NIC NSPE391MV6.3X6.3TR13F Hybrid surface mount aluminum electrolytic capacitor Datasheet

Hybrid Surface Mount Aluminum
Electrolytic Capacitors
NSPE Series
FEATURES
• CYLINDRICAL V-CHIP CONSTRUCTION FOR SURFACE MOUNTING
• SUPER LOW ESR & HIGH RIPPLE CURRENT
RoHS
• CAPACITANCE VALUES UP TO 820µF
Compliant
includes all homogeneous materials
• 6.3x6.3mm ~ 10x10.8mm CASE SIZES
• DESIGNED FOR REFLOW SOLDERING
*See Part Number System for Details
CHARACTERISTICS
4 ~ 10Vdc
22 ~ 820µF
-55 ~ +105°C
±20% (M)
Less than 0.1CV or 50µA
whichever is greater
W.V. (Vdc)
S.V. (Vdc)
All Case Sizes
Z -55°C/Z +20°C
Z +105°C/Z +20°C
Capacitance Change
Tan δ
Leakage Current
Rated Voltage Range
Rated Capacitance Range
Operating Temp. Range
Capacitance Tolerance
Max. Leakage Current
After 2 Minutes @ 20°C
Working and Surge Voltage Ratings
Tan δ @ 120Hz/20°C
Impedance Ratio
Load Life Test @ 105°C
6.3mm Dia. and All 4Vdc parts = 1,000 Hours
8mm ~ 10mm Dia. parts = 2,000 Hours
LOW ESR COMPONENT
HYBRID ELECTROLYTE
For Performance Data
see www.LowESR.com
4
4.6
0.24
6.3
10
7.2
11.5
0.22
0.20
2.5
1.0
Within ±20% of initial measured value
Less than 200% of specified max. value
Less than specified max. value
MAXIMUM PERMISSIBLE RIPPLE CURRENT
(mA rms AT 100KHz AND 105OC)
MAXIMUM ESR
(mΩ AT 100KHz AND 20OC)
Working Votage (Vdc)
4.0
6.3
10
22
1,020
33
1,020
47
1,020
100
1,120
1,550
150
1,550
220
1,550
1,550
1,550*
330
1,550
2090
390
1,550
2,090
470
1,550
2,090
2,090*
560
2,090
680
2,090
820
2,180
*Low temperature reflow soldering only
Working Votage (Vdc)
4.0
6.3
10
22
60
33
60
47
60
100
50
30
150
30
220
30
30
30*
330
30
25
390
30
25
470
30
25
25*
560
25
680
25
820
23
*Low temperature reflow soldering only
Cap. (µF)
Cap. (µF)
PART NUMBER SYSTEM
Part Marking
NSPE 471 M 4V 8x10.8 TR 13 F
Series Code
RoHS Compliant
97% Sn (min.), 3% Bi (max.)
330mm (13”) Reel
Tape & Reel
Size in mm
Working Voltage
Tolerance Code M=20%
Capacitance Code in µF, first 2 digits are significant
Third digit is no. of zeros, “R” indicates decimal for
values under 10µF
Lot Code
E17
470
4V
Series
Capacitance Value
Voltage
PRECAUTIONS
®
NIC COMPONENTS CORP.
Please review the notes on correct use, safety and precautions found on pages T10 & T11
of NIC’s Electrolytic Capacitor catalog.
Also found at www.niccomp.com/precautions
If in doubt or uncertainty, please review your specific application - process details with
NIC’s technical support personnel: [email protected]
www.niccomp.com
www.lowESR.com
www.RFpassives.com
www.SMTmagnetics.com
51
Hybrid Aluminum Electrolytic Capacitors
NSPE Series
STANDARD PRODUCT AND CASE SIZE TABLE Dφ x L (mm)
Working Voltage (Vdc)
4.0
6.3
10
22
220
6.3 x 6.3
33
330
6.3 x 6.3
47
470
6.3 x 6.3
100
101
6.3 x 6.3
8 x 10.8
150
151
8 x 10.8
220
221
8 x 10.8
8 x 10.8
8 x 10.8*
330
331
8 x 10.8
10 x 10.8
390
391
8 x 10.8
10 x 10.8
10 x 10.8 10 x 10.8*
470
471
8 x 10.8
560
561
10 x 10.8
680
681
10 x 10.8
820
821
10 x 10.8
*Low temperature reflow soldering only
Cap (µF)
Code
Dφ
L
0.3mm max.
+
I
-
I
W
A
P
DIMENSIONS (mm)
Dφ ±0.5
6.3
8.0
10
L max.
6.3
10.8
10.8
A/B ±0.2
6.8
8.3
10.3
W
0.5 ~ 0.8
0.7 ~ 1.0
1.1 ~ 1.4
I ±0.2
2.55
2.9
3.2
B
P ±0.2
2.2
3.2
4.6
PEAK TEMPERATURE AND DURATION
Preheat
(120 sec. max.)
6.3mm/4V ~ 10V
150°C ~ 180°C
8.0mm/4V ~ 10V
150°C ~ 180°C
10mm/4V ~ 10V
150°C ~ 180°C
NSPE471M6.3V10x10.8TRxxF 150°C ~ 180°C
NSPE331M10V8x10.8TRxxF
<150°C
NSPE471M10V10x10.8TRxxF
Diameter/Voltage
Peak
Temperature
250°C/5 sec.
240°C/5 sec.
235°C/5 sec.
240°C/5 sec.
Time above
200°C
60 sec. max.
60 sec. max.
50 sec. max.
60 sec. max.
Time above
230°C
40 sec. max.
30 sec. max.
5 sec. max.
30 sec. max.
230°C/5 sec.
30 sec. max.
-
LAND PATTERN DIM. (mm)
Case Dia.
6.3
8
10
A
3.5
4.2
4.4
B
1.6
2.2
2.2
P
1.9
3.1
4.5
Temperature - Deg. C
RECOMMENDED REFLOW SOLDERING PROFILE
Peak Temperature
(see table)
230
-
Time Above 230°C
(see table)
200
B
150
100
+
Time Above 200°C
(see table)
Preheat - 120 seconds max.
(see table for temperature)
50
A
P
A
Time (Seconds)
Review & Compare Reflow Soldering Heat Limits
V-chip SMT Aluminum Electrolytic Capacitors
www.niccomp.com/RSL
®
52
NIC COMPONENTS CORP.
www.niccomp.com
www.lowESR.com
www.RFpassives.com
www.SMTmagnetics.com
Similar pages