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MAX1122EGK Datasheet, PDF (11/17 Pages) Maxim Integrated Products – 1.8V, 10-Bit, 170Msps Analog-to-Digital Converter with LVDS Outputs for Wideband Applications
1.8V, 10-Bit, 170Msps Analog-to-Digital Converter
with LVDS Outputs for Wideband Applications
SAMPLING EVENT
INN
SAMPLING EVENT
SAMPLING EVENT
SAMPLING EVENT
INP
CLKN
CLKP
DCLKP
DCLKN
tAD
N
tCPDL
N-8
tPDL
N+1
tLATENCY
N-7
tCH
N+8
tCL
N+9
N
tCPDL - tPDL
N+1
D0P/N–D9P/N
ORP/N
N-8
N-7
N-1
N
N+1
tCPDL - tPDL ~ 0.4 x tSAMPLE with tSAMPLE = 1/fSAMPLE
NOTE: THE ADC SAMPLES ON THE RISING EDGE OF CLKP. THE RISING EDGE OF DCLKP CAN BE USED TO EXTERNALLY LATCH THE OUTPUT DATA.
Figure 4. System and Output Timing Diagram
Analog Inputs (INP, INN)
INP and INN are the fully differential inputs of the
MAX1122. Differential inputs usually feature good rejec-
tion of even-order harmonics, which allows for enhanced
AC performance as the signals are progressing through
the analog stages. The MAX1122 analog inputs are self-
biased at a common-mode voltage of 1.4V and allow a
differential input voltage swing of 1.25VP-P. Both inputs
are self-biased through 2.2kΩ resistors, resulting in a
typical differential input resistance of 4.4kΩ. It is recom-
mended to drive the analog inputs of the MAX1122 in
AC-coupled configuration to achieve best dynamic per-
formance. See the AC-Coupled Analog Inputs section for
a detailed discussion of this configuration.
On-Chip Reference Circuit
The MAX1122 features an internal 1.23V bandgap ref-
erence circuit (Figure 3), which, in combination with an
internal reference-scaling amplifier, determines the full-
scale range of the MAX1122. Bypass REFIO with a
0.1µF capacitor to AGND. To compensate for gain
errors or increase the ADC’s full-scale range, the volt-
age of this bandgap reference can be indirectly adjust-
ed by adding an external resistor (e.g., 100kΩ trim
potentiometer) between REFADJ and AGND or REFADJ
and REFIO. See the Applications Information section for
a detailed description of this process.
OVCC
VOP
2.2kΩ
VON
2.2kΩ
OGND
Figure 5. Simplified LVDS Output Architecture
Clock Inputs (CLKP, CLKN)
Designed for a differential LVDS clock input drive, it is
recommended to drive the clock inputs of the MAX1122
with an LVDS-compatible clock to achieve the best
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