Analog Devices Welcomes Hittite Microwave Corporation

Analog Devices Welcomes
Hittite Microwave Corporation
NO CONTENT ON THE ATTACHED DOCUMENT HAS CHANGED
www.analog.com
www.hittite.com
Report Title:
Qualification Test Report
Report Type:
See Attached
Date:
See Attached
Wafer Process: PHEMT-E
QTR: 11014
Rev: 04
HMC756
HMC757
HMC949
HMC950
HMC952
HMC965
HMC995
Note: This qualification was designed to evaluate the pHEMT-E process. The package type is only specific to the LP4
which was tested by the HMC757LP4. Other package qualifications are available at www.Hittite.com.
Wafer Process: PHEMT-E
QTR: 11014
Rev: 04
Introduction
This Reliability test is designed to satisfy the reliability requirements designated by Hittite Microwave Corporation
for Hittite's PHEMT-E process. The testing is devised to simulate exposure to environments the product may
experience during assembly, test, and life in the end user application. The pass/fail criteria are dependent upon DC
and critical RF parameters determined by the appropriate catalog specifications. A complete data sheet for the
HMC757LP4E can be found at www.hittite.com.
General Description of Qualification Vehicle
The HMC757LP 4E is a three stage GaAs pHEMT MMIC 1 Watt Power Amplifier which operates between 16 and
24 GHz. The HMC757LP 4E provides 20.5 dB of gain, and 27.5 dBm of saturated output power and 21% PAE
from a +5V supply. The RF I/Os are DC blocked and matched to 50 Ohms. The 4x4mm plastic package eliminates
the need for wire bonding, and is compatible with surface mount manufacturing techniques.
.
Sample Selection: All devices used were from finished goods and met acceptance test requirements.
Reliability Tests:
Initial Characteristics – 70 Devices were electrically tested at room temperature for DC and critical RF parameters.
High Temperature Operating Life (HTOL) – 70 Devices were subjected to 1000 hours of accelerated operating life
test. The devices were biased at 5V, 400mA per unit (2.0W) on product evaluation boards in a convection oven set
at 125°C. Figures 1 through 3 show the evaluation board used for the HTOL testing. Post Stress Electrical Test – 70 Post 1000 hour HTOL devices were electrically tested at room temperature for DC
and critical RF parameters.
Wafer Process: PHEMT-E
QTR: 11014
Rev: 04
HMC757LP4E Evaluation Test Board
Figure 1: Eval Board Top View
Figure 3: Eval Board Side View
Figure 2: Eval Board Bottom View
Wafer Process: PHEMT-E
QTR: 11014
Rev: 04
Summary of Results/Conclusions
All testing is complete. The device meets the requirements for Hittite Reliability Testing.
QTY
IN
70
QTY
OUT
70
1000 hour of RF HTOL
70
70
Completed
Post HTOL Electrical Test
70
70
Pass
TEST
Initial Electrical Characterization
PASS/FAIL
NOTES
Pass
Failure rate (FIT) calculations using 85°C as the device maximum use temperature and 125°C
as the device HTOL temperature resulted in a FIT rate of 472 FIT or a MTTF of 4.88x106 hours
(559 years) at a 90% confidence level (CL). See Appendix for FIT / MTTF calculations.
Wafer Process: PHEMT-E
QTR: 11014
Rev: 04
Appendix
FIT / MTTF Calculation
Stress conditions:
Qty of Parts Tested = 70
Stress Ambient Temp = 125°C
Max Use Ambient Temp = 85°C
Activation Energy = 1.3eV
Acceleration Factor (AF):
, AF=69.7
Calculating the Upper Confidence Bound Failure Rate at 90% CL:
, at 90% CL,
λ90% =
!.!"∗!"# !∗!"""∗!"∗!".!
temp of 85°C
= 472 FIT, or 4.88x106 hours at the maximum use