ZL50063GAC ZARLINK [Zarlink Semiconductor Inc], ZL50063GAC Datasheet - Page 18
ZL50063GAC
Manufacturer Part Number
ZL50063GAC
Description
16K-Channel Digital Switch with High Jitter Tolerance, Single Rate (32Mbps), and 32 Inputs and 32 Output
Manufacturer
ZARLINK [Zarlink Semiconductor Inc]
Datasheet
1.ZL50063GAC.pdf
(60 pages)
2.3
The ZL50063 accepts a frame pulse (FP8i) and generates two frame pulse outputs, FP8o and FP16o, which are
aligned to the master frame pulse. There is a constant throughput delay for data being switched from the input to
the output of the device such that data which is input during Frame N is output during Frame N+2.
For further details of frame pulse conditions and options, see Section 13.1, Control Register (CR), Figure 15, Frame
Boundary Conditions, ST-BUS Operation, and Figure 16, Frame Boundary Conditions, GCI-Bus Operation.
The t
the “AC Electrical Characteristics,” on page 47. Note that although the figure above shows the traditional setups of
the frame pulses and clocks for both ST-BUS and GCI-Bus configurations, the devices can be configured to
accept/generate double-width frame pulses (if the FPW bit in the Control Register is set) as well as to use the
opposite clock edge for frame-boundary determination (using the C8IPOL and COPOL bits in the Control Register).
See the timing diagrams in “AC Electrical Characteristics,” on page 47 for all of the available configurations.
2.4
To improve the jitter tolerance of the ZL50063, a Frame Boundary Discriminator (FBD) circuit was added to the
device. This circuit is enabled by setting the Control Register bit FBDEN to HIGH. By default the FBD is disabled.
The FBD can operate in two modes, as controlled by the FBD_MODE[2:0] bits of the Control Register. When bits
FBD_MODE[2:0] are set to 000
FBD_MODE[2:0] are set to 111
are reserved. These bits are ignored when bit FBDEN is LOW. It is strongly recommended that if bit FBDEN is set
HIGH, bits FBD_MODE[2:0] should be set to 111
To achieve the best jitter tolerance performance, it is also recommended that the input data sampling point be
optimized. In most applications, the optimum sampling point is 1/2 instead of the default 3/4 (it can be changed by
programming all the LIDR and BIDR registers). This will give more allowance for sampling point variations caused
by jitter. There are, however, some cases where data experience more delay than the timing signals. A common
example is when multiple data lines are tied together to form bidirectional buses. The large bus loading may cause
data to be delayed. If this is the case, the optimum sampling point may be 3/4 or 4/4 instead of 1/2. The optimum
sampling point is dependent on the application. The user should optimize the sampling point to achieve the best
jitter tolerance performance.
FBOS
Input Frame Pulse and Generated Frame Pulse Alignment
Jitter Tolerance Improvement Circuit - Frame Boundary Discriminator
BSTo/LSTo0-15
BSTi/LSTi0-15
Figure 7 - Input and Output (Generated) Frame Pulse Alignment for Different Data Rates
is the offset between the input frame pulse, FP8i, and the generated output frame pulse, FP8o. Refer to
(32Mbps)
(32Mbps)
FP8o
FP8i
C8o
C8i
CH
0
CH
0
1
B
1
2
, the FBD can handle both low frequency and high frequency jitter. All other values
2
3
B
t
FBOS
3
, the FBD is set to handle lower frequency jitter only (<8kHz). When bits
4
4
5
5
6
6
7
7
8
8
9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47
9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47
Zarlink Semiconductor Inc.
B
to improve the high frequency jitter handling capability.
ZL50063
18
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