zl50052 Zarlink Semiconductor, zl50052 Datasheet - Page 18
zl50052
Manufacturer Part Number
zl50052
Description
8 K Channel Digital Switch With High Jitter Tolerance, Single Rate 32 Mbps , And 16 Inputs And 16 Outputs
Manufacturer
Zarlink Semiconductor
Datasheet
1.ZL50052.pdf
(59 pages)
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 ZL50052, 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 experiences more delay than the timing signals. A common
example occurs when multiple data lines are tied together to form bi-directional 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.
2.5
Jitter tolerance can not be accurately represented by just one number. Jitter of the same amplitude but different
frequency spectrum can have different effect on the operation of a device. For example, a device that can tolerate
20 ns of jitter of 10 kHz frequency may only be able to tolerate 10ns of jitter of 1 MHz frequency. Therefore, jitter
tolerance should be represented as a spectrum over frequency. The highest possible jitter frequency is half of the
carrier frequency. In the case of the ZL50052, the input clock is 8.192 MHz, and the jitter associated with this clock
can have the highest frequency component at 4.096 MHz.
Tolerance of jitter of different frequencies are shown in the “AC Electrical Characteristics” section, table “Input Clock
Jitter Tolerance” on page 54. The Jitter Tolerance Improvement Circuit was enabled (Control Register, bit FBDEN
set HIGH, and bits FBD_MODE[2:0] set to 111
3.0
Various registers are used to control the input sampling point (delay) and the output advancement for the Local and
Backplane streams. The following sections explain the details of these offset programming features.
3.1
Control of the Input Bit Delay allows each input stream to have a different frame boundary with respect to the
master frame pulse, FP8i. Each input stream can be individually delayed by up to 7 3/4 bits with a resolution of 1/4
bit of the bit period.
3.1.1
Input Bit Delay Registers LIDR0 - 7 and BIDR0 - 7 work in conjunction with the SMPL_MODE bit in the Control
Register to allow users to control input bit fractional delay as well as input bit sample point selection for greater
flexibility when designing switch matrices for high speed operation.
Jitter Tolerance Improvement Circuit - Frame Boundary Discriminator
Input Clock Jitter Tolerance
Input Offsets
Input and Output Offset Programming
Input Bit Delay Programming (Backplane and Local Input Streams)
B
, the FBD can handle both low frequency and high frequency jitter. All other values
B
, the FBD is set to handle lower frequency jitter only (<8 kHz). When bits
B
Zarlink Semiconductor Inc.
), and the sampling point was optimized.
B
to improve the high frequency jitter handling capability.
ZL50052
18
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