8633AF-01LF Datasheet 8633AF-01LF, 8633AF-01LFT | P7-P9

8633AF-01 www.idt.com REV. B AUGUST 2, 2010

ICS8633-01

1-TO-3 DIFFERENTIAL-TO-3.3V LVPECL

ZERO DELAY BUFFER

FIGURE 3C. CLK/nCLK INPUT DRIVEN BY

3.3V LVPECL DRIVER

FIGURE 3B. CLK/nCLK INPUT DRIVEN BY

3.3V LVPECL DRIVER

FIGURE 3D. CLK/nCLK INPUT DRIVEN BY

3.3V LVDS DRIVER

3.3V

Zo = 50 Ohm

LVPECL

Zo = 50 Ohm

HiPerClockS

CLK

nCLK

3.3V

Input

Zo = 50 Ohm

Input

HiPerClockS

CLK

nCLK

3.3V

125

Zo = 50 Ohm

3.3V

125

LVPECL

3.3V

DIFFERENTIAL CLOCK INPUT INTERFACE

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

and other differential signals. Both V

SWING

and V

must meet the

and V

CMR

input requirements. Figures 3A to 3D show

interface examples for the CLK/nCLK input driven by the most

common driver types. The input interfaces suggested here are

FIGURE 3A. CLK/nCLK INPUT DRIVEN BY

LVHSTL DRIVER

examples only. Please consult with the vendor of the driver

component to confirm the driver termination requirements. For

example in Figure 3A, the input termination applies for LVHSTL

drivers. If you are using an LVHSTL driver from another

vendor, use their termination recommendation.

1.8V

Input

LVHSTL Driver

ICS

HiPerClockS

LVHSTL

3.3V

Zo = 50 Ohm

HiPerClockS

CLK

nCLK

Zo = 50 Ohm

100

3.3V

LVDS_Driv er

Zo = 50 Ohm

Receiv er

CLK

nCLK

3.3V

INPUTS:

CLK/nCLK INPUT:

For applications not requiring the use of the differential input,

both CLK and nCLK can be left floating. Though not required,

but for additional protection, a 1kΩ resistor can be tied from

CLK to ground.

LVCMOS C

ONTROL PINS:

All control pins have internal pull-ups or pull-downs; additional

resistance is not required but can be added for additional

protection. A 1kΩ resistor can be used.

RECOMMENDATIONS FOR UNUSED INPUT AND OUTPUT PINS

OUTPUTS:

LVPECL OUTPUT

All unused LVPECL outputs can be left floating. We

recommend that there is no trace attached. Both sides of the

differential output pair should either be left floating or

terminated.

8633AF-01 www.idt.com REV. B AUGUST 2, 2010

ICS8633-01

1-TO-3 DIFFERENTIAL-TO-3.3V LVPECL

ZERO DELAY BUFFER

- 2V

50Ω 50Ω

RTT

= 50Ω

FOUT

FIN

RTT = Z

((V

+ V

) / (V

– 2)) – 2

3.3V

125Ω 125Ω

84Ω 84Ω

= 50Ω

FOUT FIN

The clock layout topology shown below is a typical termina-

tion for LVPECL outputs. The two different layouts mentioned

are recommended only as guidelines.

FOUT and nFOUT are low impedance follower outputs that gen-

erate 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 lines. Matched impedance techniques should

be used to maximize operating frequency and minimize signal

distortion.

Figures 4A and 4B

show two different layouts which

are recommended only as guidelines. Other suitable clock lay-

outs 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

FIGURE 4B. LVPECL OUTPUT TERMINATIONFIGURE 4A. LVPECL OUTPUT TERMINATION

8633AF-01 www.idt.com REV. B AUGUST 2, 2010

ICS8633-01

1-TO-3 DIFFERENTIAL-TO-3.3V LVPECL

ZERO DELAY BUFFER

APPLICATION SCHEMATIC EXAMPLE

Figure 5 shows an example of ICS8633-01 application sche-

matic. The CLK/nCLK input can be driven by several types of

differential input levels. In this example, the input is driven by

a 3.3V LVPECL driver. For the LVPECL output drivers, a

(U1-19)

Zo = 50 Ohm

VCCO

CLK_SEL

(U1-11) (U1-24)

R10

(U1-18)

VCC

(U1-25)

Zo = 50 Ohm

VCCO

VCCO=3.3V

RD3

(U1-2)

3.3V PECL Driv er

C11

0.01u

VCC=3.3V

VCC

0.1uF

Bypass capacitor located near the power pins

PLL_SEL

VCC

U1 ICS8633-01

14 15

PLL_SEL

VCC

SEL0

SEL1

CLK0

nCLK0

CLK1

nCLK1

CLK_SEL

VCC

nFB_IN

FB_IN

VEE VEE

nQ0

VCCO

nQ1

nQ2

VCCO

VCCA

VEE

VCCO

SEL1

PLL_SEL

SEL0

C16

10u

0.1uF

Output

Termination

Example

RU2

RD2

VCCA

CLK_SEL

3.3V

SP = Spare Footprint

RD4

RU5

RU4

VCC

0.1uF

RU3

0.1uF

SEL0

Zo = 50 Ohm

LVPECL_input

Zo = 50 Ohm

SEL1

RD5

termination example is shown in this schematic. Additional

termination approaches are shown in the LVPECL Termi-

nation Application Note.

FIGURE 5. ICS8633-01 LVPECL ZERO DELAY BUFFER SCHEMATIC EXAMPLE

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

8633AF-01LF

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Description:

Clock Buffer 3 LVHSTL OUT ZDB

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