Alcom electronics 2024 Medical Power Solution Guide

Product Information

Specifications

• Brand: Minmax
• Product Type: Medical Safety Power Solutions
• Model: 2024
• Country of Origin: Belgium, The Netherlands
• Year of Establishment: 1990

Product Usage Instructions

• Introduction and Applications
  The Medical Safety Power Solutions by Minmax are engineered to meet the requirements of the IEC 60601 standards for medical electrical equipment and systems.
• Highlighted Performance
  The product line includes Medical Safety 1-20W DC-DC Converters and Medical Safety 24-60W AC-DC Power Supplies, designed for successful application in medical settings.
• Isolation Voltage and Safety Distance
  In the 3rd Edition of the IEC 60601-1 Standard, the isolation voltage and safety distance requirements have been defined to ensure proper insulation and protection. The test voltages and clearance distances must meet the specified criteria for different types of insulation.

Frequently Asked Questions (FAQ)

• Q: What are the key features of Minmax Medical Safety Power Solutions?
  A: The key features include compliance with medical safety standards, reliable performance, and specific models for different power requirements in medical applications.
• Q: How can I ensure the proper use of these products in a medical setting?
  A: It is essential to follow the guidelines provided in the user manual, ensure correct installation by qualified personnel, and regularly inspect the equipment for any signs of damage or malfunction.

PREFACE

MEDICAL SAFETY POWER SOLUTIONS ENGINEERED BY MINMAX

• MINMAX has an extensive history and experience with the design of medical safety DC-DC converters and AC–DC power supplies for demanding applications in both medical and healthcare instrumentation that require medical safety and a reinforced insulation system. MINMAX offers a large standard range of high-isolation and reinforced insulated medical safety DC-DC converters with a power ranging from 1 to 20 W and AC–DC power supplies with a power ranging from 24 to 60 W.
• Given the requirements for medical/healthcare applications for I/O isolation, MINMAX Medical Safety Power Solutions are rated from 3000 to 5000 VAC and possess reinforced insulation and a low leakage current for operator protection (2xMOOP) or patient protection (2xMOPP).
• All medical safety products meet the latest medical safety standards (ANSI/AAMI ES 60601-1 and IEC/EN rd 60601-1 3 edition) and are approved for nominal working voltages of 250 Vrms or higher.
• MINMAX medical safety DC-DC converters and AC–DC power supplies offer cost-effective power solutions for demanding medical and healthcare applications in dental chairs, oral care equipment, infusion pumps, medical assist devices, medical oxygen monitors, medical carts, CT scanning, ultrasound, and many pieces of medical auxiliary equipment.

MEDICAL SAFETY INTRODUCTION AND APPLICATIONS

HISTORY OF THE EDITIONS OF MEDICAL SAFETY STANDARD IEC 60601

• Medical Safety Standard IEC 60601 was first published in 1977; the internationally accepted and approved IEC 60601 standard is the fundamental document that addresses many risks and has been developed to help alleviate safety issues associated with electrical medical and healthcare equipment.
• The standard consists of four distinct parts: the base standard (60601-1), collateral standards (60601-1-x), particular standards (60601-2-x), and performance standards (60601-3-x).
• The base standard, IEC 60601-1, has been adopted in most major countries as a national standard.
• The 3rd edition of the approved IEC 60601-1 medical safety standard was first published by the IEC in 2005 (IEC 60601:2005). The IEC 60601 standard was adopted by the European Union in 2006 and published as EN 60601-1:2006. The 3 edition standard was also published in 2006 by the USA but is different from the 2 edition published by UL. The 3 edition was published by the American Association for Medical Instrumentation (AAMI) and published as ANSI/AAMI ES 60601:2006. Canada published this medical safety standard in 2008 as CAN/ CSA 60601:2008.

The 3 edition of Medical Safety Standard IEC 60601 went into effect at different times depending on the region.

• In Europe, the 2 editions of the IEC 60601-1 standard were withdrawn; all products including both new products introduced to the market and products already on sale need to be certified under the 3 editions of the EN 60601-1 standard before the cessation date. The original cessation date for the 2 edition in the United States is July 1, 2013. The FDA announced an extension to give US medical device designers a slight reprieve, setting the updated transition date to December 31, 2013, and the effective date for the released 3 edition was January 1, 2014. Unlike the EU, the FDA only requires that new products after this date be certified to the ANSI/AAMI ES 60601-1 standard; existing products do not.
• In Canada, the original cessation date for the 2 edition was delayed, as in the USA, with an updated transition date of June 30, 2014. The effective date for the released 3 edition was July 1, 2014. However, only new products after this date need to satisfy the 3 edition.
• All MINMAX medical safety AC–DC power supplies and medical safety DC-DC converters have been certified to the approved 3 edition standard (with twice the means of protection for the majority of power supplies) and also tested against the 2 edition.also tested against the 2 edition.

CHANGES FROM THE 2 EDITION TO THE 3rd EDITION OF THE IEC 60601-1 STANDARD

• In the 2 edition of the IEC 60601-1 standard, the guidelines need to be applied when the electrical medical and healthcare equipment was within the “patient vicinity,” defined as a 6-ft. radius around the patient.
• There were three categories of increasing severity: also tested against the 2 edition.

CHANGES FROM THE 2 EDITION TO THE 3 EDITION OF THE IEC 60601-1 STANDARD

• The 2 edition of the IEC 60601-1 standard only addresses the basic safety issues for protection from any electrical, mechanical, radiation, and thermal hazards. However, it did not require devices to remain functional; a fail-safe was adequate and did not take the essential performance of the device into account in a pass/fail result test. Therefore, the 3rd edition of the IEC 60601-1 standard introduces specifications for “essential performance” that require medical/healthcare equipment to continue functioning throughout the test process. As medical safety AC–DC power supplies and medical safety DC-DC converters have significantly played a crucial role in certified electrical medical and healthcare equipment, th rd e 3 edition of the IEC 60601-1 standard introduces new concepts such as the essential performance of equipment and distinguishes protecting the equipment’s operator and the patient by Means of
• Operator Protection (MOOP) and Means of Patient Protection (MOPP) classification in terms of the separation safety distance, insulation schemes, and dielectric strength requirements.
• The classification determined the mandated or allowed types of levels of isolation, insulation, creepage, air clearance, and leakage current that operators and patients may come into contact with.

ISOLATION VOLTAGE AND SAFETY DISTANCE IN THE 3rd ED ITION OF THE IEC 60601-1 STANDARD

• The 3 edition of the approved IEC 60601-1 safety standard specified that the safety distance for the minimum creepage, air clearance, and isolation voltage must be met in order to avoid risks and to ensure freedom from dangerous energy shocks due to any electrical shocks and excess energy hazards, transient voltage spikes, insulation breakdown of the power architecture, mechanical damage, ignition, fires, shorts developing between PCB tracks and across air gaps, arcing, and ground loops, which comply with the limited leakage current during normal and single-fault conditions.
• The level requirement for the isolation voltage depends on the insulation type, the working voltage, and the degree of pollution, and the insulation barriers must have undergone a high-voltage test.
• From our standpoint at MINMAX, we believe that the power supplies for medical and healthcare equipment should provide the highest degree of protection; therefore, our medical safety DC–DC converters and AC–DC power supplies have 2xMOPP/2xMOOP from the primary side to the secondary side (mains AC to low-voltage DC). This gives medical/healthcare equipment designers flexibility and assurance that there are primary and secondary reinforced insulation barriers in the medical power architecture to ensure long-term safety.

Insulation	MOOP			MOPP
	Air Clearance	Creepage Distance	Test Voltage	Air Clearance	Creepage Distance	Test Voltage

Basic | 1 x MOP |	2.0 mm	3.2 mm	1500 VAC	2.5 mm	4.0 mm	1500 VAC
Double or Reinforced | 2 x MOP |	4.0 mm	6.4 mm	3000 VAC	5.0 mm	8.0 mm	4000 VAC

Insulation test voltages based on 250 VAC working voltage | MOP = Means of protection | MOOP = Means of operation protection | | MOPP = Means of patient protection.

ISOLATION VOLTAGE AND SAFETY DISTANCE IN THE 3 EDITION OF THE IEC 60601-1 STANDARD

LEAKAGE CURRENT IN THE 3 EDITION OF THE IEC 60601-1 STANDARD

• Whether the product is considered MOOP or MOPP, the leakage-current requirements must be met.
• A further change between the 2 and 3 editions is related to the Earth leakage-current requirements.
• The leakage current needs to comply with a limit value to avoid risks and ensure freedom from dangerous energy shocks due to any electrical shock and excess energy hazards, transient voltage spikes, insulation breakdown of the power architecture, mechanical damage, ignition, fire, shorts developing between PCB tracks, air gaps, arcing, and ground loops that the operator or patient may come into direct contact during normal and single-fault conditions.
• Leakage-current tests are designed to simulate a human body coming into contact with different parts of the medical/healthcare equipment. The measured leakage-current values should comply with the acceptable limits.
  • Earth leakage current Current flowing in the earth conductor.
  • Enclosure leakage current Current flowing to earth via the patient from the enclosure.
  • Patient leakage current Current flowing to earth via the patient from an applied part.
  • Patient auxiliary current Current flowing between two applied parts.
• NC = Normal Conditions|
• SFC = Single Fault Conditions|
• *The maximum Earth and enclosure leakage current for patient care equipment in the US is 300 μA.|
• (1) “Enclosure Leakage Current” changed to “Touch Leakage Current” in the 3rd edition of the IEC 60601-1 standard|

INSULATION TYPE
The five different types of insulation grades are listed below.

Functional Insulation	Insulation is necessary only for the correct functioning of the equipment and does not provide any protection against electric shock.
Basic Insulation	Insulation is applied to live parts to protect against electric shock.
Supplementary Insulation	Independent insulation is applied in addition to basic insulation to protect against electric shock in the event of a failure of basic insulation.
Double Insulation	Insulation comprises both basic insulation and supplementary insulation.
Reinforced Insulation	Single insulation system applied to live parts which provide a degree of protection against electric shock equivalent to double insulation.

STRUCTURE OF THE MEDICAL INSULATION SYSTEM

• The figure below shows the insulation system structure and two insulation barriers that provide two Means of Protection (MOP) that must be present within medical/healthcare systems.
• Two insulation barriers are required to ensure that the applied part, which includes both patients and operators, is isolated and protected from dangerous energy shocks due to any electrical shocks and excess energy hazards, transient voltage spikes, insulation breakdown of the power architecture, mechanical damage, ignition, fire, shorts developing between PCB tracks, air gaps, arcing, and ground loops and complies with the limited leakage current during normal and single-fault conditions.
• Within the electrical safety area, medical safety approval requires equipment to implement two Means of Protection (MOP) such that if a failure occurs within one area, a second mechanism safeguards the operator and/or patient against dangerous energy shocks from any electrical shocks and excess energy hazards, transient voltage spikes, and insulation breakdown of the power architecture.
• MINMAX medical safety AC–DC power supplies and medical safety DC-DC converters have been approved for the new 3 edition of the IEC 60601-1 standard with a reinforced insulation level. Further, all medical safety AC–DC power supplies provide 2xMOPP and are suitable as the primary reinforced insulation barrier. All medical safety DC-DC converters provide 2xMOPP or 2xMOOP and are suitable as the secondary reinforced insulation barrier of the insulation system structure to ensure the long-term safety of operators/patients.

Medical/Healthcare Insulation System

• MP: Mains Part
• LP: Live Part = Non-Applied Part Electronic Circuit
• AP: Applied Part = Applied Part Electronic Circuit

MEDICAL EMC STANDARDS

All MINMAX medical safety AC–DC power supplies and DC-DC converters undergo 4 edition medical EMCth (Emission + Immunity) testing of LIFE-SUPPORTING ME EQUIPMENT to help us provide as much information as possible during the design-in process to ensure that medical/healthcare equipment comply with EN 50155: 2009+AI for EMI (Electromagnetic Interference) and EN 60601-1-2: 2015 for EMS (Electromagnetic Susceptibility).

EMC Test Level of Medical Safety DC-DC Converters

EMC Test Level of Medical Safety AC-DC Power Supplies

COST VS. RISKS TO SAFETY

• Although the 3 edition of the IEC 60601-1 standard offers medical/healthcare equipment manufacturers more options related to the choice of power supply, the upcoming question of risk vs. cost must be considered, i.e., a cheaper power supply with lower performance to save a few dollars versus a power supply with higher specifications and safety certification that might cost more but reduce the risk as much as possible. After all, if you get it wrong in medical device design, it can limit your market, compromise your brand, and severely delay regulatory approval or worse.
• As a result, the specifications of medical safety power supplies that are approved at the IEC/EN 60601-1 standard and comply with Means of Protection (MOP) are preferred for medical/healthcare equipment manufacturers.

HIGHLIGHTED PERFORMANCE OF MEDICAL SAFETY PRODUCTS

Ultra-wide Input Voltage Range
Medical/Healthcare Insulation System

• Example: MIW06-24S12M

Fully Vacuum Encapsulated to Save Your System
For the electromagnetic susceptibility and environmental physical stress interference which are protected from acomprehensive protection capabilities.

Reinforced Insulation & 5KVAC Isolation for System Safety

• The 5KVAC I/O isolation with reinforced insulation and vacuum encapsulated creates a solid electrical barrier that protects sensitive circuit load from noise, electromagnetic disturbances, and power bus fluctuation, avoiding the risk and ensuring freedom of dangerous energy shock from any electric shock and excess energy hazards, transient voltage spike, insulation breakdown of power architecture, mechanical damage, ignition, fire and short developing between PCB tracks, air gaps, arcing and ground loop that provide safety on long-term operation of medical/ healthcare equipment.
• Please refer to the “Isolation Voltage and Safety Distance in the 3rd Edition of the IEC 60601-1 Standard & Leakage Current in the 3rd Edition of the IEC 60601-1 Standard & Insulation Type”.
  • Example: MIW06-24S12M

8mm Creepage & Clearance with 2xMOPP Level

• Isolation 5KVAC/60sec with Reinforced Insulation
• Low Leakage Current < 2uA
• Low I/O Isolation Capacitance 40pF max.

Wider Operating Ambient Temperature Range

Wider operating temp. range by latest thermal management technology and fully vacuum encapsulated.

ECO Technology

Green Design for Higher Full-Range Efficiency
High efficiency for whole output load, input line & ambient temp. range by the latest green design technology helps to energy saving, thermal management, and minimize the temp. rise and size miniaturization.

Green Design for Energy Saving, Minimize Temperature Rise

• Ultra-low no-load power consumption by the latest green design technology helps to improve and minimize the temp. rise (avoid thermal problems), energy saving, and prolong the battery life.
  • Very Low No Load Input Current 5mA @ 24Vin
  • Very Low No Load Power Consumption 0.12Watt @ 24Vin

Green Design for No Min. Load /Dummy Load Requirement
With high stability feedback loop design, the MINMAX medical safety power solutions may not oscillate in no-load or light-load condition.

Power Your System Precisely

Setting Accuracy ±1% Vom | Line Regulation ±0.5% | Load Regulation ±0.5% | High Transient Response | Low Temperature Coefficient

• The output voltage will still keep with excellent accuracy, even though the input voltage, output current and ambient temp. of the system are unstable.
• The output voltage of mainstream products may undershoot and overshoot obviously during the load changes. MINMAX medical safety power solutions are still keep with rated output voltage preciously.

Faster Start-up Time without Overshoot

• The start-up time of MIW06M decreases from 250mS to 20mS which helps to avoid any system timing failure caused by long start-up time.
• Faster start-up time without overshoot ensures the safety of your system.

Superior Load Driving Capability
MINMAX medical safety power solutions have superior load driving capability which can drive your system during very low voltage and even zero voltage output without start-up failure.

Excellent EMC Performance
Excellent EMI performance by upgraded noise filtering technology helps to improve overall system EMI performance on conduction and radiation emission.

• No external component needed for conducted emission meets EN 55011 Class A.
• Only few peripheral components needed for radiated emission meets EN 55011 Class B.

Excellent EMS performance by upgraded noise immunity technology helps to improve overall system EMS performance on ESD, Surge, EFT, RS, CS and PFMF.

• Only one E-cap. needed for ±2KV surge immunity by IEC 61000-4-5 with criteria A.
• Only one E-cap. needed for ±2KV EFT immunity by IEC 61000-4-4 with criteria A.

Please refer to the ‘’Medical EMC Standards’’ on Page 09 & 10 for more information.

Lower Ripple & Noise
Small Ripple & Noise for whole output load, input line & ambient temp. range by upgraded noise filtering technology helps to reduce the peripheral components needed and noise interference.

Protection Functions on Abnormal Operation
MINMAX medical safety power solutions are the instantaneous protection for UVP, OCP, OVP & SCP which help to ensure long-term safety of system operation.

Certifications

• UL/cUL/IEC/EN 62368-1(60950-1) Approved
• UL 508 Approved
• Medical Safety IEC/EN 60601-1 & ANSI/AAMI ES 60601-1 Approved
• CE Marking
• Protection Class

MINMAX MEDICAL SAFETY POWER SOLUTIONS

SUCCESSFUL APPLICATIONS

• Dental Equipment
• Medical Panel PC
• Mobile Cart Computer
• ECG, EEG
• Medical Assist System
• CPAP Machine
• CT Scanning
• Healthcare Information System

MEDICAL SAFETY PRODUCTS OVERVIEW

Medical Safety DC-DC Converters

Series

Output Power

Input Voltage Range (VDC)

Output Voltage (VDC)

Isolation (VDC)

Efficiency

Operating Ambient Temp. Range(1)

Output Regulation

No Min. Load

OCP

OVP

SCP

Protection Level

ANSI/AAMI ES 60601-1

IEC/EN 60601-1 3 rd

1W • SIP Package

MAU400

1W

4.5-5.5, 10.8-13.2

5, 12, 15, ±12, ±15

3000VAC Reinforced

75%

-25~+85°C

1xMOPP 2xMOOP

MAU01M

1W

4.5-5.5, 10.8-13.2 21.6-26.4,

5, 12, 15

4000VAC Reinforced

81%

-40~+95°C

2xMOPP

1-2W • SMD Package

MSCU01M

1W

4.5-5.5, 10.8-13.2, 21.6-26.4

5, 12, 15, ±12, ±15

4000VAC Reinforced

84%

-40~+95°C

2xMOPP

MSHU100

2W

4.5-5.5, 10.8-13.2 21.6-26.4,

5, 12, 15, ±12, ±15

4000VAC Reinforced

75%

-25~+80°C

1xMOPP 2xMOOP

2-10W • DIP Package

MDHU100

2W

4.5-5.5, 10.8-13.2 21.6-26.4,

5, 12, 15, ±12, ±15

4000VAC Reinforced

75%

-25~+80°C

1xMOPP 2xMOOP

MIHW2000

3W

9-40, 18-80, 36-160

5, 12, ±12, ±15

4000VAC Reinforced

83%

-40~+85°C

1xMOPP 2xMOOP

MIW03M

3.5W

4.5-9, 9-18, 18-36, 36-75

5, 5.8, 12, 15 ±12, ±15

5000VAC Reinforced

87%

-40~+96°C

2xMOPP

MIW06M

6W

9-18, 18-36, 36-75

5, 12, 15, ±12, ±15

5000VAC Reinforced

89%

-40~+95°C

2xMOPP

MIW10M

10W

9-18, 18-36, 36-75

3.3, 5, 5.1, 12, 15, 24, ±12, ±15

5000VAC Reinforced

88%

-40~+90°C

2xMOPP

10-20W • 2″×1″ Package

MKW15M

15W

9-18, 18-36, 36-75

5, 5.1, 12, 15, 24, ±12, ±15

4200VAC Reinforced

90%

-40~+85°C

2xMOPP

MKW20M

20W

9-18, 18-36, 36-75

5, 5.1, 12, 15, 24, ±12, ±15

4200VAC Reinforced

90%

-40~+80°C

2xMOPP

Medical Safety AC-DC Converters

Series

Output Power

Input Voltage Range (VAC)

Output Voltage (VDC)

Isolation (VDC)

Efficiency

Operating Ambient Temp. Range(1)

Output Regulation

No Min. Load

Package

OCP

OVP

Protection Level

ANSI/AAMI ES 60601-1

IEC/EN 60601-1 3 rd

AJM-24

24W

85-264

5,9,12,15, 24,±12 ±15

4000VAC Reinforced

85%

-40~+80°C

PCB Chassis DIN-Rail

2xMOPP

APM-40

40W

85-264

5,12,15, ±12±15

4000VAC Reinforced

85%

-40~+80°C

PCB Chassis DIN-Rail

2xMOPP

AYM-60

60W

85-264

5.1,12, 15,24,48

4000VAC Reinforced

85%

-40~+80°C

PCB Chassis DIN-Rail

2xMOPP

Please refer to derating curve information form datasheet.

MEDICAL SAFETY • DC-DC CONVERTERS

1W MAU400 Series SIP Package

Model Selection Guide

Model Number	Input Voltage (VDC)	Output Voltage (VDC)	Output Current (mA)max	Efficiency
MAU401		5	200	66%
MAU402		12	80	66%
MAU403		15	65±	66%
	4.5 – 5.5
MAU404		±5	100	66%
MAU405		±12	±40	72%
MAU406		±15	±35	73%
MAU411		5	200	66%
MAU412		12	80	66%
MAU413	10.8 – 13.2	15	65	66%
MAU414		±5	±100	66%
MAU415		±12	±40	74%
MAU416		±15	±35	75%

1W MAU01M Series SIP Package

Model Selection Guide

Model Number	Input Voltage (VDC)	Output Voltage (VDC)	Output Current (mA)max	Efficiency
MAU01-05S05M		5	200	79%
MAU01-05S12M	4.5 – 5.5	12	84	80%
MAU01-05S15M		15	68	81%
MAU01-12S05M		5	200	79%
MAU01-12S12M	10.8 – 13.2	12	84	81%
MAU01-12S15M		15	68	79%
MAU01-24S05M		5	200	76%
MAU01-24S12M	21.6 – 26.4	12	84	79%
MAU01-24S15M		15	68	79%

1W MSCU01M Series SMD Package

Model Selection Guide

Model Number	Input Voltage (VDC)	Output Voltage (VDC)	Output Current (mA)max	Efficiency
MSCU01-05S05M		5	200	76%
MSCU01-05S12M		12	84	80%
MSCU01-05S15M	4.5 – 5.5	15	68	83%
MSCU01-05D12M		±12	±42	80%
MSCU01-05D15M		±15	±33	84%
MSCU01-12S05M		5	200	76%
MSCU01-12S12M		12	84	79%
MSCU01-12S15M	10.8 – 13.2	15	68	80%
MSCU01-12D12M		±12	±42	79%
MSCU01-12D15M		±15	±33	80%
MSCU01-24S05M		5	200	76%
MSCU01-24S12M		12	84	80%
MSCU01-24S15M	21.6 – 26.4	15	68	80%
MSCU01-24D12M		±12	±42	80%
MSCU01-24D15M		±15	±33	80%

2W MSHU100 Series SMD Package

Model Selection Guide

Model Number	Input Voltage (VDC)	Output Voltage (VDC)	Output Current (mA)max	Efficiency
MSHU102		5	400	66%
MSHU104	4.5 – 5.5	12	165	66%
MSHU105		15	133	66%
MSHU108		±12	±83	72%
MSHU109		±15	±66	73%
MSHU112		5	400	66%
MSHU114		12	165	66%
MSHU115	10.8 – 13.2	15	133	66%
MSHU118		±12	±83	74%
MSHU119		±15	±66	75%
MSHU122		5	400	66%
MSHU124		12	165	66%
MSHU125	21.6 – 26.4	15	133	66%
MSHU128		±12	±83	74%
MSHU129		±15	±66	75%

2W MDHU100 Series DIP Package

Model Selection Guide

Model Number	Input Voltage (VDC)	Output Voltage (VDC)	Output Current (mA)max	Efficiency
MDHU102		5	400	66%
MDHU104		12	165	66%
MDHU105	4.5 – 5.5	15	133	66%
MDHU108		±12	±83	72%
MDHU109		±15	±66	73%
MDHU112		5	400	66%
MDHU114		12	165	66%
MDHU115	10.8 – 13.2	15	133	66%
MDHU118		±12	±83	74%
MDHU119		±15	±66	75%
MDHU122		5	400	66%
MDHU124		12	165	66%
MDHU125	21.6 – 26.4	15	133	66%
MDHU128		±12	±83	74%
MDHU129		±15	±66	75%

3W MIHW2000 Series DIP Package

Model Selection Guide

Model Number	Input Voltage (VDC)	Output Voltage (VDC)	Output Current (mA)max	Efficiency
MIHW2022		5	600	78%
MIHW2023		12	250	83%
	9 – 40
MIHW2026		±12	±125	83%
MIHW2027		±15	±100	83%
MIHW2032		5	600	78%
MIHW2033	18 – 80	12	250	83%
MIHW2036		±12	±125	83%
MIHW2037		±15	±100	83%
MIHW2042		5	600	78%
MIHW2043		12	250	83%
	36 – 160
MIHW2046		±12	±125	83%
MIHW2047		±15	±100	83%

3.5W MIW03M Series DIP Package

Model Selection Guide

Model Number	Input Voltage (VDC)	Output Voltage (VDC)	Output Current (mA)max	Efficiency
MIW03-05S05M		5	700	83%
MIW03-05S058M		5.8	600	83%
MIW03-05S12M	4.5 – 9	12	290	84%
MIW03-05S15M		15	235	84%
MIW03-05D12M		±12	±145	84%
MIW03-05D15M		±15	±115	84%
MIW03-12S05M		5	700	83%
MIW03-12S12M		12	290	87%
MIW03-12S15M	9 – 18	15	235	87%
MIW03-12D12M		±12	±145	87%
MIW03-12D15M		±15	±115	87%
MIW03-24S05M		5	700	83%
MIW03-24S12M		12	290	86%
MIW03-24S15M	18 – 36	15	235	87%
MIW03-24D12M		±12	±145	87%
MIW03-24D15M		±15	±115	86%
MIW03-48S05M		5	700	83%
MIW03-48S12M		12	290	86%
MIW03-48S15M	36 – 75	15	235	85%
MIW03-48D12M		±12	±145	84%
MIW03-48D15M		±15	±115	84%

6W MIW06M Series DIP Package

Model Selection Guide

10W MIW10M Series DIP Package

Model Selection Guide

15W MKW15M Series 2”x1” Package

Model Selection Guide

20W MKW20M Series 2”x1” Package

Model Selection Guide

Model Number	Input Voltage (VDC)	Output Voltage (VDC)	Output Current (mA)max	Efficiency
MKW20-12S05M		5	4000	86%
MKW20-12S051M		5.1	4000	86%
MKW20-12S12M		12	1670	89%
MKW20-12S15M	9 – 18	15	1333	88%
MKW20-12S24M		24	840	89%
MKW20-12D12M		±12	±840	89%
MKW20-12D15M		±15	±670	89%
MKW20-24S05M		5	4000	88%
MKW20-24S051M		5.1	4000	88%
MKW20-24S12M		12	1670	89%
MKW20-24S15M	18 – 36	15	1333	89%
MKW20-24S24M		24	840	90%
MKW20-24D12M		±12	±840	90%
MKW20-24D15M		±15	±670	90%
MKW20-48S05M		5	4000	88%
MKW20-48S051M		5.1	4000	88%
MKW20-48S12M		12	1670	89%
MKW20-48S15M	36 – 75	15	1333	90%
MKW20-48S24M		24	840	89%
MKW20-48D12M		±12	±840	89%
MKW20-48D15M		±15	±670	90%

24W AJM-24 Series Encapsulated Package

Model Selection Guide

Model Number	Input Voltage (VAC)	Output Voltage (VDC)	Output Current (mA)max	Efficiency
AJM-24S05		5	3000	77%
AJM-24S09		9	2666	82%
AJM-24S12		12	2000	83%
AJM-24S15	85 – 264	15	1600	82%
AJM-24S24		24	1000	85%
AJM-24D12		±12	±1000	84%
AJM-24D15		±15	±800	84%

40W APM-40 Series Encapsulated Package

Model Selection Guide

Model Number	Input Voltage (VAC)	Output Voltage (VDC)	Output Current (mA)max	Efficiency
APM-40S05		5	8000	81%
APM-40S12		12	3330	84%
APM-40S15		15	2660	85%
APM-40S24	85 – 264	24	1660	84%
APM-40D12		±12	±1660	84%
APM-40D15		±15	±1330	85%

60W AYM-60 Series Encapsulated Package

Model Selection Guide

Model Number	Input Voltage (VAC)	Output Voltage (VDC)	Output Current (mA)max	Efficiency
AYM-60S051		5.1	10000	84%
AYM-60S12		12	5000	87%
AYM-60S15	85 – 264	15	4000	87%
AYM-60S24		24	2500	87%
AYM-60S48		48	1250	88%

DC-DC CONVERTERS·AC-DC POWER SUPPLIES | 1-150W

GENERAL INDUSTRIAL

DC-DC CONVERTERS

AC-DC POWER SUPPLIES

RAILWAY CERTIFIED

DC-DC CONVERTERS

ULTRA-HIGH ISOLATION

DC-DC CONVERTERS

MEDICAL SAFETY

DC-DC CONVERTERS

AC-DC POWER SUPPLIES

Contact Information

• Singel 3 | B-2550 Kontich | Belgium
• Tel. +32 (0)3 458 30 33
• info@alcom.be
• www.alcom.be
• Rivium 1e straat 52 | 2909 LE Capelle aan den Ijssel | The Netherlands
• Tel. +31 (0)10 288 25 00
• info@alcom.nl
• www.alcom.nl.

Documents / Resources

Alcom electronics 2024 Medical Power Solution Guide [pdf] User Guide 2024, 2024 Medical Power Solution Guide, 2024, Medical Power Solution Guide, Power Solution Guide, Solution Guide, Guide

References

• User Manual