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MAX106CHC-D Datasheet, PDF (17/31 Pages) Maxim Integrated Products – ±5V, 600Msps, 8-Bit ADC with On-Chip 2.2GHz Bandwidth Track/Hold Amplifier
±5V, 600Msps, 8-Bit ADC with On-Chip
2.2GHz Bandwidth Track/Hold Amplifier
ANALOG INPUTS ARE ESD PROTECTED
(NOT SHOWN IN THIS SIMPLIFIED DRAWING).
VIN+
50Ω
GNDI
50Ω
VIN-
+2.8V
+250mV
500mVp-p
FS ANALOG
INPUT RANGE
-250mV
VIN+
500mV
VIN-
VIN = ±250mV
0V
t
Figure 10a. Single-Ended Analog Input Signals
VEE
Figure 9. Simplified Analog Input Structure (Single-Ended/
Differential)
In a typical single-ended configuration, the analog
input signal (Figure 10a) enters the T/H amplifier stage
at the in-phase input (VIN+), while the inverted phase
input (VIN-) is reverse-terminated to GNDI with an
external 50Ω resistor. Single-ended operation allows for
an input amplitude of ±250mV. Table 3 shows a selec-
tion of input voltages and their corresponding output
codes for single-ended operation.
Differential Analog Inputs
To obtain a full-scale digital output with differential input
drive (Figure 10b), 250mVp-p must be applied between
VIN+ and VIN- (VIN+ = +125mV and VIN- = -125mV).
Midscale digital output codes (01111111 or 10000000)
occur when there is no voltage difference between
VIN+ and VIN-. For a zero-scale digital output code, the
+125mV
±250mV
FS ANALOG
INPUT RANGE
-125mV
250mV
VIN+
-250mV
VIN-
0V
t
Figure 10b. Differential Analog Input Signals
in-phase input (VIN+) must see -125mV and the invert-
ed input (VIN-) must see +125mV. A differential input
drive is recommended for best performance. Table 4
represents a selection of differential input voltages and
their corresponding output codes.
Table 3. Ideal Input Voltage and Output Code Results for Single-Ended Operation
VIN+
+250mV
+250mV - 1LSB
0V
-250mV + 1LSB
-250mV
VIN-
0V
0V
0V
0V
0V
OVERRANGE BIT
1
0
0
0
0
OUTPUT CODE
11111111 (full scale)
11111111
01111111
toggles
10000000
00000001
00000000 (zero scale)
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