AIM™ in a VIA™ Package
AIM1714xB6MC7D5yzz
Universal AC Input Module
Features & Benefits
Product Ratings
• Universal input (85 – 264VAC, 47 – 63Hz)
• Chassis-mount or PCB-mount form factor
VIN = 85 – 264V
POUT = up to 450W
VOUT = Rectified AC
IOUT = 5.3A
• Small robust package
• Low profile
Product Description
• EMI filtering
The AIM in a VIA Package (AC Input Module) is a front-end module
designed to interface directly with worldwide AC mains and
provide a rectified AC input to the Vicor family of PFM4414 VIA
products. The AIM combines a bridge rectifier, EMI filter and surge
protection circuitry in an easy-to-use VIA plastic housing. The AIM
and PFM components in a VIA Package can realize a small, efficient
and simple AC-DC solution for a broad range of end applications.
• Meets EN61000-4-5 Class 3 surge protection
when used with external MOV and fuse,
paired with Vicor PFM4414 products
Typical Applications
• Small cell base stations
• Telecom switching equipment
• LED lighting
• Test and Measurement Equipment
• 200 – 400W Industrial Power Systems
• Office Equipment
Size:
1.76 x 1.40 x 0.37in
[44.6 x 35.5 x 9.3mm]
Part Ordering Information
Product
Function
Package
Length
Package
Width
Package
Type
Input
Voltage
Range
Ratio
Output
Voltage
(Range)
Max
Output
Power
Product Grade
AIM
17
14
x
B6
M
C7
D5
y
AIM =
AC Input Module
Length in
Width in
Inches x 10 Inches x 10
AIM™ in a VIA™ Package
Page 1 of 14
B = Board VIA
V = Chassis VIA
Internal Reference
Rev 1.3
09/2018
C = –20 to 100°C
T = –40 to 100°C
Option Field
z
z
00 = Chassis/Always On
04 = Short Pin/Always On
08 = Long Pin/Always On
AIM1714xB6MC7D5yzz
Typical PCB Mount Applications
J1
Inlet
85 –
264VAC
F1
M2
M1
+OUT
L
MOV
+OUT
+IN
PFM™
AIM
N
–OUT
24 V
+
_ 24 V 10 A
+
+
+
C1
C2
C3
2 x Cool-Power®
ZVS Buck
–OUT
–IN
Cool-Power®
ZVS Buck
The PCB terminal option allows mounting on an industry standard printed circuit board, with two different pin lengths.
Parts List for Typical PCB Mount Applications
J1
Qualtek 703W IEC 320-C14 Power Inlet
F1
Littelfuse 0216008.MXP 8A 250VAC 5 x 20mm holder
M1
Vicor AIM™ AIM1714BB6MC7D5yzz
M2
Vicor PFM™ PFM4414BB6M24D0yzz
or
Vicor PFM PFM4414BB6M48D0yzz
C1, C2, (C3)
Select capacitors based on 4414 VIA PFM model used, as per typical application parts list.
MOV
Littelfuse TMOV20RP300E VARISTOR 10kA 30V 250 J 20mm
AIM™ in a VIA™ Package
Page 2 of 14
Rev 1.3
09/2018
+
_ 3.3 V 10 A
+
_ 1.8 V 8 A
AIM1714xB6MC7D5yzz
Typical Chassis Mount Applications
J1
F1
M1
L
M2
+OUT
+OUT
+IN
24V
Inlet
Fan
85 –
264VAC
MOV
AIM
N
PFM™
–OUT
C1
C2
C3
–OUT
–IN
8
Relays
8
16
Dispensors
Controller
Coin Box
The AIM and PFM are available in chassis-mount option, saving the cost of a PCB and allowing access to both sides of the power supply for
cooling. The parts list below minimizes the number of interconnects required between necessary components, and selects components
with terminals traditionally used for point-to-point chassis wiring.
Parts List for Typical Chassis Mount Applications
J1
Qualtek 719W or 723W IEC 320-C14 Power Inlet
F1
Littelfuse 0216008.MXP 8A 250VAC 5 x 20mm in a J1, or separate fuse holder
M1
Vicor AIM™ AIM1714VB6MC7D5y00
M2
Vicor PFM™ PFM4414VB6M24D0y00
or
Vicor PFM PFM4414VB6M48D0y00
C1, C2, C3
Select capacitors based on PFM4414 VIA model used, as per typical application parts list.
MOV
Littelfuse TMOV20RP300E VARISTOR 10kA 300V 250 J 20mm
AIM™ in a VIA™ Package
Page 3 of 14
Rev 1.3
09/2018
AIM1714xB6MC7D5yzz
Pin Configuration
TOP VIEW
L
+OUT
N
–OUT
AIM1714 VIA - Chassis Mount - Terminals Up
TOP VIEW
N
–OUT
L
+OUT
AIM1714 VIA - PCB Mount - Pins Down
Please note that these pin drawings are not to scale.
Pin Descriptions
Signal Name
Type
N
INPUT POWER RETURN
L
INPUT POWER
–OUT
OUTPUT POWER RETURN
Negative output power terminal
+OUT
OUTPUT POWER
Positive output power terminal
AIM™ in a VIA™ Package
Page 4 of 14
Function
AC Neutral / Line 2 input
AC Line 1 input
Rev 1.3
09/2018
AIM1714xB6MC7D5yzz
Absolute Maximum Ratings
The absolute maximum ratings below are stress ratings only. Operation at or beyond these maximum ratings can cause permanent damage to the device.
Parameter
Comments
Min
Max
Unit
Peak Voltage at Input Terminals,
1ms Max
0
600
VPK
Input Voltage (AC RMS) Continuous
0
275
VRMS
Output Current (Continuous)
0
5.3
ARMS
Operating Internal Temperature
–40
125
°C
Storage Temperature
–65
125
°C
4 [0.45]
in.lbs [N.m]
Input / Output Pin Torque and
Mounting Torque
AIM™ in a VIA™ Package
Page 5 of 14
Rev 1.3
09/2018
AIM1714xB6MC7D5yzz
Electrical Specifications
Specifications apply over all line and load conditions, 50Hz and 60Hz line frequencies, TC = 25°C, unless otherwise noted.
Boldface specifications apply over the temperature range of the specified product grade.
Attribute
Symbol
Conditions / Notes
Min
Typ
Max
Unit
264
VRMS
600
V
63
Hz
Input Specification
Input Voltage Range,
Continuous Operation
VIN
Input Voltage Range,
Transient, Non-Operational (Peak),
30s Minimum Interval
VIN
Source Line Frequency Range
fline
Power Factor
PF
85
47
Please see PFM in VIA package datasheet
for power factor.
-
Output Specification
Output Power
POUT
450
W
Output Current (Continuous)
IOUT
5.3
A
AIM™ in a VIA™ Package
Page 6 of 14
Rev 1.3
09/2018
AIM1714xB6MC7D5yzz
Block Diagram
AC
INPUT
RECTIFIER
MOV
CM FILTER
SERIES
SWITCH
MOV
OUTPUT
TO PFM
Application Characteristics
Att 20 dB
Marker 1 [T1]
54.44 dB V
153.00000000 kHz
INPUT 2
100
Det
ResBW
Meas T
1 MHz
MA Trd
9 kHz
55022RED
20 ms Unit
dB V
10 MHz
1 [T1]
54.44 dB V
Att 20 dB
Marker 1 [T1]
INPUT 2
100
56.20 dB V
186.00000000 kHz
1 MHz
22QPA
dB V
10 MHz
1 [T1]
56.20 dB V
22QPA
22QPB
1MA
22QPB
60
1
1
50
50
40
40
30
30
30.Sep 2015 08:29
150 kHz
Date:
20
30 MHz
30.SEP.2015
08:29:08
12
10
98%
8
6
97%
4
2
96%
Power Dissipation (W)
14
0
1
1.5
2
2.5
3
3.5
4
Load Current (A)
VIN:
85 V
115 V
85 V
115 V
Eff
P DISS
Figure 3 — VIN to VOUT efficiency and power dissipation vs.
VIN and IOUT, TCASE = 20°C
AIM™ in a VIA™ Package
Page 7 of 14
30.SEP.2015
30 MHz
08:58:24
Figure 2 — Typical conducted emissions, peak scan,
with PFM4414 VIA, 230V, 90% load
with PFM –OUT connected to GND
99%
0.5
30.Sep 2015 08:58
150 kHz
Date:
Figure 1 — Typical conducted emissions, peak scan,
with PFM4414 VIA, 115V, 90% load
with PFM –OUT connected to GND
Efficiency (%)
55022RED
70
60
0
MA Trd
9 kHz
20 ms Unit
SGL
80
1MA
70
20
Meas T
90
SGL
80
ResBW
186.00000000 kHz
153.00000000 kHz
90
Det
Rev 1.3
09/2018
AIM1714xB6MC7D5yzz
General Characteristics
Specifications apply over all line and load conditions, 50Hz and 60Hz line frequencies, TC = 25°C, unless otherwise noted.
Boldface specifications apply over the temperature range of the specified Product Grade.
Attribute
Symbol
Conditions / Notes
Min
Typ
Max
Unit
Mechanical
Length
L
44.6 [1.76]
mm [in]
Width
W
35.5 [1.40]
mm [in]
Height
H
9.3 [0.37]
mm [in]
Volume
Vol
14.5 [0.88]
cm3 [in3]
Mass (Weight)
M
35 [1.2]
g [oz]
Without heatsink
Pin Material
C145 copper, half hard
Underplate
Low-stress ductile nickel
Pin Finish
50
100
µin
Palladium
0.8
6
µin
Soft Gold
0.12
2
µin
C-Grade
–20
100
°C
T-Grade
–40
100
°C
Thermal
Operating Case Temperature
Thermal Resistance,
Internal to Case Non-Pin Side
TC
θINT_NON_PIN_SIDE
Estimated thermal resistance to
maximum temperature internal
component from isothermal non-pin/
non-terminal housing
Thermal Design
See Thermal Considerations on Page 10
Temperature
See: AN:401 PCB Mount
VIA Soldering Guidelines
2.2
°C/W
Soldering
Reliability
MTBF
MIL-HDBK-217FN2 Parts Count - 25°C
Ground Benign, Stationary,
Indoors / Computer
8.2
Telcordia Issue 2 - Method I Case III;
25°C
28.6
MIL-HDBK-217FN2 - 25°C Ground
Benign, Stationary, Indoors / Computer
7.4
MHrs
Safety
Agency Approvals / Standards
EN60950-1; CE marked for low voltage directive and RoHS recast directive, as applicable
Dielectric Withstand (Hipot)
IN / OUT to Case
Leakage Current / Touch Current
No Y capacitor connection of GND
connection within package
1500
EMI/EMC Compliance
FCC Part 15, EN55022, CISPR22:
2006 + A1: 2007,
Conducted Emissions
Class B Limits - with PFM4414 VIA
–OUT connected to GND
EN61000-4-5: 2006,
Surge Immunity
Level 3, Immunity Criteria A with PFM in
a VIA Package with external TMOV and
fuse, shown on page 2 or 3, required.
AIM™ in a VIA™ Package
Page 8 of 14
Rev 1.3
09/2018
VAC
Negligible
AIM1714xB6MC7D5yzz
Environmental Qualification
Testing Activity
Reference Standard
Test Details
High Temperature Operating Bias/Life
(HTOB/HTOL)
JESD22-A108D
1000hrs. Nominal Full Load at Max operating temperature
Temperature Cycling Test (TCT)
IPC-9592B
125˚C to –40˚C, 700 cycles
Temperature Humidity Bias (THB)
JESD22-A101C
1000hrs. Nominal Input voltage, Minimal load 85˚C,
85% RH
High Temperature Storage (HTS)
JESD22-A103D
1000hrs. 125˚C
Low Temperature Storage (LTS)
JESD22–A119
1000hrs. –65˚C
Random Vibration
MIL-STD-810G
Method 514.6, Procedure I, Category 24, 20-2000Hz,
@7.7gRMS, 1hour /axis for 3 axis. Product mounted on an
evaluation board, nominal line 50% load.
Mechanical Shock
MIL-STD-810G
Method 516.5, Procedure I, Functional shock 40G, total
of 18 shocks. Product mounted on an evaluation board,
nominal Line 50% load.
Highly Accelerated Life Test (HALT)
Internal Vicor Procedure - DP-0265
Low and high temperature tests, rapid thermal cycling,
random vibration testing, combined stress testing and
destruct testing.
Res. Solvents
MIL-STD-202G
Method 215K, 3 minutes exposure
ESD Human Body Model
JEDEC JS-001-2012
Class 1C (HBM) Minimum
ESD Charged Device Model
JESD22-C101E
Class II (CDM) Minimum
AIM™ in a VIA™ Package
Page 9 of 14
Rev 1.3
09/2018
AIM1714xB6MC7D5yzz
Thermal Considerations
The AIM in a VIA package can be cooled using single-side cooling
from the non-pin side. Since the AIM has a maximum internal
temperature rating, it is necessary to estimate this internal
temperature based on a system‑level thermal solution. To this
purpose, it is helpful to simplify the thermal solution into a roughly
equivalent circuit where power dissipation is modeled as a current
source, isothermal surface temperatures are represented as voltages
sources, and thermal resistances are represented as resistors. Figure
4 shows the non-pin-side cooling “thermal circuit” for the AIM
in VIA package:
Maximum internal temperature
T
+ C_NON_
PIN_SIDE
–
θINT_NON_PIN_SIDE
s
PDISS
s
Figure 4 — Single-side cooling thermal model
The internal power dissipation is PDISS, θINT_NON_PIN_SIDE is the
thermal resistance characteristic of the VIA package and the
non‑pin-side surface temperature is represented as
TC_NON_PIN_SIDE. The AIM is best attached to a material with high
thermal conductivity (e.g., aluminum or copper) to maintain
temperature uniformity across the non-pin side.
AIM™ in a VIA™ Package
Rev 1.3
Page 10 of 14 09/2018
AIM1714xB6MC7D5yzz
AIM in a VIA Package Chassis-Mount Package Mechanical Drawing
PIN 1 DESIGNATOR
.88
22.24
.152
3.86
THRU
(2) PL.
.11
2.89
L
+ Vout
1.170
29.720
1.40
35.49
N
- Vout
.36±.015
9.22±.381
1.76
44.59
NOTE: UNLESS OTHERWISE SPECIFIED DIMENSIONS ARE : INCH [MM]
Product outline drawing; product outline drawings are available in .pdf and .dxf formats.
3D mechanical models are available in .pdf and .step formats.
AIM™ in a VIA™ Package
Rev 1.3
Page 11 of 14 09/2018
AIM1714xB6MC7D5yzz
AIM in a VIA Package Board-Mount Package Mechanical Drawing
1.76
44.60
.88
22.30
.11
2.89
.172±.003
4.369±.076
PLATED THRU
.064 [1.626]
ANNULAR RING
(2) PL.
.120±.003
3.048±.076
PLATED THRU
.030 [.762]
ANNULAR RING
(4) PL.
.111±.003
2.831±.076
1.170
29.720
1.40
35.50
N
1.170±.003
29.720±.076
TOP VIEW
(COMPONENT SIDE)
- Vout
.947±.003
24.058±.076
L
DIM'L'±.015
(4) PL.
.36±.015
9.22±.381
SEATING
PLANE
+ Vout
.698±.003
17.726±.076
1.396±.003
35.452±.076
.080
2.032
(4) PL.
DIM 'L'
SHORT
LONG
RECOMMENDED HOLE PATTERN
(COMPONENT SIDE)
.113 [2.870]
.192 [4.877]
1.396±.020
35.458±.508
.698±.020
17.729±.508
L
+Vout
N
- Vout
.947±.020
24.058±.508
.111±.020
2.831±.508
(2) PL.
BOTTOM VIEW
.15
3.86
(2) PL.
NOTE: UNLESS OTHERWISE SPECIFIED DIMENSIONS ARE : INCH [MM]
AIM™ in a VIA™ Package
Rev 1.3
Page 12 of 14 09/2018
AIM1714xB6MC7D5yzz
Revision History
Revision
Date
1.0
12/24/15
Intitial release
1.1
07/21/16
Updated dimensions
Added “Mass” attribute and soldering temperature note
Revised mechanical drawing to show correct PCB pin diameter
1&8
8
12
2–3
08/02/17
Removed specific bulk caps in typical application circuit so force user
to refer to 24V or 48V PFM specific documentation.
Revised min storage temp to –65C.
Added note stating no touch current in safety table
and added fuse to note under surge in compliance table
Clarified which side is the bottom in thermal section
1.2
1.3
09/27/18
Description
Updated mechanical drawings
AIM™ in a VIA™ Package
Rev 1.3
Page 13 of 14 09/2018
Page Number(s)
n/a
4
8
10
11, 12
AIM1714xB6MC7D5yzz
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.
Visit http://www.vicorpower.com/ac-input-front-end-module for the latest product information.
Vicor’s Standard Terms and Conditions and Product Warranty
All sales are subject to Vicor’s Standard Terms and Conditions of Sale, and Product Warranty which are available on Vicor’s webpage
(http://www.vicorpower.com/termsconditionswarranty) or upon request.
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 Numbers:
Patents Pending.
Contact Us: http://www.vicorpower.com/contact-us
Vicor Corporation
25 Frontage Road
Andover, MA, USA 01810
Tel: 800-735-6200
Fax: 978-475-6715
www.vicorpower.com
email
Customer Service: custserv@vicorpower.com
Technical Support: apps@vicorpower.com
©2017 – 2018 Vicor Corporation. All rights reserved. The Vicor name is a registered trademark of Vicor Corporation.
All other trademarks, product names, logos and brands are property of their respective owners.
AIM™ in a VIA™ Package
Rev 1.3
Page 14 of 14 09/2018