ETC 5962R9858302Q9A

REVISIONS
LTR
DESCRIPTION
DATE (YR-MO-DA)
A
Added footnotes 14/, 15/, and 16/ to table I. Made changes to footnote 12/ in
table I. Corrected pin name on pin 66 in figure 2. Corrected pin number in figure
5. Made editorial changes throughout. – LTG
00-10-23
Thomas M. Hess
B
Update boilerplate to MIL-PRF-38535 requirements. – LTG
01-03-28
Thomas M. Hess
C
Add appendix A to document.- LTG
01-06-14
Thomas M. Hess
D
Add device type 02. – LTG
02-07-18
Thomas M. Hess
REV
C
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B
D
A
B
A
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21
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23
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25
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30
APPROVED
D
D
C
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REV STATUS
REV
D
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B
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A
OF SHEETS
SHEET
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8
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PMIC N/A
PREPARED BY
Larry T. Gauder
STANDARD
MICROCIRCUIT
DRAWING
THIS DRAWING IS AVAILABLE
FOR USE BY ALL
DEPARTMENTS
AND AGENCIES OF THE
DEPARTMENT OF DEFENSE
DEFENSE SUPPLY CENTER COLUMBUS
COLUMBUS, OHIO 43216
http://www.dscc.dla.mil
CHECKED BY
Thanh V. Nguyen
APPROVED BY
Monica L. Poelking
MICROCIRCUIT, DIGITAL, CMOS, RAD HARD
MICROCONTROLLER, MONOLITHIC SILICON
DRAWING APPROVAL DATE
99-03-05
AMSC N/A
REVISION LEVEL
D
SIZE
CAGE CODE
A
67268
SHEET
DSCC FORM 2233
APR 97
DISTRIBUTION STATEMENT A. Approved for public release; distribution is unlimited.
1 OF
5962-98583
41
5962-E502-02
14
1. SCOPE
1.1 Scope. This drawing documents two product assurance class levels consisting of high reliability (device classes Q and
M) and space application (device class V). A choice of case outlines and lead finishes are available and are reflected in the
Part or Identifying Number (PIN). When available, a choice of Radiation Hardness Assurance (RHA) levels are reflected in the
PIN.
1.2 PIN. The PIN is as shown in the following example:
5962



Federal
stock class
designator
\



RHA
designator
(see 1.2.1)
98583
01



Device
type
(see 1.2.2)
/
Q



Device
class
designator
(see 1.2.3)
X



Case
outline
(see 1.2.4)
X



Lead
finish
(see 1.2.5)
\/
Drawing number
1.2.1 RHA designator. Device classes Q and V RHA marked devices meet the MIL-PRF-38535 specified RHA levels and
are marked with the appropriate RHA designator. Device class M RHA marked devices meet the MIL-PRF-38535, appendix A
specified RHA levels and are marked with the appropriate RHA designator. A dash (-) indicates a non-RHA device.
1.2.2 Device type(s). The device type(s) identify the circuit function as follows:
Device type
01
02
Generic number
Circuit function
UT80C196KD or UT80CRH196KD 1/
UT80C196KD or UT80CRH196KD 1/
MIL-TEMP, MCS-96 Based Microcontroller
Extended Industrial Temp, MCS-96
Based Microcontroller
1.2.3 Device class designator. The device class designator is a single letter identifying the product assurance level as
follows:
Device class
Device requirements documentation
M
Vendor self-certification to the requirements for MIL-STD-883 compliant,
non-JAN class level B microcircuits in accordance with MIL-PRF-38535,
appendix A
Q or V
Certification and qualification to MIL-PRF-38535
1.2.4 Case outline(s). The case outline(s) are as designated in MIL-STD-1835 and as follows:
Outline letter
X
Descriptive designator
See figure 1
Terminals
Package style
68
Quad flatpack
1.2.5 Lead finish. The lead finish is as specified in MIL-PRF-38535 for device classes Q and V or MIL-PRF-38535,
appendix A for device class M.
1/ The RH in the Generic number signifies the radiation hardened version of the device.
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REVISION LEVEL
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1.3 Absolute maximum ratings. 1/
DC supply voltage (VDD) - - - - - - - - - - - - - - - - - - - - Voltage on any pin (VI/O) - - - - - - - - - - - - - - - - - - - - DC input current (II) - - - - - - - - - - - - - - - - - - - - - - - Storage temperature (TSTG) - - - - - - - - - - - - - - - - - - Maximum power dissipation (PD) - - - - - - - - - - - - - Maximum junction temperature (TJ) - - - - - - - - - - - - Thermal resistance, junction-to-case (θJC) - - - - - - - -
-0.3 V to +6.0 V
-0.3 V to VDD +0.3 V
±10 mA
-65°C to +150°C
4W
+175°C
2°C/W per MIL-STD-883, Method 1012
1.4 Recommended operating conditions.
DC supply voltage (VDD) - - - - - - - - - - - - - - - - - - - - Temperature range (TC) - - - - - - - - - - - - - - - - - - - - Temperature range (TC) - - - - - - - - - - - - - - - - - - - - DC input voltage (VIN) - - - - - - - - - - - - - - - - - - - - - - High level input voltage (XTAL1) (VIH) - - - - - - - - - - - - Low level input voltage (XTAL1) (VIL) - - - - - - - - - - - - Min high level input voltage (VIH) - - - - - - - - - - - - - - Max low level input voltage (VIL) - - - - - - - - - - - - - - -
4.5 V to 5.5 V
-55°C to +125°C (Device type 01)
-40°C to +125°C (Device type 02)
0 V to VDD
0.7VDD
0.3VDD
2.2 V 2/
0.8 V 2/
1.5 Radiation features.
Total dose (dose rate = 50 to 300 rad(Si)/s) - - - - - - 100 Krads (Si)
Single event phenomenon effective linear
2
energy threshold, (LET) no upset - - - - - - - - - - - - 25 MeV-cm /mg
2
Neutron fluence - - - - - - - - - - - - - - - - - - - - - - - - - - 1.0E14 n/cm
1.6 Digital logic testing for device classes Q and V.
Fault coverage measurement of manufacturing
logic tests (MIL-STD-883, test method 5012) - - - - - - - - 95 percent
2. APPLICABLE DOCUMENTS
2.1 Government specification, standards, and handbooks. The following specification, standards, and handbooks form a
part of this drawing to the extent specified herein. Unless otherwise specified, the issues of these documents are those listed in
the issue of the Department of Defense Index of Specifications and Standards (DoDISS) and supplement thereto, cited in the
solicitation.
SPECIFICATION
DEPARTMENT OF DEFENSE
MIL-PRF-38535 - Integrated Circuits, Manufacturing, General Specification for.
STANDARDS
DEPARTMENT OF DEFENSE
MIL-STD-883 MIL-STD-1835 -
1/
2/
Test Method Standard Microcircuits.
Interface Standard Electronic Component Case Outlines.
Stresses above the absolute maximum rating may cause permanent damage to the device. Extended operation at the
maximum levels may degrade performance and affect reliability.
Except XTAL1 and RESET.
STANDARD
MICROCIRCUIT DRAWING
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REVISION LEVEL
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HANDBOOKS
DEPARTMENT OF DEFENSE
MIL-HDBK-103 MIL-HDBK-780 -
List of Standard Microcircuit Drawings.
Standard Microcircuit Drawings.
(Unless otherwise indicated, copies of the specification, standards, and handbooks are available from the Standardization
Document Order Desk, 700 Robbins Avenue, Building 4D, Philadelphia, PA 19111-5094.)
2.2 Order of precedence. In the event of a conflict between the text of this drawing and the references cited herein, the text
of this drawing takes precedence. Nothing in this document, however, supersedes applicable laws and regulations unless a
specific exemption has been obtained.
3. REQUIREMENTS
3.1 Item requirements. The individual item requirements for device classes Q and V shall be in accordance with
MIL-PRF-38535 and as specified herein or as modified in the device manufacturer's Quality Management (QM) plan. The
modification in the QM plan shall not affect the form, fit, or function as described herein. The individual item requirements for
device class M shall be in accordance with MIL-PRF-38535, appendix A for non-JAN class level B devices and as specified
herein.
3.1.1 Microcircuit die. For the requirements for microcircuit die, see appendix A to this document.
3.2 Design, construction, and physical dimensions. The design, construction, and physical dimensions shall be as specified
in MIL-PRF-38535 and herein for device classes Q and V or MIL-PRF-38535, appendix A and herein for device class M.
3.2.1 Case outline(s). The case outline(s) shall be in accordance with 1.2.4 herein and figure 1.
3.2.2 Terminal connections. The terminal connections shall be as specified on figure 2.
3.2.3 Block diagram. The block diagram shall be as specified on figure 3.
3.2.4 Load circuit and waveforms. The Load circuit and waveforms shall be as specified on figure 4.
3.2.5 Radiation exposure circuit. The radiation exposure circuit shall be as specified on figure 5.
3.3 Electrical performance characteristics and postirradiation parameter limits. Unless otherwise specified herein, the
electrical performance characteristics and postirradiation parameter limits are as specified in table IA and shall apply over the
full case operating temperature range.
3.4 Electrical test requirements. The electrical test requirements shall be the subgroups specified in table IIA. The electrical
tests for each subgroup are defined in table IA.
3.5 Marking. The part shall be marked with the PIN listed in 1.2 herein. In addition, the manufacturer's PIN may also be
marked as listed in MIL-HDBK-103. For packages where marking of the entire SMD PIN number is not feasible due to space
limitations, the manufacturer has the option of not marking the "5962-" on the device. For RHA product using this option, the
RHA designator shall still be marked. Marking for device classes Q and V shall be in accordance with MIL-PRF-38535.
Marking for device class M shall be in accordance with MIL-PRF-38535, appendix A.
3.5.1 Certification/compliance mark. The certification mark for device classes Q and V shall be a "QML" or "Q" as required in
MIL-PRF-38535. The compliance mark for device class M shall be a "C" as required in MIL-PRF-38535, appendix A.
3.6 Certificate of compliance. For device classes Q and V, a certificate of compliance shall be required from a QML-38535
listed manufacturer in order to supply to the requirements of this drawing (see 6.6.1 herein). For device class M, a certificate of
compliance shall be required from a manufacturer in order to be listed as an approved source of supply in MIL-HDBK-103 (see
6.6.2 herein). The certificate of compliance submitted to DSCC-VA prior to listing as an approved source of supply for this
drawing shall affirm that the manufacturer's product meets, for device classes Q and V, the requirements of MIL-PRF-38535
and herein or for device class M, the requirements of MIL-PRF-38535, appendix A and herein.
STANDARD
MICROCIRCUIT DRAWING
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REVISION LEVEL
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SHEET
4
3.7 Certificate of conformance. A certificate of conformance as required for device classes Q and V in
MIL-PRF-38535 or for device class M in MIL-PRF-38535, appendix A shall be provided with each lot of microcircuits delivered
to this drawing.
3.8 Notification of change for device class M. For device class M, notification to DSCC-VA of change of product (see 6.2
herein) involving devices acquired to this drawing is required for any change as defined in MIL-PRF-38535, appendix A.
3.9 Verification and review for device class M. For device class M, DSCC, DSCC's agent, and the acquiring activity retain
the option to review the manufacturer's facility and applicable required documentation. Offshore documentation shall be made
available onshore at the option of the reviewer.
3.10 Microcircuit group assignment for device class M. Device class M devices covered by this drawing shall be in
microcircuit group number 105 (see MIL-PRF-38535, appendix A).
STANDARD
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TABLE IA. Electrical performance characteristics.
Test
Symbol
Conditions 1/ 17/
VDD = 5.0 V ±10%
unless otherwise specified
Group A
subgroups
Device
type
Limits
Min
Unit
Max
0.8
Low level input voltage
(except XTAL1, RESET)
High level input voltage
(except XTAL1, RESET)
High level input voltage
(XTAL1)
Low level input voltage
(XTAL1)
High level output voltage
(Standard outputs) 14/
VIL
1, 2, 3
All
VIH
1, 2, 3
All
2.2
V
VIH1
1, 2, 3
All
.7VDD
V
VIL1
1, 2, 3
All
1, 2, 3
All
High level output current
(Open drain outputs 2/
with pullups)
IOH
Low level output voltage
VOL
VOH
IOH = -200 µA 13/ (CMOS)
.3VDD
VDD-.3
IOH = -4.0 mA (TTL)
Pullups on ADV, RD,
RESET, Port 1, Port 2.0,
2.6, 2.7, AD0-15,
WR, WRL, BHE, ALE,
CLKOUT 13/
Pulldown on INST, NMI,
HSO.0-HSO.3, P2.5 13/
Logical 0 input current
(Test mode entry) 3/
I/O leakage current,
standard inputs and
outputs
I/O leakage current,
with pullups 4/
I/O leakage current,
with pulldowns 5/
V
V
3.8
VOH = VDD -.3 13/
1, 2, 3
µA
-20
All
VOH = VDD -.9
-60
IOL = 200 µA (CMOS) 13/
1, 2, 3
0.3
All
IOL = 4.0 mA (TTL)
Positive going threshold
RESET
Negative going threshold
RESET
Typical range of Hysteresis
RESET 13/
V
V
0.4
VT+
1, 2, 3
All
.5VDD
.7VDD
V
VT-
1, 2, 3
All
.2VDD
.4VDD
V
VH
1, 2, 3
All
.9
V
RPU
VCC = 5.5 V, VIN = VSS
1, 2, 3
All
6.9
36.7
KΩ
RPD
VCC = 5.5 V, VIN = VDD
1, 2, 3
All
3.7
27.5
KΩ
IIL
VIN = VIH
1, 2, 3
All
-550
-120
µA
ILI
VIN = VSS or VDD
1, 2, 3
All
-5
+5
µA
ILI1
VIN = VSS
1, 2, 3
All
-800
-150
µA
ILI2
VIN = VDD
1, 2, 3
All
200
1500
µA
See footnotes at end of table.
STANDARD
MICROCIRCUIT DRAWING
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REVISION LEVEL
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TABLE IA. Electrical performance characteristics – Continued.
Test
Symbol
Conditions 1/ 17/
VDD = 5.0 V ±10%
unless otherwise specified
Group A
Subgroups
Device
Type
Limits
1, 2, 3
All
Max
65
mA
1, 2, 3
All
110
mA
1, 3
All
20
µA
2
All
1000
µA
Min
Unit
Power supply current in
reset
IDDRESET
Active power supply current
AIDD
Quiescent power supply
current
QIDD
M,D,P,L, and R
1
All
1000
µA
Power supply current in
power down
IDDPD
CLK @ 20MHz, no active
I/O
1, 2, 3
All
6
mA
Power supply current in
idle mode
IDDIDLE
CLK @ 20 MHz, no active
I/O
1, 2, 3
All
55
mA
Pin capacitance
CIO
@ 1 MHz, 25°C 13/
4
All
15
pF
Short circuit output current,
except for pins noted in
Note 12
Short circuit output current,
for pins noted in
Note 12
Functional tests
IOS
VDD = 5.5 V 11/ 13/
1, 2, 3
All
-100
130
mA
IOS1
VDD = 5.5 V
1, 2, 3
All
-200
250
mA
7, 8
All
Address VALID to READY
setup 13/
tAVYV
9, 10, 11
All
2TOSC
-30
ns
Non-READY time 13/
tYLYH
9, 10, 11
All
No upper limit
ns
READY hold after CLKOUT
low 6/ 13/
tCLYX
9, 10, 11
All
0
2TOSC
-20
ns
READY hold after ALE low
6/ 13/
tLLYX
9, 10, 11
All
TOSC
3TOSC
-20
ns
Address valid to
BUSWIDTH setup 13/
tAVGV
9, 10, 11
All
2TOSC
-30
ns
BUSWIDTH hold after
CLKOUT low 13/
Address valid to input data
valid 7/ 13/
tCLGX
9, 10, 11
All
tAVDV
9, 10, 11
All
tRLDV
9, 10, 11
All
tCLDV
9, 10, 11
tRHDZ
tRXDX
RD Active to input data
valid 7/
CLKOUT low to input data
valid 13/
CLK @ 20 MHz, RESET
≤ VIL
CLK @ 20 MHz, typical
Program flow
11/ 12/ 13/
See 4.4.1c
See figure 4
0
ns
3TOSC
-29
ns
5 13/
TOSC-26
ns
All
5
TOSC-26
ns
9, 10, 11
All
0
TOSC-10
ns
9, 10, 11
All
0
TOSC-10
ns
End of RD to input data
float 13/
Data hold after RD inactive
13/
See footnotes at end of table.
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TABLE IA. Electrical performance characteristics – Continued.
Test
Symbol
Conditions 1/ 17/
VDD = 5.0 V ±10%
unless otherwise specified
Group A
subgroups
Device
Type
See figure 4
9, 10, 11
All
Min
1 16/
Max
20 15/
MHz
Limits
Unit
Frequency on XTAL1 13/
fOSC
XTAL1 period (1/fOSC ) 13/
TOSC
9, 10, 11
All
50 15/
1000 16/
ns
XTAL1 high to CLKOUT
high or low
CLKOUT cycle time 15/
tXHCH
9, 10, 11
All
0
25
ns
tCLCL
9, 10, 11
All
CLKOUT high period 13/
tCHCL
9, 10, 11
All
TOSC-10
TOSC
+10
ns
CLKOUT falling edge to
ALE rising
ALE falling edge to
CLKOUT rising 13/
ALE cycle time 7/ 15/
tCLLH
9, 10, 11
All
-5
+15
ns
tLLCH
9, 10, 11
All
-10
+10
ns
tLHLH
9, 10, 11
All
ALE high period 13/
tLHLL
9, 10, 11
All
TOSC-10
Address setup to ALE
falling edge 13/
Address hold after ALE
falling edge
tAVLL
9, 10, 11
All
TOSC-15
tLLAX
9, 10, 11
All
TOSC-20
TOSC+5
ns
tLLRL
9, 10, 11
All
TOSC-5
TOSC+10
ns
tRLCL
9, 10, 11
All
-5
+10
ns
tRLRH
9, 10, 11
All
TOSC-5
tRHLH
9, 10, 11
All
TOSC
-10
TOSC
+10
ns
tRLAZ
9, 10, 11
All
-5
+5
ns
tLLWL
9, 10, 11
All
TOSC-10
TOSC
+10
ns
2TOSC
ns
4TOSC
TOSC
+15
ns
ns
ns
ALE falling edge to RD
falling edge
RD low to CLKOUT falling
edge
ns
RD low period 7/
RD rising edge to ALE risng
edge 8/ 13/
RD low to address float 13/
ALE falling edge to WR
falling edge 13/
See footnotes at end of table.
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TABLE IA. Electrical performance characteristics – Continued.
Test
Conditions 1/ 17/
VDD = 5.0 V ±10%
unless otherwise specified
Group A
subgroups
Device
Type
See figure 4
9, 10, 11
All
Min
-5
Max
+10
tQVWH
9, 10, 11
All
TOSC-10
TOSC
+10
ns
tCHWH
9, 10, 11
All
-10
+15
ns
tWLWH
9, 10, 11
All
TOSC-10
tWHQX
9, 10, 11
All
TOSC-10
TOSC
+10
ns
tWHLH
9, 10, 11
All
TOSC-10
TOSC
+10
ns
tWHBX
9, 10, 11
All
TOSC-10
TOSC
+10
ns
tWHAX
9, 10, 11
All
TOSC-25
tRHBX
9, 10, 11
All
TOSC-10
tRHAX
9, 10, 11
All
TOSC-25
tAVENV
9, 10, 11
All
tLHENX
9, 10, 11
All
tAVEV
9, 10, 11
All
tRXEX
9, 10, 11
All
tEVWH
9, 10, 11
tWHEX
9, 10, 11
Symbol
tCLWL
Limits
Unit
ns
CLKOUT low to WR falling
edge
Data stable to WR rising
edge 7/
CLKOUT high to WR rising
edge 13/
ns
WR low period 7/ 13/
Data hold after WR rising
edge 13/
WR rising edge to ALE
rising edge 8/ 13/
BHE, INST after WR rising
edge 13/
ns
AD8-15 HOLD after WR
rising 9/ 13/
BHE, INST after RD rising
edge 13/
TOSC
+10
ns
ns
AD8-15 HOLD after RD
rising 9/ 13/
2TOSC
-30
Address valid to EDACEN
valid 13/
EDACEN hold after ALE
high 13/
Address valid to EDAC
input valid 7/ 13/
0
ns
0
TOSC
-10
ns
All
TOSC
-10
TOSC
+10
ns
All
TOSC
-10
TOSC
+10
ns
EDAC output stable to WR
rising 7/ 13/
EDAC output hold after WR
rising 13/
See footnotes at end of table.
DEFENSE SUPPLY CENTER COLUMBUS
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DSCC FORM 2234
APR 97
ns
3TOSC
-29
EDAC hold after RD
inactive 13/
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TABLE IA. Electrical performance characteristics – Continued.
Test
Symbol
Conditions 1/ 17/
VDD = 5.0 V ±10%
unless otherwise specified
Group A
Subgroups
Device
Type
Limits
Min
Unit
Max
EXTERNAL CLOCK DRIVE TIMING CHARACTERISTICS
Oscillator Frequency
fosc
Oscillator Period (1/fosc)
See figure 4
9, 10, 11
All
1 13/
20
MHz
TOSC
9, 10, 11
All
50
1000
13/
ns
High time 13/
tOSCH
9, 10, 11
All
17
ns
Low time 13/
tOSCL
9, 10, 11
All
17
ns
Rise time 10/
tOSCR
9, 10, 11
All
10
ns
Fall time 10/
tOSCF
9, 10, 11
All
10
ns
9, 10, 11
All
25
tCLHAL
9, 10, 11
All
-15
15
ns
tCLBRL
9, 10, 11
All
-15
15
ns
tHALAZ
9, 10, 11
All
10
ns
tHALBZ
9, 10, 11
All
15
ns
tCLHAH
9, 10, 11
All
-15
15
ns
tCLBRH
9, 10, 11
All
-15
15
ns
tHAHAX
9, 10, 11
All
-15
ns
tHAHBV
9, 10, 11
All
-10
ns
tCLLH
9, 10, 11
All
-5
HOLD/HLDA TIMINGS
tHVCH
See figure 4
ns
HOLD setup 13/
CLKOUT low to HLDA low
13/
CLKOUT low to BREQ low
13/
HLDA low to address float
13/
HLDA low to BHE, INST,
RD, WR driven weakly
13/
CLKOUT low to HLDA high
13/
CLKOUT low to BREQ high
13/
HLDA high to address no
longer float 13/
HLDA high to BHE, INST,
RD, WR valid 13/
CLKOUT low to ALE high
13/
See footnotes at end of table.
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REVISION LEVEL
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10
TABLE IA. Electrical performance characteristics – Continued.
Test
Symbol
Conditions 1/ 17/
VDD = 5.0 V ±10%
unless otherwise specified
Group A
subgroups
Device
Type
Limits
Min
Unit
Max
SERIAL PORT TIMING
Serial port clock period
(BRR = 8002H) 15/
tXLXL
Serial port clock falling
edge to rising edge
(BRR = 8002H) 13/
9, 10, 11
All
tXLXH
9, 10, 11
All
Serial port clock period
(BRR = 8001H) 15/
tXLXL
9, 10, 11
All
Serial port clock falling
edge to rising edge
(BRR = 8001H) 13/
tXLXH
9, 10, 11
All
2 TOSC
-50
Output data valid to clock
rising edge 13/
tQVXH
9, 10, 11
All
2 TOSC
-50
ns
Output data hold after clock
rising edge 13/
tXHQX
9, 10, 11
All
2 TOSC
-50
ns
Next output data valid after
clock rising edge 13/
tXHQV
9, 10, 11
All
Input data setup to clock
rising edge 13/
tDVXH
9, 10, 11
All
TOSC
+50
ns
Input data hold after clock
rising edge 13/
tXHDX
9, 10, 11
All
0
ns
Last clock rising to output
float 13/
See footnotes on next page.
tXHQZ
9, 10, 11
All
2 TOSC
-10
See figure 4
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6 TOSC
4 TOSC
-50
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4 TOSC
+50
4 TOSC
ns
ns
2 TOSC
+50
2 TOSC
+50
2 TOSC
+10
ns
ns
ns
SIZE
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REVISION LEVEL
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11
TABLE IA. Electrical performance characteristics – Continued.
1/ Devices supplied to this drawing are characterized at all levels M, D, P, L, and R of irradiation. However, this device
is only tested at the 'R' level. Pre and Post irradiation values are identical unless otherwise specified in Table IA. When
performing post irradiation electrical measurements for any RHA level, TA = +25°C.
2/ Open-drain outputs include Port 1, P2.6 and P2.7.
3/ Test modes are entered at the RESET rising edge by applying VIL to one or more of the following pins TXD, RD, WR, HLDA.
To avoid entering a test mode, ensure that these pins remain above VIH during the rising edge of RESET.
4/ Inputs/outputs with pullup resistors include: RESET, Port 1, Port 2.0, P2.6, P2.7, WR, BHE, AD0-15, RD, ALE, CLKOUT.
5/ Inputs/outputs with pulldown resistors include: NMI, HSO.0- HSO.3, P2.5, INST.
6/ If max exceeded, additional wait state occurs.
7/ If wait states are used, add 2 TOSC *N, where N = number of wait states.
8/ Assuming back-to-back bus cycles.
9/ 8-bit only.
10/ Supplied as a design limit but not guaranteed or tested.
11/ Not more than one output may be shorted at a time for maximum duration of one second.
12/ The IOS1 spec applies to pins RESET, BHE, RD, and CLKOUT.
13/ Tested only at initial qualification, and after any design or process changes which may affect this characteristic.
14/ For standard outputs not covered by the IOH spec.
15/ These specs are verified using functional vectors (strobed) only.
16/ Low speed tests performed at 5 MHz. 1 MHz operation is guaranteed by design.
17/ Unless otherwise specified, the temperature conditions for device type 01 is -55°C to +125°C, and -40°C to +125°C
for device type 02.
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TABLE IB. SEP test limits . 1/ 2/
Device
Type
All
TA =
Temperature
±10°C 3/
VCC = 4.5 V
Effective
LET no
Upsets
2
[MeV-m /mg)]
= 25
+25°C
VCC = 5.5 V
Maximum device
cross section
2
(Cm )
(LET = 80)
-3
3.0 x 10
Effective
LET no
Latchup 3/
2
[MeV-cm /mg)
> 128
1/ Devices that contain cross coupled resistance must be tested at the maximum rated TA . For SEP test conditions, see
4.4.4.4 herein.
2/ Technology characterization and model verification supplemented by in-line data may be used in lieu of end-of-line
testing. Test plan must be approved by TRB and qualifying activity.
3/ Worst case temperature TA = +125°C.
WEIBULL AND DEVICE PARAMETERS FOR ERROR-RATE CALCULATION
SHAPE
PARAMETER
1
WIDTH
PARAMETER
14
STRUCTURAL
CROSS-SECTION
2
3.66E-7cm /bit
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ONSET
LET
2
14.4MeV-cm /mg
DEPLETION
DEPTH
0.8µm
FUNNEL
DEPTH
1.45µm
SIZE
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REVISION LEVEL
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SHEET
13
Millimeters
Symbol
A
A1
b
c
L
D
E
e
N
Min
--1.83
0.35
0.18
6.35
21.6
21.6
1.27 TYP
68
Inches
Max
2.74
2.24
0.46
0.24
--24.50
24.50
1.27 TYP
68
Min
--.072
.014
.007
.250
.850
.850
.050 TYP
68
Max
.108
.088
.018
.0095
--.965
.965
.050 TYP
68
NOTES:
1. The U. S. Government preferred system of measurement is the metric SI system. However, since this item was
originally designed using inch-pound units of measurement, in the event of conflict between the metric and inchpound units, the inch-pound units shall take precedence. Metric equivalents are for general information only.
2. All leads increase max limit by 0.003 inches measured at the center of the flat when lead finish A is applied.
3. Index area: a notch or a pin one identification mark shall be located adjacent to pin one and shall be located
within the area shown. The manufacturer’s identification shall not be used as pin one identification mark.
FIGURE 1. Case outline.
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FIGURE 2. Terminal connections.
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FIGURE 3. Functional Block diagram.
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FIGURE 4. Load circuit and waveforms.
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FIGURE 4. Load circuit and waveforms. - Continued
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FIGURE 4. Load circuit and waveforms. - Continued
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FIGURE 4. Load circuit and waveforms. - Continued
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NOTE:
AC Testing inputs are driven at VDD for a Logic "1" and 0.0 V for a Logic "0". Timing measurements on outputs are made at
1.4 V.
AC Testing Input, Output Waveforms.
FIGURE 4. Load circuit and waveforms. - Continued
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Float Waveforms
NOTE:
For timing purposes a port pin is no longer floating when it changes to a voltage outside reference points shown, and begins to
float when it changes to voltage inside the reference points shown; IOL = 4 mA, IOH = -4 mA .
FIGURE 4. Load circuit and waveforms. - Continued
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Open
2,4-8, 17-23, 26-35, 38-41,
45-63, 65
NOTE:
VDD = 5 V ±0.5V
9, 11, 16, 24, 37, 43, 64
GND
3, 10, 15, 25, 42,
44, 66, 67
VDD External Pin
1, 13
GND External Pin
12, 14, 36, 68
Each pin except those labeled “VDD External Pin” and “GND External Pin” will have a resistor of 2.49KΩ
±5% for irradiation.
FIGURE 5. Radiation exposure circuit.
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4. QUALITY ASSURANCE PROVISIONS
4.1 Sampling and inspection. For device classes Q and V, sampling and inspection procedures shall be in accordance with
MIL-PRF-38535 or as modified in the device manufacturer's Quality Management (QM) plan. The modification in the QM plan
shall not affect the form, fit, or function as described herein. For device class M, sampling and inspection procedures shall be
in accordance with MIL-PRF-38535, appendix A.
4.2 Screening. For device classes Q and V, screening shall be in accordance with MIL-PRF-38535, and shall be conducted
on all devices prior to qualification and technology conformance inspection. For device class M, screening shall be in
accordance with method 5004 of MIL-STD-883, and shall be conducted on all devices prior to quality conformance inspection.
4.2.1 Additional criteria for device class M.
a.
Burn-in test, method 1015 of MIL-STD-883.
(1) Test condition A, B, C or D. The test circuit shall be maintained by the manufacturer under document revision
level control and shall be made available to the preparing or acquiring activity upon request. The test circuit shall
specify the inputs, outputs, biases, and power dissipation, as applicable, in accordance with the intent specified in
test method 1015.
(2) TA = +125°C, minimum.
b.
Interim and final electrical test parameters shall be as specified in table IIA herein.
4.2.2 Additional criteria for device classes Q and V.
a.
The burn-in test duration, test condition and test temperature, or approved alternatives shall be as specified in the
device manufacturer's QM plan in accordance with MIL-PRF-38535. The burn-in test circuit shall be maintained under
document revision level control of the device manufacturer's Technology Review Board (TRB) in accordance with
MIL-PRF-38535 and shall be made available to the acquiring or preparing activity upon request. The test circuit shall
specify the inputs, outputs, biases, and power dissipation, as applicable, in accordance with the intent specified in test
method 1015 of MIL-STD-883.
b.
Interim and final electrical test parameters shall be as specified in table IIA herein.
c.
Additional screening for device class V beyond the requirements of device class Q shall be as specified in
MIL-PRF-38535, appendix B.
4.3 Qualification inspection for device classes Q and V. Qualification inspection for device classes Q and V shall be in
accordance with MIL-PRF-38535. Inspections to be performed shall be those specified in MIL-PRF-38535 and herein for
groups A, B, C, D, and E inspections (see 4.4.1 through 4.4.4).
4.4 Conformance inspection. Technology conformance inspection for classes Q and V shall be in accordance with
MIL-PRF-38535 including groups A, B, C, D, and E inspections and as specified herein. Quality conformance inspection for
device class M shall be in accordance with MIL-PRF-38535, appendix A and as specified herein. Inspections to be performed
for device class M shall be those specified in method 5005 of MIL-STD-883 and herein for groups A, B, C, D, and E inspections
(see 4.4.1 through 4.4.4).
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4.4.1 Group A inspection.
a.
Tests shall be as specified in table IIA herein.
b.
Subgroup 4 (CI/O) shall be measured only for the initial test and after process or design changes which may affect
input capacitance. One pin of each input/output driver (buffer) type shall be tested on each sample device.
c.
For device class M, subgroups 7 and 8 tests shall be sufficient to verify the functionality of the device. For device
classes Q and V, subgroups 7 and 8 shall include verifying the functionality of the device. These tests shall have been
fault graded in accordance with MIL-STD-883, test method 5012 (see 1.6 herein).
TABLE IIA. Electrical test requirements.
Test requirements
Subgroups
(in accordance with
MIL-PRF-38535, table III)
Subgroups
(in accordance with
MIL-STD-883,
method 5005, table I)
Device
class Q
Device
Class M
----
Interim electrical
Parameters (see 4.2)
----
Device
class V
----
Final electrical
Parameters (see 4.2)
1/ 1, 2, 3, 7, 8, 9,
10, 11
1/ 1, 2, 3, 7, 8,
9, 10, 11
2/ 3/ 1, 2, 3, 7,
8, 9, 10, 11
Group A test
Requirements (see 4.4)
1, 2, 3, 4, 7, 8, 9,
10, 11
1, 2, 3, 4, 7, 8,
9, 10, 11
1, 2, 3, 4, 7,
8, 9, 10, 11
Group C end-point electrical
Parameters (see 4.4)
1, 2, 7, 8A
1, 2, 7, 8A
1, 2, 7, 8A
3/
Group D end-point electrical
Parameters (see 4.4)
1, 2, 7, 8A
1, 2, 7, 8A
1, 2, 7, 8A
Group E end-point electrical
Parameters (see 4.4)
1, 7, 9
1, 7, 9
1, 7, 9
1/ PDA applies to subgroup 1.
2/ PDA applies to subgroups 1 and 7.
3/ Delta limits as specified in Table IIB herein shall be required when specified and the Delta values
shall be completed with reference to the zero hour electrical parameter.
TABLE IIB. Burn-in delta parameters (+25°C).
Parameter
QIDD
NOTE:
Condition
TA = 25°C
Limits
±10% of measured value
or 20 µA whichever is
greater
If device is tested at or below 20 µA no deltas are required. Delta’s are performed at room temperature.
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4.4.2 Group C inspection. The group C inspection end-point electrical parameters shall be as specified in table IIA herein.
4.4.2.1 Additional criteria for device class M. Steady-state life test conditions, method 1005 of MIL-STD-883:
a.
Test condition A, B, C or D. The test circuit shall be maintained by the manufacturer under document revision level
control and shall be made available to the preparing or acquiring activity upon request. The test circuit shall specify
the inputs, outputs, biases, and power dissipation, as applicable, in accordance with the intent specified in test method
1005 of MIL-STD-883.
b.
TA = +125°C, minimum.
c.
Test duration: 1,000 hours, except as permitted by method 1005 of MIL-STD-883.
4.4.2.2 Additional criteria for device classes Q and V. The steady-state life test duration, test condition and test temperature,
or approved alternatives shall be as specified in the device manufacturer's QM plan in accordance with MIL-PRF-38535. The
test circuit shall be maintained under document revision level control by the device manufacturer's TRB in accordance with
MIL-PRF-38535 and shall be made available to the acquiring or preparing activity upon request. The test circuit shall specify
the inputs, outputs, biases, and power dissipation, as applicable, in accordance with the intent specified in test method 1005 of
MIL-STD-883.
4.4.3 Group D inspection. The group D inspection end-point electrical parameters shall be as specified in table IIA herein.
4.4.4 Group E inspection. Group E inspection is required only for parts intended to be marked as radiation hardness
assured (see 3.5 herein).
a.
End-point electrical parameters shall be as specified in table IIA herein.
b.
For device classes Q and V, the devices or test vehicle shall be subjected to radiation hardness assured tests as
specified in MIL-PRF-38535 for the RHA level being tested. For device class M, the devices shall be subjected to
radiation hardness assured tests as specified in MIL-PRF-38535, appendix A for the RHA level being tested. All
device classes must meet the post-irradiation end-point electrical parameter limits as defined in table IA at
TA = +25°C ±5°C, after exposure, to the subgroups specified in table IIA herein.
c.
When specified in the purchase order or contract, a copy of the RHA delta limits shall be supplied.
4.4.4.1 Total dose irradiation testing. Total dose irradiation testing shall be performed in accordance with MIL-STD-883
method 1019 (condition A) and as specified herein.
4.4.4.1.1 Accelerated aging test. Accelerated aging tests shall be performed on all devices requiring a RHA level greater
than 5k rads (Si). The post-anneal end-point electrical parameter limits shall be as specified in table IA herein and shall be the
pre-irradiation end-point electrical parameter limit at 25°C ±5°C. Testing shall be performed at initial qualification and after
any design or process changes which may affect the RHA response of the device.
4.4.4.2 Dose rate induced latchup testing. Dose rate induced latchup testing shall be performed in accordance with test
method 1020 of MIL-STD-883 and as specified herein (see 1.5). Tests shall be performed on devices, SEC, or approved test
structures at technology qualification and after any design or process changes which may effect the RHA capability of the
process.
4.4.4.3 Dose rate upset testing. Dose rate upset testing shall be performed in accoradance with test method 1021 of
MIL-STD-883 and herein (see 1.5).
a. Transient dose rate upset testing shall be performed at initial qualification and after any design or process changes
which may effect the RHA performance of the devices. Test 10 devices with 0 defects unless otherwise specified.
b. Transient dose rate upset testing for class Q and V devices shall be performed as specified by a TRB approved
radiation hardness assurance plan and MIL-PRF-38535.
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4.4.4.4 Single event phenomena (SEP). SEP testing shall be required on class V devices (See 1.5). SEP testing shall be
performed on the Standard Evaluation Circuit (SEC) or alternate SEP test vehicle as approved by the qualifying activity at
initial qualification and after any design or process changes which may affect the upset or latchup characteristics. The
recommended test conditions for SEP are as follows:
a. The ion beam angle of incidence shall be between normal to the die surface and 60° to the normal, inclusive (i.e. 0° ≤
angle ≤ 60°). No shadowing of the ion beam due to fixturing or package related effects is allowed.
b. The fluence shall be ≥ 100 errors or ≥ 10 ions/cm .
6
2
5
2
2
c. The flux shall be between 10 and 10 ions/cm /s. The cross-section shall be verified to be flux independent by
measuring the cross-section at two flux rates which differ by at least an order of magnitude.
d. The particle range shall be ≥ 20 microns in silicon.
e. The upset test temperature shall be +25°C and the latchup test temperature is maximum rated operating temperature
±10°C.
f. Bias conditions shall be defined by the manufacturer for latchup measurements.
g. Test four devices with zero failures.
h. For SEP test limits, see Table IB herein.
5. PACKAGING
5.1 Packaging requirements. The requirements for packaging shall be in accordance with MIL-PRF-38535 for device
classes Q and V or MIL-PRF-38535, appendix A for device class M.
6. NOTES
6.1 Intended use. Microcircuits conforming to this drawing are intended for use for Government microcircuit applications
(original equipment), design applications, and logistics purposes.
6.1.1 Replaceability. Microcircuits covered by this drawing will replace the same generic device covered by a contractor
prepared specification or drawing.
6.1.2 Substitutability. Device class Q devices will replace device class M devices.
6.2 Configuration control of SMD's. All proposed changes to existing SMD's will be coordinated with the users of record for
the individual documents. This coordination will be accomplished using DD Form 1692, Engineering Change Proposal.
6.3 Record of users. Military and industrial users should inform Defense Supply Center Columbus when a system
application requires configuration control and which SMD's are applicable to that system. DSCC will maintain a record of users
and this list will be used for coordination and distribution of changes to the drawings. Users of drawings covering
microelectronic devices (FSC 5962) should contact DSCC-VA, telephone (614) 692-0544.
6.4 Comments. Comments on this drawing should be directed to DSCC-VA , Columbus, Ohio 43216-5000, or telephone
(614) 692-0547.
6.5 Abbreviations, symbols, and definitions. The abbreviations, symbols, and definitions used herein are defined in
MIL-PRF-38535 , MIL-HDBK-1331, and Table III herein.
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TABLE III. Pin descriptions.
Pin Name
Description
VDD
+5 V Supply voltage
VSS
Circuit ground
PORT 0 (P0.0-P0.7)
Port 0 is an 8-bit input only port when used in its default mode. When configured
for their alternate function, five of the bits are bi-directional EDAC check bits as
shown in Table A herein.
Port 1 is an 8-bit quasi-bidirectional, I/O port. All pins are quasi-bidirectional unless
The alternate function is selected per Table B herein. When the pins are
configured for Their alternate functions, they act as standard I/O, not quasibidirectional.
Port 2 is an 8-bit, bidirectional, I/O port. These pins are shared with timer 2
Functions, serial data I/O and PWMO output, per Table C herein.
The lower 8-bits of the multiplexed address/data bus. The pins on this port are
Bidirectional during the data phase of the bus cycle.
The upper 8-bits of the multiplexed address/data bus. The pins on this port are
Bidirectional during the data phase of the 16 bit bus cycle. When running in 8-bit
bus width, these pins are non-multiplexed, dedicated upper address bit outputs.
CMOS level input of the oscillator inverter.
PORT 1 (P1.0-P1.7)
PORT 2 (P2.0-P2.7)
AD0-AD7
AD8-AD15
XTAL1
CLKOUT
Output of the internal clock generator. The frequency of CLKOUT is one-half the
Oscillator frequency.
RESET
BUSWIDTH
Active low reset input and open drain output.
Input for the BUSWIDTH selection. If the Chip Configuration Register (CCR) bit 1
Is a logic high, this pin selects the bus width for the bus cycle in progress. If
BUSWIDTH is a 1, a 16-bit bus cycle occurs. If the BUSWIDTH is a 0, an 8-bit
Cycle occurs. If the CCR bit 1 is a logic low, then the bus is always an 8-bit bus.
A positive transition causes a non-maskable interrupt vector through 203EH.
NMI
INST
Output high during an external memory read indicates the read is a "fetch
Instruction”. INST is valid throughout the bus cycle. INST is only activated during
External memory access and output low for a data fetch.
EDACEN
EDACEN is an enable input for the error detection and correction functions.
Address Latch Enable or Address Valid output, as selected by CCR. Both pin
Options provide a signal to demultiplex the address from the address /data bus.
When the pin is ADV, it goes inactive, high at the end of the bus cycle. ALE/ADV
Is only activated during external memory accesses.
ALE/ADV
RD
Read signal output to external memory. RD is only activated during external
Memory reads.
Write and Write Low output to external memory, as selected by the CCR. When
Selected by the CCR, WR will go low for every external write. However WRL will
go low only for external writes where an even byte is being written. WR/WRL is
only selected for external memory writes.
WR/WRL
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TABLE III Pin descriptions – Continued.
Pin Name
Description
Byte High Enable or Write High output to external memory, as selected by the
CCR. When the BHE is selected, a logic low value selects the bank of memory
That is connected to the high byte of the data bus, When the WRH function
Is selected, the pin will go low if the bus cycle is writing to an odd memory location.
When the CCR selects 8-bit BUSWIDTH mode, WRH is asserted for writes to all
External memory locations.
READY is the input used to lengthen external memory cycles for interfacing to
Slow memory. A logic low value will place wait states in the memory cycle.
Inputs to the High Speed Input Unit. Four HSI pins are available: HSI.0, HSI.1, HSI2
And HSI3. Two of these pins (HSI.2 and HSI.3) are shared with the HSO Unit.
Two of these pins(HSI.0 and HSI.1) have alternate functions for Timer 2.
Outputs from the High Speed Output Unit. Six HSO pins are available: HSO.0,
HSO.1, HSO.2, HSO.3, HSO.4 and HSO.5. Pins HSO.4 and HSO.5 are shared
With pins HSI.2 and HSI.3 of the HSI Unit respectively.
BHE/WRH
READY
HSI
HSO
TABLE A. PORT 0 ALTERNATE FUNCTIONS
Port pin
P0.0-P0.3,
P0.6
P0.4, P0.5
P0.7
Alternate
Name
ECB0-ECB4
Alternate Function
P0.4, P0.5
Input port pin.
EXTINT
Setting IOC1.1 = 1 will allow P0.7 to be used for EXTINT (INT07).
Error detection and correction check bits.
TABLE B. PORT 1 ALTERNATE FUNCTIONS
P1.0
P1.0
I/O Pin
P1.1
P1.1
I/O Pin
P1.2
P1.2
I/O Pin
P1.3
PWM1
Setting IOC3.2 = 1enables P1.3 as the Pulse Width Modulator (PWM1) output pin.
P1.4
PWM2
Setting IOC3.3 = 1enables P1.4 as the Pulse Width Modulator (PWM2) output pin.
P1.5
BREQ
Bus Request, output activated when the bus controller has a pending external memory
Cycle.
Bus Hold Acknowledge, output indicating the release of the bus.
P1.6
HLDA
P1.7
HOLD
Bus Hold, input requesting control of the bus.
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TABLE III. Pin descriptions – Continued.
TABLE C. PORT 2 ALTERNATE FUNCTIONS
Port Pin
Alternate
Name
Alternate Function
P2.0
TXD
Transmit Serial Data.
P2.1
RXD
Receive Serial Data.
P2.2
EXTINT
External interrupt, Clearing IOC1.1 will allow P2.2 to be used for EXTINT (INT07).
P2.3
T2CLK
Timer 2 clock input and Serial port baud rate generator input.
P2.4
T2RST
Timer 2 Reset.
P2.5
PWMO
Pulse Width Modulator output 0.
P2.6
T2UP-DN
P2.7
T2CAPTURE
Controls the direction of the Timer 2 counter. Logic High equals count down. Logic
Low equals count up.
A rising edge on P2.7 causes the value of Timer 2 to be captured into this register,
And generates a Timer 2 Capture interrupt (INT11).
6.6 Sources of supply.
6.6.1 Sources of supply for device classes Q and V. Sources of supply for device classes Q and V are listed in QML-38535.
The vendors listed in QML-38535 have submitted a certificate of compliance (see 3.6 herein) to DSCC-VA and have agreed to
this drawing.
6.6.2 Approved sources of supply for device class M. Approved sources of supply for class M are listed in MIL-HDBK-103.
The vendors listed in MIL-HDBK-103 have agreed to this drawing and a certificate of compliance (see 3.6 herein) has been
submitted to and accepted by DSCC-VA.
6.7 Additional information. A copy of the following additional data shall be maintained and available from the device
manufacturer:
a. RHA upset levels.
b. Test conditions (SEP).
c. Number of upsets (SEP).
d. Number of transients (SEP).
e. Occurrence of latchup (SEP).
STANDARD
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APPENDIX A
APPENDIX A FORMS A PART OF SMD 5962-98583
A.1 SCOPE
A.1.1 Scope. This appendix establishes minimum requirements for microcircuit die to be supplied under the Qualified
Manufacturers List (QML) Program. QML microcircuit die meeting the requirements of MIL-PRF-38535 and the manufacturers
approved QM plan for use in monolithic microcircuits, multichip modules (MCMs), hybrids, electronic modules, or devices
using chip and wire designs in accordance with MIL-PRF-38534 are specified herein. Two product assurance classes
consisting of military high reliability (device class Q) and space application (device Class V) are reflected in the Part or
Identification Number (PIN). When available a choice of Radiation Hardiness Assurance (RHA) levels are reflected in the PIN.
A.1.2 PIN. The PIN shall be as shown in the following example:
5962
-
Federal
Stock class
designator
98583
RHA
designator
(see A.2.1)
01
Q
Device
type
(see A.2.2)
9
Device
class
designator
(see A.2.3)
Die
code
(See A.2.4)
X
Die
Details
(see A.2.5)
Drawing Number
A.1.2.1 RHA designator. Device classes Q and V RHA identified die shall meet the MIL-PRF-38535 specified RHA levels.
A dash (-) indicates a non-RHA die.
A.1.2.2 Device type(s). The device type(s) shall identify the circuit function as follows:
Device type
Generic number
Circuit function
01
UT80C196KD or UT80CRH196KD 1/
MIL-TEMP, MCS-96 Based, Microcontroller
02
UT80C196KD or UT80CRH196KD 1/
Extended Industrial Temp, MCS-96 Based,
Microcontroller
A.1.2.3 Device class designator.
Device class
Q or V
Device requirements documentation
Certification and qualification to the die requirements of MIL-PRF-38535.
A.1.2.4 Die code. The die code designator shall be number 9 for all devices supplied as die only with no case outline.
1/ The RH in the Generic number signifies the radiation hardened version of the device.
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APPENDIX A
APPENDIX A FORMS A PART OF SMD 5962-98583
A.1.2.5 Die Details. The die details designation shall be a unique letter which designates the die’s physical dimensions,
bonding pad location(s) and related electrical function(s), interface materials, and other assembly related information, for each
product and variant supplied to this appendix.
A.1.2.5.1 Die Physical dimensions.
Die Types
Die detail designator
01
02
Figure number
A
A
A-1
A-1
A.1.2.5.2 Die Bonding pad locations and Electrical functions.
Die Types
Die detail designator
01
02
A
A
Figure number
A-1
A-1
A.1.2.5.3 Interface Materials.
Die Types
Die detail designator
01
02
A
A
Figure number
A-1
A-1
A.1.2.5.4 Assembly related information.
Die Types
Die detail designator
01
02
A
A
Figure number
Substrate potential
A-1
A-1
Tied to VSS
Tied to VSS
A.1.3 Absolute maximum ratings. See paragraph 1.3 within the body of this drawing for details.
A.1.4 Recommended operating conditions. See paragraph 1.4 within the body of this drawing for details.
A.2 APPLICABLE DOCUMENTS
A.2.1 Government specifications, standards, bulletin, and handbooks. Unless otherwise specified, the following
specifications, standards, bulletin, and handbook of the issue listed in that issue of the Department of Defense Index of
Specifications and Standards specified in the solicitation, form a part of this drawing to the extent specified herein.
SPECIFICATION
DEPARTMENT OF DEFENSE
MIL-PRF-38535 - Integrated Circuits, Manufacturing, General Specification for.
STANDARDS
DEPARTMENT OF DEFENSE
MIL-STD-883 - Test Method Standard Microcircuits.
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APPENDIX A
APPENDIX A FORMS A PART OF SMD 5962-98583
HANDBOOK
DEPARTMENT OF DEFENSE
MIL-HDBK-103 - List of Standard Microcircuit Drawings.
(Copies of the specification, standards, bulletin, and handbook required by manufacturers in connection with specific
acquisition functions should be obtained from the contracting activity or as directed by the contracting activity).
A.2.2 Order of precedence. In the event of a conflict between the text of this drawing and the references cited herein, the
text of this drawing shall take precedence.
A.3 REQUIREMENTS
A.3.1 Item Requirements. The individual item requirements for device classes Q and V shall be in accordance with
MIL-PRF-38535 and as specified herein or as modified in the device manufacturer’s Quality Management (QM) plan. The
modification in the QM plan shall not effect the form, fit or function as described herein.
A.3.2 Design, construction and physical dimensions. The design, construction and physical dimensions shall be as
specified in MIL-PRF-38535 and the manufacturer’s QM plan, for device classes Q and V and herein.
A.3.2.1 Die Physical dimensions. The die physical dimensions shall be as specified in A.1.2.4.1 and on figure A-1.
A.3.2.2 Die bonding pad locations and electrical functions. The die bonding pad locations and electrical functions shall be
as specified in 10.2.4.2 and on figure A-1.
A.3.2.3 Interface materials. The interface materials for the die shall be as specified in A.1.2.4.3 and on figure A-1.
A.3.2.4 Assembly related information. The assembly related information shall be as specified in A.1.2.4.4 and figure A-1.
A.3.2.5 Radiation exposure circuit. The radiation exposure circuit shall be as defined within paragraph 3.2.5 of the body of
this document.
A.3.3 Electrical performance characteristics and post- irradiation parameter limits. Unless otherwise specified herein, the
electrical performance characteristics and post-irradiation parameter limits are as specified in table IA of the body of this
document.
A.3.4 Electrical test requirements. The wafer probe test requirements shall include functional and parametric testing
sufficient to make the packaged die capable of meeting the electrical performance requirements in table IA.
A.3.5 Marking. As a minimum, each unique lot of die, loaded in single or multiple stack of carriers, for shipment to a
customer, shall be identified with the wafer lot number, the certification mark, the manufacturer’s identification and the PIN
listed in 10.2 herein. The certification mark shall be a “QML” or “Q” as required by MIL-PRF-38535.
A.3.6 Certification of compliance. For device classes Q and V, a certificate of compliance shall be required from a
QML-38535 listed manufacturer in order to supply to the requirements of this drawing (see A.6.4 herein). The certificate of
compliance submitted to DSCC-VA prior to listing as an approved source of supply for this appendix shall affirm that the
manufacturer’s product meets, for device classes Q and V, the requirements of MIL-PRF-38535 and the requirements herein.
A.3.7 Certificate of conformance. A certificate of conformance as required for device classes Q and V in MIL-PRF-38535
shall be provided with each lot of microcircuit die delivered to this drawing.
STANDARD
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APPENDIX A
APPENDIX A FORMS A PART OF SMD 5962-98583
A.4 QUALITY ASSURANCE PROVISIONS
A.4.1 Sampling and inspection. For device classes Q and V, die sampling and inspection procedures shall be in
accordance with MIL-PRF-38535 or as modified in the device manufacturer’s Quality Management (QM) plan. The
modifications in the QM plan shall not effect the form, fit or function as described herein.
A.4.2 Screening. For device classes Q and V, screening shall be in accordance with MIL-PRF-38535, and as defined in the
manufacturer’s QM plan. As a minimum it shall consist of:
a) Wafer Lot acceptance for Class V product using the criteria defined within MIL-STD-883 TM 5007.
b) 100% wafer probe (see paragraph A.3.4).
c) 100% internal visual inspection to the applicable class Q or V criteria defined within MIL-STD-883 TM2010
or the alternate procedures allowed within MIL-STD-883 TM5004.
A.4.3 Conformance inspection.
A.4.3.1 Group E inspection. Group E inspection is required only for parts intended to be identified as radiation assured
(see A.3.5 herein). RHA levels for device classes Q and V shall be as specified in MIL-PRF-38535. End point electrical
testing of packaged die shall be as specified in table IIA herein. Group E tests and conditions are as specified within
paragraphs 4.4.4.1, 4.4.4.1.1, 4.4.4.2, 4.4.4.3, and 4.4.4.4.
A.5. DIE CARRIER
A.5.1 Die carrier requirements. The requirements for the die carrier shall be in accordance with the manufacturer’s QM
plan or as specified in the purchase order by the acquiring activity. The die carrier shall provide adequate physical,
mechanical and electrostatic protection.
A.6 NOTES
A.6.1 Intended use. Microcircuit die conforming to this drawing are intended for use in microcircuits built in accordance with
MIL-PRF-38535 or MIL-PRF-38534 for government microcircuit applications (original equipment), design applications and
logistics purposes.
A.6.2 Comments. Comments on this appendix should be directed to DSCC-VA, Columbus, Ohio, 43216-5000 or telephone
(614)-692-0547.
A.6.3 Abbreviations, symbols and definitions. The abbreviations, symbols, and definitions used herein are defined with
MIL-PRF-38535 and MIL-HDBK-1331.
A.6.4 Sources of Supply for device classes Q and V. Sources of supply for device classes Q and V are listed in QML38535. The vendors listed within QML-38535 have submitted a certificate of compliance (see 30.6 herein) to DSCC-VA and
have agreed to this drawing.
STANDARD
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APPENDIX A
APPENDIX A FORMS A PART OF SMD 5962-98583
DIE BONDING PAD LOCATIONS AND ELECTRICAL FUNCTIONS
o DIE PHYSICAL DIMENSIONS
Die Size:
Die Thickness:
394 mils. x 394 mils.
17.5 +/- 1 mils.
o INTERFACE MATERIALS
Top Metallization:
Si Al Cu 9 kÅ-12.5kÅ
Backside Metallization
None: Backgrind
Glassivation
Type:
Thickness
PSG
10 KÅ +/- 2.kÅ
Substrate:
EPI on single crystal silicon
o ASSEMBLY RELATED INFORMATION
Substrate Potential:
Tied to VSS
Special assembly
instructions:
None
FIGURE A-1. Die bonding pad locations and electrical functions.
STANDARD
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Appendix A
APPENDIX A FORMS A PART OF SMD 5962-98583
Die bonding pad locations and electrical functions
PAD
XCENTER
YCENTER
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
165.0
158.7
152.4
146.1
139.8
133.5
127.2
120.9
114.6
108.3
102.0
95.7
89.4
83.1
76.8
70.5
64.2
57.9
51.6
45.3
39.0
32.7
26.4
20.1
13.8
7.5
1.2
-5.1
-11.4
-17.7
-24.0
-30.3
-36.6
-42.9
-49.2
-55.5
-61.8
-68.1
-74.4
-80.7
-87.0
-93.3
-99.6
-105.9
-112.2
-118.5
-124.8
-131.1
-137.4
-143.7
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
185.9
NOTE: The die center is the coordinate origin (0,0).
Figure A-1
STANDARD
MICROCIRCUIT DRAWING
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DSCC FORM 2234
APR 97
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REVISION LEVEL
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Appendix A
APPENDIX A FORMS A PART OF SMD 5962-98583
Die bonding pad locations and electrical functions
PAD
XCENTER
YCENTER
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
-150.0
-156.3
-162.6
-168.9
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
185.9
185.9
185.9
185.9
170.2
163.9
157.4
151.1
144.8
138.5
132.2
125.9
119.6
113.3
107.1
100.8
94.5
88.2
81.9
75.6
69.3
63.0
56.7
50.4
44.1
37.8
31.5
25.2
18.9
12.6
6.3
0.0
-6.3
-12.6
-18.9
-25.2
-31.5
-37.8
-44.1
-50.4
-56.7
-63.0
-69.3
-75.6
-81.9
-88.2
-94.5
-100.8
-107.1
-113.4
NOTE: The die center is the coordinate origin (0,0).
Figure A-1
STANDARD
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Appendix A
APPENDIX A FORMS A PART OF SMD 5962-98583
Die bonding pad locations and electrical functions
PAD
XCENTER
YCENTER
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
163
143
144
145
146
147
148
149
150
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-184.6
-168.9
-162.6
-156.3
-150.0
-143.7
-137.4
-131.1
-124.8
-118.5
-112.2
-105.9
-99.6
-93.3
-87.0
-80.7
-74.4
-68.1
-61.8
-55.5
-49.2
-42.9
-36.6
-30.3
-24.0
-17.7
-11.4
-5.1
1.2
7.5
13.8
20.1
26.4
165.0
39.0
45.3
51.6
57.9
64.2
70.5
76.8
83.1
-119.7
-126.0
-132.3
-138.6
-144.9
-151.2
-157.5
-164.0
-170.3
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
NOTE: The die center is the coordinate origin (0,0).
Figure A-1
STANDARD
MICROCIRCUIT DRAWING
DEFENSE SUPPLY CENTER COLUMBUS
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DSCC FORM 2234
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REVISION LEVEL
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Appendix A
APPENDIX A FORMS A PART OF SMD 5962-98583
Die bonding pad locations and electrical functions
PAD
XCENTER
YCENTER
151
152
153
154
155
156
157
158
159
160
161
162
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
89.4
95.7
102.0
108.3
114.6
120.9
127.2
133.5
139.8
146.1
152.4
158.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-186.0
-170.3
-163.8
-157.5
-151.2
-144.9
-138.6
-132.3
-126.0
-119.7
-113.4
-107.1
-100.8
-94.5
-88.2
-81.9
-75.6
-69.3
-63.0
-56.7
-50.4
-44.1
-37.8
-31.5
-25.2
-18.9
-12.6
-6.3
0.0
6.3
12.6
18.9
25.2
31.5
37.8
44.1
50.4
56.7
NOTE: The die center is the coordinate origin (0,0).
Figure A-1
STANDARD
MICROCIRCUIT DRAWING
DEFENSE SUPPLY CENTER COLUMBUS
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DSCC FORM 2234
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REVISION LEVEL
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Appendix A
APPENDIX A FORMS A PART OF SMD 5962-98583
Die bonding pad locations and electrical functions
PAD
XCENTER
YCENTER
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
180.7
63.0
69.3
75.6
81.9
88.2
94.5
100.8
107.1
113.4
119.7
126.0
132.3
138.6
144.9
151.2
157.6
163.9
170.2
NOTE: The die center is the coordinate origin (0,0).
Figure A-1
STANDARD
MICROCIRCUIT DRAWING
DEFENSE SUPPLY CENTER COLUMBUS
COLUMBUS, OHIO 43216-5000
DSCC FORM 2234
APR 97
SIZE
5962-98583
A
REVISION LEVEL
C
SHEET
40
Appendix A
APPENDIX A FORMS A PART OF SMD 5962-98583
Figure A-1
STANDARD
MICROCIRCUIT DRAWING
DEFENSE SUPPLY CENTER COLUMBUS
COLUMBUS, OHIO 43216-5000
DSCC FORM 2234
APR 97
SIZE
5962-98583
A
REVISION LEVEL
C
SHEET
41
STANDARD MICROCIRCUIT DRAWING BULLETIN
DATE: 02-07-18
Approved sources of supply for SMD 5962-98583 are listed below for immediate acquisition information only and
shall be added to MIL-HDBK-103 and QML-38535 during the next revision. MIL-HDBK-103 and QML-38535 will be
revised to include the addition or deletion of sources. The vendors listed below have agreed to this drawing and a
certificate of compliance has been submitted to and accepted by DSCC-VA. This bulletin is superseded by the next
dated revision of MIL-HDBK-103 and QML-38535.
Standard
Microcircuit drawing
PIN 1/
Vendor
CAGE
Number
Vendor
Similar
PIN 2/
5962R9858301QXA
65342
UT80CRH196KD-WCA
5962R9858301QXC
65342
UT80CRH196KD-WCC
5962R9858301VXA
65342
UT80CRH196KD-WCA
5962R9858301VXC
65342
UT80CRH196KD-WCC
5962-9858301QXA
65342
UT80C196KD-WCA
5962-9858301QXC
65342
UT80C196KD-WCC
5962R9858301Q9A
65342
UT80CRH196KD_QCDIE
5962R9858301V9A
65342
UT80CRH196KD_VCDIE
5962R9858302QXA
65342
UT80CRH196KD-WWA
5962R9858302QXC
65342
UT80CRH196KD-WWC
5962R9858302VXA
65342
UT80CRH196KD-WWA
5962R9858302VXC
65342
UT80CRH196KD-WWC
5962-9858302QXA
65342
UT80C196KD-WWA
5962-9858302QXC
65342
UT80C196KD-WWC
5962R9858302Q9A
65342
UT80CRH196KD_QWDIE
5962R9858302V9A
65342
UT80CRH196KD_VWDIE
1 of 2
STANDARD MICROCIRCUIT DRAWING BULLETIN – Continued.
1/ The lead finish shown for each PIN representing
a hermetic package is the most readily available
from the manufacturer listed for that part. If the
desired lead finish is not listed contact the vendor
to determine its availability.
2/ Caution. Do not use this number for item
acquisition. Items acquired to this number may not
satisfy the performance requirements of this drawing.
Vendor CAGE
number
Vendor name
and address
65342
Aeroflex UTMC Microelectronic System Inc.
4350 Centennial Boulevard
Colorado Springs, Colorado 80907-3486
The information contained herein is disseminated for convenience only and the
Government assumes no liability whatsoever for any inaccuracies in the
information bulletin.
2 of 2