NICHICON LQR2G272MSEG

ALUMINUM ELECTROLYTIC CAPACITORS
QR
Screw Terminal Type, High speed charge-discharge
series
Suited for high frequency regenerative voltage for AC servomotor,
general inverter.
Suited for equipment used at valtage fluctuating area.
Suited for rectifier circuit of voltage doubler
Available for adapted to the RoHS directive (2002/95/EC).
QR
Hi speed
chargedischarge
NX
Specifications
Item
Performance Characteristics
Category Temperature Range
Rated Voltage Range
Rated Capacitance Range
– 25 ~ +85°C
Capacitance Tolerance
± 20% at 120Hz, 20°C
Leakage Current
After 5 minutes' application of rated voltage, leakage current is not more than 3 CV (µA) or 5 mA, whichever is smaller (at 20°C).
[C : Rated Capacitance(µF), V : Voltage ( V ) ]
350 ~ 450V
680 ~ 15000µF
(Measurement frequency:120Hz,
tan δ
Rated voltage (V)
tan δ (MAX.)
350
0.15
Rated voltage (V)
Stability at Low Temperature
Temperature:20°C)
400
0.15
450
0.15
Measurement frequency : 120Hz
350 ~ 450
Z – 25°C / Z+20°C
8
Impedance ratio ZT/Z20(MAX.)
Endurance of chargedischarge behavior
After an application of charge-discharge voltage for 20million times
(charge-discharge voltage difference(∆V)=rated voltage × 0.3, cycle
3Hz)capacitors shell meet the characteristics requirement listed at
right
Endurance
After an application of DC voltage (in the range of rated voltage even after
over-lapping the standard ripple current) for 5,000 hours at 85°C, capacitors
meet the characteristics requirements listed at right.
Shelf Life
After storing the capacitors under no load at 85°C for 1000 hours, and after performing voltage treatment based on JIS C 5101-4 clause 4.1 at 20°C,
they will meet the specified value for endurance characteristics listed above.
Marking
Printed with white color letter on darkbrown sleeve.
Capacitance change
tan δ
Leakage current
Appearance
Within ±20% of initial value
300% or less of initial specified value
Initial specified value or less
There shell be found to remarkable abnormality on the capacitor
Capacitance change
tan δ
Leakage current
Within ±20% of initial value
300% or less of initial specified value
Initial specified value or less
φ 51 ~ 90 Screw terminal type
Drawing
Bottom plate
f 35 Screw terminal type
¡
120
Hexagenal headed bolt
Sleeve
Pressure relief vent
W±1
Sleeve
3.5
10
30¡
45±1
35 +2MAX
+
S
12.7±1
Pressure relief vent
h
7
10
T
P ±2
A ±2
B
H ±1
L+ MAX.
24
U
S
15±0.5
P
6±1
+3MAX.
T
L
B
3-leg brackets for φ90 capacitors have different
hole shapes from the ordinary ones illustrated
below.
29±1
U
±1
A ±2
Bottom plate
D + 2 MAX.
Hexagenal headed bolt (M5)
P
5
Pressure relief vent
30¡
7
Type numbering system (Example : 400V 1800µF)
1
2
3
4
5
6
7
8
9
10 11
φD
51
63.5
76.2
90
12 13 14
L QR 2 G 1 8 2 M S E F
Mounting bracket
Case dia. code
Configuration
Capacitance tolerance (±20%)
Rated Capacitance (1800µF)
Rated voltage (400V)
Series name
Type
Configuration
Cr (III) Plating
(RoHS compliant)
SE
Resin bushing available upon request.
Please contact us if PVCless products are required
φD Code
C
35
F
51
63.5 G
76.2 H
J
90
(φ35)
Code less 2-leg brackets
BN
No brackets
(φ51 ~ φ90)
Code less 3-leg brackets
2-leg brackets
BB
No brackets
BN
(mm)
Dimension of terminal pitch (W) and length (R) and Nominal dia. of bolt
W
22.0
28.6
31.8
31.8
α
3
3
3
3
R
6
6
6
6
Nominal dia. of bolt
M5
M5
M5
M5
Dimension of mounting bracket
φD
Symbol
P
A
T
S
U
°
H
h
(mm)
3--Leg
Leg shape
51
32.5
38.5
7.5
5.0
12
60
20
15
63.5
38.1
43
8.0
5.0
14
60
25
20
76.2
44.5
49.2
7.0
5.0
14
60
30
24
2--Leg
90
50.8
58.5
8.0
5.0
18
60
35
25
51
33.2
40
6.0
4.5
14
30
25
15
63.5
40.5
46.5
7.0
4.5
14
30
35
20
76.2
46.5
53
6.0
4.5
14
30
35
20
90
53
59
6.0
4.5
14
30
35
20
Dimension table in next page.
CAT.8100V
ALUMINUM ELECTROLYTIC CAPACITORS
QR
series
Dimensions
350V (2V)
V (code)
Surge
Cap.
(µF)
820
1000
1800
2200
Size
φD × L(mm)
35 × 80
35 × 100
51 × 80
51 × 100
51 × 110
2700
63.5 × 80
3300
63.5 × 90
3900
4700
5600
51
× 130
63.5 × 110
76.2 × 80
51 × 170
76.2 × 900
63.5 × 150
76.2 × 110
63.5 × 170
6800
8200
10000
12000
15000
76.2 × 130
90 × 100
63.5 × 190
76.2 × 150
76.2 × 170
90 × 130
76.2 × 190
90 × 190
Rated
ripple
(Arms)
3.3
Surge
Cap.
(µF)
0.15
1.77
LQR2V102MSEC
820
7.2
0.15
2.38
LQR2V182MSEF
1500
9.1
0.15
2.63
LQR2V222MSEF
1800
10.8
0.15
2.91
LQR2V272MSEF
2200
10.6
0.15
2.91
LQR2V272MSEG
2700
12.4
0.15
3.22
LQR2V332MSEF
11.9
0.15
3.22
LQR2V332MSEG
14.6
0.15
3.50
LQR2V392MSEG
14.1
0.15
3.50
LQR2V392MSEH
17.0
0.15
3.84
LQR2V472MSEF
16.4
0.15
3.84
LQR2V472MSEH
20.4
0.15
4.20
LQR2V562MSEG
19.7
0.15
4.20
LQR2V562MSEH
23.5
0.15
4.62
LQR2V682MSEG
22.9
0.15
4.62
LQR2V682MSEH
22.5
0.15
4.62
LQR2V682MSEJ
27.1
0.15
5.00
26.4
0.15
31.1
1200
1500
35 × 110
51 × 80
51 × 100
51 × 110
2200
63.5 × 100
2700
76.2 × 80
51 × 130
51 × 150
63.5 × 130
76.2 × 100
63.5 × 150
76.2 × 110
90 × 90
63.5 × 170
4700
76.2 × 130
90 × 110
5600
63.5 × 190
6800
76.2 × 170
8200
10000
12000
35 × 80
3.2
450V
Leakage Current
tan δ
Code
(mA)
LQR2G681MSEC
0.15
1.56
4.1
0.15
1.71
LQR2G821MSEC
7.5
0.15
2.32
LQR2G152MSEF
9.1
0.15
2.54
LQR2G182MSEF
10.4
0.15
2.81
LQR2G222MSEF
11.5
0.15
3.11
LQR2G272MSEG
13.7
0.15
3.44
LQR2G332MSEF
13.2
0.15
3.44
LQR2G332MSEG
16.0
0.15
3.74
LQR2G392MSEG
15.3
0.15
3.74
LQR2G392MSEH
18.7
0.15
4.11
LQR2G472MSEG
18.3
0.15
4.11
LQR2G472MSEH
22.0
0.15
4.48
LQR2G562MSEG
21.4
0.15
4.48
LQR2G562MSEH
25.4
0.15
4.94
LQR2G682MSEH
28.6
0.15
5.00
LQR2G822MSEH
27.8
0.15
5.00
LQR2G822MSEJ
32.7
0.15
5.00
LQR2G103MSEJ
37.6
0.15
5.00
LQR2G123MSEJ
43.0
0.15
5.00
LQR2G153MSEJ
35 × 100
51 × 80
51 × 90
51 × 110
63.5 × 900
51 × 150
63.5 × 110
3900
63.5 × 130
4700
63.5 × 150
5600
63.5 × 170
6800
76.2 × 150
76.2 × 900
76.2 × 110
76.2 × 130
8200
LQR2V822MSEG
10000
90 × 150
5.00
LQR2V822MSEH
12000
0.15
5.00
LQR2V103MSEH
15000
30.2
0.15
5.00
LQR2V103MSEJ
35.7
0.15
5.00
LQR2V123MSEH
40.5
0.15
5.00
LQR2V153MSEJ
90 × 130
90 × 170
90 × 220
500V
Size
φD × L(mm)
35 × 100
63.5 × 80
3900
Rated
ripple
(Arms)
450V (2W)
1800
3300
3300
Size
φD × L(mm)
76.2 × 170
Surge
820
680
4.3
V (code)
Cap.
(µF)
680
400V (2G)
V (code)
400V
Leakage Current
tan δ
Code
(mA)
LQR2V821MSEC
0.15
1.60
90 × 130
90 × 150
90 × 190
90 × 220
Rated
ripple
(Arms)
tan δ
Leakage Current
Code
(mA)
LQR2W681MSEC
1.65
3.5
0.15
3.9
0.15
1.82
LQR2W821MSEC
5.2
0.15
2.20
LQR2W122MSEF
6.3
0.15
2.46
LQR2W152MSEF
7.4
0.15
2.70
LQR2W182MSEF
7.9
0.15
2.70
LQR2W182MSEG
8.7
0.15
2.98
LQR2W222MSEF
8.6
0.15
2.98
LQR2W222MSEG
10.2
0.15
3.30
LQR2W272MSEF
10.0
0.15
3.30
LQR2W272MSEH
12.4
0.15
3.65
LQR2W332MSEG
11.8
0.15
3.65
LQR2W332MSEH
13.7
0.15
3.97
LQR2W392MSEG
14.1
0.15
3.97
LQR2W392MSEH
13.6
0.15
3.97
LQR2W392MSEJ
16.5
0.15
4.36
LQR2W472MSEG
16.3
0.15
4.36
LQR2W472MSEH
15.8
0.15
4.36
LQR2W472MSEJ
19.4
0.15
4.76
LQR2W562MSEG
19.1
0.15
4.76
LQR2W562MSEJ
23.3
0.15
5.00
LQR2W682MSEH
26.1
0.15
5.00
LQR2W822MSEJ
31.3
0.15
5.00
LQR2W103MSEJ
35.5
0.15
5.00
LQR2W123MSEJ
Rated Ripple (Arms) at 85°C 120Hz
Frequency coefficient of rated ripple current
Frequency (Hz)
Coefficient
60
0.82
120
1.00
360
1.20
1k
1.35
10k~
1.40
CAT.8100V