NH020Y2 Lineage Power, NH020Y2 Datasheet - Page 8

NH020Y2

Manufacturer Part Number

NH020Y2

Description

CONVERTER DC/DC 1.8V 10.8W OUT

Manufacturer

Lineage Power

Series

NH020r

Type

Point of Load (POL) Non-Isolated with Remote On/Offr

Datasheet

1.NH020F.pdf (17 pages)

Specifications of NH020Y2

Output

1.8V

Number Of Outputs

Power (watts)

20W

Mounting Type

Through Hole

Voltage - Input

4.5 ~ 5.5V

Package / Case

9-SIP Module

1st Output

1.8 VDC @ 6A

Size / Dimension

2.50" L x 0.24" W x 0.55" H (63.5mm x 6.1mm x 14mm)

Power (watts) - Rated

10.8W

Operating Temperature

0°C ~ 115°C

Efficiency

75%

Approvals

CSA, UL, VDE

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

3rd Output

2nd Output

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Test Configurations

Note: Measure input reflected ripple current with a simulated source

Figure 14. Input Reflected Ripple Current Test Setup.

Note: Scope measurements should be made using a BNC socket,

Figure 15. Peak-to-Peak Output Ripple Measurement

Note: All voltage measurements to be taken at the module termi-

Figure 16. Output Voltage and Efficiency Test Setup.

Data Sheet

March 28, 2008

inductance (L

battery impedance. Measure current as shown above.

with a 47 µF tantalum capacitor .Position the load between 51

mm and 76 mm (2 in and 3 in) from the module

nals, as shown above. If sockets are used then Kelvin con-

nections are required at the module terminals to avoid

measurement

BAT T ER Y

Test Setup.

T O O SC ILLO SC O PE

TEST

⎛

⎝

errors due to socket contact resistance.

[

------------------------------------------------

[

) of 500nH. Capacitor CS offsets possible

O(+)

I(+)

ESR < 0.1 •

@ 20 °C , 100 k H z

–

220 µ F

–

500 nH

O(-)

I(-)

]

⎞

⎠

100

( + )

( –)

5 Vdc Input; 1.5 Vdc to 3.3 Vdc Output; 20 W

Design Considerations

Input Source Impedance

The power SIP should be connected to a low ac- impedance

input source. Highly inductive source impedances can affect

the stability of the SIP. Adding external capacitance close to

the input pins of the SIP can reduce the ac impedance and

ensure system stability. The minimum recommended input

capacitance (C1) is a 100 µF electrolytic capacitor (see Fig-

ures 17 and 19).

Figure 17.

To reduce the amount of ripple current fed back to the input

supply (input reflected-ripple current), an external input filter

can be added. Up to 10 µF of ceramic capacitance (C2) may

be externally connected to the input of the SIP, provided the

source inductance (LSOURCE) is less than 1 µH (see Figure

17).

To further reduce the input reflected-ripple current, a

filter inductor (LFILTER) can be connected between the sup-

ply and the external input capacitors (see Figure 18).

As mentioned above, a 100 µF electrolytic capacitor (C1)

should be added across the input of the SIP to ensure stabil-

ity of the unit. The electrolytic capacitor should be selected

for ESR and RMS current ratings to ensure safe operation in

the case of a fault condition. Refer to Figure 19 for the

appropriate electrolytic capacitor ratings.

When using a tantalum input capacitor, take care not to

exceed device power rating because of the capacitor’s fail-

ure mechanism (for example, a short circuit). The

filter inductor should be rated to handle the maximum power

SIP input current of 6.1 Adc.

If the amount of input reflected-ripple current is unaccept-

able with an external L-C filter, more capacitance may be

added across the input supply to form a C-L-C filter. For best

results, the filter components should be mounted close to

the power SIP.

Setup with External Capacitor to Reduce

Input Ripple Voltage .

NH020-Series Power SIPs:

NH020Y2 Lineage Power, NH020Y2 Datasheet - Page 8

NH020Y2

Specifications of NH020Y2

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