Nu Horizons Portal Asia Pacific - July 2009

Featured Products XL375 Series Power Supply Family

N2Power's latest small, high efficiency XL375 AC -DC Series power supply family again leads the power density race. Our advanced technology yields a very small footprint, reduces wasted power, and offers the highest power density in its class. High efficiency means reduced energy costs, greater return on your investment, greater reliability and longer product life.

In This Issue:

APAC Edition July 2009

AC-DC Power Supplies

LPS100-M & LPS200-M Medical & ITE Approved AC-DC Power Supplies High Efficiency 100-250 Watts MEDICAL & ITE SAFETY APPROVALS The LPS100-M and LPS200-M features ITE, non-patient contact and non-patient critical medical safety approvals. In addition, the units comply with the rigorous EN55022-B and FCC part 15 Level B EMC conducted and meet all applicable immunity standards. These power supplies carry a wide set of safety approvals as well, with UL/TUV/cULus 60950-1. COMPACT OPEN-FRAME DESIGN Both series utilize a compact open-frame design. The LPS100-M has a 2 x 4 inch footprint with a height of 1.29 inches and the LPS200-M has a 3 x 5 inch footprint with a height of 1.32 inches.

LPS103-M

USE ANYWHERE IN THE WORLD The LPS100-M and LPS200-M offer a unversal input of 90-264 Vac enabling these power supplies to be used anywhere in the world and are capable of operating from a 120-300 Vdc input. APPLICATIONS The power supplies are primarily intended for use in information technology equipment (ITE) and light industrial systems, as well as for equipment intended for non-patient contact and nonpatient critical use in low power medical, dental and laboratory applications.

Features

Benefits

Applications

 Compact open-frame footprints  Less than 1U high  88% efficiency at full load  Power density: 11-14 watts/in3  Medical & ITE safeties  Remote sense & power fail  Adjustable main output  Isolated 12 V fan output  Enclosure kit available

 Perfect for space restricted applications  Universal AC input for global use  Pre-approved for medical & ITE applications  Minimize input current distortion  Compliance with international EN61000-3-2 standards  Protections include: overvoltage, overtemperature & short-circuit conditions

 Information Technology  Industrial Systems  Non-Patient Critical Medical  Non-Patient Critical Dental  Laboratory Equipment  Instrumentation  Servers & Storage  Telecommunications

Series

Output

LPS100-M LPS200-M

Maximum Load

Peak Load

Regulation

3.1 A - 24 A

3.5 A - 30 A

± 2%

5.2A - 40 A

5.8 A - 44 A

± 2%

Convection Cooling

30CFM Forced Air

5 V - 48 V

2.1 A - 16 A

5 V - 48 V

2.6 A - 20 A

Visit www.PowerConversion.com/go/AC-DC for more information 2

LPS203-M

Small, high efficiency design: over 15 Watts per in3 POWER SUPPLY DESIGN LEADER N2Power's latest small, high efficiency XL375 AC -DC Series power supply family again leads the power density race. Our advanced technology yields a very small footprint, reduces wasted power, and offers the highest power density in its class. High efficiency means reduced energy costs, greater return on your investment, greater reliability and longer product life. UNMATCHED POWER DENSITY With an overall height of 1.5" and a 3.3" x 5" footprint, the XL375 Series boasts a power density over 15 watts per cubic inch. It is ideally suited for OEMs using the industry standard 1U chassis. Seven models deliver output voltages from 12V to 56V, and up to four units can be wire-OR'ed together to increase the total main output power up to 1,400 watts. HIGH EFFICIENCY IN A SMALL PACKAGE The XL375 Series delivers up to 93% efficiency. Our unique design reduces energy consumption and generates less heat. It requires little forced air cooling, decreases AC loading, increases reliability and economy of operation. Comparisons of efficiencies show that our supplies can reduce losses up to 50%. REPEATABLE QUALITY Each N2Power supply undergoes a complete functional test and a multi-hour burn-in to insure that every unit meets our stringent quality requirements. Each power supply design is also rigorously tested by UL, DEMKO, and European agencies, with scheduled factory audits to ensure ongoing compliance.

XL375-54 +54VDC

XL375-56 +56VDC

   

Benefits     

Active current sharing for N, N+1 Remote On / Off 5V standby supply 12V aux output

Applications

Requires little forced air cooling High power density: >15W / in3 Saves design space Reduced power consumption Increased reliability

   

Telecom systems Test and measurement Gaming systems LED lighting control systems

±3

30.0

100 mV

12

±5

1.0

80 mV

V3

5sb*

±5

1.0

50 mV

V1

24

±3

15.0

200 mV 80 mV

V2

XL375-48 +48VDC

375W AC-DC 12V, 24V, 28V, 40V, 48V, 54V and 56V models 3.3” x 5” x 1.5” footprint Up to 93% efficient

12

V1 XL375-12 +12VDC

XL375-40 +40VDC

   

RIPPLE & NOISE (P-P)

VOLTAGE

XL375-28 +28VDC

Features

MAXIMUM CURRENT (A)

OUTPUT

XL375-24 +24VDC

XL375-12 AC -DC

REGULATION(%)

MODEL

AC-DC Power Supplies

N2Power™ Launches XL375 Series Power Supply Family

V2

12

±5

1.0

V3

5sb*

±5

1.0

50 mV

V1

28

±3

12.8

200 mV 80 mV

V2

12

±5

1.0

V3

5sb*

±5

1.0

50 mV

V1

40

±3

9.0

200 mV

V2

12

±5

1.0

80 mV

V3

5sb*

±5

1.0

50 mV

V1

48

±3

7.5

200 mV

V2

12

±5

1.0

80 mV

V3

5sb*

±5

1.0

50 mV

V1

54

±3

6.7

200 mV

V2

12

±5

1.0

80 mV

V3

5sb*

±5

1.0

50 mV

V1

56

±3

6.4

200 mV

V2

12

±5

1.0

80 mV

V3

5sb*

±5

1.0

50 mV

All outputs are isolated from the chassis and share a common return. *12Vsb optional

For more information, including pricing, availability, datasheets and samples (if available), please visit http://ap.nuhorizons.com/FeaturedProducts

3

Av ai la bl e

no w

fr om

Offering of

Input Ranges

From the Industry’s largest supplier of board mount power

UEI15 Series UEI30 Series

UEI Series

UWE Series

UQQ Series

t
Ultra-wide input ranges: 9-36V & 18-75V t
Industry standard open frame package and pinout t
Outstanding thermal derating performance t
High efficiency; excellent power density Series

Package

Power

Output Voltages

Data Sheet

UEI15

1 x 1”

15W

3.3 to 15Vout

http://www.murata-ps.com/uei15

UEI30

1 x 2”

30W

3.3 to 15Vout

http://www.murata-ps.com/uei30

1.6 x 2”

50-60W

3.3 to 15Vout

http://www.murata-ps.com/uei

UWE

1/8 Brick

to 75W

3.3 to 24Vout

http://www.murata-ps.com/uwe

UQQ

1/4 Brick

to 100W

3.3 to 24Vout

http://www.murata-ps.com/uqq

UEI

www.murata-ps.com

4

The MIC3230/1/2 are constant current boost switching controllers specifically designed to power one or more strings of high power LEDs. The MIC3230/1/2 have an input voltage range from 6V to 45V and are ideal for a variety of solid state lighting applications. The MIC3230/1/2 utilizes an external power device which offers a cost conscious solution for high power LED applications. The powerful drive circuitry can deliver up to 70W to the LED system. Power consumption has been minimized through the implementation of a 250mV feedback voltage reference providing an accuracy of ±3%. The MIC323x family is dimmable via a pulse width modulated (PWM) input signal and also features an enable pin for low power shutdown.

Features

Applications

 6V to 45V input supply range  Capable of driving up to 70W  Ultra low EMI via dithering on the MIC3231  Programmable LED drive current  Feedback voltage = 250mV ±3%  Programmable switching frequency (MIC3230/1) or 400kHz fixed frequency operation (MIC3232)  PWM Dimming and separate enable shutdown  Frequency synchronization with other MIC3230s  Protection features:  Over Voltage Protection (OVP)  Over temperature protection  Under-voltage Lock-out (UVLO)

 Street Lighting  Solid State Lighting  General Illumination  Architectural Lighting  Constant Current Power Supplies

Boost Controller

High Voltage, High Power LED Drivers Synchronization, Dithering and Fixed Frequency Boost Controller

For more information, including pricing, availability, datasheets and samples (if available), please visit http://ap.nuhorizons.com/FeaturedProducts

5

C urrent D river

4-Channel Adjustable Current I²C Controlled LED Driver Full Color Spectrum RGBW/RGBA Software Control The XRP7620 is a multi purpose 4-channel independently adjustable current sink driver. Optimized for LED backlighting and RGBW/ RGBA color mixing applications, the XRP7620 can also be used as a generic software programmable current sink I/O expander. Support an industry standard 2-line I²C serial interface, the XRP7620 provides full independent control of each channel and can be programmed up to a current of 31.5mA in steps of 500μA. Uniform display brightness is ensured through a better than 3% channel to channel current matching. Five internal registers are provided to set operational configuration and individual channel current adjustment. A specific shutdown mode allows the device to retain the previously loaded configuration – operational and current adjustment – in order to be reused upon the next enabling. The XRP7620 is designed to operate from a single cell lithium-ion battery or fixed 3.3V or 5.0V power rails and is available in a RoHS compliant, “green”/halogen free space saving 8-pin 2mm x 3mm DFN package.

Features

Benefits

 4-Channel LED Current Sink Driver

 First LED Driver to Support the I²C Bus Interface  Extremely Small Packaging Size Ideal for Tight Design Environments: LCD and Keypad Backlighting, Mobile Applications  Device can be Driven from Single Cell Lithium-ion Battery or

 Individual Channel Current Control

 Up to 31.5mA per channel / 500μA Steps



 100mV Channel Dropout Voltage

 I²C Serial Interface Control



Fixed 3.3V or 5.0V Power Rails

 2.7V - 5.5V Input Voltage Range  3% Channel Current Matching  Configuration Retention in Shutdown  Shutdown Current <1μA  Thermal and UVLO Built-in Protection  “Green”/Halogen Free 2x3mm 8-Pin DFN package

XRP7620 Block Diagram

6

Applications  Color Coded Indicator Lighting  RGBW/RGBA Color Mixing  Cell Phones & Handheld Devices  Generic Current Sink I/O Expander

Wide input range, current mode, DC/DC controller capable of generating either + or – output voltages The LT3757 is a wide input range, current mode, DC/DC controller which is capable of generating either positive or negative output voltages. It can be configured as either a boost, flyback, SEPIC or inverting converter. The LT3757 drives a low side external N-channel power MOSFET from an internal regulated 7.2V supply. The fixed frequency, current-mode architecture results in stable operation over a wide range of supply and output voltages.

D C /D C C ontroller

LT3757 - Boost, Flyback, SEPIC and Inverting Controller

The operating frequency of LT3757 can be set with an external resistor over a 100kHz to 1MHz range, and can be synchronized to an external clock using the SYNC pin. A low minimum operating supply voltage of 2.9V, and a low shutdown quiescent current of less than 1μA, make the LT3757 ideally suited for battery-operated systems. The LT3757 features soft-start and frequency foldback functions to limit inductor current during start-up and output short-circuit. The device is available in a small 10-lead DFN (3mm × 3mm) or MSOP package.

Features  Wide Input Voltage Range: 2.9V to 40V  Positive or Negative Output Voltage Programming with a Single Feedback Pin  Current Mode Control Provides Excellent Transient Response  Programmable Operating Frequency (100kHz-1MHz) with One External Resistor  Synchronizeable to an External Clock  Output Overvoltage Protection  Low Shutdown Current < 1μA  Internal 7.2V Low Dropout Voltage Regulator  Programmable Input Undervoltage Lockout with Hysteresis  Programmable Soft-Start  Small 10-Lead DFN (3mm × 3mm) and Thermally Enhanced 10-Pin MSOP Packages

Applications  Automotive and Industrial Boost, Flyback, SEPIC and Inverting Converters  Telecom Power Supplies  Portable Electronic Equipment

For more information, including pricing, availability, datasheets and samples (if available), please visit http://ap.nuhorizons.com/FeaturedProducts

7

D C -D C C onverters

SynQor’s Ruggedized DC-DC Converters The power behind Industrial Application Products

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High Voltage Non-Isolated DC-DC Converters http://www.synqor.com/niqor/niqor-hivolt.html IQ12 Ŷ Ŷ Ŷ Ŷ Ŷ

Input Range: 9-25V Max. Power: 182W Eff. @3.3V: 91%

Product Family: NiQor (High-Voltage) 8OWUDKLJKHI¿FLHQF\XSWR :LGHLQSXWYROWDJHUDQJHV99DQG9 0D[LPXPLQSXWRXWSXWFXUUHQWVXSWR$ 6XLWDEOHIRUXVHLQ,QWHUPHGLDWH%XV$UFKLWHFWXUHV,%$

EMI Filters

IQ24 Input Range: 18-50V Max. Power: 504W Eff. @3.3V: 93%

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2:1 Vin

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IQ48 Input Range: 34-75V Max. Power: 255W Eff. @3.3V: 91% IQ72 Input Range: 42-110V Max. Power: 150W Eff. @3.3V: 91% IQ1B Input Range: 66-160V Max. Power: 150W Eff. @3.3V: 91%

SynQor’s ruggedized dc/dc converters... the power behind industry www.synqor.com

w w w. s y n q o r.co m nuho-ad_v2.indd 2

IQ70 Input Range Max. Power: Eff. @3.3V:

IQ4H Input Range: 180-425V Max. Power: 150W Eff. @3.3V: 90%

®

8

IQ18 Input Range Max. Power: Eff. @3.3V:

®

SynQ www.synqor.com 6/15/2009 9:14:28 PM

D C -D C C onverters

InQor® DC-DC Converters The power behind industry

InQor DC-DC Converters ®

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Product Matrix Input Voltage Range 2:1 Vin IQ12 Input Range: 9-25V Max. Power: 182W Eff. @3.3V: 91% IQ24 Input Range: 18-50V Max. Power: 504W Eff. @3.3V: 93%

Product Families

4:1 Vin

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Product Matrix IQ18 Input Range: 9-40V Max. Power: 182W Eff. @3.3V: 91% IQ36 Input Range: 18-75V Max. Power: 220W Eff. @3.3V: 92%

IQ48 Input Range: 34-75V Max. Power: 255W Eff. @3.3V: 91% IQ72 Input Range: 42-110V Max. Power: 150W Eff. @3.3V: 91%

Ŷ :LGHRSHUDWLQJLQSXWYROWDJHUDQJ Ŷ )L[HGIUHTXHQF\VZLWFKLQJSURYLG

2:1 Vin

IQ32 Input Range: 9-75V Max. Power: 165W Eff. @3.3V: 88% IQ64 Input Range: 18-135V Max. Power: 200W Eff. @3.3V: 90%

IQ70 Input Range: 34-135V Max. Power: 240W Eff. @3.3V: 91%

Product Families

IQ1B Input Range: 66-160V Max. Power: 150W Eff. @3.3V: 91% IQ4H Input Range: 180-425V Max. Power: 150W Eff. @3.3V: 90%

IQ12 Input Range: 9-25V Max. Power: 182W Eff. @3.3V: 91% IQ24 Input Range: 18-50V Max. Power: 504W IQ90 Eff. @3.3V: 93% Input Range: IQ4834-160V Max. Power: Input 228W Range: 34-75V Eff. @3.3V: Max.90% Power: 255W Eff. @3.3V: 91% IQ72 Input Range: 42-110V Max. Power: 150W Eff. @3.3V: 91%

IQ18 Input Ran Max. Pow Eff. @3.3

IQ70 Input Ran Max. Pow Eff. @3.3

IQ1B Input Range: 66-160V Max. Power: 150W Eff. @3.3V: 91% IQ4H Input Range: 180-425V Max. Power: 150W Eff. @3.3V: 90%

®

SynQor’s ruggedized dc/dc converters... the power behind industry www.synqor.com

w w w. s y n q o r. co m For more information, including pricing, availability, datasheets and samples (if available), please visit nuho-ad_v2.indd 3 http://ap.nuhorizons.com/FeaturedProducts

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Syn www.synqor.com

9

6/15/2009 9:14:28 PM

Fundamentals of Electronics Courses Need a refresher or introduction on a new technology or new product design? Check out a TechOnline Fundamentals of Electronics Course. Each course is designed to provide you with an objective introduction to critical technologies and concepts within a specific electronics domain.

Spotlight on: Fundamentals of Linear Regulators Course Description A basic building block in power supply design, linear regulators provide an inexpensive, low noise, and easy-to-use solution for delivering the stable DC voltages needed to power the analog and digital electronics in applications of every type. This course will offer designers - especially those working with digita circuits - an overview geared to help them better select and use these vital components.

b What is a linear regulator? b Basic operation b Linear vs. switching regulators b Types of linear regulators b Basic specifications b Design considerations b Selecting a linear regulator b Trends Linear regulator FAQ b Real questions received by Linear Technology's technical support department The course will also include an example of a linear regulator application. http://www.techonline.com/learning/course/217100174

Upcoming Fundamentals of Electronics courses

b�Fundamentals of Mixed-Signal FPGAs b�Fundamentals of DSP Fundamentals of Embedded b�Systems Security

Fundamentals of Embedded b�Software Optimization

b�Fundamentals of Data Converters b�Fundamentals of FPGAs

b�Fundamentals of Microcontrollers Fundamentals of Multicore b�Processing

For other Fundamentals of Electronics Courses go to techonline.com/learning/course

TM

POWER SUPPLY DESIGN LEADER N2Power enters the DC-DC power supply market with comprehensive 125 watt and 160 watt families based on its proven XL125 and XL160 AC-DC Series products. Years of experience with these chassis translates directly to confidence right from the start of production. UNMATCHED POWER DENSITY Eight XL125 DC-DC models and seven XL160 DC-DC models deliver a range of outputs from 3.3V to 48V. Physical dimensions of just 1.25” x 3” x 5” mean easy integration into existing designs replacing older, less efficient products. They are also ideally suited for new OEM designs where the small formfactor frees up valuable “real estate” that can be reallocated to other purposes. HIGH EFFICIENCY IN A SMALL PACKAGE These new DC-DC Series supplies deliver up to 90% efficiency. Our unique design reduces energy consumption and generates less heat. It requires little forced air cooling, increases reliability and economy of operation. Comparisons of efficiencies show that our supplies can reduce losses up to 50%. REPEATABLE QUALITY Each N2Power supply undergoes complete functional testing and a multi-hour burn-in to insure that every unit meets stringent quality requirements. Each power supply design is rigorously tested by UL, DEMKO, and European agencies, with scheduled factory audits to ensure ongoing compliance.

MODEL

XL160-1DC

XL160-2DC

XL160-3DC

XL160-4DC

XL160-5DC

XL160-6DC

XL160-8DC

* Isolated outputs for + / - use

DC-DC Power Supplies

N2Power™ Launches 125W and 160W DC-DC Power Supplies

XL160DC-DC

Features      

Benefits

125W and 160 W DC-DC 3.3V, 12V, 15V, 24V and 48V models 5V +12V and 5V ±12V models 1.5” x 3” x 5” footprint Up to 90% efficient Built in OR’ing diodes for N, N+1

   

Requires little forced air cooling Saves design space Reduced power consumption Increased reliability

Applications  Telecom systems  Test and measurement

 Gaming systems  LED lighting control systems

OUTPUT

VOLTAGE

REGULATION(%)

MAXIMUM CURRENT (A)

RIPPLE & NOISE (P-P)

V1

3.3

±2

15.0

50 mV

V2

5

±4

20.0

50 mV

V3

12

±5

6.0

120 mV

V4

-12

±5

1.0

120 mV

V1*

5

±3

32.0

50 mV

V2

12

±5

1.0

120 mV

V1*

12

±3

13.3

120 mV

V2‡

12

±5

1.0

120 mV

V1*

15

±3

10.7

150 mV

V2‡

12

±5

1.0

120 mV

V1*

24

±3

6.7

240 mV

V2‡

12

±5

1.0

120 mV

V1*

48

±3

3.3

480 mV

V2‡

12

±5

1.0

120 mV

V1

5

±4

20.0

50 mV

V2

12

±5

6.0

120 mV

V3

-12

±5

1.0

120 mV

‡ Isolated from main output

For more information, including pricing, availability, datasheets and samples (if available), please visit http://ap.nuhorizons.com/FeaturedProducts

11

P FC C ontroller

NCP1608 is the newest device in the ON Semiconductor family of power factor correction (PFC) controllers. NCP1608 is specifically designed for use as a pre-converter in ac-dc adapters, electronic ballasts, and other medium power off-line converters (typically up to 350 W). It uses Critical Conduction Mode (CrM) to ensure near unity power factor across a wide range of input voltages and output power. NCP1608 minimizes the number of external components by integrating safety features, making it an excellent choice for designing robust PFC stages. Packaged in SOIC-8, the device is Pb-free and Halide-free.

12

General Features

Safety Features

 Near Unity Power Factor  No Input Voltage Sensing Requirement  Latching PWM for Cycle−by−Cycle On Time Control (Voltage Mode)  Wide Control Range for Excellent Noise Immunity  Transconductance Error Amplifier  High Precision Voltage Reference (±1.6% Over the Temperature Range)  Very Low Startup Current Consumption (≤ 35 µA)  Low Typical Operating Current Consumption (2.1 mA)  Source 500 mA / Sink 800 mA Totem Pole Gate Driver  Undervoltage Lockout with Hysteresis  Pin−to−Pin Compatible with Industry Standards

 Overvoltage Protection  Undervoltage Protection  Open/Floating Feedback Loop Protection  Overcurrent Protection  Accurate and Programmable On Time Limitation

Typical Applications  Solid State Lighting  Electronic Light Ballast  AC Adapters, TVs, Monitors  All Off−Line Appliances Requiring Power Factor Correction

Wireless

NCP1608 Critical Conduction Mode PFC Controller Utilizing a Transconductance Error Amplifier

Delivers lowest-in-industry heat dissipation, eliminating the need for expensive heat sinks The LTC4266 is a quad Power Sourcing Equipment (PSE) controller designed for use in IEEE 802.3 Type 1 and Type 2 (high power) compliant Power over Ethernet (PoE) systems. The LTC4266 delivers lowest-in-industry heat dissipation by utilizing low Ron external MOSFETs and 0.25Ω sense resistors, eliminating the need for expensive heat sinks. External MOSFETs also provide a more robust solution compared to integrated MOSFETs.

P OE C ontroller

LTC4266 - Quad IEEE 802.3at Power Over Ethernet Controller

Advanced power management features include: selectable high speed 9.5-bit (1kHz) or high resolution 14.5-bit current and voltage readback, a 7-bit DAC for overcurrent (ICUT), a unique nonlinear 8-bit programmable current limit (ILIM) and versatile quick shutdown of preselected ports. PD Discovery uses a proprietary dual-mode 4-point detection mechanism ensuring the best immunity from false PD detection. Midspan PSEs are supported with 2-event classification and a two second backoff timer. Legacy highcapacitance device detection is available. The LTC4266 includes an I2C serial interface operable up to 1MHz. The LTC4266 is also a good choice for proprietary PoE PSE systems which may require more power than the new IEEE 802.3at standard allows. The LTC4266 can source up to 100W (4-pair) while otherwise remaining 100% compliant with IEEE 802.3at.

Features  Four Independent PSE Channels  Compliant with IEEE 802.3at Type 1 and 2  0.34Ω Total Channel Resistance  130mW/Port at 600mA  Advanced Power Management

 8-Bit Programmable Current Limit (ILIM)  7-Bit Programmable Overload Currents (ICUT)  Fast Shutdown of Preselected Ports  14.5-Bit Port Current/Voltage Monitoring  2-Event Classification

 Very High Reliability 4-Point PD Detection:  2-Point Forced Voltage  2-Point Forced Current  High Capacitance Legacy Device Detection  LTC4259A-1 and LTC4258 Pin and SW Compatible  Supports 2-Pair and 4-Pair Output Power  1MHz I2C Compatible Serial Control Interface  Midspan Backoff Timer  Supports Proprietary Very High Power Up to 100W  Available in 38-Pin 5mm × 7mm QFN, and 36-Pin SSOP Packages

Applications  PoE PSE Switches/Routers  PoE PSE Midspans

For more information, including pricing, availability, datasheets and samples (if available), please visit http://ap.nuhorizons.com/FeaturedProducts

13

fr om no w e bl la Av ai

OKX Series

inspectable LGA

OKL Series

10 & 16 Amp (SIP)

3 Amp (iLGA)

OKY Series

OKR Series

3, 5, 10 & 16 Amp (SMT)

3 Amp (SIP)

A New Breed of PoLs From the World’s No.1 DC/DC Converter Manufacturer t
Competitive alternative to DOSA PoL converters t Cost-effective compared to discrete designs inspectable LGA

t Outstanding thermal derating performance t Simulation software available on request

Input

Options

Voltage

Power

Voltage

VDC

W

VDC

On/Off Logic Sequence / Track Pos Neg

Output Current

Efficiency

Package

t OKL features inspectable Land Grid Array (iLGA) Root Part Number

93%

OKL-T/3-W12

93%

OKR-T/3-W12



94%

OKY-T/3-W5





92%

OKY-T/3-D12

5 (2.4-5.5)





96%

OKY-T/5-W5

12 (8.3-14)





92%

OKY-T/5-D12













OKL

3 Amp

0.591-5.5

15

12 (4.5-14)



OKR

3 Amp

0.591-5.5

15

12 (4.5-14)



0.75-3.63

10.9

5 (2.4-5.5)



0.75-5.5

15

12 (8.3-14)

0.75-3.63

18

0.75-5.5

25

3 Amp 5 Amp OKY 10 Amp

0.75-5.5

50

12 (8.3-14)

16 Amp

0.75-5.5

80

12 (8.3-14)

10 Amp

0.75-5.5

50

12 (8.3-14)







OKX 16 Amp

0.75-5.5

80

12 (8.3-14)





94.5% OKY-T/10-D12 

94.5% OKY2-T/10-D12 94%

  

OKY-T/16-D12

94%

OKY2-T/16-D12

94%

OKX-T/10-D12

94%

OKX2-T/10-D12

94%

OKX-T16-D12

94%

OKX2-T/16-D12

www.murata-ps.com/okami

NuHoPortalAd01_July09.indd 1

14

08/06/2009 16:33:52

Small - Reliable - Efficient CONVENIENT DESIGN The LGA C-Series high-density power converters are packaged in a 16.26 x 16.26 mm outline and utilize an identical footprint for all models (3A, 6A, 10A and 20A) that provides designers a convenient power migration path as system requirements change. The power converter’s ultra compact Land Grid Array (LGA) packaging enables a uniform, low profile form factor ideal for space restricted boards. The LGA C-Series can be mounted on either side of many circuit boards and offers designers an opportunity to employ a variety of conductive cooling techniques via either surface. BEST-IN-CLASS FEATURES Fully equipped with a variety of best-in-class features including under-voltage lockout, differential remote sense, power good signal, output margining and shortcircuit protection, the LGA C-Series ensures a high power reliable unit at a competitive price point.

P ow er C onverters

LGA C-Series High Density Non-Isolated Board-Mount Power Converters

LGA10C-00SADJJ

MINIMAL OUTPUT DERATING The LGA C-Series delivers high efficiency of 92%, typical at full load under nominal conditions. Its ultra compact packaging and low profile construction allows for bilateral heat transfer and low apparent net thermal resistance once mounted on a typical circuit board. These enable the LGA modules to operate up to 85 °C max ambient temperature with almost no derating on the output for most versions. Various external heatsink accessories are also available if extended temperature operations are desired.

Features

Benefits

 3A, 6A, 10A & 20A modules

 Identical footprints for easy

 15 - 100 W scalable power



 16.26 x 16.26mm package

 Flexible space management

 Low Profile: 3.27mm typical

 Compatible with variety of

 92% typical efficiency



 RoHS compliant

 High power reliability

power migration path

input bus voltage

Applications

REDUCING MODULE TYPES With a wide adjustable output range from 0.59 to 5.1 Vdc through external resistor trimming, the LGA C-Series reduces the number of module types needed to support multiple applications.

 Distributed Power Architecture

 FPGA, ASIC, DSP Power

 Battery Powered Applications



 Enterprise Networks/Servers

 Telecom Equipment

 Storage/Memory/µProcessors

 Industrial Equipment

Applications

Regulation

Model

Output Voltage Range

Input Voltage

Maximum Current

Line

Load

LGA03C-00SADJJ

0.59 - 5.1 VDC

3 - 13.8 VDC

3A

± 0.2%

± 0.5%

LGA06C-00SADJJ

0.59 - 5.1 VDC

3 - 13.8 VDC

6A

± 0.2%

± 0.5%

LGA10C-00SADJJ

0.59 - 5.1 VDC

3 - 13.8 VDC

10 A

± 0.2%

± 0.5%

LGA20C-01SADJJ

0.59 - 5.1 VDC

4.5 - 13.8 VDC

20 A

± 0.2%

± 0.5%

Visit www.PowerConversion.com/LGA for more information

For more information, including pricing, availability, datasheets and samples (if available), please visit http://ap.nuhorizons.com/FeaturedProducts

15

µModule Power Supplies

Compact Power Supplies for FPGABased Systems Tiny µModule Power Supplies Fit on Either Side of PC Board Linear Technology’s µModule DC/DC point-of-load power supply family is complete with built-in inductor, MOSFETs, bypass capacitors and compensation circuitry. These tiny, lightweight (1.7g) point-of-load regulators fit the tightest spaces on top or bottom of your board. Small size and impressive low thermal impedance allow high power conversion from a wide range of voltages. Our µModule DC/DC converters simplify the design of your FPGA-based system and are backed by rigorous testing and high product reliability.

VOUT

Output

Min

Max

Current

Number

(V)

(V)

(V)

(V)

(A)

Current Share

VOUT

Max

Remote Sense

VIN

Min

PLL

VIN Part

Track, Margin

DC/DC µModule® Systems LGA Package Dimension (mm)

Comments

Ɣ High Current Buck (Step-Down) LTM4602

4.5

20

0.6

5

6

LTM4602HV

4.5

28

0.6

5

6

LTM4603

4.5

20

0.6

5

6

x

x

x

LTM4603HV

4.5

28

0.6

5

6

x

x

x

LTM4600

4.5

20

0.6

5

10



LTM4600HV

4.5

28

0.6

5

10

Up to 2

Pin compatible with LTM4600, LTM4600HV

Up to 4

Pin compatible with LTM4601, LTM4601HV

Up to 2

LTM4601

4.5

20

0.6

5

12

x

x

x

LTM4601HV

4.5

28

0.6

5

12

x

x

x

LTM4601A

15 x 15 x 2.8

Pin compatible with LTM4602, LTM4602HV Pin compatible with LTM4603, LTM4603HV

Up to 4

4.5

20

0.6

5

12

x

x

x

LTM4601AHV 4.5 Ɣ Low Current Buck (Step-Down)

28

0.6

5

12

x

x

x

LTM8020

4

36

1.25

5

0.2

-

6.25 x 6.25 x 2.3

Tiny 6.25mm x 6.25mm

LTM8021

3.6

36

0.8

5

0.5

-

6.25 x 11.25 x 2.8

Cooler temp and smaller than linear regulaor

LTM8022

3.6

LTM4601 or LTM4601HV with Extra LGA pads

36

0.8

10

1

-

11.25 x 9 x 2.8

Pin compatible with LTM8023

LTM8023 3.6 36 Ɣ Ultra-Low Noise Buck (Step-Down)

0.8

10

2

Up to 2

11.25 x 9 x 2.8

Pin compatible with LTM8022

LTM4606

4.5

28

0.6

5

6

x

x

-

LTM4612

4.5

36

3.3

15

6

x

x

-

LTM8032 Ɣ Aerospace & Military

3.6

36

0.8

10

1

LTM4600HVMPV

4.5

28

0.6

5

10

LTM4601AHVMPV

4.5

28

0.6

5

12

x

x

LTM4606MPV

4.5

28

0.6

5

6

x

x

-

2.375

5.5

0.6

5

8

x

x

Up to 3

9 x 15 x 2.8

4.5

36

3.3

15

6

x

x

-

15 x 15 x 2.8

LTM8020MPV

4

36

1.25

5

0.2

-

6.25 x 6.25 x 2.3

LTM8022MPV Ɣ Low Voltage

3.6

36

0.8

10

1

-

11.25 x 9 x 2.8

x

Up to 2

9 x 15 x 2.3

Only 2.3mm height

x

Up to 3

9 x 15 x 2.8

8A in 9x15mm LGA

LTM4608AMPV LTM4612MPV

-

15 x 15 x 2.8 9 x 15 x 2.8

For high speed I/O; Meets CISPR 22 Class B For high Vout, low noise, LTM4606 pin compatible EN55022 Class B Compliant

Up to 2

LTM4604 and A version

2.375

5.5

0.8

5

4

LTM4608 and A version

2.375

5.5

0.6

5

8

x

2.7 2.7

5.5

0.6 0.6

55

8, 8,88

●x

LTM4605

4.5

20

0.8

16

5 to 12

x

LTM4607

4.5

36

0.8

25

5 to 12

x

4.5 LTM4609 Ɣ LED Driver & Current Source

36

0.8

34

5 to 12

●x

LTM8040

36

2.5

13

1

x

Up to 4

15 x 15 x 2.8 -55°C to 125°C

xDual and Triple LTM4616 Ɣ Buck-Boost

4

For more information, including pricing, availability, datasheets and samples (if available), please visit http://ap.nuhorizons.com/FeaturedProducts

16

Dual 8A or Single 16A

x

Up to 2

-

15 x 15 x 2.8

9 x 15 x 4.32

94% to 98% efficiency, external inductor, all pin compatible With dimming

In order to simplify the design process, Nu Horizons has created a series of application notes designed to guide engineers through the process of interfacing different devices together. Using a detailed step-by-step approach, these design guides identify key elements in the design process. Topics in the application notes are organized by design task and each topic is a stand-alone section, with a short introduction or overview, followed by the step-by-step guidelines. All steps include a sufficient level of detail to provide the designer with relevant information to proceed quickly and easily from start to finish.

Application N otes

Nu Horizons Application Notes

Using Emerson Programmable Power Modules in Xilinx Virtex-5 and Spartan-3 FPGA Applications: A Step-By-Step Guide This step-by-step guide uses two example applications, a high-speed packet processor and a high-volume industrial application to show the key FPGA and Power considerations. It illustrates the various tools and techniques available to determine the power requirements of the FPGA, to select the right Emerson Programmable Power Modules and to guide the layout of the printed circuit board.

Creating a Power Subsystem for Xilinx Virtex-5 FPGAs using Linear Technology Power Devices: A Step-By-Step Guide Many modern applications use FPGAs to implement complex system level building blocks. FPGAs now require extensive power subsystems to provide the variety of voltages and high-power required for parallel I/O banks, FPGA Core, high-speed Serial I/O and various clocking, delay and analog-like functions. This application note provides a step-by-step guide for a design engineer who needs to quickly and efficiently create a Power subsystem using LTC power products for a Xilinx Virtex-5™ FPGA.

Creating a Power Subsystem for Xilinx Spartan-3A DSP FPGAs using Linear Technology Power Devices: A Step-By-Step Guide This step-by-step guide will use an example instrumentation application, a semiconductor wafer process control monitor with a high speed analog input, to demonstrate how to quickly and easily create a high-functionality, analog subsystem using a LTC AtoD converter and a Xilinx Spartan™-3DSP FPGA.

Creating a Power Subsystem for a Renesas SuperH™ Processor using HELDO™ Power Devices: A StepBy-Step Guide Creating a Power subsystem involves a variety of design considerations. This application note provides a step-by-step guide for a design engineer who needs to quickly and efficiently create a Power Subsystem using HELDO™ power management devices and a Renesas SuperH processor.

For the complete list of available Application Notes or to download visit www.nuhorizons.com/appnotes

17

Enhance Your Design...

With Nu Horizons Education and Development Solutions

http://ap.nuhorizons.com/FeaturedProducts

http://ap.nuhorizons.com/labcam/

Portal is a monthly publication containing new products, technologies and development tools available from Nu Horizons leading suppliers. Portal is availabe both in print and on the web. Sign up online to receive your copy, be notified of upcoming issues or to request samples of the products found inside.

LabCam delivers online training opportunities in a way that recognizes the value of engineers’ time. As easily as You Tube® videos, engineers can quickly load and watch videos from industry leaders consisting of insights on products, evaluation kit overviews, end-user applications and more. Each tutorial is up to ten minutes in length and features technology experts, CEOs and/ or peers introducing new solutions or explaining integral aspects of an important product, solution or application. This free value-added program is packaged for short, informative and high quality distance learning.

Nu Horizons is proud to present our education and training program, which offers engineers the opportunity to participate in technical seminars conducted by experts focused on the latest technologies from our leading suppliers. This program provides higher velocity learning to help minimize start-up time to quickly begin your design process utilizing the latest development tools, software and products. Check online for the latest seminar schedule.

http://ap.nuhorizons.com/seminars/index.asp

Online Learning Center www.nuhorizons.com/olc

Application Notes www.nuhorizons.com/appnotes

Development Tools http://ap.nuhorizons.com/development/

Nu Horizons Online Learning Center is designed to provide a complete training experience for engineers — without having to leave the office. New supplier trainings are posted twice a month and range from new product overviews to in-depth technical training and potential design implementations. These live trainings are recorded and archived for your viewing convenience.

In order to simplify the design process, Nu Horizons has created a series of application notes designed to guide engineers through the process of interfacing different devices together. Using a detailed step-by-step approach, these design guides identify key elements in the design process. Topics in the application notes are organized by design task and each topic is a stand-alone section, with a short introduction or overview, followed by the step-by-step design guidelines. All steps include a sufficient level of detail to provide the designer with relevant information to proceed quickly and easily from start to finish.

Nu Horizons offers a wide range of development / evaluation boards, tools and kits featuring the latest technology from the most trusted suppliers in the industry. Visit the development tool section of our website for a variety of solutions all aimed at providing a low-cost solution for designers to accelerate a product’s time-to-market.