851021AYLF Datasheet 851021AYLF, 851021AYLFT | P10-P12

1-TO-21, DIFFERENTIAL HCSL FANOUT BUFFER 10 REVISION C 11/03/15

851021 DATA SHEET

Recommended Termination

Figure 4A is the recommended source termination for applications

where the driver and receiver will be on a separate PCBs. This

termination is the standard for PCI Express™ and HCSL output types.

All traces should be 50Ω impedance single-ended or 100Ω

differential.

Figure 4A. Recommended Source Termination (where the driver and receiver will be on separate PCBs)

Figure 4B is the recommended termination for applications where a

point-to-point connection can be used. A point-to-point connection

contains both the driver and the receiver on the same PCB. With a

matched termination at the receiver, transmission-line reflections will

be minimized. In addition, a series resistor (Rs) at the driver offers

flexibility and can help dampen unwanted reflections. The optional

resistor can range from 0Ω to 33Ω. All traces should be 50Ω

impedance single-ended or 100Ω differential.

Figure 4B. Recommended Termination (where a point-to-point connection can be used)

0-0.2"

PCI Express

1-14"

Driver

0.5" Max

49.9 +/- 5%

22 to 33 +/-5%

0.5 - 3.5"

Connector

PCI Express

Add-in Card

PCI Express

0-0.2"

PCI Express

0-0.2"0-18"

Driver

0.5" Max

49.9 +/- 5%

0 to 33

REVISION C 11/03/15 11 1-TO-21, DIFFERENTIAL HCSL FANOUT BUFFER

851021 DATA SHEET

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 5. 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, refer to the Application Note

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

Enhance Leadframe Base Package, Amkor Technology.

Figure 5. Assembly for Exposed Pad Thermal Release Path - Side View (drawing not to scale)

GROUND PLANE

LAND PATTERN

SOLDER

THERMAL VIA

EXPOSED HEAT SLUG

(GROUND PAD)

PIN PAD

SOLDER

PIN PAD

SOLDER

1-TO-21, DIFFERENTIAL HCSL FANOUT BUFFER 12 REVISION C 11/03/15

851021 DATA SHEET

Power Considerations

This section provides information on power dissipation and junction temperature for the 851021. 

Equations and example calculations are also provided.

1. Power Dissipation.

The total power dissipation for the 851021 is the sum of the core power plus the power dissipated in the load(s). The following is the power

dissipation for V

= 3.3V + 5% = 3.465V, which gives worst case results.

• Power (core)

MAX

= V

DD_MAX

* I

DD_MAX

= 3.465V * 105mA = 363.825mW

• Power (outputs)

MAX

= 44.5mW/Loaded Output Pair

If all outputs are loaded, the total power is 21 * 44.5mW = 934.5mW

Total Power_

MAX

(3.465V, with all outputs switching) = 363.825mW + 934.5mW = 1298.325mW

•

2. Junction Temperature.

Junction temperature, Tj, is the temperature at the junction of the bond wire and bond pad directly affects the reliability of the device. The

maximum recommended junction temperature is 125°C. Limiting the internal transistor junction temperature, Tj, to 125°C ensures that the bond

wire and bond pad temperature remains below 125°C.

The equation for Tj is as follows: Tj = 

* Pd_total + T

Tj = Junction Temperature



= Junction-to-Ambient Thermal Resistance

Pd_total = Total Device Power Dissipation (example calculation is in section 1 above)

= Ambient Temperature

In order to calculate junction temperature, the appropriate junction-to-ambient thermal resistance 

must be used. Assuming no air flow and

a multi-layer board, the appropriate value is 31.8°C/W per Table 4 below.

Therefore, Tj for an ambient temperature of 70°C with all outputs switching is:

70°C + 1.298W * 31.8°C/W = 111.3°C. This is below the limit of 125°C.

This calculation is only an example. Tj will obviously vary depending on the number of loaded outputs, supply voltage, air flow and the type of

board (multi-layer).

Table 4. Thermal Resistance 

for 64 Lead TQFP, E-Pad Forced Convection



by Velocity

Meters per Second 012.5

Multi-Layer PCB, JEDEC Standard Test Boards 31.8°C/W 25.8°C/W 24.2°C/W

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

851021AYLF

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Clock Drivers & Distribution 10 HCSL OUT BUFFER

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