9FGL0241BKILF Datasheet 9FGL02P1B000KILFT, 9FGL0241BKILF, 9FGL0251BKILF | P10-P12

2-OUTPUT 3.3V PCIE CLOCK GENERATOR 10 DECEMBER 1, 2016

9FGL02 DATASHEET

General SMBus Serial Interface Information

How to Write

• Controller (host) sends a start bit

• Controller (host) sends the write address

• IDT clock will acknowledge

• Controller (host) sends the beginning byte location = N

• IDT clock will acknowledge

• Controller (host) sends the byte count = X

• IDT clock will acknowledge

• Controller (host) starts sending Byte N through Byte

N+X-1

• IDT clock will acknowledge each byte one at a time

• Controller (host) sends a Stop bit

Note: SMBus Read/Write Address is Latched on SADR

pin. Unless otherwise indicated, default values are for the

xx41 and xx51. P1 devices are fully factory

programmable.

How to Read

• Controller (host) will send a start bit

• Controller (host) sends the write address

• IDT clock will acknowledge

• Controller (host) sends the beginning byte location = N

• IDT clock will acknowledge

• Controller (host) will send a separate start bit

• Controller (host) sends the read address

• IDT clock will acknowledge

• IDT clock will send the data byte count = X

• IDT clock sends Byte N+X-1

• IDT clock sends Byte 0 through Byte X (if X

(H)

was

written to Byte 8)

• Controller (host) will need to acknowledge each byte

• Controller (host) will send a not acknowledge bit

• Controller (host) will send a stop bit

Index Block Write Operation

Controller (Host) IDT (Slave/Receiver)

TstarT bit

Slave Address

WR WRite

ACK

Beginning Byte = N

ACK

Data Byte Count = X

ACK

Beginning Byte N

X Byte

ACK

O O

Byte N + X - 1

ACK

PstoP bit

Index Block Read Operation

Controller (Host) IDT (Slave/Receiver)

TstarT bit

Slave Address

WR WRite

ACK

Beginning Byte = N

ACK

RT Repeat starT

Slave Address

RD ReaD

ACK

Data Byte Count=X

ACK

X Byte

Beginning Byte N

ACK

O O

Byte N + X - 1

N Not acknowledge

PstoP bit

DECEMBER 1, 2016 11 2-OUTPUT 3.3V PCIE CLOCK GENERATOR

9FGL02 DATASHEET

SMBus Table: Output Enable Register

Byte 0 Name Control Function Type 0 1 Default

Bit 7

Bit 6

Bit 5

Bit 4

Bit 3

Bit 2

DIF OE1 Output Enable RW Low/Low Pin Control 1

Bit 1

DIF OE0 Output Enable RW Low/Low Pin Control 1

Bit 0

SMBus Table: Spread Spectrum and Vhigh Control Register

Byte 1 Name Control Function Type 0 1 Default

Bit 7

SSENRB1 SS Enable Readback Bit1

Latch

Bit 6

SSENRB1 SS Enable Readback Bit0

Latch

Bit 5

SSEN_SWCNTRL Enable SW control of SS RW

SS controlled by

latch (B1[7:6]).

Values in B1[4:3]

control SS amount.

Bit 4

SSENSW1 SS Enable Software Ctl Bit1

Bit 3

SSENSW0 SS Enable Software Ctl Bit0

Bit 2

Bit 1

AMPLITUDE 1 RW 00 = 0.6V 01= 0.68V 1

Bit 0

AMPLITUDE 0 RW 10 = 0.75V 11 = 0.85V 0

SMBus Table: DIF Slew Rate Control Register

Byte 2 Name Control Function Type 0 1 Default

Bit 7

Bit 6

Bit 5

Bit 4

Bit 3

Bit 2

SLEWRATESEL DIF1 Adjust Slew Rate of DIF1 RW Slow Setting Fast Setting 1

Bit 1

SLEWRATESEL DIF0 Adjust Slew Rate of DIF0 RW Slow Setting Fast Setting 1

Bit 0

Note: See "Low-Power HCSL Outputs" table for slew rates.

SMBus Table: REF Control Register

Byte 3 Name Control Function Type 0 1 Default

Bit 7

RW 00 = Slowest 01 = Slow 0

Bit 6

RW 10 = Fast 11 = Faster 1

Bit 5

REF Power Down Function Wake-on-Lan Enable for REF RW

REF disabled in

Power Down

REF runs in Power

Down

Bit 4

REF OE REF Output Enable RW

Disabled

Enabled 1

Bit 3

Bit 2

Bit 1

Bit 0

Byte 4 is Reserved

Reserved

REF Slew Rate Control

1. A low on these bits will overide the OE# pin and force the differential output to the state indicated by B11[1:0] (Low/Low default).

00' for SS_EN_tri = 0, '01' for SS_EN_tri

= 'M', '11 for SS_EN_tri = '1'

00' = SS Off, '01' = -0.25% SS,

'10' = Reserved, '11'= -0.5% SS

Reserved

Controls Output Amplitude

Reserved

1. Spread must be selected OFF or ON with the hardware latch pin. These bits should not be used to turn spread ON or OFF after

power up. These bits can be used to change the spread amount, and B1[5] must be set to a 1 for these bits to have any effect on the

part. If These bits are used to turn spread OFF or ON, the system will need to be reset.

2-OUTPUT 3.3V PCIE CLOCK GENERATOR 12 DECEMBER 1, 2016

9FGL02 DATASHEET

SMBus Table: Revision and Vendor ID Register

Byte 5 Name Control Function Type 0 1 Default

Bit 7

RID3

Bit 6

RID2

Bit 5

RID1

Bit 4

RID0

Bit 3

VID3

Bit 2

VID2

Bit 1

VID1

Bit 0

VID0

SMBus Table: Device Type/Device ID

Byte 6 Name Control Function Type 0 1 Default

Bit 7

Device Type1

Bit 6

Device Type0

Bit 5

Device ID5

Bit 4

Device ID4

Bit 3

Device ID3

Bit 2

Device ID2

Bit 1

Device ID1

Bit 0

Device ID0

SMBus Table: Byte Count Register

Byte 7 Name Control Function Type 0 1 Default

Bit 7

Bit 6

Bit 5

Bit 4

BC4 RW 0

Bit 3

BC3 RW 1

Bit 2

BC2 RW 0

Bit 1

BC1 RW 0

Bit 0

BC0 RW 0

Bytes 8 and 9 are Reserved

SMBus Table: PLL MN Enable, PD_Restore

Byte 10 Name Control Function Type 0 1 Default

Bit 7

Reserved Reserve bit, leave at default RW Reserved Reserved 0

Bit 6

Power-Down (PD) Restore Restore Default Config. In PD RW Clear Config in PD Keep Config in PD 1

Bit 5

Bit 4

Bit 3

Bit 2

Bit 1

Bit 0

Reserved

Byte Count Programming

Writing to this register will configure how

many bytes will be read back, default is

= 8 bytes.

Reserved

VENDOR ID 0001 = IDT

Device Type

00 = FGx, 01 = DBx,

10 = DMx, 11= DBx w/oPLL

Device ID 00010 binary or 02 hex

Revision ID B rev = 0001

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P19

9FGL0241BKILF

Mfr. #:

Buy 9FGL0241BKILF

Manufacturer:

IDT

Description:

Clock Generators & Support Products 2 O/P PCIe GEN1-2-3 CLK GEN ZO 100 Ohm

Lifecycle:

New from this manufacturer.

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