®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 1 of 20 www.power-one.com
Features
• RoHS lead-free-solder and lead-solder-exempted
products are available.
• Wide input voltage ranges up to 150 VDC
• 1 or 2 isolated outputs up to 48 V
• 1200 to 3000 VAC I/O electric strength test
• Emissions EN 55022 level A
• Immunity to IEC/EN 61000-4-2,-3,-4,-5, and -6
• High efficiency (typ. 87%)
• Input undervoltage lockout
• Shutdown input, adjustable output voltages
• Flex power: Flexible load distribution on outputs
• Outputs no-load, overload, and short-circuit proof
• Operating ambient temperature –40 to 85 °C
• Thermal protection
• 2" x 1.6" case with 10.5 mm profile
• Supplementary insulation: 20/40IMX15 models
• Double or reinforced insulation: 110IMY15 models
Description
The IMX15, IMS15, and IMY15 Series of board mountable 15-
Watt DC-DC converters have been designed according to the
latest industry requirements and standards. The converters
are particularly suitable for use in mobile or stationary
applications in transport, railways, industry, or telecommu-
nications, where variable input voltages or high transient
voltages are prevalent.
Covering a total input voltage range from 8.4 up to 150 V with
different models, the converters are available with single and
electrically-isolated double outputs from 3.3 up to 48 V,
externally adjustable, with flexible load distribution on double-
output models. A shutdown input allows remote on/off.
Features include efficient input and output filtering and
consistently high efficiency over the entire input voltage range,
high reliability, and excellent dynamic response to load and
line changes.
The converters have been approved by TÜV and UL. Models
20IMS15/20IMX15 and 40IMS/40IMX15 provide supplemen-
tary insulation. Connected to a secondary circuit these models
provide SELV outputs, even if the bus voltage at the converter
input exceeds the SELV-limit of 60 VDC. The 110IMY15
models provide double insulation and are CE marked. They
may be connected to a rectified 110 VAC source without any
further isolation barrier.
The circuitry is comprised of integrated planar magnetics. All
components are automatically assembled and solidly soldered
onto a single PCB without any wire connection. Magnetic
feedback ensures maximum reliability and repeatability in the
control loop over all operating conditions. Careful
consideration of possible thermal stress ensures the absence
of hot spots providing long life in environments, where
temperature cycles are frequent. The thermal design allows
operation at full load up to an ambient temperature of 85 °C in
free air without using any potting material. For extremely high
vibration environments the case has holes for screw mounting.
Table of Contents Page Page
51
2.0"
40.6
1.6"
10.5
0.42"
Description ........................................................................... 1
Model Selection ................................................................... 2
Functional Description ......................................................... 4
Electrical Input Data ............................................................. 5
Electrical Output Data .......................................................... 8
Auxiliary Functions ............................................................. 13
Electromagnetic Compatibility (EMC) ................................ 14
Immunity to Environmental Conditions .............................. 16
Mechanical Data ................................................................ 17
Safety and Installation Instructions .................................... 18
Description of Options ....................................................... 19
EC Declaration of Conformity ............................................ 20
Safety according to UL/CSA 60950 -1
1 110IMY15
models
1
®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 2 of 20 www.power-one.com
Model Selection
Table 1: Model Selection
Output 1 Output 2 Output Input voltage Efficiency Model Options 2
Vo nom Io nom 1 Vo nom Io nom 1 power Vi min to Vi max ηη
ηη
η 6
[VDC] [A] [VDC] [A] Po nom [W] [VDC] [%]
3.3 4.5 - - 14.9 8.4 to 36 584 20IMX15-03-8RG -9, i, Z
3.3 4.0 - - 13.2 16.8 to 75 3 80 40IMX15-03-8R i, Z
3.3 4.5 - - 14.9 16.8 to 75 3 85 40IMX15-03-8RG -9, i, Z
3.3 4.5 - - 14.9 50 to 150 4 84 110IMY15-03-8RG i, Z
5.1 3.5 - - 17.5 8.4 to 36 586 20IMX15-05-8RG i, Z
5.1 3.5 - - 17.5 16.8 to 75 3 87 40IMX15-05-8RG i, Z
5.1 3.5 - - 17.5 50 to 150 4 86 110IMY15-05-8RG i, Z
5.1 2.3 - - 11.7 8.4 to 36 585 20IMX15-05-8R -9, i, Z
5.1 2.7 - - 13.8 14 to 36 84 24IMS15-05-9R i, Z
5.1 2.5 - - 12.8 16.8 to 75 3 83 40IMX15-05-8R -9, i, Z
5.1 2.7 - - 13.8 36 to 75 83 48IMS15-05-9R i, Z
5.1 2.5 - - 12.8 50 to 150 4 83 110IMY15-05-8R i, Z
5.1 1.35 3.3 1.35 11.3 8.4 to 36 584 20IMX15-0503-8R -9, i, Z
5.1 1.6 3.3 1.6 13.5 14 to 36 82 24IMS15-0503-9R i, Z
5.1 1.5 3.3 1.5 12.6 16.8 to 75 3 84 40IMX15-0503-8R -9, i, Z
5.1 1.6 3.3 1.6 13.5 36 to 75 82 48IMS15-0503-9R i, Z
5.1 1.5 3.3 1.5 12.6 50 to 150 4 82 110IMY15-0503-8R i, Z
5 1.3 5 1.3 13.0 8.4 to 36 586 20IMX15-05-05-8 -9, i, R, Z
5 1.4 5 1.4 14.0 14 to 36 85 24IMS15-05-05-9 i, Z
5 1.4 5 1.4 14.0 16.8 to 75 3 86 40IMX15-05-05-8 -9, i, R, Z
5 1.4 5 1.4 14.0 36 to 75 83 48IMS15-05-05-9 i, Z
5 1.4 5 1.4 14.0 50 to 150 4 86 110IMY15-05-05-8 i, Z
12 0.65 12 0.65 15.6 8.4 to 36 588 20IMX15-12-12-8 -9, i, Z
12 0.7 12 0.7 16.8 14 to 36 88 24IMS15-12-12-9 i, Z
12 0.7 12 0.7 16.8 16.8 to 75 3 88 40IMX15-12-12-8 -9, i, R, Z
12 0.7 12 0.7 16.8 36 to 75 86 48IMS15-12-12-9 i, Z
12 0.7 12 0.7 16.8 50 to 150 4 87 110IMY15-12-12-8 i, Z
15 0.5 15 0.5 15.0 8.4 to 36 588 20IMX15-15-15-8 -9, i, R, Z
15 0.56 15 0.56 16.8 14 to 36 88 24IMS15-15-15-9 i, Z
15 0.56 15 0.56 16.8 16.8 to 75 3 88 40IMX15-15-15-8 -9, i, R, Z
15 0.56 15 0.56 16.8 36 to 75 86 48IMS15-15-15-9 i, Z
15 0.56 15 0.56 16.8 50 to 150 4 87 110IMY15-15-15-8 i, R, Z
24 0.32 24 0.32 15.4 8.4 to 36 586 20IMX15-24-24-8 -9, i, R, Z
24 0.35 24 0.35 16.8 14 to 36 87 24IMS15-24-24-9 i, Z
24 0.35 24 0.35 16.8 16.8 to 75 3 86 40IMX15-24-24-8 -9, i, R, Z
24 0.35 24 0.35 16.8 36 to 75 86 48IMS15-24-24-9 i, Z
24 0.35 24 0.35 16.8 50 to 150 4 86 110IMY15-24-24-8 i, Z
1Flexible load distribution on dual and double outputs possible up to 75% of the total output power Po nom on one of the 2 outputs.
IMX/IMY15-0503 models have reduced load distribution flexibility; 1.8 A max. on one of the 2 outputs. The other output should not exceed
the difference to the total output power Po nom.
2See Description of Options. For availability contact Power-One. IMX/IMY models with option -9 are not recommended for new designs
and are not RoHS-compliant.
3Short-time operation down to Vi = 14.4 V possible. Po reduced to approx. 85% of Po nom.
4Short-time operation down to Vi = 43.2 V possible. Po reduced to approx. 85% of Po nom.
5Initial start-up at 9 V, main output voltage regulation down to 8.4 V.
6Typ. efficiency at TA = 25 °C, Vi nom, Io nom.
RoHS-Compliant Models
The type designation of RoHS-compliant models (compliant for the restriction of all six substances) for the IMX/IMS/IMY15 Series
ends with "G".
However, in single-output models with 3.3 V or 5.1 V output an extra dash (-) is added after the existing "G", which already
®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 3 of 20 www.power-one.com
Part Number Description
40 IMX15 - 05 - 05 -8 R G i Z -G
xxix
Input voltage range Vi
8.4 to 36 V ................................................ 20
14 to 36 V ................................................. 24
16.8 to 75 V .............................................. 40
36 to 75 V ................................................. 48
50 to 150 V ............................................. 110
Series .............................................. IMX15, IMS15, IMY15
Output voltage of output 1................ -03, -05, -12, -15, -24
Dash designates double-output models with two
electrically isolated outputs ........................................... - 1
Output voltage of output 2...................... 03, 05, 12, 15, 24
Operating ambient temperature range TA
–40 5 to 85 °C .............................................. -8
–40
5 to 71 °C .............................................. -9 6
Options and features:
R input and magnetic feedback .................. R 2 3
Synchronous rectification ........................... G
Inhibit ............................................................ i 2 4
Open frame.................................................. Z
RoHS compliant for all 6 substances ........ -G
1Not applicable to -0503 models.
2For lead times contact Power-One. Some models require a minimum order quantity.
3Standard for single-output and -0503- models.
4Option i excludes shutdown.
5Only –25 °C for -RG models
6IMX15/IMY15 models with -9 are not recommended for new designs.
Examples: 20 IMX15-05-05-8: DC-DC converter, input voltage 9 to 36 V, 2 electrically isolated outputs each providing 5 V, 1.3 A.
110IMY15-0503-8R: DC-DC converter, input voltage 50 to 150 V, 2 outputs with common return providing +5.1 V,
1.5 A and +3.3 V, 1.5 A. Converter fitted with magnetic feedback for tight output voltage regulation.
Product Marking
The converters without option Z are marked with basic type designation, input and output voltages and currents, applicable safety
approval and recognition marks, Power-One patent nos., company logo, date code, and serial number.
signifies a synchronous rectifier at the output. This is an exception to Power-One's normal nomenclature to identify this type of
product, since G is already used to designate products for higher output current fitted with a synchronous rectifier. As an example
– 20IMX15-05-8R-G means a standard version with RoHS compliance for all six substances
– 20IMX15-05-8RG means a synchronous rectifier version with RoHS lead-solder exemption
– 20IMX15-05-8RG-G means a synchronous rectifier version with RoHS compliance for all six substances
– 24IMS15-05-9R-G means a standard version with RoHS compliance for all six substances
– 20IMX15-05-05-8RG means a double-output model with RoHS compliance for all six substances
– 110IMY15-24-24-8RG means a double-output model with RoHS compliance for all six substances.
Please ask Power-One for availability of RoHS-compliant models. (RoHS-compliant models IMX15 or IMY15 with option -9 are
not available.)
®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 4 of 20 www.power-one.com
Functional Description
The IMX15/IMS15/IMY15 Series DC-DC converters are
magnetic feedback-controlled flyback converters using current
mode PWM (Pulse Width Modulation). The -05- and -0503-
output voltage models, as well as all double-output models
fitted with option R, exhibit an active magnetic feedback loop
via a pulse transformer, which results in very tight regulation of
the output voltage (see the block diagrams). The output
voltages of these models can be adjusted via the R input. The
R input is referenced to the secondary side and allows for
programming of the output voltages in the range of
approximately 80 to 105% of Vo nom using either an external
resistor or an external voltage source.
The voltage regulation on the double-output models without
option R is achieved with a passive transformer feedback from
the main transformer (see fig. 3). The output voltages can be
adjusted via the Trim input. The Trim input is referenced to the
primary side and allows for programming the output voltage in
the range 100 to 105% of Vo nom via an external resistor or
within 75 to 105% using an external voltage source. The load
regulation output characteristic allows for paralleling of one or
more double-output models with equal output voltage.
Current limitation is provided by the primary circuit, thus
limiting the total output power of double-output models. The
shut-down input allows remote converter on/off.
Overtemperature protection will disable the converter under
excessive overload conditions with automatic restart.
Fig. 1
Block diagram of single-output models
Fig. 2
Block diagram of -0503-models
Fig. 3
Block diagram of double-output models
PWM
2 x 2200 pF
1500 V
1
2
13
15
Vi+
Vi–
Vo+
Vo–
03039
17
R
4
SD
PWM
2 x 2200 pF
1
2
3
4
13
15
12
11
Vi+
SD
Vi –
Vo1+
Go
n.c. Vo2+
Go
03089
17
R
PWM
2 x 2200 pF
1
2
3
4
11
12
15
13
Vi+
SD
Vi –
Vo1+
Vo1–
Trim Vo2+
Vo2–
03090
17 n.c.
®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 5 of 20 www.power-one.com
Table 2a: Input data of IMX15 and IMY15 models
Input 20IMX 40IMX 110IMY Unit
Characteristics Conditions min typ max min typ max min typ max
ViInput voltage range
1TA min – TA max 9 5 8 36 16.8 5 6 75 50 5 7 150 V
Vi nom Nominal input voltage Io = 0 – Io nom 20 40 110
Vi sur Repetitive surge voltage Abs. max input (3 s) 40 100 168
tstartup Converter Switch on Worst case condition at 0.25 0.5 0.25 0.5 0.25 0.5 s
start-up time 2 SD high Vi min, Io = Io nom 0.1 0.1 0.1
trise Rise time 2 Vi nom, resistive load 5 5 5 ms
Io nom, capac. load 10 20 10 20 10 20
Ii o No-load input current Io = 0, Vi min – Vi max 40 20 10 mA
Iirr Reflected ripple current Io = 0 – Io nom 30 30 20 mApp
Iinr p Inrush peak current 3 Vi = Vi nom 8910A
CiInput capacitance for surge calculation 1.5 0.75 0.35 μF
VS
–D
–Shut-down voltage Converter disabled –10 to 0.7 –10 to 0.7 –10 to 0.7 V
Converter operating open or 2 – 20 open or 2 – 20 open or 2 – 20
RS
–D
–Shut-down input resistance approx. 10 approx. 10 approx. 10 kΩ
IS
–D
–Input current, when Vi min – Vi max 631mA
disabled SD connected to Vi–
fsSwitching frequency Vi min – Vi max, approx. 300 approx. 300 approx. 300 kHz
Io = 0 – Io nom
Vi RFI Input RFI level conducted EN 55022 4 AA A
1If Vo is set above Vo nom by use of the R or Trim input, Vi min will be proportionately increased.
2Measured with resistive and max. admissible capacitive load.
3Source impedance according to ETS 300132-2, version 4.3.
4Measured with a ceramic capacitor Ci directly across input; output lead length 0.1 m, leads twisted. Double-output models with both
outputs in parallel. Ci is specified in table 11.
5Input undervoltage lockout at typ. 80% of Vi min.
6Short time operation down to Vi min >14.4 V possible. Po reduced to approx. 85% of Po nom.
7Short time operation down to Vi min >43.2 V possible. Po reduced to approx. 85% of Po nom.
8Initial start-up at Vi = 9 V, main output voltage regulation down to 8.4 V
Electrical Input Data
General conditions:
–T
A = 25 °C, unless TC is specified.
– Shut-down pin left open-circuit.
– Trim or R input left open-circuit.
®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 6 of 20 www.power-one.com
Table 2b: Input Data of IMS15 models; general conditions as in table 2a
Input 24IMS 48IMS Unit
Characteristics Conditions min typ max min typ max
ViInput voltage range
1TA min – TA max 14 36 36 75 V
Vi nom Nominal input voltage Io = 0 – Io nom 24 48
Vi sur Repetitive surge voltage Abs. max input (3 s) 50 100
tstartup Converter Switch on Worst case condition at 0.25 0.5 0.25 0.5 s
start-up time 2 SD high Vi min, Io = Io nom 0.1 0.1
trise Rise time 2 Vi nom, resistive load 5 5 ms
Io nom, capac. load 10 20 10 20
Ii o No-load input current Io = 0, Vi min – Vi max 20 40 10 20 mA
Iirr Reflected ripple current Io = 0 – Io nom 30 30 mApp
Iinr p Inrush peak current 3 Vi = Vi nom 5 4.5 A
CiInput capacitance for surge calculation 4 2 μF
VS
–D
–Shut-down voltage Converter disabled –10 to 0.7 –10 to 0.7 V
Converter operating open or 2 – 20 open or 2 – 20
RS
–D
–Shut-down input resistance approx. 10 approx. 10 kΩ
IS
–D
–Input current, when Vi min – Vi max 1.2 3 1.2 3 mA
disabled SD connected to Vi–
fsSwitching frequency Vi min – Vi max, approx. 300 approx. 300 kHz
Io = 0 – Io nom
Vi RFI Input RFI level conducted EN 55022 4 AA
1If Vo is set above Vo nom by use of the R or Trim input, Vi min will be proportionately increased.
2Measured with resistive and max. admissible capacitive load.
3Source impedance according to ETS 300132-2, version 4.3.
4Measured with a ceramic capacitor Ci directly across input; output lead length 0.1 m, leads twisted. Double-output models with both
outputs in parallel. Ci is specified in table 11.
5Input undervoltage lockout at typ. 80% of Vi min.
®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 7 of 20 www.power-one.com
Input Transient Voltage Protection
A built-in suppressor diode provides effective protection
against input transients, which typically occur in many
installations.
Table 5: Built-in transient voltage suppressor
Type Breakdown Peak power Peak pulse
voltage at 1 ms current
VBr nom [V] Pp [W] Ipp [A]
20IMX15 40 1500 22
24IMS15 53 600 7.7
40IMX15 100 1500 9.7
48IMS15 100 600 4.1
110IMY15 168 600 0.5
Fuse and Reverse Polarity Protection
The built-in suppressor diode also provides for reverse polarity
protection at the input by conducting current in the reverse
direction. An external fuse is required to limit this current.
Inrush Current
The inrush current has been made as low as possible by
choosing a very small input capacitance. A series resistor may
be installed in the input line to further reduce this current.
Fig. 4
Typical inrush current at Vi nom, Po nom versus time
(40IMX15). Source impedance according to
ETS 300132-2 at Vi nom.
Fig. 5
Converter start-up and rise time
For very high energy transients as for example to achieve
compliance to IEC/EN 61000-4-5 or ETR 283 (see table
Electromagnetic Immunity), an external inductor and a
capacitor are required, see Fig. 6. The components should
have similar characteristics as listed in table 6.
Fig. 6
Example for external circuitry to achieve better transient
immunity. The diode D is only necessary for 20IMX15
models.
Table 6:
Components for external circuitry for IEC/EN 61000-4-5,
level 3, or ETR 283 (19Pfl1) compliance.
Model Inductor (L) Capacitor (C) Diode (D)
20IMX15 68 μH, 2.7 A 330 μF, 63 V 1.5 k E47A
24IMS15 150 μH, 1.3 A 150 μF, 63 V -
40IMX15 220 μH, 1.3 A 2 x 100 μF, 100 V -
48IMS15 150 μH, 1 A 100 μF, 100 V -
110IMY15 330 μH, 0.4 A 2 x 100 μF, 200 V -
Table 4: Recommended external fuses
Model Fuse type
20IMX15 F 4.0 A
24IMS15 F 3.15 A
40IMX15, 48IMS15 F 2.0 A
110IMY15 F 1.0 A
V
o nom
V
o
t
startup
t
rise
t
04008b
Input Undervoltage Lockout
A special feature of these converters is the accurate
undervoltage lockout protection, which protects against large
currents caused by operation at low voltages. This ensures
easier start-up in distributed power systems.
Tab. 3: Turn on and turn off voltage
Model Turn on Turn off Unit
min max min max
20IMX15 7.5 8 7 7.5 V
24IMS15 12.5 13.5 12 13
40IMX15 12.5 13.5 12 13
48IMS15 31.5 32.5 31 32
110IMY15 40 42.5 38 40.5
Vi+
Vi–
C
L
D
+
04036a
t
04022b
020 40 60 80 100 µs
4
3
2
1
A
®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 8 of 20 www.power-one.com
Electrical Output Data
We recommend connecting an external 1 μF ceramic capacitor across the output pins.
General conditions:
– TA = 25°C, unless TC is specified
– Shutdown pin and Trim or R pin left open-circuit (not connected)
Table 7a: Output data for single-output models -03-8RG 1 and 05-8RG 1
Output 3.3 V 5.1 V Unit
Characteristics Conditions min typ max min typ max
VoOutput voltage Vi nom 3.25 3.35 5.05 5.15 V
Io = 0.5 Io nom
Io nom Output current 20IMX Vi min to Vi max 4.5 3.5 A
40IMX /110IMY 4.5 3.5
Io L Current limit 2 Vi nom, TC = 25 °C 6.0 4.6
Vo ≤ 93% Vo nom
ΔVoLine/load regulation Vi min to Vi max, ±0.5 ±0.5 %
(0.1 to 1) Io nom
VoOutput voltage noise Vi min to Vi max 4100 100 mVpp
Io = Io nom 560 60
Vo L Output overvoltage limit. 3 115 130 115 130 %
Co ext Admissible capacitive load 0 4000 0 4000 μF
Vo d Dynamic Voltage deviat. Vi nom ±250 ±250 mV
tdload Recovery time Io nom ↔ 1/2 Io nom 11ms
regulation IEC/EN 61204
αVo Temperature coefficient Vi min to Vi max ±0.02 ±0.02 %/K
ΔVo/ΔTC(0.1 to 1) Io nom
1All models -RG (synchronous rectifier) have a minimum case and operating temperature of –25 °C.
2The current limit is primary side controlled. In the event of a sustained overload condition the thermal protection may cause the converter
to shut down (restart after cooling down).
3The overvoltage protection is via a primary side second regulation loop. It is not tracking with R control.
4BW = 20 MHz
5Measured with a probe according to EN 61204
®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 9 of 20 www.power-one.com
Table 7b: Output data for -05-8R and -0503-8R models; general conditions as in table 7a
Output 5.1 V 5.1/3.3 V Unit
Characteristics Conditions min typ max min typ max
Vo, Vo1 Output voltage Vi nom 5.05 5.15 5.0 5.12 V
Vo2 Io = 0.5 Io nom 3.13 3.46
Io nom Output current 1 20IMX Vi min – Vi max 2.3 2 × 1.35 1.6 4 A
24IMS/48IMS 2.7 2 × 1.6 2.0 4
40IMX/110IMY 2.5 2 × 1.5 1.8 4
IoL, Io1L Current limit 2 20IMX Vi nom 3.2 2.7
Io2L Vo1 ≤ 93% Vo nom 3.8
IoL, Io1L 24IMS/48IMS 3.5 3.0
Io2L 3.8
IoL/Io1L 40IMX/110IMY 3.6 2.9
Io2L 4.0
ΔVoLine/load regulation 5.1 V Vi min – Vi max, ±0.5 – %
5.1 V (0.1 – 1) Io nom –+3, –5
3.3 V – ±4.5
Vo1/2 Output voltage noise Vi min – Vi max 570 80 mVpp
Io = Io nom 640 40
Vo L Output overvoltage limit 7 115 130 115 130 %
Co ext Admissible capacitive load 4000 total: 4000 3 μF
Vo d Dynamic Voltage deviat. Vi nom ±250 ±150 mV
tdload Recovery time Io nom ↔ 1/2 Io nom 11ms
regulation IEC/EN 61204
αVo Temperature coefficient Vi min – Vi max ±0.02 ±0.02 %/K
ΔVo/ΔTC(0.1 – 1) Io nom
1Flexible load distribution: Io max for one of the 2 outputs; however the total load should not exceed Po nom specified in the table Model
Selection.
2The current limit is primary-side controlled.
3For -0503-models: total capacitance of both outputs.
4For -0503-models: Conditions for specified output. Other output loaded with constant current Io = 0.5 Io nom.
5BW = 20 MHz
6Measured with a probe according to EN 61204
7The overvoltage protection is via a primary side second regulation loop. It is not tracking with R control.
®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 10 of 20 www.power-one.com
Table 7c: Output data for double-output models; general conditions as in table 7a
Output 2 ××
××
× 5 V 2 ××
××
× 12 V 2 ××
××
× 15 V 2 ××
××
× 24 V Unit
Characteristics Conditions min typ max min typ max min typ max min typ max
Vo1 Output 1 24IMS/48IMS Vi nom 4.95 5.05 11.88 12.12 14.85 15.15 23.70 24.30 V
other models Io = 0.5 Io nom 4.95 5.05 11.90 12.10 14.88 15.12 23.80 24.20
Vo2 Output 2 24IMS/48IMS 4.94 5.06 11.84 12.16 14.80 15.20 23.64 24.36
other models 4.94 5.06 11.88 12.12 14.85 15.15 23.75 24.25
Io nom Output current 1 20IMX Vi min – Vi max 2 ××
××
× 1.3 2 ××
××
× 0.65 2 ××
××
× 0.50 2 ××
××
× 0.32 A
other models 2 ××
××
× 1.4 2 ××
××
× 0.70 2 ××
××
× 0.56 2 ××
××
× 0.35
IoL Current limit 2, 4 20IMX Vi nom 3.0 1.6 1.3 0.85
24IMS/48IMS Vo1 ≤ 93% Vo nom 3.5 1.9 1.6 0.95
40IMX/110IMY 3.2 1.7 1.4 0.90
ΔVo1 Line/load regulation output 1 Vi min – Vi max, Io nom ±1 ±1 ±1 ±1 %
ΔVo2 output 2 Vi nom, (0.1 – 1) Io nom ±3 ±3 ±3 ±3
Vo1/2 Output voltage noise Vi min – Vi max 580 120 150 240 mVpp
Io = Io nom 640 60 70 120
Vo L Output overvoltage limit 7 Min. load 1% 115 130 115 130 115 130 115 130 %
Co ext Admissible capacitive load 3 4000 680 470 180 mF
Vo d Dynamic Voltage deviat. Vi nom ±250 ±300 ±300 ±600 mV
tdload Recovery time Io nom ↔ 1/2 Io nom 11 1 1ms
regulation
αUo Temperature coefficient Vi min – Vi max ±0.02 ±0.02 ±0.02 ±0.02 %/K
ΔVo/ΔTC(0.1 – 1) Io nom
1Flexible load distribution: Each output of double-output models is capable of delivering 75% of the total output power; however the total
load should not exceed Po nom specified in the table Model Selection.
2The current limit is primary-side controlled.
3Measured with both outputs connected in parallel.
4Conditions for specified output. Other output loaded with constant current Io = 0.5 Io nom.
5BW = 20 MHz
6Measured with a probe according to EN 61204
7The overvoltage protection is via a primary side second regulation loop, not tracking with Trim or R control.
®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 11 of 20 www.power-one.com
Thermal Considerations
If a converter, mounted on a PCB, is located in free, quasi-
stationary air (convection cooling) at the indicated maximum
ambient temperature TA max (see table Temperature
specifications) and is operated at its nominal input voltage and
output power, the case temperature measured at the
measuring point of case temperature TC (see Mechanical
Data) will approach the indicated value TC max after the warm-
up phase. However, the relationship between TA and TC
depends heavily on the conditions of operation and integration
into a system. The thermal conditions are influenced by input
voltage, output current, airflow, temperature of surrounding
components and surfaces, and the properties of the printed
circuit board. TA max is therefore only an indicative value.
Caution: The case temperature TC measured at the measuring
point of case temperature TC (see Mechanical Data) may under no
circumstances exceed the specified maximum value. The installer
must ensure that under all operating conditions TC remains within
the limits stated in the table Temperature specifications.
Overtemperature Protection
The converters are protected from possible overheating by
means of an internal temperature monitoring circuit. It shuts
down the converter above the internal temperature limit, and
attempts to automatically restart in short intervals. This feature
helps protect against excessive internal temperatures, which
could occur during heavy overload conditions.
Output Overvoltage Protection
The output of single-output models as well as -0503- and -05-
05-models are protected against overvoltage by a second
control loop. In the event of an overvoltage on one of the
outputs, the converter will shut down and attempt to restart in
short intervals.
Doublel-output models (except -0503- and -05-05-models) are
protected against overvoltage by a Zener diode across the
second output. Under worst case conditions the Zener diode
will become a short circuit. Since with double-output models
both outputs track each other, the protection diode is only
provided in one of the outputs. The main purpose of this
feature is to protect against possible overvoltage, which could
Fig. 9
Vo versus Io (typ) of converters with Vo = 5.1 V
(110IMY15-05-8R)
5.5
5.0
4.5
4.0
3.5
3.0
0 0.4 0.8 1.2 1.6 2.0 2.4 2.8 3.2 3.6 4
A
V
05166a
Fig. 8
Overload switch-off (hiccup mode); typical values
70
100
V
o
[%]
t
05041b
0.3 s
overload short-circuit condition
switch-off
0
1.0
0.8
0.6
0.4
0
0.2
20
40 60 80
100 °C
P
o
/P
o max
JM017
T
A
0.5 m/s
=
100 LFM
natural cooling
occur due to a failure in the control logic. This protection circuit
is not designed to withstand externally applied overvoltages.
Short Circuit Behaviour
The current limit characteristic shuts down the converter,
whenever a short circuit is applied to its output. It acts self-
protecting, and automatically recovers after removal of the
overload condition (hiccup mode).
Fig. 7
Maximum output power versus ambient temperature
Parallel and Series Connection
The outputs of one or several single- or double-output models
can be connected in series without any precautions, taking into
consideration that the highest output voltage should remain
below 42 V to ensure that the output remains SELV.
Both outputs of the same converter with equal output voltage
(e.g., 5 V / 5 V) can be put in parallel and will share their output
currents almost equally. Parallel operation of single or double
outputs of two or more converters with the same output voltage
may cause start-up problems at initial start-up. This is only
advisable in applications, where one converter is able to
deliver the full load current as, for example, required in true
redundant systems.
Typical Performance Curves
General conditions:
– TA = 25 ºC, unless TC is specified.
– Shutdown pin left open-circuit.
– Trim or R input not connected.
®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 12 of 20 www.power-one.com
Fig. 10
Vo versus Io (typ.) of double-output models (2 x 12 V), with
both outputs in parallel (110IMY15-12-12-8)
7
8
9
10
11
12
13
V
0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 A
I
o
0
05020a
Fig. 12a
Efficiency versus input voltage and load. Typical values
(40IMX15-12-12-8).
Fig. 11
Cross load regulation Vo1 versus Io1 (typ.) for various Io2
(2 x 12 V).
Fig. 13
Flexible load distribution on double-outputs models with
option R (110IMY15-12-12-8R):
Load variation from 0 to 150% of Io1 nom on output 1;
output 2 loaded with 50% of Io2 nom.
Fig. 12b
Efficiency versus input voltage and load. Typical values
(110IMY15-12-12-8)
11
11.5
12
12.5
13
13.5
V
0.2 0.3 0.4 0.5 0.6 0.7 A
I
o1
0.1
05021a
I
o2
= 0.35 A
I
o2
= 0.035 A
60
70
80
90
%
0.5 0.75 1 P
o
/P
o nom
0.25
05167a
V
i min
V
i nom
V
i max
60
70
80
90
%
0.5 0.75
0.25
05168a
V
i min
V
i nom
V
i max
1 P
o
/P
o no
m
V
I
o1
/I
o1 nom
05039-X15a
14
13
12
11
10 0 0.25 0.5 0.75 11.5
V
o2
V
o1
1.25
Fig. 12c
Efficiency versus input voltage and load. Typical values
(48IMS15-12-12-9)
50
60
70
80
90
%
05040a
0.25 0.5 0.75 1 I
o1
/I
o1 nom
V
i nom
V
i max
V
i min
®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 13 of 20 www.power-one.com
Table 8: Vo versus Vext approximate values
Vo nom Typ. values of Rext1 Typ. values of Rext2
[V] Vo [% of Vo nom] Rext1 [kΩΩ
ΩΩ
Ω]Vo [% of Vo nom] Rext2 [kΩΩ
ΩΩ
Ω]
3.3 90 0.47 100 ∞
95 2.7 105 15
100 ∞110 6.8
5.1 90 3.3 100 ∞
95 8.2 105 9.1
100 ∞110 3.9
Auxiliary Functions
Shutdown Function
The outputs of the converters may be enabled or disabled by
means of a logic signal (TTL, CMOS, etc.) applied to the shut-
down pin. If this function is not required, the shut-down pin
should be left open-circuit.
•Converter operating: 2.0 to 20 V
•Converter disabled: –10 to +0.7 V
Adjustable Output Voltage
•R input for single-output models and -0503-models
•Trim input for double-output models
• R input as option R for most double-output models.
As a standard feature, the single- and double-output models
offer adjustable output voltage(s) by using the control input R
or Trim. If the control input is left open-circuit, the output
voltage is set to Vo nom. For output voltages Vo > Vo nom, the
minimum input voltage Vi min (see Electrical Input Data)
increases proportionally to Vo/Vo nom.
Single-output models with synchronous rectifier (G):
The R input is referenced to the secondary side of the
converter. Adjustment of the output voltage is possible by
means of an external resistor connected between the R pin
and either Vo+ or Vo–.
Note: For models with synchronous rectifier the logic for Vo
adjustment differs from other models with R input.
Double-output models with Trim input:
The Trim input is referenced to the primary side. The figure
below shows the topology. Adjustment is possible trough either
an external resistor or an external voltage source Vext.
Fig. 16
Output voltage control for double-output models (without
option R) by means of the Trim input.
Fig. 15
Output voltage control for single-output models, -0503-
models, and double-output models fitted with option R by
means of the R input.
All other models fitted with R-input:
The R input is referenced to the secondary side of the
converter. Adjustment of the output voltage is possible by
means of either an external resistor or a voltage source.
Fig. 14
Output voltage control for single-output models with
synchronous rectifier.
a) Adjustment by means of an external resistor Rext.
Depending upon the value of the required output voltage,
the resistor shall be connected:
either: Between the R pin and Vo– to achieve an output
voltage adjustment range of Vo ≈ 80 to 100 % of Vo nom.
Vo
Rext1 ≈ 4 kΩ • –––––––––
Vo nom – Vo
or: Between the R pin and Vo+ to achieve an output voltage
range of Vo ≈ 100 to 105% of Vo nom.
(Vo – 2.5V)
Rext2 ≈ 4 kΩ • ––––––––––––––––––
2.5 V • (Vo/Vo nom – 1)
b) Adjustment by means of an external voltage Vext between
Vo– and R pin.
The control voltage range is 1.96 to 2.62 V and allows for
adjustment in the range of Vo ≈ 80 to 105% of Vo nom.
Vo • 2.5 V
Vext ≈ ––––––––
Vo nom
Attempting to adjust the output below this range will cause
the converter to shut down (hiccup mode).
Note: Applying an external control voltage >2.75 V may damage
the converter.
R
Vo+
Vo–
Vi+
Vi–
Rext2
Rext1
06131
R
Vo+
Vo-
+
V
ex
t
-
4 kΩ
V
ref
= 2.5 V
Control
logic R
ext1
R
ext2
06029b
Vi–
Vi+
Trim
Vo1+
Vo2–
+
Vext
–
Vi+
Vi–
Rext
Vo1–
Vo2+
06089a
Control
circuit
Vref 2.5 V
®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 14 of 20 www.power-one.com
Table 9b: Vo versus Vext for Vo = 75 to 105% Vo nom;
typical values (Vi nom, Io1/2 = 0.5 Io1/2 nom)
Vo [% Vo nom]Vext [V]
≥105 0
102 1.6
95 4.5
85 9
75 13
Table 9a: Rext for Vo > Vo nom;
approximate values (Vi nom, Io1, 2 = 0.5 Io1/2 nom)
Vo [% Vo nom]Rext [kΩΩ
ΩΩ
Ω]
105 to 108 (107 typically) 0
105 1.5
104 5.6
103 12
102 27
101 68
100 ∞
a) Adjustment by means of an external resistor Rext:
Programming of the output voltage by means of an external
resistor Rext is possible within 100 to 105% of Vo nom. Rext
should be connected between the Trim pin and Vi–.
Connection of Rext to Vi+ may damage the converter. The
table below indicates suitable resistor values for typical
output voltages under nominal conditions (Vi nom, Io = 0.5
Io nom) with either parallel-connected outputs or equal-load
conditions on both outputs.
b) Adjustment by an external voltage source Vext:
For programming the output voltage in the range 75 to
105% of Vo nom, a source Vext (0 to 20 V) is required,
connected between the Trim pin and Vi–. The table below
indicates values Vo versus Vext (nominal conditions Vi nom, Io
= 0.5 Io nom), with either parallel-connected outputs or equal
load conditions on both outputs. Applying a control voltage
>20 V will set the converter into a hiccup mode. Direct
paralleling of the Trim pins of parallel connected converters
is possible.
typically occur in many installations, but especially in battery-
driven mobile applications.
Electromagnetic Comp atibility (EMC)
A suppressor diode together with an input filter forms an
effective protection against high input transient voltages, which
Table 10: Immunity type tests
Phenomenon Standard Class Coupling Value Waveform Source Test In Per- 3
Level mode 2 applied Imped. procedure oper. form.
Electrostatic IEC/EN 2 contact discharge 4000 Vp1/50 ns 330 Ω10 positive and yes B
discharge 61000-4-2 (R pin open) 10 negative
to case 3 air discharge 8000 Vpdischarges
(R pin open)
Electromagnetic IEC/EN 3 5 antenna 20 V/m AM 80% n.a. 80 to 1000 MHz yes A
field 61000-4-3 3 4 3 V/m 4 1 kHz
ENV 50204 3 antenna 10 V/m PM, 50% duty n.a. 900 MHz yes A
cycle, 200 Hz
repetition frequ.
Electrical fast IEC/EN 4 direct +i/–i 4000 Vpbursts of 5/50 ns 50 Ω60 s positive yes B
transients/burst 61000-4-4 3 4 2000 Vp 4 5 kHz rep. rate 60 s negative A 4
transients with transients per
15 ms burst coupling mode
duration and a
300 ms period
Surges IEC/EN 2 +i/–i 1000 Vp1.2/50 μs2 Ω5 pos. and 5 neg. yes B
61000-4-5 3 1 2000 Vp 1 surges
RF conducted IEC/EN 3 +i/–i 10 VAC AM modulated 150 Ω0.15 to 80 MHz yes A
immunity 61000-4-6 2 4 3 VAC 4 80%, 1 kHz
1External components required; see Fig. 6 and table 6.
2i = input, o = output.
3A = normal operation, no deviation from specs., B = temporary deviation from specs. possible.
4Valid for 24IMS15 and 48IMS15
5Corresponds to the railway standard EN 50121-3-2:2000, table 9.1.
Electromagnetic Immunity
®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 15 of 20 www.power-one.com
20IMX15-12-12-8 Peak
PMM 8000 PLUS
Name: 20d12_1
Date: 24.04.06 Time: 16:23
20IMX15D12-con-p
EN 55022 A
dbµV
80
60
20
40
0
0.2 0.5 1 2 5 10 20 MHz
Fig. 18
Example for external circuitry to comply with EN 55011/ EN
55022, level B, conducted.
This filter was designed for a 40IMX15 model.
All capacitors are rated to 100 V, the chokes to 1.5 A
Conducted Emissions
Fig. 17a
Typ. disturbance voltage (peak) at pos. input according to EN
55011/022, measured at Vi nom and Io nom.Output leads 0.1 m,
twisted, input capacitors see table 11 (20IMX15-12-12-8R)
Fig. 17c
Typ. disturbance voltage (peak) at pos. input according to EN
55011/022, measured at Vi nom and Io nom.
Output leads 0.1 m, twisted, input capacitors see table 11
(110IMY15-12-12-8R)
Fig. 17b
Typ. disturbance voltage (peak) at pos. input according to EN
55011/022, measured at Vi nom and Io nom. Output leads 0.1 m,
twisted, input capacitors see table 11 (40IMX15-12-12-8R)
Table 11: Input capacitors to comply with EN 55011/
EN 55022, level A, conducted; see fig. 17a, b, c
Model Ceramic ML Electrolytic capacitor
20IMX15, 24IMS15 0.47 μF/50 V 220 μF/50 V
40IMX15, 48IMS15 0.33 μF/100 V 220 μF/100 V
110IMY15 0.15 μF/ 200 V 4.7 μF/200 V
Fig. 19
Typ. disturbance voltage (peak) at pos. input according to EN
55011/022, measured at Vi nom and Io nom. Output leads 0.1 m,
twisted, input filter as in fig. 18 (40IMX15-12-12-8R)
40IMX15-12-12-8-Peak
PMM 8000 PLUS
Name: 40d12_4
Date: 02.05.06 Time: 09:58
EN 55022 B
dbµV
60
20
40
0
40IMX15D12-F
0.2 0.5 1 2 5 10 20 MHz
40IMX15-12-12-8 Peak
PMM 8000 PLUS
Name: 40d12_1
Date: 24.04.06 Time: 15:2
40IMX15D12-con-p
EN 55022 A
dbµV
80
60
20
40
0
0.2 0.5 1 2 5 10 20 MHz
dbµV
80
60
20
40
0
110IMY15-12-12-9 Peak
PMM 8000 PLUS
Name: 110d12_1
Date: 25.04.06 Time: 08:07
0.2 0.5 1 2 5 10 20 MH
z
110IMY15-D12-con-p
EN 55022 A
®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 16 of 20 www.power-one.com
Temperatures
Table 14: Temperature specifications
Valid for air pressure of 800 to 1200 hPa (800 to 1200 mbar)
Temperature -9 -8 Unit
Characteristics Conditions min max min max
TAAmbient temperature Operational 1 –40 3 71 –40 2 3 85 °C
TCCase temperature –40 3 95 –40 2 3 105
TSStorage temperature Non operational –55 100 –55 105
1See Thermal Considerations
2Start-up at –55 °C, except -RG models (synchronous rectifier)
3–25 °C for all -RG models (synchronous rectifier)
Immunity to Environment al Conditions
Table 12: Mechanical and climatic stress
Test Method Standard Test Conditions Status
Cab Damp heat IEC/EN 60068-2-78 Temperature: 40 ±2 °C Converter
steady state MIL-STD-810D sect. 507.2 Relative humidity: 93 +2/-3 % not
Duration: 56 days operating
Ea 1Shock IEC/EN 60068-2-27 Acceleration amplitude: IMX/IMY15: 100 gn; IMS15: 50 gnConverter
(half-sinusoidal) MIL-STD-810D sect. 516.3 Bump duration: IMX/IMY15: 6 ms; IMS15: 11 ms operating
Number of bumps: 18 (3 each direction)
Eb Bump IEC/EN 60068-2-29 Acceleration amplitude: IMX/IMY15: 40 gn; IMS15: 25 gnConverter
(half-sinusoidal) MIL-STD-810D sect. 516.3 Bump duration: IMX/IMY15: 6 ms; IMS15: 11 ms operating
Number of bumps: 6000 (1000 each direction)
Fc Vibration IEC/EN 60068-2-6 Acceleration amplitude: 0.35 mm (10 to 60 Hz) Converter
(sinusoidal) 5 gn = 49 m/s2 (60 to 2000 Hz) operating
Frequency (1 Oct/min): 10 to 2000 Hz
Test duration: 7.5 h (2.5 h each axis)
Fda Random vibration IEC/EN 60068-2-35 Acceleration spectral density: 0.05 gn2/Hz Converter
wide band Frequency band: 20 to 500 Hz operating
reproducibility Acceleration magnitude: 4.9 gn rms
high Test duration: 3 h (1 h each axis)
Kb Salt mist, cyclic IEC/EN 60068-2-52 Concentration: 5% (30 °C) Converter
(sodium chloride Duration: 2 h per cycle not
NaCl solution) Storage: 40 °C, 93% rel. humidity operating
Storage duration: 22 h per cycle
Number of cycles: 3
1 Covers also EN 50155 /61373 category 1, class B, body mount (= chassis of a coach)
Reliability
Table 13: MTBF
Model Standard Ground Benign Ground Fixed Ground Mobile Unit
TC = 40 °C TC = 40 °C TC = 70 °C TC = 50 °C
20IMX15-12-12-8 MIL-HDBK-217F 697 000 366 000 229 000 312 000 h
20IMX15-15-15-8 Belcore 2 345 000 1 172 000 632 000 317 000
48IMS15-05-05-9 MIL-HDBK-217F 535 000 283 000 179 000 245 000
110IMY15-05-8R MIL-HDBK-217F 485 000 255 000 167 000 223 000
Belcore 1 547 000 774 000 394 000 206 000
®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 17 of 20 www.power-one.com
Mechanical Data
Dimensions in mm.
Fig. 20
Case IMX15, IMS15, IMY15
Weight: <35 g
Fig. 21
Open frame (option Z)
European
Projection
50.8 (2")
40.65 (1.6")
10.5 (0.41")
0.8 (0.03")
45.72 (1.8")
S09011a
1
4
11
17
47 (1.85")
36.83 (1.45")
2.54 (0.1")
Fixing hole for
M2 or KA 22
self-tapping screws
5.08 (0.2")
Measuring point of case temperature T
C
2
3
12
13
15
bottom view
12
48.3 (1.9")
10.5 (0.41") 45.72 (1.8")
S90011a
1
4
11
17
38.8 (1.52")
3 x 5.08 (0.2")
6 x 5.08 (0.2")
2
3
12
13
15
0.8 (0.03")
bottom view
ø 2.54
®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 18 of 20 www.power-one.com
Safety and Inst allation Instructions
Pin allocation
Standards and Approvals
The converters have been approved according to UL/CSA
60950-1 and IEC/EN 60950:2000. 110IMY models are fitted
with a CE mark.
The converters have been evaluated for:
• Building in
• Supplementary insulation input to output, based on their
maximum input voltage (IMX15, IMS15)
• Reinforced insulation input to output, based on their
maximum input voltage (IMY15 models)
• Pollution degree 2 environment (not option Z)
• Connecting the input to a secondary circuit subject to a
maximum transient rating of 1500 V (IMX15, IMS15)
• Connecting the input to a secondary circuit subject to a
maximum transient rating of 2500 V (IMY15)
The converters are subject to manufacturing surveillance in
accordance with the above mentioned UL standard and with
ISO9001:2000.
Railway Applications
To comply with railway standards, all components are coated
with a protective lacquer (except option Z).
Protection Degree
The protection degree of the converters is IP 40, except open-
frame models (option Z).
Cleaning Agents
In order to avoid possible damage, any penetration of cleaning
fluids should be prevented, since the power supplies are not
hermetical sealed.
However, the open-frame models (option Z) leave the factory
unlacquered and may be cleaned and lacquered by the
customer, for instance together with the mother board.
Consult Power-One for the types of cleaning agents.
Isolation
The electric strength test is performed in the factory as routine
test in accordance with EN 50116 and IEC/EN 60950, and
should not be repeated in the field. Power-One will not honor
any warranty claims resulting from electric strength field tests.
Fig. 22
Footprint
1000
5
1
2
3
4
11
12
13
15
17
Bottom view
Installation Instructions
Installation must strictly follow the national safety regulations in
compliance with the enclosure, mounting, creepage,
clearance, casualty, markings and segregation requirements
of the end-use application.
Connection to the system shall be made via a printed circuit
board with hole diameters of 1.4 mm ±0.1 mm for the pins.
The converter must be connected to a secondary circuit.
Do not open the converter.
Ensure that a converter failure (e.g., by an internal short-
circuit) does not result in a hazardous condition.
Input Fuse
To prevent excessive current flowing through the input supply
lines in case of a malfunction an external fuse should be
installed in a non-earthed input supply line; see table 4.
Table 16: Electric strength test voltages
Characteristic Input to output Output to Unit
IMX/IMS15 IMY15 output
Factory test ≥1 s 1.2 3.0 0.1 kVAC
Equivalent DC voltage 1.5 4.0 0.15 kVDC
Insulation resistance >100 >100 - MΩ
at 500 VDC
Partial discharge Consult Power-One - kV
extinction voltage
Table 15: Pin allocation
Pin Standard and Option Z
single double -0503-
1 Vi+ Vi+ Vi+
2 Vi– Vi– Vi–
3 - Trim n.c.
4SD SD SD
5- - -
6- - -
11 - Vo1+ Vo2+
12 - Vo1– Go
13 Vo+ Vo2+ Vo1+
15 Vo– Vo2– Go
17 R n.c. R
®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 19 of 20 www.power-one.com
Description of Options
Table 17: Survey of options
Option Function of option Characteristic
-9 Temperature range NFND See table Temperatures specifications
R R-input and magnetic feedback
i Inhibit
Z Open frame See Mechanical Data
Option -9 versus -8
IMX15 and IMY15 models with -9 (not for new designs) have a
limited temperature range. As a standard, these models with
suffix -8 are rated up to TA = 85 °C; see table Temperature
specifications.
Option R
Magnetic feedback from the output for closer regulation of the
output voltage Vo1 of double output units (standard for single
output units and -0503- models). It enables the adjustment of
the output voltages via the R-input (pin 17) on the secondary
side by an external resistor or an external voltage source. This
function is described in Auxiliary Functions.
Furthermore, the output 1 is accurately regulated like the
single output models. The Trim input (pin 3) is not connected.
Option i: Inhibit
Excludes the shut-down function.
The output(s) of the converter may be enabled or disabled by
means of a logic signal (TTL, CMOS, etc.) applied to the inhibit
pin. No output voltage overshoot will occur, when the converter
is turned on. If the inhibit function is not required, the inhibit pin
Fig. 23
If the inhibit function is not used, the inhibit pin should be
connected to Vi–.
NUCLEAR AND MEDICAL APPLICATIONS - Power-One products are not designed, intended for use in, or authorized for use as critical
components in life support systems, equipment used in hazardous environments, or nuclear control systems without the express written
consent of the respective divisional president of Power-One, Inc.
TECHNICAL REVISIONS - The appearance of products, including safety agency certifications pictured on labels, may change depending on
the date manufactured. Specifications are subject to change without notice.
should be connected to Vi– to enable the output (active low
logic, fail safe).
Voltage on pin i:
Converter operating: –10 V to 0.8 V
Converter inhibited: 2.4 V to Vi max (<75 V) or
pin i left open-circuit:
Vi+
Vi–
i
06070
®
IMX15/IMS15/IMY15 D C-DC Series Data Sheet
15-Watt DC-DC Converters
BCD20008-G Rev AB, 26-Feb-09 Page 20 of 20 www.power-one.com
EC Declaration of Conformity
We
Power-One AG
Ackerstrasse 56, CH-8610 Uster
declare under our sole responsibility that 110IMY15 DC-DC converters carrying the CE-mark
are in conformity with the provisions of the Low Voltage Directive (LVD) 73/23/EEC of the
European Communities.
Conformity with the directives is presumed by conformity with the following harmonised
standards:
•EN 61204:1995 (= IEC 61204:1993, modified)
Low-voltage power supply devices, DC output - Performance characteristics
and safety requirements
•EN 60950:2000 (=IEC 60950:2000)
Safety of information technology equipment.
The installation instructions given in the corresponding data sheet describe correct installation
leading to the presumption of conformity of the end product with the LVD. All 110IMY15 DC-
DC converters are components, intended exclusively for inclusion within other equipment by
an industrial assembly operation or by professional installers. They must not be operated as
standalone products.
Hence conformity with the Electromagnetic Compatibility Directive 89/336/EEC (EMC Directive)
needs not to be declared. Nevertheless, guidance is provided in the data sheets on how
conformity of the end product with EMC standards under the responsibility of the installer can
be achieved, from which conformity with the EMC Directive can be presumed.
Uster, 5 Oct. 2005 Power-One AG
Rolf Baldauf Johann Milavec
Vice-President Engineering Director Projects and IP
