MAX3664 Maxim, MAX3664 Datasheet - Page 7
MAX3664
Manufacturer Part Number
MAX3664
Description
622Mbps / Ultra-Low-Power / 3.3V Transimpedance Preamplifier for SDH/SONET
Manufacturer
Maxim
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The cutoff frequency also affects the data-dependent
jitter (DDJ). DDJ due to low-frequency cutoff can be
approximated as droop / slope, where the slope in
V/sec is measured at the 50% crossing of an eye dia-
gram, and droop is the loss-of-signal to noise calculat-
ed above as 1 - e
is typically two times the 10% to 90% slope, which is
approximately 0.35 / bandwidth. For a 622Mbps receiv-
er with a 470MHz bandwidth, the 10% to 90% rise time
is approximately 750ps. The slope through the 50%
crossing will be approximately:
If the maximum allowable DDJ is 100ps, and t = 112ns
for a 72-bit sequence, then the maximum low-frequency
cutoff is 150kHz.
Several circuits in the receiver can determine the low-
frequency cutoff. In a receiver using the MAX3664 and
MAX3675, there are three locations for concern:
1) The MAX3664’s DC cancellation circuit.
2) The coupling capacitors between the MAX3664
3) The MAX3675’s offset correction circuit.
The highest cutoff frequency in the system determines
the amount of data-dependent jitter created.
The time constants of the MAX3675’s offset correction
and of the coupling capacitors should be separated by
outputs and MAX3675 inputs.
Amplitude (2)(0.8) / 750ps =
1.6 Amplitude / 750ps = 2E9 Amplitude V/sec
DDJ = 2 [Amplitude (1 - e
OR
f
c
Transimpedance Preamplifier for SDH/SONET
= -ln[1 - (1.0E9)(DDJ)] / [2 t]
[ 2.0E9 Amplitude ] = (1 - e
-(2 f c t)
_______________________________________________________________________________________
. The slope at the 50% crossing
-(2 f c t)
)] /
622Mbps, Ultra-Low-Power, 3.3V
-(2 f c t)
) / (1E9)
a factor of ten (one decade) to prevent low-frequency
oscillations.
For example, select the offset correction of the MAX3664
to set the receiver cutoff frequency. Note that the
MAX3664’s low-frequency cutoff increases with average
input current. Since DDJ increases with f
DDJ increases as average input increases. When the
input signal is large enough to limit the outputs, however,
DDJ does not increase. Therefore, the maximum DDJ
results from the lowest input that causes the MAX3664
to have limited outputs (see Typical Operating
Characteristics ), which is about 150µAp-p. When select-
ing a capacitor for the COMP pin that achieves your
desired DDJ, use the data from Typical Operating
Characteristics at I
In summary, use the following method to select the low-
frequency cutoff that will provide the sensitivity and
DDJ required for SDH/SONET receivers:
1) Determine the longest time without transitions.
2) Determine the acceptable loss of SNR ratio, and
3) Estimate the low-frequency cutoff required for
4) Select the location in the receiver to determine the
5) Select a capacitor for the COMP pin from the
the acceptable DDJ due to the transitionless time.
either the worst-case SNR loss or for DDJ.
highest cutoff frequency. Normally, the MAX3664
would determine the dominant low-frequency cutoff.
Then select all other low-frequency cutoffs one
decade lower.
Typical Operating Characteristics graphs. 400pF is
adequate for most 622Mbps SDH/SONET applica-
tions.
INPUT
= 150µA.
c
, it follows that
7
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