Q-tech, Sine wave sources, Thermal characteristics – Q-Tech SINE WAVE User Manual

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Q-TECH Corporation - 10150 W. Jefferson Boulevard, Culver City 90232 - Tel: 310-836-7900 - Fax: 310-836-2157 - www.q-tech.com

SINE WAVE SOURCES

DUAL-IN-LINE CRYSTAL CLOCK OSCILLATORS

5.0 to 15Vdc - 10Hz to 450MHz

Q-TECH

CORPORATION

Sine Wave Sources (Revision E, August 2010 ) (ECO# 9936)

45º

45º

Hybrid Case

Substrate

Die

D/A epoxy

D/A epoxy

Heat

Die

R1

D/A epoxy

Substrate

D/A epoxy

Hybrid Case

R2

R3

R4

R5

Thermal Characteristics

JA

JC

CA

Die

T

T

T

C

A

J

CA

JC

(Figure 1)

(Figure 2)

The heat transfer model in a hybrid package is described in

figure 1 (Based on single ASIC design).

Heat spreading occurs when heat flows into a material layer of

increased cross-sectional area. It is adequate to assume that

spreading occurs at a 45° angle.

The total thermal resistance is calculated by summing the

thermal resistances of each material in the thermal path

between the device and hybrid case.

RT = R1 + R2 + R3 + R4 + R5

The total thermal resistance RT (see figure 2) between the heat

source (die) to the hybrid case is the Theta Junction to Case

(Theta JC) in°C/W.

• Theta junction to case (Theta JC) for this product is 24°C/W.
• Theta case to ambient (Theta CA) for this part is 106°C/W.
• Theta Junction to ambient (Theta JA) is 130°C/W.

Maximum power dissipation PD for this package at 25°C is:
• PD(max) = (TJ (max) – TA)/Theta JA
• With TJ = 175°C (Maximum junction temperature of die)
• PD(max) = (175 – 25)/130 = 1.15W

Environmental Specifications

Q-Tech Standard Screening/QCI (MIL-PRF55310) is available for all of our Sine Wave packages. Q-Tech can also customize

screening and test procedures to meet your specific requirements. The Sine Wave packages are designed and processed to exceed the

following test conditions:

Environmental Test

Test Conditions

Temperature cycling

MIL-STD-883, Method 1010, Cond. B

Constant acceleration

MIL-STD-883, Method 2001, Cond. A, Y1

Seal: Fine and Gross Leak

MIL-STD-883, Method 1014, Cond. A and C

Burn-in

160 hours, 125°C with load

Aging

30 days, 70°C

Vibration sinusoidal

MIL-STD-202, Method 204, Cond. D

Shock, non operating

MIL-STD-202, Method 213, Cond. I

Thermal shock, non operating

MIL-STD-202, Method 107, Cond. B

Ambient pressure, non operating

MIL-STD-202, 105, Cond. C, 5 minutes dwell time minimum

Resistance to solder heat

MIL-STD-202, Method 210, Cond. C

Moisture resistance

MIL-STD-202, Method 106

Terminal strength

MIL-STD-202, Method 211, Cond. C

Resistance to solvents

MIL-STD-202, Method 215

Solderability

MIL-STD-202, Method 208

ESD Classification

MIL-STD-883, Method 3015, Class 1HBM 0 to 1,999V

Moisture Sensitivity Level

J-STD-020, MSL=1

Please contact Q-Tech for higher shock requirements