Delta Electronics 0.75-3.3V, 10A, 2.8-5.5Vin User Manual

Delphi DNM, Non-Isolated Point of Load

DC/DC Power Modules: 2.8-5.5Vin, 0.75-3.3V/10Aout

The Delphi Series DNM, 2.8-5.5V input, single output, non-isolated

Point of Load DC/DC converters are the latest offering from a world

leader in power system and technology and manufacturing ― Delta

Electronics, Inc. The DNM04 series provides a programmable output

voltage from 0.75V to 3.3V using an external resistor. The DNM series

has flexible and programmable tracking and sequencing features to

enable a variety of startup voltages as well as sequencing and tracking

between power modules. This product family is available in surface

mount or SIP packages and provides up to 10A of output current in an

industry standard footprint. With creative design technology and

optimization of component placement, these converters possess

outstanding electrical and thermal performance, as well as extremely

high reliability under highly stressful operating conditions.

FEATURES

 High efficiency: 96%@5.0Vin, 3.3V/10A out

 Small size and low profile: (SMD)

33.0x 13.5x8.8mm (1.30” x 0.53” x 0.35”)

 Surface mount packaging

 Standard footprint

 Voltage and resistor-based trim

 Pre-bias startup

 Output voltage tracking

 No minimum load required

 Output voltage programmable from

0.75Vdc to 3.3Vdc via external resistor

 Fixed frequency operation

 Input UVLO, output OTP, OCP

 Remote ON/OFF

 Remote sense

 ISO 9001, TL 9000, ISO 14001, QS9000,

OHSAS18001 certified manufacturing facility

 UL/cUL 60950-1 (US & Canada) Recognized,

and TUV (EN60950-1) Certified

 CE mark meets 73/23/EEC and 93/68/EEC

directives

OPTIONS

 Negative On/Off logic

 Tracking feature

 SIP package

APPLICATIONS

 Telecom / DataCom

 Distributed power architectures

 Servers and workstations

 LAN / WAN applications

 Data processing applications

DATASHEET
DS_DNM04SMD10_07162008

TECHNICAL SPECIFICATIONS

(TA = 25°C, airflow rate = 300 LFM, V

PARAMETER NOTES and CONDITIONS DNM04S0A0S10PFD

Min. Typ. Max. Units

ABSOLUTE MAXIMUM RATINGS

Input Voltage (Continuous) 0 5.8 Vdc

Tracking Voltage Vin,max Vdc
Operating Temperature Refer to Figure 44 for measuring point -40 +125 °C
Storage Temperature -55 +125 °C

INPUT CHARACTERISTICS

Operating Input Voltage
Input Under-Voltage Lockout

Turn-On Voltage Threshold 2.2 V

Turn-Off Voltage Threshold 2.0 V
Maximum Input Current Vin=2.8V to 5.5V, Io=Io,max 10 A
No-Load Input Current 70 mA
Off Converter Input Current 5
Inrush Transient Vin=2.8V to 5.5V, Io=Io,min to Io,max 0.1 A2S
Recommended Inout Fuse 15 A

OUTPUT CHARACTERISTICS

Output Voltage Set Point Vin=5V, Io= Io, max -2.0 Vo,set +2.0
Output Voltage Adjustable Range 0.7525 3.63 V
Output Voltage Regulation

Over Line Vi=Vi,min to Vi,max 0.3 % Vo,set
Over Load Io=Io,min to Io,max 0.4 % Vo,set
Over Temperature Tc =- 40 ℃ to 100℃ 0.8 % Vo,set

Total Output Voltage Range Over sample load, line and temperature -3.0 +3.0 % Vo,set
Output Voltage Ripple and Noise 5Hz to 20MHz bandwidth

Peak-to-Peak Full Load, 1µF ceramic, 10µF tantalum 25 50 mV

RMS Full Load, 1µF ceramic, 10µF tantalum 8
Output Current Range 0 10 A
Output Voltage Over-shoot at Start-up Vout= 3.3V 1 % Vo,set
Output DC Current-Limit Inception 220 % Io
Output Short-Circuit Current (Hiccup Mode) Io,s/c 3.5 Adc

DYNAMIC CHARACTERISTICS

Dynamic Load Response 10µF Tan & 1µF Ceramic load cap, 2.5A/µs

Positive Step Change in Output Current 50% Io, max to 100% Io, max 200 mV
Negative Step Change in Output Current 100% Io, max to 50% Io, max 200 mV
Setting Time to 10% of Peak Deviation 25 µs

Turn-On Transient Io=Io.max

Start-Up Time, From On/Off Control Vin=Vin,min, Vo=10% of Vo,set 4 ms
Start-Up Time, From Input Vo=10% of Vo,set 4
Output Voltage Rise Time Time for Vo to rise from 10% to 90% of Vo,set 4 8 ms

Output Capacitive Load

EFFICIENCY

Vo=3.3V
Vo=2.5V Vin=5V, 100% Load 94.3 %
Vo=1.8V Vin=5V, 100% Load 92.7 %
Vo=1.5V Vin=5V, 100% Load 91.7 %
Vo=1.2V Vin=5V, 100% Load 90.2 %
Vo=0.75V Vin=5V, 100% Load 86.4 %

FEATURE CHARACTERISTICS

Switching Frequency 300 kHz
ON/OFF Control, (Negative logic)

Logic Low Voltage Module On, Von/off -0.2 0.3 V

Logic High Voltage Module Off, Von/off 1.5 Vin,max V

Logic Low Current Module On, Ion/off 10 µA

Logic High Current Module Off, Ion/off 0.2 1 mA
ON/OFF Control, (Positive Logic)

Logic High Voltage Module On, Von/off Vin,max V

Logic Low Voltage Module Off, Von/off -0.2 0.3 V

Logic Low Current Module On, Ion/off 0.2 1 mA

Logic High Current Module Off, Ion/off 10 µA
Tracking Slew Rate Capability 0.1 2 V/msec
Tracking Delay Time Delay from Vin.min to application of tracking voltage 10 ms
Tracking Accuracy Power-up 2V/mS 100 200 mV
Power-down 1V/mS 200 400 mV
Remote Sense Range 0.1 V

GENERAL SPECIFICATIONS

MTBF Io=80% of Io, max; Ta=25°C 22.9 M hours
Weight 9 grams
Over-Temperature Shutdown Refer to Figure 44 for measuring point 130 °C

= 2.8Vdc and 5.5Vdc, nominal Vout unless otherwise noted.)

in

Vout ≦ Vin –0.5

Full load; ESR ≧1mΩ
Full load; ESR ≧10mΩ

Vin=5V, 100% Load 96.0 %

2.8 5.5 V

1000 µF
5000 µF

15

mA

% Vo,set

mV

ms

DS_DNM04SMD10_07162008

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ELECTRICAL CHARACTERISTICS CURVES

V

V

V

100

100

95

90

85

EFFICIENCY(%)

80

75

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OUTPUR CURRENT

Vin=4.5V

Vin=5.0V

Vin=5.5V

(A)

Figure 1: Converter Efficiency vs. Output Current (3.3V out)

100

95

90

85

EFFICIENCY(%)

80

Vin=2.8V

Vin=5.0V

Vin=5.5V

95

90

85

EFFICIENCY(%)

80

75

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OUTPUR CURRENT

Figure 2: Converter Efficiency vs. Output Current (2.5V out)

100

95

90

85

EFFICIENCY(%)

80

Vin=3.0V

Vin=5.5V

(A)

Vin=2.8V

Vin=5.0V

Vin=5.5V

in=5.0

75

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OUTPUR CURRENT

(A)

Figure 3: Converter Efficiency vs. Output Current (1.8V out)

95

90

85

80

75

EFFICIENCY(%)

70

65

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OUTPUR CURRENT

Vin=2.8V

in=5.0

Vin=5.5V

(A)

Figure 5: Converter Efficiency vs. Output Current (1.2V out)

75

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OUTPUR CURRENT

(A)

Figure 4: Converter Efficiency vs. Output Current (1.5V out)

95

90

85

80

75

EFFICIENCY(%)

70

65

60

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OUTPUR CURRENT

Vin=2.8V

Vin=5.5V

(A)

Figure 6: Converter Efficiency vs. Output Current (0.75V out)

in=5.0

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ELECTRICAL CHARACTERISTICS CURVES

Figure 7: Output ripple & noise at 3.3Vin, 2.5V/10A out

Figure 9: Output ripple & noise at 5Vin, 3.3V/10A out

Figure 8: Output ripple & noise at 3.3Vin, 1.8V/10A out

Figure 10: Output ripple & noise at 5Vin, 1.8V/10A out

Figure 11: Turn on delay time at 3.3Vin, 2.5V/10A out

DS_DNM04SMD10_07162008

Figure 12: Turn on delay time at 3.3Vin, 1.8V/10A out

4

ELECTRICAL CHARACTERISTICS CURVES

Figure 13: Turn on delay time at 5Vin, 3.3V/10A out

Figure 15: Turn on delay time at remote turn on 5Vin, 3.3V/16A out Figure 16: Turn on delay time at remote turn on 3.3Vin, 2.5V/16A

Figure 14: Turn on delay time at 5Vin, 1.8V/10A out

out

Figure 17: Turn on delay time at remote turn on with external

capacitors (Co= 5000 µF) 5Vin, 3.3V/16A out

DS_DNM04SMD10_07162008

Figure 18: Turn on delay time at remote turn on with external

capacitors (Co= 5000 µF) 3.3Vin, 2.5V/16A out

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ELECTRICAL CHARACTERISTICS CURVES

Figure 19: Typical Transient Response to Step Load Change at

2.5A/μS from 100% to 50% of Io, max at 5Vin, 3.3Vout
(Cout = 1uF ceramic, 10μF Tantalum)

Figure 21: Typical Transient Response to Step Load Change at

2.5A/μS from 100% to 50% of Io, max at 5Vin, 1.8Vout
(Cout =1uF ceramic, 10μF Tantalum)

Figure 20: Typical Transient Response to Step Load Change at

2.5A/μS from 50% to 100% of Io, max at 5Vin, 3.3Vout
(Cout =1uF ceramic, 10μF Tantalum)

Figure 22: Typical Transient Response to Step Load Change at

2.5A/μS from 50% to 100% of Io, max at 5Vin, 1.8Vout
(Cout = 1uF ceramic, 10μF Tantalum)

Figure 23: Typical Transient Response to Step Load Change at

2.5A/μS from 100% to 50% of Io, max at 3.3Vin,

2.5Vout (Cout =1uF ceramic, 10μF Tantalum)

DS_DNM04SMD10_07162008

Figure 24: Typical Transient Response to Step Load Change at

2.5A/μS from 50% to 100% of Io, max at 3.3Vin,

2.5Vout (Cout =1uF ceramic, 10μF Tantalum)

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