Max108, Table 5. dc-coupled clock drive options – Rainbow Electronics MAX108 User Manual

MAX108

AC-Coupling Clock Inputs

The clock inputs CLK+ and CLK- can be driven with
PECL logic if the clock inputs are AC-coupled. Under
this condition, connect CLKCOM to GNDI. Single-
ended ECL/PECL/sine-wave drive is also possible if the
undriven clock input is reverse-terminated to GNDI
through a 50

Ω

resistor in series with a capacitor whose

value is identical to that used to couple the driven
input.

Demux Reset Operation

The MAX108 features an internal 1:2 demultiplexer that
reduces the data rate of the output digital data to one-
half the sample clock rate. Demux reset is necessary
when interleaving multiple MAX108s and/or synchroniz-
ing external demultiplexers. The simplified block dia-
gram of Figure 1 shows that the demux reset signal path
consists of four main circuit blocks. From input to out-
put, they are the reset input dual latch, the reset
pipeline, the demux clock generator, and the reset out-
put. The signals associated with the demux reset opera-
tion and the control of this section are listed in Table 6.

Reset Input Dual Latch

The reset input dual-latch circuit block accepts differ-
ential PECL reset inputs referenced to the same V

CC

O

power supply that powers the MAX108 PECL outputs.
For applications that do not require a synchronizing
reset, the reset inputs can be left open. In this case,
they will self-bias to a proper level with internal 50k

Ω

resistors and 20µA current source. This combination
creates a -1V difference between RSTIN+ and RSTIN-
to disable the internal reset circuitry. When driven with
PECL logic levels terminated with 50

Ω

to (V

CC

O - 2V),

the internal biasing network can easily be overdriven.
Figure 14 shows a simplified schematic of the reset
input structure.

To properly latch the reset input data, the setup time
(t

SU

) and the data-hold time (t

HD

) must be met with

respect to the rising edge of the sample clock. The tim-
ing diagram of Figure 15 shows the timing relationship
of the reset input and sampling clock.

±5V, 1.5Gsps, 8-Bit ADC with
On-Chip 2.2GHz Track/Hold Amplifier

20

______________________________________________________________________________________

Table 5. DC-Coupled Clock Drive Options

-2V

Differential ECL

Figure 13d

ECL Drive

ECL Drive

-2V

Single-Ended ECL

Figure 13c

-1.3V

ECL Drive

GNDI

Differential Sine Wave

Figure 13b

-10dBm to +4dBm

-10dBm to +4dBm

CLK-

External 50

Ω

to GNDI

REFERENCE

CLOCK DRIVE

CLKCOM

GNDI

CLK+

Single-Ended Sine Wave

Figure 13a

-10dBm to +4dBm

50k

50k

RSTIN+

RSTIN-

RESET INPUTS ARE
ESD PROTECTED
(NOT SHOWN IN THIS
SIMPLIFIED DRAWING).

20

µ

A

GNDD

V

CC

O

Figure 14. Simplified Reset Input Structure

RSTIN+

50%

50%

CLK+

CLK-

RSTIN-

50%

t

SU

t

HD

Figure 15. Reset Input Timing Definitions