NVS01ZG-M6 [POWER-ONE]

6W SMT Converter Wide Input 3.3V to 24V Outputs; 6W SMT转换器宽输入3.3V至24V输出


型号：	NVS01ZG-M6
厂家：	POWER-ONE
描述：	6W SMT Converter Wide Input 3.3V to 24V Outputs 6W SMT转换器宽输入3.3V至24V输出转换器
文件：	总11页 (文件大小：321K)
中文：	中文翻译
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NV DC-DC Series Data Sheet

6W SMT Converter • Wide Input • 3.3V to +/-24V Outputs

Features

• RoHS lead free solder and lead solder

exempted products are available

• Basic Insulation

• Single board design

• Low profile SMT design

• Excellent co-planarity (within 0.1mm)

• Input-to-output isolation: 1500 VDC

• Low conducted and radiated EMI

• Output overcurrent protection

• Extremely-wide input ranges (2:1 & 4:1)

• Wide output range (3.3 V to 48 V)

• Parallel and series connection providing

Applications

•

Distributed power architectures

Telecommunications equipment

flexible output voltages and power

LAN/WAN applications

• Full rated output power at 85 ºC or 71 ºC with

convection cooling

Data processing

• 8.5 mm height

Industrial / Instrumentation Applications

• Operating temperature to 110 ºC

•

UL, CSA, and EN/IEC60950 (3^rded.) approved

Description

The NV Series of converters are low profile, single and dual output, DC-DC converters intended for SMT

placement and reflow soldering. The product provides onboard conversion for a wide range of standard telecom

and datacom input voltages to isolated low output voltages. Proprietary patented manufacturing process with full

process automation ensures optimal product quality in an extremely small footprint.

Model Selection – Single output

Input

Voltage,

VDC

18-36

36-75

9-36

18-75

Input

Current,

Max ADC

0.27

Output

Voltage,

VDC

5.0

Output Rated

Current,

ADC (Io.Max)

Output

Ripple/Noise, Efficiency,

Typical

Model

mVp-p

120

NVS01YG-M6

NVS0.5YH-M6

NVS0.4YJ-M6

NVS01ZG-M6

NVS0.5ZH-M6

NVS0.4ZJ-M6

NVS0.9CE-M6

NVS0.7CG-M6

NVS0.3CH-M6

NVS0.3CJ-M6

NVS0.9EE-M6

NVS0.7EG-M6

NVS0.3EH-M6

NVS0.3EJ-M6

1.0

0.5

0.4

1.0

0.5

0.4

0.9

0.7

0.34

0.28

0.9

0.7

0.34

0.28

0.33

0.17

0.45

0.55

0.65

0.33

5.0

3.3

5.0

3.3

5.0

120

0.33

Dual outputs continued on next page

APR 20, 2006 revised to MAR 12, 2007

Page 1 of 11

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NV DC-DC Series Data Sheet

6W SMT Converter • Wide Input • 3.3V to +/-24V Outputs

Continued from previous page

Model Selection – Dual Outputs

Input

Voltage,

VDC

18-36

36-75

9-36

Input

Output

Voltage,

VDC

±5.0

±12

±15

±5.0

±12

±15

±5.0

±12

±15

±24

Output Rated

Current,

ADC (Io.Max)

±0.50

Output

Ripple/Noise, Efficiency,

Typical

Model

Current,

Max ADC

0.27

mVp-p

100

120

100

120

NVD01YGG-M6

NVD0.5YHH-M6

NVD0.4YJJ-M6

NVD01ZGG-M6

NVD0.5ZHH-M6

NVD0.4ZJJ-M6

NVD0.7CGG-M6

NVD0.3CHH-M6

NVD0.3CJJ-M6

NVD0.2CKK-M6

NVD0.7EGG-M6

NVD0.3EHH-M6

NVD0.3EJJ-M6

NVD0.2EKK-M6

0.33

0.17

0.65

±0.25

±0.20

±0.50

±0.25

±0.20

±0.35

±0.17

±0.14

±0.08

±0.35

±0.17

±0.14

9-36

0.65

9-36

0.65

120

190

120

190

9-36

0.65

18-75

0.33

±5.0

±12

±15

±24

±0.08

Absolute Maximum Ratings

Stresses in excess of the absolute maximum ratings may cause performance degradation, adversely affect long

term reliability and cause permanent damage to the converter. Specifications apply over specified input voltage,

output load and temperature range, unless otherwise noted.

Parameter

Operating CaseTemp. (Tc)

Storage Temperature (Ts)

Conditions/Description

Min

-40

-55

Max

110

120

Units

°C

Environmental and Mechanical Specifications

Parameter Conditions/Description

Min

Nom

Max

100

Units

oz/g

N/A

Shock

Sinusoidal Vibration

Weight

IEC68-2-27

IEC68-2-6

0.4/12

Water Washing

Standard process

Yes

Per Bellcore TR-NWT-000332

(100% load @ 25 °C, GB)

MTBF

4,902

kHrs

Isolation Specifications

Parameter

Conditions/Description

Vin = Vin.Min – Vin.Max

Min

Nom

Basic

Max

Units

N/A

Vdc

MΩ

Insulation Safety Rating

Isolation Voltage (Vps)

Isolation Resistance (Rps)

Isolation Capacitance (Cps)

1,500

1,100

APR 20, 2006 revised to MAR 12, 2007

Page 2 of 11

www.power-one.com

NV DC-DC Series Data Sheet

6W SMT Converter • Wide Input • 3.3V to +/-24V Outputs

Input Specifications (9-36V_INmodels)

Parameter

Input voltage (Vin)

Transient Input Voltage (Vint)

Input Current when Shutdown

Turn-On Time

Conditions/Description

Continuous

Transient, 100 ms

Vin.Nom, Iout = 0 A

To Output Regulation Band

Rise Time

Min

Nom

Max

500

Units

VDC

mADC

250

Input Reflected Ripple Current

Input Capacitance

Vin.Max, Io.Max

0.6

mAp-p

μF

Input Specifications (18-36V_INmodels)

Conditions/Description

Min

Nom

Max

500

Units

VDC

mADC

Parameter

Input voltage (Vin)

Transient Input Voltage (Vint)

Input Current when Shutdown

Turn-On Time

Continuous

Transient, 100 ms

Vin.Nom, Iout = 0 A

To Output Regulation Band

Rise Time

250

Input Reflected Ripple Current

Input Capacitance

Vin.Max, Io.Max

0.6

mAp-p

μF

Input Specifications (18-75V_INmodels)

Parameter Conditions/Description

Min

Nom

Max

100

500

Units

VDC

mADC

Input voltage (Vin)

Continuous

Transient, 100 ms

Vin.Nom, Iout = 0 A

To Output Regulation Band

Rise Time

Transient Input Voltage (Vint)

Input Current when Shutdown

Turn-On Time

250

Input Reflected Ripple Current

Input Capacitance

Vin.Max, Io.Max

0.3

mAp-p

μF

Input Specifications (36-75V_INmodels)

Parameter Conditions/Description

Min

Nom

Max

100

500

Units

VDC

mADC

Input voltage (Vin)

Continuous

Transient, 100 ms

Vin.Nom, Iout = 0 A

To Output Regulation Band

Rise Time

Transient Input Voltage (Vint)

Input Current when Shutdown

Turn-On Time

250

Input Reflected Ripple Current

Input Capacitance

Vin.Max, Io.Max

0.3

mAp-p

μF

APR 20, 2006 revised to MAR 12, 2007

Page 3 of 11

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NV DC-DC Series Data Sheet

6W SMT Converter • Wide Input • 3.3V to +/-24V Outputs

Output Specifications

All specifications apply over input voltage, output load and temperature range, unless otherwise noted.

All Models

Parameter

Output Voltage Accuracy

Line Regulation

Conditions/Description

Vin.Nom, 50% Io.Max

Vin.Min to Vin.Max, 50% Io.Max

Vin.Nom, Io.Min to Io.Max

3.3 Vo

Min

Nom

Max

±1

Units

%Vo

Load Regulation

±4

±3

%Vo

Other Output Voltages

Maximum Output Capacitance Total, for single and dual outputs

3.3 Vo

680

150

100

μF

5 Vo, ±5 Vo

12 Vo, ±12 Vo

15 Vo, ±15 Vo

±24 Vo

Dynamic Regulation

Peak Deviation

Settling Time

50-100% Io.Max load step

change

5.0

1.0

%Vo

to 1% error band

Output Voltage Ripple

Vin.Min to Vin.Max, Io.Min to Io

Max, 20 MHz Bandwidth

3.3 Vo

0.8

mVp-p

%Vo p-p

%Io.Max

kHz

5 Vo, ±5 Vo

12 Vo, ±15 Vo, ±24 Vo

Output Current Limit Threshold

Vin.Nom, Io.Max

Output Current Limit Threshold

Switching Frequency

120

200

400

Temperature Coefficient

0.02

%Vo/°C

Typical Characteristic Curves for Single 5V Output Model

Output Voltage Vs Load

Vout (V)

6.00

Efficiency Vs Load

Efficiency

90%

80%

70%

60%

50%

40%

30%

20%

10%

5.00

4.00

3.00

2.00

1.00

0.00

Vin Min

Vin Nom

Vin Max

Vin Min

Vin Nom

Vin Max

25% 50% 75% 100%

Iout (A)

APR 20, 2006 revised to MAR 12, 2007

Page 4 of 11

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NV DC-DC Series Data Sheet

6W SMT Converter • Wide Input • 3.3V to +/-24V Outputs

Temperature Derating Curves

The derating curves below give an indication of the

output power achievable with and without forced-air

cooling. However in the final application the

temperature rise of the converter is also influenced

by factors such as heat conduction through the leads

to the PCB, orientation, the temperature of

surrounding components and the input voltage. To

ensure the reliability of the converter, care must be

taken to guarantee that the maximum case

temperature is not exceeded under any conditions.

The measurement point for case temperature is

specified on the mechanical drawing (Tc).

Temperature derating for 9-36 V and 18-75 V input

voltage ranges:

Temperature Derating for 4:1 Input Ratio Models

120

100

Temperature derating for 18-36 V and 36-75 V input

voltage ranges:

200LFM (1 m/s)

0 LFM

Temperature Derating for 2:1 Input Ratio

Models

120

100

Ambient Temp. (deg °C)

Typical Application

400LFM (2 m/s)

200LFM (1 m/s)

0 LFM

This series of converters does not require any

external components for proper operation. However,

if the distribution of the input voltage to the converter

contains significant inductance, a capacitor across

the input terminals may be required to stabilize the

input voltage.

electrolytic / ceramic capacitor is recommended for

this purpose. For output decoupling it is

A minimum of 0.47μF, quality

Ambient Temp. (deg °C)

recommended to connect, directly across the output

pins, a 0.47 μF ceramic capacitor (for 3.3 V and 5 V

outputs) or a 0.27 μF ceramic capacitor (for other

outputs).

The 9-36 V and 18-75 V input voltage versions of this

series feature a 4:1 input voltage range and can

operate at full power at 85 ºC ambient temperature

with only convection cooling.

Care must be taken to ensure the maximum rated

output capacitance for the device is not exceeded

when dimensioning decoupling capacitors in the

system as this could cause the unit to detect an

overload and enter a ‘hiccup’ mode of operation.

APR 20, 2006 revised to MAR 12, 2007

Page 5 of 11

www.power-one.com

NV DC-DC Series Data Sheet

6W SMT Converter • Wide Input • 3.3V to +/-24V Outputs

Output Current Limiting

In order for the output of the converter to be

considered as SELV (Safety Extra Low Voltage) or

TNV-1, according to EN60950 UL1950

CSA60950-00, one of the following requirements

must be met in the system design:

When the output is overloaded above the maximum

output current rating, the voltage will start to reduce

to maintain the output power to a safe level. In a

condition of high overload or short-circuit where the

output voltage is pulled below approximately 30% of

Vo.nom, the unit will enter a ‘Hiccup’ mode of

operation. Under this condition the unit will attempt

to restart, approximately every 100 ms until the

overload has cleared.

• The converter has no internal fuse. An external

fuse must be provided to protect the system from

catastrophic failure. The recommended fuse

values are shown below:

Input Voltage Range

36-75V

Recommended Fuse

F0.315A

Parallel Operation

18-36V

9-36V

18-75V

F0.5A

F1.0A

F0.5A

Paralleling of two converters is possible by direct

connection of the output voltage terminal pins. The

load regulation characteristic is designed to facilitate

current sharing (typically ± 20%).

However, this may cause start-up problems at initial

start-up, and is only recommended in applications

where one converter is able to deliver the full load

current (true redundant systems).

• The user can select a lower rating fuse based

upon the inrush transient and the maximum input

current of the converter, which occurs at the

minimum input voltage. Both input traces and the

chassis ground trace (if applicable) must be

capable of conducting a current of 1.5 times the

value of the fuse without opening. The fuse must

not be placed in the grounded input line, if any.

Series Operation

The outputs of two units may be connected in series

to achieve a higher system voltage.

• If the voltage source feeding the module is SELV,

the output of the converter is considered SELV

and may be grounded or ungrounded.

Safety Considerations

These converters feature 1500 VDC isolation from

input to output. The input-to-output resistance is

greater than 10MΩ. These converters are provided

with Basic Insulation between input and output

• The circuitry of the converter may generate

transients, which exceed the input voltage. Even

if the input voltage is SELV (<60V) the

components on the primary side of the converter

circuits according to EN60950

UL1950

may have to be considered as hazardous.

CSA60950-00. Nevertheless, if the system using

the converter needs to receive safety agency

approval, certain rules must be followed in the design

of the system. In particular, all of the creepage and

clearance requirements of the end-use safety

requirements must be observed. These documents

include UL60950, CSA60950-00 and EN60950,

although specific applications may have additional

requirements.

safety interlock may be needed to prevent the

user from accessing the converter while

operational.

APR 20, 2006 revised to MAR 12, 2007

Page 6 of 11

www.power-one.com

NV DC-DC Series Data Sheet

6W SMT Converter • Wide Input • 3.3V to +/-24V Outputs

EMC Specifications

Conducted Noise:

The converters meet the requirements of EN55022,

CISPR22 and FCC CFR title 47 part 15 Sub-part J -

Conducted (conducted noise on the input terminals)

without any external components. The results for this

solution are displayed below.

To meet level B for the above standards it is

necessary to fit a 3.3 μF ceramic capacitor across

the input terminals.

dbµV

Conducted EMI (Input Terminals)

EN55022 A QP.

EN55022 A AV.

⁰0.1

1.E+06

₁1_.E+0₀₇

1.E+05

1.E+08

FREQ (MHz)

Electromagnetic Susceptibility:

Standard

Applied

Stress

Class Performance

Level

Outcome *

Electrostatic

Discharge

EN61000-4-2

2 kV to

pins

Electromagnetic

Field

3V/m

EN61000-4-3

Electrical Fast

Transient

EN61000-4-4

2000 Vp

to input

Conducted

Disturbances

EN61000-4-6

3Vrms to

input

* A denotes normal operation, no deviation from

specification. B denotes temporary deviation from

specification is possible.

APR 20, 2006 revised to MAR 12, 2007

Page 7 of 11

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NV DC-DC Series Data Sheet

6W SMT Converter • Wide Input • 3.3V to +/-24V Outputs

Surface Mount Assembly

Soldering:

Max. temp. on pins 1 and 10 during reflow

soldering (deg C)

The following instructions must be observed when

soldering the unit. Failure to observe these

instructions may result in failure or significant

degradation of the module performance. Power-One

will not honor any warranty claims arising from failure

to observe these instructions.

300

250

200

150

100

Peak Temperature

(See fig below)

This product is approved for forced convection reflow

soldering only.

The curves below define the maximum peak reflow

temperature permissible measured on Pins 1 and 13

of the converter.

190 – 450 s

Time (s)

The lead-frame is constructed from

temperature glass filled, UL94V0 flame retardant,

diallyl ortho-phthalate moulding compound

commonly used for packaging of electronics

components. It passes NASA outgassing tests and

is certified to MIL-M-14. The coefficient of thermal

expansion is equivalent to FR4.

high

Restriction curve above 215ºC

Peak temp. at pins 1 and 10 (ºC)

245

240

235

230

225

220

215

210

205

200

The gull wing leads are formed to ensure optimal

solder joint strength and structure. Furthermore

they facilitate optical inspection (manual or

automatic). The leads are formed from a 97% Cu

alloy plated with Cu and Sn 90. This material is

commonly used in the manufacture of integrated

circuits. It has good corrosion resistance and

exhibits the nobility inherent to all high copper

alloys. Unlike brasses, this material is essentially

immune to stress corrosion cracking. It also exhibits

excellent solderability. It is readily wetted by solders

and performs well in standard solderability tests.

(Dip of Class II or better).

tp (s)

Pick & Place Assembly:

The product is designed with a large flat area in the

center of the top surface to serve as a pick up point

for automated vacuum pick and place equipment.

The ‘open board’ construction of the unit ensures

that weight is kept to a minimum. However due to the

relatively large size of the component, a large nozzle

(> 6.0mm, depending on vacuum pressure) is

recommended for picking and placing.

The product is manufactured with a patented

process, which is fully automated, and ‘in-line’. This

ensures that there is no contamination or

mechanical stress on the lead-frame so that the co-

planarity and solderability are maintained.

The unit may also be automatically handled using

‘odd-form’ placement equipment, with mechanical

grippers. For this type of equipment the end edges

of the device, which have no leads and also feature

the greatest dimensional accuracy, should be used

as pick-up points.

The product is shipped in JEDEC trays to ensure

preservation of the co-planarity and enable fully

automated assembly in the final application (co-

planarity within 0.1 mm).

APR 20, 2006 revised to MAR 12, 2007

Page 8 of 11

www.power-one.com

NV DC-DC Series Data Sheet

6W SMT Converter • Wide Input • 3.3V to +/-24V Outputs

Mechanical Drawing

Note:- mm [inches]

Tolerances: -

0.5-10 ±0.1

10-100 ±0.2

APR 20, 2006 revised to MAR 12, 2007

Page 9 of 11

www.power-one.com

NV DC-DC Series Data Sheet

6W SMT Converter • Wide Input • 3.3V to +/-24V Outputs

Recommended land pattern

JEDEC TRAY

APR 20, 2006 revised to MAR 12, 2007

Page 10 of 11

www.power-one.com

NV DC-DC Series Data Sheet

6W SMT Converter • Wide Input • 3.3V to +/-24V Outputs

Pinout

Function

Single Output Models

Reference

Dual Output Models

+Vin

-Vin

+Vin

-Vin

Primary

-Vin

Primary

No Pin

No Connection

-Vo

No Pin

No Connection

Vo Return / Common

Secondary

-Vo

+Vo

-Vo

+Vo

-Vo

Vo Return / Common

No Pin

+Vin

No Pin

+Vin

Primary

+Vin

-Vin

+Vin

-Vin

Ordering Information

Options

Suffixes to add to part number

RoHS lead solder exemption compliant No RoHS suffix character required

RoHS compliant for all six substances Add "G" as the last character of the part number.

Notes

Consult factory for the complete list of available options.

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.

APR 20, 2006 revised to MAR 12, 2007

Page 11 of 11

www.power-one.com

NVS01ZG-M6 [POWER-ONE]

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