8T49N008A-024NLGI Datasheet 8T49N008A-000NLGI, 8T49N008A-044NLGI, 8T49N008A-024NLGI | P25-P27

IDT8T49N008I Data Sheet PROGRAMMABLE FEMTOCLOCK

NG LVPECL/LVDS CLOCK GENERATOR WITH 8-OUTPUTS

Termination for 2.5V LVPECL Outputs

Figure 7A and Figure 7B show examples of termination for 2.5V

LVPECL driver. These terminations are equivalent to terminating 50

to V

CCO

– 2V. For V

CCO

= 2.5V, the V

CCO

– 2V is very close to ground

level. The R3 in Figure 7B can be eliminated and the termination is

shown in Figure 7C.

Figure 7A. 2.5V LVPECL Driver Termination Example

Figure 7C. 2.5V LVPECL Driver Termination Example

Figure 7B. 2.5V LVPECL Driver Termination Example

2.5V LVPECL Driver

CCO

= 2.5V

2.5V



250

62.5

–

2.5V LVPECL Driver

CCO

= 2.5V

2.5V

50

–

2.5V LVPECL Driver

CCO

= 2.5V

2.5V



–

IDT8T49N008I Data Sheet PROGRAMMABLE FEMTOCLOCK

NG LVPECL/LVDS CLOCK GENERATOR WITH 8-OUTPUTS

VFQFN EPAD Thermal Release Path

In order to maximize both the removal of heat from the package and

the electrical performance, a land pattern must be incorporated on

the Printed Circuit Board (PCB) within the footprint of the package

corresponding to the exposed metal pad or exposed heat slug on the

package, as shown in Figure 8. The solderable area on the PCB, as

defined by the solder mask, should be at least the same size/shape

as the exposed pad/slug area on the package to maximize the

thermal/electrical performance. Sufficient clearance should be

designed on the PCB between the outer edges of the land pattern

and the inner edges of pad pattern for the leads to avoid any shorts.

While the land pattern on the PCB provides a means of heat transfer

and electrical grounding from the package to the board through a

solder joint, thermal vias are necessary to effectively conduct from

the surface of the PCB to the ground plane(s). The land pattern must

be connected to ground through these vias. The vias act as “heat

pipes”. The number of vias (i.e. “heat pipes”) are application specific

and dependent upon the package power dissipation as well as

electrical conductivity requirements. Thus, thermal and electrical

analysis and/or testing are recommended to determine the minimum

number needed. Maximum thermal and electrical performance is

achieved when an array of vias is incorporated in the land pattern. It

is recommended to use as many vias connected to ground as

possible. It is also recommended that the via diameter should be 12

to 13mils (0.30 to 0.33mm) with 1oz copper via barrel plating. This is

desirable to avoid any solder wicking inside the via during the

soldering process which may result in voids in solder between the

exposed pad/slug and the thermal land. Precautions should be taken

to eliminate any solder voids between the exposed heat slug and the

land pattern. Note: These recommendations are to be used as a

guideline only. For further information, please refer to the Application

Note on the Surface Mount Assembly of Amkor’s Thermally/

Electrically Enhance Leadframe Base Package, Amkor Technology.

Figure 8. P.C. Assembly for Exposed Pad Thermal Release Path – Side View (drawing not to scale)

SOLDERSOLDER

PINPIN EXPOSED HEAT SLUG

PIN PAD PIN PADGROUND PLANE LAND PATTERN

(GROUND PAD)

THERMAL VIA

IDT8T49N008I Data Sheet PROGRAMMABLE FEMTOCLOCK

NG LVPECL/LVDS CLOCK GENERATOR WITH 8-OUTPUTS

Schematic Layout

Figure 9 (next page) shows an example of IDT8T49N008I application

schematic. The schematic focuses on functional connections and is

not configuration specific. Refer to the pin description and functional

tables in the datasheet to ensure that the logic control inputs are

properly set.

In this example the device is operated at V

= V

CCO

= V

CCA

= 3.3V

rather than 2.5V. The CLK, nCLK inputs are provided by a 3.3V

LVPECL driver and depicted with a Y-termination rather than the

standard four resistor V

- 2V Thevinin termination for reasons of

minimum termination power and layout simplicity. Three examples of

PECL terminations are shown for the outputs to demonstrate mixing

of PECL termination design options.

As with any high speed analog circuitry, the power supply pins are

vulnerable to noise. To achieve optimum jitter performance, power

supply isolation is required. The IDT8T49N006I provides separate

power supplies to isolate from coupling into the internal PLL.

In order to achieve the best possible filtering, it is recommended that

the placement of the filter components be on the device side of the

PCB as close to the power pins as possible. If space is limited, the

0.1uF capacitor in each power pin filter should be placed on the

device side of the PCB and the other components can be placed on

the opposite side. Power supply filter recommendations are a general

guideline to be used for reducing external noise from coupling into

the devices.

The V

and V

CCO

filters start to attenuate noise at approximately

10kHz. If a specific frequency noise component is known, such as

switching power supplies frequencies, it is recommended that

component values be adjusted and if required, additional filtering be

added. Additionally, good general design practices for power plane

voltage stability suggests adding bulk capacitance in the local area of

all devices.

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