8N4Q001FG-1052CDI Datasheet 8N4Q001LG-1099CDI, 8N4Q001EG-0005CDI8, 8N4Q001EG-1133CDI8 | P13-P15

IDT8N4Q001 REV G Data Sheet QUAD-FREQUENCY PROGRAMMABLE-XO

IDT8N4Q001GCD REVISION A

MARCH 6, 2012

Schematic Layout

Figure 2 shows an example of IDT8N4Q001 application schematic.

In this example, the device is operated at V

= 3.3V. 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.

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

filter performance is designed for wide range of noise frequencies.

This low-pass filter starts to attenuate noise at approximately 10kHz.

If a specific frequency noise component is known, such as switching

power supply 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 capacitances in the local area of all devices.

The schematic example focuses on functional connections and is not

configuration specific. Refer to the pin description and functional

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

set.

Figure 2. IDT8N4Q001 Application Schematic

0.1u F

100

0.1uF

10uF

Alternate

LVDS

Termination

LVDS Termination

VDD

RD2

VDD

FSEL1

Set Logic

Input to

'0'

VDD

RU1

RD1

Not Install

Zo_Diff = 100 Ohm

To Logic

Inp ut

pins

RU2

Not Install

Set Logic

Input to

'1'

Zo_D if f = 100 Oh m

To Logic

Input

pins

3.3V

SDATA

BLM18BB221SN1

Ferrite Bead

1 2

0.1u F

Logic Control Input Examples

FSEL0

VCC=3.3V

3 6

5 9

DNU

GND Q

VDD

F SEL0

FSEL1 SDATA

SCLK

VDD

IDT8N4Q001 REV G Data Sheet QUAD-FREQUENCY PROGRAMMABLE-XO

IDT8N4Q001GCD REVISION A

MARCH 6, 2012

Power Considerations

This section provides information on power dissipation and junction temperature for the IDT8N4Q001. 

Equations and example calculations are also provided.

1. Power Dissipation.

The total power dissipation for the ICS844S42I 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 * 160mA = 554.4mW

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 49.4°C/W per Table 7 below.

Therefore, Tj for an ambient temperature of 85°C with all outputs switching is:

85°C + 0.554W * 49.4°C/W = 112.4°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 7. Thermal Resistance 

for 10 Lead Ceramic 5mm x 7mm Package, Forced Convection



by Velocity

Meters per Second 012.5

Multi-Layer PCB, JEDEC Standard Test Boards 49.4°C/W 44.2°C/W 41.0°C/W

IDT8N4Q001 REV G Data Sheet QUAD-FREQUENCY PROGRAMMABLE-XO

IDT8N4Q001GCD REVISION A

MARCH 6, 2012

Reliability Information

Table 8. 

vs. Air Flow Table for a 10-lead Ceramic 5mm x 7mm Package

Transistor Count

The transistor count for IDT8N4Q001 is: 47,372



vs. Air Flow

Meters per Second 012.5

Multi-Layer PCB, JEDEC Standard Test Boards 49.4°C/W 44.2°C/W 41.0°C/W

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P20

8N4Q001FG-1052CDI

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