SM3E-19.44M

SM3E ULTRA MINIATURE STRATUM 3E MODULE 2111 Comprehensive Drive Aurora, Illinois 60505 Phone: 630- 851- 4722 Fax: 630- 851- 5040 www.conwin.com Application The SM3E Timing Module is a complete system clock module for Stratum 3E timing applications and conforms to GR-1244-CORE (Issue 2), GR-253-CORE (Issue 3) and ITU-T G.812 (Option 3). Applications include shared port adapters, data digital cross connects, ADM’s, DSLAM’s, multiservice platforms, switches and routers in TDM, SDH and SONET environments. The SM3E Timing Module guarantees full Stratum 3E compliance with a minimum of effort and cost in the smallest complete package available. Bulletin Page Revision Date Issued By TM054 1 of 36 04 26 Jan 11 ENG Features   Small Package Size: 2.05” x 1.25” x 0.75” Eight Auto Select Input References, 8 kHz - 77.76 MHz  Phase Buildout  Hitless Reference Switching        Better than 1ppb initial Hold Over offset Frequency Qualification and Loss of Reference detection for each input Master/Slave Operation with Phase Adjustment Manual/Autonomous Operation Bi-Directional SPI Port Control and Status Reporting Three CMOS Frequency Outputs - Output1 from 1.544 - 77.76MHz, M/S_Out@8KHz, BITS @2.048 MHz or 1.544 MHz 3.3V operation General Description The SM3E timing module provides a clock output that meets or exceeds Stratum 3E specifications given in GR-1244-CORE (Issue 2), GR-253-CORE (Issue 3) and ITU-T G.812 (option 3). The SM3E features eight reference inputs. Each input will auto-detect the following reference frequencies: 8 kHz, 1.544 MHz, 2.048 MHz, 12.96 MHz, 19.44 MHz, 25.92 MHz, 38.88 MHz, 51.84 MHz and 77.76 MHz. The SM3E timing module can be configured during production to produce an output up to 77.76MHz. This output is derived from an onboard VCXO and must be specified when ordering. The second output is a BITS output selectable for either 1.544 or 2.048 MHz. The master/slave output is 8KHz. The user communicates with the SM3E module through a SPI port. The user controls the SM3E operation by writing to the appropriate registers. The user can also enable or disable SPI operation through a SPI_Enable pin. The SM3E offers a wide range of options for the system designer. The bandwidth is SPI Port-selectable from 0.00084 Hz to 1.6 Hz. 0.0016 Hz is the recommended operational bandwidth for Stratum 3E applications. The 8 kHz output has an adjustable pulse width. The pull-in range is also adjustable to establish the desired reference frequency rejection limits. A Free Run frequency calibration value can be written to the module to provide a high degree of accuracy in the free run mode. The reference frequency for any given reference input is automatically detected. A wealth of status information is available through the SPI Port registers. The user also has a choice between autonomous or full manual control operation. In manual mode, the user controls the module operating modes Free Run, Hold Over or locked to a specific reference. If the chosen reference is unavailable or disqualified the module automatically enters Hold Over. In autonomous control mode, operational mode selection occurs automatically based on reference priority and qualification status. When the active reference becomes disqualified, the module will switch to another qualified reference. If none is available, it will switch to Hold Over. In the revertive mode the module will seek to acquire the highest priority qualified reference. In the non-revertive mode the module will not return to the previous reference even after it is re-qualified unless there are no other qualified references. Switching between references is hitless. Likewise, the output frequency slew rate is minimized during any change of operating mode, including entry into and return from Free Run or Hold Over to protect traffic from transient-induced bit errors. Reference Status information and the operating mode information is accessed through status registers. The module will set the Interrupt pin (SPI_INT) low to indicate a status change. Free Run operation guarantees an output within 4.6ppm of nominal frequency and Hold Over operation guarantees the output frequency will not change by more than 0.012ppm during the first 24 hours. Frequency accuracy is based on a precision oven to provide the stabilty required for Stratum 3E compliance. The SM3E can be programmed to startup in any mode or bandwidth. The module may even be programmed to operate in a fully autonomous mode with no further configuration required. The module operates on 3.3V ± 5% with a typical power drain of less than 3W at turn on, dropping to approximately 1W @ room temperature after warming up. The module operates over the 0° to 70° C commercial temperature range. Phase buildout can be enabled or disabled by means of the SPI port. Functional Block Diagram Figure 1 TRST TCK TDO EEPROM OCXO DAC VCXO BITS_Clk TMS Reference Input Monitor M/S Input Ref 1 - 8 Reset M/S 8 Control Mode Reference Selection DPLL APLL LOS T1/E1 SPI_ENBL SPI_Clk Output 1 M/S Output TDI Reference Priority, Revertivity and Mask Table LOL Hold_Good SPI_In SPI_Out Bus Interface SPI_INT SM3E Data Sheet #: TM054 Page 2 of 36 Rev: 04 Date: 01/26/11 © Copyright 2011 The Connor-Winfield Corp. All Rights Reserved Specifications subject to change without notice Specifications for Ultra Miniature Stratum 3E Table 1 Parameter Specification Voltage Power Reference Frequency 1 - 8 CMOS Output Frequency #1 M/S_Out BITS_Clk Master/Slave I/O Input Reference Pulse Width Free Run Accuracy Hold Over Accuracy Hold Over Stability Dimensions 3.3V ± 5% 3W Maximum during start up, 1.5W Typical @ room temperature 8 kHz - 77.76 MHz (Determined by customer’s application) 8 kHz - 77.76 MHz 8 kHz 1.544/2.048 MHz (Selectable) 8 kHz 10 ns Min @ 8 kHz, 5 ns Min @ >8 kHz 4.6 ppm 0.001 ppm 0.012 ppm for the first 24 hours 2.05 x 1.25 x 0.75 inches (52.07 x 31.75 x 19.05 mm) Pin Description Table 2 Pin # 1 2 3 4 5 6 7 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 I/O Pin Name O O I I I I I O O O I I I I I O I I I I O O I LOS LOL M/S REF REF1 REF2 REF3 REF4 TDI TMS TRST BITS_CLK M/S_OUT OUTPUT1 VPP REF5 REF6 REF8 REF7 VPN T 1/E1 HOLD_GOOD TDO TCK GND SPI_CLK SPI_IN VCC SPI_ENBL RESET SPI_OUT SPI_INT MASTER SELECT Pin Description Alarm Output - Loss of Active Reference Signal Alarm Output - Loss of Lock Master/Slave Reference Input Reference Input 1 – 8 kHz to 77.76 MHz auto detected Reference Input 2 – 8 kHz to 77.76 MHz auto detected Reference Input 3 – 8 kHz to 77.76 MHz auto detected Reference Input 4 – 8 kHz to 77.76 MHz auto detected JTAG TDI pin JTAG TMS pin JTAG TRST pin 1.544 or 2.048 MHz output selected by pin 14 Master/Slave 8 kHz output Synchronous Primary Output Positive Programming Supply Pin. During normal operation, it is recommended to float this pin. Reference Input 5 – 8 kHz to 77.76 MHz auto detected Reference Input 6 – 8 kHz to 77.76 MHz auto detected Reference Input 8 – 8 kHz to 77.76 MHz auto detected Reference Input 7 – 8 kHz to 77.76 MHz auto detected Negative Programming Supply Pin. During normal operation, it is recommended to float this pin. BITS_CLK select input – 1=1.544 MHz, 0=2.-48 MHz, 4.7k Ohm Pull-up Holdover Good Output Flag – 1=Holdover Available JTAG TDO pin JTAG TCK pin Module Ground SPI Port Clock input SPI Port Data input 3.3 Vdc VCC Supply Input SPI Port Enable input – Active Low, 4.7k Ohm Pull-up Module Reset – Active Low, 4.7k Ohm Pull-up SPI Port Data Output SPI Port Interrupt Output Master/Slave select input – 1=Master, 0=Slave SM3E Data Sheet #: TM054 Page 3 of 36 Rev: 04 Date: 01/26/11 © Copyright 2011 The Connor-Winfield Corp. All Rights Reserved Specifications subject to change without notice Pin Diagram Figure 2 SM3E LOS 1 32 MASTER SELECT LOL 2 31 SPI_INT M/S REF 3 30 SPI_OUT REF1 4 29 RESET REF2 5 28 SPI_ENBL REF3 6 27 Vcc REF4 7 26 SPI_IN TDI 8 25 SPI_CLK TMS 9 24 GND TRST 10 23 TCK BITS_CLK 11 22 TDO M/S_OUT 12 21 HOLD_GOOD OUTPUT1 13 20 T1/E1 VPP 14 19 VPN REF5 15 18 REF7 REF6 16 17 REF8 (TOP VIEW) Register Map Table 3 Address Reg Name 0x00 0x01 0x02 0x03 0x04 0x05 0x06 0x07 0x08 0x09 0x0a 0x0b 0x0c Chip_ID_Low Chip_ID_High Chip_Revision Bandwidth_PBO Ctl_Mode Op_Mode Max_Pullin_Range M/S Input_Activity Ref_Activity Ref_Pullin_Sts Ref_Qualified Ref_Mask Ref_Available Description Type Low byte of chip ID High byte of chip ID Chip revision number Bandwidth & Phase Build-Out option Manual or automatic selection of Op_Mode,BITS clock output frequency indication, and frame/multi-frame sync pulse width mode control Master Free Run, Locked, or Hold Over mode, or Slave mode Maximum pull-in range in 0.1 ppm units Cross Reference activity Activities of 8 reference inputs In or out of pull-in range of 8 reference inputs Qualification of 8 reference inputs Availability mask for 8 reference inputs Availability of 8 reference inputs R R R R/W R/W SM3E Data Sheet #: TM054 Page 4 of 36 Rev: 04 R/W R/W R R R R R/W R Date: 01/26/11 © Copyright 2011 The Connor-Winfield Corp. All Rights Reserved Specifications subject to change without notice Register Map Continued Table 3 0x0d 0x0e 0x0f 0x10 0x11 0x12 0x13 0x14 0x15 0x16 0x17 0x18 0x19 0x1a 0x1b 0x1c 0x1d 0x1e 0x1f 0x20 0x21 0x22 0x23 0x24 0x25 0x26 0x27 0x30 0x31 0x32 0x33 0x35 0x37 0x38 0x39 Ref_Rev_Delay Phase_Offset Calibration Fr_Pulse_Width DPLL_Status Intr_Event Intr_Enable Ref1_Frq_Offset Ref2_Frq_Offset Ref3_Frq_Offset Ref4_Frq_Offset Ref5_Frq_Offset Ref6_Frq_Offset Ref7_Frq_Offset Ref8_Frq_Offset Ref1_Frq_Priority Ref2_Frq_Priority Ref3_Frq_Priority Ref4_Frq_Priority Ref5_Frq_Priority Ref6_Frq_Priority Ref7_Frq_Priority Ref8_Frq_Priority FreeRun Priority History_Policy History_CMD HoldOver_Time Cfgdata Cfgctr_Lo Cfgctr_Hi Chksum EE_Wrt_Mode EE_Cmd EE_Page_Num EE_FIFO_Port Reference reversion delay time, 0 - 255 minutes Phase offset between M/S REF & M/S Output (for the Slave in M/S operation) in 250ps resolution Local oscillator digital calibration in 0.05 ppm resolution Frame sync pulse width Digital Phase Locked Loop status Interrupt events Enable individual interrupt events Ref1 frequency offset in 0.2 ppm resolution Ref2 frequency offset in 0.2 ppm resolution Ref3 frequency offset in 0.2 ppm resolution Ref4 frequency offset in 0.2 ppm resolution Ref5 frequency offset in 0.2 ppm resolution Ref6 frequency offset in 0.2 ppm resolution Ref7 frequency offset in 0.2 ppm resolution Ref8 frequency offset in 0.2 ppm resolution Ref1 frequency and priority Ref2 frequency and priority Ref3 frequency and priority Ref4 frequency and priority Ref5 frequency and priority Ref6 frequency and priority Ref7 frequency and priority Ref8 frequency and priority Control and Priority for designation of Free Run as a reference Sets policy for Hold Over history accumulation Save, restore and flush comands for Hold Over history Indicates the time since entering Hold Over state Configuration data write register Configuration data write counter, low byte Configuration data write counter, high byte Configuration data checksum pass/fail indicator Disables/Enables writing to the external EEPROM Read/Write command & ready indication register for ext. EEPROM access Page number for external EEPROM access Read/Write data for external EEPROM access SM3E Data Sheet #: TM054 Page 5 of 36 Rev: 04 R/W R/W R/W R/W R R R/W R R R R R R R R R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R R/W R R R R/W R/W R/W R/W Date: 01/26/11 © Copyright 2011 The Connor-Winfield Corp. All Rights Reserved Specifications subject to change without notice Detailed Description The SM3E utilizes up to 8 external references, each from 8 kHz to 77.76 MHz, may be equipped and monitored for signal presence and frequency offset. Additionally, a cross-couple 8 kHz reference input is provided for master/slave operation. Reference selection may be manual or automatic, according to pre-programmed priorities. All reference switches are performed in a hitless manner, and frequency ramp controls ensure smooth output signal transitions. When references are switched, the device provides a controllable phase build-out to minimize phase transitions in the output clocks. Three output signals are provided, the first up to 77.76 MHz , the second fixed at 8 kHz for use as a frame sync signal as well as a cross-couple reference for master/slave operation. In slave mode, the output phase may be adjusted from -32 to +31.75nS relative to the master, to accommodate downstream system needs, such as different clock distribution path lengths. The third output is a BITS clock, selectable as either 1.544 MHz or 2.048 MHz. Device operation may be in Free Run, locked, or Hold Over modes. In Free Run, the clock outputs are simply determined by the Free Run frequency and accuracy of the calibrated internal clock. In locked mode, the chip phase locks to the selected input reference. While locked, a frequency history is accumulated. In Hold Over mode, the chip outputs are generated according to this history. The Digital Phase Locked Loop provides critical filtering and frequency/phase control functions that meet or exceed all requirements in critical jitter and accuracy performance parameters. Filter bandwidth may be configured to suit applications requirements. Control functions are provided via standard SPI bus register interface. Register access provides visibility into a variety of registered information as well as providing extensive programmable control capability. Operating Modes: The SM3E Operates in Either Free Run, Locked, or Hold Over Mode: Free Run – In Free Run mode, Output 1, M/S_Out, and BITS_Clk, the output clocks, are determined directly from and have the accuracy of the calibrated free running internal clock. Reference inputs continue to be monitored for signal presence and frequency offset, but are not used to synchronize the outputs. Locked – The Output 1, M/S_Out, and BITS_Clk, outputs are phase locked to and track the selected input reference. Upon entering the Locked mode, the device begins an acquisition process that includes reference qualification and frequency slew rate limiting, if needed. Once satisfactory lock is achieved, the “Locked” bit is set in the DPLL_Status register, and a compilation of the frequency history of the selected reference is started. When a usable Hold Over history has been established, the Hold_Good pin is set, and the “Hold Over Available” bit is set in the DPLL_Status register. Phase comparison and phase lock loop filtering operations in the SM3E are completely digital. As a result, device and loop behavior are entirely predictable, repeatable, and extremely accurate. Carefully designed and proven algorithms and techniques ensure completely hitless reference switches, operational mode changes, and master/slave switches. Basic loop bandwidth is programmable from 0.84 mHz to 1.6 Hertz, giving the user a wide range of control over the system response. When a new reference is acquired, maximum frequency slew limits ensure smooth frequency changes. Once lock is achieved, ( 10 seconds and is within the pull-in range, it’s bit is set. The Ref_Available register contains the “anded” condition of the Ref_Qualified register and the Ref_Mask register, and therefore represents the availability of a reference for selection when automatic reference and operational mode selection is enabled. Reference Input Selection, Frequencies, and Mode Selection One of eight reference input signals (Ref 1-8) are selected for synchronization in Master mode (as below in the Op_Mode register description. 0x05). Ref 1-8 may each be 8 kHz, 1.544 MHz, 2.048 MHz, 12.96 MHz, 19.44 MHz, 25.92 MHz, 38.88 MHz, 51.84 MHz or 77.76 MHz. Reference frequencies are auto-detected and the detected frequency can be read from the Ref_Frq_Priority registers (See Register Descriptions and Operation section). Active reference and operational mode selection may be manual or automatic, as determined by bit 1 in the Ctl_Mode register. In manual mode, register writes to Op_Mode select the reference and mode. The reset default is manual mode. The M/S REF input for slave operation is frequency auto-detected and may be 8kHz, 1.544MHz, 2.048MHz, 12.96MHz, 19.44MHz, 25.92MHz, 38.88MHz, 51.84MHz or 77.76MHz. Signal presence and frequency for the M/S REF input is indicated in bits 0-3 of the M/S REF_Activity register. In automatic mode, the reference is selected according to the priorities written to the eight Ref_Frq_Priority registers. Individual references may be masked for use/non-use according to the Ref_Mask register. A reference may only be selected if it is “available” - that is, it is qualified, as indicated in the Ref_Qualified register, and is not masked (See Reference Input Quality Monitoring and Register Descriptions and Operation sections). Furthermore, Bit 3 of each Ref_Frq_Priority register will determine if that reference is revertive or non-revertive. When a reference fails, the next highest priority “available” (signal present, non-masked, and acceptable frequency offset) reference will be selected. When a reference returns, it will be switched to only if it is of higher priority and the current active reference is marked “Revertive”. Additionally, the reversion is delayed according to the value written to the Ref_Rev_Delay register (From 0 to 255 minutes). SM3E Data Sheet #: TM054 Page 9 of 36 Rev: 04 Date: 01/26/11 © Copyright 2011 The Connor-Winfield Corp. All Rights Reserved Specifications subject to change without notice Detailed Description continued The automatic reference selection is shown in the following state diagram: Automatic Reference Selection Figure 6 Ref_Rev_Delay time expired Stay Locked on Ref m time for t= Ref_Rev_Delay Ref n returns, Ref m marked “revertive” Select & Lock on Ref m Loss of Ref n Locked on Ref n Ref n returns, Ref m marked “non-revertive” Select new reference: Next highest priority, Qualified (within max. pull-in range, signal present > 10 sec.), Non-masked The operational mode is according to the following state diagram: No available reference and no Hold Over history Ref loss w/no good Hold Over history and no other available reference Automatic Operational Mode Selection Figure 7 Reference Available (Select highest priority) Higher priority Ref return with prior reference marked “revertive” Ref Loss w/alternate reference available Locked Ref loss w/no good hold over history and no other available reference No available reference and no hold over history Ref Loss w/good hold over history and no alternate reference available Ref Return Ref Return Free Run Hold Over SM3E Data Sheet #: TM054 Page 10 of 36 Rev: 04 Date: 01/26/11 © Copyright 2011 The Connor-Winfield Corp. All Rights Reserved Specifications subject to change without notice Detailed Description continued Output Signals and Frequency Output 1 is the primary chip output, and in locked mode is synchronized to the selected reference. Output 1 may be any of the following frequencies: 12.96 MHz, 19.44 MHz, 25.92 MHz, 38.88 MHz, 51.84 MHz or 77.76 MHz. M/S_Out is an 8 kHz output available as a frame reference or synchronization signal for cross-coupled pairs of SM3E devices operated in master/slave mode. In master mode, M/S_Out is synchronized to the selected reference. In slave mode, M/S_Out is in phase with the M/S REF offset by the value written to the Phase_offset register (+31.75 to -32nS, with .25nS resolution). M/S_Out may be a 50% duty cycle signal, or variable high-going pulse width, as determined by the Ctl_Mode and Fr_Pulse_Width registers. In variable pulse width mode, the width may be from 1 to 15 multiples of the Output 1 cycle time. See Register Descriptions and Operation section. BITS_Clk is the BITS clock output at either 1.544 MHz or 2.048 MHz. It is selected by the T1/E1 input and its state may be read in bit 3 of the Ctl_Mode register. When T1/E1 = 1, the BITS frequency is 1.544 MHz, and when T1/E1 = 0, the BITS frequency is 2.048 MHz. Interrupts The SM3E module supports eight different interrupts and appears in INTR_EVENT (0x12) register. Each interrupt can be individually enabled or disabled via the INTR_ENABLE (0x13) register. Each bit enables or disables the corresponding interrupt from asserting the SPI_INT pin. Interrupt events still appear in the INTR_EVENT (0x12) register independent of their enable state. All interrupts are cleared once INTR_EVENT (0x12) register is read. The interrupts are: • Any reference changing from available to not available • Any reference changing from not available to available • M/S REF changing from activity to no activity • M/S REF changing from no activity to activity • DPLL Mode status change • Reference switch in automatic reference selection mode • Loss of Signal • Loss of Lock Interrupts and Reference Change in Autonomous Mode Interrupts can be used to determine the cause of a reference change in autonomous mode. Let us assume that the module is currently locked to REF1. The module switches to REF2 and SPI_INT pin is asserted. The user reads the INTR_EVENT (0x12) register. If the module is operating in autonomous non-revertive mode, the cause can be determined from bits 4, 5, 6 and 7. Bit 5 is set to indicate Active reference change. If Bit 6 is set then the cause of the reference change is Loss of Active Reference. If Bit 7 is set then the cause of the reference change is a Loss of Lock alarm on the active reference. If the module is operating in autonomous revertive mode, the cause can be determined from bits 1, 4,5, 6 and 7. Bit 5 is set to indicate Active reference change. If Bit 6 is set then the cause of the reference change is Loss of Active Reference. If Bit 7 is set then the cause of the reference change is a Loss of Lock alarm on the active reference. If Bit 1 is set then the cause of the reference change is the availability of a higher priority reference. Note: The DPLL Mode Status Change bit (Bit 4) is also set to indicate a change in DPLL_STATUS (0x11) register, during an interrupt caused by a reference change. The data in DPLL_STATUS (0x11) register however is not useful in determining the cause of a reference change. This is because bits 0-2 of this register always reflects the status of the current active reference and hence cannot be used to determine the status of the last active reference. Interrupts in Manual Mode In manual operating mode, when the active reference fails due to a Loss of Signal or Loss of Lock alarm, an interrupt is generated. For example, in case of a Loss of Signal, bits4 and 6 of INTR_EVENT (0x12) register would be set to indicate Loss of Signal and DPLL Mode Status Change. The user may choose to read the DPLL_STATUS (0x11) register, though in manual mode bit6 of INTR_ EVENT (0x12) register is a mirror of bit0 of DPLL_STATUS (0x11) register. This holds true for a Loss of Lock alarm, where bit7 of INTR_EVENT (0x12) register is a mirror of bit1 of DPLL_STATUS (0x11) register. Internal Clock Calibration The internal clock may be calibrated by writing a frequency offset v.s. nominal frequency into the Calibration register. This calibration is used by the synchronization software to create a frequency corrected from the actual internal clock output by the value written to the Calibration register. See register descriptions. SM3E Data Sheet #: TM054 Page 11 of 36 Rev: 04 Date: 01/26/11 © Copyright 2011 The Connor-Winfield Corp. All Rights Reserved Specifications subject to change without notice Register Descriptions and Operation Chip_ID_low, 0x00 (R) Bit 7 ~ Bit 0 Low byte of chip ID: 0x11 Chip_ID_High, 0x01 (R) Bit 7 ~ Bit 0 High byte of chip ID: 0x30 Chip_Revision, 0x02 (R) Bit 7 ~ Bit 0 Chip revision number: 0x05 Bandwidth_PBO, 0x03 (R/W) Bit 7 ~ Bit 5 Bit 4 Reserved Bit 3 ~ Bit 0 Phase Build-out Option: 1: Enable 0: Disable Default: 1 Bandwidth Selection in Hz: 0000: 0.00084 0001: 0.0016 0010: 0.0032 0011: 0.0063 0100: 0.012 0101: 0.025 0110: 0.049 0111: 0.098 (Reset Default) 1000: 0.20 1001: 0.39 1010: 0.78 1011 - 1111: 1.6 BITS 3 - 0 select the phase lock loop bandwidth in Hertz. The reset default is 0.098 Hz. Bit 4 enables or disables phase build-out for active reference phase hits. Phase build-out operation requires register access operation of the device. Ctl_Mode, 0x04 (R/W) Bit 7 ~ Bit 6 Bit 5 Reserved Default: 0 Bit 4 M/S Output Pulse width control: 0: 50% 1: Controlled by FR_Pulse_Width register Default: 0 Bit 3 BITS Clock Output Frequency: 1: 1.544 MHz 0: 2.048 MHz (read only) Bit 2 HM Ref: 0: Register control of op mode/ref (Will always be 0) Bit 1 Active Reference Selection: 1: Manual 0: Automatic Default: 1 Bit 0 Reserved When bit 1 is reset (automatic reference and mode selection), Bits 3 - 0 of the Op_Mode register become read-only. The power-up default for Bit 1 = 1 for manual reference selection and default for Bit 4 = 0 for 50% duty cycle on M/S Output. When the device is in slave mode, it will lock to the M/S REF, independent of the values written to BITS 3 - 0 of the Op_mode register. The operational mode and reference selection written to Bits 3 - 0 while in slave mode will, however, take effect when the device is made the master. When bit 1 of the Ctl_Mode register is reset (automatic reference and mode selection) and the device is in master mode, BITS 3 - 0 of the Op_Mode register become read-only. SM3E Data Sheet #: TM054 Page 12 of 36 Rev: 04 Date: 01/26/11 © Copyright 2011 The Connor-Winfield Corp. All Rights Reserved Specifications subject to change without notice Register Descriptions and Operation continued Op_Mode, 0x05 (R/W) Bit 7 ~ Bit 5 Reserved Bit 4 Bit 3 ~ Bit 0 Master or Slave Mode 1: Master 0: Slave (Read Only) Free Run, Locked, or Hold Over: 0000: Free Run mode 0001: Locked on Ref1 0010: Locked on Ref2 0011: Locked on Ref3 0100: Locked on Ref4 0101: Locked on Ref5 0110: Locked on Ref6 0111: Locked on Ref7 1000: Locked on Ref8 1001 - 1111: Hold Over Max_Pullin_Range, 0x06 (R/W) Bit 7 ~ Bit 0 Maximum pull-in range in 0.1 ppm unit This register should be set according to the values specified by the standards (GR-1244) appropriate for the particular stratum of operation. The power-up default value is 10 ppm. (= 4.6ppm aging + 4.6 ppm pullin + margin). M/S REF_Activity, 0x07 (R) Bit 7 ~ Bit 4 Reserved Bit 3 ~ Bit 0 Cross reference activity 0000: No signal 0001: 8kHz 0100: 12.96MHz 0101: 19.44MHz 0110: 25.92MHz 0111: 38.88MHz 1000: 51.84MHz 1001: 77.76MHz 1010-1111: Reserved Indicates signal presence and auto-detected frequency for the M/S REF input. Ref_Activity, 0x08 (R) Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 ref8 activity 1: on 0: off ref7 activity 1: on 0: off ref6 activity 1: on 0: off ref5 activity 1: on 0: off ref4 activity 1: on 0: off ref3 activity 1: on 0: off ref2 activity 1: on 0: off ref1 activity 1: on 0: off Page 13 of 36 Rev: 04 Date: 01/26/11 Each bit indicates the presence of a signal for that reference. SM3E Data Sheet #: TM054 © Copyright 2011 The Connor-Winfield Corp. All Rights Reserved Specifications subject to change without notice Register Descriptions and Operation continued Ref_Pullin_Sts, 0x09 (R) Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 ref8 sts 1: in range 0: out range ref7 sts 1: in range 0: out range ref6 sts 1: in range 0: out range ref5 sts 1: in range 0: out range ref4 sts 1: in range 0: out range ref3 sts 1: in range 0: out range ref2 sts 1: in range 0: out range ref1 sts 1: in range 0: out range Each bit indicates if the reference is within the frequency range specified by the value in the Max_Pullin register. Ref_Qualified, 0x0a (R) Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 ref8 qual: 1: avail. 0: not avail. ref7 qual: 1: avail. 0: not avail. ref6 qual: 1: avail. 0: not avail. ref5 qual: 1: avail. 0: not avail. ref4 qual: 1: avail. 0: not avail. ref3 qual: 1: avail. 0: not avail. ref2 qual: 1: avail. 0: not avail. ref1 qual: 1: avail. 0: not avail. This register contains the “anded” condition of the Ref_Activity and Ref_Pullin_Sts registers for each of the Ref1-8 inputs, qualified for 10 seconds. When a reference signal has been present for > 10 seconds and is within the pull-in range, its bit is set. Ref_Mask, 0x0b (R/W) Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 ref8 mask: 1: avail. 0: not avail. Default: 0 ref7 mask: 1: avail. 0: not avail. Default: 0 ref6 mask: 1: avail. 0: not avail. Default: 0 ref5 mask: 1: avail. 0: not avail. Default: 0 ref4 mask: 1: avail. 0: not avail. Default: 0 ref3 mask: 1: avail. 0: not avail. Default: 0 ref2 mask: 1: avail. 0: not avail. Default: 0 ref1 mask: 1: avail. 0: not avail. Default: 0 Individual references may be marked as “available” or “not available” for selection in the automatic reference selection mode (bit 1 = 0 in the Ctl_Mode register). The reset default value is 0, “not available”. In manual reference selection, either hardware or register controlled, the reference masks have no effect, but do remain valid and are applied upon a transition to automatic mode. Ref_Available, 0x0c (R) Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 ref8 avail: 1: avail. 0: not avail. ref7 avail: 1: avail. 0: not avail. ref6 avail: 1: avail. 0: not avail. ref5 avail: 1: avail. 0: not avail. ref4 avail: 1: avail. 0: not avail. ref3 avail: 1: avail. 0: not avail. ref2 avail: 1: avail. 0: not avail. ref1 avail: 1: avail. 0: not This register contains the “anded” condition of the Ref_Qualified and Ref_Mask registers. Ref_Rev_Delay, 0x0d (R/W) Bit 7 ~ Bit 0 Reference reversion delay time, 0 - 255 minutes. default = 0000 0101, 5 minutes In automatic reference selection mode, when a reference fails and later returns, it must be available for the time specified in the Ref_Rev_Delay register before it can be switched back to as the active reference (if the new reference was marked as “revertive”). SM3E Data Sheet #: TM054 Page 14 of 36 Rev: 04 Date: 01/26/11 © Copyright 2011 The Connor-Winfield Corp. All Rights Reserved Specifications subject to change without notice Register Descriptions and Operation continued Phase_Offset, 0x0e (R/W) Bit 7 ~ Bit 0 The 2’s complement value of phase offset between Master Output module and Slave Output module, ranges from -32 nS to +31.75 nS Positive Value: Master Output rising edge leads Slave Output Negative Value: Master Output rising edge lags Slave Output In slave mode, the slave’s outputs may be phase shifted -32nS to +31.75nS in .25nS increments, relative to M/S according to the contents of the Phase_Offset register, to compensate for the path length of the M/S to M/S connection. If a phase offset is used, then the two SM3E devices would typically be written to the appropriate phase offset values for the respective path lengths of each Master to Slave connection, to ensure that the same relative output signal phases will persist through master/slave switches. Calibration, 0x0f (R/W) Bit 7 ~ Bit 0 2’s complement value of local oscillator digital calibration in 0.05 ppm resolution To digitally calibrate the free running clock synthesized from the internal clock, this register is written with a value corresponding to the known frequency offset of the oscillator from the nominal center frequency. Fr_Pulse_Width, 0x10 (R/W) Bit 7 ~ Bit4 Reserved Bit 3 ~ Bit 0 Pulse width for M/S clock output, 1-15 multiples of the Sync_Clk clock period. BITS 4 and 5 of the Ctl_Mode register determine if the M/S 8 kHz output is 50% duty cycle or pulsed (high going) outputs. When they are pulsed, the Fr_Pulse_Width register determines the width. Width is the register value multiple of the Sync_Clk clock period. Valid values are 1 - 15. Reset default is 0001. Writing to 0000 maps to 0001. DPLL_Status, 0x11 (R) Bit 7 ~Bit 5 Reserved Bit 4 Hold Over Build Complete 1: Complete 0: Incomplete Bit 3 Hold Over Available 1: Avail. 0: Not avail. Bit 2 Locked 1: Locked 0: Not locked Bit 1 Loss of Lock 1: Loss of Lock 0: No loss of lock Bit 0 Loss of Signal 1: No activity on active reference 0: Active ref- erence signal present Bit 0 indicates the presence of a signal on the selected reference. Bit 1 indicates a loss of lock (LOL). Loss of lock will be asserted if lock is not achieved within the specified time for the stratum level of operation, or lock is lost after being established previously. LOL will not be asserted for automatic reference switches. Bit 2 indicates successful phase lock. It will typically be set in