8432DYI-101LF Datasheet 8432DYI-101LF, 8432DYI-101LFT | P10-P12

8432I-101 Data Sheet

FIGURE 4C. HIPERCLOCKS CLK/NCLK INPUT DRIVEN BY

3.3V LVPECL DRIVER

FIGURE 4B. HIPERCLOCKS CLK/NCLK INPUT DRIVEN BY

3.3V LVPECL DRIVER

FIGURE 4D. HIPERCLOCKS CLK/NCLK INPUT DRIVEN BY

3.3V LVDS DRIVER

3.3V

R1

50

R3

50

Zo = 50 Ohm

LVPECL

Zo = 50 Ohm

HiPerClockS

CLK

nCLK

3.3V

Input

R2

50

Zo = 50 Ohm

Input

HiPerClockS

CLK

nCLK

3.3V

R3

125

R2

84

Zo = 50 Ohm

3.3V

R4

125

LVPECL

R1

84

3.3V

DIFFERENTIAL CLOCK INPUT INTERFACE

The CLK /nCLK accepts LVDS, LVPECL, LVHSTL, SSTL, HCSL and

other differential signals. Both V

SWING and VOH must meet the VPP and

V

CMR input requirements. Figures 4A to 4E show interface examples

for the HiPerClockS CLK/nCLK input driven by the most common

driver types. The input interfaces suggested here are examples only.

FIGURE 4A. HIPERCLOCKS CLK/NCLK INPUT DRIVEN BY

IDT HIPERCLOCKS LVHSTL DRIVER

Please consult with the vendor of the driver component to conﬁ rm

the driver termination requirements. For example in Figure 4A, the

input termination applies for IDT HiPerClockS LVHSTL drivers. If

you are using an LVHSTL driver from another vendor, use their

termination recommendation.

1.8V

R2

50

Input

LVHSTL Driver

ICS

HiPerClockS

R1

50

LVHSTL

3.3V

Zo = 50 Ohm

HiPerClockS

CLK

nCLK

FIGURE 4E. HIPERCLOCKS CLK/NCLK INPUT DRIVEN BY

3.3V LVPECL DRIVER WITH AC COUPLE

Zo = 50 Ohm

R3

125

HiPerClockS

CLK

nCLK

3.3V

R5

100 - 200

3.3V

R2

84

3.3V

R6

100 - 200

Input

R5,R6 locate near the driver pin.

Zo = 50 Ohm

R1

84

R4

125

C2

LVPECL

C1

Zo = 50 Ohm

R1

100

3.3V

LVDS_Driv er

Zo = 50 Ohm

Receiver

CLK

nCLK

3.3V

8432I-101 Data Sheet

The clock layout topology shown below is a typical termination for

LVPECL outputs. The two different layouts mentioned are recom-

mended only as guidelines.

FOUT and nFOUT are low impedance follower outputs that generate

ECL/LVPECL compatible outputs. Therefore, terminating resistors

(DC current path to ground) or current sources must be used for

functionality. These outputs are designed to drive 50Ω transmission

FIGURE 5B. LVPECL OUTPUT T ERMINATIONFIGURE 5A. LVPECL OUTPUT T ERMINATION

lines. Matched impedance techniques should be used to maximize

operating frequency and minimize signal distortion. Figures 5A

and 5B show two different layouts which are recommended only

as guidelines. Other suitable clock layouts may exist and it would

be recommended that the board designers simulate to guarantee

compatibility across all printed circuit and clock component process

variations.

TERMINATION FOR LVPECL OUTPUTS

8432I-101 Data Sheet

LAYOUT GUIDELINE

The schematic of the 8432I-101 layout example used in this layout

guideline is shown in Figure 6A. The 8432I-101 recommended PCB

board layout for this example is shown in Figure 6B. This layout

example is used as a general guideline. The layout in the actual

FIGURE 6A. SCHEMATIC OF RECOMMENDED LAYOUT

system will depend on the selected component types, the density

of the components, the density of the traces, and the stack up of

the P.C. board.

C16

10u

Termination A

U1

8432-101

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

32

31

30

29

28

27

26

25

M5

M6

M7

M8

N0

N1

nc

VEE

TEST

VDD

FOUT1/2

nFOUT1/2

VCCO

FOUT

nFOUT

VEE

MR

S_CLOCK

S_DATA

S_LOAD

VDDA

nCLK_SEL

REF_IN

CLK

M4

M3

M2

M1

M0

VCO_SEL

nP_LOAD

nCLK

R1

125

VCCA

TL2

Zo = 50 Ohm

TEST

IN-

VCC

S_CLOCK

VCC

R3

125

C11

0.01u

XTAL_SEL

R3

50

S_LOAD

R7

10

TL1

Zo = 50 Ohm

MR

IN+

R4

84

FOUT

R2

84

S_DATA

R1

50

C15

0.1u

nCLK

CLK

VCC

IN+

Termination B

(not shown in

the layout)

FOUTN

R2

50

C14

0.1u

VCC

8432DYI-101LF

8432DYI-101LF

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