX1282/MAX1283.
The equivalent circuit of Figure 4 shows the MAX1282/
MAX1283’s input architecture, which is composed of a
T/H, input multiplexer, input comparator, switched-
capacitor DAC, and reference.
In single-ended mode, the positive input (IN+) is con-
nected to the selected input channel and the negative
input (IN-) is set to COM. In differential mode, IN+ and
IN- are selected from the following pairs: CH0/CH1 and
CH2/CH3. Configure the channels according to Tables
1 and 2.
The MAX1282/MAX1283 input configuration is pseudo-
differential because only the signal at IN+ is sampled.
The return side (IN-) is connected to the sampling
capacitor while converting and must remain stable
within ±0.5LSB (±0.1LSB for best results) with respect
to GND during a conversion.
If a varying signal is applied to the selected IN-, its
amplitude and frequency must be limited to maintain
accuracy. The following equations express the relation-
ship between the maximum signal amplitude and its
frequency to maintain ±0.5LSB accuracy. Assuming a
Figure 3. Functional Diagram
REFADJ
SHDN
SCLK
COM
CH0
CH1
CH2
CH3
DIN
CS
REF
14
15
13
7
2
3
4
5
6
9
8
REGISTER
ANALOG
INPUT
INPUT
SHIFT
MUX
300ksps/400ksps, Single-Supply, 4-Channel,
REFERENCE
Serial 12-Bit ADCs with Internal Reference
+1.22V
______________________________________________________________________________________
CONTROL
LOGIC
Detailed Description
T/H
Pseudo-Differential Input
17k
A ≈
+2.500V
IN
CLOCK
2.05
SAR ADC
12-BIT
CLOCK
REF
INT
OUT
MAX1282
MAX1283
REGISTER
OUTPUT
SHIFT
1
16
10
11
12
DOUT
SSTRB
V
V
GND
DD1
DD2
sinusoidal signal at IN-, the input voltage is determined
by:
The maximum voltage variation is determined by:
A 0.65Vp-p, 60Hz signal at IN- will generate a ±0.5LSB
error when using a +2.5V reference voltage and a
2.5µs conversion time (15 / f
ence voltage is used at IN-, connect a 0.1µF capacitor
to GND to minimize noise at the input.
During the acquisition interval, the channel selected as
the positive input (IN+) charges capacitor C
acquisition interval spans three SCLK cycles and ends
on the falling SCLK edge after the input control word’s
last bit has been entered. At the end of the acquisition
interval, the T/H switch opens, retaining charge on
C
sion interval begins with the input multiplexer switching
C
the comparator’s input. The capacitive DAC adjusts
during the remainder of the conversion cycle to restore
node ZERO to V
tion. This action is equivalent to transferring a
12pF
weighted capacitive DAC, which in turn forms a digital
representation of the analog input signal.
Figure 4. Equivalent Input Circuit
HOLD
HOLD
COM
max
CH0
CH1
CH2
CH3
SINGLE-ENDED MODE: IN+ = CH0–CH3, IN- = COM.
PSEUDO-DIFFERENTIAL MODE: IN+ AND IN- SELECTED FROM
PAIRS OF CH0/CH1 AND CH2/CH3.
*INCLUDES ALL INPUT PARASITICS
✕
from IN+ to IN-. This unbalances node ZERO at
as a sample of the signal at IN+. The conver-
(V
d
INPUT
MUX
(
IN
ν
GND
C
REF
dt
SWITCH
IN
+ - V
−
ν
)
*
IN
DD1
IN
=
6pF
− =
V
-) charge from C
C
HOLD
IN
12pF
HOLD
/ 2 within the limits of 12-bit resolu-
CAPACITIVE
(
−
V
IN
DAC
2 f
π
−
TRACK
ZERO
R
800Ω
)
≤
IN
sin(2 ft)
SCLK
t
1LSB
CONV
π
AT THE SAMPLING INSTANT,
THE MUX INPUT SWITCHES FROM
THE SELECTED IN+ CHANNEL TO
THE SELECTED IN- CHANNEL.
). When a DC refer-
HOLD
V
DD1
=
/2
COMPARATOR
2 t
12
to the binary-
V
REF
CONV
HOLD
. The
11
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