MPC941FAR2 IDT, Integrated Device Technology Inc, MPC941FAR2 Datasheet - Page 7

MPC941FAR2

Manufacturer Part Number

MPC941FAR2

Description

Manufacturer

IDT, Integrated Device Technology Inc

Type

Clock Driverr

Datasheet

1.MPC941FAR2.pdf (12 pages)

Specifications of MPC941FAR2

Number Of Clock Inputs

Output Frequency

250MHz

Output Logic Level

LVCMOS

Operating Supply Voltage (min)

2.375V

Operating Supply Voltage (typ)

2.5/3.3V

Operating Supply Voltage (max)

3.465V

Package Type

LQFP

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Signal Type

LVCMOS/LVPECL

Mounting

Surface Mount

Pin Count

Quiescent Current

5mA

Lead Free Status / RoHS Status

Not Compliant

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IDT™ / ICS™ CLOCK DISTRIBUTION CHIP

MPC941

LOW VOLTAGE, 1:27 CLOCK DISTRIBUTION CHIP

Power Consumption of the MPC941 and Thermal

Management

operating frequency range up to 250 MHz. The MPC941

power consumption and the associated long-term reliability

may decrease the maximum frequency limit, depending on

operating conditions such as clock frequency, supply voltage,

output loading, ambient temperture, vertical convection and

thermal conductivity of package and board. This section

describes the impact of these parameters on the junction

temperature and gives a guideline to estimate the MPC941

die junction temperature and the associated device reliability.

For a complete analysis of power consumption as a function

of operating conditions and associated long term device

reliability, please refer to the

AN1545. According the AN1545, the long-term device

reliability is a function of the die junction temperature:

Table 7. Die Junction Temperature and MTBF

junction temperature and impact the device reliability

(MTBF). According to the system-defined tolerable MTBF,

the die junction temperature of the MPC941 needs to be

controlled, and the thermal impedance of the board/package

should be optimized. The power dissipated in the MPC941 is

represented in equation 1.

MPC941, C

output.

load, and N is the number of active outputs (N is always 27 in

case of the MPC941). The MPC941 supports driving

transmission lines to maintain high signal integrity and tight

timing parameters. Any transmission line will hide the lumped

capacitive load at the end of the board trace, therefore,

is zero for controlled transmission line systems and can be

eliminated from equation 1. Using parallel termination output

termination results in equation 2 for power dissipation.

CLOCK,MAX =

Junction Temperature (°C)

TOT

The MPC941 AC specification is guaranteed for the entire

Increased power consumption will increase the die

Where I

= T

= V

(Μ)Σ

[

+ P

CCQ

TOT

100

110

120

130

[

is the power dissipation capacitance per

is the static current consumption of the

+ V

· R

represents the external capacitive output

CCQ

thja

· N · V

+ V

· f

CLOCK

· f

Freescale

CLOCK

(

[

N · C

j,MAX

(

MTBF (Years)

application note

N · C

thja

20.4

– T

9.1

4.2

2.0

)

]

– (I

· V

CCQ

)

]

· V

[

)

]

parallel or

function of the output termination technique, and DC

clock signal duty cyle. If transmission lines are used,

zero in equation 2 and can be eliminated. In general, the use

of controlled transmission line techniques eliminates the

impact of the lumped capacitive loads at the end lines and

greatly reduces the power dissipation of the device.

Equation 3 describes the die junction temperature T

function of the power consumption.

(junction to ambient), and T

according to

estimate the long-term device reliability. Further, combining

equation 1 and equation 2 results in a maximum operating

frequency for the MPC941 in a series terminated

transmission line system.

requirements, and

The R

boards will result in a lower thermal impedance than indicated

below.

Table 8. Thermal Package Impedance of the 48ld LQFP

becomes the upper clock speed limit for the given application

conditions. The following eight derating charts describe the

safe frequency operation range for the MPC941. The charts

were calculated for a maximum tolerable die junction

temperature of 110°C (120°C), corresponding to a estimated

MTBF of 9.1 years (4 years), a supply voltage of either 3.3 V

or 2.5 V, and series terminated transmission line or capacitive

loading. Depending on a given set of these operating

conditions and the available device convection, a decision on

the maximum operating frequency can be made.

In equation 2, P stands for the number of outputs with a

Where R

If the calculated maximum frequency is below 250 MHz, it

· I

J,MAX

thja

Convection, LFPM

· (V

represent data based on 1S2P boards. Using 2S2P

should be selected according to the MTBF system

thevenin

100 lfpm

200 lfpm

300 lfpm

400 lfpm

500 lfpm

thja

Still air

Table

is the thermal impedance of the package

– V

Table

7, the junction temperature can be used to

termination. V

) + (1 – DC

7, R

thja

is the ambient temperature,

can be derived from

) · I

MPC941 REV. 8 APRIL 29, 2008

thja

, I

(1P2S board), K/W

, V

· V

]

and I

Equation 1

Equation 2

Equation 3

Equation 4

Table

as a

is the

are a

MPC941FAR2 IDT, Integrated Device Technology Inc, MPC941FAR2 Datasheet - Page 7

MPC941FAR2

Specifications of MPC941FAR2

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