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Delta Electronics Delphi Series DNS Datasheet Download Page 8

 

DS_DNS04SIP06A_07172008 

8

 

 

TEST CONFIGURATIONS 
 

V

I

(+)

V

I

(-)

BATTERY

2

100uF

Tantalum

L

TO OSCILLOSCOPE

 

Note: Input reflected-ripple current is measured with a 
simulated source inductance. Current is measured at 
the input of the module. 

 

Figure 29: 

Input reflected-ripple test setup

 

 
 

         

Vo

GND

COPPER STRIP

10uF

tantalum

1uF

ceramic

SCOPE

Resistive

Load

 

 

Note: Use a 10

μ

F tantalum and 1

μ

F capacitor. Scope 

measurement should be made using a BNC connector.   
 

Figure 30:

 Peak-peak output noise and startup transient 

measurement test setup. 

 

SUPPLY

I

I

V

I

Vo

GND

Io

LOAD

CONTACT AND

DISTRIBUTION LOSSES

CONTACT RESISTANCE

 

 

Figure 31: 

Output voltage and efficiency measurement test 

setup 

Note: All measurements are taken at the module 

terminals. When the module is not soldered (via 
socket), place Kelvin connections at module 
terminals to avoid measurement errors due to 
contact resistance. 

%

100

)

(

×

×

×

=

Ii

Vi

Io

Vo

η

 

 

DESIGN CONSIDERATIONS   

 

Input Source Impedance 

 

To maintain low noise and ripple at the input voltage, it is 
critical to use low ESR capacitors at the input to the 
module. Figure 32 shows the input ripple voltage (mVp-p) 
for various output models using 2x100 µF low ESR 

tantalum

 capacitor (KEMET p/n: T491D107M016AS,   

AVX p/n: TAJD107M106R, or equivalent) in parallel with 
47 µF ceramic capacitor (TDK p/n:C5750X7R1C476M or 
equivalent). Figure 33 shows much lower input voltage 
ripple when input capacitance is increased to 400 µF (4 x 
100 µF) 

tantalum

 capacitors in parallel with 94 µF (2 x 47 

µF) ceramic capacitor.   
 
The input capacitance should be able to handle an AC 
ripple current of at least: 

Arms

Vin

Vout

Vin

Vout

Iout

Irms

⎛ −

=

1

 

0

50

100

150

200

0

1

2

3

4

Output Voltage (Vdc)

Input Ripple Voltage (mVp-p)

3.3Vin

5.0Vin

 

Figure 32:

 Input voltage ripple for various output models, Io =   

6A (CIN = 2

×

100µF tantalum // 47µF ceramic) 

0

20

40

60

80

0

1

2

3

4

Output Voltage (Vdc)

Input Ripple Voltage (mVp-p)

3.3Vin

5.0Vin

 

Figure 33:

 Input voltage ripple for various output models, Io =   

6A (CIN = 4

×

100µF tantalum // 2

×

47µF ceramic) 

 

Summary of Contents for Delphi Series DNS

Page 1: ...ons OPTIONS Negative on off logic Tracking feature SIP package Delphi DNS Non Isolated Point of Load DC DC Power Modules 2 8 5 5Vin 0 75 3 3V 6Aout The Delphi Series DNS 2 8 5 5V input single output n...

Page 2: ...it Current Hiccup Mode Io s c 3 5 Adc DYNAMIC CHARACTERISTICS Dynamic Load Response 10 F Tan 1 F Ceramic load cap 2 5A s Vin 5V Positive Step Change in Output Current 50 Io max to 100 Io max 160 mV Ne...

Page 3: ...efficiency vs output current 1 2V out Figure 6 Converter efficiency vs output current 0 75V out 90 91 92 93 94 95 96 97 98 1 2 3 4 5 6 LOAD A EFFICIENCY 4 5V 5V 5 5V 84 86 88 90 92 94 96 98 1 2 3 4 5...

Page 4: ...ple noise at 3 3Vin 2 5V 6A out Figure 8 Output ripple noise at 3 3Vin 1 8V 6A out Figure 9 Output ripple noise at 5Vin 3 3V 6A out Figure 10 Output ripple noise at 5Vin 1 8V 6A out Figure 11 Turn on...

Page 5: ...n 1 8V 6A 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 out Figure 17 Turn on delay time at remote turn on with ex...

Page 6: ...Typical transient response to step load change at 2 5A S from 50 to 100 of Io max at 5Vin 3 3Vout Cout 1uF ceramic 10 F tantalum Figure 21 Typical transient response to step load change at 2 5A S fro...

Page 7: ...from 50 to 100 of Io max at 3 3Vin 2 5Vout Cout 1uF ceramic 10 F tantalum Figure 25 Typical transient response to step load change at 2 5A S from 100 to 50 of Io max at 3 3Vin 1 8Vout Cout 1uF cerami...

Page 8: ...SIGN CONSIDERATIONS Input Source Impedance To maintain low noise and ripple at the input voltage it is critical to use low ESR capacitors at the input to the module Figure 32 shows the input ripple vo...

Page 9: ...ve and negative On Off logic options are available in the DNS series power modules For positive logic module connect an open collector NPN transistor or open drain N channel MOSFET between the On Off...

Page 10: ...of the module Without this external resistor the output voltage of the module is 0 7525 Vdc To calculate the value of the resistor Rtrim for a particular output voltage Vo please use the following equ...

Page 11: ...d in the DNS modules by connecting a resistor R margin up from the Trim pin to the ground pin for margining up the output voltage and by connecting a resistor Rmargin down from the Trim pin to the out...

Page 12: ...e TRACK pin of PS2 Please note the voltage apply to TRACK pin needs to always higher than the VoPS2 set point voltage TRACK VoPS1 PS2 VoPS2 PS1 Vin Vin On Off On Off Ratio Metric Ratio metric Figure 4...

Page 13: ...le To enhance system reliability the power module should always be operated below the maximum operating temperature If the temperature exceeds the maximum module temperature reliability of the unit ma...

Page 14: ...NS04S0A0R06 Standard Output current vs ambient temperature and air velocity Vin 3 3V Vo 2 5V Either Orientation DNS04S0A0R06 Standard Output Current vs Ambient Temperature and Air Velocity Vin 3 3V Vo...

Page 15: ...DS_DNS04SIP06A_07172008 15 MECHANICAL DRAWING SMD PACKAGE OPTIONAL SIP PACKAGE...

Page 16: ...A 94 0 CONTACT www delta com tw dcdc USA Telephone East Coast 888 335 8201 West Coast 888 335 8208 Fax 978 656 3964 Email DCDC delta corp com Europe Telephone 41 31 998 53 11 Fax 41 31 998 53 53 Email...

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