Murata NCA0161501BP-XC Non-isolated 16a sip/smt dc/dc converter Datasheet

Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
Features:
9 Small size, minimal footprint – SMT/SIP package
9 16A Output Current (all voltages)
9 High Efficiency: up to 95%
9 High reliability
9 RoHS Compliant
9 Cost efficient open frame design
9 Output voltage programmable by an external resistor.
9 Monotonic Startup with Pre-Bias
9 +’ve Enable Logic and –‘ve Enable Logic models available
9 Optional Power Good Signal
9 Sequencing / Tracking Feature
Output
PARD
(mVp-p)
Regulation
Max
Input
Vin
Nom.
(V)
Range
(V)
Iin
Typ
(A)
Efficiency
Full Load
Vout
(V)
Iout
(A)
0.75
16
Typ.
50
Max.
75
Line
+/-0.2%
Load
+/-0.5%
12
6.0 – 14
1.299
Typ.
77%
1.2
16
50
75
+/-0.2%
+/-0.5%
12
6.0 – 14
1.928
83%
1.5
16
50
75
+/-0.2%
+/-0.5%
12
6.0 – 14
2.326
86%
1.8
16
50
75
+/-0.2%
+/-0.5%
12
6.0 – 14
2.727
88%
2.0
16
50
75
+/-0.2%
+/-0.5%
12
6.0 – 14
2.996
89%
2.5
16
50
75
+/-0.2%
+/-0.5%
12
6.0 – 14
3.704
90%
3.3
16
50
75
+/-0.2%
+/-0.5%
12
6.0 – 14
4.783
92%
5.0
16
50
75
+/-0.2%
+/-0.5%
12
6.5 – 14
7.092
94%
Technical enquiries email: [email protected], tel: +508 339 3000
1
NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
Input Characteristics
Input Voltage Operating Range
Input Reflected Ripple Current
Inrush Current Transient
Input Filter Type (external)
Input Turn ON Threshold
Input Turn OFF Threshold
Enable
(Positive enable has 20K pullup)
(Negative enable has no internal
pullup resistor)
Output Characteristics
Vout Accuracy
Output Loading
Output Ripple & Noise
@ 20Mhz Bandwidth.
Maximum Capacitive Load
Vout Trim Range (Nom)
Total Accuracy
Current Limit
Output Line Regulation
Output Load Regulation
Turn-on Overshoot
SC Protection Technique
Pre-bias Start-up at output
Dynamic Characteristics
Load Transient
Operating Frequency
Rise Time
Start-Up Time
General Specifications
MTBF
Thermal Protection
Operating Temperature
Operating Ambient Temperature
SIP Dimensions
SMT Dimensions
SIP Pin Dimensions
SMT Block Dimensions
Pin and Block Material
Flammability Rating
Notes & Conditions
Minimum 6.5 V input @ 5 volts output
Min
6.0
Typ.
12
200
Max
14
0.2
Positive enable: ON
Positive enable: OFF
Negative enable: ON; open circuit or
Negative enable: OFF
Notes & Conditions
100% load
100
5.0
4.0
open
<0.4
<0.4
2
Min
-1.5
0
Vdc
Vdc
Vin
Typ.
Low ESR
0.75
Over line/load temperature
Units
Vdc
mA p-p
A2s
PF
V
V
Max
+1.5
16
75
Units
%
A
mVp-p
8000
5.0
PF
V
+0.2
+0.5
1
A
%
%
%
<2%
23
-0.2
-0.5
Hiccup with auto recovery
Unit starts monotonically with prebias
Notes & Conditions
50% step, 0.1A/Ps
Settling Time
Min
2
Max
100
200
Units
mV
Ps
KHz
ms
ms
Max
Units
kHrs
°C
°C
°C
300
3.5
7
10% Vo to 90% Vo
Vin to Vout and On/Off to Vout
Notes & Conditions
Calculated (MIL-HDBK-217F)
Hotspot
Without derating 300LFM
See Power derating curve
2”Lx0.327”Wx0.512”H
(50.8x8.3x13.0mm)
1.30”Lx0.53”Wx0.366”H
(33x13.46x9.3mm)
0.025” (0.64mm) SQUARE
0.063” x0.065” x 0.112”
SQUARE
Matte Sn Finish on component
Leads
UL94V-0
Typ.
Min
Typ.
919.53
110
-40
-40
50
85
0.64
mm
NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
Standards Compliance
CSA C22.2, No.60950/UL 60950, Third Edition (2000), File UL E165113
Thermal Considerations
The power module operates in a variety of thermal environments; however, sufficient cooling should
be provided to help ensure reliable operation of the unit.
The thermal data presented is based on measurements taken at various airflows. Note that airflow is
parallel to the long axis of the module as shown in Figure 1 and derating applies accordingly.
Figure 1. Thermal Tests Set-Up.
The temperature at either location should not exceed 110qC. Over-temperature shutdown is
evaluated at these locations. The output power of the module should not exceed the rated power for
the module(Vo,set X Io,max).
Convection Requirements for Cooling
To predict the approximate cooling needed for the module, refer to the Power Derating Curves in
Figures 2-17 .
These derating curve are approximations of the ambient temperature and airflow required to keep the
power module temperature below it's maximum rating. Once the module is assembled in the actual
system, the module's temperature should be verified.
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NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
TYPICAL DERATING CURVES SIP/SMT VERSION
Output Current (A
NFA016
SMT Derating
Curve
Vout=0.75V
SMT16W-12S05A
Vo=0.75V
Derating
Curve
18
16
14
12
10
8
6
4
2
0
0LFM
100LFM
200LFM
300LFM
30
40
50
60
70
80
90
Ambient Temperature (C)
Fig. 2. SMT Power Derating vs Output Current for 12Vin 0.75V Out.
Output Current (A)
SIP16W-12S05A Derating Curve V1.0 Vout=0.75V
NFA016
SIP Derating Curve Vout=0.75V
18
16
14
12
10
8
6
4
2
0
0LFM
100LFM
200LFM
300LFM
30
40
50
60
70
80
90
Ambient Temperature (C)
Fig. 3. SIP Power Derating vs Output Current for 12Vin 0.75V Out.
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NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
NFA016 SMT Derating
Vout=1.2V
SMT16W-12S05A
Vo=1.2VCurve
Derating
Curve
Output Current (A
18
16
14
12
10
8
6
4
2
0
0LFM
100LFM
200LFM
300LFM
30
40
50
60
70
80
90
Ambient Temperature (C)
Fig 4. SMT Power Derating vs Output Current for 12Vin 1.2V Out.
SIP16W-12S05A Derating Curve V1.0 Vout=1.2V
Output Current (A)
NFA016 SIP Derating Curve Vout=1.2V
18
16
14
12
10
8
6
4
2
0
0LFM
100LFM
200LFM
300LFM
30
40
50
60
70
80
90
Ambient Temperature (C)
Fig 5. SIP Power Derating vs Output Current for 12Vin 1.2V Out.
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NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
NFA016 SMT Derating
Vout=1.5V
SMT16W-12S05A
Vo=1.5VCurve
Derating
Curve
Output Current (A
18
16
14
12
10
8
6
4
2
0
0LFM
100LFM
200LFM
300LFM
30
40
50
60
70
80
90
Ambient Temperature (C)
Fig 6. SMT Power Derating vs Output Current for 12Vin 1.5V Out.
SIP16W-12S05A Derating Curve V1.0 Vout=1.5V
Output Current (A)
NFA016 SIP Derating Curve Vout=1.5V
18
16
14
12
10
8
6
4
2
0
0LFM
100LFM
200LFM
300LFM
30
40
50
60
70
80
90
Ambient Temperature (C)
Fig 7. SIP Power Derating vs Output Current for 12Vin 1.5V Out.
6
NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
Output
Current
(A) (A)
Output
Current
NFA016
SMT Derating
Curve
Vout=1.8V
SMT16W-12S05A
Vo=1.8V
Derating
Curve
18
16
14
12
10
8
6
4
2
0
0LFM
100LFM
200LFM
300LFM
30
40
50
60
70
80
90
Ambient Temperature (C)
Fig 8. SMT Power Derating vs Output Current for 12Vin 1.8V Out.
SIP16W-12S05A Derating Curve V1.0 Vout=1.8V
Output Current (A)
NFA016 SIP Derating Curve Vout=1.8V
18
16
14
12
10
8
6
4
2
0
0LFM
100LFM
200LFM
300LFM
30
40
50
60
70
80
90
Ambient Temperature (C)
Fig 9. SIP Power Derating vs Output Current for 12Vin 1.8V Out.
7
NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
Output Current (A)
NFA016 SMT Derating
Vout=2.0V
SMT16W-12S05A
Vo=2.0VCurve
Derating
Curve
18
16
14
12
10
8
6
4
2
0
0LFM
100LFM
200LFM
300LFM
30
40
50
60
70
80
90
Ambient Temperature (C)
Fig 10. SMT Power Derating vs Output Current for 12Vin 2.0V Out.
SIP16W-12S05A Derating Curve V1.0 Vout=2.0V
Output Current (A)
NFA016 SIP Derating Curve Vout=2.0V
18
16
14
12
10
8
6
4
2
0
0LFM
100LFM
200LFM
300LFM
30
40
50
60
70
80
90
Ambient Temperature (C)
Fig 11. SIP Power Derating vs Output Current for 12Vin 2.0V Out.
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NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
Output Current (A
NFA016 SMT Derating
Vout=2.5V
SMT16W-12S05A
Vo=2.5VCurve
Derating
Curve
18
16
14
12
10
8
6
4
2
0
0LFM
100LFM
200LFM
300LFM
30
40
50
60
70
80
90
Ambient Temperature (C)
Fig 12. SMT Power Derating vs Output Current for 12Vin 2.5V Out.
SIP16W-12S05A derating curve V1.0 Vout=2.5V
Output Current (A)
NFA016 SIP Derating Curve Vout=2.5V
18
16
14
12
10
8
6
4
2
0
0LFM
100LFM
200LFM
300LFM
30
40
50
60
70
80
90
Ambient Temperature(oC)
Fig 13. SIP Power Derating vs Output Current for 12Vin 2.5V Out.
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NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
Output Current (A
NFA016 SMT Derating
Vout=3.3V
SMT16W-12S05A
Vo=3.3VCurve
Derating
Curve
18
16
14
12
10
8
6
4
2
0
0LFM
100LFM
200LFM
300LFM
30
40
50
60
70
80
90
Ambient Temperature (C)
Fig. 14. SMT Power Derating vs Output Current for 12Vin 3.3V Out.
SIP16W-1
2S05A
Derating Curve
V1.2 Vout=3.3V
Vout=3.3V
NFA016
SIP
Derating
Curve
18
Output Current (A)
16
14
12
10
0LFM
8
100LFM
200LFM
6
4
300LFM
2
0
30
40
50
60
70
80
90
Ambient Temperature(oC)
Fig 15. SIP Power Derating vs Output Current for 12Vin 3.3V Out.
10
NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
Output Current (A
NFA016 SMT Derating
Vout=5.0V
SMT16W-12S05A
Vo=5.0VCurve
Derating
Curve
18
16
14
12
10
8
6
4
2
0
0LFM
100LFM
200LFM
300LFM
30
40
50
60
70
80
90
Ambient Temperature (C)
Fig. 16. SMT Power Derating vs Output Current for 12Vin 5.0V Out
SIP16W-12S05A Derating Curve V1.0 Vout=5.0V
Output Current (A)
NFA016 SIP Derating Curve Vout=5.0V
18
16
14
12
10
8
6
4
2
0
0LFM
100LFM
200LFM
300LFM
30
40
50
60
70
80
90
Ambient Temperature(oC)
Fig 17. SIP Power Derating vs Output Current for 12Vin 5.0V Out.
11
NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
TYPICAL EFFICIENCY CURVES FOR VARIOUS VOLTAGE MODELS SIP/SMT VERSION.
NFA016
SMT EfficiencyVo:
Curve
Vout=0.75V
SMT16W-12S05A
0.75V
(Eff Vs Io)
Efficiency (%
95%
85%
75%
6V
12V
14V
65%
55%
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
13
14
15
16
Current Load (A)
Fig 18. SMT Efficiency Curves for Vout=075V (25C)
SIP16W-12S05A
Vo:Vout=0.75V
0.75V (Eff Vs Io)
NFA016 SIP
Efficiency Curve
Efficiency (%
95%
85%
6V
75%
12V
14V
65%
55%
0
1
2
3
4
5
6
7
8
9
10
11
12
Current Load (A)
Fig 19. SIP Efficiency Curves for Vout=0.75V (25C)
12
NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
SMT16W-12S05A
1.2V
(Eff Vs Io)
NFA016
SMT EfficiencyVo:
Curve
Vout=1.2V
100%
Efficiency (%
90%
80%
6V
12V
14V
70%
60%
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
13
14
15
16
Current Load (A)
Fig 20. SMT Efficiency Curves for Vout=1.2V (25C)
SIP16W-12S05A
Vo:Vout=1.2V
1.2V (Eff Vs Io)
NFA016 SIP
Efficiency Curve
100%
Efficiency (%
90%
80%
6V
12V
14V
70%
60%
0
1
2
3
4
5
6
7
8
9
10
11
12
Current Load (A)
Fig 21. SIP Efficiency Curves for Vout=1.2V (25C)
13
NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
SMT16W-12S05A
1.5V
(Eff Vs Io)
NFA016
SMT Efficiency Vo:
Curve
Vout=1.5V
100%
Efficiency (%
95%
90%
85%
6V
12V
80%
14V
75%
70%
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
13
14
15
16
Current Load (A)
Fig 22. SMT Efficiency Curves for Vout=1.5V (25C)
NFA016SIP16W-12S05A
SIP Efficiency Curve
Vout=1.5V
Vo: 1.5V
(Eff Vs Io)
100%
Efficiency (%
95%
90%
85%
6V
12V
80%
14V
75%
70%
0
1
2
3
4
5
6
7
8
9
10
11
12
Current Load (A)
Fig 23. SIP Efficiency Curves for Vout=1.5V (25C)
14
NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
SMT16W-12S05A
1.8V
(Eff Vs Io)
NFA016
SMT EfficiencyVo:
Curve
Vout=1.8V
100%
Efficiency (%
95%
90%
85%
6V
12V
80%
14V
75%
70%
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
13
14
15
16
Current Load (A)
Fig 24. SMT Efficiency Curves for Vout=1.8V (25C)
SIP16W-12S05A
Vo:Vout=1.8V
1.8V (Eff Vs Io)
NFA016 SIP
Efficiency Curve
100%
Efficiency (%
95%
90%
85%
6V
12V
80%
14V
75%
70%
0
1
2
3
4
5
6
7
8
9
10
11
12
Current Load (A)
Fig 25. SIP Efficiency Curves for Vout=1.8V (25C)
15
NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
SMT16W-12S05A
(Eff Vs Io)
NFA016
SMT Efficiency Vo:2.0V
Curve Vout=2.0V
100%
Efficiency (%
95%
90%
85%
6V
12V
80%
14V
75%
70%
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
13
14
15
16
Current Load (A)
Fig 26. SMT Efficiency Curves for Vout=2.0V (25C)
NFA016
SIP Efficiency Curve
Vout=2.0V
SIP16W-12S05A
Vo: 2.0V
(Eff Vs Io)
100%
Efficiency (%
95%
90%
85%
6V
12V
80%
14V
75%
70%
0
1
2
3
4
5
6
7
8
9
10
11
12
Current Load (A)
Fig 27. SIP Efficiency Curves for Vout=2.0V (25C)
16
NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
SMT16W-12S05A
2.5V
(Eff Vs Io)
NFA016
SMT EfficiencyVo:
Curve
Vout=2.5V
100%
Efficiency (%
95%
90%
85%
6V
12V
80%
14V
75%
70%
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
13
14
15
16
Current Load (A)
Fig 28. SMT Efficiency Curves for Vout=2.5V (25C)
SIP16W-12S05A
Vo: 2.5V
(Eff Vs Io)
NFA016
SIP Efficiency Curve
Vout=2.5V
100%
Efficiency (%
95%
90%
85%
6V
12V
80%
14V
75%
70%
0
1
2
3
4
5
6
7
8
9
10
11
12
Current Load (A)
Fig 29. SIP Efficiency Curves for Vout=2.5V (25C)
17
NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
SMT16W-12S05A
(Eff Vs Io)
NFA016
SMT Efficiency Vo:3.3V
Curve Vout=3.3V
100%
Efficiency (%
95%
90%
85%
6V
12V
80%
14V
75%
70%
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
13
14
15
16
Current Load (A)
Fig 30. SMT Efficiency Curves for Vout=3.3V (25C)
NFA016
SIP Efficiency
Curve Vout=3.3V
SIP16W-12S05A
Vo:3.3V
(Eff Vs Io)
100%
Efficiency (%
95%
90%
85%
6V
12V
80%
14V
75%
70%
0
1
2
3
4
5
6
7
8
9
10
11
12
Current Load (A)
Fig 31. SIP Efficiency Curves for Vout=3.3V (25C)
18
NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
SMT16W-12S05A
Vo:Curve
5.0VVout=5.0V
(Eff Vs Io)
NFA016
SMT Efficiency
100%
Efficiency (%
95%
90%
6V
85%
12V
14V
80%
75%
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
13
14
15
16
Current Load (A)
Fig 32. SMT Efficiency Curves for Vout=5.0V (25C)
SIP16W-12S05A
Vo:
5.0VVout=5.0V
(Eff Vs Io)
NFA016
SIP Efficiency
Curve
100%
Efficiency (%
95%
90%
6.5V
85%
12V
14V
80%
75%
0
1
2
3
4
5
6
7
8
9
10
11
12
Current Load (A)
Fig 33. SIP Efficiency Curves for Vout=5.0V (25C)
19
NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
Typical Start Up
Ch1. Vin
Ch2. Vout, Full load.
Ch3. Q1-Vgs
Ch4. Q2-Vgs
Typical Start Up with pre-bias
Ch1 : Enable
Ch2 : Vout
Ch3 : Output current at Full Load.
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Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
Typical Output Noise and Ripple
Vin = 12Vdc , Vo=5.0V/16A
Output with 1uF ceramic and 10uF tantalum capacitor
Typical Output Transient Response
Vin = 12Vdc , Vo=5.0V , 50% - 100% - 50% Load change , @2.5A/uS
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Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
Output Voltage Set point adjustment.
NFA Series can also be programmed by applying a voltage between the TRIM and GND pins (Figure
below). The following equation can be used to determine the value of Vtrim needed to obtain a desired
output voltage Vo:
For example, to program the output voltage of NFA Series module to 3.3 Vdc, Vtrim is calculated as
follows:
Circuit Configuration for programming Output voltage using external voltage source
Table 1 provides Rtrim values for some common output voltages, whileTable 2 provides values of the
external voltage source, Vtrim for the same common output voltages.
By using a 1% tolerance trim resistor, set point tolerance of ±2% is achieved as specified in the
electrical specification.
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Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
Remote Sense:
All Celestica SMT/SIP power modules offer an option for remote sense. The remote sense compensates for any
distribution drops to accurately control voltage at the point of load. The voltage between the sense pin to Vout
pin should not exceed 0.5V.
Voltage Sequencing:
NFA series power modules offer the ability to precisely sequence output voltage rise. The sequence feature
limits the output voltage to that presented at the Sequence pin. For example, if the sequence pin is connected
to a variable voltage source, and the converter is enabled, output voltage will track the voltage applied to the
sequence pin, to a maximum of the programmed output voltage. If this feature is not required, the sequence pin
should remain unconnected. In practice, the Sequence pin of a lower voltage converter may be connected to a
higher voltage source to ensure the lower voltage does not exceed the higher voltage during power on and
power off. If multiple NFA series converters are used, all Sequence pins may be connected to the same higher
voltage. In this way, all voltage rails will rise at the same rate, and cease to rise at their respective programmed
output voltages.
SMT Lead free Reflow profile
1. Ramp up rate during preheat : 1.33 ഒ/Sec ( From 30ഒ to 150ഒ )
2. Soaking temperature : 0.29 ഒ/Sec ( From 150ഒ to 180ഒ )
3. Ramp up rate during reflow : 0.8 ഒ/Sec ( From 220ഒ to 250ഒ )
4. Peak temperature : 250ഒ, above 220ഒ 40 to 70 Seconds
5. Ramp up rate during cooling : -1.56 ഒ/Sec ( From 220ഒ to 150ഒ )
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Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
Mechanical and pinning Information.
Given below is the outline drawing showing physical dimensions of the SIP & SMT package.
The external dimensions for SMT package are 33.00mm X 13.46mm X 9.3mm.
BOTTOM VIEW OF BOARD
Recommended Pad Layout
33.0
(1.30)
3.05 (0.120)
4.83
4.83
4.83
8.80
(0.346)
max.
7.54 (0.297)
4.83
4.83
COM
+VO
4.83
1.65
(0.065)
(0.190) (0.190) (0.190) (0.190) (0.190)
SEQ
Dimensions are in millimetes and(inches)
7.54(0.297)
TRIM +SENSE PGood
PGood +SENSE TRIM
10.29
(0.405)
SURFACE MOUNT CONTACT
4.83
COM
L1 INDUCTOR
SEQ
10.92
(0.430)
Top View of Board
0.64
(0.025)
1.91 (0.075)
1.22
(0.048)
2.84
(0.112)
+VO
ON/OFF
ON/OFF
+VIN
4.83
(0.190) (0.190) (0.190) (0.190) (0.190)
10.29 13.46
(0.405) (0.530)
1.60
(0.063)
4.83
3.05 (0.120)
4.83
+VIN
29.90
(1.177)
PAD SIZE
MIN:3.556x2.413(0.140x0.095)
MAX:4.19x2.79(0.165x0.110)
Dimensions are in millimeters(Inches)
Tolerances :X.X = ±0.5mm(0.02in), X.XX = ±0.25mm(0.010in),unless otherwise noted.
Whereas, the external dimensions of the SIP version are 50.8mm X 12.95mm X 8.30mm.
SIZE SIP
0.327(8.30)max.
2.00(50.8)
0.23(5.8)
6 7 8 9 10 11 12
1 2 3 4 5
0.14(3.6)
0.510(12.95)
0.100(2.54)
0.010(0.25)
min.
0.025(0.64)
0.900(22.90)
0.050(1.30)
0.28(7.1)
0.025(0.64)
0.400(10.20)
0.29(7.4)
LAYOUT PATTERN
TOP VIEW
All Dimmension In Inches(mm)
Tolerance :
.XX= ± 0.02 ( .X= ± 0.5 )
.XXX= ± 0.010 ( .XX= ± 0.25 )
0.33(8.4)
1.1mm PLATED THROUGH HOLE
1.6mm PAD SIZE
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PIN CONNECTION
Pin FUNCTION
+Output
1
+Output
2
3
+Sense
+Output
4
5
Common
PGood
6
Common
7
+V Input
8
+V Input
9
Sequence
10
11 Trim
12 On/Off Control
NFA016_6200890000_B01_21/04/08
Murata Power Solutions Non-Isolated 16A SIP/SMT DC/DC Converters
VOLANT NFA016 Series
Safety Considerations
The NFA series of converters are certified to IEC/EN/CSA/UL 60950. If this product is built into information technology
equipment, the installation must comply with the above standard. An external input fuse (no more 20 A recommended)
must be used to meet the above requirements. The output of the converter [Vo(+)/Vo(-)] is considered to remain within
SELV limits when the input to the converter meets SELV or TNV-2 requirements.
The converters and materials meet UL 94V-0 flammability ratings.
Ordering Information
Part Number
NFA0161500B0C
NFA0161500S0C
NFA0161501B0C
NFA0161501S0C
Vin*
6.0V - 14.0V
6.0V - 14.0V
6.0V - 14.0V
6.0V - 14.0V
Vout
0.75V – 5.0V
0.75V – 5.0V
0.75V – 5.0V
0.75V – 5.0V
Iout Enable Logic
16A
Negative
16A
Negative
16A
Positive
16A
Positive
Pin Length
0.139"
SMT
0.139"
SMT
* An input voltage of 6.5 Volts is required for 5 Volt output at full load.
Label Information
NFA0161500B0–XC
C = RoHS Compliant
Iout
X = Factory control character
(not required when ordering)
Vout
0 = Standard. (No PGood option)
P = Power Good Option
Place Holder
Vout Range
F=Fixed
A=Adjustable
Vin (value or range)
C= 3.3V-5.0V
E= 8.3V-14V
F= 6.0V-14V
Pin Length Option
B=0.139”
S=SMT
Enable Logic, 0 for–ve, 1 for +ve
Non-Isolated Family
RoHS Compliant
The NFA016 series of converters is in compliance with the European Union Directive 2002/95/EC (RoHS) with repsect to the following sustances:
lead (Pb), mercury (Hg), cadmium (Cd), hexavalent chromium, polybrominated biphenyls (PBB) or polybrominated diphenyl ethers (PBDE).
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