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SM3E-077.76M 数据表(PDF) 7 Page - Connor-Winfield Corporation |
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SM3E-077.76M 数据表(HTML) 7 Page - Connor-Winfield Corporation |
7 / 36 page Data Sheet #: TM054 Page 7 of 36 Rev: 02 Date: 11/07/08 © Copyright 2008 The Connor-Winfield Corp. All Rights Reserved Specifications subject to change without notice Detailed Description continued The M/S Output or the Output 1 of each device may be cross-connected to the other device’s M/S Ref input. The device auto-detects the frequency on the M/S Ref input. Master or slave state of a device is determined by the M/S pin. Thus, master/slave state is always manually controlled by the application. The master synchronizes to the selected input reference, while the slave synchronizes to the M/S Ref input. (Note that 8kHz frame phase alignment is maintained across a master/slave pair of devices only if M/S Output is used as the cross couple signal.) The unit operating in slave mode locks on and phase-aligns to the cross-reference clock (M/S Output or Output 1) from the unit in master mode. The phase skew between the input cross-reference and the output clock for the slave unit is typically less than ±1ns (under ±3ns in dynamic situations, including reference jitter and wander). Perfect phase alignment of the two Output 1 output clocks would require no delay on the cross-reference clock connection. To accommodate path length delays, the SM3E provides a programmable phase skew feature. The slave’s Output 1 or M/S Output may be phase shifted -32nS to +31.75nS relative to M/S Input according to the contents of the MS_Phase_Offset register to compensate for the path length of the M/S Output or Output 1 to M/S Input connection. This offset may therefore be programmed to exactly compensate for the actual path length delay associated with the particular application's cross-reference traces. The offset may further be adjusted to accommodate any output clock distribution path delay differences. Thus, master/slave switches with the SM3 devices may be accomplished with near-zero phase hits. The first time a unit becomes a slave, such as immediately after power-up, its output clock phase starts out arbitrary, and will quickly phase-align to the cross-reference from the master unit. The phase skew will be eliminated (or converged to the programmed phase offset) step by step. The whole pull-in-and-lock process will complete in about 60 seconds. There is no frequency slew protection in slave mode. In slave mode, the unit's mission is to lock to and follow the master. Once a pair of units has been operating in aligned master/slave mode, and a master/slave switch occurs, the unit that becomes master will maintain its output clock phase and frequency while a phase build-out (to the current output clock phase) is performed on its selected reference input. Therefore, as master mode operation commences, there will be no phase or frequency hits on the clock output. Likewise, the unit that becomes the slave will maintain its output clock frequency and phase for 1 msec before starting to follow the cross-reference, protecting the downstream clock users during the switch. Assuming the phase offset is programmed for the actual propagation delay of this cross-reference path, there will again be no phase hits on the output clock of the unit that has transitioned from master to slave. Master / Slave Configuration Figure 3 STC3500 SM3E M/S_OUT / OUTPUT1 / BITS M/S_OUT / OUTPUT1 / BITS M/S REF REFS1-8 REFS1-8 M/S REF 2 SM3E 1 Furthermore, under register access control, a backup holdover history register is provided. It may be loaded from the active holdover history or restored to the active holdover history. The active holdover history may also be flushed. Holdover mode may be entered at any time. If there is no holdover history available, the prior output frequency will be maintained. When in holdover, the application may read (via register access) the time since holdover was enterred. Master/Slave Operation Pairs of SM3E devices may be operated in a master/slave configuration for redundant timing source applications. A typical configuration is shown below.: |
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