MAX106CHC Maxim, MAX106CHC Datasheet - Page 14
MAX106CHC
Manufacturer Part Number
MAX106CHC
Description
5V / 600Msps / 8-Bit ADC with On-Chip 2.2GHz Bandwidth Track/Hold Amplifier
Manufacturer
Maxim
Datasheet
1.MAX106CHC.pdf
(32 pages)
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The MAX106 features an on-chip +2.5V precision
bandgap reference that can be used by connecting
REFOUT to REFIN. This connects the reference output
to the positive input of the reference buffer. The buffer’s
negative input is internally tied to GNDR. GNDR must
be connected to GNDI on the user’s application board.
REFOUT can source up to 2.5mA to supply external
devices if required.
An adjustable external reference can be used to adjust
the ADC’s full-scale range. To use an external refer-
ence supply, connect a high-precision reference to the
REFIN pin and leave the REFOUT pin floating. In this
configuration, REFOUT must not be simultaneously
connected at any time, to avoid conflicts between the
two references. REFIN has a typical input resistance of
5kΩ and accepts input voltages of +2.5V ±200mV.
Using the MAX106’s internal reference is recommend-
ed for best performance.
The MAX106 provides data in offset binary format to dif-
ferential PECL outputs. A simplified circuit schematic of
the PECL output cell is shown in Figure 5. All PECL out-
puts are powered from V
from any voltage between +3.0V to V
interfacing with either +3.3V or +5V systems. The nomi-
nal V
All PECL outputs on the MAX106 are open-emitter
types and must be terminated at the far end of each
transmission line with 50Ω to V
MAX106 PECL outputs and their functions.
±5V, 600Msps, 8-Bit ADC with On-Chip
2.2GHz Bandwidth Track/Hold Amplifier
Table 1. PECL Output Functions
14
PECL OUTPUT SIGNALS
CC
______________________________________________________________________________________
DREADY+, DREADY-
RSTOUT+, RSTOUT-
O supply voltage is +3.3V.
A0+ to A7+,
P0+ to P7+,
P0- to P7-
A0- to A7-
OR+, OR-
CC
O, which may be operated
CC
Internal Reference
O - 2V. Table 1 lists all
Primary-Port Differential Outputs from LSB to MSB. A “+” indicates the true value; a “-”
denotes the complementary outputs.
Auxiliary-Port Differential Outputs from LSB to MSB. A “+” indicates the true value; a “-”
denotes the complementary outputs.
Data-Ready Clock True and Complementary Outputs. These signal lines are used to latch
the output data from the primary to the auxiliary output ports. Data changes on the rising
edge of the DREADY clock.
Overrange True and Complementary Outputs
Reset Output True and Complementary Outputs
Digital Outputs
CC
D for flexible
The MAX106 features an internal data demultiplexer,
which provides for three different modes of operation
(see the following sections on Demultiplexed DIV2
Mode, Non-Demultiplexed DIV1 Mode , and Decimation
DIV4 Mode ) controlled by two TTL/CMOS-compatible
inputs: DEMUXEN and DIVSELECT.
DEMUXEN enables or disables operation of the internal
1:2 demultiplexer. A logic high on DEMUXEN activates
the internal demultiplexer, and a logic low deactivates
it. With the internal demultiplexer enabled, DIVSELECT
controls the selection of the operational mode. DIVSE-
LECT low selects demultiplexed DIV2 mode, and DIV-
SELECT high selects decimation DIV4 mode (Table 2).
Figure 5. Simplified PECL Output Structure
500
FUNCTION
GNDD
DIFF.
PAIR
1.8mA
500
Demultiplexer Operation
GNDD
GNDD
V
A_+/P_+
A_-/P_-
CC
O
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