STC3800 Datasheet, PDF(32/48 Page) Connor-Winfield Corporation – INTEGRATED

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STC3800 Datasheet, PDF (32/48 Pages) Connor-Winfield Corporation – INTEGRATED - STRATUM 3E TIMING SOURCE

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Application Notes continued

Environment â The maximum device power dissipation is 2 W. Board layout and device location need to account for

adequate cooling.

All device input and output signal levels are 3.3V LVTTL (Except VC_PPECL and VC_NPECL, which are LVPECL).

External Component Selection â Following are the recommended external components to be used with the STC3800.

The device pins to which they connect are also shown. The main oscillator may be an OCXO or TCXO:

Component

OCXO (CT only)

OCXO (IT only)

TCXO (CT range only)

VCXO (CT range)

VCXO (IT range)

DAC

EEPROM (Optional)

Component Selection

Figure 8

Vendor

Part Number/Description

Connor-Winfield

ASOF3S3 12.8 MHz

AGOF3S3 12.8 MHz

Connor-Winfield

DSOF3S3 12.8 MHz

BGOF3S3 12.8 MHz

Connor-Winfield

T-501

Connor-Winfield

VKB52B2 (- Sync_Clk frequency)

Connor-Winfield

VKB62B2 (- Sync_Clk frequency)

Linear Technology

LTC1655LCS8

Atmel

AT24C64N-10SI-2.7

Device Pins

OCXO

TCXO

VCXO

DACclk, DACdin, DACld

E2scl, E2sda, E2wp

The VCXO determines the Sync_Clk output frequency. Acceptable output frequencies are: 12.96 MHz, 19.44 MHz,

25.92 MHz, 38.88 MHz 51.84 MHz, 77.76 MHz, or 155.52 MHz. The device will operationally auto-detect the output

frequency.

The EEPROM is optional, and is required to hold device configuration data if the application intends to operate in

hardware control mode only (No bus interface). If the bus interface is used, the application may provide the

configuration data pump, and no EEPROM is required. See Application Notes, Configuration Data section.

Reference Inputs â The application may supply up to 8 reference inputs, applied at input pins Ref1 - 8. They may each

be 8 kHz, 1.544 MHz, 2.048 MHz, 12.96 MHz, 19.44 MHz, 25.92MHz, 38.88 MHz, 51.84 MHz or 77.76 MHz. The

device auto-detects the reference frequencies, and they may be read from the Ref(1-8)_Frq_Priority registers in

Reference switches are performed in a hitless manner. However, if the application externally changes the frequency of

a particular reference, the device requires 20mS to auto-detect the new frequency. Manual switches to a frequency

changed reference should not be made during this interval. Automatic reference selection mode accounts for the auto-

detection delay in the reference qualification.

References would typically (but need not be) connected in decreasing order of usage priority. For example if redundant

BITS clocks are available, they would typically be assigned to Ref1 and Ref2, with other transmission derived signals

following thereafter.

Master/slave operation â For some applications, reliability requirements may demand that the clock system to be

duplicated. The STC3800 device will support the master/slave duplicated configuration for such applications. To

facilitate itâs use, the device includes the necessary signal cross coupling and control functions. Redundancy for

reliability implies two major considerations:

1) Maintaining separate failure groups such that a failure in one group does not affect itâs mate, and 2) Physical and

logical partitioning for repair, such that a failed component can be replaced while the mate remains in service, if so

desired. System design needs to account for these appropriately for system level goals to be met.

Preliminary Data Sheet #: TM061 Page 32 of 48 Rev: P06 Date: 11/22/04

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