Indicates performance and reliability requirements. "B" level represents standard reliability."T" level represents high reliability.
Please refer to performance specification sheet MIL-PRF-49470 for details regarding test levels. The latest revision of the specification sheet is available through DSCC.
1, 3
Test level option "T" is not available on encapsulated stacked devices (i.e. MIL-PRF-49470/2).
2
Dielectric classification and characteristic details are outlined in the "Electrical Parameters" section of this document.
4
Lead configuration and dimension details are outlined in the "Dimensions" section of this document.
1
1
KPS MIL Series, SMPS Stacks Ordering Information
(Do not use this ordering code if a QPL MIL-SPEC part type is required. Please order using MIL-SPEC ordering code. Details
regarding MIL-PRF-49470 QPL ordering information is outlined above.)
L1
1
R
N
30
C
106
K
S
Testing Option
4
12
Maximum Height
Dimension (in.)
5
Dielectric
Lead
Product Family Classification/
Configuration
3
Characteristic
2
L1 =
Unencapsulated
L2 =
Encapsulated
Q = BQ
R = BR
X = BX
W = X7R
N = Straight
L = Formed "L"
M= Formed "L"
J= Formed "J"
K= Formed "J"
Case Size /
Rated
Capacitance Capacitance
Case Code
Voltage (DC) Code (pF)
Tolerance
(CC)
30 = CC 3
40 = CC 4
50 = CC 5
3 = 25V 2 Sig. Digits J = ±5%
5 = 50V + Number of K = ±10%
1 = 100V
Zeros
M = ±20%
2 = 200V
C = 500V
B = 630V
D = 1000V
B = M49470 "B" Level Unencapsulated Encapsulated
T = M49470 "T" Level
12 = 0.12"
27 = 0.27"
C = DSCC87106
24 = 0.24"
39 = 0.39"
S = Commercial
36 = 0.36"
53 = 0.53"
X = Non-Standard
48 = 0.48"
66 = 0.66"
(Customer Specific
65 = 0.65"
80 = 0.80"
Requirements)
,
Test level option "T" is not available on encapsulated stacked devices, i.e., MIL-PRF-49470/2. If a QPL MIL-Spec part type is required, please order using the
MIL-Spec ordering code.
2
Dielectric classification and characteristic details are outlined in the ""Electrical Parameters"" section of this document.
3
Lead configuration and dimension details are outlined in the "Dimensions" section of this document. Additional lead configurations may be available. Contact
KEMET for details.
4
Indicates performance and reliability requirements. Testing option details are outlined in the "Performance and Reliability" section of this document.
4
Please refer to performance specification sheet MIL-PRF-49470 for additional details regarding test levels. The latest revision of the specification sheet is
available through DSCC.
4
DSCC Drawing 87106 was cancelled on 01/03/2005. MIL-PRF-49470 capacitors are preferred over DSCC Drawing 87106 capacitors.
5
Maximum height dimensions are provided in product tables 1A, 1B, and 1C of this document
1
4
Ordering Information Requirements per DSCC Drawing 87106
DSCC Drawing 87106 was cancelled on 01/03/2005. Customers can continue to order per 87106 requirements using the original DSCC ordering code,i.e., 87106-001.
When available, MIL-PRF-49470 devices are preferred over DSCC Drawing 87106. The MIL-PRF-49470 military specification product provides additional quality
assurance provisions that are not required by the DSCC drawing. These extra provisions create a more robust replacement.
1. Unless otherwise specified, tolerances are ±.010" (0.25mm).
2. Metric equivalents for C, D and E dimensions are provided for general information only.
3. For maximum B dimension, add .065" (1.65mm) to the appropriate A dimension. For all lead styles, the number of chips is determined by the capacitance and
voltage rating.
4. For case code 5, dimensions shall be .100" (2.54mm) maximum and .012” (0.30mm) minimum.
5. Lead alignment within pin rows shall be within ±.005" (0.13mm).
Unencapsulated & Encapsulated Lead Configurations – Inches (Millimeters)
Lead Style
Symbol
N
L
M
J
K
(J) Formed
Lead Style
(N) Straight
(L) Formed
L
Lead Length
0.250 Min. (6.35)
0.070 ± 0.010 (1.78 ± 0.25)
0.045 ± 0.010 (1.14 ± 0.25)
0.070 ± 0.010 (1.78 ± 0.25)
0.045 ± 0.010 (1.14 ± 0.25)
Additional lead configurations may be available. Contact KEMET for details.
Job requirements for hardware engineers: 1. Electronic engineering background. 2. Proficient in using tools such as PROTEL99 and CADENCE to design circuit diagrams and circuit boards, and the ability ...
Problem description: I wrote a program for a 4*4 keypad. There is no problem with the hardware. There is just a problem with the input key value. For example, after pressing "1", the digital tube disp...
Boosting the electric era, explore the three major product technologies of electric vehicles with InfineonClick here to enter the eventResearch shows that by 2035, the annual sales of energy-saving ve...
Laird Thermal Systems has introduced the HiTemp ET series Peltier cooler modules, which can operate at high temperatures and provide on-site cooling for sensitive electronic devices.
Dig...[Details]
There are basically three causes of spontaneous combustion of electric vehicles: The first is that the battery components are punctured or suffer fatal damage due to a collision accident, and part ...[Details]
Keysight Technologies is combining its electromagnetic simulator with Synopsys' AI-driven RF design migration flow to create an integrated design flow for migrating from TSMC's N6RF+ process techno...[Details]
1. Multi-channel DAC technology bottleneck
Currently,
the development of multi-channel DAC technology focuses on two core challenges.
First, industrial applications urgently ...[Details]
Plessey Semiconductors has been acquired by Haylo Labs, which was established in March last year with a $100 million, five-year loan from Chinese technology company Goertek.
Haylo Labs w...[Details]
A pure sine wave inverter has a good output waveform with very low distortion, and its output waveform is essentially the same as the AC waveform of the mains power grid. In fact, the AC power prov...[Details]
With the gradual popularization of new energy vehicles in recent years, more and more people have been able to access and purchase electric vehicles. The structure of electric vehicles is composed ...[Details]
New version helps developers build secure and trustworthy embedded systems
Shanghai, China—August 21, 2025—
QNX, a division of BlackBerry Ltd., today announced the release of QNX...[Details]
Introduction: In digital circuit calculations, there is no concept of decimal points. You know where the decimal is, but the circuit does not know where the decimal point is. Therefore, you need to...[Details]
introduction
A common voltage regulator is a three-terminal one. Its function is to step down the voltage and stabilize it at a fixed output value. Voltage regulators are commonly available in...[Details]
The automotive driveshaft is a crucial connecting component in the automotive mechanical system. It is a circular component that allows for connection or assembly, as well as movement and rotation....[Details]
As in-vehicle audio and video entertainment features become increasingly diverse, the demand for digital transmission of audio and video information is urgent. Traditional protocols such as IEEE 13...[Details]
The power battery is a crucial component for vehicles, determining its lifespan and range. According to national regulations, when the capacity of an electric vehicle's power battery drops below 80...[Details]
Mr. Wang, a BYD owner, recently experienced a "5-minute charge" at a highway service area, boasting a 400-kilometer range. He marveled at the rapid evolution of new energy technol...[Details]
Why does the xenon lamp not light up?
There are many reasons why a xenon lamp might not light up. Poor contact, a damaged component, or a blown bulb are all possible reasons. This requires a l...[Details]
Embedded System
京公网安备 11010802033920号
EEWORLD
