MQPI-18

Quiet-Power®
MQPI-18
M-Grade
28 Volt input, 7 Amp M-Grade EMI Filter Module
Product Description
Applications
The MQPI-18 attenuates conducted common-mode (CM)
and differential-mode (DM) noise for DC-DC converters
including the VI Chip MIL PRM to comply with MIL-STD-461F
EMI requirements for conducted noise measurements.
The filter operates within the full input operating range
of a 28 V MIL PRM and supports 7 A loads up to 85°C (TA)
without de-rating.
• Rugged Environment
• Displays
• Wireless Communications
Assembly Process Compatibility
• Designed for Pb solder SMT assembly
Features
• Compatible with typical aqueous cleaning processes
• 50 Vin max. input
(MQPI-18LP-01, open-frame only)
• Compatible with most conformal coating compounds
(MQPI-18LP-01, open-frame only, after reflow)
• Compatible to most industry standard DC-DC converters
•
•
•
•
•
•
•
•
•
including VI Chip MIL PRM
MIL-STD-461F compliant[a] CE101, CE102, CS101, CS106,
CS114, CS115, and CS116
100 Vdc surge, 100 ms
1,500 Vdc hipot hold-off to shield plane
7 A rating
12.9 x 25.3 x 5.0 mm, lidded SiP (System-in-Package)
12.4 x 24.9 x 4.2 mm, open-frame
-55° to +125°C PCB temperature (see Figure 4)
Efficiency >99%
Pb solder construction
MQPI-18LP (~1/2 in2 area)
Typical Application
VTM
PRM
BUS+
+BUS
CB1
+QPI
Chassis/Shield
+IN
+OUT
+IN
+OUT
–IN
–OUT
–IN
–OUT
LOAD
+
+
–BUS
BUS–
L
CIN
–QPI
Shield
CY1
CY2
Optional Chassis
Connection
CY3
Shield Plane
Figure 1 — Typical MQPI-18 application schematic with Vicor’s MP028 PRM and MV036 VTM modules. [b]
[a]
[b]
When combined with MP028 PRMs and MV036 VTMs.
CB1 capacitor, referenced in all schematics, is a 47 uF electrolytic; United Chemi-Con EMVE101ARA470MKE0S or equivalent.
CY1 to CY4, referenced in all schematics, are 4.7 nF hi-voltage safety capacitors; Vishay VY1472M63Y5UQ63V0 or equivalent.
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CY4
MQPI-18
Order Information
Part Number
Description
MQPI-18LP
MQPI-18LP-01
MQPI-18 LGA package
MQPI-18 LGA package, open-frame package
Also Available
MQPI-18-CB1
A MQPI-18LP mounted on a carrier board that can be paired with PRM/VTM and Cool-Power® evaluation boards available from Vicor.
Absolute Maximum Ratings
Exceeding these parameters may result in permanent damage to the product.
Name
Rating
Input voltage, BUS+ to BUS-, continuous
-50 to 50 Vdc
Input voltage, BUS+ to BUS-, 100 ms transient
-100 to 100 Vdc
BUS+/ BUS- to Shield pads, hipot
-750 to 750 Vdc
Input to output current, continuous @ 25°C TA
7 Adc
Power dissipation, @ 85°C TA, 7 A [c]
1.85 W
Operating temperature - TA
-55 to 125°C
Thermal resistance[c] - RθJ-A, using PCB layout in Figure 12
30°C/W
Thermal resistance[c] - RθJ-PCB
18°C/W
Storage temperature, JEDEC Standard J-STD-033B
-55 to 125°C
Reflow temperature, 20 s exposure
245°C
ESD, Human Body Model (HBM)
-2000 to 2000 V
Electrical Characteristics
Parameter limits apply over the operating temp. range, unless otherwise noted.
Parameter
Input range
Voltage drop
Voltage drop
Common-mode attenuation
Differential-mode attenuation
Input bias current at 50 V
[c]
Symbol
BUS+ to BUSBUS+ to QPI+
BUS- to QPI-
Conditions
Measured at 7 A, 85°C ambient temperature [c]
Measured at 7 A, 85°C ambient temperature [c])
Measured at 7 A, 85°C ambient temperature [c]
VBUS = 28 V, frequency = 1.0 MHz, line impedance = 50 Ω
VBUS = 28 V, frequency = 1.0 MHz, line impedance = 50 Ω
Input current from BUS+ to BUS-
See Figure 4 for the current de-rating curve.
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Min
Typ
Max
Unit
50
130
130
Vdc
mVdc
mVdc
dB
dB
uA
45
75
10
MQPI-18
Pad Descriptions
Pin Name
Name
Description
8, 9
BUS+
Positive bus potential
1, 10
BUS-
Negative bus potential
6, 7
QPI+
Positive input to the converter
4, 5
QPI-
Negative input to the converter
2, 3
Shield
Shield connects to the system chassis or to a safety ground
BUS+
9
BUS–
10
BUS+
QPI+
8
7
1
2
3
4
BUS–
Shield
Shield
QPI–
6
QPI+
5
QPI–
LGA Pattern (Top View)
Applications Information
The MQPI-18 was designed specifically to work with Vicor’s MIL PRM (MP028) and VTM (MV036) series of VI Chip® Factorized Power Architecture™ (FPA™)
converters to achieve compliance with the MIL-STD 461F standard.
MIL-STD 461F Test Results
CS101
Conducted susceptibility, power
Leads Passed
CS106
Conducted susceptibility, transients, power leads
Passed
CS114
Bulk cable injection, radio frequency
Passed, 100% load (Figure 4)
CS114
Bulk cable injection, radio frequency
Passed, 78% load (Figure 5)
CS115
Bulk cable injection, radio frequency
Passed
CS116
Damped sinusoid transients
Passed
CS116
Damped sinusoid transients
Passed
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MQPI-18
CE101 EMI Plots: 108 Watt Load
Det
Att 10 dB
120
MA Trd
ResBW
INPUT 2
100 Hz
CP9207-1
Det
100 Hz
Meas T
Att 10 dB
20 ms Unit
1 kHz
dB A
120
10 kHz
110
MA Trd
ResBW
INPUT 2
100 Hz
CP9207-1
100 Hz
Meas T
20 ms Unit
1 kHz
dB A
10 kHz
110
SGL
100 CE101-42
SGL
100 CE101-42
90
1MA
90
80
80
70
70
60
60
50
50
40
40
30
30
20
20
10
1MA
10
21.Oct 2009 16:33
0
10 kHz
Date:
21.OCT.2009
21.Oct 2009 16:50
0
30 Hz
30 Hz
16:33:12
10 kHz
Date:
21.OCT.2009
16:50:50
Figure 2 — CE101 EMI plots of the MP028F036M12AL and MV036F120M010, filtered with the MQPI-18LP, + (RED) and –(BLK) leads
CE102 EMI Plots: 108 Watt Load
Det
Att 10 dB
ResBW
INPUT 2
120
Meas T
100 kHz
MA Trd
Det
CE102RED
Att 10 dB
10 kHz
20 ms Unit
1 MHz
ResBW
INPUT 2
dB V
120
10 MHz
110
Meas T
100 kHz
MA Trd
CE102BLK
10 kHz
20 ms Unit
1 MHz
dB V
10 MHz
110
SGL
100
SGL
100
90 CE10228
1MA
90 CE10228
80
80
70
70
60
60
50
50
40
40
30
30
20
20
10
1MA
10
20.Oct 2009 14:22
0
20.Oct 2009 14:30
0
10 kHz
Date:
10 MHz
20.OCT.2009
14:22:54
10 kHz
Date:
10 MHz
20.OCT.2009
14:30:27
Figure 3 — CE102 EMI plots of the MP028F036M12AL and MV036F120M010, filtered with the MQPI-18LP, + (RED) and –(BLK) leads
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MQPI-18
Current De-Rating
8.00
limited
by
TPCBMAX
7.00
=125°C
6.00
Load Current (A)
5.00
limited
by
TJMAX
4.00
=140°C
3.00
2.00
1.00
0.00
-40
-15
10
35
MQPI-18LP-01
60
MQPI-18LP
85
110
Ambient Temperature (°C)
Figure 4 — Current de-rating over ambient temperature range
MQPI-18 Insertion Loss Measurements
90
80
70
Attenuation (dB)
60
50
40
30
20
10
0
0.1
1
Frequency (MHz)
10
MQPI-18 Differential
Figure 5 — Attenuation curves into a 50 Ω line impedance, bias from a 48 V bus
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MQPI-18 Common
MQPI-18
MQPI Insertion Loss Test Circuits
IP RO BE
IN
BU S
47uF
BUS+
QPI+
LO A D
LISN
C hassis
C S IG
INA
INB
SIG
50 0
V BU S
BUS-
QPI-
SIG
Shield
IN
BU S
LISN
C hassis
IP RO BE
SIG
Figure 6 — Test set-up to measure differential-mode EMI currents in Figure 4
BU S
IN
47uF
BUS+
QPI+
LISN
IP RO BE
LO A D
C hassis
SIG
IN A
V BU S
BUS-
QPIShield
IN B
C S IG
SIG
BU S
IN
LISN
C hassis
50 0
SIG
IP RO BE
Figure 7 — Test set-up to measure common-mode EMI currents in Figure 4
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MQPI-18
Mechanical Package Drawings
0.006" [0.15mm] max.
0.006" [0.15mm] max.
MQPI-18LP
0.508" [12.903 mm]
U.S. and Foreign Patents/Patents Pending
Lot #
Date Code
Pin 1 indicator
0.996" [25.298 mm]
0.196" [4.978 mm]
Figure 8 — Bottom view of open-frame (OF) and lidded (LID) products.
0.006" [0.15mm] max.
0.489" [12.421 mm]
0.006" [0.15mm] max.
18LP-01
0.330 [8.382 mm]
0.979" [24.867 mm]
0.164" [4.166 mm]
Figure 9 — Recommended receptor and stencil patterns.
Datum
Units
MQPI-18LP
MQPI-18LP-01
Notes
FITS
failure/billion hrs.
16
16
FITS based on the BellCore Standard TR-332
MTBF
million hrs.
62.5
62.5
MTBFs based on the BellCore Standard TR-332
Weight
grams
2.4
2.075
3
3
245
245
MSL
Peak Reflow Temperature
°C/20 seconds
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IPC/JEDEC J-STD-020D
MQPI-18
Pad and Stencil Definitions
Figure 10 — Bottom view of open-frame (OF) and lidded (LID) products. (All dimensions are in inches)
Figure 11 — Recommended receptor and stencil patterns. (All dimensions are in inches)
Stencil definition is based on a 6 mil stencil thickness, 80% of LGA pad area coverage. LGA package dimensions are for both the open-frame and lidded
versions of the MQPI-18.
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MQPI-18
MQPI-18 PCB Layout Recommendations
Figure 12 — 3D view of paralleling planes underneath the MQPI-18
The filtering performance of the MQPI-18 is sensitive to capacitive
coupling between its input and output pins. Parasitic plane
capacitance must be kept below one pico-Farad between inputs and
outputs using the layout shown above and the recommendations
described below to achieve maximum conducted EMI performance.
the recommended PCB layout on a two-layer board. Here, the top
layer planes are duplicated on the bottom layer so that there can be
no overlapping of input and output planes. This method can be used
for boards of greater layer count.
To avoid capacitive coupling between input and output pins, there
should not be any planes or large traces that run under both input
and output pins, such as a ground plane or power plane. For
example, if there are two signal planes or large traces where one
trace runs under the input pins, and the other under the output pins,
and both planes overlap in another area, they will cause capacitive
coupling between input and output pins. Also, planes that run under
both input and outputs pins, but do not cross, can cause capacitive
coupling if they are capacitively by-passed together. Figure 11 shows
Post Solder Cleaning
Picor’s MQPI-18LP SiPs are not hermetically sealed and must not be
exposed to liquid, including but not limited to cleaning solvents,
aqueous washing solutions or pressurized sprays. When soldering, it
is recommended that no-clean flux solder be used, as this will ensure
that potentially corrosive mobile ions will not remain on, around, or
under the module following the soldering process. For applications
where the end product must be cleaned in a liquid solvent, Picor
recommends using the MQPI-18LP-01, open-frame version of the
EMI filter.
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MQPI-18
Vicor’s comprehensive line of power solutions includes high density AC-DC and DC-DC modules and
accessory components, fully configurable AC-DC and DC-DC power supplies, and complete custom
power systems.
Information furnished by Vicor is believed to be accurate and reliable. However, no responsibility is assumed by Vicor for its use. Vicor makes no
representations or warranties with respect to the accuracy or completeness of the contents of this publication. Vicor reserves the right to make
changes to any products, specifications, and product descriptions at any time without notice. Information published by Vicor has been checked and
is believed to be accurate at the time it was printed; however, Vicor assumes no responsibility for inaccuracies. Testing and other quality controls are
used to the extent Vicor deems necessary to support Vicor’s product warranty. Except where mandated by government requirements, testing of all
parameters of each product is not necessarily performed.
Specifications are subject to change without notice.
Vicor’s Standard Terms and Conditions
All sales are subject to Vicor’s Standard Terms and Conditions of Sale, which are available on Vicor’s website or upon request.
Product Warranty
In Vicor’s standard terms and conditions of sale, Vicor warrants that its products are free from non-conformity to its Standard Specifications (the
“Express Limited Warranty”). This warranty is extended only to the original Buyer for the period expiring two (2) years after the date of shipment
and is not transferable.
UNLESS OTHERWISE EXPRESSLY STATED IN A WRITTEN SALES AGREEMENT SIGNED BY A DULY AUTHORIZED VICOR SIGNATORY, VICOR DISCLAIMS
ALL REPRESENTATIONS, LIABILITIES, AND WARRANTIES OF ANY KIND (WHETHER ARISING BY IMPLICATION OR BY OPERATION OF LAW) WITH
RESPECT TO THE PRODUCTS, INCLUDING, WITHOUT LIMITATION, ANY WARRANTIES OR REPRESENTATIONS AS TO MERCHANTABILITY, FITNESS FOR
PARTICULAR PURPOSE, INFRINGEMENT OF ANY PATENT, COPYRIGHT, OR OTHER INTELLECTUAL PROPERTY RIGHT, OR ANY OTHER MATTER.
This warranty does not extend to products subjected to misuse, accident, or improper application, maintenance, or storage. Vicor shall not be liable
for collateral or consequential damage. Vicor disclaims any and all liability arising out of the application or use of any product or circuit and assumes
no liability for applications assistance or buyer product design. Buyers are responsible for their products and applications using Vicor products and
components. Prior to using or distributing any products that include Vicor components, buyers should provide adequate design, testing and
operating safeguards.
Vicor will repair or replace defective products in accordance with its own best judgment. For service under this warranty, the buyer must contact
Vicor to obtain a Return Material Authorization (RMA) number and shipping instructions. Products returned without prior authorization will be
returned to the buyer. The buyer will pay all charges incurred in returning the product to the factory. Vicor will pay all reshipment charges if the
product was defective within the terms of this warranty.
Life Support Policy
VICOR’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS
PRIOR WRITTEN APPROVAL OF THE CHIEF EXECUTIVE OFFICER AND GENERAL COUNSEL OF VICOR CORPORATION. As used herein, life support
devices or systems are devices which (a) are intended for surgical implant into the body, or (b) support or sustain life and whose failure to perform
when properly used in accordance with instructions for use provided in the labeling can be reasonably expected to result in a significant injury to the
user. A critical component is any component in a life support device or system whose failure to perform can be reasonably expected to cause the
failure of the life support device or system or to affect its safety or effectiveness. Per Vicor Terms and Conditions of Sale, the user of Vicor products
and components in life support applications assumes all risks of such use and indemnifies Vicor against all liability and damages.
Intellectual Property Notice
Vicor and its subsidiaries own Intellectual Property (including issued U.S. and Foreign Patents and pending patent applications) relating to the
products described in this data sheet. No license, whether express, implied, or arising by estoppel or otherwise, to any intellectual property rights is
granted by this document. Interested parties should contact Vicor's Intellectual Property Department.
The products described on this data sheet are protected by the following U.S. Patents Number:
6,898,092
Vicor Corporation
25 Frontage Road
Andover, MA 01810 USA
Picor Corporation
51 Industrial Drive
North Smithfield, RI 02896 USA
email
Customer Service: [email protected]
Technical Support: [email protected]
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