AD9547/PCBZ Analog Devices Inc, AD9547/PCBZ Datasheet - Page 97

AD9547/PCBZ

Manufacturer Part Number

AD9547/PCBZ

Description

Clock Generator/Synchronizer Evaluation Board

Manufacturer

Analog Devices Inc

Datasheet

1.AD9547BCPZ-REEL7.pdf (104 pages)

Specifications of AD9547/PCBZ

Silicon Manufacturer

Analog Devices

Application Sub Type

Network Clock Generator/Synchronizer

Kit Application Type

Clock & Timing

Silicon Core Number

AD9547

Main Purpose

Timing, Clock Generator

Embedded

Utilized Ic / Part

AD9547

Primary Attributes

2 Differential or 4 Single Ended Inputs

Secondary Attributes

CMOS, LVPECL & LVDS Compatible

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Table 154. EEPROM Storage Sequence for Profile 4 and Profile 5 Settings

Address

0x0E28

0x0E29

0x0E2A

Table 155. EEPROM Storage Sequence for Profile 6 and Profile 7 Settings

Address

0x0E2B

0x0E2C

0x0E2D

0x0E2E

Table 156. EEPROM Storage Sequence for Operational Control Settings

Address

0x0E2F

0x0E30

0x0E31

0x0E32

Table 157. EEPROM Storage Sequence for End of Data

Address

0x0E33

Bit

[7:0]

Bit

[7:0]

Bit

[7:0]

Bit

[7:0]

Bit Name

Profile 4 and Profile 5

Bit Name

Profile 6 and Profile 7

I/O update

Bit Name

Operational controls

I/O update

Bit Name

End of data

Description

The default value of this register is 0x63, which the controller interprets as a data instruction.

Its decimal value is 99, which tells the controller to transfer 100 bytes of data (99 + 1)

beginning at the address specified by the next two bytes. The controller stores 0x63 in the

EEPROM and increments the EEPROM address pointer.

The default value of these two registers is 0x0700. Note that Register

are the most significant and least significant bytes of the target address, respectively. Because

the previous register contains a data instruction, these two registers define a starting address

(in this case, 0x0700). The controller stores 0x0700 in the EEPROM and increments the EEPROM

pointer by 2. It then transfers 100 bytes from the register map (beginning at Address 0x0700)

to the EEPROM and increments the EEPROM address pointer by 101 (100 data bytes and one

checksum byte). The 99 bytes transferred correspond to the Profile 4 and Profile 5 parameters

in the register map.

Description

The default value of this register is 0x63, which the controller interprets as a data instruction.

Its decimal value is 99, this tells the controller to transfer 100 bytes of data (99 + 1) beginning

at the address specified by the next two bytes. The controller stores 0x63 in the EEPROM and

increments the EEPROM address pointer.

The default value of these two registers is 0x0780. Note that Register 0x0E2C and Register 0x0E2D

are the most significant and least significant bytes of the target address, respectively. Because

the previous register contains a data instruction, these two registers define a starting address

(in this case, 0x0780). The controller stores 0x0780 in the EEPROM and increments the EEPROM

pointer by 2. It then transfers 100 bytes from the register map (beginning at Address 0x0780)

to the EEPROM and increments the EEPROM address pointer by 101 (100 data bytes and one

checksum byte). The 99 bytes transferred correspond to the Profile 6 and Profile 7 parameters

in the register map.

The default value of this register is 0x80, which the controller interprets as an I/O update

instruction. The controller stores 0x80 in the EEPROM and increments the EEPROM address pointer.

Description

The default value of this register is 0x10, which the controller interprets as a data instruction.

Its decimal value is 16, this tells the controller to transfer 17 bytes of data (16 + 1) beginning at

the address specified by the next two bytes. The controller stores 0x10 in the EEPROM and

increments the EEPROM address pointer.

The default value of these two registers is 0x0A00. Note that Register 0x0E30 and Register 0x0E31

are the most significant and least significant bytes of the target address, respectively. Because

the previous register contains a data instruction, these two registers define a starting address

(in this case, 0x0A00). The controller stores 0x0A00 in the EEPROM and increments the EEPROM

pointer by 2. It then transfers 17 bytes from the register map (beginning at Address 0x0A00) to

the EEPROM and increments the EEPROM address pointer by 18 (17 data bytes and one checksum

byte). The 17 bytes transferred correspond to the operational controls parameters in the

The default value of this register is 0x80, which the controller interprets as an I/O update

instruction. The controller stores 0x80 in the EEPROM and increments the EEPROM address pointer.

Description

The default value of this register is 0xFF, which the controller interprets as an end instruction.

The controller stores this instruction in the EEPROM, resets the EEPROM address pointer, and

enters an idle state. Note that, if this were a pause rather than an end instruction, the controller

actions would be the same except that the controller would not reset the EEPROM address pointer.

Rev. B | Page 97 of 104

x0E29 and Register 0x0E2A

AD9547

AD9547/PCBZ Analog Devices Inc, AD9547/PCBZ Datasheet - Page 97

AD9547/PCBZ

Specifications of AD9547/PCBZ

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