RH1814M DICE - SPEC NO. 05-08-5220

SPEC NO. 05-08-5220 REV. E
RH1814M, DUAL OPERATIONAL AMPLIFIER DICE
REVISION RECORD
REV
DESCRIPTION
DATE
0
INITIAL RELEASE
12/11/07
A
• PAGE 3, PARAGRAPH 3.7.1 CHANGED VERBIAGE. CHANGED TITLE FROM QUAD TO
DUAL.
• PAGE 13, CHANGED RH CANNED SAMPLE TABLE V FOR QUALIFYING DICE SALES
ADDED TEMPERATURE CYCLE, CONSTANT ACCELERATION & REMOVED PIND TEST.
05/09/08
•
05/21/10
B
C
•
PAGE 12, TABLE II:
CHANGED VOS 50K RAD(Si), MAX FROM 2.5 mV TO 4 mV;
CHANGED VOS 100K RAD (Si), MAX FROM 3 mV TO 4 mV.
PAGE 12, TABLE IV:
CHANGED VOS 50K RAD (Si), MAX FROM 3nA TO 4.5 nA;
CHANGED VOS 100K RAD (Si), CHANGED MAX FROM 3.5 nA TO 4.5 nA;
02/17/09
CHANGED CMRR 50K RAD (Si) MIN FROM 69dB TO 60 dB;
CHANGED CMRR 100K RAD (Si) MIN FROM 66 dB TO 60 dB;
CHANGED CMRR 200K RAD (Si) MIN FROM 63 dB TO 60 dB;
CHANGED PSRR 50K RAD (Si) MIN FROM 72dB TO 65 dB;
CHANGED PSRR 100K RAD (Si) MIN FROM 70 dB TO 65 dB;
CHANGED PSRR 200K RAD (Si) MIN FROM 68 dB TO 65 dB;
D
E
Page 2, amended section 3.3 Special Handling of Dice to more accurately describe our current
procedures and requirements.
Page 13, Changed RH Canned Sample Table for Qualifying Dice Sales: Subgroup 6 Sample Size
Series changed from 45 (3) to 65 (3). First note had the Sample Size Series from “15%” to “10%”.
04/05/12
7/2/13
CAUTION: ELECTROSTATIC DISCHARGE SENSITIVE PART
REVISION
INDEX
REVISION
INDEX
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REVISION
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REVISION
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LINEAR TECHNOLOGY
CORPORATION
MILPITAS, CALIFORNIA
ORIG
DSGN
ENGR
MFG
CM
QA
APPLICATION
6
E
TITLE:
Microcircuit, Linear, RH1814M,
DUAL OPERATIONAL AMPLIFIER DICE
SIZE
PROG
FUNCT
SIGNOFFS
CAGE
CODE
64155
DATE CONTRACT:
DRAWING NUMBER
REV
05-08-5220
E
FOR OFFICIAL USE ONLY
LINEAR TECHNOLOGY CORPORATION
PAGE 1 OF 13
SPEC NO. 05-08-5220 REV. E
1.0
SCOPE:
1.1
2.0
RH1814M, DUAL OPERATIONAL AMPLIFIER DICE
This specification defines the performance and test requirements for a microcircuit processed to a space
level manufacturing flow.
APPLICABLE DOCUMENTS:
2.1
Government Specifications and Standards: the following documents listed in the Department of
Defense Index of Specifications and Standards, of the issue in effect on the date of solicitation, form a
part of this specification to the extent specified herein.
SPECIFICATIONS:
2.2
3.0
MIL-PRF-38535
Integrated Circuits (Microcircuits) Manufacturing, General Specification for
MIL-STD-883
Test Method and Procedures for Microcircuits
MIL-STD-1835
Microcircuits Case Outlines
Order of Precedence: In the event of a conflict between the documents referenced herein and the
contents of this specification, the order of precedence shall be this specification, MIL-PRF-38535 and
other referenced specifications.
REQUIREMENTS:
3.1
General Description: This specification details the requirements for the RH1814M, Operational
Amplifier Dice, and Element Evaluation Test Samples, processed to space level manufacturing flow as
specified herein.
3.2
Part Number:
3.3
Special Handling of Dice: Rad Hard dice require special handling as compared to standard IC dice.
Rad Hard dice are susceptible to surface damage due to the absence of silicon nitride passivation that is
present on most standard dice. Silicon nitride protects the dice surface from scratches by its hard and
dense properties. The passivation on Linear Technology’s Rad Hard dice is silicon dioxide which is
much “softer” than silicon nitride. During the visual and preparation for shipment, ESD safe Tweezers
are used and only the edge of the die are touched.
RH1814M Dice
LTC recommends that dice handling be performed with extreme care so as to protect the die surface
from scratches. If the need arises to move the die in or out of the chip shipment tray (waffle pack), use
an ESD-Safe-Plastic-tipped Bent Metal Vacuum Probe, preferably .020” OD x .010” ID (for use with
tiny parts). The wand should be compatible with continuous air vacuums. The tip material should be
static dissipative Delrin (or equivalent) plastic.
During die attach, care must be exercised to ensure no tweezers, or other equipment, touch the top of
the dice.
LINEAR TECHNOLOGY CORPORATION
PAGE 2 OF 13
SPEC NO. 05-08-5220 REV. E
3.4
The Absolute Maximum Ratings:
(Note 1)
Supply Voltage
. . . . . .
Differential Input Voltage (Note 2)
. . . . . .
Input Voltage
Output Short Circuit Duration . .
. . . .
Junction Temperature
RH1814M, DUAL OPERATIONAL AMPLIFIER DICE
. . . . . . . . . . 12.6V
. . . . . . . . . . +6V
. . . . . . . . . . +Vs
. . . . . . . . . . Indefinite
. . . . . . . . . . 150°C
Note 1: Absolute Maximum Ratings are those values beyond which the life of the device may be impaired.
Note 2: Differential inputs of +6V are appropriate for transient operation only. such as during slewing. Large sustained
differential inputs can cause excessive power dissipation and may damage the part.
Note 3: A heat sink may be required to keep the junction temperature below absolute maximum when the output is
shorted indefinitely.
4.0
3.5
Design, Construction, and Physical Dimensions: Detail design, construction, physical dimensions, and
electrical requirements shall be specified herein.
3.6
Outline Dimensions and Pad Functions: Dice outline dimensions, pad functions, and locations shall be
specified in Figure 1.
3.7
Radiation Hardness Assurance (RHA):
3.7.1
The manufacturer shall perform a lot sample test as an internal process monitor for total
dose radiation tolerance. The sample test is performed with MIL-STD-883 TM1019
Condition A as a guideline.
3.7.2
For guaranteed radiation performance to MIL-STD-883, Method 1019, total dose irradiation,
the manufacturer will provide certified RAD testing and report through an independent test
laboratory when required as a customer purchase order line item.
3.7.3
Total dose bias circuit is specified in Figure 2.
3.8
Wafer (or Dice) Probe: Dice shall be 100% probed at Ta = +25°C to the limits shown in Table I
herein. All reject dice shall be removed from the lot. This testing is normally performed prior to dicing
the wafer into chips. Final specifications after assembly are sample tested during the element
evaluation.
3.9
Wafer Lot Acceptance: Wafer lot acceptance shall be in accordance with MIL-PRF-38535, Appendix
A, except for the following: Top side glassivation thickness shall be a minimum of 4KÅ.
3.10
Wafer Lot Acceptance Report: SEM is performed per MIL-STD-883, Method 2018. Copies of SEM
photographs shall be supplied with the Wafer Lot Acceptance Report as part of a Space Data Pack
when specified as a customer purchase order line item.
3.11
Traceability: Wafer Diffusion Lot and Wafer traceability shall be maintained through Quality
Conformance Inspection.
QUALITY CONFORMANCE INSPECTION: Quality Conformance Inspection shall consist of the tests and
inspections specified herein.
LINEAR TECHNOLOGY CORPORATION
PAGE 3 OF 13
SPEC NO. 05-08-5220 REV. E
5.0
6.0
RH1814M, DUAL OPERATIONAL AMPLIFIER DICE
SAMPLE ELEMENT EVALUATION: A sample from each wafer supplying dice shall be assembled and
subjected to element evaluation per Table III herein.
5.1
100 Percent Visual Inspection: All dice supplied to this specification shall be inspected in accordance
with MIL-STD-883, Method 2010, Condition A. All reject dice shall be removed from the lot.
5.2
Electrical Performance Characteristics for Element Evaluation: The electrical performance
characteristics shall be as specified in Table I, Table II, and Table III herein.
5.3
Sample Testing: Each wafer supplying dice for delivery to this specification shall be subjected to
element evaluation sample testing. No dice shall be delivered until all the lot sample testing has been
performed and the results found to be acceptable unless the customer supplies a written approval for
shipment prior to completion of wafer qualification as specified in this specification.
5.4
Part Marking of Element Evaluation Sample Includes:
5.4.1
LTC Logo
5.4.2
LTC Part Number
5.4.3
Date Code
5.4.4
Serial Number
5.4.5
ESD Identifier per MIL-PRF-38535, Appendix A
5.4.6
Diffusion Lot Number
5.4.7
Wafer Number
5.5
Burn-In Requirement: Burn-In circuit for Flatpak, 14 lead package is specified in Figure 3.
5.6
Mechanical/Packaging Requirements: Case Outline and Dimensions are in accordance with
Figure 4.
5.7
Terminal Connections: The terminal connections shall be as specified in Figure 5.
5.8
Lead Material and Finish: The lead material and finish shall be alloy 42 with hot solder dip (Finish
letter A) in accordance with MIL-PRF-38535.
VERIFICATION (QUALITY ASSURANCE PROVISIONS)
6.1
Quality Assurance Provisions: Quality Assurance provisions shall be in accordance with MIL-PRF38535. Linear Technology is a QML certified company and all Rad Hard candidates are assembled on
qualified Class S manufacturing lines.
6.2
Sampling and Inspection: Sampling and Inspection shall be in accordance with Table IV herein.
6.3
Screening: Screening requirements shall be in accordance with Table IV herein.
LINEAR TECHNOLOGY CORPORATION
PAGE 4 OF 13
SPEC NO. 05-08-5220 REV. E
6.4
6.5
RH1814M, DUAL OPERATIONAL AMPLIFIER DICE
Source Inspection:
6.4.1
The manufacturer will coordinate Source Inspection at wafer lot acceptance and pre-seal
internal visual.
6.4.2
The procuring activity has the right to perform source inspection at the supplier’s facility prior
to shipment for each lot of deliverables when specified as a customer purchase order line item.
This may include wafer lot acceptance, die visual, and final data review.
Deliverable Data: Deliverable data that will ship with devices when a Space Data Pack is ordered:
6.5.1
Lot Serial Number Sheets identifying all Canned Sample devices accepted through final
inspection by serial number.
6.5.2
6.5.3
100% attributes (completed element evaluation traveler).
Element Evaluation variables data, including Burn-In and Op Life
6.5.4
SEM photographs (3.10 herein)
6.5.5
Wafer Lot Acceptance Report (3.9 herein)
6.5.6
A copy of outside test laboratory radiation report if ordered
6.5.7
Certificate of Conformance certifying that the devices meet all the requirements of this
specification and have successfully completed the mandatory tests and inspections herein.
Note: Items 6.5.1 and 6.5.7 will be delivered as a minimum, with each shipment.
7.0
Packaging Requirements: Packaging shall be in accordance with Appendix A of MIL-PRF-38535. All dice
shall be packaged in multicavity containers composed of conductive, anti-static, or static dissipative material
with an external conductive field shielding barrier.
LINEAR TECHNOLOGY CORPORATION
PAGE 5 OF 13
SPEC NO. 05-08-5220 REV. E
RH1814M, DUAL OPERATIONAL AMPLIFIER DICE
DICE OUTLINE DIMENSIONS AND PAD FUNCTIONS
FIGURE 1
LINEAR TECHNOLOGY CORPORATION
PAGE 6 OF 13
SPEC NO. 05-08-5220 REV. E
RH1814M, DUAL OPERATIONAL AMPLIFIER DICE
TOTAL DOSE BIAS CIRCUIT
FIGURE 2
LINEAR TECHNOLOGY CORPORATION
PAGE 7 OF 13
SPEC NO. 05-08-5220 REV. E
RH1814M, DUAL OPERATIONAL AMPLIFIER DICE
STATIC BURN-IN CIRCUIT
FIGURE 3
LINEAR TECHNOLOGY CORPORATION
PAGE 8 OF 13
SPEC NO. 05-08-5220 REV. E
RH1814M, DUAL OPERATIONAL AMPLIFIER DICE
FLATPAK, 14 LEADS, CASE OUTLINE
NOTE: 1. THIS DIMENSION ALLOWS FOR OFF-CENTER
LID, MENISCUS AND GLASS OVER RUN.
NOTE: 2. INCREASE DIMENSION BY 0.003 INCH WHEN
LEAD FINISH IS APPLIED (SOLDER DIPPED).
θja = +160°C/W
θjc = +40°C/W
FIGURE 4
LINEAR TECHNOLOGY CORPORATION
PAGE 9 OF 13
SPEC NO. 05-08-5220 REV. E
RH1814M, DUAL OPERATIONAL AMPLIFIER DICE
TERMINAL CONNECTIONS
FIGURE 5
LINEAR TECHNOLOGY CORPORATION
PAGE 10 OF 13
SPEC NO. 05-08-5220 REV. E
RH1814M, DUAL OPERATIONAL AMPLIFIER DICE
TABLE I DICE ELECTRICAL CHARACTERISTICS - Pre-Irradiation
VS = ±5V
TABLE II DICE ELECTRICAL CHARACTERISTICS – Pre-Irradiation
VS = 5V
LINEAR TECHNOLOGY CORPORATION
PAGE 11 OF 13
SPEC NO. 05-08-5220 REV. E
RH1814M, DUAL OPERATIONAL AMPLIFIER DICE
TABLE III ELECTRICAL CHARACTERISTICS – Post-Irradiation
VS = ±5V
TABLE IV ELECTRICAL CHARACTERISTICS – Post-Irradiation
VS = 5V
LINEAR TECHNOLOGY CORPORATION
PAGE 12 OF 13
SPEC NO. 05-08-5220 REV. E
RH1814M, DUAL OPERATIONAL AMPLIFIER DICE
TABLE V RH ELEMENT EVALUATION TABLE QUALIFICATION OF DICE SALES
LINEAR TECHNOLOGY CORPORATION
PAGE 13 OF 13