SVPL3R306SGNKE [VPT]
SPACE QUALIFIED POINT OF LOAD CONVERTERS;型号: | SVPL3R306SGNKE |
厂家: | VPT, Inc. |
描述: | SPACE QUALIFIED POINT OF LOAD CONVERTERS |
文件: | 总15页 (文件大小:1460K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
.
SVPL3R306SG SERIES
SPACE QUALIFIED POINT OF LOAD CONVERTERS
Models Available
Input: 3.1 V to 5.5 V
6 A output
Qualified to MIL-PRF-38534 Class H and Class K
SVPL Series DC-DC Converter
1.0 DESCRIPTION
1.2 SPACE LEVEL CHARACTERIZATIONS
The SVPL Series of space qualified point-of-load DC-DC
converters is specifically designed for the harsh radiation
environment of space applications. Performance is guaranteed
through the use of hardened semiconductor components and
analysis. The SVPL Series has been characterized for Total
Ionizing Dose (TID) performance including Enhanced Low Dose
Rate Sensitivity (ELDRS) and for Single Event Effects (SEE) per
VPT’s DLA-approved Radiation Hardness Assurance (RHA) plan
per MIL-PRF-38534, Appendix G, Level R.
• Total Ionizing Dose Performance
• High Dose Rate [50-300 rad(Si)/s] ≥ 100 krad(Si)
• Low Dose Rate [<10 mrad(Si)/s] ≥ 100 krad(Si)
• Single Event Effects Performance
• SEL, SEB, and SEGR LETTH ≥ 85 MeV-cm2/mg
• SEFI Threshold LETTH ≥ 42 MeV-cm2/mg
• SEFI X-section (LETEFF = 85 MeV-cm2/mg) ≤ 8.25x10-7 cm2
• SET fully characterized for cross section and magnitude
• Operation from -55 °C to +125 °C
• Worst-case analysis, stress, radiation, reliability reports available
The SVPL3R306SG is based on the Intersil ISL70001ASEH
radiation-hardened monolithic buck regulator. It is designed to
operate from a nominal 3.3 V or 5 V bus. The SVPL3R306SG
supplies low voltages at 6 A with high efficiency and fast
transient response, making it an ideal choice to supply point-of-
load applications such as high performance space processors.
1.3 MANUFACTURING AND COMPLIANCE
• Qualified to MIL-PRF-38534 Class H and Class K,
DLA SMD # 5962-17215
• MIL-PRF-38534 element evaluated components
• Manufactured in a MIL-PRF-38534 Class H and Class K facility
• MIL-STD-883
• ISO-9001
1.1 FEATURES
1.4 PACKAGING
• Operates from 3.1 – 5.5 V input
• Adjustable Output from 0.8 – 3.8 V
• Up to 6 Amps Output
• Low-profile: 1.110” x 1.110” x 0.276”
• Max weight: 21 g
• Precision seam-welded hermetic metal case
• Standard gullwing or optional straight-lead versions available
• High Efficiency, up to 95%
• High Power Density, up to 67 W/in3
• Output Enable Control
1.5 SIMILAR PRODUCTS AND ACCESSORIES
• Low Output Noise
• Over Current Protection
• SVGA0510S 10 A space qualified point of load DC-DC converter
• SVRGA0508S 8 A space qualified point of load DC-DC converter
• Custom versions available
• Bi-directional SYNC pin allows devices to be synchronized
180° out-of-phase
• Space qualified isolated DC-DC converters, 6 - 100 W
• EMI filters
Products and reports described in this datasheet are subject to all export license restrictions and regulations which may include but are not limited to ITAR
(International Traffic in Arms Regulations) and the Export Administration and Foreign Assets Control Regulations. Further restrictions may apply. Contact VPT
sales for details. VPT, its logo and tagline are registered trademarks in the U.S. Patent and Trademark Office. All other names, product names and trade names
may be trademarks or registered trademarks of their respective holders.
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SVPL3R306SG – 1.0
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Page 1
SVPL3R306SG Series
2.0 DIAGRAMS
2.1 BLOCK DIAGRAM
2.2 CONNECTION DIAGRAMS
1.
2.
Rtrim should be connected directly across pins 11 and 12 as close as possible to the SVPL.
AGND should be connected to GND close to the SVPL. Voltage difference between the AGND and the GND pins greater than 0.3 V may result in regulation error
and/or damage to the SVPL.
3.
4.
5.
6.
If not using EN, connect pin 7 to VIN.
If not synchronizing converters, use Master Mode Synchronization connections and leave pin 9 open.
If not using PGOOD, leave pin 10 open.
Rcomp and Ccomp are optional components that can be used to optimize the SVPL transient response.
3.0 SPECIFICATIONS
3.1 ABSOLUTE MAXIMUM RATINGS
Absolute Maximum Ratings
1
-0.3 V to 6.5 V
-0.3 V to Vin + 0.3 V
-0.3 V to 0.3 V
1B
Operating Temperature (Full Load):
Storage Temperature:
-55 °C to +125 °C
-65 °C to +150 °C
270 °C
VIN, PGOOD :
EN, M/S, SYNC
AGND
Lead Solder Temperature (10 seconds):
Solder Reflow Temperature (30 seconds):
ESD Rating per MIL-PRF-38534:
220 °C
1. Limited to 5.7 V for operation in a heavy ion environment at LET ≥ 85 MeV-cm2/mg and Tcase = 125 °C.
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SVPL3R306SG Series
1
3.2 PERFORMANCE SPECIFICATIONS
Tcase = -55 °C to +125 °C, Vin = +5 V ± 1% or 3.3 V ± 1%, Full Load, Unless Otherwise Specified
SVPL3R306SG
Parameter
Conditions
Min
Typ
Max
Units
INPUT
2
3.1
-
5.5
12
12
60
60
V
Voltage
Current
EN = GND, Vin = 5 V
-
-
-
-
5
4
45
25
mA
mA
mA
mA
EN = GND, Vin = 3.3 V
EN = Vin = 5 V, No Load
EN = Vin = 3.3 V, No Load
2
Undervoltage Lockout
2.65
0.09
2.8
2.95
0.26
V
V
Rising Threshold
2
0.175
Hysteresis
OUTPUT STATIC
Voltage
Tcase = 25 °C
Tcase = -55 °C to +125 °C
-1.0
-1.5
0
-
-
-
+1.0
+1.5
22.8
%Vout
%Vout
W
3
Power
Current
Ripple Voltage
Load Regulation
Load Fault Dissipation
OUTPUT DYNAMIC
Load Step, Half to Full Load, Vout = 3.3 V
0
-
15
0.03
-
6
30
+0.5
1
A
20 Hz to 10 MHz
-
-0.5
-
mVpp
%Vout
W
Vin = 5 V, Vout = 3.3 V
Output Transient
-
-
-
-
35
30
5
70
60
12
15
mV
µs
4
Recovery
Turn-On (Vin = 0 to 3.3 V or 5 V, EN = Vin)
Delay
Overshoot
ms
mVpk
0
FUNCTION
2
Rising Threshold
1.15
0.058
-
1.31
1.48
0.172
300
V
Enable (EN)
Hysteresis
EN Pin Current, EN = 5.5 V
Vin = 5V, M/S = GND
0.110
-
1
V
µA
MHz
SYNC Frequency Range
GENERAL
0.85
1.15
Efficiency
Vin = 5 V, Vout = 3.3 V, Iout = 6 A
87
92
-
-
%
3300
Vout
1.15
21
2
220
µF
Capacitive Load
Switching Frequency
Weight
MTBF (MIL-HDBK-217F)
M/S = Vin
Standard package option
SF @ Tcase = 55 °C
0.85
-
-
1
-
7.04
MHz
g
MHr
-
5
POST-RAD END-OF-LIFE LIMITS
OUTPUT Voltage
Tcase = -55 °C to +125 °C
-3.0
-
+3.0
%Vout
1. Performance specifications are guaranteed with 100 µF from VIN to GND and 220 µF from VOUT to GND
2. Verified by qualification testing
3. Dependent on output voltage
4. Time for output voltage to settle within 1% of steady-state value
5. End-of-Life performance includes aging and radiation degradation and is within standard limits except where noted
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SVPL3R306SG Series
4.0 PERFORMANCE CURVES
4.1.1 SVPL3R306SG Efficiency (Typical, 25 °C, Vin = 3.3 V)
4.1.2 SVPL3R306SG Efficiency (Typical, 25 °C, Vin = 5 V)
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SVPL3R306SG Series
5.0 MECHANICAL OUTLINES AND PINOUT
Standard Gullwing Package Option:
1. Tolerances are +0.005” unless otherwise stated
2. Case temperature is measured on the center of the baseplate surface
3. Materials: Case (Steel, gold over nickel plated); Cover (Steel, nickel plated); Pin (Copper-cored alloy 52, gold over nickel plated, 63/37 SnPb solder dipped);
Pin Seals (Glass)
Pin Function
Pin Function
Pin Function
Pin Function
1
2
3
4
5
VIN
6
GND
11
12
13
14
15
AGND
16
17
18
19
20
GND
VIN
7
EN
TRIM
VOUT
VOUT
VOUT
VOUT
VIN
8
M/S
+SENSE
GND
GND
GND
9
SYNC
PGOOD
10
GND
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SVPL3R306SG Series
5.0 MECHANICAL OUTLINES AND PINOUT (CONTINUED)
Optional Straight-Lead Package:
1. Tolerances are +0.005” unless otherwise stated
2. Case temperature is measured on the center of the baseplate surface
3. Materials: Case (Steel, gold over nickel plated); Cover (Steel, nickel plated); Pin (Copper-cored alloy 52, gold over nickel plated); Pin Seals (Glass)
4. Pins may have exposed nickel plating (not base metal) beyond the ceramic tie bars due to the plating process. No nickel plating is exposed between the tie bar and case.
Pin Function
Pin Function
Pin Function
Pin Function
1
2
3
4
5
VIN
6
GND
11
12
13
14
15
AGND
16
17
18
19
20
GND
VIN
7
EN
TRIM
VOUT
VOUT
VOUT
VOUT
VIN
8
M/S
+SENSE
GND
GND
GND
9
SYNC
PGOOD
10
GND
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SVPL3R306SG Series
6.0 TECHNICAL NOTES
Please note that many of these functions are also demonstrated in detail on the VPT website in the
form of technical video labs.
6.1 GENERAL INFORMATION
6.1.1 Topology Description
The SVPL3R306SG is a non-isolated, fixed-frequency, radiation-hardened, synchronous buck
converter based on the Intersil ISL70001ASEH. It is optimized for low voltage point-of-load (POL) applications. The SVPL3R306SG
operates from a 3.1 to 5.5 V input and provides a stepped-down, precisely regulated, programmable output voltage at high efficiency.
6.1.2 Source Impedance
The impedance of the 3.3 V or 5 V source can interact with the POL converter and impact performance. High source impedance is
often caused by a long input cable or other components added in series with the input. In some cases, additional input capacitance will
be needed to stabilize the system.
6.1.3 Case Connection
The SVPL3R306SG case is connected to GND at a single point inside of the package.
6.2 FUNCTION DESCRIPTIONS
6.2.1 Enable (EN)
The figure below demonstrates the enable circuit. Initially, Vcontrol is below the turn-on threshold (Vcontrol_enable), and the Ien current source
is active. As Vcontrol rises, the turn-on threshold is calculated as:
푅ꢀ + 푅푒푛
( )
] + 퐼푒푛 ∙ 푅ꢀ + 푅푒푛
푉
= 푉 ∙ [1 +
푐표푛푡푟표푙_푒푛푎푏푙푒
푟
푅2
After Vcontrol reaches Vcontrol_enable, Ien turns off. To disable the converter, drive Vcontrol below the turn-off threshold (Vcontrol_disable):
푅ꢀ + 푅푒푛
푉
= 푉 ∙ [1 +
]
푐표푛푡푟표푙_푑ꢁ푠푎푏푙푒
푟
푅2
The enable circuit hysteresis is:
= 푉
( )
= 퐼푒푛 ∙ 푅ꢀ + 푅푒푛
푐표푛푡푟표푙_푑ꢁ푠푎푏푙푒
푉
− 푉
푐표푛푡푟표푙_ℎ푦푠
푐표푛푡푟표푙_푒푛푎푏푙푒
When EN is driven directly from a low-resistance source, Ren can be assumed to be 0 Ω, and the limits from the Performance
Specifications table apply directly. To increase the turn-on threshold, add the appropriate Ren based on the equations above. If the
ability to disable the SVPL3R306SG is not necessary, connect EN to VIN. When EN is below its turn-on threshold, the internal power
MOSFETs are turned off, and the SVPL3R306SG power stage is in a high-impedance state.
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SVPL3R306SG Series
6.2.2 Power Good (PGOOD)
PGOOD is an open-drain output. It is pulled to GND when the output voltage is outside a ±11% regulation window. When the output
voltage is within ±11% of its set point, PGOOD will be released. The PGOOD pin can be pulled up through an external resistor to any
voltage from 0 to 5.5 V, independent of the input voltage. The external pull-up resistor should have a nominal value in the range of 1 kΩ
to 10 kΩ.
6.2.3 Synchronization (M/S and SYNC)
When multiple DC/DC converters are connected to a common input bus, differences in their switching frequencies may lead to undesired
beat frequencies at the common bus. The simplest way to mitigate beat frequency issues is to synchronize the POL converters.
To synchronize two or more SVPL3R306SG converters:
•
•
•
Connect the M/S pin of the master converter to VIN (SYNC will output pulses with magnitude of VIN and 50% duty cycle)
Connect the M/S pin of the slave converters to GND (SYNC will be configured as an input)
Connect the SYNC pins of the master and slave converters together
To synchronize to an external clock, connect M/S to GND and connect the clock output to SYNC. The clock signal’s low level must be
less than 1 V and its high level must be between 2.3 V and VIN to guarantee proper synchronization. Its duty cycle should be between
40 to 60%. If not synchronizing converters, connect M/S to VIN and leave SYNC open.
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SVPL3R306SG Series
6.2.4 Adjusting the Output Voltage (TRIM)
The output voltage of the converter is set with an external trim resistor connected from the TRIM pin to the AGND pin. Use the
equations or table below to choose the trim resistor value. Trim resistor tolerance of 0.1% is recommended to achieve an accurate
output voltage. The default output voltage with the TRIM pin left open is 0.8 V. The designer can adjust the output voltage from 0.8 V to
85% of the input voltage.
SVPL3R306SG
+Vout (V)
0.8
Rtrim (Ω)
Open
5.80k
2.80k
1.30k
657
0.9
1.0
600
푅푡푟ꢁ푚
=
− ꢈ00
+ 0.8
1.2
푉푂푈푇 − 0.8
1.5
1.8
400
2.0
300
600
2.5
153
푉푂푈푇
=
2.8
100
푅푇ꢄꢃ푀 + ꢈ00
3.0
72.7
40.0
14.3
0.0
3.3
3.6
3.8
6.2.5 Output Capacitors
While the SVPL3R306SG is stable without external output capacitance, a minimum of 220 µF is required to meet the Performance
Specifications from section 3.2. Output capacitors for point-of-load (POL) DC/DC converters should be chosen to meet output voltage
ripple and transient requirements. Meeting the transient response requirement is accomplished by making the output impedance of the
converter sufficiently small. Given the high control bandwidth of POL converters like the SVPL series, the peak output impedance is
typically dominated by the equivalent series resistance (ESR) of the bulk output capacitance. Therefore, the output capacitors should
be chosen to set a certain maximum total ESR. The total ESR is the parallel combination of the internal bulk capacitor’s ESR and that
of the added capacitors. Given the output voltage transient requirement, maximum load step, and the ESR of each bulk capacitor that
will be added, the number of added capacitors needed is calculated with the following equations:
Parameter Definition
Max VOUT transient allowed
Max load current step
ΔVOUT
ΔIOUT
∆푉푂푈푇
∆퐼푂푈푇
퐸푆푅푇푂푇퐴퐿
=
=
Total combined parallel ESR, including internal
and added capacitors
ESRTOTAL
퐸푆푅푇푂푇퐴퐿 ∗ 퐸푆푅ꢃ푁푇ꢂꢄ푁퐴퐿
퐸푆푅ꢃ푁푇ꢂꢄ푁퐴퐿 − 퐸푆푅푇푂푇퐴퐿
퐸푆푅퐴퐷퐷ꢂ퐷
Combined parallel ESR of the added capacitors
ESRADDED
ESRINTERNAL
ESR of the internal bulk capacitor
퐸푆푅ꢂ퐴퐶퐻
(43.7mΩ max under worst-case conditions)
ꢅ =
퐸푆푅퐴퐷퐷ꢂ퐷
ESR of each of the added capacitors
Number of added capacitors
ESREACH
N
Make sure that the added capacitance does not violate the maximum allowed output capacitance using the following equation:
3300µ퐹
ꢆ푂푈푇ꢇ푀퐴푋
=
푉푂푈푇
For example, assume that VOUT is 1.5 V, the maximum output transient allowed is 37.5 mV, and the load step is 3 A. Assume the output
capacitors being used are 330 µF and have a maximum ESR of 50mΩ each.
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SVPL3R306SG Series
∆푉푂푈푇
∆퐼푂푈푇
37.5ꢉ푉
3ꢊ
퐸푆푅푇푂푇퐴퐿
=
=
=
= 1ꢈ.5ꢉ훺
퐸푆푅푇푂푇퐴퐿 ∗ 퐸푆푅ꢃ푁푇ꢂꢄ푁퐴퐿
퐸푆푅ꢃ푁푇ꢂꢄ푁퐴퐿 − 퐸푆푅푇푂푇퐴퐿
1ꢈ.5ꢉ훺 ∗ 43.7ꢉ훺
43.7ꢉ훺 − 1ꢈ.5ꢉ훺
퐸푆푅퐴퐷퐷ꢂ퐷
=
= 17.5ꢉ훺
퐸푆푅ꢂ퐴퐶퐻
50ꢉ훺
ꢅ =
=
= ꢈ.86 → 푢ꢋꢌ 3 ꢍ푢ꢎ푝푢ꢎ ꢏꢐ푝ꢐꢏ푖ꢎꢍꢑꢋ
퐸푆푅퐴퐷퐷ꢂ퐷 17.5ꢉ훺
3300µ퐹 3300µ퐹
ꢆ푂푈푇ꢇ푀퐴푋
=
=
= ꢈꢈ00µ퐹
푉푂푈푇
1.5
In the example, 3x 330 µF/50 mΩ capacitors are needed. This is a total capacitance of 990 µF, which is well below the 2200 µF
maximum allowed.
The output voltage ripple can be evaluated through simulation using the circuit below. This circuit incorporates worst-case conditions
that include the effects of component tolerances, temperature extremes (-55 °C to 125 °C), radiation (100 krad), and aging (10 year
mission). Note that the resistor shown in series with the inductor includes the resistance of the inductor and ISL70001A power FETs.
The pulsed voltage source should have a peak voltage equal to the input voltage and the minimum switching frequency (850 kHz) to
evaluate the worst-case ripple. The duty cycle should be adjusted to attain the correct output voltage.
6.2.6 Input Capacitors
A minimum of 100 µF of input capacitance should be added between VIN and GND to maintain the input voltage during transient
conditions. The SVPL3R306SG has been designed with enough internal ceramic input capacitance to minimize the current stress
through the added capacitors. For capacitances greater than 100 µF, their RMS current will be determined primarily by their combined
ESR. The left-hand graph below shows the total RMS current through the added input capacitors assuming worst-case conditions for
load current, internal capacitance, switching frequency, input voltage, and output voltage. If multiple capacitors are added, then the
RMS current will divide between them. The right-hand graph shows the power dissipation in the added input capacitors. Note that the
RMS currents and maximum power dissipation under worst-case conditions are low enough that any practical input capacitors added
are expected to have large margins over their ratings.
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SVPL3R306SG Series
6.3 PROTECTION FEATURES
6.3.1 Input Undervoltage Lockout
The SVPL3R306SG Series provides input undervoltage lockout (UVLO) protection. For input voltages below the turn-on voltage, the
converter will remain off. The internal power MOSFETs will be turned off, and the SVPL3R306SG power stage will be in a
high-impedance state. When the input voltage exceeds the turn-on voltage, the converter will start. For input voltages above the UVLO
turn-off voltage but below the operating range of the converter, the converter may reach its maximum duty cycle and the output may be
out of regulation.
6.3.2 Output Soft-Start
The SVPL3R306SG Series utilizes an output soft-start function to ramp the output in a controlled manner, eliminating output voltage
overshoot and limiting inrush current at turn on. A voltage mode soft-start ensures the output waveform remains consistent regardless
of changes in the load current. The output rise time is approximately 4 ms. The soft-start function is active whether the module is
turned on with an application of input voltage or from driving EN high. The turn-on delay time is specified from the application of input
voltage (or application of EN) until the output reaches 90% of its final value.
6.3.3 Output Short Circuit Protection
The SVPL3R306SG Series provides hiccup-mode output short-circuit protection. When a sustained high peak current is detected, the
converter will shut down. After a delay, the converter will attempt a soft-start. This sequence will continue until the fault is removed,
allowing the converter to soft-start and resume normal operation.
6.4 THERMAL CONSIDERATIONS
The SVPL3R306SG is rated for full power operation at 125 °C. Above 125 °C, the output power must be derated linearly from full power
at 125 °C to zero power at 135 °C. The operating temperature of the converter is specified on the baseplate of the converter. The
converter is designed to be conduction-cooled, with the baseplate mounted to a heat sink, chassis, PCB, or other thermal surface. The
internal power-dissipating components are mounted to the baseplate of the converter and all heat flow is through the baseplate. The lid
of the converter does not provide a good thermal path.
The maximum temperature rise from junction to case is 10 °C at full load.
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6.5 VPT RHA PLAN AND APPROACH
VPT takes a conservative approach to radiation testing to ensure product performance during space travel. VPT’s DLA approved
Radiation Hardness Assurance (RHA) plan documents VPT’s processes and procedures for guaranteeing the performance of VPT
products under various environmental conditions in space, including TID, SEE, and ELDRS.
Documents Available
Details
The radiation environments covered by this overview include: total ionizing dose (TID), which
includes enhanced low dose rate sensitivity (ELDRS); displacement damage (DD); and single
event effects (SEE).
DLA approved Radiation Hardness Assurance (RHA) Plan Summary
Worst-Case Analysis Report
Stress Report
Detailed worst-case analysis guarantees circuit performance post radiation and end of life.
Individual component stress analysis and deratings are included as part of the WCA report.
An overview report on the component level RLAT and characterization testing for TID and DD
as well as the hybrid level characterizations for TID and SEE response.
Radiation Test Summary Report
Reliability Report
MTBF report based on MIL-HDBK-217 reliability calculations.
Component temperature rise analysis and measurement results.
Thermal Analysis Report
Test Definition
VPT’s Approach
Total Ionizing Dose (TID). A measure of the energy absorbed in the
semiconductor components from the naturally occurring sources of
radiation (protons, electrons, photons). This results in the slow
degradation of semiconductor performance specifications. TID is tested
by exposing components to gamma radiation from a Cobalt-60 source.
Designed for 100 krad(Si). Sensitive semiconductor components undergo RLAT to 100
krad(Si) per MIL-STD-883 Method 1019. Converters are characterized to 100 krad(Si).
Enhanced Low Dose Rate Sensitivity (ELDRS): Many linear-bipolar
integrated circuits show enhanced parameter degradation when exposed
at low dose rates close to those seen in a space environment as
compared to the high dose rates (50-300 rad(Si)/s) that components were
traditionally tested at for TID degradation. MIL-STD-883 Method 1019
gives guidance for characterizing components for ELDRS. Components
that exhibit ELDRS are tested for TID at a rate below 0.01 rad(Si)/s.
All bipolar linear ICs are verified to be ELDRS free in accordance with MIL-STD-883 test
method 1019 section 3.13
Single Event Effects (SEE). Single high energy protons and heavy ions
can deposit sufficient energy in a semiconductor component, causing a
range of effects. SEEs include single event latchups (SELs), single event
gate ruptures (SEGRs), single event transients (SETs), single event
functional interrupts (SEFIs) and single event burnouts (SEBs).
Converters are characterized for catastrophic events (SEL, SEB, SEGR) as well as functional
interrupts (SEFI) under heavy ion exposure to LET = 85 MeV-cm2/mg. Converters are also
characterized for cross section and magnitude of output transients (SET) for at least 3
different LET levels.
Displacement Damage (DD) is caused by protons and neutrons. Particles
displace atoms in the bulk silicon crystal structure. DD leads to a
darkening of optics and gradual degradation of performance. DD is tested
at the component level with a neutron source.
Optoisolators are not used. The sensitive semiconductor component is characterized by the
manufacturer for DD performance to 1x1012 n/cm2.
Radiation Lot Acceptance Testing (RLAT): Semiconductor wafer lots are
exposed to TID or neutron radiation on a sample basis. If the parameter
degradation for the tested samples is within the predetermined
acceptance limits, then the lot can be used in radiation hardened
converters.
Sensitive semiconductor component undergoes RLAT for TID.
Sales Information
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Fax: (425) 353-4030
Web: www.vptpower.com
SVPL3R306SG - 1.0
Page 12
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SVPL3R306SG Series
7.0 ENVIRONMENTAL SCREENING
100% tested per MIL-STD-883 as referenced to MIL-PRF-38534.
Contact sales for more information concerning additional environmental screening and testing options. VPT Inc. reserves the right to
ship higher screened or SMD products to meet orders for lower screening levels at our sole discretion unless specifically forbidden by
customer contract.
/EM
/H+
/K
(Engineering Model)
Non-QML1,6
MIL-STD-883 Test
Method, Condition
Test
(Class H + PIND)
(Class K)
Non-Destructive
Bond Pull
2
2
TM2023
●
●
●
●
●
TM2010, TM2017, TM2032
(MIL-STD-750, TM2072,
TM2073)
Internal Visual
●
●
TM1010, Condition C
-65 °C to 150 °C, Ambient
Temperature
Cycling
●
●
Constant
Acceleration
TM2001, 3000g, Y1
Direction
●
●
●
3
2
TM2020, Condition A
25 °C
PIND
●
Pre Burn-In
Electrical
TM1015, 320 hrs.,
125 °C, Case Typ
●
TM1015, 160 hrs.,
125 °C, Case Typ
Burn-In
●
●
24 hrs., 125 °C, Case Typ
●
●
MIL-PRF-38534, Group A
Subgroups 1-6
●
4
-55 °C, 25 °C, 125 °C
Final Electrical
MIL-PRF-38534, Group A
Subgroups 1 and 4
25 °C
TM1014, Fine Leak,
Condition A2 or B1
●
●
●
●
Hermeticity
(Seal)
TM1014, Gross Leak,
Condition C1 or B2
Gross Leak, Dip (1x10-3)
TM2012
●
●
5
●
●
Radiography
External Visual
TM2009
●
1. Non-QML products may not meet all requirements of MIL-PRF-38534
2. Not required per MIL-PRF-38534. Test performed for additional product quality assurance
3. PIND test Certificate of Compliance included in product shipment
4. 100% R&R testing with all test data included in product shipment
5. Radiographic test Certificate of Compliance and film(s) or data CD included in product shipment
6. Engineering models utilize only the screening specified and are not considered compliant for flight use
Sales Information
Phone:(425) 353-3010
Fax: (425) 353-4030
SVPL3R306SG - 1.0
Page 13
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SVPL3R306SG Series
8.0 STANDARD MICROCIRCUIT DRAWING (SMD) NUMBERS
Standard Microcircuit SVPL3R306SG Series
Drawing Number Similar Part Number
5962R1721501HYC
5962R1721501HXA
5962R1721501KYC
5962R1721501KXA
SVPL3R306SGN/H+
SVPL3R306SG/H+-E
SVPL3R306SGN/K
SVPL3R306SG/K-E
Do not use the SVPL3R306SG Series similar part number for SMD product acquisition. It is listed for reference only. For exact
specifications of the SMD product, refer to the SMD drawing. SMDs can be downloaded from the DLA Land and Maritime (Previously
known as DSCC) website at https://landandmaritimeapps.dla.mil/programs/defaultapps.asp. The SMD numbers listed above represents
the Federal Stock Class, Device Type, Device Class Designator, Case Outline, Lead Finish and RHA Designator (where applicable).
Please reference the SMD for other screening levels, lead finishes, and radiation levels. All SMD products are marked with a “Q” on the
cover as specified by the QML certification mark requirement of MIL-PRF-38534.
9.0 ORDERING INFORMATION
SVPL
3R3
06
S
G
/K
-
E
1
2
3
4
5
6
7
8
(1)
Product
Series
(2)
Nominal
Input
(3)
Output
Current
(4)
Number
of
(5)
Package
Option
(6)
(7)
(8)
Package Lead Screening Code1,2,3
Option4
Additional
Screening Code4
Voltage
Outputs
SVPL
3R3 3.3 Volts
06 6 Amps
S
Single
G
Gullwing
None
N
Formed
Straight
/EM Engineering Model
/H+ Class H + PIND
/K Class K
E
Solder Dipped
Contact Sales for
additional options
1
2
Contact the VPT Sales Department for availability of Class H (/H) or Class K (/K) qualified products
VPT Inc. reserves the right to ship higher screened or SMD products to meet lower screened orders at our sole discretion unless specifically forbidden by customer
contract
3
Engineering models utilize only the standard screening specified and are not considered compliant for flight use. These models are intended for low volume engineering
characterization only and have no guarantee regarding operation in a radiation environment. The customer must place the following statement on each line item of their
purchase order(s) for /EM units when ordering engineering models:
“(Customer Name) acknowledges that the /EM unit listed in this line item is not permitted for flight use and will be used for Engineering characterization only.”
4
When selecting Package Lead Option “Formed”, Additional Screening Code “-E” (solder dipped leads) must also be applied. When selecting Package Lead Option
“Straight”, Additional Screening Code “-E” should not be applied.
Please contact your sales representative or the VPT Inc. Sales Department for more information concerning additional environmental
screening and testing, different input voltage, output voltage, power requirements, source inspection, and/or special element evaluation
for space or other higher quality applications.
Sales Information
Phone:(425) 353-3010
Fax: (425) 353-4030
SVPL3R306SG - 1.0
Page 14
E-mail: vptsales@vptpower.com
Web: www.vptpower.com
SVPL3R306SG Series
10.0 CONTACT INFORMATION
To request a quotation or place orders please contact your sales representative or the VPT, Inc. Sales Department at:
Phone:
Fax:
(425) 353-3010
(425) 353-4030
E-mail:
vptsales@vptpower.com
All information contained in this datasheet is believed to be accurate, however, no responsibility is assumed for possible errors or
omissions. The products or specifications contained herein are subject to change without notice.
11.0 ADDITIONAL INFORMATION
Visit the VPT website for additional technical resources, including:
Product Catalogs
Application Notes and White Papers
Technical Video Labs
Additional Products For Avionics/Military,
Hi-Rel COTS, and Space Applications
Sales Information
Phone:(425) 353-3010
Fax: (425) 353-4030
SVPL3R306SG - 1.0
Page 15
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Web: www.vptpower.com
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