MAX114EAG+ Maxim Integrated Products, MAX114EAG+ Datasheet - Page 10
MAX114EAG+
Manufacturer Part Number
MAX114EAG+
Description
IC ADC 8BIT 1MSPS 24-SSOP
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX114CAG.pdf
(12 pages)
Specifications of MAX114EAG+
Number Of Bits
8
Sampling Rate (per Second)
1M
Data Interface
Parallel
Number Of Converters
3
Power Dissipation (max)
40mW
Voltage Supply Source
Single Supply
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
24-SSOP
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
to break this current path during power-down. The FET
should have an on-resistance of less than 2Ω with a 5V
gate drive. When REF- is switched, as in Figure 7d, a
new conversion can be initiated after waiting a period
of time equal to the power-up delay (t
channel FET’s turn-on time.
Although REF+ is frequently connected to V
cuit of Figure 7d uses a low-current, low-dropout,
4.096V voltage reference: the MAX874. Since the
MAX874 cannot continuously furnish enough current for
the reference resistance, this circuit is intended for
applications where the MAX114/MAX118 are normally
in standby and are turned on in order to make mea-
surements at intervals greater than 65µs. C1 (the
capacitor connected to REF+) is slowly charged by the
MAX874 during the standby period, and furnishes the
reference current during the short measurement period.
C1’s 3.3µF value ensures a voltage drop of less than
1/2LSB when performing four to eight successive con-
versions. Larger capacitors reduce the error still further.
Use ceramic or tantalum capacitors for C1.
When power is first applied, perform a conversion to ini-
tialize the MAX114/MAX118. Disregard the output data.
Use a 4.7µF electrolytic in parallel with a 0.1µF ceramic
capacitor to bypass V
lead lengths.
Bypass the reference inputs with 0.1µF capacitors, as
shown in Figures 7a, 7b, and 7c.
+5V, 1Msps, 4 & 8-Channel,
8-Bit ADCs with 1µA Power-Down
Figure 8. Equivalent Input Circuit
10
V
IN2
______________________________________________________________________________________
R
IN
.
.
.
MUX
DD
R
MAX114
MAX118
ON
to GND. Minimize capacitor
T/H
Initial Power-Up
UP
) plus the N-
Bypassing
DD
, the cir-
Figure 8 shows the equivalent circuit of the MAX114/
MAX118 input. When a conversion starts and WR is
low, V
During this acquisition phase, the input capacitors
charge to the input voltage through the resistance of
the internal analog switches. In addition, about 22pF of
stray capacitance must be charged. The input can be
modeled as an equivalent RC network (Figure 9). As
source impedance increases, the capacitors take
longer to charge.
The typical 32pF input capacitance allows source resis-
tance as high as 800Ω without setup problems. For
larger resistances, the acquisition time (t
increased.
Internal protection diodes, which clamp the analog
input to V
swing from GND - 0.3V to V
However, for accurate conversions near full scale, the
inputs must not exceed V
lower than GND by 50mV.
If the analog input exceeds 50mV beyond the sup-
plies, limit the input current to no more than 2mA,
as excessive current will degrade the conversion
accuracy of the on channel.
The track/hold enters hold mode when a conversion
starts (RD low or WR low). INT goes low at the end of
the conversion, at which point the track/hold enters
track mode. The next conversion can start after the min-
imum acquisition time, t
Figure 9. RC Network Equivalent Input Model
IN_
V
IN_
DD
is connected to sixteen 0.6pF capacitors.
and GND, allow the channel input pins to
R
IN
V
IN
22pF
ACQ
2k
DD
.
DD
by more than 50mV or be
+ 0.3V without damage.
10pF
MAX114
MAX118
Analog Inputs
ACQ
Track/Hold
) must be
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