LAN9312-NZW Standard Microsystems (SMSC), LAN9312-NZW Datasheet - Page 159

LAN9312-NZW

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LAN9312-NZW

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Standard Microsystems (SMSC)

Datasheet

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Specifications of LAN9312-NZW

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High Performance Two Port 10/100 Managed Ethernet Switch with 32-Bit Non-PCI CPU Interface

Datasheet

SMSC LAN9312

11.3

IEEE 1588 CLOCK

The 64-bit IEEE 1588 clock is the time source for all IEEE 1588 related functions of the LAN9312. It

is readable and writable by the host via the

1588 Clock Low-DWORD Register

In order to accurately read this clock, a special procedure must be followed. Since two DWORD reads

are required to fully read the 64-bit clock, the possibility exists that as the lower 32-bits roll over, a

wrong intermediate value could be read. To prevent this, a snapshot register technique is used. When

the 1588_CLOCK_SNAPSHOT bit in the

“1”, the current value of the 1588 clock is saved, allowing it to be properly read.

When writing a new value to the IEEE 1588 clock, two 32-bit write cycles are required (one for each

clock register) before the registers are affected. The writes may be in any order. However, caution must

be observed when changing the clock value in a live environment as it will disrupt linear time. If the

clock must be adjusted during operation of the 1588 protocol, it is preferred to adjust the Addend value,

effectively speeding-up or slowing-down the clock until the correct time is achieved.

T h e 6 4 - b i t I E E E 1 5 8 8 c l o c k c o n s i s t s o f t h e 3 2 - b i t

(1588_CLOCK_ADDEND)

of the Accumulator, the 64- bit IEEE 1588 clock is incremented. The Addend / Accumulator pair form

a high precision frequency divider which can be used to compensate for the inaccuracy of the

reference crystal. The nominal frequency of the 64-bit IEEE 1588 clock and the value of the Addend

are calculated as follows:

FreqClock = (Addend / 2

Addend = (FreqClock * 2

Typical values for the Addend are shown in

accuracy of the IEEE 1588 clock compared to the master clock per the PTP protocol. The adjustment

precision column of the table shows the percentage change for the specified IEEE 1588 clock

frequency if the Addend was to be incremented or decremented by 1.

IEEE 1588 Clock

(FreqClock)

33 MHz

50 MHz

66 MHz

75 MHz

90 MHz

Table 11.4 Typical IEEE 1588 Clock Addend Values

that is added to a 32-bit Accumulator every 100 MHz clock. Upon overflow

) * 100 MHz

) / 100 MHz

DATASHEET

(1588_CLOCK_LO).

1588_CLOCK_ADDEND

1588 Command Register (1588_CMD)

A8F5C28Fh

159

547AE147h

C0000000h

E6666666h

80000000h

1588 Clock High-DWORD Register (1588_CLOCK_HI)

(Addend)

Table

11.4. These values should be adjusted based on the

1 5 8 8 C l o c k A d d e n d R e g i s t e r

ADJUSTMENT PRECISION %

7.1*10

4.7*10

3.5*10

3.1*10

2.6*10

Revision 1.7 (06-29-10)

-8

and

LAN9312-NZW Standard Microsystems (SMSC), LAN9312-NZW Datasheet - Page 159

LAN9312-NZW

Specifications of LAN9312-NZW

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