MAX110EVC32-DIP Maxim Integrated Products, MAX110EVC32-DIP Datasheet - Page 11
MAX110EVC32-DIP
Manufacturer Part Number
MAX110EVC32-DIP
Description
EVAL KIT FOR MAX110
Manufacturer
Maxim Integrated Products
Specifications of MAX110EVC32-DIP
Number Of Adc's
1
Number Of Bits
14
Sampling Rate (per Second)
50
Data Interface
Serial
Inputs Per Adc
2 Differential
Input Range
±VREF
Power (typ) @ Conditions
4.35mW @ 50SPS
Voltage Supply Source
Single Supply
Operating Temperature
0°C ~ 70°C
Utilized Ic / Part
MAX110, MAX111
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
The output data from the MAX110/MAX111 is arranged
in twos-complement format (Figures 4, 5). The sign bit
(POL) is shifted out first, followed by the overrange bit
(OR), and the 14 data bits (MSB first) (see Figure 6).
The MAX110 operates from ±5V power supplies and
converts low-frequency analog signals in the ±3V
range when using the maximum reference voltage of
V
range, greater accuracy is obtained within ±2.5V (see
Electrical Characteristics for details). Note that a nega-
tive input voltage is defined as V
MAX110, the absolute voltage at any analog input pin
must remain within the (V
range.
The MAX111 operates from a single +5V supply and
converts low-frequency differential analog signals in the
±1.5V range when using the maximum reference volt-
age of V
Characteristics , greater accuracy is achieved within the
±1.2V range. The absolute voltage at any analog input
pin for the MAX111 must remain within 0V to V
When V
The overrange bit (OFL) is provided to sense when the
input voltage level has exceeded the reference voltage
level. The converter does not “saturate” until the input
voltage is typically 20% larger. The linearity is not guar-
anteed in this range. Note that the overrange bit works
Figure 3a. Connection for External-Clock Mode
REF
= 3V (V
IN-
TTL/CMOS
REF
> V
REF
= 1.5V. As indicated in the Electrical
IN+
( ) ARE FOR MAX111.
Low-Cost, 2-Channel, ±14-Bit Serial ADCs
= V
the input is interpreted as negative.
______________________________________________________________________________________
REF+
RCSEL
XCLK
SS
- V
MAX110
MAX111
-5V (0V)
V
SS
V
+5V
DD
REF-
+ 2.25V) to (V
(AGND)
). Within the ±3V input
GND
IN-
ADC Operation
> V
IN+
DD
DD
. For the
- 2.25V)
- 3.2V.
properly if the reference voltage remains within the rec-
ommended voltage range (see Reference Inputs ). If the
reference voltage exceeds the recommended input
range, the overrange bit may not operate properly.
Data is transferred into and out of the serial I/O shift
register by pulling CS low and applying a serial clock
at SCLK. This fully static shift register allows SCLK to
range from DC to 2MHz. Output data from the ADC is
clocked out on SCLK’s falling edge and should be read
on SCLK’s rising edge. Input data to the ADC at DIN is
clocked in on SCLK’s rising edge. A new conversion
begins when CS returns high, provided the MSB in the
input control word (NO-OP) is a 1 (see Using the
MAX110/MAX111 with MICROWIRE, SPI, and QSPI
Serial Interfaces ). Figure 6 shows the detailed serial-
interface timing diagram.
C C S S must remain high during the conversion (while
BUSY remains low). Bringing CS low during the conver-
sion causes the ADC to stop converting, and may
result in erroneous output data.
Figure 7 shows the most common serial-interface con-
nections. The MAX110/MAX111 are compatible with
SPI, QSPI (CPHA = 0, CPOL = 0), and MICROWIRE
serial-interface standards.
Figure 3b. Connection for Internal RC-Oscillator Mode—XCLK
connects to the internal RC oscillator. Note, the pull-up resistor
is not necessary if the internal oscillator is never shut down.
Digital Interface—Starting a Conversion
Using the MAX110/MAX111 with SPI, QSPI, and
1M
+5V
( ) ARE FOR MAX111.
RCSEL
XCLK
MICROWIRE Serial Interfaces
MAX110
MAX111
-5V (0V)
V
SS
+5V
V
DD
(AGND)
GND
11
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