AXH010A0M93-SRZ Lineage Power, AXH010A0M93-SRZ Datasheet - Page 8
AXH010A0M93-SRZ
Manufacturer Part Number
AXH010A0M93-SRZ
Description
DC/DC Converters & Regulators 3-5.5Vin 1.5Vout 10A SMT Remote Sense
Manufacturer
Lineage Power
Series
AXH010r
Datasheet
1.AXH010A0YZ.pdf
(15 pages)
Specifications of AXH010A0M93-SRZ
Product
Non-Isolated / POL
Output Power
15 W
Input Voltage Range
3 V to 5.5 V
Number Of Outputs
1
Output Voltage (channel 1)
1.5 V
Output Current (channel 1)
10 A
Package / Case Size
SMD
Output Type
Isolated
Output Voltage
1.5 V
Package / Case
SMD
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Other names
CC109106944
Lineage Power
Test Configurations
Note: Measure input reflected ripple current with a simulated source
Figure 15. Input Reflected Ripple Current Test Setup.
Note: Scope measurements should be made using a BNC socket,
Figure 16. Peak-to-Peak Output Ripple Measurement
Note: All voltage measurements to be taken at the module termi-
Figure 17. Output Voltage and Efficiency Test Setup.
CONTACT RESISTANCE
BATTERY
Data Sheet
October 1, 2009
SUPPLY
inductance (L
tery impedance. Measure current as shown above.
with a 10 µF tantalum capacitor and a 1 µF ceramic capcitor.
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
GND
TO OSCILLOSCOPE
V
I
I
O
Test Setup.
η
=
TEST
⎛
⎝
errors due to socket contact resistance.
COPPER STRIP
[
------------------------------------------------
1µF
CERAMIC
V
C
ESR < 0.1 Ω
@ 20 °C, 100 kHz
[
) of 1µH. Capacitor CS offsets possible bat-
V
S
O(+)
220 μF
I(+)
V
I
–
1 µH
10 µF
TANTALUM
–
GND
L
V
V
O(-)
I(-)
V
]
]
O
×
×
I
I
2 x 100µF
Tantalum
SCOPE
I
O
⎞
⎠
DISTRIBUTION LOSSES
×
I
O
100
CONTACT AND
Austin Lynx
RESISTIVE
LOAD
3.0 Vdc - 5.5 Vdc Input, 0.9 Vdc - 3.3 Vdc Output, 10 A
LOAD
V
V
I
I
(+)
(–)
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.
18 shows the input ripple voltage (mVp-p) for various output
models using a 150 µF low ESR polymer capacitor (Pana-
sonic p/n: EEFUE0J151R, Sanyo p/n: 6TPE150M) in parallel
with 47 µF ceramic capacitor (Panasonic p/n: ECJ-
5YB0J476M,
Taiyo Yuden p/n: CEJMK432BJ476MMT). Figure 19 depicts
much lower input voltage ripple when input capacitance is
increased to 450 µF (3 x 150 µF) polymer capacitors in par-
allel with 94 µF (2 x 47 µF) ceramic capacitor.
The input capacitance should be able to handle an AC ripple
current of at least:
Figure 18. Input Voltage Ripple for Various
Figure 19. Input Voltage Ripple for Various
TM
I
rms
100
200
150
100
75
50
25
50
0
0
0.5
SIP Non-Isolated dc-dc Power Modules:
0.5
=
I
out
Output Models, IO = 10 A
(CIN = 150 µF polymer // 47 µF ceramic).
Output Models, IO = 10 A
(CIN = 3x150 µF polymer // 2x47 µF ceramic).
V
---------- - 1
V
1
1
V
out
in
V
I
V
= 3.3 V
I
V
I
= 3.3 V
= 5 V
I
OUTPUT VOLTAGE, V
= 5 V
–
OUTPUT VOLTAGE, V
V
---------- -
V
1.5
1.5
out
in
2
2
A
rms
O
O
(Vdc)
(Vdc)
2.5
2.5
3
3
8
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