Stratum 3E Timing Module (STM-S3E) 2111 Comprehensive Drive Aurora, Illinois 60505 Phone: 630- 851- 4722 Fax: 630- 851- 5040 www.conwin.com Features Application The Connor-Winfield Stratum 3E Simplified Control Timing Module acts as a complete system clock module for Stratum 3E timing applications in accordance with GR-1244CORE, Issue 2, GR-253-CORE, Issue 3, and ITU-T G.812, Option ΙΙΙ. Connor-Winfield’s Stratum 3E Timing module helps reduce the cost of your design by minimizing your development time and maximizing your control of the system clock with our simplified design. Bulletin Page Revision Date Issued By TM012 1 of 16 P06 20 MAY 02 MBATTS • Dual Input References • Hitless Switch Over • 1.544 MHz -38.88 MHz • 8 kHz Output • 12 ppb Composite Hold Over Mode • Fast Acquisition Mode • Hold Over Good Indicator • Phase Buildout Indicator • LOR Alarms • Reference Frequency Limit Alarm General Description Connor-Winfield’s STM-S3E timing module provides Stratum 3E synchronization for a complete system clock solution in a single module in accordance with GR-1244CORE Issue 2, GR-253-CORE Issue 3, and ITU-T G.812 Option III. The STM-S3E provides a reliable network element clock reference to line cards used in TDM, PDH, SONET, and SDH application environments. Typical applications include digital cross talks, DSLAMs, ADMs, multiservice platforms, switches and routers. The STM-S3E meets 12 ppb Hold Over requirements over 0° – 70°C temperature range. The 5V power requirement will draw a maximum of 1.2 A during an initial start-up period and then drop to a typical current of 800 mA during normal operating conditions. It accepts two 8 kHz input references and can be manufactured to supply a fixed frequency from 1.544 MHz to 38.88 MHz. The STM-S3E offers 4 user selectable modes of operation, Reference 1, Reference 2, Hold Over and Free Run. Mode of operation is selected by two control pins (Table 6). The current mode of operation is also indicated by two status pins (Table 7). Free Run is the default mode if no control signals are asserted on the control pins. Reference 1 mode and Reference 2 mode are the two primary operating modes. When the module is locked to a valid reference, any time after initial power up or reset, the module is considered to be in the normal operating mode. During normal operation the output frequency is phase locked to the input reference frequency. The offset between the input and output is dependant upon the amount of noise that is present on the reference signal. For input tolerances, refer to Table 4. Hold Over mode provides a stable frequency that is guaranteed to be within ±0.012 ppm over the entire temperature range for the first 24 hours after entry into Hold Over. Hold Over is valid 701 seconds after a reference is selected and continues to do a running average every 8 seconds for the next 1049 seconds. Long-term Hold Over values are based on a 1049 second moving window average. Hold Over values are not updated during LOR or during Fast Acquisition mode. Hold Over values are buffered for at least 32 seconds to allow enough time to respond to the RFL alarm. to the Reset pin or cycling the power. Using the Reset pin for a manual reset is the recommend method for resetting the module. Resetting the module by cycling the power requires more time due to the restablization of the internal ovenized oscillator. The STM-S3E provides the user with non-interruptive TriState capabilities. By asserting a logic high signal to the TriState pin, the user is able to Tri-State all outputs. While in Tri-State, the module continues normal operations and accepts all normal inputs. When the module is released from Tri-State, all output signals are valid. The STM-S3E module provides three output frequencies. The Sync_Out is the primary synchronized output. It is phase locked to the input reference during normal operation and is set to a fixed frequency when operating in Hold Over or Free Run. Clock_Out provides a frequency output that comes from an independent, undisciplined, free running oscillator that is ±4.6 ppm from the nominal frequency. This output is typically used for reference frequency qualification. The 8 kHz output is derived from the Sync_Out output. The STM-S3E module provides a variety of alarm indicators to alert the user to multiple conditions that may affect the overall performance of their system. The LOR (Loss of Reference) alarm indicates that the active reference has been lost. RFL (Reference Frequency Limit) indicates that the Sync_Out frequency is 15 ppm or more from the Free Run frequency. The PBO (Phase Build Out) pin indicates that a phase transient greater than 3.4 µs over any 0.1 second interval has occurred. The PBO indicator will remain high as long as the phase transient condition exists. The Mode Alarm pin is used to indicate that the module is not in a normal operating mode. Conditions that will cause the Mode Alarm to go high are Hold Over, Free Run, Fast Acquisition Modes or when Phase Build Out has been active for more than 0.4 seconds. During the latter condition, both the Mode Alarm indicator and the PBO indicator will be high. See Table 8 for a full description of input control pins and output indicator pins. Free Run is a mode of operation in which the module is not locked to a reference and its output frequency is solely dependent on the initial frequency setting of the internal oscillator. The output frequency in Free Run is guaranteed to be ±4.6ppm of the nominal frequency. The Hold Over Good pin indicates that an initial average has been acquired to provide a qualified Hold Over frequency. The module requires approximately 700 seconds from any reference switch or mode switch to a new reference to reacquire a valid average before the indicator goes high (Fig. 17). Initially, entry into Hold Over prior to this will result in a Free Run frequency. After the first Hold Over Good indication, entry into Hold Over will be the last valid Hold Over frequency. A fifth, automatic mode of operation is Fast Acquisition mode. Fast Acquisition mode is entered whenever Reference 1 or 2 has been selected. After a new reference has been selected, the module uses internal filtering that limits the frequency movement to less than 2.9 ppm/sec. By 600 seconds the module switches to a slower 0.001Hz filter. While in normal mode, if the phase error is greater than 20 µs, Fast Acquisition mode will be initiated. Fast Acquisition mode is further described as fast start mode in GR-1244CORE, Issue 3, sec 3.6. The STM-S3E meets the requirements for wander generation and wander transfer as required by GR-1244, sections 5.3 and 5.4. Figures 4, 5 and 6 show typical results. It also complies with phase transient requirements during Reference Rearrangement, Entry into Hold Over, and 1 µs transient. See figures 7-9 for typical performance results and requirement masks. Input jitter is attenuated at about 20 dB/ decade to minimize jitter noise from being passed to other network elements or clocks. Figure 10 illustrates the STMS3E’s typical roll off of attenuated jitter. The STM-S3E may be reset by asserting a logic low signal Preliminary Data Sheet #: TM012 Page 2 of 16 Rev: P06 Date: 05/20/ 02 © Copyright 2002 The Connor-Winfield Corp. All Rights Reserved Specifications subject to change without notice Absolute Maximum Rating Table 1 Symbol Parameter Minimum Nominal Maximum Units Notes VCC Power Supply Voltage -0.5 5.5 Volts 1.0 VI Input Voltage -0.5 5.5 Volts 1.0 Ts Storage Temperature -40 85 deg. C 1.0 VTS Voltage Applied to Tri-State Output -0.5 5.5 Volts Recommended Operating Conditions Table 2 Symbol Parameter Minimum Maximum Units Vcc Power Supply Voltage 4.75 Nominal 5.25 Volts VIH High level input voltage - CMOS 2.0 5.25 Volts VIL Low level input voltage - CMOS 0 0.8 Volts Notes 2.0 DC Characteristics Table 3 Symbol Parameter Minimum Nominal Maximum Units Notes VOH High level output voltage, IOH = -4.0mA, VCC = min. 2.4 3.3 3.6 Volts 3.0 VOL Low level output voltage, IOL = 8.0mA, VCC = max. 0.4 Volts Specifications Table 4 Parameter Specifications Frequency Range (Sync_Out) 1.544 MHz - 38.88 MHz Notes Frequency Range (Clk_Out) 1.544 MHz - 51.84 MHz Supply Current 800 mA typical, 1.2 A during warm-up (Maximum) Timing Reference Inputs GR-1244-CORE 3.2.1 Jitter, Wander and Phase Transient Tolerances GR-1244-CORE 4.2-4.4, GR-253-CORE 5.4.4.3.6 Wander Generation GR-1244-CORE 5.3, GR-253-CORE 5.4.4.3.2 Wander Transfer GR-1244-CORE 5.4 Jitter Generation GR-1244-CORE 5.5, GR-253-CORE 5.6.2.3 Jitter Transfer GR-1244-CORE 5.5, GR-253-CORE 5.6.2.1 Phase Transients GR-1244-CORE 5.6, GR-253-CORE 5.4.4.3.3 Sync_Out (Pin #15) Free Run Accuracy ±4.6 ppm over temperature range Clock_Out (Pin #18) Accuracy ±4.6 ppm over temperature range Hold Over Stability ±0.012 ppm 4.0 Inital Offset ±0.001 ppm Temperature ±0.010 ppm Drift ±0.001 ppm Maximum Hold Over History 1049 seconds Minimum Time for Hold Over 701 seconds after a reference rearrangement Pull-in/ Hold-in Range ±17 ppm from Free Run frequency Lock Time 700 sec. Lock Accuracy 0.001 ppm (GR-1244-CORE 2.8) RFL Alarm Limit Inputs are 3.3V CMOS,5V tolerant 3.0: Logic is 3.3V CMOS 6.0 ±15 ppm from Free Run frequency NOTES: 1.0: Stresses beyond those listed under Absolute Maximum Rating may cause damage to the device. Operation beyond Recommended Conditons is not implied. 2.0: 5.0 4.0: 5.0: 6.0: Hold Over stability is the cumulative fractional frequency offset as described by GR-1244-CORE, 5.2 Pull-in Range is the maximum frequency deviation from nominal clock rate on the reference inputs to the timing module that can be overcome to pull into sychronization with the reference After 700 seconds at stable temperature (±5° F) Preliminary Data Sheet #: TM012 © Copyright 2002 The Connor-Winfield Corp. Page 3 of 16 Rev: P06 Date: 05/20/ 02 All Rights Reserved Specifications subject to change without notice Pin Description Table 5 Pin # Connection Description 1 Status 0 Mode indicator. 2 Status 1 Mode indicator. 3 LOR Loss of Reference indicator. 1 = active reference has been lost. 4 PBO Phase build out indicator. 1 = module is in a phase build out condition. 5 GND Ground 6 8 kHz Output Derived from Sync_Out. 7 Reset Master reset for the module. A low pulse will reset the module. A logic low for a minimum of 1 µs is recommended to ensure a complete reset. This pin is pulled high Tri-State Tri-State control for all outputs. 1 = Hi-Z condition, 0 = Normal operation. Pin is pulled low 9 Hold Over Good Indicates that the module has acquired enough data to provide an average Hold Over value. 10 Mode Alarm Alarm indicator output. 1 = Alarm condition, 0 = Normal operation. 11 CNTL A Mode control input. Pin is pulled low internally. internally. 8 internally. CNTL B Mode control input. Pin is pulled low internally. 13 freq. 12 RFL Reference frequency limit alarm for the phase locked loop. 1= Unit is ±15 ppm from Free Run 14 GND Ground 15 Sync_Out System clock output 16 Future Use Reserved for future use. Do not assert this pin 17 GND Ground 18 Clock_Out An independent, Stratum 3 clock output with the required ±4.6 ppm accuracy. May be used as general purpose clock 19 Future Use Reserved for future use. Do not assert this pin 20 GND Ground 21 External Reference 2 External reference #2 input 22 GND Ground 23 External Reference 1 External reference #1 input 24 +5 VDC +5 Volt DC supply Control Inputs Status Outputs Table 6 Table 7 CNTL B CTNL A Mode Selected Status 1 Status 0 Mode 0 0 Free Run 0 0 Free Run 0 1 Reference 1 0 1 Reference 1 1 0 Reference 2 1 0 Reference 2 1 1 Hold Over 1 1 Hold Over Preliminary Data Sheet #: TM012 Page 4 of 16 Rev: P06 Date: 05/20/ 02 © Copyright 2002 The Connor-Winfield Corp. All Rights Reserved Specifications subject to change without notice Pin Assignment Figure 1 1 2 3 4 5 6 7 8 9 10 11 12 24 23 22 21 20 19 18 17 16 15 14 13 +5Vdc External Reference 1 GND External Reference 2 GND Future Use Clock_Out GND Future Use Sync_Out GND RFL Status 0 Status 1 LOR PBO GND 8 kHz output Reset Tri-State Hold Over Good Mode Alarm CNTL A CNTL B Bottom View Typical Application Setup Figure 2 5 Vdc Power Supply Network Timing Reference Input eg. BITS Independent Free Run +5Vdc Status 0 External Reference 1 Status 1 GND LOR External Reference 2 PBO GND GND Future Use 8 kHz output Clock_Out Reset GND Future Use System Clock Sync_Out System Control State Machine Tri-State Hold Over Good Mode Alarm GND CNTL A RFL CNTL B Preliminary Data Sheet #: TM012 © Copyright 2002 The Connor-Winfield Corp. Page 5 of 16 Rev: P06 Date: 05/20/ 02 All Rights Reserved Specifications subject to change without notice Functional Truth Table Table 8 CNTLB CNTLA Mode Status1Status0 Alarm RFL LOR PBO Condition 0 0 Free Run 0 0 1 0 0 0 0 0 Free Run 0 0 1 1 0 0 0 1 Reference #1 0 1 0 0 0 0 Normal Operation 0 1 Reference #1 0 1 1 0 0 0 Unit is in Fast Acquire mode 0 1 Reference #1 0 1 0 1 0 0 Output freq. is 15 ppm or more from Free Run mode freq. 0 1 Reference #1 0 1 0 0 1 0 Selected reference signal is not detected and unit is in pseudoHold Over* 0 1 Reference #1 0 1 0 0 0 1 Phase build-out is occuring on selected reference 0 1 Reference #1 0 1 1 0 0 1 Phase build-out is occuring and has continuously occurred for at least 0.4 seconds and the unit is in pseudo-Hold Over* 1 0 Reference #2 1 0 0 0 0 0 Normal Operation 1 0 Reference #2 1 0 1 0 0 0 Unit is in Fast Acquire mode 1 0 Reference #2 1 0 0 1 0 0 Output freq. is 15 ppm or more from Free Run mode freq. 1 0 Reference #2 1 0 0 0 1 0 Selected reference signal is not detected and unit is in pseudoHold Over* 1 0 Reference #2 1 0 0 0 0 1 Phase build-out is occuring on selected reference 1 0 Reference #2 1 0 1 0 0 1 Phase build-out is occuring and has continuously occurred for at least 0.4 seconds and the unit is in pseudo-Hold Over* 1 1 Hold Over 1 1 1 0 0 0 1 1 Hold Over 1 1 1 1 0 0 *Psuedo-Hold Over is a condition when the module is no longer tracking a reference and is holding the last output that was sent to the Sync_Out pin. Variations in the output frequency are due only to the drift of the OCXO. Preliminary Data Sheet #: TM012 Page 6 of 16 Rev: P06 Date: 05/20/ 02 © Copyright 2002 The Connor-Winfield Corp. All Rights Reserved Specifications subject to change without notice Functional Block Diagram Figure 3 Fast Acquire Free Run Hold Over PBO CNTLA CNTLB Mode Alarm RESET Status 1 Status 2 REF #1 LOR DSP PBO REF #2 RFL Hold Over Good DDS Sync_Out OCXO 1/N Voltage Regulation 8 kHz Output TCXO Preliminary Data Sheet #: TM012 © Copyright 2002 The Connor-Winfield Corp. Clk_Out Page 7 of 16 Rev: P06 Date: 05/20/ 02 All Rights Reserved Specifications subject to change without notice 3E Wander Generation TDEV Figure 4 100 GR-1244-CORE, Fig. 5-4, GR-253-CORE, Fig 5-8, Wander Generation-TDEV Wander Generation TDEV TDEV (ns) 10 1 0.1 0.01 0.1 1 10 100 1000 10000 Integration Time (sec) 3E Wander Generation MTIE Figure 5 1000 GR-1244-CORE, Fig 5-5, Wander Generation-MTIE GR-253-CORE, Fig. 5-17, MTIE for SONET clock Wander Generation MTIE MTIE (ns) 100 10 1 0.1 1 10 100 1000 10000 100000 Observation Time (sec) Preliminary Data Sheet #: TM012 Page 8 of 16 Rev: P06 Date: 05/20/ 02 © Copyright 2002 The Connor-Winfield Corp. All Rights Reserved Specifications subject to change without notice 3E Wander Transfer TDEV Figure 6 10000 GR-1244-CORE, Fig5-6, Wander Transfer Calibrated 3E Wander Transfer TDEV TDEV (ns) 1000 100 10 1 0.1 0.01 0.1 1 10 100 1000 10000 Integration Time (sec) 3E MTIE During Reference Rearrangement Figure 7 1000 GR-1244-CORE, Fig. 5-7, Phase Transient during Rearrangement Reference Switch MTIE MTIE (ns) 100 10 1 0.01 0.1 1 10 100 1000 Observation Time (sec) Preliminary Data Sheet #: TM012 © Copyright 2002 The Connor-Winfield Corp. Page 9 of 16 Rev: P06 Date: 05/20/ 02 All Rights Reserved Specifications subject to change without notice 3E Entry into Hold Over MTIE Figure 8 10000 GR-1244-C ORE , F ig. 5-8, P hase Transient MTIE Masks for E ntry into Hold Over E ntry in to Hold Over MTIE 1000 MTIE (ns) 100 10 1 0.1 0.01 0.1 1 10 100 1000 10000 Ob servation T ime (sec) µs Phase Transient MTIE 3E 1µ Figure 9 10000 GR-1244-CORE , Fig 5-9, M TIE m as k for I/O P hase Trans ient 1us P has e Trans ient M TIE MTIE (ns) 1000 100 10 1 0.001 0.01 0.1 1 10 100 1000 10000 Obse rva tion Tim e (se c) Preliminary Data Sheet #: TM012 Page 10 of 16 Rev: P06 Date: 05/20/ 02 © Copyright 2002 The Connor-Winfield Corp. All Rights Reserved Specifications subject to change without notice 3E Jitter Attenuation Figure 10 Jitter attenuation (-dB) 1.0 5.715 dB 10.0 100.0 0.0001 0.001 0.01 0.1 1 10 INPU T Jitte r fre que ncy (H z) Hold Over Stability over Temperature Figure 11 ∆ t = 3 0 d e g C /h o u r 4 .0 3 .0 2 .0 PPB 1 .0 0 .0 - 1 .0 - 2 .0 - 3 .0 - 4 .0 70 60 50 40 30 20 10 0 T e m p e r a tu r e (d e g C ) Preliminary Data Sheet #: TM012 © Copyright 2002 The Connor-Winfield Corp. Page 11 of 16 Rev: P06 Date: 05/20/ 02 All Rights Reserved Specifications subject to change without notice Typical Current Consumption Over Temperature Figure 12 0.900 38.88MHz 19.44MHz 16.384MHz Current (Amps) 0.800 0.700 0.600 0.500 0.400 0 10 20 30 40 50 60 70 T emperature (°C) 3E Typical Phase Build Out MTIE Figure 13 Preliminary Data Sheet #: TM012 Page 12 of 16 Rev: P06 Date: 05/20/ 02 © Copyright 2002 The Connor-Winfield Corp. All Rights Reserved Specifications subject to change without notice 3E Phase Build Out > 34 ppm Frequency Change Mode Switch Timing Figure 15 Figure 14 Phase Buildout Indicator Change in Control Inputs Operational Mode Indicator Mode Alarm ∆tm t1 t1 t2 t1 t1 = A transition period between 400 ms to 402.125 ms t2 = A transition period of 2.125 ms 2 msec <∆ tm < 4.125 msec Loss of Reference Timing RFL Alarm Timing Figure 16 Figure 17 RFL Limit High Frequency Sync_Out (Nominal Frequency) External Reference Input RFL Limit Low Frequency RFL Alarm Alarm ∆t tAon 2 msec < tAon < 6.125 msec 0 msec < tAoff < 2.125 msec tAoff 0 < ∆ t < 2.125 msec *The DDS is updated only when the output changes level. The maximum update rate is 8 kHz Preliminary Data Sheet #: TM012 © Copyright 2002 The Connor-Winfield Corp. Page 13 of 16 Rev: P06 Date: 05/20/ 02 All Rights Reserved Specifications subject to change without notice Hold Over Good Timing Mounting Clearance Dimensions Figure 18 Figure 19 VCC or Reset* High Low .020" MAX. Ref 1or Ref 2 Mode (01 or 10) Mode Alarm Indicator .020" ~650 sec .030" PIN LAND Hold Over Good Indicator ~50 sec * Automatic at power on or when asserted manually. Preliminary Data Sheet #: TM012 ALL SOLDER AND/OR WIRE TAGS SHALL NOT EXTEND MORE THAN .020" BELOW PC BOARD BOTTOM SURFACE Page 14 of 16 Rev: P06 Date: 05/20/ 02 © Copyright 2002 The Connor-Winfield Corp. All Rights Reserved Specifications subject to change without notice Package Dimensions Figure 20 Preliminary Data Sheet #: TM012 © Copyright 2002 The Connor-Winfield Corp. Page 15 of 16 Rev: P06 Date: 05/20/ 02 All Rights Reserved Specifications subject to change without notice 2111 Comprehensive Drive Aurora, Illinois 60505 Phone: 630- 851- 4722 Fax: 630- 851- 5040 www.conwin.com Revision # Revision DateNotes P00 6/29/00 Preliminary informational realease P01 8/28/00 Included additional frequencies P02 10/16/00 Changed format P03 6/6/01 Changed to reflect new enhancements P04 9/18/01 Added 5V tolerant note P05 3/6/02 Changed mech. height to 0.620 P06 5/20/02 Updated Fig.9