5P49V5933B000LTGI Datasheet 5P49V5933B000LTGI | P25-P27

MARCH 10, 2017 25 PROGRAMMABLE CLOCK GENERATOR

5P49V5933 DATASHEET

LVDS Driver Termination

For a general LVDS interface, the recommended value for the

termination impedance (Z

) is between 90. and 132. The

actual value should be selected to match the differential

impedance (Zo) of your transmission line. A typical

point-to-point LVDS design uses a 100

 parallel resistor at the

receiver and a 100

. differential transmission-line

environment. In order to avoid any transmission-line reflection

issues, the components should be surface mounted and must

be placed as close to the receiver as possible. The standard

termination schematic as shown in figure

Standard

Termination

or the termination of figure Optional Termination

can be used, which uses a center tap capacitance to help filter

common mode noise. The capacitor value should be

approximately 50pF. In addition, since these outputs are LVDS

compatible, the input receiver's amplitude and common-mode

input range should be verified for compatibility with the IDT

LVDS output. If using a non-standard termination, it is

recommended to contact IDT and confirm that the termination

will function as intended. For example, the LVDS outputs

cannot be AC coupled by placing capacitors between the

LVDS outputs and the 100

 shunt load. If AC coupling is

required, the coupling caps must be placed between the 100



shunt termination and the receiver. In this manner the

termination of the LVDS output remains DC coupled.

LVDS

Driver

LVDS

Driver

LVDS

Receiver

LVDS

Receiver

 Z

Standard Termination

Optional Termination

PROGRAMMABLE CLOCK GENERATOR 26 MARCH 10, 2017

5P49V5933 DATASHEET

Termination for 3.3V LVPECL Outputs

The clock layout topology shown below is a typical termination

for LVPECL outputs. The two different layouts mentioned are

recommended only as guidelines.

The differential outputs 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 50

 transmission lines.

Matched impedance techniques should be used to maximize

operating frequency and minimize signal distortion. The figure

below

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.

3.3V LVPECL Output Termination (1)

3.3V LVPECL Output Termination (2)

LVPECL

Zo=50ohm

3.3V

R1 R2

3.3V

50ohm

RTT

50ohm

Input

LVPECL

Zo=50ohm

3.3V

Input

R1 R2

3.3V

84ohm

3.3V

R3 R4

125ohm

MARCH 10, 2017 27 PROGRAMMABLE CLOCK GENERATOR

5P49V5933 DATASHEET

Termination for 2.5V LVPECL Outputs

Figures 2.5V LVPECL Driver Termination Example (1) and (2)

show examples of termination for 2.5V LVPECL driver. These

terminations are equivalent to terminating 50

 to V

DDO

– 2V.

For V

DDO

= 2.5V, the V

DDO

– 2V is very close to ground level.

The R3 in Figure

2.5V LVPECL Driver Termination Example

(3)

can be eliminated and the termination is shown in example

(2).

2.5V LVPECL Driver Termination Example (1)

2.5V LVPECL Driver Termination Example (2)

2.5V LVPECL Driver Termination Example (3)

2.5V LVPECL

Driver

Zo=50ohm

2.5V

R2 R4

DDO

= 2.5V

62.5ohm

2.5V

R1 R3

250ohm

2.5V LVPECL

Driver

Zo=50ohm

2.5V

R1 R2

DDO

= 2.5V

50ohm

2.5V LVPECL

Driver

Zo=50ohm

2.5V

R1 R2

DDO

= 2.5V

50ohm

18ohm

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5P49V5933B000LTGI

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IDT

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Clock Generators & Support Products VersaClock 5 CLK Gen 350MHz 2 Input

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